// ==ClosureCompiler== // @compilation_level SIMPLE_OPTIMIZATIONS /** * @license Highcharts JS v2.2.1 (2012-03-15) * * (c) 2009-2011 Torstein Hønsi * * License: www.highcharts.com/license */ // JSLint options: /*global Highcharts, document, window, navigator, setInterval, clearInterval, clearTimeout, setTimeout, location, jQuery, $, console */ (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, isIE = /msie/i.test(userAgent) && !win.opera, docMode8 = doc.documentMode === 8, isWebKit = /AppleWebKit/.test(userAgent), isFirefox = /Firefox/.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 && !isIE && !!doc.createElement('canvas').getContext, Renderer, hasTouch = doc.documentElement.ontouchstart !== UNDEFINED, symbolSizes = {}, idCounter = 0, garbageBin, defaultOptions, dateFormat, // function globalAnimation, pathAnim, timeUnits, // 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', /* * Empirical lowest possible opacities for TRACKER_FILL * IE6: 0.002 * IE7: 0.002 * IE8: 0.002 * IE9: 0.00000000001 (unlimited) * FF: 0.00000000001 (unlimited) * Chrome: 0.000001 * Safari: 0.000001 * Opera: 0.00000000001 (unlimited) */ TRACKER_FILL = 'rgba(192,192,192,' + (hasSVG ? 0.000001 : 0.002) + ')', // invisible but clickable //TRACKER_FILL = 'rgba(192,192,192,0.5)', NORMAL_STATE = '', HOVER_STATE = 'hover', SELECT_STATE = 'select', MILLISECOND = 'millisecond', SECOND = 'second', MINUTE = 'minute', HOUR = 'hour', DAY = 'day', WEEK = 'week', MONTH = 'month', YEAR = 'year', // constants for attributes FILL = 'fill', LINEAR_GRADIENT = 'linearGradient', STOPS = 'stops', STROKE = 'stroke', STROKE_WIDTH = 'stroke-width', // time methods, changed based on whether or not UTC is used makeTime, getMinutes, getHours, getDay, getDate, getMonth, getFullYear, setMinutes, setHours, setDate, setMonth, setFullYear, // check for a custom HighchartsAdapter defined prior to this file globalAdapter = win.HighchartsAdapter, adapter = globalAdapter || {}, // Utility functions. If the HighchartsAdapter is not defined, adapter is an empty object // and all the utility functions will be null. In that case they are populated by the // default adapters below. getScript = adapter.getScript, each = adapter.each, grep = adapter.grep, offset = adapter.offset, map = adapter.map, merge = adapter.merge, addEvent = adapter.addEvent, removeEvent = adapter.removeEvent, fireEvent = adapter.fireEvent, animate = adapter.animate, stop = adapter.stop, // lookup over the types and the associated classes seriesTypes = {}; // The Highcharts namespace win.Highcharts = {}; /** * Extend an object with the members of another * @param {Object} a The object to be extended * @param {Object} b The object to add to the first one */ function extend(a, b) { var n; if (!a) { a = {}; } for (n in b) { a[n] = b[n]; } return a; } /** * Take an array and turn into a hash with even number arguments as keys and odd numbers as * values. Allows creating constants for commonly used style properties, attributes etc. * Avoid it in performance critical situations like looping */ function hash() { var i = 0, args = arguments, length = args.length, obj = {}; for (; i < length; i++) { obj[args[i++]] = args[i]; } return obj; } /** * 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 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, setAttribute = 'setAttribute', 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. */ function pick() { var args = arguments, i, arg, length = args.length; for (i = 0; i < length; i++) { arg = args[i]; if (typeof 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 (isIE) { if (styles && styles.opacity !== UNDEFINED) { styles.filter = 'alpha(opacity=' + (styles.opacity * 100) + ')'; } } extend(el.style, styles); } /** * Utility function to create element with attributes and styles * @param {Object} tag * @param {Object} attribs * @param {Object} styles * @param {Object} parent * @param {Object} nopad */ function createElement(tag, attribs, styles, parent, nopad) { var el = doc.createElement(tag); if (attribs) { extend(el, attribs); } if (nopad) { css(el, {padding: 0, border: NONE, margin: 0}); } if (styles) { css(el, styles); } if (parent) { parent.appendChild(el); } return el; } /** * Extend a prototyped class by new members * @param {Object} parent * @param {Object} members */ function extendClass(parent, members) { var object = function () {}; object.prototype = new parent(); extend(object.prototype, members); return object; } /** * Format a number and return a string based on input settings * @param {Number} number The input number to format * @param {Number} decimals The amount of decimals * @param {String} decPoint The decimal point, defaults to the one given in the lang options * @param {String} thousandsSep The thousands separator, defaults to the one given in the lang options */ function numberFormat(number, decimals, decPoint, thousandsSep) { var lang = defaultOptions.lang, // http://kevin.vanzonneveld.net/techblog/article/javascript_equivalent_for_phps_number_format/ n = number, c = isNaN(decimals = mathAbs(decimals)) ? 2 : decimals, d = decPoint === undefined ? lang.decimalPoint : decPoint, t = thousandsSep === undefined ? lang.thousandsSep : thousandsSep, s = n < 0 ? "-" : "", i = String(pInt(n = mathAbs(+n || 0).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) : ""); } /** * 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; } /** * 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 'Invalid date'; } format = pick(format, '%Y-%m-%d %H:%M:%S'); var date = new Date(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, /* // uncomment this and the 'W' format key below to enable week numbers weekNumber = function () { var clone = new Date(date.valueOf()), day = clone[getDay]() == 0 ? 7 : clone[getDay](), dayNumber; clone.setDate(clone[getDate]() + 4 - day); dayNumber = mathFloor((clone.getTime() - new Date(clone[getFullYear](), 0, 1, -6)) / 86400000); return 1 + mathFloor(dayNumber / 7); }, */ // list all format keys replacements = { // Day 'a': langWeekdays[day].substr(0, 3), // Short weekday, like 'Mon' 'A': langWeekdays[day], // Long weekday, like 'Monday' 'd': pad(dayOfMonth), // Two digit day of the month, 01 to 31 'e': dayOfMonth, // Day of the month, 1 through 31 // Week (none implemented) //'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 '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) }; // do the replaces for (key in replacements) { format = format.replace('%' + key, replacements[key]); } // Optionally capitalize the string and return return capitalize ? format.substr(0, 1).toUpperCase() + format.substr(1) : format; }; /** * 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, options) { var normalized, i; // 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 (options && options.allowDecimals === false) { if (magnitude === 1) { multiples = [1, 2, 5, 10]; } else if (magnitude <= 0.1) { multiples = [1 / magnitude]; } } } // normalize the interval to the nearest multiple for (i = 0; i < multiples.length; i++) { interval = multiples[i]; if (normalized <= (multiples[i] + (multiples[i + 1] || multiples[i])) / 2) { break; } } // multiply back to the correct magnitude interval *= magnitude; return interval; } /** * 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. */ function normalizeTimeTickInterval(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]; } // 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); return { unitRange: interval, count: count, unitName: unit[0] }; } /** * 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 */ function getTimeTicks(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), interval = normalizedInterval.unitRange, count = normalizedInterval.count; if (interval >= timeUnits[SECOND]) { // second minDate.setMilliseconds(0); minDate.setSeconds(interval >= timeUnits[MINUTE] ? 0 : 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; minYear = minDate[getFullYear](); var time = minDate.getTime(), minMonth = minDate[getMonth](), minDateDate = minDate[getDate](); // 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; // mark new days if the time is dividable by day if (interval <= timeUnits[HOUR] && time % timeUnits[DAY] === 0) { higherRanks[time] = DAY; } } i++; } // push the last time tickPositions.push(time); // record information on the chosen unit - for dynamic label formatter tickPositions.info = extend(normalizedInterval, { higherRanks: higherRanks, totalRange: interval * count }); return tickPositions; } /** * Helper class that contains variuos counters that are local to the chart. */ function ChartCounters() { this.color = 0; this.symbol = 0; } ChartCounters.prototype = { /** * Wraps the color counter if it reaches the specified length. */ wrapColor: function (length) { if (this.color >= length) { this.color = 0; } }, /** * Wraps the symbol counter if it reaches the specified length. */ wrapSymbol: function (length) { if (this.symbol >= length) { this.symbol = 0; } } }; /** * Utility method extracted from Tooltip code that places a tooltip in a chart without spilling over * and not covering the point it self. */ function placeBox(boxWidth, boxHeight, outerLeft, outerTop, outerWidth, outerHeight, point, distance, preferRight) { // keep the box within the chart area var pointX = point.x, pointY = point.y, x = pointX + outerLeft + (preferRight ? distance : -boxWidth - distance), y = pointY - boxHeight + outerTop + 15, // 15 means the point is 15 pixels up from the bottom of the tooltip alignedRight; // it is too far to the left, adjust it if (x < 7) { x = outerLeft + pointX + distance; } // Test to see if the tooltip is too far to the right, // if it is, move it back to be inside and then up to not cover the point. if ((x + boxWidth) > (outerLeft + outerWidth)) { x -= (x + boxWidth) - (outerLeft + outerWidth); y = pointY - boxHeight + outerTop - distance; alignedRight = true; } // if it is now above the plot area, align it to the top of the plot area if (y < outerTop + 5) { y = outerTop + 5; // If the tooltip is still covering the point, move it below instead if (alignedRight && pointY >= y && pointY <= (y + boxHeight)) { y = pointY + outerTop + distance; // below } } else if (y + boxHeight > outerTop + outerHeight) { y = outerTop + outerHeight - boxHeight - distance; // below } return {x: x, y: y}; } /** * 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. */ function destroyObjectProperties(obj) { var n; for (n in obj) { // If the object is non-null and destroy is defined if (obj[n] && 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) { return parseFloat( num.toPrecision(14) ); } /** * The time unit lookup */ /*jslint white: true*/ timeUnits = hash( MILLISECOND, 1, SECOND, 1000, MINUTE, 60000, HOUR, 3600000, DAY, 24 * 3600000, WEEK, 7 * 24 * 3600000, MONTH, 30 * 24 * 3600000, YEAR, 31556952000 ); /*jslint white: false*/ /** * 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 === 1) { 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; } }; /** * 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) { globalAnimation = pick(animation, chart.animation); } /* * Define the adapter for frameworks. If an external adapter is not defined, * Highcharts reverts to the built-in jQuery adapter. */ if (globalAdapter && globalAdapter.init) { // Initialize the adapter with the pathAnim object that takes care // of path animations. globalAdapter.init(pathAnim); } if (!globalAdapter && win.jQuery) { var jQ = jQuery; /** * Downloads a script and executes a callback when done. * @param {String} scriptLocation * @param {Function} callback */ getScript = jQ.getScript; /** * Utility for iterating over an array. Parameters are reversed compared to jQuery. * @param {Array} arr * @param {Function} fn */ each = function (arr, fn) { var i = 0, len = arr.length; for (; i < len; i++) { if (fn.call(arr[i], arr[i], i, arr) === false) { return i; } } }; /** * Filter an array */ grep = jQ.grep; /** * Map an array * @param {Array} arr * @param {Function} fn */ map = function (arr, fn) { //return jQuery.map(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; }; /** * Deep merge two objects and return a third object */ merge = function () { var args = arguments; return jQ.extend(true, null, args[0], args[1], args[2], args[3]); }; /** * Get the position of an element relative to the top left of the page */ offset = function (el) { return jQ(el).offset(); }; /** * Add an event listener * @param {Object} el A HTML element or custom object * @param {String} event The event type * @param {Function} fn The event handler */ addEvent = function (el, event, fn) { jQ(el).bind(event, fn); }; /** * Remove event added with addEvent * @param {Object} el The object * @param {String} eventType The event type. Leave blank to remove all events. * @param {Function} handler The function to remove */ removeEvent = function (el, eventType, handler) { // workaround for jQuery issue with unbinding custom events: // http://forum.jquery.com/topic/javascript-error-when-unbinding-a-custom-event-using-jquery-1-4-2 var func = doc.removeEventListener ? 'removeEventListener' : 'detachEvent'; if (doc[func] && !el[func]) { el[func] = function () {}; } jQ(el).unbind(eventType, handler); }; /** * Fire an event on a custom object * @param {Object} el * @param {String} type * @param {Object} eventArguments * @param {Function} defaultFunction */ fireEvent = function (el, type, eventArguments, defaultFunction) { var event = jQ.Event(type), detachedType = 'detached' + type, defaultPrevented; extend(event, eventArguments); // Prevent jQuery from triggering the object method that is named the // same as the event. For example, if the event is 'select', jQuery // attempts calling el.select and it goes into a loop. if (el[type]) { el[detachedType] = el[type]; el[type] = null; } // Wrap preventDefault and stopPropagation in try/catch blocks in // order to prevent JS errors when cancelling events on non-DOM // objects. #615. each(['preventDefault', 'stopPropagation'], function (fn) { var base = event[fn]; event[fn] = function () { try { base.call(event); } catch (e) { if (fn === 'preventDefault') { defaultPrevented = true; } } }; }); // trigger it jQ(el).trigger(event); // attach the method if (el[detachedType]) { el[type] = el[detachedType]; el[detachedType] = null; } if (defaultFunction && !event.isDefaultPrevented() && !defaultPrevented) { defaultFunction(event); } }; /** * Animate a HTML element or SVG element wrapper * @param {Object} el * @param {Object} params * @param {Object} options jQuery-like animation options: duration, easing, callback */ animate = function (el, params, options) { var $el = jQ(el); if (params.d) { el.toD = params.d; // keep the array form for paths, used in jQ.fx.step.d params.d = 1; // because in jQuery, animating to an array has a different meaning } $el.stop(); $el.animate(params, options); }; /** * Stop running animation */ stop = function (el) { jQ(el).stop(); }; //=== Extend jQuery on init /*jslint unparam: true*//* allow unused param x in this function */ jQ.extend(jQ.easing, { easeOutQuad: function (x, t, b, c, d) { return -c * (t /= d) * (t - 2) + b; } }); /*jslint unparam: false*/ // extend the animate function to allow SVG animations var jFx = jQuery.fx, jStep = jFx.step; // extend some methods to check for elem.attr, which means it is a Highcharts SVG object each(['cur', '_default', 'width', 'height'], function (fn, i) { var obj = i ? jStep : jFx.prototype, // 'cur', the getter' relates to jFx.prototype base = obj[fn], elem; if (base) { // step.width and step.height don't exist in jQuery < 1.7 // create the extended function replacement obj[fn] = function (fx) { // jFx.prototype.cur does not use fx argument fx = i ? fx : this; // shortcut elem = fx.elem; // jFX.prototype.cur returns the current value. The other ones are setters // and returning a value has no effect. return elem.attr ? // is SVG element wrapper elem.attr(fx.prop, fx.now) : // apply the SVG wrapper's method base.apply(this, arguments); // use jQuery's built-in method }; } }); // animate paths jStep.d = function (fx) { var elem = fx.elem; // Normally start and end should be set in state == 0, but sometimes, // for reasons unknown, this doesn't happen. Perhaps state == 0 is skipped // in these cases if (!fx.started) { var ends = pathAnim.init(elem, elem.d, elem.toD); fx.start = ends[0]; fx.end = ends[1]; fx.started = true; } // interpolate each value of the path elem.attr('d', pathAnim.step(fx.start, fx.end, fx.pos, elem.toD)); }; } /* **************************************************************************** * Handle the options * *****************************************************************************/ var defaultLabelOptions = { enabled: true, // rotation: 0, align: 'center', x: 0, y: 15, /*formatter: function () { return this.value; },*/ style: { color: '#666', fontSize: '11px', lineHeight: '14px' } }; defaultOptions = { colors: ['#4572A7', '#AA4643', '#89A54E', '#80699B', '#3D96AE', '#DB843D', '#92A8CD', '#A47D7C', '#B5CA92'], symbols: ['circle', 'diamond', 'square', 'triangle', 'triangle-down'], lang: { loading: 'Loading...', months: ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December'], shortMonths: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'], weekdays: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'], decimalPoint: '.', resetZoom: 'Reset zoom', resetZoomTitle: 'Reset zoom level 1:1', thousandsSep: ',' }, global: { useUTC: true, canvasToolsURL: 'http://code.highcharts.com/2.2.1/modules/canvas-tools.js' }, 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: 5, defaultSeriesType: 'line', ignoreHiddenSeries: true, //inverted: false, //shadow: false, 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: 15, style: { color: '#3E576F', fontSize: '16px' } }, subtitle: { text: '', align: 'center', // floating: false // x: 0, // verticalAlign: 'top', y: 30, style: { color: '#6D869F' } }, 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, lineWidth: 2, shadow: true, // stacking: null, marker: { enabled: true, //symbol: null, lineWidth: 0, radius: 4, lineColor: '#FFFFFF', //fillColor: null, states: { // states for a single point hover: { //radius: base + 2 }, select: { fillColor: '#FFFFFF', lineColor: '#000000', lineWidth: 2 } } }, point: { events: {} }, dataLabels: merge(defaultLabelOptions, { enabled: false, y: -6, formatter: function () { return this.y; } // backgroundColor: undefined, // borderColor: undefined, // borderRadius: undefined, // borderWidth: undefined, // padding: 3, // 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: true, states: { // states for the entire series hover: { //enabled: false, //lineWidth: base + 1, marker: { // lineWidth: base + 1, // radius: base + 1 } }, select: { marker: {} } }, stickyTracking: true //tooltip: { //pointFormat: '{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: 1, borderColor: '#909090', borderRadius: 5, // margin: 10, // reversed: false, shadow: false, // backgroundColor: null, style: { padding: '5px' }, itemStyle: { cursor: 'pointer', color: '#3E576F' }, itemHoverStyle: { //cursor: 'pointer', removed as of #601 color: '#000000' }, itemHiddenStyle: { color: '#C0C0C0' }, itemCheckboxStyle: { position: ABSOLUTE, width: '13px', // for IE precision height: '13px' }, // itemWidth: undefined, symbolWidth: 16, symbolPadding: 5, verticalAlign: 'bottom', // width: undefined, x: 0, y: 0 }, loading: { // hideDuration: 100, labelStyle: { fontWeight: 'bold', position: RELATIVE, top: '1em' }, // showDuration: 0, style: { position: ABSOLUTE, backgroundColor: 'white', opacity: 0.5, textAlign: 'center' } }, tooltip: { enabled: true, //crosshairs: null, backgroundColor: 'rgba(255, 255, 255, .85)', borderWidth: 2, borderRadius: 5, //formatter: defaultFormatter, headerFormat: '{point.key}
', pointFormat: '{series.name}: {point.y}
', shadow: true, shared: useCanVG, snap: hasTouch ? 25 : 10, style: { color: '#333333', fontSize: '12px', padding: '5px', 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: '10px' } } }; // Axis defaults /*jslint white: true*/ var defaultXAxisOptions = { // allowDecimals: null, // alternateGridColor: null, // categories: [], dateTimeLabelFormats: hash( 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: '#C0C0C0', // gridLineDashStyle: 'solid', // gridLineWidth: 0, // reversed: false, labels: defaultLabelOptions, // { step: null }, lineColor: '#C0D0E0', lineWidth: 1, //linkedTo: null, max: null, min: null, 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: 5, 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: '#6D869F', //font: defaultFont.replace('normal', 'bold') fontWeight: 'bold' } //x: 0, //y: 0 }, type: 'linear' // linear, logarithmic or datetime }, defaultYAxisOptions = merge(defaultXAxisOptions, { endOnTick: true, gridLineWidth: 1, tickPixelInterval: 72, showLastLabel: true, labels: { align: 'right', x: -8, y: 3 }, lineWidth: 0, maxPadding: 0.05, minPadding: 0.05, startOnTick: true, tickWidth: 0, title: { rotation: 270, text: 'Y-values' }, stackLabels: { enabled: false, //align: dynamic, //y: dynamic, //x: dynamic, //verticalAlign: dynamic, //textAlign: dynamic, //rotation: 0, formatter: function () { return this.total; }, style: defaultLabelOptions.style } }), defaultLeftAxisOptions = { labels: { align: 'right', x: -8, y: null }, title: { rotation: 270 } }, defaultRightAxisOptions = { labels: { align: 'left', x: 8, y: null }, title: { rotation: 90 } }, defaultBottomAxisOptions = { // horizontal axis labels: { align: 'center', x: 0, y: 14, overflow: 'justify' // docs // staggerLines: null }, title: { rotation: 0 } }, defaultTopAxisOptions = merge(defaultBottomAxisOptions, { labels: { y: -5, overflow: 'justify' // staggerLines: null } }); /*jslint white: false*/ // Series defaults var defaultPlotOptions = defaultOptions.plotOptions, defaultSeriesOptions = defaultPlotOptions.line; //defaultPlotOptions.line = merge(defaultSeriesOptions); defaultPlotOptions.spline = merge(defaultSeriesOptions); defaultPlotOptions.scatter = merge(defaultSeriesOptions, { lineWidth: 0, states: { hover: { lineWidth: 0 } }, tooltip: { headerFormat: '{series.name}
', pointFormat: 'x: {point.x}
y: {point.y}
' } }); defaultPlotOptions.area = merge(defaultSeriesOptions, { threshold: 0 // lineColor: null, // overrides color, but lets fillColor be unaltered // fillOpacity: 0.75, // fillColor: null }); defaultPlotOptions.areaspline = merge(defaultPlotOptions.area); defaultPlotOptions.column = merge(defaultSeriesOptions, { borderColor: '#FFFFFF', borderWidth: 1, borderRadius: 0, //colorByPoint: undefined, groupPadding: 0.2, marker: null, // point options are specified in the base options pointPadding: 0.1, //pointWidth: null, minPointLength: 0, 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 }, select: { color: '#C0C0C0', borderColor: '#000000', shadow: false } }, dataLabels: { y: null, verticalAlign: null }, threshold: 0 }); defaultPlotOptions.bar = merge(defaultPlotOptions.column, { dataLabels: { align: 'left', x: 5, y: null, verticalAlign: 'middle' } }); defaultPlotOptions.pie = merge(defaultSeriesOptions, { //dragType: '', // n/a borderColor: '#FFFFFF', borderWidth: 1, center: ['50%', '50%'], colorByPoint: true, // always true for pies dataLabels: { // align: null, // connectorWidth: 1, // connectorColor: point.color, // connectorPadding: 5, distance: 30, enabled: true, formatter: function () { return this.point.name; }, // softConnector: true, y: 5 }, //innerSize: 0, legendType: 'point', marker: null, // point options are specified in the base options size: '75%', showInLegend: false, slicedOffset: 10, states: { hover: { brightness: 0.1, shadow: false } } }); // 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 useUTC = defaultOptions.global.useUTC, GET = useUTC ? 'getUTC' : 'get', SET = useUTC ? 'setUTC' : 'set'; makeTime = useUTC ? Date.UTC : function (year, month, date, hours, minutes, seconds) { return new Date( year, month, pick(date, 1), pick(hours, 0), pick(minutes, 0), pick(seconds, 0) ).getTime(); }; getMinutes = GET + 'Minutes'; getHours = GET + 'Hours'; getDay = GET + 'Day'; getDate = GET + 'Date'; getMonth = GET + 'Month'; getFullYear = GET + 'FullYear'; 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) { // Pull out axis options and apply them to the respective default axis options defaultXAxisOptions = merge(defaultXAxisOptions, options.xAxis); defaultYAxisOptions = merge(defaultYAxisOptions, options.yAxis); options.xAxis = options.yAxis = UNDEFINED; // Merge in the default options defaultOptions = merge(defaultOptions, options); // Apply UTC setTimeMethods(); return defaultOptions; } /** * Get the updated default options. Merely exposing defaultOptions for outside modules * isn't enough because the setOptions method creates a new object. */ function getOptions() { return defaultOptions; } /** * Handle color operations. The object methods are chainable. * @param {String} input The input color in either rbga or hex format */ var Color = function (input) { // declare variables var rgba = [], result; /** * Parse the input color to rgba array * @param {String} input */ function init(input) { // rgba result = /rgba\(\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]?(?:\.[0-9]+)?)\s*\)/.exec(input); if (result) { rgba = [pInt(result[1]), pInt(result[2]), pInt(result[3]), parseFloat(result[4], 10)]; } else { // hex result = /#([a-fA-F0-9]{2})([a-fA-F0-9]{2})([a-fA-F0-9]{2})/.exec(input); if (result) { rgba = [pInt(result[1], 16), pInt(result[2], 16), pInt(result[3], 16), 1]; } } } /** * Return the color a specified format * @param {String} format */ function get(format) { var ret; // it's NaN if gradient colors on a column chart if (rgba && !isNaN(rgba[0])) { if (format === 'rgb') { ret = 'rgb(' + rgba[0] + ',' + rgba[1] + ',' + rgba[2] + ')'; } else if (format === 'a') { ret = rgba[3]; } else { ret = 'rgba(' + rgba.join(',') + ')'; } } else { ret = input; } return ret; } /** * Brighten the color * @param {Number} alpha */ function brighten(alpha) { 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, setOpacity: setOpacity }; }; /** * A wrapper object for SVG elements */ function SVGElement() {} SVGElement.prototype = { /** * 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; /** * A collection of attribute setters. These methods, if defined, are called right before a certain * attribute is set on an element wrapper. Returning false prevents the default attribute * setter to run. Returning a value causes the default setter to set that value. Used in * Renderer.label. */ wrapper.attrSetters = {}; }, /** * 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, globalAnimation, true); stop(this); // stop regardless of animation actually running, or reverting to .attr (#607) if (animOptions) { animOptions = merge(animOptions); if (complete) { // allows using a callback with the global animation without overwriting it animOptions.complete = complete; } animate(this, params, animOptions); } else { this.attr(params); if (complete) { complete(); } } }, /** * Set or get a given attribute * @param {Object|String} hash * @param {Mixed|Undefined} val */ attr: function (hash, val) { var wrapper = this, key, value, result, i, child, element = wrapper.element, nodeName = element.nodeName, renderer = wrapper.renderer, skipAttr, attrSetters = wrapper.attrSetters, shadows = wrapper.shadows, hasSetSymbolSize, ret = wrapper; // single key-value pair if (isString(hash) && defined(val)) { key = hash; hash = {}; hash[key] = val; } // used as a getter: first argument is a string, second is undefined if (isString(hash)) { key = hash; if (nodeName === 'circle') { key = { x: 'cx', y: 'cy' }[key] || key; } else if (key === 'strokeWidth') { key = 'stroke-width'; } ret = attr(element, key) || wrapper[key] || 0; if (key !== 'd' && key !== 'visibility') { // 'd' is string in animation step ret = parseFloat(ret); } // setter } else { for (key in hash) { skipAttr = false; // reset value = hash[key]; // check for a specific attribute setter result = attrSetters[key] && attrSetters[key](value, key); if (result !== false) { if (result !