/** * @license Highcharts Gantt JS v11.4.1 (2024-04-04) * * (c) 2017-2024 Lars Cabrera, Torstein Honsi, Jon Arild Nygard & Oystein Moseng * * License: www.highcharts.com/license */ (function (root, factory) { if (typeof module === 'object' && module.exports) { factory['default'] = factory; module.exports = (root && root.document) ? factory(root) : factory; } else if (typeof define === 'function' && define.amd) { define('highcharts/highcharts-gantt', function () { return factory(root); }); } else { if (root.Highcharts) { root.Highcharts.error(16, true); } root.Highcharts = factory(root); } }(typeof window !== 'undefined' ? window : this, function (window) { 'use strict'; var _modules = {}; function _registerModule(obj, path, args, fn) { if (!obj.hasOwnProperty(path)) { obj[path] = fn.apply(null, args); if (typeof CustomEvent === 'function') { window.dispatchEvent(new CustomEvent( 'HighchartsModuleLoaded', { detail: { path: path, module: obj[path] } } )); } } } _registerModule(_modules, 'Core/Globals.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Namespace * * */ /** * Shared Highcharts properties. * @private */ var Globals; (function (Globals) { /* * * * Constants * * */ Globals.SVG_NS = 'http://www.w3.org/2000/svg', Globals.product = 'Highcharts', Globals.version = '11.4.1', Globals.win = (typeof window !== 'undefined' ? window : {}), // eslint-disable-line node/no-unsupported-features/es-builtins Globals.doc = Globals.win.document, Globals.svg = (Globals.doc && Globals.doc.createElementNS && !!Globals.doc.createElementNS(Globals.SVG_NS, 'svg').createSVGRect), Globals.userAgent = (Globals.win.navigator && Globals.win.navigator.userAgent) || '', Globals.isChrome = Globals.userAgent.indexOf('Chrome') !== -1, Globals.isFirefox = Globals.userAgent.indexOf('Firefox') !== -1, Globals.isMS = /(edge|msie|trident)/i.test(Globals.userAgent) && !Globals.win.opera, Globals.isSafari = !Globals.isChrome && Globals.userAgent.indexOf('Safari') !== -1, Globals.isTouchDevice = /(Mobile|Android|Windows Phone)/.test(Globals.userAgent), Globals.isWebKit = Globals.userAgent.indexOf('AppleWebKit') !== -1, Globals.deg2rad = Math.PI * 2 / 360, Globals.hasBidiBug = (Globals.isFirefox && parseInt(Globals.userAgent.split('Firefox/')[1], 10) < 4 // Issue #38 ), Globals.marginNames = [ 'plotTop', 'marginRight', 'marginBottom', 'plotLeft' ], Globals.noop = function () { }, Globals.supportsPassiveEvents = (function () { // Checks whether the browser supports passive events, (#11353). let supportsPassive = false; // Object.defineProperty doesn't work on IE as well as passive // events - instead of using polyfill, we can exclude IE totally. if (!Globals.isMS) { const opts = Object.defineProperty({}, 'passive', { get: function () { supportsPassive = true; } }); if (Globals.win.addEventListener && Globals.win.removeEventListener) { Globals.win.addEventListener('testPassive', Globals.noop, opts); Globals.win.removeEventListener('testPassive', Globals.noop, opts); } } return supportsPassive; }()); /** * An array containing the current chart objects in the page. A chart's * position in the array is preserved throughout the page's lifetime. When * a chart is destroyed, the array item becomes `undefined`. * * @name Highcharts.charts * @type {Array} */ Globals.charts = []; /** * A shared registry between all bundles to keep track of applied * compositions. * @private */ Globals.composed = []; /** * A hook for defining additional date format specifiers. New * specifiers are defined as key-value pairs by using the * specifier as key, and a function which takes the timestamp as * value. This function returns the formatted portion of the * date. * * @sample highcharts/global/dateformats/ * Adding support for week number * * @name Highcharts.dateFormats * @type {Record} */ Globals.dateFormats = {}; /** * @private * @deprecated * @todo Use only `Core/Series/SeriesRegistry.seriesTypes` */ Globals.seriesTypes = {}; /** * @private */ Globals.symbolSizes = {}; /* * * * Properties * * */ // eslint-disable-next-line prefer-const Globals.chartCount = 0; })(Globals || (Globals = {})); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Theme options that should get applied to the chart. In module mode it * might not be possible to change this property because of read-only * restrictions, instead use {@link Highcharts.setOptions}. * * @deprecated * @name Highcharts.theme * @type {Highcharts.Options} */ (''); // Keeps doclets above in JS file return Globals; }); _registerModule(_modules, 'Core/Utilities.js', [_modules['Core/Globals.js']], function (H) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { charts, doc, win } = H; /* * * * Functions * * */ /** * Provide error messages for debugging, with links to online explanation. This * function can be overridden to provide custom error handling. * * @sample highcharts/chart/highcharts-error/ * Custom error handler * * @function Highcharts.error * * @param {number|string} code * The error code. See * [errors.xml](https://github.com/highcharts/highcharts/blob/master/errors/errors.xml) * for available codes. If it is a string, the error message is printed * directly in the console. * * @param {boolean} [stop=false] * Whether to throw an error or just log a warning in the console. * * @param {Highcharts.Chart} [chart] * Reference to the chart that causes the error. Used in 'debugger' * module to display errors directly on the chart. * Important note: This argument is undefined for errors that lack * access to the Chart instance. In such case, the error will be * displayed on the last created chart. * * @param {Highcharts.Dictionary} [params] * Additional parameters for the generated message. * * @return {void} */ function error(code, stop, chart, params) { const severity = stop ? 'Highcharts error' : 'Highcharts warning'; if (code === 32) { code = `${severity}: Deprecated member`; } const isCode = isNumber(code); let message = isCode ? `${severity} #${code}: www.highcharts.com/errors/${code}/` : code.toString(); const defaultHandler = function () { if (stop) { throw new Error(message); } // Else ... if (win.console && error.messages.indexOf(message) === -1 // Prevent console flooting ) { console.warn(message); // eslint-disable-line no-console } }; if (typeof params !== 'undefined') { let additionalMessages = ''; if (isCode) { message += '?'; } objectEach(params, function (value, key) { additionalMessages += `\n - ${key}: ${value}`; if (isCode) { message += encodeURI(key) + '=' + encodeURI(value); } }); message += additionalMessages; } fireEvent(H, 'displayError', { chart, code, message, params }, defaultHandler); error.messages.push(message); } (function (error) { error.messages = []; })(error || (error = {})); /* eslint-disable valid-jsdoc */ /** * Utility function to deep merge two or more objects and return a third object. * If the first argument is true, the contents of the second object is copied * into the first object. The merge function can also be used with a single * object argument to create a deep copy of an object. * * @function Highcharts.merge * * @param {boolean} extend * Whether to extend the left-side object (a) or return a whole new * object. * * @param {T|undefined} a * The first object to extend. When only this is given, the function * returns a deep copy. * * @param {...Array} [n] * An object to merge into the previous one. * * @return {T} * The merged object. If the first argument is true, the return is the * same as the second argument. */ /** * Utility function to deep merge two or more objects and return a third object. * The merge function can also be used with a single object argument to create a * deep copy of an object. * * @function Highcharts.merge * * @param {T|undefined} a * The first object to extend. When only this is given, the function * returns a deep copy. * * @param {...Array} [n] * An object to merge into the previous one. * * @return {T} * The merged object. If the first argument is true, the return is the * same as the second argument. */ function merge() { /* eslint-enable valid-jsdoc */ let i, args = arguments, ret = {}; const doCopy = function (copy, original) { // An object is replacing a primitive if (typeof copy !== 'object') { copy = {}; } objectEach(original, function (value, key) { // Prototype pollution (#14883) if (key === '__proto__' || key === 'constructor') { return; } // Copy the contents of objects, but not arrays or DOM nodes if (isObject(value, true) && !isClass(value) && !isDOMElement(value)) { copy[key] = doCopy(copy[key] || {}, value); // Primitives and arrays are copied over directly } else { copy[key] = original[key]; } }); return copy; }; // If first argument is true, copy into the existing object. Used in // setOptions. if (args[0] === true) { ret = args[1]; args = Array.prototype.slice.call(args, 2); } // For each argument, extend the return const len = args.length; for (i = 0; i < len; i++) { ret = doCopy(ret, args[i]); } return ret; } /** * Constrain a value to within a lower and upper threshold. * * @private * @param {number} value The initial value * @param {number} min The lower threshold * @param {number} max The upper threshold * @return {number} Returns a number value within min and max. */ function clamp(value, min, max) { return value > min ? value < max ? value : max : min; } // eslint-disable-next-line valid-jsdoc /** * Return the deep difference between two objects. It can either return the new * properties, or optionally return the old values of new properties. * @private */ function diffObjects(newer, older, keepOlder, collectionsWithUpdate) { const ret = {}; /** * Recurse over a set of options and its current values, and store the * current values in the ret object. */ function diff(newer, older, ret, depth) { const keeper = keepOlder ? older : newer; objectEach(newer, function (newerVal, key) { if (!depth && collectionsWithUpdate && collectionsWithUpdate.indexOf(key) > -1 && older[key]) { newerVal = splat(newerVal); ret[key] = []; // Iterate over collections like series, xAxis or yAxis and map // the items by index. for (let i = 0; i < Math.max(newerVal.length, older[key].length); i++) { // Item exists in current data (#6347) if (older[key][i]) { // If the item is missing from the new data, we need to // save the whole config structure. Like when // responsively updating from a dual axis layout to a // single axis and back (#13544). if (newerVal[i] === void 0) { ret[key][i] = older[key][i]; // Otherwise, proceed } else { ret[key][i] = {}; diff(newerVal[i], older[key][i], ret[key][i], depth + 1); } } } } else if (isObject(newerVal, true) && !newerVal.nodeType // #10044 ) { ret[key] = isArray(newerVal) ? [] : {}; diff(newerVal, older[key] || {}, ret[key], depth + 1); // Delete empty nested objects if (Object.keys(ret[key]).length === 0 && // Except colorAxis which is a special case where the empty // object means it is enabled. Which is unfortunate and we // should try to find a better way. !(key === 'colorAxis' && depth === 0)) { delete ret[key]; } } else if (newer[key] !== older[key] || // If the newer key is explicitly undefined, keep it (#10525) (key in newer && !(key in older))) { if (key !== '__proto__' && key !== 'constructor') { ret[key] = keeper[key]; } } }); } diff(newer, older, ret, 0); return ret; } /** * Shortcut for parseInt * * @private * @function Highcharts.pInt * * @param {*} s * any * * @param {number} [mag] * Magnitude * * @return {number} * number */ function pInt(s, mag) { return parseInt(s, mag || 10); } /** * Utility function to check for string type. * * @function Highcharts.isString * * @param {*} s * The item to check. * * @return {boolean} * True if the argument is a string. */ function isString(s) { return typeof s === 'string'; } /** * Utility function to check if an item is an array. * * @function Highcharts.isArray * * @param {*} obj * The item to check. * * @return {boolean} * True if the argument is an array. */ function isArray(obj) { const str = Object.prototype.toString.call(obj); return str === '[object Array]' || str === '[object Array Iterator]'; } /** * Utility function to check if an item is of type object. * * @function Highcharts.isObject * * @param {*} obj * The item to check. * * @param {boolean} [strict=false] * Also checks that the object is not an array. * * @return {boolean} * True if the argument is an object. */ function isObject(obj, strict) { return (!!obj && typeof obj === 'object' && (!strict || !isArray(obj))); // eslint-disable-line @typescript-eslint/no-explicit-any } /** * Utility function to check if an Object is a HTML Element. * * @function Highcharts.isDOMElement * * @param {*} obj * The item to check. * * @return {boolean} * True if the argument is a HTML Element. */ function isDOMElement(obj) { return isObject(obj) && typeof obj.nodeType === 'number'; } /** * Utility function to check if an Object is a class. * * @function Highcharts.isClass * * @param {object|undefined} obj * The item to check. * * @return {boolean} * True if the argument is a class. */ function isClass(obj) { const c = obj && obj.constructor; return !!(isObject(obj, true) && !isDOMElement(obj) && (c && c.name && c.name !== 'Object')); } /** * Utility function to check if an item is a number and it is finite (not NaN, * Infinity or -Infinity). * * @function Highcharts.isNumber * * @param {*} n * The item to check. * * @return {boolean} * True if the item is a finite number */ function isNumber(n) { return typeof n === 'number' && !isNaN(n) && n < Infinity && n > -Infinity; } /** * Remove the last occurence of an item from an array. * * @function Highcharts.erase * * @param {Array<*>} arr * The array. * * @param {*} item * The item to remove. * * @return {void} */ function erase(arr, item) { let i = arr.length; while (i--) { if (arr[i] === item) { arr.splice(i, 1); break; } } } /** * Insert a series or an axis in a collection with other items, either the * chart series or yAxis series or axis collections, in the correct order * according to the index option and whether it is internal. Used internally * when adding series and axes. * * @private * @function Highcharts.Chart#insertItem * @param {Highcharts.Series|Highcharts.Axis} item * The item to insert * @param {Array|Array} collection * A collection of items, like `chart.series` or `xAxis.series`. * @return {number} The index of the series in the collection. */ function insertItem(item, collection) { const indexOption = item.options.index, length = collection.length; let i; for ( // Internal item (navigator) should always be pushed to the end i = item.options.isInternal ? length : 0; i < length + 1; i++) { if ( // No index option, reached the end of the collection, // equivalent to pushing !collection[i] || // Handle index option, the element to insert has lower index (isNumber(indexOption) && indexOption < pick(collection[i].options.index, collection[i]._i)) || // Insert the new item before other internal items // (navigator) collection[i].options.isInternal) { collection.splice(i, 0, item); break; } } return i; } /** * Adds an item to an array, if it is not present in the array. * * @function Highcharts.pushUnique * * @param {Array} array * The array to add the item to. * * @param {unknown} item * The item to add. * * @return {boolean} * Returns true, if the item was not present and has been added. */ function pushUnique(array, item) { return array.indexOf(item) < 0 && !!array.push(item); } /** * Check if an object is null or undefined. * * @function Highcharts.defined * * @param {*} obj * The object to check. * * @return {boolean} * False if the object is null or undefined, otherwise true. */ function defined(obj) { return typeof obj !== 'undefined' && obj !== null; } /** * Set or get an attribute or an object of attributes. * * To use as a setter, pass a key and a value, or let the second argument be a * collection of keys and values. When using a collection, passing a value of * `null` or `undefined` will remove the attribute. * * To use as a getter, pass only a string as the second argument. * * @function Highcharts.attr * * @param {Highcharts.HTMLDOMElement|Highcharts.SVGDOMElement} elem * The DOM element to receive the attribute(s). * * @param {string|Highcharts.HTMLAttributes|Highcharts.SVGAttributes} [keyOrAttribs] * The property or an object of key-value pairs. * * @param {number|string} [value] * The value if a single property is set. * * @return {string|null|undefined} * When used as a getter, return the value. */ function attr(elem, keyOrAttribs, value) { const isGetter = isString(keyOrAttribs) && !defined(value); let ret; const attrSingle = (value, key) => { // Set the value if (defined(value)) { elem.setAttribute(key, value); // Get the value } else if (isGetter) { ret = elem.getAttribute(key); // IE7 and below cannot get class through getAttribute (#7850) if (!ret && key === 'class') { ret = elem.getAttribute(key + 'Name'); } // Remove the value } else { elem.removeAttribute(key); } }; // If keyOrAttribs is a string if (isString(keyOrAttribs)) { attrSingle(value, keyOrAttribs); // Else if keyOrAttribs is defined, it is a hash of key/value pairs } else { objectEach(keyOrAttribs, attrSingle); } return ret; } /** * Check if an element is an array, and if not, make it into an array. * * @function Highcharts.splat * * @param {*} obj * The object to splat. * * @return {Array} * The produced or original array. */ function splat(obj) { return isArray(obj) ? obj : [obj]; } /** * Set a timeout if the delay is given, otherwise perform the function * synchronously. * * @function Highcharts.syncTimeout * * @param {Function} fn * The function callback. * * @param {number} delay * Delay in milliseconds. * * @param {*} [context] * An optional context to send to the function callback. * * @return {number} * An identifier for the timeout that can later be cleared with * Highcharts.clearTimeout. Returns -1 if there is no timeout. */ function syncTimeout(fn, delay, context) { if (delay > 0) { return setTimeout(fn, delay, context); } fn.call(0, context); return -1; } /** * Internal clear timeout. The function checks that the `id` was not removed * (e.g. by `chart.destroy()`). For the details see * [issue #7901](https://github.com/highcharts/highcharts/issues/7901). * * @function Highcharts.clearTimeout * * @param {number|undefined} id * Id of a timeout. */ function internalClearTimeout(id) { if (defined(id)) { clearTimeout(id); } } /* eslint-disable valid-jsdoc */ /** * Utility function to extend an object with the members of another. * * @function Highcharts.extend * * @param {T|undefined} a * The object to be extended. * * @param {Partial} b * The object to add to the first one. * * @return {T} * Object a, the original object. */ function extend(a, b) { /* eslint-enable valid-jsdoc */ let n; if (!a) { a = {}; } for (n in b) { // eslint-disable-line guard-for-in a[n] = b[n]; } return a; } /* eslint-disable valid-jsdoc */ /** * Return the first value that is not null or undefined. * * @function Highcharts.pick * * @param {...Array} items * Variable number of arguments to inspect. * * @return {T} * The value of the first argument that is not null or undefined. */ function pick() { const args = arguments; const length = args.length; for (let i = 0; i < length; i++) { const arg = args[i]; if (typeof arg !