== UNDEFINED) { value = result; // the attribute setter has returned a new value to set } // paths if (key === 'd') { if (value && value.join) { // join path value = value.join(' '); } if (/(NaN| {2}|^$)/.test(value)) { value = 'M 0 0'; } wrapper.d = value; // shortcut for animations // update child tspans x values } else if (key === 'x' && nodeName === 'text') { for (i = 0; i < element.childNodes.length; i++) { child = element.childNodes[i]; // if the x values are equal, the tspan represents a linebreak if (attr(child, 'x') === attr(element, 'x')) { //child.setAttribute('x', value); attr(child, 'x', value); } } if (wrapper.rotation) { attr(element, 'transform', 'rotate(' + wrapper.rotation + ' ' + value + ' ' + pInt(hash.y || attr(element, 'y')) + ')'); } // apply gradients } else if (key === 'fill') { value = renderer.color(value, element, key); // circle x and y } else if (nodeName === 'circle' && (key === 'x' || key === 'y')) { key = { x: 'cx', y: 'cy' }[key] || key; // rectangle border radius } else if (nodeName === 'rect' && key === 'r') { attr(element, { rx: value, ry: value }); skipAttr = true; // translation and text rotation } else if (key === 'translateX' || key === 'translateY' || key === 'rotation' || key === 'verticalAlign') { wrapper[key] = value; wrapper.updateTransform(); skipAttr = true; // apply opacity as subnode (required by legacy WebKit and Batik) } else if (key === 'stroke') { value = renderer.color(value, element, key); // emulate VML's dashstyle implementation } else if (key === 'dashstyle') { key = 'stroke-dasharray'; value = value && value.toLowerCase(); if (value === 'solid') { value = NONE; } else if (value) { value = value .replace('shortdashdotdot', '3,1,1,1,1,1,') .replace('shortdashdot', '3,1,1,1') .replace('shortdot', '1,1,') .replace('shortdash', '3,1,') .replace('longdash', '8,3,') .replace(/dot/g, '1,3,') .replace('dash', '4,3,') .replace(/,$/, '') .split(','); // ending comma i = value.length; while (i--) { value[i] = pInt(value[i]) * hash['stroke-width']; } value = value.join(','); } // special } else if (key === 'isTracker') { wrapper[key] = value; // IE9/MooTools combo: MooTools returns objects instead of numbers and IE9 Beta 2 // is unable to cast them. Test again with final IE9. } else if (key === 'width') { value = pInt(value); // Text alignment } else if (key === 'align') { key = 'text-anchor'; value = { left: 'start', center: 'middle', right: 'end' }[value]; // Title requires a subnode, #431 } else if (key === 'title') { var title = doc.createElementNS(SVG_NS, 'title'); title.appendChild(doc.createTextNode(value)); element.appendChild(title); } // jQuery animate changes case if (key === 'strokeWidth') { key = 'stroke-width'; } // Chrome/Win < 6 bug (http://code.google.com/p/chromium/issues/detail?id=15461) if (isWebKit && key === 'stroke-width' && value === 0) { value = 0.000001; } // symbols if (wrapper.symbolName && /^(x|y|r|start|end|innerR|anchorX|anchorY)/.test(key)) { if (!hasSetSymbolSize) { wrapper.symbolAttr(hash); hasSetSymbolSize = true; } skipAttr = true; } // let the shadow follow the main element if (shadows && /^(width|height|visibility|x|y|d|transform)$/.test(key)) { i = shadows.length; while (i--) { attr(shadows[i], key, value); } } // validate heights if ((key === 'width' || key === 'height') && nodeName === 'rect' && value < 0) { value = 0; } if (key === 'text') { // only one node allowed wrapper.textStr = value; if (wrapper.added) { renderer.buildText(wrapper); } } else if (!skipAttr) { attr(element, key, value); } } } } // Workaround for our #732, WebKit's issue https://bugs.webkit.org/show_bug.cgi?id=78385 // TODO: If the WebKit team fix this bug before the final release of Chrome 18, remove the workaround. if (isWebKit && /Chrome\/(18|19)/.test(userAgent)) { if (nodeName === 'text' && (hash.x !== UNDEFINED || hash.y !== UNDEFINED)) { var parent = element.parentNode, next = element.nextSibling; if (parent) { parent.removeChild(element); if (next) { parent.insertBefore(element, next); } else { parent.appendChild(element); } } } } // End of workaround for #732 return ret; }, /** * If one of the symbol size affecting parameters are changed, * check all the others only once for each call to an element's * .attr() method * @param {Object} hash */ symbolAttr: function (hash) { var wrapper = this; 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', 'url(' + this.renderer.url + '#' + clipRect.id + ')'); }, /** * 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 (strokeWidth, x, y, width, height) { var wrapper = this, key, attribs = {}, values = {}, normalizer; strokeWidth = strokeWidth || wrapper.strokeWidth || (wrapper.attr && wrapper.attr('stroke-width')) || 0; normalizer = mathRound(strokeWidth) % 2 / 2; // mathRound because strokeWidth can sometimes have roundoff errors // normalize for crisp edges values.x = mathFloor(x || wrapper.x || 0) + normalizer; values.y = mathFloor(y || wrapper.y || 0) + normalizer; values.width = mathFloor((width || wrapper.width || 0) - 2 * normalizer); values.height = mathFloor((height || wrapper.height || 0) - 2 * normalizer); values.strokeWidth = strokeWidth; for (key in values) { if (wrapper[key] !== values[key]) { // only set attribute if changed wrapper[key] = attribs[key] = values[key]; } } return attribs; }, /** * Set styles for the element * @param {Object} styles */ css: function (styles) { /*jslint unparam: true*//* allow unused param a in the regexp function below */ var elemWrapper = this, elem = elemWrapper.element, textWidth = styles && styles.width && elem.nodeName === 'text', n, serializedCss = '', hyphenate = function (a, b) { return '-' + b.toLowerCase(); }; /*jslint unparam: false*/ // convert legacy if (styles && styles.color) { styles.fill = styles.color; } // Merge the new styles with the old ones styles = extend( elemWrapper.styles, styles ); // store object elemWrapper.styles = styles; // serialize and set style attribute if (isIE && !hasSVG) { // legacy IE doesn't support setting style attribute if (textWidth) { delete styles.width; } css(elemWrapper.element, styles); } else { for (n in styles) { serializedCss += n.replace(/([A-Z])/g, hyphenate) + ':' + styles[n] + ';'; } elemWrapper.attr({ style: serializedCss }); } // 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 fn = handler; // touch if (hasTouch && eventType === 'click') { eventType = 'touchstart'; fn = function (e) { e.preventDefault(); handler(); }; } // simplest possible event model for internal use this.element['on' + eventType] = fn; 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; }, /** * 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(); } 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 (refresh) { var wrapper = this, element = wrapper.element, bBox = wrapper.bBox; // faking getBBox in exported SVG in legacy IE if (!bBox || refresh) { // faking getBBox in exported SVG in legacy IE if (element.nodeName === 'text') { element.style.position = ABSOLUTE; } bBox = wrapper.bBox = { x: element.offsetLeft, y: element.offsetTop, width: element.offsetWidth, height: element.offsetHeight }; } return bBox; }, /** * 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], nonLeft = align && align !== 'left', shadows = wrapper.shadows; // apply translate if (translateX || translateY) { 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, height, rotation = wrapper.rotation, baseline, radians = 0, costheta = 1, sintheta = 0, quad, textWidth = pInt(wrapper.textWidth), xCorr = wrapper.xCorr || 0, yCorr = wrapper.yCorr || 0, currentTextTransform = [rotation, align, elem.innerHTML, wrapper.textWidth].join(','); if (currentTextTransform !== wrapper.cTT) { // do the calculations and DOM access only if properties changed if (defined(rotation)) { radians = rotation * deg2rad; // deg to rad costheta = mathCos(radians); sintheta = mathSin(radians); // Adjust for alignment and rotation. Rotation of useHTML content is not yet implemented // but it can probably be implemented for Firefox 3.5+ on user request. FF3.5+ // has support for CSS3 transform. The getBBox method also needs to be updated // to compensate for the rotation, like it currently does for SVG. // Test case: http://highcharts.com/tests/?file=text-rotation css(elem, { filter: rotation ? ['progid:DXImageTransform.Microsoft.Matrix(M11=', costheta, ', M12=', -sintheta, ', M21=', sintheta, ', M22=', costheta, ', sizingMethod=\'auto expand\')'].join('') : NONE }); } width = pick(wrapper.elemWidth, elem.offsetWidth); height = pick(wrapper.elemHeight, elem.offsetHeight); // update textWidth if (width > textWidth) { css(elem, { width: textWidth + PX, display: 'block', whiteSpace: 'normal' }); width = textWidth; } // correct x and y baseline = renderer.fontMetrics(elem.style.fontSize).b; xCorr = costheta < 0 && -width; yCorr = sintheta < 0 && -height; // correct for baseline and corners spilling out after rotation quad = costheta * sintheta < 0; xCorr += sintheta * baseline * (quad ? 1 - alignCorrection : alignCorrection); yCorr -= costheta * baseline * (rotation ? (quad ? alignCorrection : 1 - alignCorrection) : 1); // correct for the length/height of the text if (nonLeft) { xCorr -= width * alignCorrection * (costheta < 0 ? -1 : 1); if (rotation) { yCorr -= height * alignCorrection * (sintheta < 0 ? -1 : 1); } css(elem, { textAlign: align }); } // record correction wrapper.xCorr = xCorr; wrapper.yCorr = yCorr; } // apply position with correction css(elem, { left: (x + xCorr) + PX, top: (y + yCorr) + PX }); // record current text transform wrapper.cTT = currentTextTransform; } }, /** * Private method to update the transform attribute based on internal * properties */ updateTransform: function () { var wrapper = this, translateX = wrapper.translateX || 0, translateY = wrapper.translateY || 0, inverted = wrapper.inverted, rotation = wrapper.rotation, transform = []; // flipping affects translate as adjustment for flipping around the group's axis if (inverted) { translateX += wrapper.attr('width'); translateY += wrapper.attr('height'); } // apply translate if (translateX || translateY) { transform.push('translate(' + translateX + ',' + translateY + ')'); } // apply rotation if (inverted) { transform.push('rotate(90) scale(-1,1)'); } else if (rotation) { // text rotation transform.push('rotate(' + rotation + ' ' + wrapper.x + ' ' + wrapper.y + ')'); } if (transform.length) { attr(wrapper.element, 'transform', transform.join(' ')); } }, /** * Bring the element to the front */ toFront: function () { var element = this.element; element.parentNode.appendChild(element); return this; }, /** * 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 {Object} box The box to align to, needs a width and height * */ align: function (alignOptions, alignByTranslate, box) { var elemWrapper = this; if (!alignOptions) { // called on resize alignOptions = elemWrapper.alignOptions; alignByTranslate = elemWrapper.alignByTranslate; } else { // first call on instanciate elemWrapper.alignOptions = alignOptions; elemWrapper.alignByTranslate = alignByTranslate; if (!box) { // boxes other than renderer handle this internally elemWrapper.renderer.alignedObjects.push(elemWrapper); } } box = pick(box, elemWrapper.renderer); var 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 attribs = {}; // align if (/^(right|center)$/.test(align)) { x += (box.width - (alignOptions.width || 0)) / { right: 1, center: 2 }[align]; } attribs[alignByTranslate ? 'translateX' : 'x'] = mathRound(x); // vertical align if (/^(bottom|middle)$/.test(vAlign)) { y += (box.height - (alignOptions.height || 0)) / ({ bottom: 1, middle: 2 }[vAlign] || 1); } attribs[alignByTranslate ? 'translateY' : 'y'] = mathRound(y); // animate only if already placed elemWrapper[elemWrapper.placed ? 'animate' : 'attr'](attribs); elemWrapper.placed = true; elemWrapper.alignAttr = attribs; return elemWrapper; }, /** * Get the bounding box (width, height, x and y) for the element */ getBBox: function (refresh) { var wrapper = this, bBox, width, height, rotation = wrapper.rotation, element = wrapper.element, rad = rotation * deg2rad; // SVG elements if (element.namespaceURI === SVG_NS) { try { // Fails in Firefox if the container has display: 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: // TODO: can this be removed now that we're checking for the SVG NS? { width: element.offsetWidth, height: element.offsetHeight }; } 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 }; } width = bBox.width; height = bBox.height; // 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)); } // VML Renderer or useHTML within SVG } else { bBox = wrapper.htmlGetBBox(refresh); } return bBox; }, /** * Show the element */ show: function () { return this.attr({ visibility: VISIBLE }); }, /** * Hide the element */ hide: function () { return this.attr({ visibility: HIDDEN }); }, /** * Add the element * @param {Object|Undefined} parent Can be an element, an element wrapper or undefined * to append the element to the renderer.box. */ add: function (parent) { var renderer = this.renderer, parentWrapper = parent || renderer, parentNode = parentWrapper.element || renderer.box, childNodes = parentNode.childNodes, element = this.element, zIndex = attr(element, 'zIndex'), otherElement, otherZIndex, i, inserted; // mark as inverted this.parentInverted = parent && parent.inverted; // build formatted text if (this.textStr !== undefined) { renderer.buildText(this); } // mark the container as having z indexed children if (zIndex) { parentWrapper.handleZ = true; zIndex = pInt(zIndex); } // insert according to this and other elements' zIndex if (parentWrapper.handleZ) { // this element or any of its siblings has a z index for (i = 0; i < childNodes.length; i++) { otherElement = childNodes[i]; otherZIndex = attr(otherElement, 'zIndex'); if (otherElement !== element && ( // insert before the first element with a higher zIndex pInt(otherZIndex) > zIndex || // if no zIndex given, insert before the first element with a zIndex (!defined(zIndex) && defined(otherZIndex)) )) { parentNode.insertBefore(element, otherElement); inserted = true; break; } } } // default: append at the end if (!inserted) { parentNode.appendChild(element); } // mark as added this.added = true; // fire an event for internal hooks fireEvent(this, 'add'); 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, box = wrapper.box, key, i; // remove events element.onclick = element.onmouseout = element.onmouseover = element.onmousemove = 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); }); } // destroy label box if (box) { box.destroy(); } // remove from alignObjects erase(wrapper.renderer.alignedObjects, wrapper); for (key in wrapper) { delete wrapper[key]; } return null; }, /** * Empty a group element */ empty: function () { var element = this.element, childNodes = element.childNodes, i = childNodes.length; while (i--) { element.removeChild(childNodes[i]); } }, /** * Add a shadow to the element. Must be done after the element is added to the DOM * @param {Boolean} apply */ shadow: function (apply, group) { var shadows = [], i, shadow, element = this.element, // compensate for inverted plot area transform = this.parentInverted ? '(-1,-1)' : '(1,1)'; if (apply) { for (i = 1; i <= 3; i++) { shadow = element.cloneNode(0); attr(shadow, { 'isShadow': 'true', 'stroke': 'rgb(0, 0, 0)', 'stroke-opacity': 0.05 * i, 'stroke-width': 7 - 2 * i, 'transform': 'translate' + transform, 'fill': NONE }); if (group) { group.element.appendChild(shadow); } else { element.parentNode.insertBefore(shadow, element); } shadows.push(shadow); } this.shadows = shadows; } return this; } }; /** * The default SVG renderer */ var SVGRenderer = function () { this.init.apply(this, arguments); }; SVGRenderer.prototype = { Element: SVGElement, /** * Initialize the SVGRenderer * @param {Object} container * @param {Number} width * @param {Number} height * @param {Boolean} forExport */ init: function (container, width, height, forExport) { var renderer = this, loc = location, boxWrapper; boxWrapper = renderer.createElement('svg') .attr({ xmlns: SVG_NS, version: '1.1' }); container.appendChild(boxWrapper.element); // object properties renderer.isSVG = true; renderer.box = boxWrapper.element; renderer.boxWrapper = boxWrapper; renderer.alignedObjects = []; renderer.url = isIE ? '' : loc.href.replace(/#.*?$/, '') .replace(/([\('\)])/g, '\\$1'); // Page url used for internal references. #24, #672. renderer.defs = this.createElement('defs').add(); renderer.forExport = forExport; renderer.gradients = {}; // Object where gradient SvgElements are stored renderer.setSize(width, height, false); }, /** * 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(); } 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 () {}, /** * Parse a simple HTML string into SVG tspans * * @param {Object} textNode The parent text SVG node */ buildText: function (wrapper) { var textNode = wrapper.element, lines = pick(wrapper.textStr, '').toString() .replace(/<(b|strong)>/g, '') .replace(/<(i|em)>/g, '') .replace(//g, '') .split(//g), childNodes = textNode.childNodes, styleRegex = /style="([^"]+)"/, hrefRegex = /href="([^"]+)"/, parentX = attr(textNode, 'x'), textStyles = wrapper.styles, width = textStyles && pInt(textStyles.width), textLineHeight = textStyles && textStyles.lineHeight, lastLine, GET_COMPUTED_STYLE = 'getComputedStyle', i = childNodes.length; // remove old text while (i--) { textNode.removeChild(childNodes[i]); } if (width && !wrapper.added) { this.box.appendChild(textNode); // attach it to the DOM to read offset width } // remove empty line at end if (lines[lines.length - 1] === '') { lines.pop(); } // build the lines each(lines, function (line, lineNo) { var spans, spanNo = 0, lineHeight; line = line.replace(//g, '|||'); spans = line.split('|||'); each(spans, function (span) { if (span !== '' || spans.length === 1) { var attributes = {}, tspan = doc.createElementNS(SVG_NS, 'tspan'); if (styleRegex.test(span)) { attr( tspan, 'style', span.match(styleRegex)[1].replace(/(;| |^)color([ :])/, '$1fill$2') ); } if (hrefRegex.test(span)) { attr(tspan, 'onclick', 'location.href=\"' + span.match(hrefRegex)[1] + '\"'); css(tspan, { cursor: 'pointer' }); } span = (span.replace(/<(.|\n)*?>/g, '') || ' ') .replace(/</g, '<') .replace(/>/g, '>'); // issue #38 workaround. /*if (reverse) { arr = []; i = span.length; while (i--) { arr.push(span.charAt(i)); } span = arr.join(''); }*/ // add the text node tspan.appendChild(doc.createTextNode(span)); if (!spanNo) { // first span in a line, align it to the left attributes.x = parentX; } else { // Firefox ignores spaces at the front or end of the tspan attributes.dx = 3; // space } // first span on subsequent line, add the line height if (!spanNo) { if (lineNo) { // allow getting the right offset height in exporting in IE if (!hasSVG && wrapper.renderer.forExport) { css(tspan, { display: 'block' }); } // Webkit and opera sometimes return 'normal' as the line height. In that // case, webkit uses offsetHeight, while Opera falls back to 18 lineHeight = win[GET_COMPUTED_STYLE] && pInt(win[GET_COMPUTED_STYLE](lastLine, null).getPropertyValue('line-height')); if (!lineHeight || isNaN(lineHeight)) { lineHeight = textLineHeight || lastLine.offsetHeight || 18; } attr(tspan, 'dy', lineHeight); } lastLine = tspan; // record for use in next line } // add attributes attr(tspan, attributes); // append it textNode.appendChild(tspan); spanNo++; // check width and apply soft breaks if (width) { var words = span.replace(/-/g, '- ').split(' '), tooLong, actualWidth, rest = []; while (words.length || rest.length) { actualWidth = wrapper.getBBox().width; tooLong = actualWidth > width; if (!tooLong || words.length === 1) { // new line needed words = rest; rest = []; if (words.length) { tspan = doc.createElementNS(SVG_NS, 'tspan'); attr(tspan, { dy: textLineHeight || 16, x: parentX }); 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, '-'))); } } } } }); }); }, /** * 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) { var label = this.label(text, x, y), curState = 0, stateOptions, stateStyle, normalStyle, hoverStyle, pressedStyle, STYLE = 'style', verticalGradient = { x1: 0, y1: 0, x2: 0, y2: 1 }; // prepare the attributes /*jslint white: true*/ normalState = merge(hash( STROKE_WIDTH, 1, STROKE, '#999', FILL, hash( LINEAR_GRADIENT, verticalGradient, STOPS, [ [0, '#FFF'], [1, '#DDD'] ] ), 'r', 3, 'padding', 3, STYLE, hash( 'color', 'black' ) ), normalState); /*jslint white: false*/ normalStyle = normalState[STYLE]; delete normalState[STYLE]; /*jslint white: true*/ hoverState = merge(normalState, hash( STROKE, '#68A', FILL, hash( LINEAR_GRADIENT, verticalGradient, STOPS, [ [0, '#FFF'], [1, '#ACF'] ] ) ), hoverState); /*jslint white: false*/ hoverStyle = hoverState[STYLE]; delete hoverState[STYLE]; /*jslint white: true*/ pressedState = merge(normalState, hash( STROKE, '#68A', FILL, hash( LINEAR_GRADIENT, verticalGradient, STOPS, [ [0, '#9BD'], [1, '#CDF'] ] ) ), pressedState); /*jslint white: false*/ pressedStyle = pressedState[STYLE]; delete pressedState[STYLE]; // add the events addEvent(label.element, 'mouseenter', function () { label.attr(hoverState) .css(hoverStyle); }); addEvent(label.element, 'mouseleave', function () { stateOptions = [normalState, hoverState, pressedState][curState]; stateStyle = [normalStyle, hoverStyle, pressedStyle][curState]; label.attr(stateOptions) .css(stateStyle); }); label.setState = function (state) { curState = state; if (!state) { label.attr(normalState) .css(normalStyle); } else if (state === 2) { label.attr(pressedState) .css(pressedStyle); } }; return label .on('click', function () { callback.call(label); }) .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]) { points[1] = points[4] = mathRound(points[1]) + (width % 2 / 2); } if (points[2] === points[5]) { points[2] = points[5] = mathRound(points[2]) + (width % 2 / 2); } return points; }, /** * Draw a path * @param {Array} path An SVG path in array form */ path: function (path) { return this.createElement('path').attr({ d: path, fill: NONE }); }, /** * Draw and return an SVG circle * @param {Number} x The x position * @param {Number} y The y position * @param {Number} r The radius */ circle: function (x, y, r) { var attr = isObject(x) ? x : { x: x, y: y, r: r }; return this.createElement('circle').attr(attr); }, /** * Draw and return an arc * @param {Number} x X position * @param {Number} y Y position * @param {Number} r Radius * @param {Number} innerR Inner radius like used in donut charts * @param {Number} start Starting angle * @param {Number} end Ending angle */ arc: function (x, y, r, innerR, start, end) { // arcs are defined as symbols for the ability to set // attributes in attr and animate if (isObject(x)) { y = x.y; r = x.r; innerR = x.innerR; start = x.start; end = x.end; x = x.x; } return this.symbol('arc', x || 0, y || 0, r || 0, r || 0, { innerR: innerR || 0, start: start || 0, end: end || 0 }); }, /** * Draw and return a rectangle * @param {Number} x Left position * @param {Number} y Top position * @param {Number} width * @param {Number} height * @param {Number} r Border corner radius * @param {Number} strokeWidth A stroke width can be supplied to allow crisp drawing */ rect: function (x, y, width, height, r, strokeWidth) { if (isObject(x)) { y = x.y; width = x.width; height = x.height; r = x.r; strokeWidth = x.strokeWidth; x = x.x; } var wrapper = this.createElement('rect').attr({ rx: r, ry: r, fill: NONE }); return wrapper.attr(wrapper.crisp(strokeWidth, x, y, mathMax(width, 0), mathMax(height, 0))); }, /** * 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 ), imageRegex = /^url\((.*?)\)$/, imageSrc, imageSize; 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)) { var centerImage = function (img, size) { img.attr({ width: size[0], height: size[1] }).translate( -mathRound(size[0] / 2), -mathRound(size[1] / 2) ); }; imageSrc = symbol.match(imageRegex)[1]; imageSize = symbolSizes[imageSrc]; // create the image synchronously, add attribs async obj = this.image(imageSrc) .attr({ x: x, y: y }); 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 createElement('img', { onload: function () { var img = this; centerImage(obj, symbolSizes[imageSrc] = [img.width, img.height]); }, 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 - 0.000001, // to prevent cos and sin of start and end from becoming equal on 360 arcs innerRadius = options.innerR, cosStart = mathCos(start), sinStart = mathSin(start), cosEnd = mathCos(end), sinEnd = mathSin(end), longArc = options.end - start < 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, L, x + innerRadius * cosEnd, y + innerRadius * sinEnd, 'A', // arcTo innerRadius, // x radius innerRadius, // y radius 0, // slanting longArc, // long or short arc 0, // clockwise x + innerRadius * cosStart, y + innerRadius * sinStart, 'Z' // close ]; } }, /** * Define a clipping rectangle * @param {String} id * @param {Number} x * @param {Number} y * @param {Number} width * @param {Number} height */ clipRect: function (x, y, width, height) { var wrapper, id = PREFIX + idCounter++, clipPath = this.createElement('clipPath').attr({ id: id }).add(this.defs); wrapper = this.rect(x, y, width, height, 0).add(clipPath); wrapper.id = id; wrapper.clipPath = clipPath; return wrapper; }, /** * Take a color and return it if it's a string, make it a gradient if it's a * gradient configuration object. Prior to Highstock, an array was used to define * a linear gradient with pixel positions relative to the SVG. In newer versions * we change the coordinates to apply relative to the shape, using coordinates * 0-1 within the shape. To preserve backwards compatibility, linearGradient * in this definition is an object of x1, y1, x2 and y2. * * @param {Object} color The color or config object */ color: function (color, elem, prop) { var colorObject, regexRgba = /^rgba/; if (color && color.linearGradient) { var renderer = this, linearGradient = color[LINEAR_GRADIENT], relativeToShape = !isArray(linearGradient), // keep backwards compatibility id, gradients = renderer.gradients, gradientObject, x1 = linearGradient.x1 || linearGradient[0] || 0, y1 = linearGradient.y1 || linearGradient[1] || 0, x2 = linearGradient.x2 || linearGradient[2] || 0, y2 = linearGradient.y2 || linearGradient[3] || 0, stopColor, stopOpacity, // Create a unique key in order to reuse gradient objects. #671. key = [relativeToShape, x1, y1, x2, y2, color.stops.join(',')].join(','); // If the gradient with the same setup is already created, reuse it if (gradients[key]) { id = attr(gradients[key].element, 'id'); // If not, create a new one and keep the reference. } else { id = PREFIX + idCounter++; gradientObject = renderer.createElement(LINEAR_GRADIENT) .attr(extend({ id: id, x1: x1, y1: y1, x2: x2, y2: y2 }, relativeToShape ? null : { gradientUnits: 'userSpaceOnUse' })) .add(renderer.defs); // The gradient needs to keep a list of stops to be able to destroy them gradientObject.stops = []; each(color.stops, function (stop) { var stopObject; if (regexRgba.test(stop[1])) { 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); }); // Keep a reference to the gradient object so it is possible to reuse it and // destroy it later gradients[key] = gradientObject; } return 'url(' + this.url + '#' + id + ')'; // Webkit and Batik can't show rgba. } else if (regexRgba.test(color)) { colorObject = Color(color); attr(elem, prop + '-opacity', colorObject.get('a')); return colorObject.get('rgb'); } else { // Remove the opacity attribute added above. Does not throw if the attribute is not there. elem.removeAttribute(prop + '-opacity'); return color; } }, /** * 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, defaultChartStyle = defaultOptions.chart.style, wrapper; if (useHTML && !renderer.forExport) { return renderer.html(str, x, y); } x = mathRound(pick(x, 0)); y = mathRound(pick(y, 0)); wrapper = renderer.createElement('text') .attr({ x: x, y: y, text: str }) .css({ fontFamily: defaultChartStyle.fontFamily, fontSize: defaultChartStyle.fontSize }); wrapper.x = x; wrapper.y = y; return wrapper; }, /** * 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 defaultChartStyle = defaultOptions.chart.style, wrapper = this.createElement('span'), attrSetters = wrapper.attrSetters, element = wrapper.element, renderer = wrapper.renderer; // Text setter attrSetters.text = function (value) { element.innerHTML = value; return false; }; // Various setters which rely on update transform attrSetters.x = attrSetters.y = attrSetters.align = function (value, key) { if (key === 'align') { key = 'textAlign'; // Do not overwrite the SVGElement.align method. Same as VML. } wrapper[key] = value; wrapper.htmlUpdateTransform(); return false; }; // Set the default attributes wrapper.attr({ text: str, x: mathRound(x), y: mathRound(y) }) .css({ position: ABSOLUTE, whiteSpace: 'nowrap', fontFamily: defaultChartStyle.fontFamily, fontSize: defaultChartStyle.fontSize }); // 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, htmlGroupStyle, container = renderer.box.parentNode; // Create a mock group to hold the HTML elements if (svgGroupWrapper) { htmlGroup = svgGroupWrapper.div; if (!htmlGroup) { htmlGroup = svgGroupWrapper.div = createElement(DIV, { className: attr(svgGroupWrapper.element, 'class') }, { position: ABSOLUTE, left: svgGroupWrapper.attr('translateX') + PX, top: svgGroupWrapper.attr('translateY') + PX }, container); // Ensure dynamic updating position htmlGroupStyle = htmlGroup.style; extend(svgGroupWrapper.attrSetters, { translateX: function (value) { htmlGroupStyle.left = value + PX; }, translateY: function (value) { htmlGroupStyle.top = value + PX; }, visibility: function (value, key) { htmlGroupStyle[key] = value; } }); } } else { htmlGroup = container; } htmlGroup.appendChild(element); // Shared with VML: wrapper.added = true; if (wrapper.alignOnAdd) { wrapper.htmlUpdateTransform(); } return wrapper; }; } return wrapper; }, /** * Utility to return the baseline offset and total line height from the font size */ fontMetrics: function (fontSize) { fontSize = pInt(fontSize || 11); // Empirical values found by comparing font size and bounding box height. // Applies to the default font family. http://jsfiddle.net/highcharts/7xvn7/ var lineHeight = fontSize < 24 ? fontSize + 4 : mathRound(fontSize * 1.2), baseline = mathRound(lineHeight * 0.8); return { h: lineHeight, b: baseline }; }, /** * 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. */ label: function (str, x, y, shape, anchorX, anchorY, useHTML, baseline) { var renderer = this, wrapper = renderer.g(), text = renderer.text('', 0, 0, useHTML) .attr({ zIndex: 1 }) .add(wrapper), box, bBox, align = 'left', padding = 3, width, height, wrapperX, wrapperY, crispAdjust = 0, deferredAttr = {}, baselineOffset, attrSetters = wrapper.attrSetters; /** * 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 boxY, style = text.element.style; bBox = (width === undefined || height === undefined || wrapper.styles.textAlign) && text.getBBox(true); wrapper.width = (width || bBox.width) + 2 * padding; wrapper.height = (height || bBox.height) + 2 * padding; // update the label-scoped y offset baselineOffset = padding + renderer.fontMetrics(style && style.fontSize).b; // create the border box if it is not already present if (!box) { boxY = baseline ? -baselineOffset : 0; wrapper.box = box = shape ? renderer.symbol(shape, 0, boxY, wrapper.width, wrapper.height) : renderer.rect(0, boxY, wrapper.width, wrapper.height, 0, deferredAttr[STROKE_WIDTH]); box.add(wrapper); } // apply the box attributes box.attr(merge({ width: wrapper.width, height: 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 = padding, y; // determin y based on the baseline y = baseline ? 0 : baselineOffset; // compensate for alignment if (defined(width) && (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, 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; } } function getSizeAfterAdd() { wrapper.attr({ text: str, // alignment is available now x: x, y: y, anchorX: anchorX, anchorY: anchorY }); } /** * After the text element is added, get the desired size of the border box * and add it before the text in the DOM. */ addEvent(wrapper, 'add', getSizeAfterAdd); /* * Add specific attribute setters. */ // only change local variables attrSetters.width = function (value) { width = value; return false; }; attrSetters.height = function (value) { height = value; return false; }; attrSetters.padding = function (value) { if (defined(value) && value !== padding) { padding = value; updateTextPadding(); } return false; }; // change local variable and set attribue as well attrSetters.align = function (value) { align = value; return false; // prevent setting text-anchor on the group }; // apply these to the box and the text alike attrSetters.text = function (value, key) { text.attr(key, value); updateBoxSize(); updateTextPadding(); return false; }; // apply these to the box but not to the text attrSetters[STROKE_WIDTH] = function (value, key) { crispAdjust = value % 2 / 2; boxAttr(key, value); return false; }; attrSetters.stroke = attrSetters.fill = attrSetters.r = function (value, key) { boxAttr(key, value); return false; }; attrSetters.anchorX = function (value, key) { anchorX = value; boxAttr(key, value + crispAdjust - wrapperX); return false; }; attrSetters.anchorY = function (value, key) { anchorY = value; boxAttr(key, value - wrapperY); return false; }; // rename attributes attrSetters.x = function (value) { value -= { left: 0, center: 0.5, right: 1 }[align] * ((width || bBox.width) + padding); wrapperX = wrapper.x = mathRound(value); // wrapper.x is for animation getter wrapper.attr('translateX', wrapperX); return false; }; attrSetters.y = function (value) { wrapperY = wrapper.y = mathRound(value); wrapper.attr('translateY', value); return false; }; // 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(['fontSize', 'fontWeight', 'fontFamily', 'color', 'lineHeight', 'width'], 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 box.getBBox(); }, /** * Apply the shadow to the box */ shadow: function (b) { box.shadow(b); return wrapper; }, /** * Destroy and release memory. */ destroy: function () { removeEvent(wrapper, 'add', getSizeAfterAdd); // Added by button implementation removeEvent(wrapper.element, 'mouseenter'); removeEvent(wrapper.element, 'mouseleave'); if (text) { // Destroy the text element text = text.destroy(); } // Call base implementation to destroy the rest SVGElement.prototype.destroy.call(wrapper); } }); } }; // end SVGRenderer // general renderer Renderer = SVGRenderer; /* **************************************************************************** * * * START OF INTERNET EXPLORER <= 8 SPECIFIC CODE * * * * For applications and websites that don't need IE support, like platform * * targeted mobile apps and web apps, this code can be removed. * * * *****************************************************************************/ /** * @constructor */ var VMLRenderer; if (!hasSVG && !useCanVG) { /** * The VML element wrapper. */ var VMLElement = { /** * Initialize a new VML element wrapper. It builds the markup as a string * to minimize DOM traffic. * @param {Object} renderer * @param {Object} nodeName */ init: function (renderer, nodeName) { var wrapper = this, markup = ['<', nodeName, ' filled="f" stroked="f"'], style = ['position: ', ABSOLUTE, ';']; // divs and shapes need size if (nodeName === 'shape' || nodeName === DIV) { style.push('left:0;top:0;width:10px;height:10px;'); } if (docMode8) { style.push('visibility: ', nodeName === DIV ? HIDDEN : VISIBLE); } markup.push(' style="', style.join(''), '"/>'); // create element with default attributes and style if (nodeName) { markup = nodeName === DIV || nodeName === 'span' || nodeName === 'img' ? markup.join('') : renderer.prepVML(markup); wrapper.element = createElement(markup); } wrapper.renderer = renderer; wrapper.attrSetters = {}; }, /** * Add the node to the given parent * @param {Object} parent */ add: function (parent) { var wrapper = this, renderer = wrapper.renderer, element = wrapper.element, box = renderer.box, inverted = parent && parent.inverted, // get the parent node parentNode = parent ? parent.element || parent : box; // if the parent group is inverted, apply inversion on all children if (inverted) { // only on groups renderer.invertChild(element, parentNode); } // issue #140 workaround - related to #61 and #74 if (docMode8 && parentNode.gVis === HIDDEN) { css(element, { visibility: HIDDEN }); } // append it parentNode.appendChild(element); // align text after adding to be able to read offset wrapper.added = true; if (wrapper.alignOnAdd && !wrapper.deferUpdateTransform) { wrapper.updateTransform(); } // fire an event for internal hooks fireEvent(wrapper, 'add'); return wrapper; }, /** * In IE8 documentMode 8, we need to recursively set the visibility down in the DOM * tree for nested groups. Related to #61, #586. */ toggleChildren: function (element, visibility) { var childNodes = element.childNodes, i = childNodes.length; while (i--) { // apply the visibility css(childNodes[i], { visibility: visibility }); // we have a nested group, apply it to its children again if (childNodes[i].nodeName === 'DIV') { this.toggleChildren(childNodes[i], visibility); } } }, /** * VML always uses htmlUpdateTransform */ updateTransform: SVGElement.prototype.htmlUpdateTransform, /** * Get or set attributes */ attr: function (hash, val) { var wrapper = this, key, value, i, result, element = wrapper.element || {}, elemStyle = element.style, nodeName = element.nodeName, renderer = wrapper.renderer, symbolName = wrapper.symbolName, hasSetSymbolSize, shadows = wrapper.shadows, skipAttr, attrSetters = wrapper.attrSetters, ret = wrapper; // single key-value pair if (isString(hash) && defined(val)) { key = hash; hash = {}; hash[key] = val; } // used as a getter, val is undefined if (isString(hash)) { key = hash; if (key === 'strokeWidth' || key === 'stroke-width') { ret = wrapper.strokeweight; } else { ret = wrapper[key]; } // setter } else { for (key in hash) { value = hash[key]; skipAttr = false; // check for a specific attribute setter result = attrSetters[key] && attrSetters[key](value, key); if (result !== false && value !== null) { // #620 if (result !== UNDEFINED) { value = result; // the attribute setter has returned a new value to set } // prepare paths // symbols if (symbolName && /^(x|y|r|start|end|width|height|innerR|anchorX|anchorY)/.test(key)) { // if one of the symbol size affecting parameters are changed, // check all the others only once for each call to an element's // .attr() method if (!hasSetSymbolSize) { wrapper.symbolAttr(hash); hasSetSymbolSize = true; } skipAttr = true; } else if (key === 'd') { value = value || []; wrapper.d = value.join(' '); // used in getter for animation // convert paths i = value.length; var convertedPath = []; while (i--) { // Multiply by 10 to allow subpixel precision. // Substracting half a pixel seems to make the coordinates // align with SVG, but this hasn't been tested thoroughly if (isNumber(value[i])) { convertedPath[i] = mathRound(value[i] * 10) - 5; } else if (value[i] === 'Z') { // close the path convertedPath[i] = 'x'; } else { convertedPath[i] = value[i]; } } value = convertedPath.join(' ') || 'x'; element.path = value; // update shadows if (shadows) { i = shadows.length; while (i--) { shadows[i].path = value; } } skipAttr = true; // directly mapped to css } else if (key === 'zIndex' || key === 'visibility') { // workaround for #61 and #586 if (docMode8 && key === 'visibility' && nodeName === 'DIV') { element.gVis = value; wrapper.toggleChildren(element, value); if (value === VISIBLE) { // #74 value = null; } } if (value) { elemStyle[key] = value; } skipAttr = true; // width and height } else if (key === 'width' || key === 'height') { value = mathMax(0, value); // don't set width or height below zero (#311) this[key] = value; // used in getter // clipping rectangle special if (wrapper.updateClipping) { wrapper[key] = value; wrapper.updateClipping(); } else { // normal elemStyle[key] = value; } skipAttr = true; // x and y } else if (key === 'x' || key === 'y') { wrapper[key] = value; // used in getter elemStyle[{ x: 'left', y: 'top' }[key]] = value; // class name } else if (key === 'class') { // IE8 Standards mode has problems retrieving the className element.className = value; // stroke } else if (key === 'stroke') { value = renderer.color(value, element, key); key = 'strokecolor'; // stroke width } else if (key === 'stroke-width' || key === 'strokeWidth') { element.stroked = value ? true : false; key = 'strokeweight'; wrapper[key] = value; // used in getter, issue #113 if (isNumber(value)) { value += PX; } // dashStyle } else if (key === 'dashstyle') { var strokeElem = element.getElementsByTagName('stroke')[0] || createElement(renderer.prepVML(['']), null, null, element); strokeElem[key] = value || 'solid'; wrapper.dashstyle = value; /* because changing stroke-width will change the dash length and cause an epileptic effect */ skipAttr = true; // fill } else if (key === 'fill') { if (nodeName === 'SPAN') { // text color elemStyle.color = value; } else { element.filled = value !== NONE ? true : false; value = renderer.color(value, element, key); key = 'fillcolor'; } // translation for animation } else if (key === 'translateX' || key === 'translateY' || key === 'rotation') { wrapper[key] = value; wrapper.updateTransform(); skipAttr = true; // text for rotated and non-rotated elements } else if (key === 'text') { this.bBox = null; element.innerHTML = value; skipAttr = true; } // let the shadow follow the main element if (shadows && key === 'visibility') { i = shadows.length; while (i--) { shadows[i].style[key] = value; } } if (!skipAttr) { if (docMode8) { // IE8 setAttribute bug element[key] = value; } else { attr(element, key, value); } } } } } return ret; }, /** * Set the element's clipping to a predefined rectangle * * @param {String} id The id of the clip rectangle */ clip: function (clipRect) { var wrapper = this, clipMembers = clipRect.members; clipMembers.push(wrapper); wrapper.destroyClip = function () { erase(clipMembers, wrapper); }; return wrapper.css(clipRect.getCSS(wrapper.inverted)); }, /** * Set styles for the element * @param {Object} styles */ css: SVGElement.prototype.htmlCss, /** * 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) { // discardElement will detach the node from its parent before attaching it // to the garbage bin. Therefore it is important that the node is attached and have parent. var parentNode = element.parentNode; if (parentNode) { discardElement(element); } }, /** * Extend element.destroy by removing it from the clip members array */ destroy: function () { var wrapper = this; if (wrapper.destroyClip) { wrapper.destroyClip(); } return SVGElement.prototype.destroy.apply(wrapper); }, /** * Remove all child nodes of a group, except the v:group element */ empty: function () { var element = this.element, childNodes = element.childNodes, i = childNodes.length, node; while (i--) { node = childNodes[i]; node.parentNode.removeChild(node); } }, /** * Add an event listener. VML override for normalizing event parameters. * @param {String} eventType * @param {Function} handler */ on: function (eventType, handler) { // simplest possible event model for internal use this.element['on' + eventType] = function () { var evt = win.event; evt.target = evt.srcElement; handler(evt); }; return this; }, /** * Apply a drop shadow by copying elements and giving them different strokes * @param {Boolean} apply */ shadow: function (apply, group) { var shadows = [], i, element = this.element, renderer = this.renderer, shadow, elemStyle = element.style, markup, path = element.path; // some times empty paths are not strings if (path && typeof path.value !== 'string') { path = 'x'; } if (apply) { for (i = 1; i <= 3; i++) { markup = ['']; shadow = createElement(renderer.prepVML(markup), null, { left: pInt(elemStyle.left) + 1, top: pInt(elemStyle.top) + 1 } ); // apply the opacity markup = ['']; createElement(renderer.prepVML(markup), null, null, shadow); // insert it if (group) { group.element.appendChild(shadow); } else { element.parentNode.insertBefore(shadow, element); } // record it shadows.push(shadow); } this.shadows = shadows; } return this; } }; VMLElement = extendClass(SVGElement, VMLElement); /** * The VML renderer */ var VMLRendererExtension = { // inherit SVGRenderer Element: VMLElement, isIE8: userAgent.indexOf('MSIE 8.0') > -1, /** * Initialize the VMLRenderer * @param {Object} container * @param {Number} width * @param {Number} height */ init: function (container, width, height) { var renderer = this, boxWrapper, box; renderer.alignedObjects = []; boxWrapper = renderer.createElement(DIV); box = boxWrapper.element; box.style.position = RELATIVE; // for freeform drawing using renderer directly container.appendChild(boxWrapper.element); // generate the containing box renderer.box = box; renderer.boxWrapper = boxWrapper; renderer.setSize(width, height, false); // The only way to make IE6 and IE7 print is to use a global namespace. However, // with IE8 the only way to make the dynamic shapes visible in screen and print mode // seems to be to add the xmlns attribute and the behaviour style inline. if (!doc.namespaces.hcv) { doc.namespaces.add('hcv', 'urn:schemas-microsoft-com:vml'); // setup default css doc.createStyleSheet().cssText = 'hcv\\:fill, hcv\\:path, hcv\\:shape, hcv\\:stroke' + '{ behavior:url(#default#VML); display: inline-block; } '; } }, /** * Define a clipping rectangle. In VML it is accomplished by storing the values * for setting the CSS style to all associated members. * * @param {Number} x * @param {Number} y * @param {Number} width * @param {Number} height */ clipRect: function (x, y, width, height) { // create a dummy element var clipRect = this.createElement(); // mimic a rectangle with its style object for automatic updating in attr return extend(clipRect, { members: [], left: x, top: y, width: width, height: height, getCSS: function (inverted) { var rect = this,//clipRect.element.style, top = rect.top, left = rect.left, right = left + rect.width, bottom = top + rect.height, ret = { clip: 'rect(' + mathRound(inverted ? left : top) + 'px,' + mathRound(inverted ? bottom : right) + 'px,' + mathRound(inverted ? right : bottom) + 'px,' + mathRound(inverted ? top : left) + 'px)' }; // issue 74 workaround if (!inverted && docMode8) { extend(ret, { width: right + PX, height: bottom + PX }); } return ret; }, // used in attr and animation to update the clipping of all members updateClipping: function () { each(clipRect.members, function (member) { member.css(clipRect.getCSS(member.inverted)); }); } }); }, /** * Take a color and return it if it's a string, make it a gradient if it's a * gradient configuration object, and apply opacity. * * @param {Object} color The color or config object */ color: function (color, elem, prop) { var colorObject, regexRgba = /^rgba/, markup; if (color && color[LINEAR_GRADIENT]) { var stopColor, stopOpacity, linearGradient = color[LINEAR_GRADIENT], x1 = linearGradient.x1 || linearGradient[0] || 0, y1 = linearGradient.y1 || linearGradient[1] || 0, x2 = linearGradient.x2 || linearGradient[2] || 0, y2 = linearGradient.y2 || linearGradient[3] || 0, angle, color1, opacity1, color2, opacity2; each(color.stops, function (stop, i) { if (regexRgba.test(stop[1])) { colorObject = Color(stop[1]); stopColor = colorObject.get('rgb'); stopOpacity = colorObject.get('a'); } else { stopColor = stop[1]; stopOpacity = 1; } if (!i) { // first color1 = stopColor; opacity1 = stopOpacity; } else { color2 = stopColor; opacity2 = stopOpacity; } }); // Apply the gradient to fills only. if (prop === 'fill') { // calculate the angle based on the linear vector angle = 90 - math.atan( (y2 - y1) / // y vector (x2 - x1) // x vector ) * 180 / mathPI; // when colors attribute is used, the meanings of opacity and o:opacity2 // are reversed. markup = ['']; createElement(this.prepVML(markup), null, null, elem); // Gradients are not supported for VML stroke, return the first color. #722. } else { return stopColor; } // if the color is an rgba color, split it and add a fill node // to hold the opacity component } else if (regexRgba.test(color) && elem.tagName !== 'IMG') { colorObject = Color(color); markup = ['<', prop, ' opacity="', colorObject.get('a'), '"/>']; createElement(this.prepVML(markup), null, null, elem); return colorObject.get('rgb'); } else { var strokeNodes = elem.getElementsByTagName(prop); if (strokeNodes.length) { strokeNodes[0].opacity = 1; } return color; } }, /** * Take a VML string and prepare it for either IE8 or IE6/IE7. * @param {Array} markup A string array of the VML markup to prepare */ prepVML: function (markup) { var vmlStyle = 'display:inline-block;behavior:url(#default#VML);', isIE8 = this.isIE8; markup = markup.join(''); if (isIE8) { // add xmlns and style inline markup = markup.replace('/>', ' xmlns="urn:schemas-microsoft-com:vml" />'); if (markup.indexOf('style="') === -1) { markup = markup.replace('/>', ' style="' + vmlStyle + '" />'); } else { markup = markup.replace('style="', 'style="' + vmlStyle); } } else { // add namespace markup = markup.replace('<', ' 1) { obj.css({ left: x, top: y, width: width, height: height }); } return obj; }, /** * VML uses a shape for rect to overcome bugs and rotation problems */ rect: function (x, y, width, height, r, strokeWidth) { if (isObject(x)) { y = x.y; width = x.width; height = x.height; strokeWidth = x.strokeWidth; x = x.x; } var wrapper = this.symbol('rect'); wrapper.r = r; return wrapper.attr(wrapper.crisp(strokeWidth, x, y, mathMax(width, 0), mathMax(height, 0))); }, /** * In the VML renderer, each child of an inverted div (group) is inverted * @param {Object} element * @param {Object} parentNode */ invertChild: function (element, parentNode) { var parentStyle = parentNode.style; css(element, { flip: 'x', left: pInt(parentStyle.width) - 10, top: pInt(parentStyle.height) - 10, rotation: -90 }); }, /** * Symbol definitions that override the parent SVG renderer's symbols * */ symbols: { // VML specific arc function arc: function (x, y, w, h, options) { var start = options.start, end = options.end, radius = options.r || w || h, cosStart = mathCos(start), sinStart = mathSin(start), cosEnd = mathCos(end), sinEnd = mathSin(end), innerRadius = options.innerR, circleCorrection = 0.08 / radius, // #760 innerCorrection = (innerRadius && 0.25 / innerRadius) || 0; if (end - start === 0) { // no angle, don't show it. return ['x']; } else if (2 * mathPI - end + start < circleCorrection) { // full circle // empirical correction found by trying out the limits for different radii cosEnd = -circleCorrection; } else if (end - start < innerCorrection) { // issue #186, another mysterious VML arc problem cosEnd = mathCos(start + innerCorrection); } return [ 'wa', // clockwise arc to x - radius, // left y - radius, // top x + radius, // right y + radius, // bottom x + radius * cosStart, // start x y + radius * sinStart, // start y x + radius * cosEnd, // end x y + radius * sinEnd, // end y 'at', // anti clockwise arc to x - innerRadius, // left y - innerRadius, // top x + innerRadius, // right y + innerRadius, // bottom x + innerRadius * cosEnd, // start x y + innerRadius * sinEnd, // start y x + innerRadius * cosStart, // end x y + innerRadius * sinStart, // end y 'x', // finish path 'e' // close ]; }, // Add circle symbol path. This performs significantly faster than v:oval. circle: function (x, y, w, h) { return [ 'wa', // clockwisearcto x, // left y, // top x + w, // right y + h, // bottom x + w, // start x y + h / 2, // start y x + w, // end x y + h / 2, // end y //'x', // finish path 'e' // close ]; }, /** * Add rectangle symbol path which eases rotation and omits arcsize problems * compared to the built-in VML roundrect shape * * @param {Number} left Left position * @param {Number} top Top position * @param {Number} r Border radius * @param {Object} options Width and height */ rect: function (left, top, width, height, options) { /*for (var n in r) { logTime && console .log(n) }*/ if (!defined(options)) { return []; } var right = left + width, bottom = top + height, r = mathMin(options.r || 0, width, height); return [ M, left + r, top, L, right - r, top, 'wa', right - 2 * r, top, right, top + 2 * r, right - r, top, right, top + r, L, right, bottom - r, 'wa', right - 2 * r, bottom - 2 * r, right, bottom, right, bottom - r, right - r, bottom, L, left + r, bottom, 'wa', left, bottom - 2 * r, left + 2 * r, bottom, left + r, bottom, left, bottom - r, L, left, top + r, 'wa', left, top, left + 2 * r, top + 2 * r, left, top + r, left + r, top, 'x', 'e' ]; } } }; VMLRenderer = function () { this.init.apply(this, arguments); }; VMLRenderer.prototype = merge(SVGRenderer.prototype, VMLRendererExtension); // general renderer Renderer = VMLRenderer; } /* **************************************************************************** * * * END OF INTERNET EXPLORER <= 8 SPECIFIC CODE * * * *****************************************************************************/ /* **************************************************************************** * * * START OF ANDROID < 3 SPECIFIC CODE. THIS CAN BE REMOVED IF YOU'RE NOT * * TARGETING THAT SYSTEM. * * * *****************************************************************************/ var CanVGRenderer, CanVGController; if (useCanVG) { /** * The CanVGRenderer is empty from start to keep the source footprint small. * When requested, the CanVGController downloads the rest of the source packaged * together with the canvg library. */ CanVGRenderer = function () { // Empty constructor }; /** * Handles on demand download of canvg rendering support. */ CanVGController = (function () { // List of renderering calls var deferredRenderCalls = []; /** * When downloaded, we are ready to draw deferred charts. */ function drawDeferred() { var callLength = deferredRenderCalls.length, callIndex; // Draw all pending render calls for (callIndex = 0; callIndex < callLength; callIndex++) { deferredRenderCalls[callIndex](); } // Clear the list deferredRenderCalls = []; } return { push: function (func, scriptLocation) { // Only get the script once if (deferredRenderCalls.length === 0) { getScript(scriptLocation, drawDeferred); } // Register render call deferredRenderCalls.push(func); } }; }()); } // end CanVGRenderer /* **************************************************************************** * * * END OF ANDROID < 3 SPECIFIC CODE * * * *****************************************************************************/ /** * General renderer */ Renderer = VMLRenderer || CanVGRenderer || SVGRenderer; /** * The chart class * @param {Object} options * @param {Function} callback Function to run when the chart has loaded */ function Chart(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 var optionsChart = options.chart, optionsMargin = optionsChart.margin, margin = isObject(optionsMargin) ? optionsMargin : [optionsMargin, optionsMargin, optionsMargin, optionsMargin], optionsMarginTop = pick(optionsChart.marginTop, margin[0]), optionsMarginRight = pick(optionsChart.marginRight, margin[1]), optionsMarginBottom = pick(optionsChart.marginBottom, margin[2]), optionsMarginLeft = pick(optionsChart.marginLeft, margin[3]), spacingTop = optionsChart.spacingTop, spacingRight = optionsChart.spacingRight, spacingBottom = optionsChart.spacingBottom, spacingLeft = optionsChart.spacingLeft, spacingBox, chartTitleOptions, chartSubtitleOptions, plotTop, marginRight, marginBottom, plotLeft, axisOffset, renderTo, renderToClone, container, containerId, containerWidth, containerHeight, chartWidth, chartHeight, oldChartWidth, oldChartHeight, chartBackground, plotBackground, plotBGImage, plotBorder, chart = this, chartEvents = optionsChart.events, runChartClick = chartEvents && !!chartEvents.click, eventType, isInsidePlot, // function tooltip, mouseIsDown, loadingDiv, loadingSpan, loadingShown, plotHeight, plotWidth, tracker, trackerGroup, legend, legendWidth, legendHeight, chartPosition, hasCartesianSeries = optionsChart.showAxes, isResizing = 0, axes = [], maxTicks, // handle the greatest amount of ticks on grouped axes series = [], inverted, renderer, tooltipTick, tooltipInterval, hoverX, drawChartBox, // function getMargins, // function resetMargins, // function setChartSize, // function resize, zoom, // function zoomOut; // function /** * Create a new axis object * @param {Object} options */ function Axis(userOptions) { // Define variables var isXAxis = userOptions.isX, opposite = userOptions.opposite, // needed in setOptions horiz = inverted ? !isXAxis : isXAxis, side = horiz ? (opposite ? 0 : 2) : // top : bottom (opposite ? 1 : 3), // right : left stacks = {}, options = merge( isXAxis ? defaultXAxisOptions : defaultYAxisOptions, [defaultTopAxisOptions, defaultRightAxisOptions, defaultBottomAxisOptions, defaultLeftAxisOptions][side], userOptions ), axis = this, axisTitle, type = options.type, isDatetimeAxis = type === 'datetime', isLog = type === 'logarithmic', offset = options.offset || 0, xOrY = isXAxis ? 'x' : 'y', axisLength = 0, oldAxisLength, transA, // translation factor transB, // translation addend oldTransA, // used for prerendering axisLeft, axisTop, axisWidth, axisHeight, axisBottom, axisRight, translate, // fn setAxisTranslation, // fn getPlotLinePath, // fn axisGroup, gridGroup, axisLine, dataMin, dataMax, minRange = options.minRange || options.maxZoom, range = options.range, userMin, userMax, oldUserMin, oldUserMax, max = null, min = null, oldMin, oldMax, minPadding = options.minPadding, maxPadding = options.maxPadding, minPixelPadding = 0, isLinked = defined(options.linkedTo), linkedParent, ignoreMinPadding, // can be set to true by a column or bar series ignoreMaxPadding, usePercentage, events = options.events, eventType, plotLinesAndBands = [], tickInterval, minorTickInterval, magnitude, tickPositions, // array containing predefined positions tickPositioner = options.tickPositioner, ticks = {}, minorTicks = {}, alternateBands = {}, tickAmount, labelOffset, axisTitleMargin,// = options.title.margin, categories = options.categories, labelFormatter = options.labels.formatter || // can be overwritten by dynamic format function () { var value = this.value, dateTimeLabelFormat = this.dateTimeLabelFormat, ret; if (dateTimeLabelFormat) { // datetime axis ret = dateFormat(dateTimeLabelFormat, value); } else if (tickInterval % 1000000 === 0) { // use M abbreviation ret = (value / 1000000) + 'M'; } else if (tickInterval % 1000 === 0) { // use k abbreviation ret = (value / 1000) + 'k'; } else if (!categories && value >= 1000) { // add thousands separators ret = numberFormat(value, 0); } else { // strings (categories) and small numbers ret = value; } return ret; }, staggerLines = horiz && options.labels.staggerLines, reversed = options.reversed, tickmarkOffset = (categories && options.tickmarkPlacement === 'between') ? 0.5 : 0; /** * The Tick class */ function Tick(pos, type) { var tick = this; tick.pos = pos; tick.type = type || ''; tick.isNew = true; if (!type) { tick.addLabel(); } } Tick.prototype = { /** * Write the tick label */ addLabel: function () { var tick = this, pos = tick.pos, labelOptions = options.labels, str, width = (categories && horiz && categories.length && !labelOptions.step && !labelOptions.staggerLines && !labelOptions.rotation && plotWidth / categories.length) || (!horiz && plotWidth / 2), isFirst = pos === tickPositions[0], isLast = pos === tickPositions[tickPositions.length - 1], css, value = categories && defined(categories[pos]) ? categories[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 (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 = labelFormatter.call({ axis: axis, chart: chart, isFirst: isFirst, isLast: isLast, dateTimeLabelFormat: dateTimeLabelFormat, value: isLog ? correctFloat(lin2log(value)) : value }); // prepare CSS css = width && { width: mathMax(1, mathRound(width - 2 * (labelOptions.padding || 10))) + PX }; css = extend(css, labelOptions.style); // first call if (!defined(label)) { tick.label = defined(str) && labelOptions.enabled ? renderer.text( str, 0, 0, labelOptions.useHTML ) .attr({ align: labelOptions.align, rotation: labelOptions.rotation }) // without position absolute, IE export sometimes is wrong .css(css) .add(axisGroup) : null; // update } else if (label) { label.attr({ text: str }) .css(css); } }, /** * Get the offset height or width of the label */ getLabelSize: function () { var label = this.label; return label ? ((this.labelBBox = label.getBBox()))[horiz ? 'height' : 'width'] : 0; }, /** * Find how far the labels extend to the right and left of the tick's x position. Used for anti-collision * detection with overflow logic. */ getLabelSides: function () { var bBox = this.labelBBox, // assume getLabelSize has run at this point labelOptions = options.labels, width = bBox.width, leftSide = width * { left: 0, center: 0.5, right: 1 }[labelOptions.align] - labelOptions.x; return [-leftSide, width - leftSide]; }, /** * 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 (index) { var show = true, isFirst = this.isFirst, isLast = this.isLast, label = this.label, x = label.x; if (isFirst || isLast) { var sides = this.getLabelSides(), leftSide = sides[0], rightSide = sides[1], plotLeft = chart.plotLeft, plotRight = plotLeft + axis.len, neighbour = ticks[tickPositions[index + (isFirst ? 1 : -1)]], neighbourEdge = neighbour && neighbour.label.x + neighbour.getLabelSides()[isFirst ? 