== 'undefined' && arg !== null) { return arg; } } } /** * Set CSS on a given element. * * @function Highcharts.css * * @param {Highcharts.HTMLDOMElement|Highcharts.SVGDOMElement} el * An HTML DOM element. * * @param {Highcharts.CSSObject} styles * Style object with camel case property names. * * @return {void} */ function css(el, styles) { extend(el.style, styles); } /** * Utility function to create an HTML element with attributes and styles. * * @function Highcharts.createElement * * @param {string} tag * The HTML tag. * * @param {Highcharts.HTMLAttributes} [attribs] * Attributes as an object of key-value pairs. * * @param {Highcharts.CSSObject} [styles] * Styles as an object of key-value pairs. * * @param {Highcharts.HTMLDOMElement} [parent] * The parent HTML object. * * @param {boolean} [nopad=false] * If true, remove all padding, border and margin. * * @return {Highcharts.HTMLDOMElement} * The created DOM element. */ function createElement(tag, attribs, styles, parent, nopad) { const 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; } // eslint-disable-next-line valid-jsdoc /** * Extend a prototyped class by new members. * * @deprecated * @function Highcharts.extendClass * * @param {Highcharts.Class} parent * The parent prototype to inherit. * * @param {Highcharts.Dictionary<*>} members * A collection of prototype members to add or override compared to the * parent prototype. * * @return {Highcharts.Class} * A new prototype. */ function extendClass(parent, members) { const obj = (function () { }); obj.prototype = new parent(); // eslint-disable-line new-cap extend(obj.prototype, members); return obj; } /** * Left-pad a string to a given length by adding a character repetitively. * * @function Highcharts.pad * * @param {number} number * The input string or number. * * @param {number} [length] * The desired string length. * * @param {string} [padder=0] * The character to pad with. * * @return {string} * The padded string. */ function pad(number, length, padder) { return new Array((length || 2) + 1 - String(number) .replace('-', '') .length).join(padder || '0') + number; } /** * Return a length based on either the integer value, or a percentage of a base. * * @function Highcharts.relativeLength * * @param {Highcharts.RelativeSize} value * A percentage string or a number. * * @param {number} base * The full length that represents 100%. * * @param {number} [offset=0] * A pixel offset to apply for percentage values. Used internally in * axis positioning. * * @return {number} * The computed length. */ function relativeLength(value, base, offset) { return (/%$/).test(value) ? (base * parseFloat(value) / 100) + (offset || 0) : parseFloat(value); } /** * Replaces text in a string with a given replacement in a loop to catch nested * matches after previous replacements. * * @function Highcharts.replaceNested * * @param {string} text * Text to search and modify. * * @param {...Array<(RegExp|string)>} replacements * One or multiple tuples with search pattern (`[0]: (string|RegExp)`) and * replacement (`[1]: string`) for matching text. * * @return {string} * Text with replacements. */ function replaceNested(text, ...replacements) { let previous, replacement; do { previous = text; for (replacement of replacements) { text = text.replace(replacement[0], replacement[1]); } } while (text !== previous); return text; } /** * Wrap a method with extended functionality, preserving the original function. * * @function Highcharts.wrap * * @param {*} obj * The context object that the method belongs to. In real cases, this is * often a prototype. * * @param {string} method * The name of the method to extend. * * @param {Highcharts.WrapProceedFunction} func * A wrapper function callback. This function is called with the same * arguments as the original function, except that the original function * is unshifted and passed as the first argument. */ function wrap(obj, method, func) { const proceed = obj[method]; obj[method] = function () { const outerArgs = arguments, scope = this; return func.apply(this, [ function () { return proceed.apply(scope, arguments.length ? arguments : outerArgs); } ].concat([].slice.call(arguments))); }; } /** * Get the magnitude of a number. * * @function Highcharts.getMagnitude * * @param {number} num * The number. * * @return {number} * The magnitude, where 1-9 are magnitude 1, 10-99 magnitude 2 etc. */ function getMagnitude(num) { return Math.pow(10, Math.floor(Math.log(num) / Math.LN10)); } /** * Take an interval and normalize it to multiples of round numbers. * * @deprecated * @function Highcharts.normalizeTickInterval * * @param {number} interval * The raw, un-rounded interval. * * @param {Array<*>} [multiples] * Allowed multiples. * * @param {number} [magnitude] * The magnitude of the number. * * @param {boolean} [allowDecimals] * Whether to allow decimals. * * @param {boolean} [hasTickAmount] * If it has tickAmount, avoid landing on tick intervals lower than * original. * * @return {number} * The normalized interval. * * @todo * Move this function to the Axis prototype. It is here only for historical * reasons. */ function normalizeTickInterval(interval, multiples, magnitude, allowDecimals, hasTickAmount) { let i, retInterval = interval; // Round to a tenfold of 1, 2, 2.5 or 5 magnitude = pick(magnitude, getMagnitude(interval)); const normalized = interval / magnitude; // Multiples for a linear scale if (!multiples) { multiples = hasTickAmount ? // Finer grained ticks when the tick amount is hard set, including // when alignTicks is true on multiple axes (#4580). [1, 1.2, 1.5, 2, 2.5, 3, 4, 5, 6, 8, 10] : // Else, let ticks fall on rounder numbers [1, 2, 2.5, 5, 10]; // The allowDecimals option if (allowDecimals === false) { if (magnitude === 1) { multiples = multiples.filter(function (num) { return num % 1 === 0; }); } else if (magnitude <= 0.1) { multiples = [1 / magnitude]; } } } // Normalize the interval to the nearest multiple for (i = 0; i < multiples.length; i++) { retInterval = multiples[i]; // Only allow tick amounts smaller than natural if ((hasTickAmount && retInterval * magnitude >= interval) || (!hasTickAmount && (normalized <= (multiples[i] + (multiples[i + 1] || multiples[i])) / 2))) { break; } } // Multiply back to the correct magnitude. Correct floats to appropriate // precision (#6085). retInterval = correctFloat(retInterval * magnitude, -Math.round(Math.log(0.001) / Math.LN10)); return retInterval; } /** * Sort an object array and keep the order of equal items. The ECMAScript * standard does not specify the behaviour when items are equal. * * @function Highcharts.stableSort * * @param {Array<*>} arr * The array to sort. * * @param {Function} sortFunction * The function to sort it with, like with regular Array.prototype.sort. */ function stableSort(arr, sortFunction) { // @todo It seems like Chrome since v70 sorts in a stable way internally, // plus all other browsers do it, so over time we may be able to remove this // function const length = arr.length; let sortValue, i; // Add index to each item for (i = 0; i < length; i++) { arr[i].safeI = i; // Stable sort index } arr.sort(function (a, b) { sortValue = sortFunction(a, b); return sortValue === 0 ? a.safeI - b.safeI : sortValue; }); // Remove index from items for (i = 0; i < length; i++) { delete arr[i].safeI; // 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 Highcharts.arrayMin * * @param {Array<*>} data * An array of numbers. * * @return {number} * The lowest number. */ function arrayMin(data) { let 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.max` 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 Highcharts.arrayMax * * @param {Array<*>} data * An array of numbers. * * @return {number} * The highest number. */ function arrayMax(data) { let i = data.length, max = data[0]; while (i--) { if (data[i] > max) { max = data[i]; } } return max; } /** * Utility method that destroys any SVGElement instances 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. * * @function Highcharts.destroyObjectProperties * * @param {*} obj * The object to destroy properties on. * * @param {*} [except] * Exception, do not destroy this property, only delete it. */ function destroyObjectProperties(obj, except, destructablesOnly) { objectEach(obj, function (val, n) { // If the object is non-null and destroy is defined if (val !== except && val?.destroy) { // Invoke the destroy val.destroy(); } // Delete the property from the object if (val?.destroy || !destructablesOnly) { delete obj[n]; } }); } /** * Discard a HTML element * * @function Highcharts.discardElement * * @param {Highcharts.HTMLDOMElement} element * The HTML node to discard. */ function discardElement(element) { if (element && element.parentElement) { element.parentElement.removeChild(element); } } /** * Fix JS round off float errors. * * @function Highcharts.correctFloat * * @param {number} num * A float number to fix. * * @param {number} [prec=14] * The precision. * * @return {number} * The corrected float number. */ function correctFloat(num, prec) { // When the number is higher than 1e14 use the number (#16275) return num > 1e14 ? num : parseFloat(num.toPrecision(prec || 14)); } /** * The time unit lookup * * @ignore */ const timeUnits = { millisecond: 1, second: 1000, minute: 60000, hour: 3600000, day: 24 * 3600000, week: 7 * 24 * 3600000, month: 28 * 24 * 3600000, year: 364 * 24 * 3600000 }; /** * Easing definition * * @private * @function Math.easeInOutSine * * @param {number} pos * Current position, ranging from 0 to 1. * * @return {number} * Ease result */ Math.easeInOutSine = function (pos) { return -0.5 * (Math.cos(Math.PI * pos) - 1); }; /** * Find the closest distance between two values of a two-dimensional array * @private * @function Highcharts.getClosestDistance * * @param {Array>} arrays * An array of arrays of numbers * * @return {number | undefined} * The closest distance between values */ function getClosestDistance(arrays, onError) { const allowNegative = !onError; let closest, loopLength, distance, i; arrays.forEach((xData) => { if (xData.length > 1) { loopLength = xData.length - 1; for (i = loopLength; i > 0; i--) { distance = xData[i] - xData[i - 1]; if (distance < 0 && !allowNegative) { onError?.(); // Only one call onError = void 0; } else if (distance && (typeof closest === 'undefined' || distance < closest)) { closest = distance; } } } }); return closest; } /** * Returns the value of a property path on a given object. * * @private * @function getNestedProperty * * @param {string} path * Path to the property, for example `custom.myValue`. * * @param {unknown} obj * Instance containing the property on the specific path. * * @return {unknown} * The unknown property value. */ function getNestedProperty(path, parent) { const pathElements = path.split('.'); while (pathElements.length && defined(parent)) { const pathElement = pathElements.shift(); // Filter on the key if (typeof pathElement === 'undefined' || pathElement === '__proto__') { return; // Undefined } if (pathElement === 'this') { let thisProp; if (isObject(parent)) { thisProp = parent['@this']; } return thisProp ?? parent; } const child = parent[pathElement]; // Filter on the child if (!defined(child) || typeof child === 'function' || typeof child.nodeType === 'number' || child === win) { return; // Undefined } // Else, proceed parent = child; } return parent; } /** * Get the computed CSS value for given element and property, only for numerical * properties. For width and height, the dimension of the inner box (excluding * padding) is returned. Used for fitting the chart within the container. * * @function Highcharts.getStyle * * @param {Highcharts.HTMLDOMElement} el * An HTML element. * * @param {string} prop * The property name. * * @param {boolean} [toInt=true] * Parse to integer. * * @return {number|string|undefined} * The style value. */ function getStyle(el, prop, toInt) { let style; // For width and height, return the actual inner pixel size (#4913) if (prop === 'width') { let offsetWidth = Math.min(el.offsetWidth, el.scrollWidth); // In flex boxes, we need to use getBoundingClientRect and floor it, // because scrollWidth doesn't support subpixel precision (#6427) ... const boundingClientRectWidth = el.getBoundingClientRect && el.getBoundingClientRect().width; // ...unless if the containing div or its parents are transform-scaled // down, in which case the boundingClientRect can't be used as it is // also scaled down (#9871, #10498). if (boundingClientRectWidth < offsetWidth && boundingClientRectWidth >= offsetWidth - 1) { offsetWidth = Math.floor(boundingClientRectWidth); } return Math.max(0, // #8377 (offsetWidth - (getStyle(el, 'padding-left', true) || 0) - (getStyle(el, 'padding-right', true) || 0))); } if (prop === 'height') { return Math.max(0, // #8377 (Math.min(el.offsetHeight, el.scrollHeight) - (getStyle(el, 'padding-top', true) || 0) - (getStyle(el, 'padding-bottom', true) || 0))); } // Otherwise, get the computed style const css = win.getComputedStyle(el, void 0); // eslint-disable-line no-undefined if (css) { style = css.getPropertyValue(prop); if (pick(toInt, prop !== 'opacity')) { style = pInt(style); } } return style; } /** * Search for an item in an array. * * @function Highcharts.inArray * * @deprecated * * @param {*} item * The item to search for. * * @param {Array<*>} arr * The array or node collection to search in. * * @param {number} [fromIndex=0] * The index to start searching from. * * @return {number} * The index within the array, or -1 if not found. */ function inArray(item, arr, fromIndex) { error(32, false, void 0, { 'Highcharts.inArray': 'use Array.indexOf' }); return arr.indexOf(item, fromIndex); } /** * Return the value of the first element in the array that satisfies the * provided testing function. * * @function Highcharts.find * * @param {Array} arr * The array to test. * * @param {Function} callback * The callback function. The function receives the item as the first * argument. Return `true` if this item satisfies the condition. * * @return {T|undefined} * The value of the element. */ const find = Array.prototype.find ? function (arr, callback) { return arr.find(callback); } : // Legacy implementation. PhantomJS, IE <= 11 etc. #7223. function (arr, callback) { let i; const length = arr.length; for (i = 0; i < length; i++) { if (callback(arr[i], i)) { // eslint-disable-line node/callback-return return arr[i]; } } }; /** * Returns an array of a given object's own properties. * * @function Highcharts.keys * @deprecated * * @param {*} obj * The object of which the properties are to be returned. * * @return {Array} * An array of strings that represents all the properties. */ function keys(obj) { error(32, false, void 0, { 'Highcharts.keys': 'use Object.keys' }); return Object.keys(obj); } /** * Get the element's offset position, corrected for `overflow: auto`. * * @function Highcharts.offset * * @param {global.Element} el * The DOM element. * * @return {Highcharts.OffsetObject} * An object containing `left` and `top` properties for the position in * the page. */ function offset(el) { const docElem = doc.documentElement, box = (el.parentElement || el.parentNode) ? el.getBoundingClientRect() : { top: 0, left: 0, width: 0, height: 0 }; return { top: box.top + (win.pageYOffset || docElem.scrollTop) - (docElem.clientTop || 0), left: box.left + (win.pageXOffset || docElem.scrollLeft) - (docElem.clientLeft || 0), width: box.width, height: box.height }; } /* eslint-disable valid-jsdoc */ /** * Iterate over object key pairs in an object. * * @function Highcharts.objectEach * * @param {*} obj * The object to iterate over. * * @param {Highcharts.ObjectEachCallbackFunction} fn * The iterator callback. It passes three arguments: * * value - The property value. * * key - The property key. * * obj - The object that objectEach is being applied to. * * @param {T} [ctx] * The context. */ function objectEach(obj, fn, ctx) { /* eslint-enable valid-jsdoc */ for (const key in obj) { if (Object.hasOwnProperty.call(obj, key)) { fn.call(ctx || obj[key], obj[key], key, obj); } } } /** * Iterate over an array. * * @deprecated * @function Highcharts.each * * @param {Array<*>} arr * The array to iterate over. * * @param {Function} fn * The iterator callback. It passes three arguments: * - `item`: The array item. * - `index`: The item's index in the array. * - `arr`: The array that each is being applied to. * * @param {*} [ctx] * The context. * * @return {void} */ /** * Filter an array by a callback. * * @deprecated * @function Highcharts.grep * * @param {Array<*>} arr * The array to filter. * * @param {Function} callback * The callback function. The function receives the item as the first * argument. Return `true` if the item is to be preserved. * * @return {Array<*>} * A new, filtered array. */ /** * Map an array by a callback. * * @deprecated * @function Highcharts.map * * @param {Array<*>} arr * The array to map. * * @param {Function} fn * The callback function. Return the new value for the new array. * * @return {Array<*>} * A new array item with modified items. */ /** * Reduce an array to a single value. * * @deprecated * @function Highcharts.reduce * * @param {Array<*>} arr * The array to reduce. * * @param {Function} fn * The callback function. Return the reduced value. Receives 4 * arguments: Accumulated/reduced value, current value, current array * index, and the array. * * @param {*} initialValue * The initial value of the accumulator. * * @return {*} * The reduced value. */ /** * Test whether at least one element in the array passes the test implemented by * the provided function. * * @deprecated * @function Highcharts.some * * @param {Array<*>} arr * The array to test * * @param {Function} fn * The function to run on each item. Return truthy to pass the test. * Receives arguments `currentValue`, `index` and `array`. * * @param {*} ctx * The context. * * @return {boolean} */ objectEach({ map: 'map', each: 'forEach', grep: 'filter', reduce: 'reduce', some: 'some' }, function (val, key) { H[key] = function (arr) { error(32, false, void 0, { [`Highcharts.