0 : 1]; if ((isFirst && !reversed) || (isLast && reversed)) { // Is the label spilling out to the left of the plot area? if (x + leftSide < plotLeft) { // Align it to plot left x = plotLeft - leftSide; // Hide it if it now overlaps the neighbour label if (neighbour && x + rightSide > neighbourEdge) { show = false; } } } else { // Is the label spilling out to the right of the plot area? if (x + rightSide > plotRight) { // Align it to plot right x = plotRight - rightSide; // Hide it if it now overlaps the neighbour label if (neighbour && x + leftSide < neighbourEdge) { show = false; } } } // Set the modified x position of the label label.x = x; } return show; }, /** * Put everything in place * * @param index {Number} * @param old {Boolean} Use old coordinates to prepare an animation into new position */ render: function (index, old) { var tick = this, 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 = options[tickPrefix + 'Width'] || 0, tickColor = options[tickPrefix + 'Color'], tickPosition = options[tickPrefix + 'Position'], gridLinePath, mark = tick.mark, markPath, step = labelOptions.step, cHeight = (old && oldChartHeight) || chartHeight, attribs, show = true, x, y; // get x and y position for ticks and labels x = horiz ? translate(pos + tickmarkOffset, null, null, old) + transB : axisLeft + offset + (opposite ? ((old && oldChartWidth) || chartWidth) - axisRight - axisLeft : 0); y = horiz ? cHeight - axisBottom + offset - (opposite ? axisHeight : 0) : cHeight - translate(pos + tickmarkOffset, null, null, old) - transB; // create the grid line if (gridLineWidth) { gridLinePath = getPlotLinePath(pos + tickmarkOffset, gridLineWidth, old); if (gridLine === UNDEFINED) { attribs = { stroke: gridLineColor, 'stroke-width': gridLineWidth }; if (dashStyle) { attribs.dashstyle = dashStyle; } if (!type) { attribs.zIndex = 1; } tick.gridLine = gridLine = gridLineWidth ? renderer.path(gridLinePath) .attr(attribs).add(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.animate({ d: gridLinePath }); } } // create the tick mark if (tickWidth) { // negate the length if (tickPosition === 'inside') { tickLength = -tickLength; } if (opposite) { tickLength = -tickLength; } markPath = renderer.crispLine([ M, x, y, L, x + (horiz ? 0 : -tickLength), y + (horiz ? tickLength : 0) ], tickWidth); if (mark) { // updating mark.animate({ d: markPath }); } else { // first time tick.mark = renderer.path( markPath ).attr({ stroke: tickColor, 'stroke-width': tickWidth }).add(axisGroup); } } // the label is created on init - now move it into place if (label && !isNaN(x)) { x = x + labelOptions.x - (tickmarkOffset && horiz ? tickmarkOffset * transA * (reversed ? -1 : 1) : 0); y = y + labelOptions.y - (tickmarkOffset && !horiz ? tickmarkOffset * transA * (reversed ? 1 : -1) : 0); // vertically centered if (!defined(labelOptions.y)) { y += pInt(label.styles.lineHeight) * 0.9 - label.getBBox().height / 2; } // correct for staggered labels if (staggerLines) { y += (index / (step || 1) % staggerLines) * 16; } // Cache x and y to be able to read final position before animation label.x = x; label.y = y; // apply show first and show last if ((tick.isFirst && !pick(options.showFirstLabel, 1)) || (tick.isLast && !pick(options.showLastLabel, 1))) { show = false; // Handle label overflow and show or hide accordingly } else if (!staggerLines && horiz && labelOptions.overflow === 'justify' && !tick.handleOverflow(index)) { show = false; } // apply step if (step && index % step) { // show those indices dividable by step show = false; } // Set the new position, and show or hide if (show) { label[tick.isNew ? 'attr' : 'animate']({ x: label.x, y: label.y }); label.show(); tick.isNew = false; } else { label.hide(); } } }, /** * Destructor for the tick prototype */ destroy: function () { destroyObjectProperties(this); } }; /** * The object wrapper for plot lines and plot bands * @param {Object} options */ function PlotLineOrBand(options) { var plotLine = this; if (options) { plotLine.options = options; plotLine.id = options.id; } //plotLine.render() return plotLine; } PlotLineOrBand.prototype = { /** * Render the plot line or plot band. If it is already existing, * move it. */ render: function () { var plotLine = this, halfPointRange = (axis.pointRange || 0) / 2, options = plotLine.options, optionsLabel = options.label, label = plotLine.label, width = options.width, to = options.to, from = options.from, value = options.value, toPath, // bands only dashStyle = options.dashStyle, svgElem = plotLine.svgElem, path = [], addEvent, eventType, xs, ys, x, y, color = options.color, zIndex = options.zIndex, events = options.events, attribs; // logarithmic conversion if (isLog) { from = log2lin(from); to = log2lin(to); value = log2lin(value); } // plot line if (width) { path = getPlotLinePath(value, width); attribs = { stroke: color, 'stroke-width': width }; if (dashStyle) { attribs.dashstyle = dashStyle; } } else if (defined(from) && defined(to)) { // plot band // keep within plot area from = mathMax(from, min - halfPointRange); to = mathMin(to, max + halfPointRange); toPath = getPlotLinePath(to); path = getPlotLinePath(from); if (path && toPath) { path.push( toPath[4], toPath[5], toPath[1], toPath[2] ); } else { // outside the axis area path = null; } attribs = { fill: color }; } 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(); }; } } 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 && axisWidth > 0 && axisHeight > 0) { // apply defaults optionsLabel = merge({ align: horiz && toPath && 'center', x: horiz ? !toPath && 4 : 10, verticalAlign : !horiz && toPath && 'middle', y: horiz ? toPath ? 16 : 10 : toPath ? 6 : -4, rotation: horiz && !toPath && 90 }, optionsLabel); // add the SVG element if (!label) { plotLine.label = label = renderer.text( optionsLabel.text, 0, 0 ) .attr({ align: optionsLabel.textAlign || optionsLabel.align, rotation: optionsLabel.rotation, zIndex: zIndex }) .css(optionsLabel.style) .add(); } // get the bounding box and align the label xs = [path[1], path[4], pick(path[6], path[1])]; ys = [path[2], path[5], pick(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 () { var obj = this; destroyObjectProperties(obj); // remove it from the lookup erase(plotLinesAndBands, obj); } }; /** * The class for stack items */ function StackItem(options, isNegative, x, stackOption) { var stackItem = this; // Tells if the stack is negative stackItem.isNegative = isNegative; // Save the options to be able to style the label stackItem.options = options; // Save the x value to be able to position the label later stackItem.x = x; // Save the stack option on the series configuration object stackItem.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. stackItem.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) }; stackItem.textAlign = options.textAlign || (inverted ? (isNegative ? 'right' : 'left') : 'center'); } StackItem.prototype = { destroy: function () { destroyObjectProperties(this); }, /** * Sets the total of this stack. Should be called when a serie is hidden or shown * since that will affect the total of other stacks. */ setTotal: function (total) { this.total = total; this.cum = total; }, /** * Renders the stack total label and adds it to the stack label group. */ render: function (group) { var stackItem = this, // aliased this str = stackItem.options.formatter.call(stackItem); // 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 (stackItem.label) { stackItem.label.attr({text: str, visibility: HIDDEN}); // Create new label } else { stackItem.label = chart.renderer.text(str, 0, 0) // dummy positions, actual position updated with setOffset method in columnseries .css(stackItem.options.style) // apply style .attr({align: stackItem.textAlign, // fix the text-anchor rotation: stackItem.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, // aliased this neg = stackItem.isNegative, // special treatment is needed for negative stacks y = axis.translate(stackItem.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(stackItem.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 }; if (stackItem.label) { stackItem.label .align(stackItem.alignOptions, null, stackBox) // align the label to the box .attr({visibility: VISIBLE}); // set visibility } } }; /** * Get the minimum and maximum for the series of each axis */ function getSeriesExtremes() { var posStack = [], negStack = [], i; // reset dataMin and dataMax in case we're redrawing dataMin = dataMax = null; // loop through this axis' series each(axis.series, function (series) { if (series.visible || !optionsChart.ignoreHiddenSeries) { var seriesOptions = series.options, stacking, posPointStack, negPointStack, stackKey, stackOption, negKey, xData, yData, x, y, threshold = seriesOptions.threshold, yDataLength, activeYData = [], activeCounter = 0; // Validate threshold in logarithmic axes if (isLog && threshold <= 0) { threshold = seriesOptions.threshold = null; } // Get dataMin and dataMax for X axes if (isXAxis) { xData = series.xData; if (xData.length) { dataMin = mathMin(pick(dataMin, xData[0]), arrayMin(xData)); dataMax = mathMax(pick(dataMax, xData[0]), arrayMax(xData)); } // Get dataMin and dataMax for Y axes, as well as handle stacking and processed data } else { var isNegative, pointStack, key, cropped = series.cropped, xExtremes = series.xAxis.getExtremes(), //findPointRange, //pointRange, j, hasModifyValue = !!series.modifyValue; // Handle stacking stacking = seriesOptions.stacking; usePercentage = stacking === 'percent'; // create a stack for this particular series type if (stacking) { stackOption = seriesOptions.stack; stackKey = series.type + pick(stackOption, ''); negKey = '-' + stackKey; series.stackKey = stackKey; // used in translate posPointStack = posStack[stackKey] || []; // contains the total values for each x posStack[stackKey] = posPointStack; negPointStack = negStack[negKey] || []; negStack[negKey] = negPointStack; } if (usePercentage) { dataMin = 0; dataMax = 99; } // processData can alter series.pointRange, so this goes after //findPointRange = series.pointRange === null; xData = series.processedXData; yData = series.processedYData; yDataLength = yData.length; // 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]; if (y !== null && y !== UNDEFINED) { // read stacked values into a stack based on the x value, // the sign of y and the stack key if (stacking) { isNegative = y < threshold; pointStack = isNegative ? negPointStack : posPointStack; key = isNegative ? negKey : stackKey; y = pointStack[x] = defined(pointStack[x]) ? pointStack[x] + y : y; // add the series if (!stacks[key]) { stacks[key] = {}; } // If the StackItem is there, just update the values, // if not, create one first if (!stacks[key][x]) { stacks[key][x] = new StackItem(options.stackLabels, isNegative, x, stackOption); } stacks[key][x].setTotal(y); // general hook, used for Highstock compare values feature } else if (hasModifyValue) { y = series.modifyValue(y); } // get the smallest distance between points /*if (i) { distance = mathAbs(xData[i] - xData[i - 1]); pointRange = pointRange === UNDEFINED ? distance : mathMin(distance, pointRange); }*/ // for points within the visible range, including the first point outside the // visible range, consider y extremes if (cropped || ((xData[i + 1] || x) >= xExtremes.min && (xData[i - 1] || x) <= xExtremes.max)) { j = y.length; if (j) { // array, like ohlc data while (j--) { if (y[j] !== null) { activeYData[activeCounter++] = y[j]; } } } else { activeYData[activeCounter++] = y; } } } } // record the least unit distance /*if (findPointRange) { series.pointRange = pointRange || 1; } series.closestPointRange = pointRange;*/ // Get the dataMin and dataMax so far. If percentage is used, the min and max are // always 0 and 100. If the length of activeYData is 0, continue with null values. if (!usePercentage && activeYData.length) { dataMin = mathMin(pick(dataMin, activeYData[0]), arrayMin(activeYData)); dataMax = mathMax(pick(dataMax, activeYData[0]), arrayMax(activeYData)); } // Adjust to threshold if (defined(threshold)) { if (dataMin >= threshold) { dataMin = threshold; ignoreMinPadding = true; } else if (dataMax < threshold) { dataMax = threshold; ignoreMaxPadding = true; } } } } }); } /** * Translate from axis value to pixel position on the chart, or back * */ translate = function (val, backwards, cvsCoord, old, handleLog) { var sign = 1, cvsOffset = 0, localA = old ? oldTransA : transA, localMin = old ? oldMin : min, returnValue, postTranslate = options.ordinal || (isLog && handleLog); if (!localA) { localA = transA; } if (cvsCoord) { sign *= -1; // canvas coordinates inverts the value cvsOffset = axisLength; } if (reversed) { // reversed axis sign *= -1; cvsOffset -= sign * axisLength; } if (backwards) { // reverse translation if (reversed) { val = axisLength - val; } returnValue = val / localA + localMin; // from chart pixel to value if (postTranslate) { // log and ordinal axes returnValue = axis.lin2val(returnValue); } } else { // normal translation, from axis value to pixel, relative to plot if (postTranslate) { // log and ordinal axes val = axis.val2lin(val); } returnValue = sign * (val - localMin) * localA + cvsOffset + (sign * minPixelPadding); } return returnValue; }; /** * 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) { var x1, y1, x2, y2, translatedValue = translate(value, null, null, old), cHeight = (old && oldChartHeight) || chartHeight, cWidth = (old && oldChartWidth) || chartWidth, skip; x1 = x2 = mathRound(translatedValue + transB); y1 = y2 = mathRound(cHeight - translatedValue - transB); if (isNaN(translatedValue)) { // no min or max skip = true; } else if (horiz) { y1 = axisTop; y2 = cHeight - axisBottom; if (x1 < axisLeft || x1 > axisLeft + axisWidth) { skip = true; } } else { x1 = axisLeft; x2 = cWidth - axisRight; if (y1 < axisTop || y1 > axisTop + axisHeight) { skip = true; } } return skip ? null : renderer.crispLine([M, x1, y1, L, x2, y2], lineWidth || 0); }; /** * Set the tick positions of a linear axis to round values like whole tens or every five. */ function getLinearTickPositions(tickInterval, min, max) { var pos, lastPos, roundedMin = correctFloat(mathFloor(min / tickInterval) * tickInterval), roundedMax = correctFloat(mathCeil(max / tickInterval) * tickInterval), tickPositions = []; // 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; } /** * Set the tick positions of a logarithmic axis */ function getLogTickPositions(interval, min, max, minor) { // Since we use this method for both major and minor ticks, // use a local variable and return the result var 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 = 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) { 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 / tickPositions.length : axisLength; interval = pick( filteredTickIntervalOption, axis._minorAutoInterval, (realMax - realMin) * tickPixelIntervalOption / (totalPixelLength || 1) ); interval = normalizeTickInterval( interval, null, math.pow(10, mathFloor(math.log(interval) / math.LN10)) ); positions = map(getLinearTickPositions( interval, realMin, realMax ), log2lin); if (!minor) { axis._minorAutoInterval = interval / 5; } } // Set the axis-level tickInterval variable if (!minor) { tickInterval = interval; } return positions; } /** * Return the minor tick positions. For logarithmic axes, reuse the same logic * as for major ticks. */ function getMinorTickPositions() { var minorTickPositions = [], pos, i, len; if (isLog) { len = tickPositions.length; for (i = 1; i < len; i++) { minorTickPositions = minorTickPositions.concat( getLogTickPositions(minorTickInterval, tickPositions[i - 1], tickPositions[i], true) ); } } else { for (pos = min + (tickPositions[0] - min) % minorTickInterval; pos <= max; pos += minorTickInterval) { minorTickPositions.push(pos); } } 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. */ function adjustForMinRange() { var zoomOffset, spaceAvailable = dataMax - dataMin >= minRange, closestDataRange, i, distance, xData, loopLength, minArgs, maxArgs; // Set the automatic minimum range based on the closest point distance if (isXAxis && minRange === UNDEFINED && !isLog) { if (defined(options.min) || defined(options.max)) { 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; } } }); minRange = mathMin(closestDataRange * 5, dataMax - dataMin); } } // if minRange is exceeded, adjust if (max - min < 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] = 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] = 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); } } } /** * Set the tick positions to round values and optionally extend the extremes * to the nearest tick */ function setTickPositions(secondPass) { var length, linkedParentExtremes, tickIntervalOption = options.tickInterval, tickPixelIntervalOption = options.tickPixelInterval; // linked axis gets the extremes from the parent axis if (isLinked) { linkedParent = chart[isXAxis ? 'xAxis' : 'yAxis'][options.linkedTo]; linkedParentExtremes = linkedParent.getExtremes(); min = pick(linkedParentExtremes.min, linkedParentExtremes.dataMin); max = pick(linkedParentExtremes.max, linkedParentExtremes.dataMax); if (options.type !== linkedParent.options.type) { error(11, 1); // Can't link axes of different type } } else { // initial min and max from the extreme data values min = pick(userMin, options.min, dataMin); max = pick(userMax, options.max, dataMax); } if (isLog) { if (!secondPass && mathMin(min, dataMin) <= 0) { error(10, 1); // Can't plot negative values on log axis } min = log2lin(min); max = log2lin(max); } // handle zoomed range if (range) { userMin = min = mathMax(min, max - range); // #618 userMax = max; if (secondPass) { range = null; // don't use it when running setExtremes } } // adjust min and max for the minimum range adjustForMinRange(); // pad the values to get clear of the chart's edges if (!categories && !usePercentage && !isLinked && defined(min) && defined(max)) { length = (max - min) || 1; if (!defined(options.min) && !defined(userMin) && minPadding && (dataMin < 0 || !ignoreMinPadding)) { min -= length * minPadding; } if (!defined(options.max) && !defined(userMax) && maxPadding && (dataMax > 0 || !ignoreMaxPadding)) { max += length * maxPadding; } } // get tickInterval if (min === max || min === undefined || max === undefined) { tickInterval = 1; } else if (isLinked && !tickIntervalOption && tickPixelIntervalOption === linkedParent.options.tickPixelInterval) { tickInterval = linkedParent.tickInterval; } else { tickInterval = pick( tickIntervalOption, categories ? // for categoried axis, 1 is default, for linear axis use tickPix 1 : (max - min) * tickPixelIntervalOption / (axisLength || 1) ); } // 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(min !== oldMin || max !== oldMax); }); } // set the translation factor used in translate function setAxisTranslation(); // hook for ordinal axes. To do: merge with below if (axis.beforeSetTickPositions) { axis.beforeSetTickPositions(); } // hook for extensions, used in Highstock ordinal axes if (axis.postProcessTickInterval) { tickInterval = axis.postProcessTickInterval(tickInterval); } // for linear axes, get magnitude and normalize the interval if (!isDatetimeAxis && !isLog) { // linear magnitude = math.pow(10, mathFloor(math.log(tickInterval) / math.LN10)); if (!defined(options.tickInterval)) { tickInterval = normalizeTickInterval(tickInterval, null, magnitude, options); } } // record the tick interval for linked axis axis.tickInterval = tickInterval; // get minorTickInterval minorTickInterval = options.minorTickInterval === 'auto' && tickInterval ? tickInterval / 5 : options.minorTickInterval; // find the tick positions tickPositions = options.tickPositions || (tickPositioner && tickPositioner.apply(axis, [min, max])); if (!tickPositions) { if (isDatetimeAxis) { tickPositions = (axis.getNonLinearTimeTicks || getTimeTicks)( normalizeTimeTickInterval(tickInterval, options.units), min, max, options.startOfWeek, axis.ordinalPositions, axis.closestPointRange, true ); } else if (isLog) { tickPositions = getLogTickPositions(tickInterval, min, max); } else { tickPositions = getLinearTickPositions(tickInterval, min, max); } } if (!isLinked) { // reset min/max or remove extremes based on start/end on tick var roundedMin = tickPositions[0], roundedMax = tickPositions[tickPositions.length - 1]; if (options.startOnTick) { min = roundedMin; } else if (min > roundedMin) { tickPositions.shift(); } if (options.endOnTick) { max = roundedMax; } else if (max < roundedMax) { tickPositions.pop(); } // record the greatest number of ticks for multi axis if (!maxTicks) { // first call, or maxTicks have been reset after a zoom operation maxTicks = { x: 0, y: 0 }; } if (!isDatetimeAxis && tickPositions.length > maxTicks[xOrY] && options.alignTicks !== false) { maxTicks[xOrY] = tickPositions.length; } } } /** * When using multiple axes, adjust the number of ticks to match the highest * number of ticks in that group */ function adjustTickAmount() { if (maxTicks && maxTicks[xOrY] && !isDatetimeAxis && !categories && !isLinked && options.alignTicks !== false) { // only apply to linear scale var oldTickAmount = tickAmount, calculatedTickAmount = tickPositions.length; // set the axis-level tickAmount to use below tickAmount = maxTicks[xOrY]; if (calculatedTickAmount < tickAmount) { while (tickPositions.length < tickAmount) { tickPositions.push(correctFloat( tickPositions[tickPositions.length - 1] + tickInterval )); } transA *= (calculatedTickAmount - 1) / (tickAmount - 1); max = tickPositions[tickPositions.length - 1]; } if (defined(oldTickAmount) && tickAmount !== oldTickAmount) { axis.isDirty = true; } } } /** * Set the scale based on data min and max, user set min and max or options * */ function setScale() { var type, i, isDirtyData, isDirtyAxisLength; oldMin = min; oldMax = max; oldAxisLength = axisLength; // set the new axisLength axisLength = horiz ? axisWidth : axisHeight; isDirtyAxisLength = axisLength !== 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 || isLinked || userMin !== oldUserMin || userMax !== oldUserMax) { // get data extremes if needed getSeriesExtremes(); // get fixed positions based on tickInterval setTickPositions(); // record old values to decide whether a rescale is necessary later on (#540) oldUserMin = userMin; oldUserMax = userMax; // reset stacks if (!isXAxis) { for (type in stacks) { for (i in stacks[type]) { stacks[type][i].cum = stacks[type][i].total; } } } // Mark as dirty if it is not already set to dirty and extremes have changed. #595. if (!axis.isDirty) { axis.isDirty = isDirtyAxisLength || min !== oldMin || max !== oldMax; } } } /** * 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 * */ function setExtremes(newMin, newMax, redraw, animation, eventArguments) { redraw = pick(redraw, true); // defaults to true // 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 userMin = newMin; userMax = newMax; // Mark for running afterSetExtremes axis.isDirtyExtremes = true; // redraw if (redraw) { chart.redraw(animation); } }); } /** * Update translation information */ setAxisTranslation = function () { var range = max - min, pointRange = 0, closestPointRange, seriesClosestPointRange; // adjust translation for padding if (isXAxis) { if (isLinked) { pointRange = linkedParent.pointRange; } else { each(axis.series, function (series) { pointRange = mathMax(pointRange, series.pointRange); seriesClosestPointRange = series.closestPointRange; if (!series.noSharedTooltip && defined(seriesClosestPointRange)) { closestPointRange = defined(closestPointRange) ? mathMin(closestPointRange, seriesClosestPointRange) : seriesClosestPointRange; } }); } // pointRange means the width reserved for each point, like in a column chart axis.pointRange = pointRange; // 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 axis.closestPointRange = closestPointRange; } // secondary values oldTransA = transA; axis.translationSlope = transA = axisLength / ((range + pointRange) || 1); transB = horiz ? axisLeft : axisBottom; // translation addend minPixelPadding = transA * (pointRange / 2); }; /** * Update the axis metrics */ function setAxisSize() { var offsetLeft = options.offsetLeft || 0, offsetRight = options.offsetRight || 0; // basic values axisLeft = pick(options.left, plotLeft + offsetLeft); axisTop = pick(options.top, plotTop); axisWidth = pick(options.width, plotWidth - offsetLeft + offsetRight); axisHeight = pick(options.height, plotHeight); axisBottom = chartHeight - axisHeight - axisTop; axisRight = chartWidth - axisWidth - axisLeft; axisLength = horiz ? axisWidth : axisHeight; // expose to use in Series object and navigator axis.left = axisLeft; axis.top = axisTop; axis.len = axisLength; } /** * Get the actual axis extremes */ function getExtremes() { return { min: isLog ? correctFloat(lin2log(min)) : min, max: isLog ? correctFloat(lin2log(max)) : max, dataMin: dataMin, dataMax: dataMax, userMin: userMin, userMax: userMax }; } /** * Get the zero plane either based on zero or on the min or max value. * Used in bar and area plots */ function getThreshold(threshold) { var realMin = isLog ? lin2log(min) : min, realMax = isLog ? lin2log(max) : max; if (realMin > threshold || threshold === null) { threshold = realMin; } else if (realMax < threshold) { threshold = realMax; } return translate(threshold, 0, 1, 0, 1); } /** * Add a plot band or plot line after render time * * @param options {Object} The plotBand or plotLine configuration object */ function addPlotBandOrLine(options) { var obj = new PlotLineOrBand(options).render(); plotLinesAndBands.push(obj); return obj; } /** * Render the tick labels to a preliminary position to get their sizes */ function getOffset() { var hasData = axis.series.length && defined(min) && defined(max), showAxis = hasData || pick(options.showEmpty, true), titleOffset = 0, titleOffsetOption, titleMargin = 0, axisTitleOptions = options.title, labelOptions = options.labels, directionFactor = [-1, 1, 1, -1][side], n; if (!axisGroup) { axisGroup = renderer.g('axis') .attr({ zIndex: 7 }) .add(); gridGroup = renderer.g('grid') .attr({ zIndex: options.gridZIndex || 1 }) .add(); } labelOffset = 0; // reset if (hasData || isLinked) { each(tickPositions, function (pos) { if (!ticks[pos]) { ticks[pos] = new Tick(pos); } else { ticks[pos].addLabel(); // update labels depending on tick interval } }); 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] === labelOptions.align) { // get the highest offset labelOffset = mathMax( ticks[pos].getLabelSize(), labelOffset ); } }); if (staggerLines) { labelOffset += (staggerLines - 1) * 16; } } else { // doesn't have data for (n in ticks) { ticks[n].destroy(); delete ticks[n]; } } if (axisTitleOptions && axisTitleOptions.text) { if (!axisTitle) { 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] }) .css(axisTitleOptions.style) .add(); axisTitle.isNew = true; } if (showAxis) { titleOffset = axisTitle.getBBox()[horiz ? 'height' : 'width']; titleMargin = pick(axisTitleOptions.margin, horiz ? 5 : 10); titleOffsetOption = axisTitleOptions.offset; } // hide or show the title depending on whether showEmpty is set axisTitle[showAxis ? 'show' : 'hide'](); } // handle automatic or user set offset offset = directionFactor * pick(options.offset, axisOffset[side]); axisTitleMargin = pick(titleOffsetOption, labelOffset + titleMargin + (side !== 2 && labelOffset && directionFactor * options.labels[horiz ? 'y' : 'x']) ); axisOffset[side] = mathMax( axisOffset[side], axisTitleMargin + titleOffset + directionFactor * offset ); } /** * Render the axis */ function render() { var axisTitleOptions = options.title, stackLabelOptions = options.stackLabels, alternateGridColor = options.alternateGridColor, lineWidth = options.lineWidth, lineLeft, lineTop, linePath, hasRendered = chart.hasRendered, slideInTicks = hasRendered && defined(oldMin) && !isNaN(oldMin), hasData = axis.series.length && defined(min) && defined(max), showAxis = hasData || pick(options.showEmpty, true), from, to; // If the series has data draw the ticks. Else only the line and title if (hasData || isLinked) { // minor ticks if (minorTickInterval && !categories) { each(getMinorTickPositions(), function (pos) { if (!minorTicks[pos]) { minorTicks[pos] = new Tick(pos, 'minor'); } // render new ticks in old position if (slideInTicks && minorTicks[pos].isNew) { minorTicks[pos].render(null, true); } minorTicks[pos].isActive = true; minorTicks[pos].render(); }); } // Major ticks. Pull out the first item and render it last so that // we can get the position of the neighbour label. #808. each(tickPositions.slice(1).concat([tickPositions[0]]), function (pos, i) { // Reorganize the indices i = (i === tickPositions.length - 1) ? 0 : i + 1; // linked axes need an extra check to find out if if (!isLinked || (pos >= min && pos <= max)) { if (!ticks[pos]) { ticks[pos] = new Tick(pos); } // render new ticks in old position if (slideInTicks && ticks[pos].isNew) { ticks[pos].render(i, true); } ticks[pos].isActive = true; ticks[pos].render(i); } }); // alternate grid color if (alternateGridColor) { each(tickPositions, function (pos, i) { if (i % 2 === 0 && pos < max) { if (!alternateBands[pos]) { alternateBands[pos] = new PlotLineOrBand(); } from = pos; to = tickPositions[i + 1] !== UNDEFINED ? tickPositions[i + 1] : max; 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) { //plotLinesAndBands.push(new PlotLineOrBand(plotLineOptions).render()); addPlotBandOrLine(plotLineOptions); }); axis._addedPlotLB = true; } } // end if hasData // remove inactive ticks each([ticks, minorTicks, alternateBands], function (coll) { var pos; for (pos in coll) { if (!coll[pos].isActive) { coll[pos].destroy(); delete coll[pos]; } else { coll[pos].isActive = false; // reset } } }); // Static items. As the axis group is cleared on subsequent calls // to render, these items are added outside the group. // axis line if (lineWidth) { lineLeft = axisLeft + (opposite ? axisWidth : 0) + offset; lineTop = chartHeight - axisBottom - (opposite ? axisHeight : 0) + offset; linePath = renderer.crispLine([ M, horiz ? axisLeft : lineLeft, horiz ? lineTop : axisTop, L, horiz ? chartWidth - axisRight : lineLeft, horiz ? lineTop : chartHeight - axisBottom ], lineWidth); if (!axisLine) { axisLine = renderer.path(linePath) .attr({ stroke: options.lineColor, 'stroke-width': lineWidth, zIndex: 7 }) .add(); } else { axisLine.animate({ d: linePath }); } // show or hide the line depending on options.showEmpty axisLine[showAxis ? 'show' : 'hide'](); } if (axisTitle && showAxis) { // compute anchor points for each of the title align options var margin = horiz ? axisLeft : axisTop, 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 + axisHeight : axisLeft) + (horiz ? 1 : -1) * // horizontal axis reverses the margin (opposite ? -1 : 1) * // so does opposite axes axisTitleMargin + (side === 2 ? fontSize : 0); axisTitle[axisTitle.isNew ? 'attr' : 'animate']({ x: horiz ? alongAxis : offAxis + (opposite ? axisWidth : 0) + offset + (axisTitleOptions.x || 0), // x y: horiz ? offAxis - (opposite ? axisHeight : 0) + offset : alongAxis + (axisTitleOptions.y || 0) // y }); axisTitle.isNew = false; } // Stacked totals: if (stackLabelOptions && stackLabelOptions.enabled) { var 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 }) .translate(plotLeft, plotTop) .add(); } // Render each stack total for (stackKey in stacks) { oneStack = stacks[stackKey]; for (stackCategory in oneStack) { oneStack[stackCategory].render(stackTotalGroup); } } } // End stacked totals axis.isDirty = false; } /** * Remove a plot band or plot line from the chart by id * @param {Object} id */ function removePlotBandOrLine(id) { var i = plotLinesAndBands.length; while (i--) { if (plotLinesAndBands[i].id === id) { plotLinesAndBands[i].destroy(); } } } /** * Update the axis title by options */ function setTitle(newTitleOptions, redraw) { options.title = merge(options.title, newTitleOptions); axisTitle = axisTitle.destroy(); axis.isDirty = true; if (pick(redraw, true)) { chart.redraw(); } } /** * Redraw the axis to reflect changes in the data or axis extremes */ function redraw() { // hide tooltip and hover states if (tracker.resetTracker) { tracker.resetTracker(); } // render the axis render(); // move plot lines and bands each(plotLinesAndBands, function (plotLine) { plotLine.render(); }); // mark associated series as dirty and ready for redraw each(axis.series, function (series) { series.isDirty = true; }); } /** * Set new axis categories and optionally redraw * @param {Array} newCategories * @param {Boolean} doRedraw */ function setCategories(newCategories, doRedraw) { // set the categories axis.categories = userOptions.categories = categories = newCategories; // force reindexing tooltips each(axis.series, function (series) { series.translate(); series.setTooltipPoints(true); }); // optionally redraw axis.isDirty = true; if (pick(doRedraw, true)) { chart.redraw(); } } /** * Destroys an Axis instance. */ function destroy() { var stackKey; // Remove the events removeEvent(axis); // Destroy each stack total for (stackKey in stacks) { destroyObjectProperties(stacks[stackKey]); stacks[stackKey] = null; } // Destroy stack total group if (axis.stackTotalGroup) { axis.stackTotalGroup = axis.stackTotalGroup.destroy(); } // Destroy collections each([ticks, minorTicks, alternateBands, plotLinesAndBands], function (coll) { destroyObjectProperties(coll); }); // Destroy local variables each([axisLine, axisGroup, gridGroup, axisTitle], function (obj) { if (obj) { obj.destroy(); } }); axisLine = axisGroup = gridGroup = axisTitle = null; } // Run Axis // Register axes.push(axis); chart[isXAxis ? 'xAxis' : 'yAxis'].push(axis); // inverted charts have reversed xAxes as default if (inverted && isXAxis && reversed === UNDEFINED) { reversed = true; } // expose some variables extend(axis, { addPlotBand: addPlotBandOrLine, addPlotLine: addPlotBandOrLine, adjustTickAmount: adjustTickAmount, categories: categories, getExtremes: getExtremes, getPlotLinePath: getPlotLinePath, getThreshold: getThreshold, isXAxis: isXAxis, options: options, plotLinesAndBands: plotLinesAndBands, getOffset: getOffset, render: render, setAxisSize: setAxisSize, setAxisTranslation: setAxisTranslation, setCategories: setCategories, setExtremes: setExtremes, setScale: setScale, setTickPositions: setTickPositions, translate: translate, redraw: redraw, removePlotBand: removePlotBandOrLine, removePlotLine: removePlotBandOrLine, reversed: reversed, setTitle: setTitle, series: [], // populated by Series stacks: stacks, destroy: destroy }); // register event listeners for (eventType in events) { addEvent(axis, eventType, events[eventType]); } // extend logarithmic axis if (isLog) { axis.val2lin = log2lin; axis.lin2val = lin2log; } } // end Axis /** * The tooltip object * @param {Object} options Tooltip options */ function Tooltip(options) { var currentSeries, borderWidth = options.borderWidth, crosshairsOptions = options.crosshairs, crosshairs = [], style = options.style, shared = options.shared, padding = pInt(style.padding), tooltipIsHidden = true, currentX = 0, currentY = 0; // remove padding CSS and apply padding on box instead style.padding = 0; // create the label var label = renderer.label('', 0, 0, null, null, null, options.useHTML) .attr({ padding: padding, fill: options.backgroundColor, 'stroke-width': borderWidth, r: options.borderRadius, zIndex: 8 }) .css(style) .hide() .add(); // When using canVG the shadow shows up as a gray circle // even if the tooltip is hidden. if (!useCanVG) { label.shadow(options.shadow); } /** * Destroy the tooltip and its elements. */ function destroy() { each(crosshairs, function (crosshair) { if (crosshair) { crosshair.destroy(); } }); // Destroy and clear local variables if (label) { label = label.destroy(); } } /** * In case no user defined formatter is given, this will be used */ function defaultFormatter() { var pThis = this, items = pThis.points || splat(pThis), series = items[0].series, s; // build the header s = [series.tooltipHeaderFormatter(items[0].key)]; // build the values each(items, function (item) { series = item.series; s.push((series.tooltipFormatter && series.tooltipFormatter(item)) || item.point.tooltipFormatter(series.tooltipOptions.pointFormat)); }); // footer s.push(options.footerFormat || ''); return s.join(''); } /** * Provide a soft movement for the tooltip * * @param {Number} finalX * @param {Number} finalY */ function move(finalX, finalY) { // get intermediate values for animation currentX = tooltipIsHidden ? finalX : (2 * currentX + finalX) / 3; currentY = tooltipIsHidden ? finalY : (currentY + finalY) / 2; // move to the intermediate value label.attr({ x: currentX, y: currentY }); // run on next tick of the mouse tracker if (mathAbs(finalX - currentX) > 1 || mathAbs(finalY - currentY) > 1) { tooltipTick = function () { move(finalX, finalY); }; } else { tooltipTick = null; } } /** * Hide the tooltip */ function hide() { if (!tooltipIsHidden) { var hoverPoints = chart.hoverPoints; label.hide(); // hide previous hoverPoints and set new if (hoverPoints) { each(hoverPoints, function (point) { point.setState(); }); } chart.hoverPoints = null; tooltipIsHidden = true; } } /** * Hide the crosshairs */ function hideCrosshairs() { each(crosshairs, function (crosshair) { if (crosshair) { crosshair.hide(); } }); } /** * Refresh the tooltip's text and position. * @param {Object} point * */ function refresh(point) { var x, y, show, plotX, plotY, textConfig = {}, text, pointConfig = [], tooltipPos = point.tooltipPos, formatter = options.formatter || defaultFormatter, hoverPoints = chart.hoverPoints, placedTooltipPoint, borderColor; // shared tooltip, array is sent over if (shared && !(point.series && point.series.noSharedTooltip)) { plotY = 0; // hide previous hoverPoints and set new if (hoverPoints) { each(hoverPoints, function (point) { point.setState(); }); } chart.hoverPoints = point; each(point, function (item) { item.setState(HOVER_STATE); plotY += item.plotY; // for average pointConfig.push(item.getLabelConfig()); }); plotX = point[0].plotX; plotY = mathRound(plotY) / point.length; // mathRound because Opera 10 has problems here textConfig = { x: point[0].category }; textConfig.points = pointConfig; point = point[0]; // single point tooltip } else { textConfig = point.getLabelConfig(); } text = formatter.call(textConfig); // register the current series currentSeries = point.series; // get the reference point coordinates (pie charts use tooltipPos) plotX = pick(plotX, point.plotX); plotY = pick(plotY, point.plotY); x = mathRound(tooltipPos ? tooltipPos[0] : (inverted ? plotWidth - plotY : plotX)); y = mathRound(tooltipPos ? tooltipPos[1] : (inverted ? plotHeight - plotX : plotY)); // For line type series, hide tooltip if the point falls outside the plot show = shared || !currentSeries.isCartesian || currentSeries.tooltipOutsidePlot || isInsidePlot(x, y); // update the inner HTML if (text === false || !show) { hide(); } else { // show it if (tooltipIsHidden) { label.show(); tooltipIsHidden = false; } // 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 }); placedTooltipPoint = placeBox( label.width, label.height, plotLeft, plotTop, plotWidth, plotHeight, {x: x, y: y}, pick(options.distance, 12), inverted ); // do the move move(mathRound(placedTooltipPoint.x), mathRound(placedTooltipPoint.y)); } // crosshairs if (crosshairsOptions) { crosshairsOptions = splat(crosshairsOptions); // [x, y] var path, i = crosshairsOptions.length, attribs, axis; while (i--) { axis = point.series[i ? 'yAxis' : 'xAxis']; if (crosshairsOptions[i] && axis) { path = axis.getPlotLinePath( i ? pick(point.stackY, point.y) : point.x, // #814 1 ); if (crosshairs[i]) { crosshairs[i].attr({ d: path, visibility: VISIBLE }); } else { attribs = { 'stroke-width': crosshairsOptions[i].width || 1, stroke: crosshairsOptions[i].color || '#C0C0C0', zIndex: crosshairsOptions[i].zIndex || 2 }; if (crosshairsOptions[i].dashStyle) { attribs.dashstyle = crosshairsOptions[i].dashStyle; } crosshairs[i] = renderer.path(path) .attr(attribs) .add(); } } } } fireEvent(chart, 'tooltipRefresh', { text: text, x: x + plotLeft, y: y + plotTop, borderColor: borderColor }); } // public members return { shared: shared, refresh: refresh, hide: hide, hideCrosshairs: hideCrosshairs, destroy: destroy }; } /** * The mouse tracker object * @param {Object} options */ function MouseTracker(options) { var mouseDownX, mouseDownY, hasDragged, selectionMarker, zoomType = useCanVG ? '' : optionsChart.zoomType, zoomX = /x/.test(zoomType), zoomY = /y/.test(zoomType), zoomHor = (zoomX && !inverted) || (zoomY && inverted), zoomVert = (zoomY && !inverted) || (zoomX && inverted); /** * Add crossbrowser support for chartX and chartY * @param {Object} e The event object in standard browsers */ function normalizeMouseEvent(e) { var ePos, chartPosLeft, chartPosTop, chartX, chartY; // common IE normalizing e = e || win.event; if (!e.target) { e.target = e.srcElement; } // jQuery only copies over some properties. IE needs e.x and iOS needs touches. if (e.originalEvent) { e = e.originalEvent; } // The same for MooTools. It renames e.pageX to e.page.x. #445. if (e.event) { e = e.event; } // iOS ePos = e.touches ? e.touches.item(0) : e; // get mouse position chartPosition = offset(container); chartPosLeft = chartPosition.left; chartPosTop = chartPosition.top; // chartX and chartY if (isIE) { // IE including IE9 that has pageX but in a different meaning chartX = e.x; chartY = e.y; } else { chartX = ePos.pageX - chartPosLeft; chartY = ePos.pageY - chartPosTop; } return extend(e, { chartX: mathRound(chartX), chartY: mathRound(chartY) }); } /** * Get the click position in terms of axis values. * * @param {Object} e A mouse event */ function getMouseCoordinates(e) { var coordinates = { xAxis: [], yAxis: [] }; each(axes, function (axis) { var translate = axis.translate, isXAxis = axis.isXAxis, isHorizontal = inverted ? !isXAxis : isXAxis; coordinates[isXAxis ? 'xAxis' : 'yAxis'].push({ axis: axis, value: translate( isHorizontal ? e.chartX - plotLeft : plotHeight - e.chartY + plotTop, true ) }); }); return coordinates; } /** * With line type charts with a single tracker, get the point closest to the mouse */ function onmousemove(e) { var point, points, hoverPoint = chart.hoverPoint, hoverSeries = chart.hoverSeries, i, j, distance = chartWidth, index = inverted ? e.chartY : e.chartX - plotLeft; // wtf? // shared tooltip if (tooltip && options.shared && !(hoverSeries && hoverSeries.noSharedTooltip)) { points = []; // loop over all series and find the ones with points closest to the mouse i = series.length; for (j = 0; j < i; j++) { if (series[j].visible && series[j].options.enableMouseTracking !== false && !series[j].noSharedTooltip && series[j].tooltipPoints.length) { point = series[j].tooltipPoints[index]; point._dist = mathAbs(index - point.plotX); distance = mathMin(distance, point._dist); points.push(point); } } // remove furthest points i = points.length; while (i--) { if (points[i]._dist > distance) { points.splice(i, 1); } } // refresh the tooltip if necessary if (points.length && (points[0].plotX !== hoverX)) { tooltip.refresh(points); hoverX = points[0].plotX; } } // separate tooltip and general mouse events if (hoverSeries && hoverSeries.tracker) { // only use for line-type series with common tracker // get the point point = hoverSeries.tooltipPoints[index]; // a new point is hovered, refresh the tooltip if (point && point !== hoverPoint) { // trigger the events point.onMouseOver(); } } } /** * Reset the tracking by hiding the tooltip, the hover series state and the hover point */ function resetTracker() { var hoverSeries = chart.hoverSeries, hoverPoint = chart.hoverPoint; if (hoverPoint) { hoverPoint.onMouseOut(); } if (hoverSeries) { hoverSeries.onMouseOut(); } if (tooltip) { tooltip.hide(); tooltip.hideCrosshairs(); } hoverX = null; } /** * Mouse up or outside the plot area */ function drop() { if (selectionMarker) { var selectionData = { xAxis: [], yAxis: [] }, selectionBox = selectionMarker.getBBox(), selectionLeft = selectionBox.x - plotLeft, selectionTop = selectionBox.y - plotTop; // a selection has been made if (hasDragged) { // record each axis' min and max each(axes, function (axis) { if (axis.options.zoomEnabled !== false) { var translate = axis.translate, isXAxis = axis.isXAxis, isHorizontal = inverted ? !isXAxis : isXAxis, selectionMin = translate( isHorizontal ? selectionLeft : plotHeight - selectionTop - selectionBox.height, true, 0, 0, 1 ), selectionMax = translate( isHorizontal ? selectionLeft + selectionBox.width : plotHeight - selectionTop, true, 0, 0, 1 ); selectionData[isXAxis ? 'xAxis' : 'yAxis'].push({ axis: axis, min: mathMin(selectionMin, selectionMax), // for reversed axes, max: mathMax(selectionMin, selectionMax) }); } }); fireEvent(chart, 'selection', selectionData, zoom); } selectionMarker = selectionMarker.destroy(); } css(container, { cursor: 'auto' }); chart.mouseIsDown = mouseIsDown = hasDragged = false; removeEvent(doc, hasTouch ? 'touchend' : 'mouseup', drop); } /** * Special handler for mouse move that will hide the tooltip when the mouse leaves the plotarea. */ function hideTooltipOnMouseMove(e) { var pageX = defined(e.pageX) ? e.pageX : e.page.x, // In mootools the event is wrapped and the page x/y position is named e.page.x pageY = defined(e.pageX) ? e.pageY : e.page.y; // Ref: http://mootools.net/docs/core/Types/DOMEvent if (chartPosition && !isInsidePlot(pageX - chartPosition.left - plotLeft, pageY - chartPosition.top - plotTop)) { resetTracker(); } } /** * When mouse leaves the container, hide the tooltip. */ function hideTooltipOnMouseLeave() { resetTracker(); chartPosition = null; // also reset the chart position, used in #149 fix } /** * Set the JS events on the container element */ function setDOMEvents() { var lastWasOutsidePlot = true; /* * Record the starting position of a dragoperation */ container.onmousedown = function (e) { e = normalizeMouseEvent(e); // issue #295, dragging not always working in Firefox if (!hasTouch && e.preventDefault) { e.preventDefault(); } // record the start position chart.mouseIsDown = mouseIsDown = true; chart.mouseDownX = mouseDownX = e.chartX; mouseDownY = e.chartY; addEvent(doc, hasTouch ? 'touchend' : 'mouseup', drop); }; // The mousemove, touchmove and touchstart event handler var mouseMove = function (e) { // let the system handle multitouch operations like two finger scroll // and pinching if (e && e.touches && e.touches.length > 1) { return; } // normalize e = normalizeMouseEvent(e); if (!hasTouch) { // not for touch devices e.returnValue = false; } var chartX = e.chartX, chartY = e.chartY, isOutsidePlot = !isInsidePlot(chartX - plotLeft, chartY - plotTop); // on touch devices, only trigger click if a handler is defined if (hasTouch && e.type === 'touchstart') { if (attr(e.target, 'isTracker')) { if (!chart.runTrackerClick) { e.preventDefault(); } } else if (!runChartClick && !isOutsidePlot) { e.preventDefault(); } } // cancel on mouse outside if (isOutsidePlot) { /*if (!lastWasOutsidePlot) { // reset the tracker resetTracker(); }*/ // drop the selection if any and reset mouseIsDown and hasDragged //drop(); 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; } } if (mouseIsDown && e.type !== 'touchstart') { // make selection // determine if the mouse has moved more than 10px hasDragged = Math.sqrt( Math.pow(mouseDownX - chartX, 2) + Math.pow(mouseDownY - chartY, 2) ); if (hasDragged > 10) { var clickedInside = isInsidePlot(mouseDownX - plotLeft, mouseDownY - plotTop); // make a selection if (hasCartesianSeries && (zoomX || zoomY) && clickedInside) { if (!selectionMarker) { selectionMarker = renderer.rect( plotLeft, plotTop, zoomHor ? 1 : plotWidth, zoomVert ? 1 : plotHeight, 0 ) .attr({ fill: optionsChart.selectionMarkerFill || 'rgba(69,114,167,0.25)', zIndex: 7 }) .add(); } } // adjust the width of the selection marker if (selectionMarker && zoomHor) { var xSize = chartX - mouseDownX; selectionMarker.attr({ width: mathAbs(xSize), x: (xSize > 0 ? 0 : xSize) + mouseDownX }); } // adjust the height of the selection marker if (selectionMarker && zoomVert) { var ySize = chartY - mouseDownY; selectionMarker.attr({ height: mathAbs(ySize), y: (ySize > 0 ? 0 : ySize) + mouseDownY }); } // panning if (clickedInside && !selectionMarker && optionsChart.panning) { chart.pan(chartX); } } } else if (!isOutsidePlot) { // show the tooltip onmousemove(e); } lastWasOutsidePlot = isOutsidePlot; // when outside plot, allow touch-drag by returning true return isOutsidePlot || !hasCartesianSeries; }; /* * When the mouse enters the container, run mouseMove */ container.onmousemove = mouseMove; /* * When the mouse leaves the container, hide the tracking (tooltip). */ addEvent(container, 'mouseleave', hideTooltipOnMouseLeave); // issue #149 workaround // The mouseleave event above does not always fire. Whenever the mouse is moving // outside the plotarea, hide the tooltip addEvent(doc, 'mousemove', hideTooltipOnMouseMove); container.ontouchstart = function (e) { // For touch devices, use touchmove to zoom if (zoomX || zoomY) { container.onmousedown(e); } // Show tooltip and prevent the lower mouse pseudo event mouseMove(e); }; /* * Allow dragging the finger over the chart to read the values on touch * devices */ container.ontouchmove = mouseMove; /* * Allow dragging the finger over the chart to read the values on touch * devices */ container.ontouchend = function () { if (hasDragged) { resetTracker(); } }; // MooTools 1.2.3 doesn't fire this in IE when using addEvent container.onclick = function (e) { var hoverPoint = chart.hoverPoint; e = normalizeMouseEvent(e); e.cancelBubble = true; // IE specific if (!hasDragged) { // Detect clicks on trackers or tracker groups, #783 if (hoverPoint && (attr(e.target, 'isTracker') || attr(e.target.parentNode, 'isTracker'))) { var plotX = hoverPoint.plotX, plotY = hoverPoint.plotY; // add page position info extend(hoverPoint, { pageX: chartPosition.left + plotLeft + (inverted ? plotWidth - plotY : plotX), pageY: chartPosition.top + plotTop + (inverted ? plotHeight - plotX : plotY) }); // the series click event fireEvent(hoverPoint.series, 'click', extend(e, { point: hoverPoint })); // the point click event hoverPoint.firePointEvent('click', e); } else { extend(e, getMouseCoordinates(e)); // fire a click event in the chart if (isInsidePlot(e.chartX - plotLeft, e.chartY - plotTop)) { fireEvent(chart, 'click', e); } } } // reset mouseIsDown and hasDragged hasDragged = false; }; } /** * Destroys the MouseTracker object and disconnects DOM events. */ function destroy() { // Destroy the tracker group element if (chart.trackerGroup) { chart.trackerGroup = trackerGroup = chart.trackerGroup.destroy(); } removeEvent(container, 'mouseleave', hideTooltipOnMouseLeave); removeEvent(doc, 'mousemove', hideTooltipOnMouseMove); container.onclick = container.onmousedown = container.onmousemove = container.ontouchstart = container.ontouchend = container.ontouchmove = null; } // Run MouseTracker if (!trackerGroup) { chart.trackerGroup = trackerGroup = renderer.g('tracker') .attr({ zIndex: 9 }) .add(); } if (options.enabled) { chart.tooltip = tooltip = Tooltip(options); // set the fixed interval ticking for the smooth tooltip tooltipInterval = setInterval(function () { if (tooltipTick) { tooltipTick(); } }, 32); } setDOMEvents(); // expose properties extend(this, { zoomX: zoomX, zoomY: zoomY, resetTracker: resetTracker, normalizeMouseEvent: normalizeMouseEvent, destroy: destroy }); } /** * The overview of the chart's series */ var Legend = function () { var options = chart.options.legend; if (!options.enabled) { return; } var horizontal = options.layout === 'horizontal', symbolWidth = options.symbolWidth, symbolPadding = options.symbolPadding, allItems, style = options.style, itemStyle = options.itemStyle, itemHoverStyle = options.itemHoverStyle, itemHiddenStyle = merge(itemStyle, options.itemHiddenStyle), padding = options.padding || pInt(style.padding), ltr = !options.rtl, itemMarginTop = options.itemMarginTop || 0, itemMarginBottom = options.itemMarginBottom || 0, y = 18, maxItemWidth = 0, initialItemX = 4 + padding + symbolWidth + symbolPadding, initialItemY = padding + itemMarginTop + y - 5, // 5 is the number of pixels above the text itemX, itemY, lastItemY, itemHeight = 0, box, legendBorderWidth = options.borderWidth, legendBackgroundColor = options.backgroundColor, legendGroup, offsetWidth, widthOption = options.width, series = chart.series, reversedLegend = options.reversed; /** * Set the colors for the legend item * @param {Object} item A Series or Point instance * @param {Object} visible Dimmed or colored */ function colorizeItem(item, visible) { var legendItem = item.legendItem, legendLine = item.legendLine, legendSymbol = item.legendSymbol, hiddenColor = itemHiddenStyle.color, textColor = visible ? options.itemStyle.color : hiddenColor, symbolColor = visible ? item.color : hiddenColor; if (legendItem) { legendItem.css({ fill: textColor }); } if (legendLine) { legendLine.attr({ stroke: symbolColor }); } if (legendSymbol) { legendSymbol.attr({ stroke: symbolColor, fill: symbolColor }); } } /** * Position the legend item * @param {Object} item A Series or Point instance * @param {Object} visible Dimmed or colored */ function positionItem(item) { var legendItem = item.legendItem, legendLine = item.legendLine, legendItemPos = item._legendItemPos, itemX = legendItemPos[0], itemY = legendItemPos[1], legendSymbol = item.legendSymbol, symbolX, checkbox = item.checkbox; if (legendItem) { legendItem.attr({ x: ltr ? itemX : legendWidth - itemX, y: itemY }); } if (legendLine) { legendLine.translate( ltr ? itemX : legendWidth - itemX, itemY - 4 ); } if (legendSymbol) { symbolX = itemX + legendSymbol.xOff; legendSymbol.attr({ x: ltr ? symbolX : legendWidth - symbolX, y: itemY + legendSymbol.yOff }); } if (checkbox) { checkbox.x = itemX; checkbox.y = itemY; } } /** * Destroy a single legend item * @param {Object} item The series or point */ function destroyItem(item) { var checkbox = item.checkbox; // destroy SVG elements each(['legendItem', 'legendLine', 'legendSymbol'], function (key) { if (item[key]) { item[key].destroy(); } }); if (checkbox) { discardElement(item.checkbox); } } /** * Destroys the legend. */ function destroy() { if (box) { box = box.destroy(); } if (legendGroup) { legendGroup = legendGroup.destroy(); } } /** * Position the checkboxes after the width is determined */ function positionCheckboxes() { each(allItems, function (item) { var checkbox = item.checkbox, alignAttr = legendGroup.alignAttr; if (checkbox) { css(checkbox, { left: (alignAttr.translateX + item.legendItemWidth + checkbox.x - 40) + PX, top: (alignAttr.translateY + checkbox.y - 11) + PX }); } }); } /** * Render a single specific legend item * @param {Object} item A series or point */ function renderItem(item) { var bBox, itemWidth, legendSymbol, symbolX, symbolY, simpleSymbol, radius, li = item.legendItem, series = item.series || item, itemOptions = series.options, strokeWidth = (itemOptions && itemOptions.borderWidth) || 0; if (!li) { // generate it once, later move it // let these series types use a simple symbol simpleSymbol = /^(bar|pie|area|column)$/.test(series.type); // generate the list item text item.legendItem = li = renderer.text( options.labelFormatter.call(item), 0, 0, options.useHTML ) .css(item.visible ? itemStyle : itemHiddenStyle) .on('mouseover', function () { item.setState(HOVER_STATE); li.css(itemHoverStyle); }) .on('mouseout', function () { li.css(item.visible ? itemStyle : itemHiddenStyle); item.setState(); }) .on('click', function () { var strLegendItemClick = 'legendItemClick', fnLegendItemClick = function () { item.setVisible(); }; // click the name or symbol if (item.firePointEvent) { // point item.firePointEvent(strLegendItemClick, null, fnLegendItemClick); } else { fireEvent(item, strLegendItemClick, null, fnLegendItemClick); } }) .attr({ align: ltr ? 'left' : 'right', zIndex: 2 }) .add(legendGroup); // draw the line if (!simpleSymbol && itemOptions && itemOptions.lineWidth) { var attrs = { 'stroke-width': itemOptions.lineWidth, zIndex: 2 }; if (itemOptions.dashStyle) { attrs.dashstyle = itemOptions.dashStyle; } item.legendLine = renderer.path([ M, (-symbolWidth - symbolPadding) * (ltr ? 1 : -1), 0, L, (-symbolPadding) * (ltr ? 1 : -1), 0 ]) .attr(attrs) .add(legendGroup); } // draw a simple symbol if (simpleSymbol) { // bar|pie|area|column legendSymbol = renderer.rect( (symbolX = -symbolWidth - symbolPadding), (symbolY = -11), symbolWidth, 12, 2 ).attr({ //'stroke-width': 0, zIndex: 3 }).add(legendGroup); if (!ltr) { symbolX += symbolWidth; } } else if (itemOptions && itemOptions.marker && itemOptions.marker.enabled) { // draw the marker radius = itemOptions.marker.radius; legendSymbol = renderer.symbol( item.symbol, (symbolX = -symbolWidth / 2 - symbolPadding - radius), (symbolY = -4 - radius), 2 * radius, 2 * radius ) .attr(item.pointAttr[NORMAL_STATE]) .attr({ zIndex: 3 }) .add(legendGroup); if (!ltr) { symbolX += symbolWidth / 2; } } if (legendSymbol) { legendSymbol.xOff = symbolX + (strokeWidth % 2 / 2); legendSymbol.yOff = symbolY + (strokeWidth % 2 / 2); } item.legendSymbol = legendSymbol; // colorize the items colorizeItem(item, item.visible); // add the HTML checkbox on top if (itemOptions && itemOptions.showCheckbox) { item.checkbox = createElement('input', { type: 'checkbox', checked: item.selected, defaultChecked: item.selected // required by IE7 }, options.itemCheckboxStyle, container); addEvent(item.checkbox, 'click', function (event) { var target = event.target; fireEvent(item, 'checkboxClick', { checked: target.checked }, function () { item.select(); } ); }); } } // calculate the positions for the next line bBox = li.getBBox(); itemWidth = item.legendItemWidth = options.itemWidth || symbolWidth + symbolPadding + bBox.width + padding; itemHeight = bBox.height; // if the item exceeds the width, start a new line if (horizontal && itemX - initialItemX + itemWidth > (widthOption || (chartWidth - 2 * padding - initialItemX))) { itemX = initialItemX; itemY += itemMarginTop + itemHeight + itemMarginBottom; } // If the item exceeds the height, start a new column if (!horizontal && itemY + options.y + itemHeight > chartHeight - spacingTop - spacingBottom) { itemY = initialItemY; itemX += maxItemWidth; maxItemWidth = 0; } // Set the edge positions maxItemWidth = mathMax(maxItemWidth, itemWidth); lastItemY = mathMax(lastItemY, itemY + itemMarginBottom); // cache the position of the newly generated or reordered items item._legendItemPos = [itemX, itemY]; // advance if (horizontal) { itemX += itemWidth; } else { itemY += itemMarginTop + itemHeight + itemMarginBottom; } // the width of the widest item offsetWidth = widthOption || mathMax( (itemX - initialItemX) + (horizontal ? 0 : itemWidth), offsetWidth ); } /** * Render the legend. This method can be called both before and after * chart.render. If called after, it will only rearrange items instead * of creating new ones. */ function renderLegend() { itemX = initialItemX; itemY = initialItemY; offsetWidth = 0; lastItemY = 0; if (!legendGroup) { legendGroup = renderer.g('legend') // #414, #759. Trackers will be drawn above the legend, but we have // to sacrifice that because tooltips need to be above the legend // and trackers above tooltips .attr({ zIndex: 7 }) .add(); } // add each series or point allItems = []; each(series, function (serie) { var seriesOptions = serie.options; if (!seriesOptions.showInLegend) { return; } // use points or series for the legend item depending on legendType allItems = allItems.concat( serie.legendItems || (seriesOptions.legendType === 'point' ? serie.data : serie) ); }); // sort by legendIndex stableSort(allItems, function (a, b) { return (a.options.legendIndex || 0) - (b.options.legendIndex || 0); }); // reversed legend if (reversedLegend) { allItems.reverse(); } // render the items each(allItems, renderItem); // Draw the border legendWidth = widthOption || offsetWidth; legendHeight = lastItemY - y + itemHeight; if (legendBorderWidth || legendBackgroundColor) { legendWidth += 2 * padding; legendHeight += 2 * padding; if (!