${key}`]: `use Array.${val}` }); return Array.prototype[val].apply(arr, [].slice.call(arguments, 1)); }; }); /* eslint-disable valid-jsdoc */ /** * Add an event listener. * * @function Highcharts.addEvent * * @param {Highcharts.Class|T} el * The element or object to add a listener to. It can be a * {@link HTMLDOMElement}, an {@link SVGElement} or any other object. * * @param {string} type * The event type. * * @param {Highcharts.EventCallbackFunction|Function} fn * The function callback to execute when the event is fired. * * @param {Highcharts.EventOptionsObject} [options] * Options for adding the event. * * @sample highcharts/members/addevent * Use a general `render` event to draw shapes on a chart * * @return {Function} * A callback function to remove the added event. */ function addEvent(el, type, fn, options = {}) { /* eslint-enable valid-jsdoc */ // Add hcEvents to either the prototype (in case we're running addEvent on a // class) or the instance. If hasOwnProperty('hcEvents') is false, it is // inherited down the prototype chain, in which case we need to set the // property on this instance (which may itself be a prototype). const owner = typeof el === 'function' && el.prototype || el; if (!Object.hasOwnProperty.call(owner, 'hcEvents')) { owner.hcEvents = {}; } const events = owner.hcEvents; // Allow click events added to points, otherwise they will be prevented by // the TouchPointer.pinch function after a pinch zoom operation (#7091). if (H.Point && // Without H a dependency loop occurs el instanceof H.Point && el.series && el.series.chart) { el.series.chart.runTrackerClick = true; } // Handle DOM events // If the browser supports passive events, add it to improve performance // on touch events (#11353). const addEventListener = el.addEventListener; if (addEventListener) { addEventListener.call(el, type, fn, H.supportsPassiveEvents ? { passive: options.passive === void 0 ? type.indexOf('touch') !== -1 : options.passive, capture: false } : false); } if (!events[type]) { events[type] = []; } const eventObject = { fn, order: typeof options.order === 'number' ? options.order : Infinity }; events[type].push(eventObject); // Order the calls events[type].sort((a, b) => a.order - b.order); // Return a function that can be called to remove this event. return function () { removeEvent(el, type, fn); }; } /* eslint-disable valid-jsdoc */ /** * Remove an event that was added with {@link Highcharts#addEvent}. * * @function Highcharts.removeEvent * * @param {Highcharts.Class|T} el * The element to remove events on. * * @param {string} [type] * The type of events to remove. If undefined, all events are removed * from the element. * * @param {Highcharts.EventCallbackFunction} [fn] * The specific callback to remove. If undefined, all events that match * the element and optionally the type are removed. * * @return {void} */ function removeEvent(el, type, fn) { /* eslint-enable valid-jsdoc */ /** * @private */ function removeOneEvent(type, fn) { const removeEventListener = el.removeEventListener; if (removeEventListener) { removeEventListener.call(el, type, fn, false); } } /** * @private */ function removeAllEvents(eventCollection) { let types, len; if (!el.nodeName) { return; // Break on non-DOM events } if (type) { types = {}; types[type] = true; } else { types = eventCollection; } objectEach(types, function (_val, n) { if (eventCollection[n]) { len = eventCollection[n].length; while (len--) { removeOneEvent(n, eventCollection[n][len].fn); } } }); } const owner = typeof el === 'function' && el.prototype || el; if (Object.hasOwnProperty.call(owner, 'hcEvents')) { const events = owner.hcEvents; if (type) { const typeEvents = (events[type] || []); if (fn) { events[type] = typeEvents.filter(function (obj) { return fn !== obj.fn; }); removeOneEvent(type, fn); } else { removeAllEvents(events); events[type] = []; } } else { removeAllEvents(events); delete owner.hcEvents; } } } /* eslint-disable valid-jsdoc */ /** * Fire an event that was registered with {@link Highcharts#addEvent}. * * @function Highcharts.fireEvent * * @param {T} el * The object to fire the event on. It can be a {@link HTMLDOMElement}, * an {@link SVGElement} or any other object. * * @param {string} type * The type of event. * * @param {Highcharts.Dictionary<*>|Event} [eventArguments] * Custom event arguments that are passed on as an argument to the event * handler. * * @param {Highcharts.EventCallbackFunction|Function} [defaultFunction] * The default function to execute if the other listeners haven't * returned false. * * @return {void} */ function fireEvent(el, type, eventArguments, defaultFunction) { /* eslint-enable valid-jsdoc */ eventArguments = eventArguments || {}; if (doc.createEvent && (el.dispatchEvent || (el.fireEvent && // Enable firing events on Highcharts instance. el !== H))) { const e = doc.createEvent('Events'); e.initEvent(type, true, true); eventArguments = extend(e, eventArguments); if (el.dispatchEvent) { el.dispatchEvent(eventArguments); } else { el.fireEvent(type, eventArguments); } } else if (el.hcEvents) { if (!eventArguments.target) { // We're running a custom event extend(eventArguments, { // Attach a simple preventDefault function to skip // default handler if called. The built-in // defaultPrevented property is not overwritable (#5112) preventDefault: function () { eventArguments.defaultPrevented = true; }, // Setting target to native events fails with clicking // the zoom-out button in Chrome. target: el, // If the type is not set, we're running a custom event // (#2297). If it is set, we're running a browser event. type: type }); } const events = []; let object = el; let multilevel = false; // Recurse up the inheritance chain and collect hcEvents set as own // objects on the prototypes. while (object.hcEvents) { if (Object.hasOwnProperty.call(object, 'hcEvents') && object.hcEvents[type]) { if (events.length) { multilevel = true; } events.unshift.apply(events, object.hcEvents[type]); } object = Object.getPrototypeOf(object); } // For performance reasons, only sort the event handlers in case we are // dealing with multiple levels in the prototype chain. Otherwise, the // events are already sorted in the addEvent function. if (multilevel) { // Order the calls events.sort((a, b) => a.order - b.order); } // Call the collected event handlers events.forEach((obj) => { // If the event handler returns false, prevent the default handler // from executing if (obj.fn.call(el, eventArguments) === false) { eventArguments.preventDefault(); } }); } // Run the default if not prevented if (defaultFunction && !eventArguments.defaultPrevented) { defaultFunction.call(el, eventArguments); } } let serialMode; /** * Get a unique key for using in internal element id's and pointers. The key is * composed of a random hash specific to this Highcharts instance, and a * counter. * * @example * let id = uniqueKey(); // => 'highcharts-x45f6hp-0' * * @function Highcharts.uniqueKey * * @return {string} * A unique key. */ const uniqueKey = (function () { const hash = Math.random().toString(36).substring(2, 9) + '-'; let id = 0; return function () { return 'highcharts-' + (serialMode ? '' : hash) + id++; }; }()); /** * Activates a serial mode for element IDs provided by * {@link Highcharts.uniqueKey}. This mode can be used in automated tests, where * a simple comparison of two rendered SVG graphics is needed. * * **Note:** This is only for testing purposes and will break functionality in * webpages with multiple charts. * * @example * if ( * process && * process.env.NODE_ENV === 'development' * ) { * Highcharts.useSerialIds(true); * } * * @function Highcharts.useSerialIds * * @param {boolean} [mode] * Changes the state of serial mode. * * @return {boolean|undefined} * State of the serial mode. */ function useSerialIds(mode) { return (serialMode = pick(mode, serialMode)); } function isFunction(obj) { return typeof obj === 'function'; } // Register Highcharts as a plugin in jQuery if (win.jQuery) { /** * Highcharts-extended JQuery. * * @external JQuery */ /** * Helper function to return the chart of the current JQuery selector * element. * * @function external:JQuery#highcharts * * @return {Highcharts.Chart} * The chart that is linked to the JQuery selector element. */ /** * Factory function to create a chart in the current JQuery selector * element. * * @function external:JQuery#highcharts * * @param {'Chart'|'Map'|'StockChart'|string} [className] * Name of the factory class in the Highcharts namespace. * * @param {Highcharts.Options} [options] * The chart options structure. * * @param {Highcharts.ChartCallbackFunction} [callback] * Function to run when the chart has loaded and all external * images are loaded. Defining a * [chart.events.load](https://api.highcharts.com/highcharts/chart.events.load) * handler is equivalent. * * @return {JQuery} * The current JQuery selector. */ win.jQuery.fn.highcharts = function () { const args = [].slice.call(arguments); if (this[0]) { // `this[0]` is the renderTo div // Create the chart if (args[0]) { new H[ // eslint-disable-line computed-property-spacing, no-new // Constructor defaults to Chart isString(args[0]) ? args.shift() : 'Chart'](this[0], args[0], args[1]); return this; } // When called without parameters or with the return argument, // return an existing chart return charts[attr(this[0], 'data-highcharts-chart')]; } }; } /* * * * Default Export * * */ // TODO use named exports when supported. const Utilities = { addEvent, arrayMax, arrayMin, attr, clamp, clearTimeout: internalClearTimeout, correctFloat, createElement, css, defined, destroyObjectProperties, diffObjects, discardElement, erase, error, extend, extendClass, find, fireEvent, getClosestDistance, getMagnitude, getNestedProperty, getStyle, inArray, insertItem, isArray, isClass, isDOMElement, isFunction, isNumber, isObject, isString, keys, merge, normalizeTickInterval, objectEach, offset, pad, pick, pInt, pushUnique, relativeLength, removeEvent, replaceNested, splat, stableSort, syncTimeout, timeUnits, uniqueKey, useSerialIds, wrap }; /* * * * API Declarations * * */ /** * An animation configuration. Animation configurations can also be defined as * booleans, where `false` turns off animation and `true` defaults to a duration * of 500ms and defer of 0ms. * * @interface Highcharts.AnimationOptionsObject */ /** * A callback function to execute when the animation finishes. * @name Highcharts.AnimationOptionsObject#complete * @type {Function|undefined} */ /** * The animation defer in milliseconds. * @name Highcharts.AnimationOptionsObject#defer * @type {number|undefined} */ /** * The animation duration in milliseconds. * @name Highcharts.AnimationOptionsObject#duration * @type {number|undefined} */ /** * The name of an easing function as defined on the `Math` object. * @name Highcharts.AnimationOptionsObject#easing * @type {string|Function|undefined} */ /** * A callback function to execute on each step of each attribute or CSS property * that's being animated. The first argument contains information about the * animation and progress. * @name Highcharts.AnimationOptionsObject#step * @type {Function|undefined} */ /** * Creates a frame for the animated SVG element. * * @callback Highcharts.AnimationStepCallbackFunction * * @param {Highcharts.SVGElement} this * The SVG element to animate. * * @return {void} */ /** * Interface description for a class. * * @interface Highcharts.Class * @extends Function */ /** * Class constructor. * @function Highcharts.Class#new * @param {...Array<*>} args * Constructor arguments. * @return {T} * Class instance. */ /** * A style object with camel case property names to define visual appearance of * a SVG element or HTML element. The properties can be whatever styles are * supported on the given SVG or HTML element. * * @example * { * fontFamily: 'monospace', * fontSize: '1.2em' * } * * @interface Highcharts.CSSObject */ /** * @name Highcharts.CSSObject#[key:string] * @type {boolean|number|string|undefined} */ /** * Background style for the element. * @name Highcharts.CSSObject#background * @type {string|undefined} */ /** * Background color of the element. * @name Highcharts.CSSObject#backgroundColor * @type {Highcharts.ColorString|undefined} */ /** * Border style for the element. * @name Highcharts.CSSObject#border * @type {string|undefined} */ /** * Radius of the element border. * @name Highcharts.CSSObject#borderRadius * @type {number|undefined} */ /** * Color used in the element. The 'contrast' option is a Highcharts custom * property that results in black or white, depending on the background of the * element. * @name Highcharts.CSSObject#color * @type {'contrast'|Highcharts.ColorString|undefined} */ /** * Style of the mouse cursor when resting over the element. * @name Highcharts.CSSObject#cursor * @type {Highcharts.CursorValue|undefined} */ /** * Font family of the element text. Multiple values have to be in decreasing * preference order and separated by comma. * @name Highcharts.CSSObject#fontFamily * @type {string|undefined} */ /** * Font size of the element text. * @name Highcharts.CSSObject#fontSize * @type {string|undefined} */ /** * Font weight of the element text. * @name Highcharts.CSSObject#fontWeight * @type {string|undefined} */ /** * Height of the element. * @name Highcharts.CSSObject#height * @type {number|undefined} */ /** * Width of the element border. * @name Highcharts.CSSObject#lineWidth * @type {number|undefined} */ /** * Opacity of the element. * @name Highcharts.CSSObject#opacity * @type {number|undefined} */ /** * Space around the element content. * @name Highcharts.CSSObject#padding * @type {string|undefined} */ /** * Behaviour of the element when the mouse cursor rests over it. * @name Highcharts.CSSObject#pointerEvents * @type {string|undefined} */ /** * Positioning of the element. * @name Highcharts.CSSObject#position * @type {string|undefined} */ /** * Alignment of the element text. * @name Highcharts.CSSObject#textAlign * @type {string|undefined} */ /** * Additional decoration of the element text. * @name Highcharts.CSSObject#textDecoration * @type {string|undefined} */ /** * Outline style of the element text. * @name Highcharts.CSSObject#textOutline * @type {string|undefined} */ /** * Line break style of the element text. Highcharts SVG elements support * `ellipsis` when a `width` is set. * @name Highcharts.CSSObject#textOverflow * @type {string|undefined} */ /** * Top spacing of the element relative to the parent element. * @name Highcharts.CSSObject#top * @type {string|undefined} */ /** * Animated transition of selected element properties. * @name Highcharts.CSSObject#transition * @type {string|undefined} */ /** * Line break style of the element text. * @name Highcharts.CSSObject#whiteSpace * @type {string|undefined} */ /** * Width of the element. * @name Highcharts.CSSObject#width * @type {number|undefined} */ /** * All possible cursor styles. * * @typedef {'alias'|'all-scroll'|'auto'|'cell'|'col-resize'|'context-menu'|'copy'|'crosshair'|'default'|'e-resize'|'ew-resize'|'grab'|'grabbing'|'help'|'move'|'n-resize'|'ne-resize'|'nesw-resize'|'no-drop'|'none'|'not-allowed'|'ns-resize'|'nw-resize'|'nwse-resize'|'pointer'|'progress'|'row-resize'|'s-resize'|'se-resize'|'sw-resize'|'text'|'vertical-text'|'w-resize'|'wait'|'zoom-in'|'zoom-out'} Highcharts.CursorValue */ /** * All possible dash styles. * * @typedef {'Dash'|'DashDot'|'Dot'|'LongDash'|'LongDashDot'|'LongDashDotDot'|'ShortDash'|'ShortDashDot'|'ShortDashDotDot'|'ShortDot'|'Solid'} Highcharts.DashStyleValue */ /** * Generic dictionary in TypeScript notation. * Use the native `AnyRecord` instead. * * @deprecated * @interface Highcharts.Dictionary */ /** * @name Highcharts.Dictionary#[key:string] * @type {T} */ /** * The function callback to execute when the event is fired. The `this` context * contains the instance, that fired the event. * * @callback Highcharts.EventCallbackFunction * * @param {T} this * * @param {Highcharts.Dictionary<*>|Event} [eventArguments] * Event arguments. * * @return {boolean|void} */ /** * The event options for adding function callback. * * @interface Highcharts.EventOptionsObject */ /** * The order the event handler should be called. This opens for having one * handler be called before another, independent of in which order they were * added. * @name Highcharts.EventOptionsObject#order * @type {number} */ /** * Whether an event should be passive or not. * When set to `true`, the function specified by listener will never call * `preventDefault()`. * @name Highcharts.EventOptionsObject#passive * @type boolean */ /** * Formats data as a string. Usually the data is accessible through the `this` * keyword. * * @callback Highcharts.FormatterCallbackFunction * * @param {T} this * Context to format * * @return {string} * Formatted text */ /** * An object of key-value pairs for HTML attributes. * * @typedef {Highcharts.Dictionary} Highcharts.HTMLAttributes */ /** * An HTML DOM element. The type is a reference to the regular HTMLElement in * the global scope. * * @typedef {global.HTMLElement} Highcharts.HTMLDOMElement * * @see https://developer.mozilla.org/en-US/docs/Web/API/HTMLElement */ /** * The iterator callback. * * @callback Highcharts.ObjectEachCallbackFunction * * @param {T} this * The context. * * @param {*} value * The property value. * * @param {string} key * The property key. * * @param {*} obj * The object that objectEach is being applied to. */ /** * An object containing `left` and `top` properties for the position in the * page. * * @interface Highcharts.OffsetObject */ /** * Left distance to the page border. * @name Highcharts.OffsetObject#left * @type {number} */ /** * Top distance to the page border. * @name Highcharts.OffsetObject#top * @type {number} */ /** * Describes a range. * * @interface Highcharts.RangeObject */ /** * Maximum number of the range. * @name Highcharts.RangeObject#max * @type {number} */ /** * Minimum number of the range. * @name Highcharts.RangeObject#min * @type {number} */ /** * If a number is given, it defines the pixel length. If a percentage string is * given, like for example `'50%'`, the setting defines a length relative to a * base size, for example the size of a container. * * @typedef {number|string} Highcharts.RelativeSize */ /** * Proceed function to call original (wrapped) function. * * @callback Highcharts.WrapProceedFunction * * @param {*} [arg1] * Optional argument. Without any arguments defaults to first argument of * the wrapping function. * * @param {*} [arg2] * Optional argument. Without any arguments defaults to second argument * of the wrapping function. * * @param {*} [arg3] * Optional argument. Without any arguments defaults to third argument of * the wrapping function. * * @return {*} * Return value of the original function. */ /** * The Highcharts object is the placeholder for all other members, and various * utility functions. The most important member of the namespace would be the * chart constructor. * * @example * let chart = Highcharts.chart('container', { ... }); * * @namespace Highcharts */ ''; // Detach doclets above return Utilities; }); _registerModule(_modules, 'Core/Chart/ChartDefaults.