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(null, null, null, legendWidth, legendHeight) ); box.isNew = false; } // hide the border if no items box[allItems.length ? 'show' : 'hide'](); } // Now that the legend width and height are extablished, put the items in the // final position each(allItems, positionItem); // 1.x compatibility: positioning based on style var props = ['left', 'right', 'top', 'bottom'], prop, i = 4; while (i--) { prop = props[i]; if (style[prop] && style[prop] !== 'auto') { options[i < 2 ? 'align' : 'verticalAlign'] = prop; options[i < 2 ? 'x' : 'y'] = pInt(style[prop]) * (i % 2 ? -1 : 1); } } if (allItems.length) { legendGroup.align(extend(options, { width: legendWidth, height: legendHeight }), true, spacingBox); } if (!isResizing) { positionCheckboxes(); } } // run legend renderLegend(); // move checkboxes addEvent(chart, 'endResize', positionCheckboxes); // expose return { colorizeItem: colorizeItem, destroyItem: destroyItem, renderLegend: renderLegend, destroy: destroy }; }; /** * Initialize an individual series, called internally before render time */ function initSeries(options) { var type = options.type || optionsChart.type || optionsChart.defaultSeriesType, typeClass = seriesTypes[type], serie, hasRendered = chart.hasRendered; // an inverted chart can't take a column series and vice versa if (hasRendered) { if (inverted && type === 'column') { typeClass = seriesTypes.bar; } else if (!inverted && type === 'bar') { typeClass = seriesTypes.column; } } serie = new typeClass(); serie.init(chart, options); // set internal chart properties if (!hasRendered && serie.inverted) { inverted = true; } if (serie.isCartesian) { hasCartesianSeries = serie.isCartesian; } series.push(serie); return serie; } /** * Add a series dynamically after time * * @param {Object} options The config options * @param {Boolean} redraw Whether to redraw the chart after adding. Defaults to true. * @param {Boolean|Object} animation Whether to apply animation, and optionally animation * configuration * * @return {Object} series The newly created series object */ function addSeries(options, redraw, animation) { var series; if (options) { setAnimation(animation, chart); redraw = pick(redraw, true); // defaults to true fireEvent(chart, 'addSeries', { options: options }, function () { series = initSeries(options); series.isDirty = true; chart.isDirtyLegend = true; // the series array is out of sync with the display if (redraw) { chart.redraw(); } }); } return series; } /** * Check whether a given point is within the plot area * * @param {Number} x Pixel x relative to the plot area * @param {Number} y Pixel y relative to the plot area */ isInsidePlot = function (x, y) { return x >= 0 && x <= plotWidth && y >= 0 && y <= plotHeight; }; /** * Adjust all axes tick amounts */ function adjustTickAmounts() { if (optionsChart.alignTicks !== false) { each(axes, function (axis) { axis.adjustTickAmount(); }); } maxTicks = null; } /** * Redraw legend, axes or series based on updated data * * @param {Boolean|Object} animation Whether to apply animation, and optionally animation * configuration */ function redraw(animation) { var redrawLegend = chart.isDirtyLegend, hasStackedSeries, isDirtyBox = chart.isDirtyBox, // todo: check if it has actually changed? seriesLength = series.length, i = seriesLength, clipRect = chart.clipRect, serie; setAnimation(animation, chart); // link stacked series while (i--) { serie = series[i]; if (serie.isDirty && serie.options.stacking) { hasStackedSeries = true; break; } } if (hasStackedSeries) { // mark others as dirty i = seriesLength; while (i--) { serie = series[i]; if (serie.options.stacking) { serie.isDirty = true; } } } // handle updated data in the series each(series, function (serie) { if (serie.isDirty) { // prepare the data so axis can read it if (serie.options.legendType === 'point') { redrawLegend = true; } } }); // handle added or removed series if (redrawLegend && legend.renderLegend) { // series or pie points are added or removed // draw legend graphics legend.renderLegend(); chart.isDirtyLegend = false; } if (hasCartesianSeries) { if (!isResizing) { // reset maxTicks maxTicks = null; // set axes scales each(axes, function (axis) { axis.setScale(); }); } adjustTickAmounts(); getMargins(); // redraw axes each(axes, function (axis) { // Fire 'afterSetExtremes' only if extremes are set if (axis.isDirtyExtremes) { // #821 axis.isDirtyExtremes = false; fireEvent(axis, 'afterSetExtremes', axis.getExtremes()); // #747, #751 } if (axis.isDirty || isDirtyBox) { axis.redraw(); isDirtyBox = true; // #792 } }); } // the plot areas size has changed if (isDirtyBox) { drawChartBox(); // move clip rect if (clipRect) { stop(clipRect); clipRect.animate({ // for chart resize width: chart.plotSizeX, height: chart.plotSizeY + 1 }); } } // redraw affected series each(series, function (serie) { if (serie.isDirty && serie.visible && (!serie.isCartesian || serie.xAxis)) { // issue #153 serie.redraw(); } }); // hide tooltip and hover states if (tracker && tracker.resetTracker) { tracker.resetTracker(); } // redraw if canvas renderer.draw(); // fire the event fireEvent(chart, 'redraw'); // jQuery breaks this when calling it from addEvent. Overwrites chart.redraw } /** * Dim the chart and show a loading text or symbol * @param {String} str An optional text to show in the loading label instead of the default one */ function showLoading(str) { var loadingOptions = options.loading; // create the layer at the first call if (!loadingDiv) { loadingDiv = createElement(DIV, { className: PREFIX + 'loading' }, extend(loadingOptions.style, { left: plotLeft + PX, top: plotTop + PX, width: plotWidth + PX, height: plotHeight + PX, zIndex: 10, display: NONE }), container); loadingSpan = createElement( 'span', null, loadingOptions.labelStyle, loadingDiv ); } // update text loadingSpan.innerHTML = str || options.lang.loading; // show it if (!loadingShown) { css(loadingDiv, { opacity: 0, display: '' }); animate(loadingDiv, { opacity: loadingOptions.style.opacity }, { duration: loadingOptions.showDuration || 0 }); loadingShown = true; } } /** * Hide the loading layer */ function hideLoading() { if (loadingDiv) { animate(loadingDiv, { opacity: 0 }, { duration: options.loading.hideDuration || 100, complete: function () { css(loadingDiv, { display: NONE }); } }); } loadingShown = false; } /** * Get an axis, series or point object by id. * @param id {String} The id as given in the configuration options */ function get(id) { var i, j, 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 */ function getAxes() { var xAxisOptions = options.xAxis || {}, yAxisOptions = options.yAxis || {}, optionsArray, axis; // make sure the options are arrays and add some members xAxisOptions = splat(xAxisOptions); each(xAxisOptions, function (axis, i) { axis.index = i; axis.isX = true; }); yAxisOptions = splat(yAxisOptions); each(yAxisOptions, function (axis, i) { axis.index = i; }); // concatenate all axis options into one array optionsArray = xAxisOptions.concat(yAxisOptions); each(optionsArray, function (axisOptions) { axis = new Axis(axisOptions); }); adjustTickAmounts(); } /** * Get the currently selected points from all series */ function getSelectedPoints() { var points = []; each(series, function (serie) { points = points.concat(grep(serie.points, function (point) { return point.selected; })); }); return points; } /** * Get the currently selected series */ function getSelectedSeries() { return grep(series, function (serie) { return serie.selected; }); } /** * Display the zoom button */ function showResetZoom() { var lang = defaultOptions.lang, btnOptions = optionsChart.resetZoomButton, theme = btnOptions.theme, states = theme.states, box = btnOptions.relativeTo === 'chart' ? null : { x: plotLeft, y: plotTop, width: plotWidth, height: plotHeight }; chart.resetZoomButton = renderer.button(lang.resetZoom, null, null, zoomOut, theme, states && states.hover) .attr({ align: btnOptions.position.align, title: lang.resetZoomTitle }) .add() .align(btnOptions.position, false, box); } /** * Zoom out to 1:1 */ zoomOut = function () { var resetZoomButton = chart.resetZoomButton; fireEvent(chart, 'selection', { resetSelection: true }, zoom); if (resetZoomButton) { chart.resetZoomButton = resetZoomButton.destroy(); } }; /** * Zoom into a given portion of the chart given by axis coordinates * @param {Object} event */ zoom = function (event) { // add button to reset selection var hasZoomed; if (chart.resetZoomEnabled !== false && !chart.resetZoomButton) { // hook for Stock charts etc. showResetZoom(); } // if zoom is called with no arguments, reset the axes if (!event || event.resetSelection) { each(axes, function (axis) { if (axis.options.zoomEnabled !== false) { axis.setExtremes(null, null, false); hasZoomed = true; } }); } else { // else, zoom in on all axes each(event.xAxis.concat(event.yAxis), function (axisData) { var axis = axisData.axis; // don't zoom more than minRange if (chart.tracker[axis.isXAxis ? 'zoomX' : 'zoomY']) { axis.setExtremes(axisData.min, axisData.max, false); hasZoomed = true; } }); } // Redraw if (hasZoomed) { redraw( pick(optionsChart.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. */ chart.pan = function (chartX) { var xAxis = chart.xAxis[0], mouseDownX = chart.mouseDownX, halfPointRange = xAxis.pointRange / 2, extremes = xAxis.getExtremes(), newMin = xAxis.translate(mouseDownX - chartX, true) + halfPointRange, newMax = xAxis.translate(mouseDownX + plotWidth - chartX, true) - halfPointRange, hoverPoints = chart.hoverPoints; // remove active points for shared tooltip if (hoverPoints) { each(hoverPoints, function (point) { point.setState(); }); } if (newMin > mathMin(extremes.dataMin, extremes.min) && newMax < mathMax(extremes.dataMax, extremes.max)) { xAxis.setExtremes(newMin, newMax, true, false); } chart.mouseDownX = chartX; // set new reference for next run css(container, { cursor: 'move' }); }; /** * Show the title and subtitle of the chart * * @param titleOptions {Object} New title options * @param subtitleOptions {Object} New subtitle options * */ function setTitle(titleOptions, subtitleOptions) { chartTitleOptions = merge(options.title, titleOptions); chartSubtitleOptions = 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) { title = title.destroy(); // remove old } if (chartTitleOptions && chartTitleOptions.text && !title) { chart[name] = renderer.text( chartTitleOptions.text, 0, 0, chartTitleOptions.useHTML ) .attr({ align: chartTitleOptions.align, 'class': PREFIX + name, zIndex: chartTitleOptions.zIndex || 4 }) .css(chartTitleOptions.style) .add() .align(chartTitleOptions, false, spacingBox); } }); } /** * Get chart width and height according to options and container size */ function getChartSize() { containerWidth = (renderToClone || renderTo).offsetWidth; containerHeight = (renderToClone || renderTo).offsetHeight; chart.chartWidth = chartWidth = optionsChart.width || containerWidth || 600; chart.chartHeight = chartHeight = optionsChart.height || // the offsetHeight of an empty container is 0 in standard browsers, but 19 in IE7: (containerHeight > 19 ? containerHeight : 400); } /** * Get the containing element, determine the size and create the inner container * div to hold the chart */ function getContainer() { renderTo = optionsChart.renderTo; containerId = PREFIX + idCounter++; if (isString(renderTo)) { renderTo = doc.getElementById(renderTo); } // Display an error if the renderTo is wrong if (!renderTo) { error(13, true); } // remove previous chart renderTo.innerHTML = ''; // If the container doesn't have an offsetWidth, it has or is a child of a node // that has display:none. We need to temporarily move it out to a visible // state to determine the size, else the legend and tooltips won't render // properly if (!renderTo.offsetWidth) { renderToClone = renderTo.cloneNode(0); css(renderToClone, { position: ABSOLUTE, top: '-9999px', display: '' }); doc.body.appendChild(renderToClone); } // get the width and height getChartSize(); // 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 }, optionsChart.style), renderToClone || renderTo ); chart.renderer = renderer = optionsChart.forExport ? // force SVG, used for SVG export new SVGRenderer(container, chartWidth, chartHeight, true) : new Renderer(container, chartWidth, chartHeight); if (useCanVG) { // If we need canvg library, extend and configure the renderer // to get the tracker for translating mouse events renderer.create(chart, container, chartWidth, chartHeight); } // 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) { subPixelFix = function () { css(container, { left: 0, top: 0 }); rect = container.getBoundingClientRect(); css(container, { left: (-(rect.left - pInt(rect.left))) + PX, top: (-(rect.top - pInt(rect.top))) + PX }); }; // run the fix now subPixelFix(); // run it on resize addEvent(win, 'resize', subPixelFix); // remove it on chart destroy addEvent(chart, 'destroy', function () { removeEvent(win, 'resize', subPixelFix); }); } } /** * 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 () { var legendOptions = options.legend, legendMargin = pick(legendOptions.margin, 10), legendX = legendOptions.x, legendY = legendOptions.y, align = legendOptions.align, verticalAlign = legendOptions.verticalAlign, titleOffset; resetMargins(); // adjust for title and subtitle if ((chart.title || chart.subtitle) && !defined(optionsMarginTop)) { titleOffset = mathMax( (chart.title && !chartTitleOptions.floating && !chartTitleOptions.verticalAlign && chartTitleOptions.y) || 0, (chart.subtitle && !chartSubtitleOptions.floating && !chartSubtitleOptions.verticalAlign && chartSubtitleOptions.y) || 0 ); if (titleOffset) { plotTop = mathMax(plotTop, titleOffset + pick(chartTitleOptions.margin, 15) + spacingTop); } } // adjust for legend if (legendOptions.enabled && !legendOptions.floating) { if (align === 'right') { // horizontal alignment handled first if (!defined(optionsMarginRight)) { marginRight = mathMax( marginRight, legendWidth - legendX + legendMargin + spacingRight ); } } else if (align === 'left') { if (!defined(optionsMarginLeft)) { plotLeft = mathMax( plotLeft, legendWidth + legendX + legendMargin + spacingLeft ); } } else if (verticalAlign === 'top') { if (!defined(optionsMarginTop)) { plotTop = mathMax( plotTop, legendHeight + legendY + legendMargin + spacingTop ); } } else if (verticalAlign === 'bottom') { if (!defined(optionsMarginBottom)) { marginBottom = mathMax( marginBottom, legendHeight - legendY + legendMargin + spacingBottom ); } } } // adjust for scroller if (chart.extraBottomMargin) { marginBottom += chart.extraBottomMargin; } if (chart.extraTopMargin) { plotTop += chart.extraTopMargin; } // pre-render axes to get labels offset width if (hasCartesianSeries) { each(axes, function (axis) { axis.getOffset(); }); } if (!defined(optionsMarginLeft)) { plotLeft += axisOffset[3]; } if (!defined(optionsMarginTop)) { plotTop += axisOffset[0]; } if (!defined(optionsMarginBottom)) { marginBottom += axisOffset[2]; } if (!defined(optionsMarginRight)) { marginRight += axisOffset[1]; } setChartSize(); }; /** * Add the event handlers necessary for auto resizing * */ function initReflow() { var reflowTimeout; function reflow(e) { var width = optionsChart.width || renderTo.offsetWidth, height = optionsChart.height || renderTo.offsetHeight, target = e ? e.target : win; // #805 - MooTools doesn't supply e // Width and height checks for display:none. Target is doc in IE8 and Opera, // win in Firefox, Chrome and IE9. if (width && height && (target === win || target === doc)) { if (width !== containerWidth || height !== containerHeight) { clearTimeout(reflowTimeout); reflowTimeout = setTimeout(function () { resize(width, height, false); }, 100); } containerWidth = width; containerHeight = height; } } addEvent(win, 'resize', reflow); addEvent(chart, 'destroy', function () { removeEvent(win, 'resize', reflow); }); } /** * Fires endResize event on chart instance. */ function fireEndResize() { if (chart) { fireEvent(chart, 'endResize', null, function () { isResizing -= 1; }); } } /** * Resize the chart to a given width and height * @param {Number} width * @param {Number} height * @param {Object|Boolean} animation */ resize = function (width, height, animation) { var chartTitle = chart.title, chartSubtitle = chart.subtitle; isResizing += 1; // set the animation for the current process setAnimation(animation, chart); oldChartHeight = chartHeight; oldChartWidth = chartWidth; if (defined(width)) { chart.chartWidth = chartWidth = mathRound(width); } if (defined(height)) { chart.chartHeight = chartHeight = mathRound(height); } css(container, { width: chartWidth + PX, height: chartHeight + PX }); renderer.setSize(chartWidth, chartHeight, animation); // update axis lengths for more correct tick intervals: plotWidth = chartWidth - plotLeft - marginRight; plotHeight = chartHeight - plotTop - marginBottom; // handle axes maxTicks = null; each(axes, function (axis) { axis.isDirty = true; axis.setScale(); }); // make sure non-cartesian series are also handled each(series, function (serie) { serie.isDirty = true; }); chart.isDirtyLegend = true; // force legend redraw chart.isDirtyBox = true; // force redraw of plot and chart border getMargins(); // move titles if (chartTitle) { chartTitle.align(null, null, spacingBox); } if (chartSubtitle) { chartSubtitle.align(null, null, spacingBox); } redraw(animation); oldChartHeight = null; fireEvent(chart, 'resize'); // fire endResize and set isResizing back // If animation is disabled, fire without delay 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 () { chart.plotLeft = plotLeft = mathRound(plotLeft); chart.plotTop = plotTop = mathRound(plotTop); chart.plotWidth = plotWidth = mathRound(chartWidth - plotLeft - marginRight); chart.plotHeight = plotHeight = mathRound(chartHeight - plotTop - marginBottom); chart.plotSizeX = inverted ? plotHeight : plotWidth; chart.plotSizeY = inverted ? plotWidth : plotHeight; spacingBox = { x: spacingLeft, y: spacingTop, width: chartWidth - spacingLeft - spacingRight, height: chartHeight - spacingTop - spacingBottom }; each(axes, function (axis) { axis.setAxisSize(); axis.setAxisTranslation(); }); }; /** * Initial margins before auto size margins are applied */ resetMargins = function () { plotTop = pick(optionsMarginTop, spacingTop); marginRight = pick(optionsMarginRight, spacingRight); marginBottom = pick(optionsMarginBottom, spacingBottom); plotLeft = pick(optionsMarginLeft, spacingLeft); axisOffset = [0, 0, 0, 0]; // top, right, bottom, left }; /** * Draw the borders and backgrounds for chart and plot area */ drawChartBox = function () { var chartBorderWidth = optionsChart.borderWidth || 0, chartBackgroundColor = optionsChart.backgroundColor, plotBackgroundColor = optionsChart.plotBackgroundColor, plotBackgroundImage = optionsChart.plotBackgroundImage, mgn, plotSize = { x: plotLeft, y: plotTop, width: plotWidth, height: plotHeight }; // Chart area mgn = chartBorderWidth + (optionsChart.shadow ? 8 : 0); if (chartBorderWidth || chartBackgroundColor) { if (!chartBackground) { chartBackground = renderer.rect(mgn / 2, mgn / 2, chartWidth - mgn, chartHeight - mgn, optionsChart.borderRadius, chartBorderWidth) .attr({ stroke: optionsChart.borderColor, 'stroke-width': chartBorderWidth, fill: chartBackgroundColor || NONE }) .add() .shadow(optionsChart.shadow); } else { // resize chartBackground.animate( chartBackground.crisp(null, null, null, chartWidth - mgn, chartHeight - mgn) ); } } // Plot background if (plotBackgroundColor) { if (!plotBackground) { plotBackground = renderer.rect(plotLeft, plotTop, plotWidth, plotHeight, 0) .attr({ fill: plotBackgroundColor }) .add() .shadow(optionsChart.plotShadow); } else { plotBackground.animate(plotSize); } } if (plotBackgroundImage) { if (!plotBGImage) { plotBGImage = renderer.image(plotBackgroundImage, plotLeft, plotTop, plotWidth, plotHeight) .add(); } else { plotBGImage.animate(plotSize); } } // Plot area border if (optionsChart.plotBorderWidth) { if (!plotBorder) { plotBorder = renderer.rect(plotLeft, plotTop, plotWidth, plotHeight, 0, optionsChart.plotBorderWidth) .attr({ stroke: optionsChart.plotBorderColor, 'stroke-width': optionsChart.plotBorderWidth, zIndex: 4 }) .add(); } else { plotBorder.animate( plotBorder.crisp(null, plotLeft, plotTop, plotWidth, plotHeight) ); } } // reset chart.isDirtyBox = false; }; /** * Detect whether the chart is inverted, either by setting the chart.inverted option * or adding a bar series to the configuration options */ function setInverted() { var BAR = 'bar', isInverted = ( inverted || // it is set before optionsChart.inverted || optionsChart.type === BAR || // default series type optionsChart.defaultSeriesType === BAR // backwards compatible ), seriesOptions = options.series, i = seriesOptions && seriesOptions.length; // check if a bar series is present in the config options while (!isInverted && i--) { if (seriesOptions[i].type === BAR) { isInverted = true; } } // set the chart property and the chart scope variable chart.inverted = inverted = isInverted; } /** * Render all graphics for the chart */ function render() { var labels = options.labels, credits = options.credits, creditsHref; // Title setTitle(); // Legend legend = chart.legend = new Legend(); // Get margins by pre-rendering axes // set axes scales each(axes, function (axis) { axis.setScale(); }); getMargins(); each(axes, function (axis) { axis.setTickPositions(true); // update to reflect the new margins }); adjustTickAmounts(); getMargins(); // second pass to check for new labels // Draw the borders and backgrounds drawChartBox(); // Axes if (hasCartesianSeries) { each(axes, function (axis) { axis.render(); }); } // The series if (!chart.seriesGroup) { chart.seriesGroup = renderer.g('series-group') .attr({ zIndex: 3 }) .add(); } each(series, function (serie) { serie.translate(); serie.setTooltipPoints(); serie.render(); }); // Labels if (labels.items) { each(labels.items, function () { var style = extend(labels.style, this.style), x = pInt(style.left) + plotLeft, y = pInt(style.top) + plotTop + 12; // delete to prevent rewriting in IE delete style.left; delete style.top; renderer.text( this.html, x, y ) .attr({ zIndex: 2 }) .css(style) .add(); }); } // Credits if (credits.enabled && !chart.credits) { creditsHref = credits.href; chart.credits = renderer.text( credits.text, 0, 0 ) .on('click', function () { if (creditsHref) { location.href = creditsHref; } }) .attr({ align: credits.position.align, zIndex: 8 }) .css(credits.style) .add() .align(credits.position); } // Set flag chart.hasRendered = true; } /** * Clean up memory usage */ function destroy() { var i, parentNode = container && container.parentNode; // If the chart is destroyed already, do nothing. // This will happen if if a script invokes chart.destroy and // then it will be called again on win.unload if (chart === null) { return; } // fire the chart.destoy event fireEvent(chart, 'destroy'); // 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', 'seriesGroup', 'clipRect', 'credits', 'tracker', 'scroller', 'rangeSelector'], function (name) { var prop = chart[name]; if (prop) { chart[name] = prop.destroy(); } }); // ==== Destroy local variables: each([chartBackground, plotBorder, plotBackground, legend, tooltip, renderer, tracker], function (obj) { if (obj && obj.destroy) { obj.destroy(); } }); chartBackground = plotBorder = plotBackground = legend = tooltip = renderer = tracker = null; // remove container and all SVG if (container) { // can break in IE when destroyed before finished loading container.innerHTML = ''; removeEvent(container); if (parentNode) { discardElement(container); } // IE6 leak container = null; } // memory and CPU leak clearInterval(tooltipInterval); // clean it all up for (i in chart) { delete chart[i]; } chart = null; options = null; } /** * Prepare for first rendering after all data are loaded */ function firstRender() { // VML namespaces can't be added until after complete. Listening // for Perini's doScroll hack is not enough. var ONREADYSTATECHANGE = 'onreadystatechange', COMPLETE = 'complete'; // 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(firstRender, options.global.canvasToolsURL); } else { doc.attachEvent(ONREADYSTATECHANGE, function () { doc.detachEvent(ONREADYSTATECHANGE, firstRender); if (doc.readyState === COMPLETE) { firstRender(); } }); } return; } // create the container getContainer(); // Run an early event after the container and renderer are established fireEvent(chart, 'init'); // Initialize range selector for stock charts if (Highcharts.RangeSelector && options.rangeSelector.enabled) { chart.rangeSelector = new Highcharts.RangeSelector(chart); } resetMargins(); setChartSize(); // Set the common inversion and transformation for inverted series after initSeries setInverted(); // get axes getAxes(); // Initialize the series each(options.series || [], function (serieOptions) { initSeries(serieOptions); }); // Run an event where series and axes can be added //fireEvent(chart, 'beforeRender'); // Initialize scroller for stock charts if (Highcharts.Scroller && (options.navigator.enabled || options.scrollbar.enabled)) { chart.scroller = new Highcharts.Scroller(chart); } chart.render = render; // depends on inverted and on margins being set chart.tracker = tracker = new MouseTracker(options.tooltip); render(); // add canvas renderer.draw(); // run callbacks if (callback) { callback.apply(chart, [chart]); } each(chart.callbacks, function (fn) { fn.apply(chart, [chart]); }); // If the chart was rendered outside the top container, put it back in if (renderToClone) { renderTo.appendChild(container); discardElement(renderToClone); } fireEvent(chart, 'load'); } // Run chart // Set up auto resize if (optionsChart.reflow !== false) { addEvent(chart, 'load', initReflow); } // Chart event handlers if (chartEvents) { for (eventType in chartEvents) { addEvent(chart, eventType, chartEvents[eventType]); } } chart.options = options; chart.series = series; chart.xAxis = []; chart.yAxis = []; // Expose methods and variables chart.addSeries = addSeries; chart.animation = useCanVG ? false : pick(optionsChart.animation, true); chart.Axis = Axis; chart.destroy = destroy; chart.get = get; chart.getSelectedPoints = getSelectedPoints; chart.getSelectedSeries = getSelectedSeries; chart.hideLoading = hideLoading; chart.initSeries = initSeries; chart.isInsidePlot = isInsidePlot; chart.redraw = redraw; chart.setSize = resize; chart.setTitle = setTitle; chart.showLoading = showLoading; chart.pointCount = 0; chart.counters = new ChartCounters(); /* if ($) $(function () { $container = $('#container'); var origChartWidth, origChartHeight; if ($container) { $('') .insertBefore($container) .click(function () { if (origChartWidth === UNDEFINED) { origChartWidth = chartWidth; origChartHeight = chartHeight; } chart.resize(chartWidth *= 1.1, chartHeight *= 1.1); }); $('') .insertBefore($container) .click(function () { if (origChartWidth === UNDEFINED) { origChartWidth = chartWidth; origChartHeight = chartHeight; } chart.resize(chartWidth *= 0.9, chartHeight *= 0.9); }); $('') .insertBefore($container) .click(function () { if (origChartWidth === UNDEFINED) { origChartWidth = chartWidth; origChartHeight = chartHeight; } chart.resize(origChartWidth, origChartHeight); }); } }) */ firstRender(); } // end Chart // Hook for exporting module Chart.prototype.callbacks = []; /** * 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, counters = series.chart.counters, defaultColors; point.series = series; point.applyOptions(options, x); point.pointAttr = {}; if (series.options.colorByPoint) { defaultColors = series.chart.options.colors; if (!point.options) { point.options = {}; } point.color = point.options.color = point.color || defaultColors[counters.color++]; // loop back to zero counters.wrapColor(defaultColors.length); } 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, optionsType = typeof options; point.config = options; // onedimensional array input if (optionsType === 'number' || options === null) { point.y = options; } else if (typeof options[0] === 'number') { // two-dimentional array point.x = options[0]; point.y = options[1]; } else if (optionsType === 'object' && typeof options.length !== 'number') { // object input // copy options directly to point extend(point, options); point.options = 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; } } else if (typeof options[0] === 'string') { // categorized data with name in first position point.name = options[0]; point.y = options[1]; } /* * If no x is set by now, get auto incremented value. All points must have an * x value, however the y value can be null to create a gap in the series */ // todo: skip this? It is only used in applyOptions, in translate it should not be used if (point.x === UNDEFINED) { point.x = x === UNDEFINED ? series.autoIncrement() : x; } }, /** * Destroy a point to clear memory. Its reference still stays in series.data. */ destroy: function () { var point = this, series = point.series, hoverPoints = series.chart.hoverPoints, prop; series.chart.pointCount--; if (hoverPoints) { point.setState(); erase(hoverPoints, point); } if (point === series.chart.hoverPoint) { point.onMouseOut(); } series.chart.hoverPoints = null; // 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 point.series.