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * API Options * * */ /** * General options for the chart. * * @optionparent chart */ const ChartDefaults = { /** * Default `mapData` for all series, in terms of a GeoJSON or TopoJSON * object. If set to a string, it functions as an index into the * `Highcharts.maps` array. * * For picking out individual shapes and geometries to use for each series * of the map, see [series.mapData](#series.map.mapData). * * @sample maps/demo/geojson * Loading GeoJSON data * @sample maps/chart/topojson * Loading TopoJSON data * * @type {string|Array<*>|Highcharts.GeoJSON|Highcharts.TopoJSON} * @since 5.0.0 * @product highmaps * @apioption chart.map */ /** * Set lat/lon transformation definitions for the chart. If not defined, * these are extracted from the map data. * * @type {*} * @since 5.0.0 * @product highmaps * @apioption chart.mapTransforms */ /** * When using multiple axes, the ticks of two or more opposite axes * will automatically be aligned by adding ticks to the axis or axes * with the least ticks, as if `tickAmount` were specified. * * This can be prevented by setting `alignTicks` to false. If the grid * lines look messy, it's a good idea to hide them for the secondary * axis by setting `gridLineWidth` to 0. * * If `startOnTick` or `endOnTick` in the axis options are set to false, * then the `alignTicks ` will be disabled for the axis. * * Disabled for logarithmic axes. * * @sample {highcharts} highcharts/chart/alignticks-true/ * True by default * @sample {highcharts} highcharts/chart/alignticks-false/ * False * @sample {highstock} stock/chart/alignticks-true/ * True by default * @sample {highstock} stock/chart/alignticks-false/ * False * * @type {boolean} * @default true * @product highcharts highstock gantt * @apioption chart.alignTicks */ /** * When using multiple axes, align the thresholds. When this is true, other * ticks will also be aligned. * * Note that for line series and some other series types, the `threshold` * option is set to `null` by default. This will in turn cause their y-axis * to not have a threshold. In order to avoid that, set the series * `threshold` to 0 or another number. * * If `startOnTick` or `endOnTick` in the axis options are set to false, or * if the axis is logarithmic, the threshold will not be aligned. * * @sample {highcharts} highcharts/chart/alignthresholds/ Set to true * * @since 10.0.0 * @product highcharts highstock gantt * @apioption chart.alignThresholds */ alignThresholds: false, /** * Set the overall animation for all chart updating. Animation can be * disabled throughout the chart by setting it to false here. It can * be overridden for each individual API method as a function parameter. * The only animation not affected by this option is the initial series * animation, see [plotOptions.series.animation]( * #plotOptions.series.animation). * * The animation can either be set as a boolean or a configuration * object. If `true`, it will use the 'swing' jQuery easing and a * duration of 500 ms. If used as a configuration object, the following * properties are supported: * * - `defer`: The animation delay time in milliseconds. * * - `duration`: The duration of the animation in milliseconds. * * - `easing`: A string reference to an easing function set on the * `Math` object. See * [the easing demo](https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/plotoptions/series-animation-easing/). * * When zooming on a series with less than 100 points, the chart redraw * will be done with animation, but in case of more data points, it is * necessary to set this option to ensure animation on zoom. * * @sample {highcharts} highcharts/chart/animation-none/ * Updating with no animation * @sample {highcharts} highcharts/chart/animation-duration/ * With a longer duration * @sample {highcharts} highcharts/chart/animation-easing/ * With a jQuery UI easing * @sample {highmaps} maps/chart/animation-none/ * Updating with no animation * @sample {highmaps} maps/chart/animation-duration/ * With a longer duration * * @type {boolean|Partial} * @default true * @apioption chart.animation */ /** * A CSS class name to apply to the charts container `div`, allowing * unique CSS styling for each chart. * * @type {string} * @apioption chart.className */ /** * Event listeners for the chart. * * @apioption chart.events */ /** * Fires when a series is added to the chart after load time, using the * `addSeries` method. One parameter, `event`, is passed to the * function, containing common event information. Through * `event.options` you can access the series options that were passed to * the `addSeries` method. Returning false prevents the series from * being added. * * @sample {highcharts} highcharts/chart/events-addseries/ * Alert on add series * @sample {highstock} stock/chart/events-addseries/ * Alert on add series * * @type {Highcharts.ChartAddSeriesCallbackFunction} * @since 1.2.0 * @context Highcharts.Chart * @apioption chart.events.addSeries */ /** * Fires when clicking on the plot background. One parameter, `event`, * is passed to the function, containing common event information. * * Information on the clicked spot can be found through `event.xAxis` * and `event.yAxis`, which are arrays containing the axes of each * dimension and each axis' value at the clicked spot. The primary axes * are `event.xAxis[0]` and `event.yAxis[0]`. Remember the unit of a * datetime axis is milliseconds since 1970-01-01 00:00:00. * * ```js * click: function(e) { * console.log( * Highcharts.dateFormat('%Y-%m-%d %H:%M:%S', e.xAxis[0].value), * e.yAxis[0].value * ) * } * ``` * * @sample {highcharts} highcharts/chart/events-click/ * Alert coordinates on click * @sample {highcharts} highcharts/chart/events-container/ * Alternatively, attach event to container * @sample {highstock} stock/chart/events-click/ * Alert coordinates on click * @sample {highstock} highcharts/chart/events-container/ * Alternatively, attach event to container * @sample {highmaps} maps/chart/events-click/ * Record coordinates on click * @sample {highmaps} highcharts/chart/events-container/ * Alternatively, attach event to container * * @type {Highcharts.ChartClickCallbackFunction} * @since 1.2.0 * @context Highcharts.Chart * @apioption chart.events.click */ /** * Fires when the chart is finished loading. Since v4.2.2, it also waits * for images to be loaded, for example from point markers. One * parameter, `event`, is passed to the function, containing common * event information. * * There is also a second parameter to the chart constructor where a * callback function can be passed to be executed on chart.load. * * @sample {highcharts} highcharts/chart/events-load/ * Alert on chart load * @sample {highcharts} highcharts/chart/events-render/ * Load vs Redraw vs Render * @sample {highstock} stock/chart/events-load/ * Alert on chart load * @sample {highmaps} maps/chart/events-load/ * Add series on chart load * * @type {Highcharts.ChartLoadCallbackFunction} * @context Highcharts.Chart * @apioption chart.events.load */ /** * Fires when the chart is redrawn, either after a call to * `chart.redraw()` or after an axis, series or point is modified with * the `redraw` option set to `true`. One parameter, `event`, is passed * to the function, containing common event information. * * @sample {highcharts} highcharts/chart/events-redraw/ * Alert on chart redraw * @sample {highcharts} highcharts/chart/events-render/ * Load vs Redraw vs Render * @sample {highstock} stock/chart/events-redraw/ * Alert on chart redraw when adding a series or moving the * zoomed range * @sample {highmaps} maps/chart/events-redraw/ * Set subtitle on chart redraw * * @type {Highcharts.ChartRedrawCallbackFunction} * @since 1.2.0 * @context Highcharts.Chart * @apioption chart.events.redraw */ /** * Fires after initial load of the chart (directly after the `load` * event), and after each redraw (directly after the `redraw` event). * * @sample {highcharts} highcharts/chart/events-render/ * Load vs Redraw vs Render * * @type {Highcharts.ChartRenderCallbackFunction} * @since 5.0.7 * @context Highcharts.Chart * @apioption chart.events.render */ /** * Fires when an area of the chart has been selected. Selection is * enabled by setting the chart's zoomType. One parameter, `event`, is * passed to the function, containing common event information. The * default action for the selection event is to zoom the chart to the * selected area. It can be prevented by calling * `event.preventDefault()` or return false. * * Information on the selected area can be found through `event.xAxis` * and `event.yAxis`, which are arrays containing the axes of each * dimension and each axis' min and max values. The primary axes are * `event.xAxis[0]` and `event.yAxis[0]`. Remember the unit of a * datetime axis is milliseconds since 1970-01-01 00:00:00. * * ```js * selection: function(event) { * // log the min and max of the primary, datetime x-axis * console.log( * Highcharts.dateFormat( * '%Y-%m-%d %H:%M:%S', * event.xAxis[0].min * ), * Highcharts.dateFormat( * '%Y-%m-%d %H:%M:%S', * event.xAxis[0].max * ) * ); * // log the min and max of the y axis * console.log(event.yAxis[0].min, event.yAxis[0].max); * } * ``` * * @sample {highcharts} highcharts/chart/events-selection/ * Report on selection and reset * @sample {highcharts} highcharts/chart/events-selection-points/ * Select a range of points through a drag selection * @sample {highstock} stock/chart/events-selection/ * Report on selection and reset * @sample {highstock} highcharts/chart/events-selection-points/ * Select a range of points through a drag selection * (Highcharts) * * @type {Highcharts.ChartSelectionCallbackFunction} * @apioption chart.events.selection */ /** * The margin between the outer edge of the chart and the plot area. * The numbers in the array designate top, right, bottom and left * respectively. Use the options `marginTop`, `marginRight`, * `marginBottom` and `marginLeft` for shorthand setting of one option. * * By default there is no margin. The actual space is dynamically * calculated from the offset of axis labels, axis title, title, * subtitle and legend in addition to the `spacingTop`, `spacingRight`, * `spacingBottom` and `spacingLeft` options. * * @sample {highcharts} highcharts/chart/margins-zero/ * Zero margins * @sample {highstock} stock/chart/margin-zero/ * Zero margins * * @type {number|Array} * @apioption chart.margin */ /** * The margin between the bottom outer edge of the chart and the plot * area. Use this to set a fixed pixel value for the margin as opposed * to the default dynamic margin. See also `spacingBottom`. * * @sample {highcharts} highcharts/chart/marginbottom/ * 100px bottom margin * @sample {highstock} stock/chart/marginbottom/ * 100px bottom margin * @sample {highmaps} maps/chart/margin/ * 100px margins * * @type {number} * @since 2.0 * @apioption chart.marginBottom */ /** * The margin between the left outer edge of the chart and the plot * area. Use this to set a fixed pixel value for the margin as opposed * to the default dynamic margin. See also `spacingLeft`. * * @sample {highcharts} highcharts/chart/marginleft/ * 150px left margin * @sample {highstock} stock/chart/marginleft/ * 150px left margin * @sample {highmaps} maps/chart/margin/ * 100px margins * * @type {number} * @since 2.0 * @apioption chart.marginLeft */ /** * The margin between the right outer edge of the chart and the plot * area. Use this to set a fixed pixel value for the margin as opposed * to the default dynamic margin. See also `spacingRight`. * * @sample {highcharts} highcharts/chart/marginright/ * 100px right margin * @sample {highstock} stock/chart/marginright/ * 100px right margin * @sample {highmaps} maps/chart/margin/ * 100px margins * * @type {number} * @since 2.0 * @apioption chart.marginRight */ /** * The margin between the top outer edge of the chart and the plot area. * Use this to set a fixed pixel value for the margin as opposed to * the default dynamic margin. See also `spacingTop`. * * @sample {highcharts} highcharts/chart/margintop/ 100px top margin * @sample {highstock} stock/chart/margintop/ * 100px top margin * @sample {highmaps} maps/chart/margin/ * 100px margins * * @type {number} * @since 2.0 * @apioption chart.marginTop */ /** * Callback function to override the default function that formats all * the numbers in the chart. Returns a string with the formatted number. * * @sample highcharts/members/highcharts-numberformat * Arabic digits in Highcharts * @type {Highcharts.NumberFormatterCallbackFunction} * @since 8.0.0 * @apioption chart.numberFormatter */ /** * When a chart with an x and a y-axis is rendered, we first pre-render the * labels of both in order to measure them. Then, if either of the axis * labels take up so much space that it significantly affects the length of * the other axis, we repeat the process. * * By default we stop at two axis layout runs, but it may be that the second * run also alter the space required by either axis, for example if it * causes the labels to rotate. In this situation, a subsequent redraw of * the chart may cause the tick and label placement to change for apparently * no reason. * * Use the `axisLayoutRuns` option to set the maximum allowed number of * repetitions. But keep in mind that the default value of 2 is set because * every run costs performance time. * * **Note:** Changing that option to higher than the default might decrease * performance significantly, especially with bigger sets of data. * * @type {number} * @default 2 * @since @next * @apioption chart.axisLayoutRuns */ /** * Allows setting a key to switch between zooming and panning. Can be * one of `alt`, `ctrl`, `meta` (the command key on Mac and Windows * key on Windows) or `shift`. The keys are mapped directly to the key * properties of the click event argument (`event.altKey`, * `event.ctrlKey`, `event.metaKey` and `event.shiftKey`). * * @type {string} * @since 4.0.3 * @product highcharts gantt * @validvalue ["alt", "ctrl", "meta", "shift"] * @apioption chart.panKey */ /** * Allow panning in a chart. Best used with [panKey](#chart.panKey) * to combine zooming and panning. * * On touch devices, when the [tooltip.followTouchMove]( * #tooltip.followTouchMove) option is `true` (default), panning * requires two fingers. To allow panning with one finger, set * `followTouchMove` to `false`. * * @sample {highcharts} highcharts/chart/pankey/ Zooming and panning * @sample {highstock} stock/chart/panning/ Zooming and xy panning */ panning: { /** * Enable or disable chart panning. * * @type {boolean} * @default {highcharts} false * @default {highstock|highmaps} true */ enabled: false, /** * Decides in what dimensions the user can pan the chart. Can be * one of `x`, `y`, or `xy`. * * When this option is set to `y` or `xy`, [yAxis.startOnTick](#yAxis.startOnTick) * and [yAxis.endOnTick](#yAxis.endOnTick) are overwritten to `false`. * * @sample {highcharts} highcharts/chart/panning-type * Zooming and xy panning * * @declare Highcharts.OptionsChartPanningTypeValue * @type {string} * @validvalue ["x", "y", "xy"] * @default {highcharts|highstock} x * @product highcharts highstock gantt */ type: 'x' }, /** * Equivalent to [zoomType](#chart.zoomType), but for multitouch * gestures only. By default, the `pinchType` is the same as the * `zoomType` setting. However, pinching can be enabled separately in * some cases, for example in stock charts where a mouse drag pans the * chart, while pinching is enabled. When [tooltip.followTouchMove]( * #tooltip.followTouchMove) is true, pinchType only applies to * two-finger touches. * * @type {string} * @default {highcharts} undefined * @default {highstock} undefined * @since 3.0 * @product highcharts highstock gantt * @deprecated * @validvalue ["x", "y", "xy"] * @apioption chart.pinchType */ /** * Whether to apply styled mode. When in styled mode, no presentational * attributes or CSS are applied to the chart SVG. Instead, CSS rules * are required to style the chart. The default style sheet is * available from `https://code.highcharts.com/css/highcharts.css`. * * [Read more in the docs](https://www.highcharts.com/docs/chart-design-and-style/style-by-css) * on what classes and variables are available. * * @sample highcharts/css/colors * Color theming with CSS * @sample highcharts/css/prefers-color-scheme * Dynamic theme based on system settings * @type {boolean} * @default false * @since 7.0 * @apioption chart.styledMode */ styledMode: false, /** * The corner radius of the outer chart border. * * @sample {highcharts} highcharts/chart/borderradius/ * 20px radius * @sample {highstock} stock/chart/border/ * 10px radius * @sample {highmaps} maps/chart/border/ * Border options * */ borderRadius: 0, /** * In styled mode, this sets how many colors the class names * should rotate between. With ten colors, series (or points) are * given class names like `highcharts-color-0`, `highcharts-color-1` * [...] `highcharts-color-9`. The equivalent in non-styled mode * is to set colors using the [colors](#colors) setting. * * @since 5.0.0 */ colorCount: 10, /** * By default, (because of memory and performance reasons) the chart does * not copy the data but keeps it as a reference. In some cases, this might * result in mutating the original data source. In order to prevent that, * set that property to false. Please note that changing that might decrease * performance, especially with bigger sets of data. * * @type {boolean} * @since 10.1.0 */ allowMutatingData: true, /** * If true, the axes will scale to the remaining visible series once * one series is hidden. If false, hiding and showing a series will * not affect the axes or the other series. For stacks, once one series * within the stack is hidden, the rest of the stack will close in * around it even if the axis is not affected. * * @sample {highcharts} highcharts/chart/ignorehiddenseries-true/ * True by default * @sample {highcharts} highcharts/chart/ignorehiddenseries-false/ * False * @sample {highcharts} highcharts/chart/ignorehiddenseries-true-stacked/ * True with stack * @sample {highstock} stock/chart/ignorehiddenseries-true/ * True by default * @sample {highstock} stock/chart/ignorehiddenseries-false/ * False * * @since 1.2.0 * @product highcharts highstock gantt */ ignoreHiddenSeries: true, /** * Whether to invert the axes so that the x axis is vertical and y axis * is horizontal. When `true`, the x axis is [reversed](#xAxis.reversed) * by default. * * @productdesc {highcharts} * If a bar series is present in the chart, it will be inverted * automatically. Inverting the chart doesn't have an effect if there * are no cartesian series in the chart. * * @sample {highcharts} highcharts/chart/inverted/ * Inverted line * @sample {highstock} stock/navigator/inverted/ * Inverted stock chart * * @type {boolean} * @default false * @product highcharts highstock gantt * @apioption chart.inverted */ /** * The distance between the outer edge of the chart and the content, * like title or legend, or axis title and labels if present. The * numbers in the array designate top, right, bottom and left * respectively. Use the options spacingTop, spacingRight, spacingBottom * and spacingLeft options for shorthand setting of one option. * * @type {Array} * @see [chart.margin](#chart.margin) * @default [10, 10, 15, 10] * @since 3.0.6 */ spacing: [10, 10, 15, 10], /** * The button that appears after a selection zoom, allowing the user * to reset zoom. This option is deprecated in favor of * [zooming](#chart.zooming). * * @since 2.2 * @deprecated 10.2.1 */ resetZoomButton: { /** * What frame the button placement should be related to. Can be * either `plotBox` or `spacingBox`. * * @sample {highcharts} highcharts/chart/resetzoombutton-relativeto/ * Relative to the chart * @sample {highstock} highcharts/chart/resetzoombutton-relativeto/ * Relative to the chart * * @type {Highcharts.ButtonRelativeToValue} * @apioption chart.resetZoomButton.relativeTo */ /** * A collection of attributes for the button. The object takes SVG * attributes like `fill`, `stroke`, `stroke-width` or `r`, the * border radius. The theme also supports `style`, a collection of * CSS properties for the text. Equivalent attributes for the hover * state are given in `theme.states.hover`. * * @sample {highcharts} highcharts/chart/resetzoombutton-theme/ * Theming the button * @sample {highstock} highcharts/chart/resetzoombutton-theme/ * Theming the button * * @type {Highcharts.SVGAttributes} */ theme: { /** * The z-index of the button. * * @type {number} * @apioption chart.resetZoomButton.theme.zIndex */ }, /** * The position of the button. * * @sample {highcharts} highcharts/chart/resetzoombutton-position/ * Above the plot area * @sample {highstock} highcharts/chart/resetzoombutton-position/ * Above the plot area * @sample {highmaps} highcharts/chart/resetzoombutton-position/ * Above the plot area * * @type {Highcharts.AlignObject} */ position: { /** * The horizontal alignment of the button. * * @type {number} * @apioption chart.resetZoomButton.position.align */ /** * The horizontal offset of the button. * * @type {number} * @apioption chart.resetZoomButton.position.x */ /** * The vertical alignment of the button. * * @type {Highcharts.VerticalAlignValue} * @apioption chart.resetZoomButton.position.verticalAlign */ /** * The vertical offset of the button. * * @type {number} * @apioption chart.resetZoomButton.position.y */ } }, /** * The pixel width of the plot area border. * * @sample {highcharts} highcharts/chart/plotborderwidth/ * 1px border * @sample {highstock} stock/chart/plotborder/ * 2px border * @sample {highmaps} maps/chart/plotborder/ * Plot border options * * @type {number} * @default 0 * @apioption chart.plotBorderWidth */ /** * Whether to apply a drop shadow to the plot area. Requires that * plotBackgroundColor be set. The shadow can be an object configuration * containing `color`, `offsetX`, `offsetY`, `opacity` and `width`. * * @sample {highcharts} highcharts/chart/plotshadow/ * Plot shadow * @sample {highstock} stock/chart/plotshadow/ * Plot shadow * @sample {highmaps} maps/chart/plotborder/ * Plot border options * * @type {boolean|Highcharts.ShadowOptionsObject} * @default false * @apioption chart.plotShadow */ /** * When true, cartesian charts like line, spline, area and column are * transformed into the polar coordinate system. This produces _polar * charts_, also known as _radar charts_. * * @sample {highcharts} highcharts/demo/polar/ * Polar chart * @sample {highcharts} highcharts/demo/polar-wind-rose/ * Wind rose, stacked polar column chart * @sample {highcharts} highcharts/demo/polar-spider/ * Spider web chart * @sample {highcharts} highcharts/parallel-coordinates/polar/ * Star plot, multivariate data in a polar chart * * @type {boolean} * @default false * @since 2.3.0 * @product highcharts * @requires highcharts-more * @apioption chart.polar */ /** * Whether to reflow the chart to fit the width of the container div * on resizing the window. * * @sample {highcharts} highcharts/chart/reflow-true/ * True by default * @sample {highcharts} highcharts/chart/reflow-false/ * False * @sample {highstock} stock/chart/reflow-true/ * True by default * @sample {highstock} stock/chart/reflow-false/ * False * @sample {highmaps} maps/chart/reflow-true/ * True by default * @sample {highmaps} maps/chart/reflow-false/ * False * * @since 2.1 */ reflow: true, /** * The HTML element where the chart will be rendered. If it is a string, * the element by that id is used. The HTML element can also be passed * by direct reference, or as the first argument of the chart * constructor, in which case the option is not needed. * * @sample {highcharts} highcharts/chart/reflow-true/ * String * @sample {highcharts} highcharts/chart/renderto-object/ * Object reference * @sample {highstock} stock/chart/renderto-string/ * String * @sample {highstock} stock/chart/renderto-object/ * Object reference * * @type {string|Highcharts.HTMLDOMElement} * @apioption chart.renderTo */ /** * The background color of the marker square when selecting (zooming * in on) an area of the chart. * * @see In styled mode, the selection marker fill is set with the * `.highcharts-selection-marker` class. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default rgba(51,92,173,0.25) * @since 2.1.7 * @apioption chart.selectionMarkerFill */ /** * Whether to apply a drop shadow to the global series group. This causes * all the series to have the same shadow. Contrary to the `series.shadow` * option, this prevents items from casting shadows on each other, like for * others series in a stack. The shadow can be an object configuration * containing `color`, `offsetX`, `offsetY`, `opacity` and `width`. * * @sample highcharts/chart/seriesgroupshadow/ Shadow * * @type {boolean|Highcharts.ShadowOptionsObject} * @default false * @apioption chart.shadow */ /** * Whether to apply a drop shadow to the outer chart area. Requires * that backgroundColor be set. The shadow can be an object * configuration containing `color`, `offsetX`, `offsetY`, `opacity` and * `width`. * * @sample {highcharts} highcharts/chart/shadow/ * Shadow * @sample {highstock} stock/chart/shadow/ * Shadow * @sample {highmaps} maps/chart/border/ * Chart border and shadow * * @type {boolean|Highcharts.ShadowOptionsObject} * @default false * @apioption chart.shadow */ /** * Whether to show the axes initially. This only applies to empty charts * where series are added dynamically, as axes are automatically added * to cartesian series. * * @sample {highcharts} highcharts/chart/showaxes-false/ * False by default * @sample {highcharts} highcharts/chart/showaxes-true/ * True * * @type {boolean} * @since 1.2.5 * @product highcharts gantt * @apioption chart.showAxes */ /** * The space between the bottom edge of the chart and the content (plot * area, axis title and labels, title, subtitle or legend in top * position). * * @sample {highcharts} highcharts/chart/spacingbottom/ * Spacing bottom set to 100 * @sample {highstock} stock/chart/spacingbottom/ * Spacing bottom set to 100 * @sample {highmaps} maps/chart/spacing/ * Spacing 100 all around * * @type {number} * @default 15 * @since 2.1 * @apioption chart.spacingBottom */ /** * The space between the left edge of the chart and the content (plot * area, axis title and labels, title, subtitle or legend in top * position). * * @sample {highcharts} highcharts/chart/spacingleft/ * Spacing left set to 100 * @sample {highstock} stock/chart/spacingleft/ * Spacing left set to 100 * @sample {highmaps} maps/chart/spacing/ * Spacing 100 all around * * @type {number} * @default 10 * @since 2.1 * @apioption chart.spacingLeft */ /** * The space between the right edge of the chart and the content (plot * area, axis title and labels, title, subtitle or legend in top * position). * * @sample {highcharts} highcharts/chart/spacingright-100/ * Spacing set to 100 * @sample {highcharts} highcharts/chart/spacingright-legend/ * Legend in right position with default spacing * @sample {highstock} stock/chart/spacingright/ * Spacing set to 100 * @sample {highmaps} maps/chart/spacing/ * Spacing 100 all around * * @type {number} * @default 10 * @since 2.1 * @apioption chart.spacingRight */ /** * The space between the top edge of the chart and the content (plot * area, axis title and labels, title, subtitle or legend in top * position). * * @sample {highcharts} highcharts/chart/spacingtop-100/ * A top spacing of 100 * @sample {highcharts} highcharts/chart/spacingtop-10/ * Floating chart title makes the plot area align to the default * spacingTop of 10. * @sample {highstock} stock/chart/spacingtop/ * A top spacing of 100 * @sample {highmaps} maps/chart/spacing/ * Spacing 100 all around * * @type {number} * @default 10 * @since 2.1 * @apioption chart.spacingTop */ /** * Additional CSS styles to apply inline to the container `div` and the root * SVG. * * According to the CSS syntax documentation, it is recommended to quote * font family names that contain white space, digits, or punctuation * characters other than hyphens. In such cases, wrap the fontFamily * name as follows: `fontFamily: '"Font name"'`. * * Since v11, the root font size is 1rem by default, and all child element * are given a relative `em` font size by default. This allows implementers * to control all the chart's font sizes by only setting the root level. * * @see In styled mode, general chart styles can be set with the * `.highcharts-root` class. * @sample {highcharts} highcharts/chart/style-serif-font/ * Using a serif type font * @sample {highcharts} highcharts/chart/style-special-font/ * Using a font with special character in name * @sample {highcharts} highcharts/members/relative-font-size/ * Relative font sizes * @sample {highcharts} highcharts/css/em/ * Styled mode with relative font sizes * @sample {highstock} stock/chart/style/ * Using a serif type font * @sample {highmaps} maps/chart/style-serif-font/ * Using a serif type font * * @type {Highcharts.CSSObject} * @default {"fontFamily": Helvetica, Arial, sans-serif","fontSize":"1rem"} * @apioption chart.style */ /** * The default series type for the chart. Can be any of the chart types * listed under [plotOptions](#plotOptions) and [series](#series) or can * be a series provided by an additional module. * * In TypeScript this option has no effect in sense of typing and * instead the `type` option must always be set in the series. * * @sample {highcharts} highcharts/chart/type-bar/ * Bar * @sample {highstock} stock/chart/type/ * Areaspline * @sample {highmaps} maps/chart/type-mapline/ * Mapline * * @type {string} * @default {highcharts} line * @default {highstock} line * @default {highmaps} map * @since 2.1.0 * @apioption chart.type */ type: 'line', /** * Decides in what dimensions the user can zoom by dragging the mouse. * Can be one of `x`, `y` or `xy`. * * @see [panKey](#chart.panKey) * * @sample {highcharts} highcharts/chart/zoomtype-none/ * None by default * @sample {highcharts} highcharts/chart/zoomtype-x/ * X * @sample {highcharts} highcharts/chart/zoomtype-y/ * Y * @sample {highcharts} highcharts/chart/zoomtype-xy/ * Xy * @sample {highcharts} highcharts/chart/zoomtype-polar/ * Zoom on polar chart * @sample {highstock} stock/demo/basic-line/ * None by default * @sample {highstock} stock/chart/zoomtype-x/ * X * @sample {highstock} stock/chart/zoomtype-y/ * Y * @sample {highstock} stock/chart/zoomtype-xy/ * Xy * @sample {highmaps} maps/chart/zoomtype-xy/ * Map with selection zoom * * @type {string} * @validvalue ["x", "y", "xy"] * @deprecated * @apioption chart.zoomType */ /** * Enables zooming by a single touch, in combination with * [chart.zoomType](#chart.zoomType). When enabled, two-finger pinch * will still work as set up by [chart.pinchType](#chart.pinchType). * However, `zoomBySingleTouch` will interfere with touch-dragging the * chart to read the tooltip. And especially when vertical zooming is * enabled, it will make it hard to scroll vertically on the page. * @since 9.0.0 * @sample highcharts/chart/zoombysingletouch * Zoom by single touch enabled, with buttons to toggle * @product highcharts highstock gantt * @deprecated */ /** * Chart zooming options. * @since 10.2.1 */ zooming: { /** * Equivalent to [type](#chart.zooming.type), but for multitouch * gestures only. By default, the `pinchType` is the same as the * `type` setting. However, pinching can be enabled separately in * some cases, for example in stock charts where a mouse drag pans the * chart, while pinching is enabled. When [tooltip.followTouchMove]( * #tooltip.followTouchMove) is true, pinchType only applies to * two-finger touches. * * @type {string} * @default {highcharts} undefined * @default {highstock} x * @product highcharts highstock gantt * @validvalue ["x", "y", "xy"] * @apioption chart.zooming.pinchType */ /** * Decides in what dimensions the user can zoom by dragging the mouse. * Can be one of `x`, `y` or `xy`. * * @declare Highcharts.OptionsChartZoomingTypeValue * @type {string} * @default {highcharts} undefined * @product highcharts highstock gantt * @validvalue ["x", "y", "xy"] * @apioption chart.zooming.type */ /** * Set a key to hold when dragging to zoom the chart. This is useful to * avoid zooming while moving points. Should be set different than * [chart.panKey](#chart.panKey). * * @type {string} * @default {highcharts} undefined * @validvalue ["alt", "ctrl", "meta", "shift"] * @requires modules/draggable-points * @apioption chart.zooming.key */ /** * Enables zooming by a single touch, in combination with * [chart.zooming.type](#chart.zooming.type). When enabled, two-finger * pinch will still work as set up by [chart.zooming.pinchType] * (#chart.zooming.pinchType). However, `singleTouch` will interfere * with touch-dragging the chart to read the tooltip. And especially * when vertical zooming is enabled, it will make it hard to scroll * vertically on the page. * * @sample highcharts/chart/zoombysingletouch * Zoom by single touch enabled, with buttons to toggle * * @product highcharts highstock gantt */ singleTouch: false, /** * The button that appears after a selection zoom, allowing the user * to reset zoom. */ resetButton: { /** * What frame the button placement should be related to. Can be * either `plotBox` or `spacingBox`. * * @sample {highcharts} highcharts/chart/resetzoombutton-relativeto/ * Relative to the chart * @sample {highstock} highcharts/chart/resetzoombutton-relativeto/ * Relative to the chart * * @type {Highcharts.ButtonRelativeToValue} * @default plot * @apioption chart.zooming.resetButton.relativeTo */ /** * A collection of attributes for the button. The object takes SVG * attributes like `fill`, `stroke`, `stroke-width` or `r`, the * border radius. The theme also supports `style`, a collection of * CSS properties for the text. Equivalent attributes for the hover * state are given in `theme.states.hover`. * * @sample {highcharts} highcharts/chart/resetzoombutton-theme/ * Theming the button * @sample {highstock} highcharts/chart/resetzoombutton-theme/ * Theming the button * * @type {Highcharts.SVGAttributes} * @since 10.2.1 */ theme: { /** @internal */ zIndex: 6 }, /** * The position of the button. * * Note: Adjusting position values might cause overlap with chart * elements. Ensure coordinates do not obstruct other components or * data visibility. * * @sample {highcharts} highcharts/chart/resetzoombutton-position/ * Above the plot area * @sample {highstock} highcharts/chart/resetzoombutton-position/ * Above the plot area * @sample {highmaps} highcharts/chart/resetzoombutton-position/ * Above the plot area * * @type {Highcharts.AlignObject} * @since 10.2.1 */ position: { /** * The horizontal alignment of the button. */ align: 'right', /** * The horizontal offset of the button. */ x: -10, /** * The vertical alignment of the button. * * @type {Highcharts.VerticalAlignValue} * @default top * @apioption chart.zooming.resetButton.position.verticalAlign */ /** * The vertical offset of the button. */ y: 10 } } }, /** * An explicit width for the chart. By default (when `null`) the width * is calculated from the offset width of the containing element. * * @sample {highcharts} highcharts/chart/width/ * 800px wide * @sample {highstock} stock/chart/width/ * 800px wide * @sample {highmaps} maps/chart/size/ * Chart with explicit size * * @type {null|number|string} */ width: null, /** * An explicit height for the chart. If a _number_, the height is * given in pixels. If given a _percentage string_ (for example * `'56%'`), the height is given as the percentage of the actual chart * width. This allows for preserving the aspect ratio across responsive * sizes. * * By default (when `null`) the height is calculated from the offset * height of the containing element, or 400 pixels if the containing * element's height is 0. * * @sample {highcharts} highcharts/chart/height/ * 500px height * @sample {highstock} stock/chart/height/ * 300px height * @sample {highmaps} maps/chart/size/ * Chart with explicit size * @sample highcharts/chart/height-percent/ * Highcharts with percentage height * * @type {null|number|string} */ height: null, /** * The color of the outer chart border. * * @see In styled mode, the stroke is set with the * `.highcharts-background` class. * * @sample {highcharts} highcharts/chart/bordercolor/ * Brown border * @sample {highstock} stock/chart/border/ * Brown border * @sample {highmaps} maps/chart/border/ * Border options * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ borderColor: "#334eff" /* Palette.highlightColor80 */, /** * The pixel width of the outer chart border. * * @see In styled mode, the stroke is set with the * `.highcharts-background` class. * * @sample {highcharts} highcharts/chart/borderwidth/ * 5px border * @sample {highstock} stock/chart/border/ * 2px border * @sample {highmaps} maps/chart/border/ * Border options * * @type {number} * @default 0 * @apioption chart.borderWidth */ /** * The background color or gradient for the outer chart area. * * @see In styled mode, the background is set with the * `.highcharts-background` class. * * @sample {highcharts} highcharts/chart/backgroundcolor-color/ * Color * @sample {highcharts} highcharts/chart/backgroundcolor-gradient/ * Gradient * @sample {highstock} stock/chart/backgroundcolor-color/ * Color * @sample {highstock} stock/chart/backgroundcolor-gradient/ * Gradient * @sample {highmaps} maps/chart/backgroundcolor-color/ * Color * @sample {highmaps} maps/chart/backgroundcolor-gradient/ * Gradient * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ backgroundColor: "#ffffff" /* Palette.backgroundColor */, /** * The background color or gradient for the plot area. * * @see In styled mode, the plot background is set with the * `.highcharts-plot-background` class. * * @sample {highcharts} highcharts/chart/plotbackgroundcolor-color/ * Color * @sample {highcharts} highcharts/chart/plotbackgroundcolor-gradient/ * Gradient * @sample {highstock} stock/chart/plotbackgroundcolor-color/ * Color * @sample {highstock} stock/chart/plotbackgroundcolor-gradient/ * Gradient * @sample {highmaps} maps/chart/plotbackgroundcolor-color/ * Color * @sample {highmaps} maps/chart/plotbackgroundcolor-gradient/ * Gradient * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption chart.plotBackgroundColor */ /** * The URL for an image to use as the plot background. To set an image * as the background for the entire chart, set a CSS background image * to the container element. Note that for the image to be applied to * exported charts, its URL needs to be accessible by the export server. * * @see In styled mode, a plot background image can be set with the * `.highcharts-plot-background` class and a [custom pattern]( * https://www.highcharts.com/docs/chart-design-and-style/gradients-shadows-and-patterns). * * @sample {highcharts} highcharts/chart/plotbackgroundimage/ * Skies * @sample {highstock} stock/chart/plotbackgroundimage/ * Skies * * @type {string} * @apioption chart.plotBackgroundImage */ /** * The color of the inner chart or plot area border. * * @see In styled mode, a plot border stroke can be set with the * `.highcharts-plot-border` class. * * @sample {highcharts} highcharts/chart/plotbordercolor/ * Blue border * @sample {highstock} stock/chart/plotborder/ * Blue border * @sample {highmaps} maps/chart/plotborder/ * Plot border options * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ plotBorderColor: "#cccccc" /* Palette.neutralColor20 */ }; /* * * * Default Export * * */ return ChartDefaults; }); _registerModule(_modules, 'Core/Color/Palettes.js', [], function () { /* * Series palettes for Highcharts. Series colors are defined in highcharts.css. * **Do not edit this file!** This file is generated using the 'gulp palette' task. */ const SeriesPalettes = { /** * Colors for data series and points */ colors: [ '#2caffe', '#544fc5', '#00e272', '#fe6a35', '#6b8abc', '#d568fb', '#2ee0ca', '#fa4b42', '#feb56a', '#91e8e1' ] }; return SeriesPalettes; }); _registerModule(_modules, 'Core/Time.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { win } = H; const { defined, error, extend, isNumber, isObject, merge, objectEach, pad, pick, splat, timeUnits } = U; /* * * * Constants * * */ const hasNewSafariBug = H.isSafari && win.Intl && win.Intl.DateTimeFormat.prototype.formatRange; // To do: Remove this when we no longer need support for Safari < v14.1 const hasOldSafariBug = H.isSafari && win.Intl && !win.Intl.DateTimeFormat.prototype.formatRange; /* * * * Class * * */ /* eslint-disable no-invalid-this, valid-jsdoc */ /** * The Time class. Time settings are applied in general for each page using * `Highcharts.setOptions`, or individually for each Chart item through the * [time](https://api.highcharts.com/highcharts/time) options set. * * The Time object is available from {@link Highcharts.Chart#time}, * which refers to `Highcharts.time` if no individual time settings are * applied. * * @example * // Apply time settings globally * Highcharts.setOptions({ * time: { * timezone: 'Europe/London' * } * }); * * // Apply time settings by instance * let chart = Highcharts.chart('container', { * time: { * timezone: 'America/New_York' * }, * series: [{ * data: [1, 4, 3, 5] * }] * }); * * // Use the Time object * console.log( * 'Current time in New York', * chart.time.dateFormat('%Y-%m-%d %H:%M:%S', Date.now()) * ); * * @since 6.0.5 * * @class * @name Highcharts.Time * * @param {Highcharts.TimeOptions} [options] * Time options as defined in [chart.options.time](/highcharts/time). */ class Time { /* * * * Constructors * * */ constructor(options) { /* * * * Properties * * */ this.options = {}; this.useUTC = false; this.variableTimezone = false; this.Date = win.Date; /** * Get the time zone offset based on the current timezone information as * set in the global options. * * @function Highcharts.Time#getTimezoneOffset * * @param {number} timestamp * The JavaScript timestamp to inspect. * * @return {number} * The timezone offset in minutes compared to UTC. */ this.getTimezoneOffset = this.timezoneOffsetFunction(); this.update(options); } /* * * * Functions * * */ /** * Time units used in `Time.get` and `Time.set` * * @typedef {"Date"|"Day"|"FullYear"|"Hours"|"Milliseconds"|"Minutes"|"Month"|"Seconds"} Highcharts.TimeUnitValue */ /** * Get the value of a date object in given units, and subject to the Time * object's current timezone settings. This function corresponds directly to * JavaScripts `Date.getXXX / Date.getUTCXXX`, so instead of calling * `date.getHours()` or `date.getUTCHours()` we will call * `time.get('Hours')`. * * @function Highcharts.Time#get * * @param {Highcharts.TimeUnitValue} unit * @param {Date} date * * @return {number} * The given time unit */ get(unit, date) { if (this.variableTimezone || this.timezoneOffset) { const realMs = date.getTime(); const ms = realMs - this.getTimezoneOffset(date); date.setTime(ms); // Temporary adjust to timezone const ret = date['getUTC' + unit](); date.setTime(realMs); // Reset return ret; } // UTC time with no timezone handling if (this.useUTC) { return date['getUTC' + unit](); } // Else, local time return date['get' + unit](); } /** * Set the value of a date object in given units, and subject to the Time * object's current timezone settings. This function corresponds directly to * JavaScripts `Date.setXXX / Date.setUTCXXX`, so instead of calling * `date.setHours(0)` or `date.setUTCHours(0)` we will call * `time.set('Hours', 0)`. * * @function Highcharts.Time#set * * @param {Highcharts.TimeUnitValue} unit * @param {Date} date * @param {number} value * * @return {number} * The epoch milliseconds of the updated date */ set(unit, date, value) { // UTC time with timezone handling if (this.variableTimezone || this.timezoneOffset) { // For lower order time units, just set it directly using UTC // time if (unit === 'Milliseconds' || unit === 'Seconds' || (unit === 'Minutes' && this.getTimezoneOffset(date) % 3600000 === 0) // #13961 ) { return date['setUTC' + unit](value); } // Higher order time units need to take the time zone into // account // Adjust by timezone const offset = this.getTimezoneOffset(date); let ms = date.getTime() - offset; date.setTime(ms); date['setUTC' + unit](value); const newOffset = this.getTimezoneOffset(date); ms = date.getTime() + newOffset; return date.setTime(ms); } // UTC time with no timezone handling if (this.useUTC || // Leap calculation in UTC only (hasNewSafariBug && unit === 'FullYear')) { return date['setUTC' + unit](value); } // Else, local time return date['set' + unit](value); } /** * Update the Time object with current options. It is called internally on * initializing Highcharts, after running `Highcharts.setOptions` and on * `Chart.update`. * * @private * @function Highcharts.Time#update * * @param {Highcharts.TimeOptions} [options] * */ update(options = {}) { const useUTC = pick(options.useUTC, true); this.options = options = merge(true, this.options, options); // Allow using a different Date class this.Date = options.Date || win.Date || Date; this.useUTC = useUTC; this.timezoneOffset = (useUTC && options.timezoneOffset) || void 0; this.getTimezoneOffset = this.timezoneOffsetFunction(); /* * The time object has options allowing for variable time zones, meaning * the axis ticks or series data needs to consider this. */ this.variableTimezone = useUTC && !!(options.getTimezoneOffset || options.timezone); } /** * Make a time and returns milliseconds. Interprets the inputs as UTC time, * local time or a specific timezone time depending on the current time * settings. * * @function Highcharts.Time#makeTime * * @param {number} year * The year * * @param {number} month * The month. Zero-based, so January is 0. * * @param {number} [date=1] * The day of the month * * @param {number} [hours=0] * The hour of the day, 0-23. * * @param {number} [minutes=0] * The minutes * * @param {number} [seconds=0] * The seconds * * @return {number} * The time in milliseconds since January 1st 1970. */ makeTime(year, month, date, hours, minutes, seconds) { let d, offset, newOffset; if (this.useUTC) { d = this.Date.UTC.apply(0, arguments); offset = this.getTimezoneOffset(d); d += offset; newOffset = this.getTimezoneOffset(d); if (offset !== newOffset) { d += newOffset - offset; // A special case for transitioning from summer time to winter time. // When the clock is set back, the same time is repeated twice, i.e. // 02:30 am is repeated since the clock is set back from 3 am to // 2 am. We need to make the same time as local Date does. } else if (offset - 36e5 === this.getTimezoneOffset(d - 36e5) && !hasOldSafariBug) { d -= 36e5; } } else { d = new this.Date(year, month, pick(date, 1), pick(hours, 0), pick(minutes, 0), pick(seconds, 0)).getTime(); } return d; } /** * Sets the getTimezoneOffset function. If the `timezone` option is set, a * default getTimezoneOffset function with that timezone is returned. If * a `getTimezoneOffset` option is defined, it is returned. If neither are * specified, the function using the `timezoneOffset` option or 0 offset is * returned. * * @private * @function Highcharts.Time#timezoneOffsetFunction * * @return {Function} * A getTimezoneOffset function */ timezoneOffsetFunction() { const time = this, options = this.options, getTimezoneOffset = options.getTimezoneOffset; if (!this.useUTC) { return (timestamp) => new Date(timestamp.toString()).getTimezoneOffset() * 60000; } if (options.timezone) { return (timestamp) => { try { // Cache the DateTimeFormat instances for performance // (#20720) const cacheKey = `shortOffset,${options.timezone || ''}`, dateTimeFormat = Time.formatCache[cacheKey] = (Time.formatCache[cacheKey] || // eslint-disable-next-line new-cap Intl.DateTimeFormat('en', { timeZone: options.timezone, timeZoneName: 'shortOffset' })); // eslint-disable-next-line @typescript-eslint/no-unused-vars const [date, gmt, hours, colon, minutes = 0] = dateTimeFormat .format(timestamp) .split(/(GMT|:)/) .map(Number), offset = -(hours + minutes / 60) * 60 * 60000; // Possible future NaNs stop here if (isNumber(offset)) { return offset; } } catch (e) { error(34); } return 0; }; } // If not timezone is set, look for the getTimezoneOffset callback if (this.useUTC && getTimezoneOffset) { return (timestamp) => getTimezoneOffset(timestamp.valueOf()) * 60000; } // Last, use the `timezoneOffset` option if set return () => (time.timezoneOffset || 0) * 60000; } /** * Formats a JavaScript date timestamp (milliseconds since Jan 1st 1970) * into a human readable date string. The available format keys are listed * below. Additional formats can be given in the * {@link Highcharts.dateFormats} hook. * * Supported format keys: * - `%a`: Short weekday, like 'Mon' * - `%A`: Long weekday, like 'Monday' * - `%d`: Two digit day of the month, 01 to 31 * - `%e`: Day of the month, 1 through 31 * - `%w`: Day of the week, 0 through 6 * - `%b`: Short month, like 'Jan' * - `%B`: Long month, like 'January' * - `%m`: Two digit month number, 01 through 12 * - `%y`: Two digits year, like 09 for 2009 * - `%Y`: Four digits year, like 2009 * - `%H`: Two digits hours in 24h format, 00 through 23 * - `%k`: Hours in 24h format, 0 through 23 * - `%I`: Two digits hours in 12h format, 00 through 11 * - `%l`: Hours in 12h format, 1 through 12 * - `%M`: Two digits minutes, 00 through 59 * - `%p`: Upper case AM or PM * - `%P`: Lower case AM or PM * - `%S`: Two digits seconds, 00 through 59 * - `%L`: Milliseconds (naming from Ruby) * * @example * const time = new Highcharts.Time(); * const s = time.dateFormat('%Y-%m-%d %H:%M:%S', Date.UTC(2020, 0, 1)); * console.log(s); // => 2020-01-01 00:00:00 * * @function Highcharts.Time#dateFormat * * @param {string} format * The desired format where various time representations are * prefixed with %. * * @param {number} [timestamp] * The JavaScript timestamp. * * @param {boolean} [capitalize=false] * Upper case first letter in the return. * * @return {string} * The formatted date. */ dateFormat(format, timestamp, capitalize) { if (!defined(timestamp) || isNaN(timestamp)) { return (H.defaultOptions.lang && H.defaultOptions.lang.invalidDate || ''); } format = pick(format, '%Y-%m-%d %H:%M:%S'); const time = this, date = new this.Date(timestamp), // Get the basic time values hours = this.get('Hours', date), day = this.get('Day', date), dayOfMonth = this.get('Date', date), month = this.get('Month', date), fullYear = this.get('FullYear', date), lang = H.defaultOptions.lang, langWeekdays = (lang && lang.weekdays), shortWeekdays = (lang && lang.shortWeekdays), // List all format keys. Custom formats can be added from the // outside. replacements = extend({ // Day // Short weekday, like 'Mon' a: shortWeekdays ? shortWeekdays[day] : langWeekdays[day].substr(0, 3), // Long weekday, like 'Monday' A: langWeekdays[day], // Two digit day of the month, 01 to 31 d: pad(dayOfMonth), // Day of the month, 1 through 31 e: pad(dayOfMonth, 2, ' '), // Day of the week, 0 through 6 w: day, // Week (none implemented) // 'W': weekNumber(), // Month // Short month, like 'Jan' b: lang.shortMonths[month], // Long month, like 'January' B: lang.months[month], // Two digit month number, 01 through 12 m: pad(month + 1), // Month number, 1 through 12 (#8150) o: month + 1, // Year // Two digits year, like 09 for 2009 y: fullYear.toString().substr(2, 2), // Four digits year, like 2009 Y: fullYear, // Time // Two digits hours in 24h format, 00 through 23 H: pad(hours), // Hours in 24h format, 0 through 23 k: hours, // Two digits hours in 12h format, 00 through 11 I: pad((hours % 12) || 12), // Hours in 12h format, 1 through 12 l: (hours % 12) || 12, // Two digits minutes, 00 through 59 M: pad(this.get('Minutes', date)), // Upper case AM or PM p: hours < 12 ? 'AM' : 'PM', // Lower case AM or PM P: hours < 12 ? 'am' : 'pm', // Two digits seconds, 00 through 59 S: pad(this.get('Seconds', date)), // Milliseconds (naming from Ruby) L: pad(Math.floor(timestamp % 1000), 3) }, H.dateFormats); // Do the replaces objectEach(replacements, function (val, key) { // Regex would do it in one line, but this is faster while (format.indexOf('%' + key) !== -1) { format = format.replace('%' + key, typeof val === 'function' ? val.call(time, timestamp) : val); } }); // Optionally capitalize the string and return return capitalize ? (format.substr(0, 1).toUpperCase() + format.substr(1)) : format; } /** * Resolve legacy formats of dateTimeLabelFormats (strings and arrays) into * an object. * @private * @param {string|Array|Highcharts.Dictionary} f * General format description * @return {Highcharts.Dictionary} * The object definition */ resolveDTLFormat(f) { if (!isObject(f, true)) { // Check for string or array f = splat(f); return { main: f[0], from: f[1], to: f[2] }; } return f; } /** * Return an array with time positions distributed on round time values * right and right after min and max. Used in datetime axes as well as for * grouping data on a datetime axis. * * @function Highcharts.Time#getTimeTicks * * @param {Highcharts.TimeNormalizedObject} 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=1] * * @return {Highcharts.AxisTickPositionsArray} * Time positions */ getTimeTicks(normalizedInterval, min, max, startOfWeek) { const time = this, Date = time.Date, tickPositions = [], higherRanks = {}, // When crossing DST, use the max. Resolves #6278. minDate = new Date(min), interval = normalizedInterval.unitRange, count = normalizedInterval.count || 1; let i, minYear, // Used in months and years as a basis for Date.UTC() variableDayLength, minDay; startOfWeek = pick(startOfWeek, 1); if (defined(min)) { // #1300 time.set('Milliseconds', minDate, interval >= timeUnits.second ? 0 : // #3935 count * Math.floor(time.get('Milliseconds', minDate) / count)); // #3652, #3654 if (interval >= timeUnits.second) { // Second time.set('Seconds', minDate, interval >= timeUnits.minute ? 0 : // #3935 count * Math.floor(time.get('Seconds', minDate) / count)); } if (interval >= timeUnits.minute) { // Minute time.set('Minutes', minDate, interval >= timeUnits.hour ? 0 : count * Math.floor(time.get('Minutes', minDate) / count)); } if (interval >= timeUnits.hour) { // Hour time.set('Hours', minDate, interval >= timeUnits.day ? 0 : count * Math.floor(time.get('Hours', minDate) / count)); } if (interval >= timeUnits.day) { // Day time.set('Date', minDate, interval >= timeUnits.month ? 1 : Math.max(1, count * Math.floor(time.get('Date', minDate) / count))); } if (interval >= timeUnits.month) { // Month time.set('Month', minDate, interval >= timeUnits.year ? 0 : count * Math.floor(time.get('Month', minDate) / count)); minYear = time.get('FullYear', minDate); } if (interval >= timeUnits.year) { // Year minYear -= minYear % count; time.set('FullYear', minDate, minYear); } // Week is a special case that runs outside the hierarchy if (interval === timeUnits.week) { // Get start of current week, independent of count minDay = time.get('Day', minDate); time.set('Date', minDate, (time.get('Date', minDate) - minDay + startOfWeek + // We don't want to skip days that are before // startOfWeek (#7051) (minDay < startOfWeek ? -7 : 0))); } // Get basics for variable time spans minYear = time.get('FullYear', minDate); const minMonth = time.get('Month', minDate), minDateDate = time.get('Date', minDate), minHours = time.get('Hours', minDate); // Redefine min to the floored/rounded minimum time (#7432) min = minDate.getTime(); // Handle local timezone offset if ((time.variableTimezone || !time.useUTC) && defined(max)) { // Detect whether we need to take the DST crossover into // consideration. If we're crossing over DST, the day length may // be 23h or 25h and we need to compute the exact clock time for // each tick instead of just adding hours. This comes at a cost, // so first we find out if it is needed (#4951). variableDayLength = ( // Long range, assume we're crossing over. max - min > 4 * timeUnits.month || // Short range, check if min and max are in different time // zones. time.getTimezoneOffset(min) !