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', 'tracker', 'dataLabel', 'group', '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 () { var point = this; return { x: point.category, y: point.y, key: point.name || point.category, series: point.series, point: point, percentage: point.percentage, total: point.total || point.stackTotal }; }, /** * 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 = selected; point.setState(selected && SELECT_STATE); // unselect all other points unless Ctrl or Cmd + click if (!accumulate) { each(chart.getSelectedPoints(), function (loopPoint) { if (loopPoint.selected && loopPoint !== point) { loopPoint.selected = false; loopPoint.setState(NORMAL_STATE); loopPoint.firePointEvent('unselect'); } }); } }); }, onMouseOver: function () { var point = this, series = point.series, chart = series.chart, tooltip = chart.tooltip, hoverPoint = chart.hoverPoint; // set normal state to previous series if (hoverPoint && hoverPoint !== point) { hoverPoint.onMouseOut(); } // trigger the event point.firePointEvent('mouseOver'); // update the tooltip if (tooltip && (!tooltip.shared || series.noSharedTooltip)) { tooltip.refresh(point); } // hover this point.setState(HOVER_STATE); chart.hoverPoint = point; }, onMouseOut: function () { var point = this; point.firePointEvent('mouseOut'); point.setState(); point.series.chart.hoverPoint = null; }, /** * 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) { var point = this, series = point.series, seriesTooltipOptions = series.tooltipOptions, split = String(point.y).split('.'), originalDecimals = split[1] ? split[1].length : 0, match = pointFormat.match(/\{(series|point)\.[a-zA-Z]+\}/g), splitter = /[{\.}]/, obj, key, replacement, parts, prop, i; // loop over the variables defined on the form {series.name}, {point.y} etc for (i in match) { key = match[i]; if (isString(key) && key !== pointFormat) { // IE matches more than just the variables // Split it further into parts parts = (' ' + key).split(splitter); // add empty string because IE and the rest handles it differently obj = { 'point': point, 'series': series }[parts[1]]; prop = parts[2]; // Add some preformatting if (obj === point && (prop === 'y' || prop === 'open' || prop === 'high' || prop === 'low' || prop === 'close')) { replacement = (seriesTooltipOptions.valuePrefix || seriesTooltipOptions.yPrefix || '') + numberFormat(point[prop], pick(seriesTooltipOptions.valueDecimals, seriesTooltipOptions.yDecimals, originalDecimals)) + (seriesTooltipOptions.valueSuffix || seriesTooltipOptions.ySuffix || ''); // Automatic replacement } else { replacement = obj[prop]; } pointFormat = pointFormat.replace(key, replacement); } } return pointFormat; }, /** * 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) { var point = this, series = point.series, graphic = point.graphic, i, data = series.data, dataLength = data.length, chart = series.chart; redraw = pick(redraw, true); // fire the event with a default handler of doing the update point.firePointEvent('update', { options: options }, function () { point.applyOptions(options); // update visuals if (isObject(options)) { series.getAttribs(); if (graphic) { graphic.attr(point.pointAttr[series.state]); } } // record changes in the parallel arrays for (i = 0; i < dataLength; i++) { if (data[i] === point) { series.xData[i] = point.x; series.yData[i] = point.y; series.options.data[i] = options; break; } } // redraw series.isDirty = true; series.isDirtyData = true; if (redraw) { chart.redraw(animation); } }); }, /** * 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) { var point = this, series = point.series, chart = series.chart, i, data = series.data, dataLength = data.length; setAnimation(animation, chart); redraw = pick(redraw, true); // fire the event with a default handler of removing the point point.firePointEvent('remove', null, function () { //erase(series.data, point); for (i = 0; i < dataLength; i++) { if (data[i] === point) { // splice all the parallel arrays data.splice(i, 1); series.options.data.splice(i, 1); series.xData.splice(i, 1); series.yData.splice(i, 1); break; } } point.destroy(); // redraw series.isDirty = true; series.isDirtyData = true; if (redraw) { chart.redraw(); } }); }, /** * Fire an event on the Point object. Must not be renamed to fireEvent, as this * causes a name clash in MooTools * @param {String} eventType * @param {Object} eventArgs Additional event arguments * @param {Function} defaultFunction Default event handler */ firePointEvent: function (eventType, eventArgs, defaultFunction) { var point = this, series = this.series, seriesOptions = series.options; // load event handlers on demand to save time on mouseover/out if (seriesOptions.point.events[eventType] || (point.options && point.options.events && point.options.events[eventType])) { this.importEvents(); } // add default handler if in selection mode if (eventType === 'click' && seriesOptions.allowPointSelect) { defaultFunction = function (event) { // Control key is for Windows, meta (= Cmd key) for Mac, Shift for Opera point.select(null, event.ctrlKey || event.metaKey || event.shiftKey); }; } fireEvent(this, eventType, eventArgs, defaultFunction); }, /** * Import events from the series' and point's options. Only do it on * demand, to save processing time on hovering. */ importEvents: function () { if (!this.hasImportedEvents) { var point = this, options = merge(point.series.options.point, point.options), events = options.events, eventType; point.events = events; for (eventType in events) { addEvent(point, eventType, events[eventType]); } this.hasImportedEvents = true; } }, /** * Set the point's state * @param {String} state */ setState: function (state) { var point = this, plotX = point.plotX, 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, chart = series.chart, radius, pointAttr = point.pointAttr; state = state || NORMAL_STATE; // empty string if ( // already has this state state === point.state || // selected points don't respond to hover (point.selected && state !== SELECT_STATE) || // series' state options is disabled (stateOptions[state] && stateOptions[state].enabled === false) || // point marker's state options is disabled (state && (stateDisabled || (normalDisabled && !markerStateOptions.enabled))) ) { return; } // apply hover styles to the existing point if (point.graphic) { radius = markerOptions && point.graphic.symbolName && pointAttr[state].r; point.graphic.attr(merge( pointAttr[state], radius ? { // new symbol attributes (#507, #612) x: plotX - radius, y: plotY - radius, width: 2 * radius, height: 2 * radius } : {} )); } else { // if a graphic is not applied to each point in the normal state, create a shared // graphic for the hover state if (state) { if (!stateMarkerGraphic) { radius = markerOptions.radius; series.stateMarkerGraphic = stateMarkerGraphic = chart.renderer.symbol( series.symbol, -radius, -radius, 2 * radius, 2 * radius ) .attr(pointAttr[state]) .add(series.group); } stateMarkerGraphic.translate( plotX, plotY ); } if (stateMarkerGraphic) { stateMarkerGraphic[state ? 'show' : 'hide'](); } } point.state = state; } }; /** * @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 = function () {}; Series.prototype = { isCartesian: true, type: 'line', pointClass: Point, sorted: true, // requires the data to be sorted pointAttrToOptions: { // mapping between SVG attributes and the corresponding options stroke: 'lineColor', 'stroke-width': 'lineWidth', fill: 'fillColor', r: 'radius' }, init: function (chart, options) { var series = this, eventType, events, //pointEvent, index = chart.series.length; series.chart = chart; series.options = options = series.setOptions(options); // merge with plotOptions // bind the axes series.bindAxes(); // set some variables extend(series, { index: index, name: options.name || 'Series ' + (index + 1), 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 series.setData(options.data, false); }, /** * 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; if (series.isCartesian) { each(['xAxis', 'yAxis'], 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 && 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; } }); }); } }, /** * Return an auto incremented x value based on the pointStart and pointInterval options. * This is only used if an x value is not given for the point that calls autoIncrement. */ autoIncrement: function () { var series = this, options = series.options, xIncrement = series.xIncrement; xIncrement = pick(xIncrement, options.pointStart, 0); series.pointInterval = pick(series.pointInterval, options.pointInterval, 1); series.xIncrement = xIncrement + series.pointInterval; return xIncrement; }, /** * 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 series = this, chart = series.chart, chartOptions = chart.options, plotOptions = chartOptions.plotOptions, data = itemOptions.data, options; itemOptions.data = null; // remove from merge to prevent looping over the data set options = merge( plotOptions[this.type], plotOptions.series, itemOptions ); // Re-insert the data array to the options and the original config (#717) options.data = itemOptions.data = data; // the tooltip options are merged between global and series specific options series.tooltipOptions = merge(chartOptions.tooltip, options.tooltip); return options; }, /** * Get the series' color */ getColor: function () { var defaultColors = this.chart.options.colors, counters = this.chart.counters; this.color = this.options.color || defaultColors[counters.color++] || '#0000ff'; counters.wrapColor(defaultColors.length); }, /** * Get the series' symbol */ getSymbol: function () { var series = this, seriesMarkerOption = series.options.marker, chart = series.chart, defaultSymbols = chart.options.symbols, counters = chart.counters; series.symbol = seriesMarkerOption.symbol || defaultSymbols[counters.symbol++]; // don't substract radius in image symbols (#604) if (/^url/.test(series.symbol)) { seriesMarkerOption.radius = 0; } counters.wrapSymbol(defaultSymbols.length); }, /** * 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, data = series.data, graph = series.graph, area = series.area, chart = series.chart, xData = series.xData, yData = series.yData, currentShift = (graph && graph.shift) || 0, dataOptions = series.options.data, point; //point = (new series.pointClass()).init(series, options); setAnimation(animation, chart); // Make graph animate sideways if (graph && shift) { graph.shift = currentShift + 1; } if (area) { if (shift) { // #780 area.shift = currentShift + 1; } 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]); xData.push(point.x); yData.push(series.valueCount === 4 ? [point.open, point.high, point.low, point.close] : point.y); dataOptions.push(options); // Shift the first point off the parallel arrays // todo: consider series.removePoint(i) method if (shift) { if (data[0]) { data[0].remove(false); } else { data.shift(); xData.shift(); yData.shift(); dataOptions.shift(); } } series.getAttribs(); // redraw series.isDirty = true; series.isDirtyData = true; if (redraw) { chart.redraw(); } }, /** * Replace the series data with a new set of data * @param {Object} data * @param {Object} redraw */ setData: function (data, redraw) { var series = this, oldData = series.points, options = series.options, initialColor = series.initialColor, chart = series.chart, firstPoint = null, i; // reset properties series.xIncrement = null; series.pointRange = (series.xAxis && series.xAxis.categories && 1) || options.pointRange; if (defined(initialColor)) { // reset colors for pie chart.counters.color = initialColor; } // parallel arrays var xData = [], yData = [], dataLength = data ? data.length : [], turboThreshold = options.turboThreshold || 1000, pt, ohlc = series.valueCount === 4; // 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 (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 (ohlc) { // [x, o, h, l, c] for (i = 0; i < dataLength; i++) { pt = data[i]; xData[i] = pt[0]; yData[i] = pt.slice(1, 5); } } 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++) { pt = { series: series }; series.pointClass.prototype.applyOptions.apply(pt, [data[i]]); xData[i] = pt.x; yData[i] = ohlc ? [pt.open, pt.high, pt.low, pt.close] : pt.y; } } series.data = []; series.options.data = data; series.xData = xData; series.yData = yData; // destroy old points i = (oldData && oldData.length) || 0; while (i--) { if (oldData[i] && oldData[i].destroy) { oldData[i].destroy(); } } // redraw series.isDirty = series.isDirtyData = chart.isDirtyBox = true; if (pick(redraw, true)) { chart.redraw(false); } }, /** * 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; if (redraw) { chart.redraw(animation); } }); } series.isRemoving = false; }, /** * 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, cropStart = 0, cropEnd = dataLength, cropped, distance, closestPointRange, xAxis = series.xAxis, i, // loop variable options = series.options, cropThreshold = options.cropThreshold, isCartesian = series.isCartesian; // 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; } // optionally filter out points outside the plot area if (isCartesian && series.sorted && (!cropThreshold || dataLength > cropThreshold || series.forceCrop)) { var extremes = xAxis.getExtremes(), min = extremes.min, max = extremes.max; // 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) { // iterate up to find slice start for (i = 0; i < dataLength; i++) { if (processedXData[i] >= min) { cropStart = mathMax(0, i - 1); break; } } // proceed to find slice end for (; i < dataLength; i++) { if (processedXData[i] > max) { cropEnd = i + 1; break; } } processedXData = processedXData.slice(cropStart, cropEnd); processedYData = processedYData.slice(cropStart, cropEnd); 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; } } // 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; }, /** * 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 { 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]))); } } // 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(); } } } series.data = data; series.points = points; }, /** * 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, chart = series.chart, options = series.options, stacking = options.stacking, xAxis = series.xAxis, categories = xAxis.categories, yAxis = series.yAxis, points = series.points, dataLength = points.length, hasModifyValue = !!series.modifyValue, isLastSeries, allStackSeries = yAxis.series, i = allStackSeries.length; // Is it the last visible series? while (i--) { if (allStackSeries[i].visible) { if (i === series.index) { isLastSeries = true; } break; } } // Translate each point for (i = 0; i < dataLength; i++) { var point = points[i], xValue = point.x, yValue = point.y, yBottom = point.low, stack = yAxis.stacks[(yValue < options.threshold ? '-' : '') + series.stackKey], pointStack, pointStackTotal; // get the plotX translation point.plotX = mathRound(xAxis.translate(xValue, 0, 0, 0, 1) * 10) / 10; // Math.round fixes #591 // calculate the bottom y value for stacked series if (stacking && series.visible && stack && stack[xValue]) { pointStack = stack[xValue]; pointStackTotal = pointStack.total; pointStack.cum = yBottom = pointStack.cum - yValue; // start from top yValue = yBottom + yValue; if (isLastSeries) { yBottom = options.threshold; } if (stacking === 'percent') { yBottom = pointStackTotal ? yBottom * 100 / pointStackTotal : 0; yValue = pointStackTotal ? yValue * 100 / pointStackTotal : 0; } point.percentage = pointStackTotal ? point.y * 100 / pointStackTotal : 0; point.stackTotal = pointStackTotal; point.stackY = yValue; } // 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 = (typeof yValue === 'number') ? mathRound(yAxis.translate(yValue, 0, 1, 0, 1) * 10) / 10 : // Math.round fixes #591 UNDEFINED; // set client related positions for mouse tracking point.clientX = chart.inverted ? chart.plotHeight - point.plotX : point.plotX; // for mouse tracking // some API data point.category = categories && categories[point.x] !== UNDEFINED ? categories[point.x] : point.x; } // now that we have the cropped data, build the segments series.getSegments(); }, /** * Memoize tooltip texts and positions */ setTooltipPoints: function (renew) { var series = this, chart = series.chart, inverted = chart.inverted, points = [], pointsLength, plotSize = mathRound((inverted ? chart.plotTop : chart.plotLeft) + chart.plotSizeX), low, high, xAxis = series.xAxis, point, i, tooltipPoints = []; // a lookup array for each pixel in the x dimension // don't waste resources if tracker is disabled if (series.options.enableMouseTracking === false) { return; } // renew if (renew) { series.tooltipPoints = null; } // concat segments to overcome null values each(series.segments || series.points, function (segment) { points = points.concat(segment); }); // loop the concatenated points and apply each point to all the closest // pixel positions if (xAxis && xAxis.reversed) { points = points.reverse();//reverseArray(points); } //each(points, function (point, i) { pointsLength = points.length; for (i = 0; i < pointsLength; i++) { point = points[i]; low = points[i - 1] ? points[i - 1]._high + 1 : 0; high = point._high = points[i + 1] ? (mathFloor((point.plotX + (points[i + 1] ? points[i + 1].plotX : plotSize)) / 2)) : plotSize; while (low <= high) { tooltipPoints[inverted ? plotSize - low++ : low++] = point; } } series.tooltipPoints = tooltipPoints; }, /** * Format the header of the tooltip */ tooltipHeaderFormatter: function (key) { var series = this, tooltipOptions = series.tooltipOptions, xDateFormat = tooltipOptions.xDateFormat || '%A, %b %e, %Y', xAxis = series.xAxis, isDateTime = xAxis && xAxis.options.type === 'datetime'; return tooltipOptions.headerFormat .replace('{point.key}', isDateTime ? dateFormat(xDateFormat, key) : key) .replace('{series.name}', series.name) .replace('{series.color}', series.color); }, /** * Series mouse over handler */ onMouseOver: function () { var series = this, chart = series.chart, hoverSeries = chart.hoverSeries; if (!hasTouch && chart.mouseIsDown) { return; } // 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; // 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) { tooltip.hide(); } // set normal state series.setState(); chart.hoverSeries = null; }, /** * Animate in the series */ animate: function (init) { var series = this, chart = series.chart, clipRect = series.clipRect, animation = series.options.animation; if (animation && !isObject(animation)) { animation = {}; } if (init) { // initialize the animation if (!clipRect.isAnimating) { // apply it only for one of the series clipRect.attr('width', 0); clipRect.isAnimating = true; } } else { // run the animation clipRect.animate({ width: chart.plotSizeX }, animation); // delete this function to allow it only once this.animate = null; } }, /** * Draw the markers */ drawPoints: function () { var series = this, pointAttr, points = series.points, chart = series.chart, plotX, plotY, i, point, radius, symbol, isImage, graphic; if (series.options.marker.enabled) { i = points.length; while (i--) { point = points[i]; plotX = point.plotX; plotY = point.plotY; graphic = point.graphic; // only draw the point if y is defined if (plotY !== UNDEFINED && !isNaN(plotY)) { // shortcuts pointAttr = point.pointAttr[point.selected ? SELECT_STATE : NORMAL_STATE]; radius = pointAttr.r; symbol = pick(point.marker && point.marker.symbol, series.symbol); isImage = symbol.indexOf('url') === 0; if (graphic) { // update graphic.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 (radius > 0 || isImage) { point.graphic = chart.renderer.symbol( symbol, plotX - radius, plotY - radius, 2 * radius, 2 * radius ) .attr(pointAttr) .add(series.group); } } } } }, /** * Convert state properties from API naming conventions to SVG attributes * * @param {Object} options API options object * @param {Object} base1 SVG attribute object to inherit from * @param {Object} base2 Second level SVG attribute object to inherit from */ convertAttribs: function (options, base1, base2, base3) { var conversion = this.pointAttrToOptions, attr, option, obj = {}; options = options || {}; base1 = base1 || {}; base2 = base2 || {}; base3 = base3 || {}; for (attr in conversion) { option = conversion[attr]; obj[attr] = pick(options[option], base1[attr], base2[attr], base3[attr]); } return obj; }, /** * Get the state attributes. Each series type has its own set of attributes * that are allowed to change on a point's state change. Series wide attributes are stored for * all series, and additionally point specific attributes are stored for all * points with individual marker options. If such options are not defined for the point, * a reference to the series wide attributes is stored in point.pointAttr. */ getAttribs: function () { var series = this, normalOptions = defaultPlotOptions[series.type].marker ? series.options.marker : series.options, stateOptions = normalOptions.states, stateOptionsHover = stateOptions[HOVER_STATE], pointStateOptionsHover, seriesColor = series.color, normalDefaults = { stroke: seriesColor, fill: seriesColor }, points = series.points, i, point, seriesPointAttr = [], pointAttr, pointAttrToOptions = series.pointAttrToOptions, hasPointSpecificOptions, key; // series type specific modifications if (series.options.marker) { // line, spline, area, areaspline, scatter // if no hover radius is given, default to normal radius + 2 stateOptionsHover.radius = stateOptionsHover.radius || normalOptions.radius + 2; stateOptionsHover.lineWidth = stateOptionsHover.lineWidth || normalOptions.lineWidth + 1; } else { // column, bar, pie // if no hover color is given, brighten the normal color stateOptionsHover.color = stateOptionsHover.color || Color(stateOptionsHover.color || seriesColor) .brighten(stateOptionsHover.brightness).get(); } // general point attributes for the series normal state seriesPointAttr[NORMAL_STATE] = series.convertAttribs(normalOptions, normalDefaults); // HOVER_STATE and SELECT_STATE states inherit from normal state except the default radius each([HOVER_STATE, SELECT_STATE], function (state) { seriesPointAttr[state] = series.convertAttribs(stateOptions[state], seriesPointAttr[NORMAL_STATE]); }); // set it series.pointAttr = seriesPointAttr; // Generate the point-specific attribute collections if specific point // options are given. If not, create a referance to the series wide point // attributes i = points.length; while (i--) { point = points[i]; normalOptions = (point.options && point.options.marker) || point.options; if (normalOptions && normalOptions.enabled === false) { normalOptions.radius = 0; } hasPointSpecificOptions = false; // check if the point has specific visual options if (point.options) { for (key in pointAttrToOptions) { if (defined(normalOptions[pointAttrToOptions[key]])) { hasPointSpecificOptions = true; } } } // a specific marker config object is defined for the individual point: // create it's own attribute collection if (hasPointSpecificOptions) { pointAttr = []; stateOptions = normalOptions.states || {}; // reassign for individual point pointStateOptionsHover = stateOptions[HOVER_STATE] = stateOptions[HOVER_STATE] || {}; // if no hover color is given, brighten the normal color if (!series.options.marker) { // column, bar, point pointStateOptionsHover.color = Color(pointStateOptionsHover.color || point.options.color) .brighten(pointStateOptionsHover.brightness || stateOptionsHover.brightness).get(); } // normal point state inherits series wide normal state pointAttr[NORMAL_STATE] = series.convertAttribs(normalOptions, seriesPointAttr[NORMAL_STATE]); // inherit from point normal and series hover pointAttr[HOVER_STATE] = series.convertAttribs( stateOptions[HOVER_STATE], seriesPointAttr[HOVER_STATE], pointAttr[NORMAL_STATE] ); // inherit from point normal and series hover pointAttr[SELECT_STATE] = series.convertAttribs( stateOptions[SELECT_STATE], seriesPointAttr[SELECT_STATE], pointAttr[NORMAL_STATE] ); // no marker config object is created: copy a reference to the series-wide // attribute collection } else { pointAttr = seriesPointAttr; } point.pointAttr = pointAttr; } }, /** * Clear DOM objects and free up memory */ destroy: function () { var series = this, chart = series.chart, seriesClipRect = series.clipRect, 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(['xAxis', 'yAxis'], function (AXIS) { axis = series[AXIS]; if (axis) { erase(axis.series, series); axis.isDirty = 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; // If this series clipRect is not the global one (which is removed on chart.destroy) we // destroy it here. if (seriesClipRect && seriesClipRect !== chart.clipRect) { series.clipRect = seriesClipRect.destroy(); } // destroy all SVGElements associated to the series each(['area', 'graph', 'dataLabelsGroup', 'group', 'tracker'], function (prop) { if (series[prop]) { // 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]; } }, /** * Draw the data labels */ drawDataLabels: function () { var series = this, seriesOptions = series.options, options = seriesOptions.dataLabels; if (options.enabled || series._hasPointLabels) { var x, y, points = series.points, pointOptions, generalOptions, str, dataLabelsGroup = series.dataLabelsGroup, chart = series.chart, xAxis = series.xAxis, groupLeft = xAxis ? xAxis.left : chart.plotLeft, yAxis = series.yAxis, groupTop = yAxis ? yAxis.top : chart.plotTop, renderer = chart.renderer, inverted = chart.inverted, seriesType = series.type, stacking = seriesOptions.stacking, isBarLike = seriesType === 'column' || seriesType === 'bar', vAlignIsNull = options.verticalAlign === null, yIsNull = options.y === null, fontMetrics = renderer.fontMetrics(options.style.fontSize), // height and baseline fontLineHeight = fontMetrics.h, fontBaseline = fontMetrics.b, dataLabel, enabled; if (isBarLike) { var defaultYs = { top: fontBaseline, middle: fontBaseline - fontLineHeight / 2, bottom: -fontLineHeight + fontBaseline }; if (stacking) { // In stacked series the default label placement is inside the bars if (vAlignIsNull) { options = merge(options, {verticalAlign: 'middle'}); } // If no y delta is specified, try to create a good default if (yIsNull) { options = merge(options, { y: defaultYs[options.verticalAlign]}); } } else { // In non stacked series the default label placement is on top of the bars if (vAlignIsNull) { options = merge(options, {verticalAlign: 'top'}); // If no y delta is specified, try to create a good default (like default bar) } else if (yIsNull) { options = merge(options, { y: defaultYs[options.verticalAlign]}); } } } // create a separate group for the data labels to avoid rotation if (!dataLabelsGroup) { dataLabelsGroup = series.dataLabelsGroup = renderer.g('data-labels') .attr({ visibility: series.visible ? VISIBLE : HIDDEN, zIndex: 6 }) .translate(groupLeft, groupTop) .add(); } else { dataLabelsGroup.translate(groupLeft, groupTop); } // make the labels for each point generalOptions = options; each(points, function (point) { dataLabel = point.dataLabel; // Merge in individual options from point options = generalOptions; // reset changes from previous points pointOptions = point.options; if (pointOptions && pointOptions.dataLabels) { options = merge(options, pointOptions.dataLabels); } enabled = options.enabled; // Get the positions if (enabled) { var plotX = (point.barX && point.barX + point.barW / 2) || pick(point.plotX, -999), plotY = pick(point.plotY, -999), // if options.y is null, which happens by default on column charts, set the position // above or below the column depending on the threshold individualYDelta = options.y === null ? (point.y >= seriesOptions.threshold ? -fontLineHeight + fontBaseline : // below the threshold fontBaseline) : // above the threshold options.y; x = (inverted ? chart.plotWidth - plotY : plotX) + options.x; y = mathRound((inverted ? chart.plotHeight - plotX : plotY) + individualYDelta); } // If the point is outside the plot area, destroy it. #678, #820 if (dataLabel && series.isCartesian && (!chart.isInsidePlot(x, y) || !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) { var align = options.align; // Get the string str = options.formatter.call(point.getLabelConfig(), options); // in columns, align the string to the column if (seriesType === 'column') { x += { left: -1, right: 1 }[align] * point.barW / 2 || 0; } if (!stacking && inverted && point.y < 0) { align = 'right'; x -= 10; } // Determine the color options.style.color = pick(options.color, options.style.color, series.color, 'black'); // update existing label if (dataLabel) { // vertically centered dataLabel .attr({ text: str }).animate({ x: x, y: y }); // create new label } else if (defined(str)) { dataLabel = point.dataLabel = renderer[options.rotation ? 'text' : 'label']( // labels don't support rotation str, x, y, null, null, null, options.useHTML, true // baseline for backwards compat ) .attr({ align: align, fill: options.backgroundColor, stroke: options.borderColor, 'stroke-width': options.borderWidth, r: options.borderRadius, rotation: options.rotation, padding: options.padding, zIndex: 1 }) .css(options.style) .add(dataLabelsGroup) .shadow(options.shadow); } if (isBarLike && seriesOptions.stacking && dataLabel) { var barX = point.barX, barY = point.barY, barW = point.barW, barH = point.barH; dataLabel.align(options, null, { x: inverted ? chart.plotWidth - barY - barH : barX, y: inverted ? chart.plotHeight - barX - barW : barY, width: inverted ? barH : barW, height: inverted ? barW : barH }); } } }); } }, /** * Draw the actual graph */ drawGraph: function () { var series = this, options = series.options, chart = series.chart, graph = series.graph, graphPath = [], fillColor, area = series.area, group = series.group, color = options.lineColor || series.color, lineWidth = options.lineWidth, dashStyle = options.dashStyle, segmentPath, renderer = chart.renderer, translatedThreshold = series.yAxis.getThreshold(options.threshold), useArea = /^area/.test(series.type), singlePoints = [], // used in drawTracker areaPath = [], attribs; // divide into segments and build graph and area paths each(series.segments, function (segment) { segmentPath = []; // build the segment line each(segment, function (point, i) { 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 (i && options.step) { var lastPoint = segment[i - 1]; segmentPath.push( point.plotX, lastPoint.plotY ); } // normal line to next point segmentPath.push( point.plotX, point.plotY ); } }); // 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]); } // build the area if (useArea) { var areaSegmentPath = [], i, segLength = segmentPath.length; for (i = 0; i < segLength; i++) { areaSegmentPath.push(segmentPath[i]); } if (segLength === 3) { // for animation from 1 to two points areaSegmentPath.push(L, segmentPath[1], segmentPath[2]); } if (options.stacking && series.type !== 'areaspline') { // 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--) { // step line? if (i < segment.length - 1 && options.step) { areaSegmentPath.push(segment[i + 1].plotX, segment[i].yBottom); } areaSegmentPath.push(segment[i].plotX, segment[i].yBottom); } } else { // follow zero line back areaSegmentPath.push( L, segment[segment.length - 1].plotX, translatedThreshold, L, segment[0].plotX, translatedThreshold ); } areaPath = areaPath.concat(areaSegmentPath); } }); // used in drawTracker: series.graphPath = graphPath; series.singlePoints = singlePoints; // draw the area if area series or areaspline if (useArea) { fillColor = pick( options.fillColor, Color(series.color).setOpacity(options.fillOpacity || 0.75).get() ); if (area) { area.animate({ d: areaPath }); } else { // draw the area series.area = series.chart.renderer.path(areaPath) .attr({ fill: fillColor }).add(group); } } // draw the graph if (graph) { stop(graph); // cancel running animations, #459 graph.animate({ d: graphPath }); } else { if (lineWidth) { attribs = { 'stroke': color, 'stroke-width': lineWidth }; if (dashStyle) { attribs.dashstyle = dashStyle; } series.graph = renderer.path(graphPath) .attr(attribs).add(group).shadow(options.shadow); } } }, /** * Initialize and perform group inversion on series.group and series.trackerGroup */ invertGroups: function () { var series = this, group = series.group, trackerGroup = series.trackerGroup, chart = series.chart; // A fixed size is needed for inversion to work function setInvert() { var size = { width: series.yAxis.len, height: series.xAxis.len }; // Set the series.group size group.attr(size).invert(); // Set the tracker group size if (trackerGroup) { trackerGroup.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; }, /** * Render the graph and markers */ render: function () { var series = this, chart = series.chart, group, options = series.options, doClip = options.clip !== false, animation = options.animation, doAnimation = animation && series.animate, duration = doAnimation ? (animation && animation.duration) || 500 : 0, clipRect = series.clipRect, renderer = chart.renderer; // Add plot area clipping rectangle. If this is before chart.hasRendered, // create one shared clipRect. // Todo: since creating the clip property, the clipRect is created but // never used when clip is false. A better way would be that the animation // would run, then the clipRect destroyed. if (!clipRect) { clipRect = series.clipRect = !chart.hasRendered && chart.clipRect ? chart.clipRect : renderer.clipRect(0, 0, chart.plotSizeX, chart.plotSizeY + 1); if (!chart.clipRect) { chart.clipRect = clipRect; } } // the group if (!series.group) { group = series.group = renderer.g('series'); group.attr({ visibility: series.visible ? VISIBLE : HIDDEN, zIndex: options.zIndex }) .translate(series.xAxis.left, series.yAxis.top) .add(chart.seriesGroup); } series.drawDataLabels(); // initiate the animation if (doAnimation) { series.animate(true); } // cache attributes for shapes series.getAttribs(); // draw the graph if any if (series.drawGraph) { series.drawGraph(); } // draw the points series.drawPoints(); // draw the mouse tracking area if (series.options.enableMouseTracking !== false) { series.drawTracker(); } // Handle inverted series and tracker groups if (chart.inverted) { series.invertGroups(); } // Do the initial clipping. This must be done after inverting for VML. if (doClip && !series.hasRendered) { group.clip(clipRect); if (series.trackerGroup) { series.trackerGroup.clip(chart.clipRect); } } // run the animation if (doAnimation) { series.animate(); } // finish the individual clipRect setTimeout(function () { clipRect.isAnimating = false; group = series.group; // can be destroyed during the timeout if (group && clipRect !== chart.clipRect && clipRect.renderer) { if (doClip) { group.clip((series.clipRect = chart.clipRect)); } clipRect.destroy(); } }, duration); 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 group = series.group; // reposition on resize if (group) { if (chart.inverted) { group.attr({ width: chart.plotWidth, height: chart.plotHeight }); } group.animate({ translateX: series.xAxis.left, translateY: series.yAxis.top }); } series.translate(); series.setTooltipPoints(true); series.render(); if (wasDirtyData) { fireEvent(series, 'updatedData'); } }, /** * Set the state of the graph */ setState: function (state) { var series = this, options = series.options, graph = series.graph, stateOptions = options.states, lineWidth = options.lineWidth; state = state || NORMAL_STATE; if (series.state !== state) { series.state = state; if (stateOptions[state] && stateOptions[state].enabled === false) { return; } if (state) { lineWidth = stateOptions[state].lineWidth || lineWidth + 1; } if (graph && !graph.dashstyle) { // hover is turned off for dashed lines in VML graph.attr({ // use attr because animate will cause any other animation on the graph to stop 'stroke-width': lineWidth }, state ? 0 : 500); } } }, /** * Set the visibility of the graph * * @param vis {Boolean} True to show the series, false to hide. If UNDEFINED, * the visibility is toggled. */ setVisible: function (vis, redraw) { var series = this, chart = series.chart, legendItem = series.legendItem, seriesGroup = series.group, seriesTracker = series.tracker, dataLabelsGroup = series.dataLabelsGroup, showOrHide, i, points = series.points, point, ignoreHiddenSeries = chart.options.chart.ignoreHiddenSeries, oldVisibility = series.visible; // if called without an argument, toggle visibility series.visible = vis = vis === UNDEFINED ? !oldVisibility : vis; showOrHide = vis ? 'show' : 'hide'; // show or hide series if (seriesGroup) { // pies don't have one seriesGroup[showOrHide](); } // show or hide trackers if (seriesTracker) { seriesTracker[showOrHide](); } else if (points) { i = points.length; while (i--) { point = points[i]; if (point.tracker) { point.tracker[showOrHide](); } } } if (dataLabelsGroup) { dataLabelsGroup[showOrHide](); } 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; } }); } 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'); }, /** * Create a group that holds the tracking object or objects. This allows for * individual clipping and placement of each series tracker. */ drawTrackerGroup: function () { var trackerGroup = this.trackerGroup, chart = this.chart; if (this.isCartesian) { // Generate it on first call if (!trackerGroup) { this.trackerGroup = trackerGroup = chart.renderer.g() .attr({ zIndex: this.options.zIndex || 1 }) .add(chart.trackerGroup); } // Place it on first and subsequent (redraw) calls trackerGroup.translate(this.xAxis.left, this.yAxis.top); } return trackerGroup; }, /** * Draw the tracker object that sits above all data labels and markers to * track mouse events on the graph or points. For the line type charts * the tracker uses the same graphPath, but with a greater stroke width * for better control. */ drawTracker: function () { var series = this, options = series.options, trackerPath = [].concat(series.graphPath), trackerPathLength = trackerPath.length, chart = series.chart, renderer = chart.renderer, snap = chart.options.tooltip.snap, tracker = series.tracker, cursor = options.cursor, css = cursor && { cursor: cursor }, singlePoints = series.singlePoints, trackerGroup = series.drawTrackerGroup(), singlePoint, i; // Extend end points. A better way would be to use round linecaps, // but those are not clickable in VML. if (trackerPathLength) { 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({ isTracker: true, stroke: TRACKER_FILL, fill: NONE, 'stroke-linejoin': 'bevel', 'stroke-width' : options.lineWidth + 2 * snap, visibility: series.visible ? VISIBLE : HIDDEN }) .on(hasTouch ? 'touchstart' : 'mouseover', function () { if (chart.hoverSeries !== series) { series.onMouseOver(); } }) .on('mouseout', function () { if (!options.stickyTracking) { series.onMouseOut(); } }) .css(css) .add(trackerGroup); } } }; // end Series prototype /** * LineSeries object */ var LineSeries = extendClass(Series); seriesTypes.line = LineSeries; /** * AreaSeries object */ var AreaSeries = extendClass(Series, { type: 'area' }); seriesTypes.area = AreaSeries; /** * SplineSeries object */ var SplineSeries = extendClass(Series, { type: 'spline', /** * Draw the actual graph */ 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 (i && i < segment.length - 1) { 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; } // 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; /** * AreaSplineSeries object */ var AreaSplineSeries = extendClass(SplineSeries, { type: 'areaspline' }); seriesTypes.areaspline = AreaSplineSeries; /** * ColumnSeries object */ var ColumnSeries = extendClass(Series, { type: 'column', tooltipOutsidePlot: true, pointAttrToOptions: { // mapping between SVG attributes and the corresponding options stroke: 'borderColor', 'stroke-width': 'borderWidth', fill: 'color', r: 'borderRadius' }, init: function () { Series.prototype.init.apply(this, arguments); var series = this, chart = series.chart; // if the series is added dynamically, force redraw of other // series affected by a new column if (chart.hasRendered) { each(chart.series, function (otherSeries) { if (otherSeries.type === series.type) { otherSeries.isDirty = true; } }); } }, /** * Translate each point to the plot area coordinate system and find shape positions */ translate: function () { var series = this, chart = series.chart, options = series.options, stacking = options.stacking, borderWidth = options.borderWidth, columnCount = 0, xAxis = series.xAxis, reversedXAxis = xAxis.reversed, stackGroups = {}, stackKey, columnIndex; Series.prototype.translate.apply(series); // Get the total number of column type series. // This is called on every series. Consider moving this logic to a // chart.orderStacks() function and call it on init, addSeries and removeSeries each(chart.series, function (otherSeries) { if (otherSeries.type === series.type && otherSeries.visible && series.options.group === otherSeries.options.group) { // used in Stock charts navigator series if (otherSeries.options.stacking) { stackKey = otherSeries.stackKey; if (stackGroups[stackKey] === UNDEFINED) { stackGroups[stackKey] = columnCount++; } columnIndex = stackGroups[stackKey]; } else { columnIndex = columnCount++; } otherSeries.columnIndex = columnIndex; } }); // calculate the width and position of each column based on // the number of column series in the plot, the groupPadding // and the pointPadding options var points = series.points, categoryWidth = mathAbs(xAxis.translationSlope) * (xAxis.ordinalSlope || xAxis.closestPointRange || 1), groupPadding = categoryWidth * options.groupPadding, groupWidth = categoryWidth - 2 * groupPadding, pointOffsetWidth = groupWidth / columnCount, optionPointWidth = options.pointWidth, pointPadding = defined(optionPointWidth) ? (pointOffsetWidth - optionPointWidth) / 2 : pointOffsetWidth * options.pointPadding, pointWidth = mathCeil(mathMax(pick(optionPointWidth, pointOffsetWidth - 2 * pointPadding), 1 + 2 * borderWidth)), colIndex = (reversedXAxis ? columnCount - series.columnIndex : series.columnIndex) || 0, pointXOffset = pointPadding + (groupPadding + colIndex * pointOffsetWidth - (categoryWidth / 2)) * (reversedXAxis ? -1 : 1), threshold = options.threshold, translatedThreshold = series.yAxis.getThreshold(threshold), minPointLength = pick(options.minPointLength, 5); // record the new values each(points, function (point) { var plotY = point.plotY, yBottom = pick(point.yBottom, translatedThreshold), barX = point.plotX + pointXOffset, barY = mathCeil(mathMin(plotY, yBottom)), barH = mathCeil(mathMax(plotY, yBottom) - barY), stack = series.yAxis.stacks[(point.y < 0 ? '-' : '') + series.stackKey], shapeArgs; // Record the offset'ed position and width of the bar to be able to align the stacking total correctly if (stacking && series.visible && stack && stack[point.x]) { stack[point.x].setOffset(pointXOffset, pointWidth); } // handle options.minPointLength if (mathAbs(barH) < minPointLength) { if (minPointLength) { barH = minPointLength; barY = mathAbs(barY - translatedThreshold) > minPointLength ? // stacked yBottom - minPointLength : // keep position translatedThreshold - (plotY <= translatedThreshold ? minPointLength : 0); } } extend(point, { barX: barX, barY: barY, barW: pointWidth, barH: barH }); // create shape type and shape args that are reused in drawPoints and drawTracker point.shapeType = 'rect'; shapeArgs = { x: barX, y: barY, width: pointWidth, height: barH, r: options.borderRadius, strokeWidth: borderWidth }; if (borderWidth % 2) { // correct for shorting in crisp method, visible in stacked columns with 1px border shapeArgs.y -= 1; shapeArgs.height += 1; } point.shapeArgs = shapeArgs; // make small columns responsive to mouse point.trackerArgs = mathAbs(barH) < 3 && merge(point.shapeArgs, { height: 6, y: barY - 3 }); }); }, getSymbol: function () { }, /** * Columns have no graph */ drawGraph: function () {}, /** * Draw the columns. For bars, the series.group is rotated, so the same coordinates * apply for columns and bars. This method is inherited by scatter series. * */ drawPoints: function () { var series = this, options = series.options, renderer = series.chart.renderer, graphic, shapeArgs; // draw the columns each(series.points, function (point) { var plotY = point.plotY; if (plotY !== UNDEFINED && !isNaN(plotY) && point.y !== null) { graphic = point.graphic; shapeArgs = point.shapeArgs; if (graphic) { // update stop(graphic); graphic.animate(renderer.Element.prototype.crisp.apply({}, [ shapeArgs.strokeWidth, shapeArgs.x, shapeArgs.y, shapeArgs.width, shapeArgs.height ])); } else { point.graphic = graphic = renderer[point.shapeType](shapeArgs) .attr(point.pointAttr[point.selected ? SELECT_STATE : NORMAL_STATE]) .add(series.group) .shadow(options.shadow); } } }); }, /** * Draw the individual tracker elements. * This method is inherited by scatter and pie charts too. */ drawTracker: function () { var series = this, chart = series.chart, renderer = chart.renderer, shapeArgs, tracker, trackerLabel = +new Date(), options = series.options, cursor = options.cursor, css = cursor && { cursor: cursor }, trackerGroup = series.drawTrackerGroup(), rel; each(series.points, function (point) { tracker = point.tracker; shapeArgs = point.trackerArgs || point.shapeArgs; delete shapeArgs.strokeWidth; if (point.y !== null) { if (tracker) {// update tracker.attr(shapeArgs); } else { point.tracker = renderer[point.shapeType](shapeArgs) .attr({ isTracker: trackerLabel, fill: TRACKER_FILL, visibility: series.visible ? VISIBLE : HIDDEN }) .on(hasTouch ? 'touchstart' : 'mouseover', function (event) { rel = event.relatedTarget || event.fromElement; if (chart.hoverSeries !== series && attr(rel, 'isTracker') !== trackerLabel) { series.onMouseOver(); } point.onMouseOver(); }) .on('mouseout', function (event) { if (!options.stickyTracking) { rel = event.relatedTarget || event.toElement; if (attr(rel, 'isTracker') !== trackerLabel) { series.onMouseOut(); } } }) .css(css) .add(point.group || trackerGroup); // pies have point group - see issue #118 } } }); }, /** * 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, points = series.points, options = series.options; if (!init) { // run the animation /* * Note: Ideally the animation should be initialized by calling * series.group.hide(), and then calling series.group.show() * after the animation was started. But this rendered the shadows * invisible in IE8 standards mode. If the columns flicker on large * datasets, this is the cause. */ each(points, function (point) { var graphic = point.graphic, shapeArgs = point.shapeArgs, yAxis = series.yAxis, threshold = options.threshold; if (graphic) { // start values graphic.attr({ height: 0, y: defined(threshold) ? yAxis.getThreshold(threshold) : yAxis.translate(yAxis.getExtremes().min, 0, 1, 0, 1) }); // animate graphic.animate({ height: shapeArgs.height, y: shapeArgs.y }, 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; var BarSeries = extendClass(ColumnSeries, { type: 'bar', init: function () { this.inverted = true; ColumnSeries.prototype.init.apply(this, arguments); } }); seriesTypes.bar = BarSeries; /** * The scatter series class */ var ScatterSeries = extendClass(Series, { type: 'scatter', sorted: false, /** * Extend the base Series' translate method by adding shape type and * arguments for the point trackers */ translate: function () { var series = this; Series.prototype.translate.apply(series); each(series.points, function (point) { point.shapeType = 'circle'; point.shapeArgs = { x: point.plotX, y: point.plotY, r: series.chart.options.tooltip.snap }; }); }, /** * Add tracking event listener to the series group, so the point graphics * themselves act as trackers */ drawTracker: function () { var series = this, cursor = series.options.cursor, css = cursor && { cursor: cursor }, points = series.points, i = points.length, graphic; // Set an expando property for the point index, used below while (i--) { graphic = points[i].graphic; if (graphic) { // doesn't exist for null points graphic.element._i = i; } } // Add the event listeners, we need to do this only once if (!series._hasTracking) { series.group .attr({ isTracker: true }) .on(hasTouch ? 'touchstart' : 'mouseover', function (e) { series.onMouseOver(); if (e.target._i !== UNDEFINED) { // undefined on graph in scatterchart points[e.target._i].onMouseOver(); } }) .on('mouseout', function () { if (!series.options.stickyTracking) { series.onMouseOut(); } }) .css(css); } else { series._hasTracking = true; } } }); seriesTypes.scatter = ScatterSeries; /** * Extended point object for pies */ var PiePoint = extendClass(Point, { /** * Initiate the pie slice */ init: function () { Point.prototype.init.apply(this, arguments); var point = this, toggleSlice; //visible: options.visible !== false, extend(point, { visible: point.visible !== false, name: pick(point.name, 'Slice') }); // add event listener for select toggleSlice = function () { point.slice(); }; addEvent(point, 'select', toggleSlice); addEvent(point, 'unselect', toggleSlice); return point; }, /** * Toggle the visibility of the pie slice * @param {Boolean} vis Whether to show the slice or not. If undefined, the * visibility is toggled */ setVisible: function (vis) { var point = this, chart = point.series.chart, tracker = point.tracker, dataLabel = point.dataLabel, connector = point.connector, shadowGroup = point.shadowGroup, method; // if called without an argument, toggle visibility point.visible = vis = vis === UNDEFINED ? !point.visible : vis; method = vis ? 'show' : 'hide'; point.group[method](); if (tracker) { tracker[method](); } if (dataLabel) { dataLabel[method](); } if (connector) { connector[method](); } if (shadowGroup) { shadowGroup[method](); } if (point.legendItem) { chart.legend.colorizeItem(point, vis); } }, /** * Set or toggle whether the slice is cut out from the pie * @param {Boolean} sliced When undefined, the slice state is toggled * @param {Boolean} redraw Whether to redraw the chart. True by default. */ slice: function (sliced, redraw, animation) { var point = this, series = point.series, chart = series.chart, slicedTranslation = point.slicedTranslation, translation; setAnimation(animation, chart); // redraw is true by default redraw = pick(redraw, true); // if called without an argument, toggle sliced = point.sliced = defined(sliced) ? sliced : !point.sliced; translation = { translateX: (sliced ? slicedTranslation[0] : chart.plotLeft), translateY: (sliced ? slicedTranslation[1] : chart.plotTop) }; point.group.animate(translation); if (point.shadowGroup) { point.shadowGroup.animate(translation); } } }); /** * The Pie series class */ var PieSeries = extendClass(Series, { type: 'pie', isCartesian: false, pointClass: PiePoint, pointAttrToOptions: { // mapping between SVG attributes and the corresponding options stroke: 'borderColor', 'stroke-width': 'borderWidth', fill: 'color' }, /** * Pies have one color each point */ getColor: function () { // record first color for use in setData this.initialColor = this.chart.counters.color; }, /** * Animate the column heights one by one from zero */ animate: function () { var series = this, points = series.points; each(points, function (point) { var graphic = point.graphic, args = point.shapeArgs, up = -mathPI / 2; if (graphic) { // start values graphic.attr({ r: 0, start: up, end: up }); // 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; }, /** * Extend the basic setData method by running processData and generatePoints immediately, * in order to access the points from the legend. */ setData: function () { Series.prototype.setData.apply(this, arguments); this.processData(); this.generatePoints(); }, /** * Do translation for pie slices */ translate: function () { this.generatePoints(); var total = 0, series = this, cumulative = -0.25, // start at top precision = 1000, // issue #172 options = series.options, slicedOffset = options.slicedOffset, connectorOffset = slicedOffset + options.borderWidth, positions = options.center.concat([options.size, options.innerSize || 0]), chart = series.chart, plotWidth = chart.plotWidth, plotHeight = chart.plotHeight, start, end, angle, points = series.points, circ = 2 * mathPI, fraction, smallestSize = mathMin(plotWidth, plotHeight), isPercent, radiusX, // the x component of the radius vector for a given point radiusY, labelDistance = options.dataLabels.distance; // get positions - either an integer or a percentage string must be given positions = map(positions, function (length, i) { isPercent = /%$/.test(length); return isPercent ? // i == 0: centerX, relative to width // i == 1: centerY, relative to height // i == 2: size, relative to smallestSize // i == 4: innerSize, relative to smallestSize [plotWidth, plotHeight, smallestSize, smallestSize][i] * pInt(length) / 100 : length; }); // 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((y - positions[1]) / (positions[2] / 2 + labelDistance)); return positions[0] + (left ? -1 : 1) * (mathCos(angle) * (positions[2] / 2 + labelDistance)); }; // set center for later use series.center = positions; // get the total sum each(points, function (point) { total += point.y; }); each(points, function (point) { // set start and end angle fraction = total ? point.y / total : 0; start = mathRound(cumulative * circ * precision) / precision; cumulative += fraction; end = mathRound(cumulative * circ * precision) / precision; // set the shape point.shapeType = 'arc'; point.shapeArgs = { x: positions[0], y: positions[1], r: positions[2] / 2, innerR: positions[3] / 2, start: start, end: end }; // center for the sliced out slice angle = (end + start) / 2; point.slicedTranslation = map([ mathCos(angle) * slicedOffset + chart.plotLeft, mathSin(angle) * slicedOffset + chart.plotTop ], mathRound); // set the anchor point for tooltips radiusX = mathCos(angle) * positions[2] / 2; radiusY = mathSin(angle) * positions[2] / 2; point.tooltipPos = [ positions[0] + radiusX * 0.7, positions[1] + radiusY * 0.7 ]; // set the anchor point for data labels 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' : angle < circ / 4 ? 'left' : 'right', // alignment angle // center angle ]; // API properties point.percentage = fraction * 100; point.total = total; }); this.setTooltipPoints(); }, /** * Render the slices */ render: function () { var series = this; // cache attributes for shapes series.getAttribs(); this.drawPoints(); // draw the mouse tracking area if (series.options.enableMouseTracking !== false) { series.drawTracker(); } this.drawDataLabels(); if (series.options.animation && series.animate) { series.animate(); } // (See #322) series.isDirty = series.isDirtyData = false; // means data is in accordance with what you see series.isDirty = false; // means data is in accordance with what you see }, /** * Draw the data points */ drawPoints: function () { var series = this, chart = series.chart, renderer = chart.renderer, groupTranslation, //center, graphic, group, shadow = series.options.shadow, shadowGroup, shapeArgs; // draw the slices each(series.points, function (point) { graphic = point.graphic; shapeArgs = point.shapeArgs; group = point.group; shadowGroup = point.shadowGroup; // put the shadow behind all points if (shadow && !shadowGroup) { shadowGroup = point.shadowGroup = renderer.g('shadow') .attr({ zIndex: 4 }) .add(); } // create the group the first time if (!group) { group = point.group = renderer.g('point') .attr({ zIndex: 5 }) .add(); } // if the point is sliced, use special translation, else use plot area traslation groupTranslation = point.sliced ? point.slicedTranslation : [chart.plotLeft, chart.plotTop]; group.translate(groupTranslation[0], groupTranslation[1]); if (shadowGroup) { shadowGroup.translate(groupTranslation[0], groupTranslation[1]); } // draw the slice if (graphic) { graphic.animate(shapeArgs); } else { point.graphic = renderer.arc(shapeArgs) .attr(extend( point.pointAttr[NORMAL_STATE], { 'stroke-linejoin': 'round' } )) .add(point.group) .shadow(shadow, shadowGroup); } // detect point specific visibility if (point.visible === false) { point.setVisible(false); } }); }, /** * Override the base drawDataLabels method by pie specific functionality */ 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), connector, connectorPath, softConnector = pick(options.softConnector, true), distanceOption = options.distance, seriesCenter = series.center, radius = seriesCenter[2] / 2, centerY = seriesCenter[1], outside = distanceOption > 0, dataLabel, labelPos, labelHeight, halves = [// divide the points into right and left halves for anti collision [], // right [] // left ], x, y, visibility, rankArr, sort, i = 2, j; // get out if not enabled if (!options.enabled) { return; } // run parent method Series.prototype.drawDataLabels.apply(series); // arrange points for detection collision each(data, function (point) { if (point.dataLabel) { // it may have been cancelled in the base method (#407) halves[ point.labelPos[7] < mathPI / 2 ? 0 : 1 ].push(point); } }); halves[1].reverse(); // define the sorting algorithm sort = function (a, b) { return b.y - a.y; }; // assume equal label heights labelHeight = halves[0][0] && halves[0][0].dataLabel && halves[0][0].dataLabel.getBBox().height; /* Loop over the points in each quartile, starting from the top and bottom * of the pie to detect overlapping labels. */ while (i--) { var slots = [], slotsLength, usedSlots = [], points = halves[i], pos, length = points.length, slotIndex; // build the slots for (pos = centerY - radius - distanceOption; pos <= centerY + radius + distanceOption; pos += labelHeight) { slots.push(pos); // visualize the slot /* var slotX = series.getX(pos, i) + chart.plotLeft - (i ? 100 : 0), slotY = pos + chart.plotTop; if (!isNaN(slotX)) { chart.renderer.rect(slotX, slotY - 7, 100, labelHeight) .attr({ 'stroke-width': 1, stroke: 'silver' }) .add(); chart.renderer.text('Slot '+ (slots.length - 1), slotX, slotY + 4) .attr({ fill: 'silver' }).add(); } // */ } slotsLength = slots.length; // 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++) { point = points[j]; labelPos = point.labelPos; dataLabel = point.dataLabel; var slot = usedSlots.pop(), naturalY = labelPos[1]; visibility = point.visible === false ? HIDDEN : VISIBLE; 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 = 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 = series.getX(slotIndex === 0 || slotIndex === slots.length - 1 ? naturalY : y, i); // move or place the data label dataLabel .attr({ visibility: visibility, align: labelPos[6] })[dataLabel.moved ? 'animate' : 'attr']({ x: x + options.x + ({ left: connectorPadding, right: -connectorPadding }[labelPos[6]] || 0), y: y + options.y }); dataLabel.moved = true; // draw the connector if (outside && connectorWidth) { connector = point.connector; 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: 3 }) .translate(chart.plotLeft, chart.plotTop) .add(); } } } } }, /** * Draw point specific tracker objects. Inherit directly from column series. */ drawTracker: ColumnSeries.prototype.drawTracker, /** * Pies don't have point marker symbols */ getSymbol: function () {} }); seriesTypes.pie = PieSeries; // global variables extend(Highcharts, { Chart: Chart, dateFormat: dateFormat, pathAnim: pathAnim, getOptions: getOptions, hasBidiBug: hasBidiBug, numberFormat: numberFormat, Point: Point, Color: Color, Renderer: Renderer, SVGRenderer: SVGRenderer, VMLRenderer: VMLRenderer, CanVGRenderer: CanVGRenderer, seriesTypes: seriesTypes, setOptions: setOptions, Series: Series, // Expose utility funcitons for modules addEvent: addEvent, removeEvent: removeEvent, createElement: createElement, discardElement: discardElement, css: css, each: each, extend: extend, map: map, merge: merge, pick: pick, splat: splat, extendClass: extendClass, placeBox: placeBox, product: 'Highcharts', version: '2.2.1' }); }());