== time.getTimezoneOffset(max)); } // Iterate and add tick positions at appropriate values let t = minDate.getTime(); i = 1; while (t < max) { tickPositions.push(t); // If the interval is years, use Date.UTC to increase years if (interval === timeUnits.year) { t = time.makeTime(minYear + i * count, 0); // If the interval is months, use Date.UTC to increase months } else if (interval === timeUnits.month) { t = 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 (variableDayLength && (interval === timeUnits.day || interval === timeUnits.week)) { t = time.makeTime(minYear, minMonth, minDateDate + i * count * (interval === timeUnits.day ? 1 : 7)); } else if (variableDayLength && interval === timeUnits.hour && count > 1) { // Make sure higher ranks are preserved across DST (#6797, // #7621) t = time.makeTime(minYear, minMonth, minDateDate, minHours + i * count); // Else, the interval is fixed and we use simple addition } else { t += interval * count; } i++; } // Push the last time tickPositions.push(t); // Handle higher ranks. Mark new days if the time is on midnight // (#950, #1649, #1760, #3349). Use a reasonable dropout threshold // to prevent looping over dense data grouping (#6156). if (interval <= timeUnits.hour && tickPositions.length < 10000) { tickPositions.forEach(function (t) { if ( // Speed optimization, no need to run dateFormat unless // we're on a full or half hour t % 1800000 === 0 && // Check for local or global midnight time.dateFormat('%H%M%S%L', t) === '000000000') { higherRanks[t] = 'day'; } }); } } // Record information on the chosen unit - for dynamic label formatter tickPositions.info = extend(normalizedInterval, { higherRanks, totalRange: interval * count }); return tickPositions; } /** * Get the optimal date format for a point, based on a range. * * @private * @function Highcharts.Time#getDateFormat * * @param {number} range * The time range * * @param {number} timestamp * The timestamp of the date * * @param {number} startOfWeek * An integer representing the first day of the week, where 0 is * Sunday. * * @param {Highcharts.Dictionary} dateTimeLabelFormats * A map of time units to formats. * * @return {string} * The optimal date format for a point. */ getDateFormat(range, timestamp, startOfWeek, dateTimeLabelFormats) { const dateStr = this.dateFormat('%m-%d %H:%M:%S.%L', timestamp), blank = '01-01 00:00:00.000', strpos = { millisecond: 15, second: 12, minute: 9, hour: 6, day: 3 }; let n = 'millisecond', // For sub-millisecond data, #4223 lastN = n; for (n in timeUnits) { // eslint-disable-line guard-for-in // If the range is exactly one week and we're looking at a // Sunday/Monday, go for the week format if (range === timeUnits.week && +this.dateFormat('%w', timestamp) === startOfWeek && dateStr.substr(6) === blank.substr(6)) { n = 'week'; break; } // The first format that is too great for the range if (timeUnits[n] > range) { n = lastN; break; } // If the point is placed every day at 23:59, we need to show // the minutes as well. #2637. if (strpos[n] && dateStr.substr(strpos[n]) !== blank.substr(strpos[n])) { break; } // Weeks are outside the hierarchy, only apply them on // Mondays/Sundays like in the first condition if (n !== 'week') { lastN = n; } } return this.resolveDTLFormat(dateTimeLabelFormats[n]).main; } } Time.formatCache = {}; /* * * * Default export * * */ /* * * * API Declarations * * */ /** * Normalized interval. * * @interface Highcharts.TimeNormalizedObject */ /** * The count. * * @name Highcharts.TimeNormalizedObject#count * @type {number|undefined} */ /** * The interval in axis values (ms). * * @name Highcharts.TimeNormalizedObject#unitRange * @type {number} */ /** * Function of an additional date format specifier. * * @callback Highcharts.TimeFormatCallbackFunction * * @param {number} timestamp * The time to format. * * @return {string} * The formatted portion of the date. */ /** * Time ticks. * * @interface Highcharts.AxisTickPositionsArray * @extends global.Array */ /** * @name Highcharts.AxisTickPositionsArray#info * @type {Highcharts.TimeTicksInfoObject|undefined} */ /** * A callback to return the time zone offset for a given datetime. It * takes the timestamp in terms of milliseconds since January 1 1970, * and returns the timezone offset in minutes. This provides a hook * for drawing time based charts in specific time zones using their * local DST crossover dates, with the help of external libraries. * * @callback Highcharts.TimezoneOffsetCallbackFunction * * @param {number} timestamp * Timestamp in terms of milliseconds since January 1 1970. * * @return {number} * Timezone offset in minutes. */ ''; // Keeps doclets above in JS file return Time; }); _registerModule(_modules, 'Core/Defaults.js', [_modules['Core/Chart/ChartDefaults.js'], _modules['Core/Globals.js'], _modules['Core/Color/Palettes.js'], _modules['Core/Time.js'], _modules['Core/Utilities.js']], function (ChartDefaults, H, Palettes, Time, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { isTouchDevice, svg } = H; const { merge } = U; /* * * * API Options * * */ /** * Global default settings. * * @name Highcharts.defaultOptions * @type {Highcharts.Options} */ /** * @optionparent * @private */ const defaultOptions = { /** * An array containing the default colors for the chart's series. When * all colors are used, new colors are pulled from the start again. * * Default colors can also be set on a series or series.type basis, * see [column.colors](#plotOptions.column.colors), * [pie.colors](#plotOptions.pie.colors). * * In styled mode, the colors option doesn't exist. Instead, colors * are defined in CSS and applied either through series or point class * names, or through the [chart.colorCount](#chart.colorCount) option. * * @sample {highcharts} highcharts/chart/colors/ * Assign a global color theme * @sample highcharts/members/theme-v10/ * Latest release styled like version 10 * * @type {Array<(Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject)>} * @default [ * "#2caffe", * "#544fc5", * "#00e272", * "#fe6a35", * "#6b8abc", * "#d568fb", * "#2ee0ca", * "#fa4b42", * "#feb56a", * "#91e8e1" * ] */ colors: Palettes.colors, /** * Styled mode only. Configuration object for adding SVG definitions for * reusable elements. See [gradients, shadows and * patterns](https://www.highcharts.com/docs/chart-design-and-style/gradients-shadows-and-patterns) * for more information and code examples. * * @type {*} * @since 5.0.0 * @apioption defs */ /** * @ignore-option */ symbols: ['circle', 'diamond', 'square', 'triangle', 'triangle-down'], /** * The language object is global and it can't be set on each chart * initialization. Instead, use `Highcharts.setOptions` to set it before any * chart is initialized. * * ```js * Highcharts.setOptions({ * lang: { * months: [ * 'Janvier', 'Février', 'Mars', 'Avril', * 'Mai', 'Juin', 'Juillet', 'Août', * 'Septembre', 'Octobre', 'Novembre', 'Décembre' * ], * weekdays: [ * 'Dimanche', 'Lundi', 'Mardi', 'Mercredi', * 'Jeudi', 'Vendredi', 'Samedi' * ] * } * }); * ``` */ lang: { /** * The loading text that appears when the chart is set into the loading * state following a call to `chart.showLoading`. */ loading: 'Loading...', /** * An array containing the months names. Corresponds to the `%B` format * in `Highcharts.dateFormat()`. * * @type {Array} * @default ["January", "February", "March", "April", "May", "June", * "July", "August", "September", "October", "November", * "December"] */ months: [ 'January', 'February', 'March', 'April', 'May', 'June', 'July', 'August', 'September', 'October', 'November', 'December' ], /** * An array containing the months names in abbreviated form. Corresponds * to the `%b` format in `Highcharts.dateFormat()`. * * @type {Array} * @default ["Jan", "Feb", "Mar", "Apr", "May", "Jun", * "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"] */ shortMonths: [ 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec' ], /** * An array containing the weekday names. * * @type {Array} * @default ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", * "Friday", "Saturday"] */ weekdays: [ 'Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday' ], /** * Short week days, starting Sunday. If not specified, Highcharts uses * the first three letters of the `lang.weekdays` option. * * @sample highcharts/lang/shortweekdays/ * Finnish two-letter abbreviations * * @type {Array} * @since 4.2.4 * @apioption lang.shortWeekdays */ /** * What to show in a date field for invalid dates. Defaults to an empty * string. * * @type {string} * @since 4.1.8 * @product highcharts highstock * @apioption lang.invalidDate */ /** * The title appearing on hovering the zoom in button. The text itself * defaults to "+" and can be changed in the button options. * * @type {string} * @default Zoom in * @product highmaps * @apioption lang.zoomIn */ /** * The title appearing on hovering the zoom out button. The text itself * defaults to "-" and can be changed in the button options. * * @type {string} * @default Zoom out * @product highmaps * @apioption lang.zoomOut */ /** * The default decimal point used in the `Highcharts.numberFormat` * method unless otherwise specified in the function arguments. * * @since 1.2.2 */ decimalPoint: '.', /** * [Metric prefixes](https://en.wikipedia.org/wiki/Metric_prefix) used * to shorten high numbers in axis labels. Replacing any of the * positions with `null` causes the full number to be written. Setting * `numericSymbols` to `undefined` disables shortening altogether. * * @sample {highcharts} highcharts/lang/numericsymbols/ * Replacing the symbols with text * @sample {highstock} highcharts/lang/numericsymbols/ * Replacing the symbols with text * * @type {Array} * @default ["k", "M", "G", "T", "P", "E"] * @since 2.3.0 */ numericSymbols: ['k', 'M', 'G', 'T', 'P', 'E'], /** * The magnitude of [numericSymbols](#lang.numericSymbol) replacements. * Use 10000 for Japanese, Korean and various Chinese locales, which * use symbols for 10^4, 10^8 and 10^12. * * @sample highcharts/lang/numericsymbolmagnitude/ * 10000 magnitude for Japanese * * @type {number} * @default 1000 * @since 5.0.3 * @apioption lang.numericSymbolMagnitude */ /** * The text for the label appearing when a chart is zoomed. * * @since 1.2.4 */ resetZoom: 'Reset zoom', /** * The tooltip title for the label appearing when a chart is zoomed. * * @since 1.2.4 */ resetZoomTitle: 'Reset zoom level 1:1', /** * The default thousands separator used in the `Highcharts.numberFormat` * method unless otherwise specified in the function arguments. Defaults * to a single space character, which is recommended in * [ISO 31-0](https://en.wikipedia.org/wiki/ISO_31-0#Numbers) and works * across Anglo-American and continental European languages. * * @default \u0020 * @since 1.2.2 */ thousandsSep: ' ' }, /** * Global options that don't apply to each chart. These options, like * the `lang` options, must be set using the `Highcharts.setOptions` * method. * * ```js * Highcharts.setOptions({ * global: { * useUTC: false * } * }); * ``` */ /** * _Canvg rendering for Android 2.x is removed as of Highcharts 5.0\. * Use the [libURL](#exporting.libURL) option to configure exporting._ * * The URL to the additional file to lazy load for Android 2.x devices. * These devices don't support SVG, so we download a helper file that * contains [canvg](https://github.com/canvg/canvg), its dependency * rbcolor, and our own CanVG Renderer class. To avoid hotlinking to * our site, you can install canvas-tools.js on your own server and * change this option accordingly. * * @deprecated * * @type {string} * @default https://code.highcharts.com/{version}/modules/canvas-tools.js * @product highcharts highmaps * @apioption global.canvasToolsURL */ /** * This option is deprecated since v6.0.5. Instead, use * [time.useUTC](#time.useUTC) that supports individual time settings * per chart. * * @deprecated * * @type {boolean} * @apioption global.useUTC */ /** * This option is deprecated since v6.0.5. Instead, use * [time.Date](#time.Date) that supports individual time settings * per chart. * * @deprecated * * @type {Function} * @product highcharts highstock * @apioption global.Date */ /** * This option is deprecated since v6.0.5. Instead, use * [time.getTimezoneOffset](#time.getTimezoneOffset) that supports * individual time settings per chart. * * @deprecated * * @type {Function} * @product highcharts highstock * @apioption global.getTimezoneOffset */ /** * This option is deprecated since v6.0.5. Instead, use * [time.timezone](#time.timezone) that supports individual time * settings per chart. * * @deprecated * * @type {string} * @product highcharts highstock * @apioption global.timezone */ /** * This option is deprecated since v6.0.5. Instead, use * [time.timezoneOffset](#time.timezoneOffset) that supports individual * time settings per chart. * * @deprecated * * @type {number} * @product highcharts highstock * @apioption global.timezoneOffset */ global: {}, /** * Time options that can apply globally or to individual charts. These * settings affect how `datetime` axes are laid out, how tooltips are * formatted, how series * [pointIntervalUnit](#plotOptions.series.pointIntervalUnit) works and how * the Highcharts Stock range selector handles time. * * The common use case is that all charts in the same Highcharts object * share the same time settings, in which case the global settings are set * using `setOptions`. * * ```js * // Apply time settings globally * Highcharts.setOptions({ * time: { * timezone: 'Europe/London' * } * }); * // Apply time settings by instance * let chart = Highcharts.chart('container', { * time: { * timezone: 'America/New_York' * }, * series: [{ * data: [1, 4, 3, 5] * }] * }); * * // Use the Time object * console.log( * 'Current time in New York', * chart.time.dateFormat('%Y-%m-%d %H:%M:%S', Date.now()) * ); * ``` * * Since v6.0.5, the time options were moved from the `global` object to the * `time` object, and time options can be set on each individual chart. * * @sample {highcharts|highstock} * highcharts/time/timezone/ * Set the timezone globally * @sample {highcharts} * highcharts/time/individual/ * Set the timezone per chart instance * @sample {highstock} * stock/time/individual/ * Set the timezone per chart instance * * @since 6.0.5 * @optionparent time */ time: { /** * A custom `Date` class for advanced date handling. For example, * [JDate](https://github.com/tahajahangir/jdate) can be hooked in to * handle Jalali dates. * * @type {*} * @since 4.0.4 * @product highcharts highstock gantt */ Date: void 0, /** * A callback to return the time zone offset for a given datetime. It * takes the timestamp in terms of milliseconds since January 1 1970, * and returns the timezone offset in minutes. This provides a hook * for drawing time based charts in specific time zones using their * local DST crossover dates, with the help of external libraries. * * @see [global.timezoneOffset](#global.timezoneOffset) * * @sample {highcharts|highstock} highcharts/time/gettimezoneoffset/ * Use moment.js to draw Oslo time regardless of browser locale * * @type {Highcharts.TimezoneOffsetCallbackFunction} * @since 4.1.0 * @product highcharts highstock gantt */ getTimezoneOffset: void 0, /** * A named time zone. Supported time zone names rely on the browser * implementations, as described in the [mdn * docs](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Intl/DateTimeFormat/DateTimeFormat#timezone). * If the given time zone is not recognized by the browser, Highcharts * provides a warning and falls back to returning a 0 offset, * corresponding to the UCT time zone. * * Until v11.2.0, this option depended on moment.js. * * @see [getTimezoneOffset](#time.getTimezoneOffset) * * @sample {highcharts|highstock} highcharts/time/timezone/ Europe/Oslo * * @type {string} * @since 5.0.7 * @product highcharts highstock gantt */ timezone: void 0, /** * The timezone offset in minutes. Positive values are west, negative * values are east of UTC, as in the ECMAScript * [getTimezoneOffset](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Date/getTimezoneOffset) * method. Use this to display UTC based data in a predefined time zone. * * @see [time.getTimezoneOffset](#time.getTimezoneOffset) * * @sample {highcharts|highstock} highcharts/time/timezoneoffset/ * Timezone offset * * @since 3.0.8 * @product highcharts highstock gantt */ timezoneOffset: 0, /** * Whether to use UTC time for axis scaling, tickmark placement and * time display in `Highcharts.dateFormat`. Advantages of using UTC * is that the time displays equally regardless of the user agent's * time zone settings. Local time can be used when the data is loaded * in real time or when correct Daylight Saving Time transitions are * required. * * @sample {highcharts} highcharts/time/useutc-true/ * True by default * @sample {highcharts} highcharts/time/useutc-false/ * False */ useUTC: true }, chart: ChartDefaults, /** * The chart's main title. * * @sample {highmaps} maps/title/title/ * Title options demonstrated */ title: { /** * When the title is floating, the plot area will not move to make space * for it. * * @sample {highcharts} highcharts/chart/zoomtype-none/ * False by default * @sample {highcharts} highcharts/title/floating/ * True - title on top of the plot area * @sample {highstock} stock/chart/title-floating/ * True - title on top of the plot area * * @type {boolean} * @default false * @since 2.1 * @apioption title.floating */ /** * Whether to * [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the text. * * @type {boolean} * @default false * @apioption title.useHTML */ /** * The vertical alignment of the title. Can be one of `"top"`, * `"middle"` and `"bottom"`. When a value is given, the title behaves * as if [floating](#title.floating) were `true`. * * @sample {highcharts} highcharts/title/verticalalign/ * Chart title in bottom right corner * @sample {highstock} stock/chart/title-verticalalign/ * Chart title in bottom right corner * * @type {Highcharts.VerticalAlignValue} * @since 2.1 * @apioption title.verticalAlign */ /** * The x position of the title relative to the alignment within * `chart.spacingLeft` and `chart.spacingRight`. * * @sample {highcharts} highcharts/title/align/ * Aligned to the plot area (x = 70px = margin left - spacing * left) * @sample {highstock} stock/chart/title-align/ * Aligned to the plot area (x = 50px = margin left - spacing * left) * * @type {number} * @default 0 * @since 2.0 * @apioption title.x */ /** * The y position of the title relative to the alignment within * [chart.spacingTop](#chart.spacingTop) and [chart.spacingBottom]( * #chart.spacingBottom). By default it depends on the font size. * * @sample {highcharts} highcharts/title/y/ * Title inside the plot area * @sample {highstock} stock/chart/title-verticalalign/ * Chart title in bottom right corner * * @type {number} * @since 2.0 * @apioption title.y */ /** * CSS styles for the title. Use this for font styling, but use `align`, * `x` and `y` for text alignment. * * In styled mode, the title style is given in the `.highcharts-title` * class. * * @sample {highcharts} highcharts/title/style/ * Custom color and weight * @sample {highstock} stock/chart/title-style/ * Custom color and weight * @sample highcharts/css/titles/ * Styled mode * * @type {Highcharts.CSSObject} * @default {highcharts|highmaps} { "color": "#333333", "fontSize": "18px" } * @default {highstock} { "color": "#333333", "fontSize": "16px" } */ style: { color: "#333333" /* Palette.neutralColor80 */, fontWeight: 'bold' }, /** * The title of the chart. To disable the title, set the `text` to * `undefined`. * * @sample {highcharts} highcharts/title/text/ * Custom title * @sample {highstock} stock/chart/title-text/ * Custom title * * @default {highcharts|highmaps} Chart title * @default {highstock} undefined */ text: 'Chart title', /** * The horizontal alignment of the title. Can be one of "left", "center" * and "right". * * @sample {highcharts} highcharts/title/align/ * Aligned to the plot area (x = 70px = margin left - spacing * left) * @sample {highstock} stock/chart/title-align/ * Aligned to the plot area (x = 50px = margin left - spacing * left) * * @type {Highcharts.AlignValue} * @since 2.0 */ align: 'center', /** * The margin between the title and the plot area, or if a subtitle * is present, the margin between the subtitle and the plot area. * * @sample {highcharts} highcharts/title/margin-50/ * A chart title margin of 50 * @sample {highcharts} highcharts/title/margin-subtitle/ * The same margin applied with a subtitle * @sample {highstock} stock/chart/title-margin/ * A chart title margin of 50 * * @since 2.1 */ margin: 15, /** * Adjustment made to the title width, normally to reserve space for * the exporting burger menu. * * @sample highcharts/title/widthadjust/ * Wider menu, greater padding * * @since 4.2.5 */ widthAdjust: -44 }, /** * The chart's subtitle. This can be used both to display a subtitle below * the main title, and to display random text anywhere in the chart. The * subtitle can be updated after chart initialization through the * `Chart.setTitle` method. * * @sample {highmaps} maps/title/subtitle/ * Subtitle options demonstrated */ subtitle: { /** * When the subtitle is floating, the plot area will not move to make * space for it. * * @sample {highcharts} highcharts/subtitle/floating/ * Floating title and subtitle * @sample {highstock} stock/chart/subtitle-footnote * Footnote floating at bottom right of plot area * * @type {boolean} * @default false * @since 2.1 * @apioption subtitle.floating */ /** * CSS styles for the title. * * In styled mode, the subtitle style is given in the * `.highcharts-subtitle` class. * * @sample {highcharts} highcharts/subtitle/style/ * Custom color and weight * @sample {highcharts} highcharts/css/titles/ * Styled mode * @sample {highstock} stock/chart/subtitle-style * Custom color and weight * @sample {highstock} highcharts/css/titles/ * Styled mode * @sample {highmaps} highcharts/css/titles/ * Styled mode * * @type {Highcharts.CSSObject} * @default {"color": "#666666"} * @apioption subtitle.style */ /** * Whether to * [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the text. * * @type {boolean} * @default false * @apioption subtitle.useHTML */ /** * The vertical alignment of the title. Can be one of `"top"`, * `"middle"` and `"bottom"`. When middle, the subtitle behaves as * floating. * * @sample {highcharts} highcharts/subtitle/verticalalign/ * Footnote at the bottom right of plot area * @sample {highstock} stock/chart/subtitle-footnote * Footnote at the bottom right of plot area * * @type {Highcharts.VerticalAlignValue} * @since 2.1 * @apioption subtitle.verticalAlign */ /** * The x position of the subtitle relative to the alignment within * `chart.spacingLeft` and `chart.spacingRight`. * * @sample {highcharts} highcharts/subtitle/align/ * Footnote at right of plot area * @sample {highstock} stock/chart/subtitle-footnote * Footnote at the bottom right of plot area * * @type {number} * @default 0 * @since 2.0 * @apioption subtitle.x */ /** * The y position of the subtitle relative to the alignment within * `chart.spacingTop` and `chart.spacingBottom`. By default the subtitle * is laid out below the title unless the title is floating. * * @sample {highcharts} highcharts/subtitle/verticalalign/ * Footnote at the bottom right of plot area * @sample {highstock} stock/chart/subtitle-footnote * Footnote at the bottom right of plot area * * @type {number} * @since 2.0 * @apioption subtitle.y */ /** * CSS styles for the title. * * In styled mode, the subtitle style is given in the * `.highcharts-subtitle` class. * * @sample {highcharts} highcharts/subtitle/style/ * Custom color and weight * @sample {highcharts} highcharts/css/titles/ * Styled mode * @sample {highstock} stock/chart/subtitle-style * Custom color and weight * @sample {highstock} highcharts/css/titles/ * Styled mode * @sample {highmaps} highcharts/css/titles/ * Styled mode * * @type {Highcharts.CSSObject} * @default {"color": "#666666"} */ style: { color: "#666666" /* Palette.neutralColor60 */, fontSize: '0.8em' }, /** * The subtitle of the chart. * * @sample {highcharts|highstock} highcharts/subtitle/text/ * Custom subtitle * @sample {highcharts|highstock} highcharts/subtitle/text-formatted/ * Formatted and linked text. */ text: '', /** * The horizontal alignment of the subtitle. Can be one of "left", * "center" and "right". * * @sample {highcharts} highcharts/subtitle/align/ * Footnote at right of plot area * @sample {highstock} stock/chart/subtitle-footnote * Footnote at bottom right of plot area * * @type {Highcharts.AlignValue} * @since 2.0 */ align: 'center', /** * Adjustment made to the subtitle width, normally to reserve space * for the exporting burger menu. * * @see [title.widthAdjust](#title.widthAdjust) * * @sample highcharts/title/widthadjust/ * Wider menu, greater padding * * @since 4.2.5 */ widthAdjust: -44 }, /** * The chart's caption, which will render below the chart and will be part * of exported charts. The caption can be updated after chart initialization * through the `Chart.update` or `Chart.caption.update` methods. * * @sample highcharts/caption/text/ * A chart with a caption * @since 7.2.0 */ caption: { /** * When the caption is floating, the plot area will not move to make * space for it. * * @type {boolean} * @default false * @apioption caption.floating */ /** * The margin between the caption and the plot area. */ margin: 15, /** * Whether to * [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the text. * * @type {boolean} * @default false * @apioption caption.useHTML */ /** * The x position of the caption relative to the alignment within * `chart.spacingLeft` and `chart.spacingRight`. * * @type {number} * @default 0 * @apioption caption.x */ /** * The y position of the caption relative to the alignment within * `chart.spacingTop` and `chart.spacingBottom`. * * @type {number} * @apioption caption.y */ /** * CSS styles for the caption. * * In styled mode, the caption style is given in the * `.highcharts-caption` class. * * @sample {highcharts} highcharts/css/titles/ * Styled mode * * @type {Highcharts.CSSObject} * @default {"color": "#666666"} */ style: { color: "#666666" /* Palette.neutralColor60 */, fontSize: '0.8em' }, /** * The caption text of the chart. * * @sample {highcharts} highcharts/caption/text/ * Custom caption */ text: '', /** * The horizontal alignment of the caption. Can be one of "left", * "center" and "right". * * @type {Highcharts.AlignValue} */ align: 'left', /** * The vertical alignment of the caption. Can be one of `"top"`, * `"middle"` and `"bottom"`. When middle, the caption behaves as * floating. * * @type {Highcharts.VerticalAlignValue} */ verticalAlign: 'bottom' }, /** * The plotOptions is a wrapper object for config objects for each series * type. The config objects for each series can also be overridden for * each series item as given in the series array. * * Configuration options for the series are given in three levels. Options * for all series in a chart are given in the [plotOptions.series]( * #plotOptions.series) object. Then options for all series of a specific * type are given in the plotOptions of that type, for example * `plotOptions.line`. Next, options for one single series are given in * [the series array](#series). */ plotOptions: {}, /** * The legend is a box containing a symbol and name for each series * item or point item in the chart. Each series (or points in case * of pie charts) is represented by a symbol and its name in the legend. * * It is possible to override the symbol creator function and create * [custom legend symbols](https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/studies/legend-custom-symbol/). * * @productdesc {highmaps} * A Highmaps legend by default contains one legend item per series, but if * a `colorAxis` is defined, the axis will be displayed in the legend. * Either as a gradient, or as multiple legend items for `dataClasses`. */ legend: { /** * The background color of the legend. * * @see In styled mode, the legend background fill can be applied with * the `.highcharts-legend-box` class. * * @sample {highcharts} highcharts/legend/backgroundcolor/ * Yellowish background * @sample {highstock} stock/legend/align/ * Various legend options * @sample {highmaps} maps/legend/border-background/ * Border and background options * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption legend.backgroundColor */ /** * The width of the drawn border around the legend. * * @see In styled mode, the legend border stroke width can be applied * with the `.highcharts-legend-box` class. * * @sample {highcharts} highcharts/legend/borderwidth/ * 2px border width * @sample {highstock} stock/legend/align/ * Various legend options * @sample {highmaps} maps/legend/border-background/ * Border and background options * * @type {number} * @default 0 * @apioption legend.borderWidth */ /** * Enable or disable the legend. There is also a series-specific option, * [showInLegend](#plotOptions.series.showInLegend), that can hide the * series from the legend. In some series types this is `false` by * default, so it must set to `true` in order to show the legend for the * series. * * @sample {highcharts} highcharts/legend/enabled-false/ Legend disabled * @sample {highstock} stock/legend/align/ Various legend options * @sample {highmaps} maps/legend/enabled-false/ Legend disabled * * @default {highstock} false * @default {highmaps} true * @default {gantt} false */ enabled: true, /** * The horizontal alignment of the legend box within the chart area. * Valid values are `left`, `center` and `right`. * * In the case that the legend is aligned in a corner position, the * `layout` option will determine whether to place it above/below * or on the side of the plot area. * * @sample {highcharts} highcharts/legend/align/ * Legend at the right of the chart * @sample {highstock} stock/legend/align/ * Various legend options * @sample {highmaps} maps/legend/alignment/ * Legend alignment * * @type {Highcharts.AlignValue} * @since 2.0 */ align: 'center', /** * If the [layout](legend.layout) is `horizontal` and the legend items * span over two lines or more, whether to align the items into vertical * columns. Setting this to `false` makes room for more items, but will * look more messy. * * @since 6.1.0 */ alignColumns: true, /** * A CSS class name to apply to the legend group. */ className: 'highcharts-no-tooltip', /** * When the legend is floating, the plot area ignores it and is allowed * to be placed below it. * * @sample {highcharts} highcharts/legend/floating-false/ * False by default * @sample {highcharts} highcharts/legend/floating-true/ * True * @sample {highmaps} maps/legend/alignment/ * Floating legend * * @type {boolean} * @default false * @since 2.1 * @apioption legend.floating */ /** * The layout of the legend items. Can be one of `horizontal` or * `vertical` or `proximate`. When `proximate`, the legend items will be * placed as close as possible to the graphs they're representing, * except in inverted charts or when the legend position doesn't allow * it. * * @sample {highcharts} highcharts/legend/layout-horizontal/ * Horizontal by default * @sample {highcharts} highcharts/legend/layout-vertical/ * Vertical * @sample highcharts/legend/layout-proximate * Labels proximate to the data * @sample {highstock} stock/legend/layout-horizontal/ * Horizontal by default * @sample {highmaps} maps/legend/padding-itemmargin/ * Vertical with data classes * @sample {highmaps} maps/legend/layout-vertical/ * Vertical with color axis gradient * * @validvalue ["horizontal", "vertical", "proximate"] */ layout: 'horizontal', /** * In a legend with horizontal layout, the itemDistance defines the * pixel distance between each item. * * @sample {highcharts} highcharts/legend/layout-horizontal/ * 50px item distance * @sample {highstock} highcharts/legend/layout-horizontal/ * 50px item distance * * @type {number} * @default {highcharts} 20 * @default {highstock} 20 * @default {highmaps} 8 * @since 3.0.3 * @apioption legend.itemDistance */ /** * The pixel bottom margin for each legend item. * * @sample {highcharts|highstock} highcharts/legend/padding-itemmargin/ * Padding and item margins demonstrated * @sample {highmaps} maps/legend/padding-itemmargin/ * Padding and item margins demonstrated * * @since 2.2.0 */ itemMarginBottom: 2, /** * The pixel top margin for each legend item. * * @sample {highcharts|highstock} highcharts/legend/padding-itemmargin/ * Padding and item margins demonstrated * @sample {highmaps} maps/legend/padding-itemmargin/ * Padding and item margins demonstrated * * @since 2.2.0 */ itemMarginTop: 2, /** * The width for each legend item. By default the items are laid out * successively. In a [horizontal layout](legend.layout), if the items * are laid out across two rows or more, they will be vertically aligned * depending on the [legend.alignColumns](legend.alignColumns) option. * * @sample {highcharts} highcharts/legend/itemwidth-default/ * Undefined by default * @sample {highcharts} highcharts/legend/itemwidth-80/ * 80 for aligned legend items * * @type {number} * @since 2.0 * @apioption legend.itemWidth */ /** * A [format string](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting) * for each legend label. Available variables relates to properties on * the series, or the point in case of pies. * * @type {string} * @default {name} * @since 1.3 * @apioption legend.labelFormat */ /* eslint-disable valid-jsdoc */ /** * Callback function to format each of the series' labels. The `this` * keyword refers to the series object, or the point object in case of * pie charts. By default the series or point name is printed. * * @productdesc {highmaps} * In Highmaps the context can also be a data class in case of a * `colorAxis`. * * @sample {highcharts} highcharts/legend/labelformatter/ * Add text * @sample {highmaps} maps/legend/labelformatter/ * Data classes with label formatter * * @type {Highcharts.FormatterCallbackFunction} */ labelFormatter: function () { // eslint-enable valid-jsdoc return this.name; }, /** * Line height for the legend items. Deprecated as of 2.1\. Instead, * the line height for each item can be set using * `itemStyle.lineHeight`, and the padding between items using * `itemMarginTop` and `itemMarginBottom`. * * @sample {highcharts} highcharts/legend/lineheight/ * Setting padding * * @deprecated * * @type {number} * @default 16 * @since 2.0 * @product highcharts gantt * @apioption legend.lineHeight */ /** * If the plot area sized is calculated automatically and the legend is * not floating, the legend margin is the space between the legend and * the axis labels or plot area. * * @sample {highcharts} highcharts/legend/margin-default/ * 12 pixels by default * @sample {highcharts} highcharts/legend/margin-30/ * 30 pixels * * @type {number} * @default 12 * @since 2.1 * @apioption legend.margin */ /** * Maximum pixel height for the legend. When the maximum height is * extended, navigation will show. * * @type {number} * @since 2.3.0 * @apioption legend.maxHeight */ /** * The color of the drawn border around the legend. * * @see In styled mode, the legend border stroke can be applied with the * `.highcharts-legend-box` class. * * @sample {highcharts} highcharts/legend/bordercolor/ * Brown border * @sample {highstock} stock/legend/align/ * Various legend options * @sample {highmaps} maps/legend/border-background/ * Border and background options * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ borderColor: "#999999" /* Palette.neutralColor40 */, /** * The border corner radius of the legend. * * @sample {highcharts} highcharts/legend/borderradius-default/ * Square by default * @sample {highcharts} highcharts/legend/borderradius-round/ * 5px rounded * @sample {highmaps} maps/legend/border-background/ * Border and background options */ borderRadius: 0, /** * Options for the paging or navigation appearing when the legend is * overflown. Navigation works well on screen, but not in static * exported images. One way of working around that is to * [increase the chart height in * export](https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/legend/navigation-enabled-false/). * * @sample highcharts/legend/scrollable-vertical/ * Legend with vertical scrollable extension * @sample highcharts/legend/scrollable-horizontal/ * Legend with horizontal scrollable extension * */ navigation: { /** * How to animate the pages when navigating up or down. A value of * `true` applies the default navigation given in the * `chart.animation` option. Additional options can be given as an * object containing values for easing and duration. * * @sample {highcharts} highcharts/legend/navigation/ * Legend page navigation demonstrated * @sample {highstock} highcharts/legend/navigation/ * Legend page navigation demonstrated * * @type {boolean|Partial} * @default true * @since 2.2.4 * @apioption legend.navigation.animation */ /** * The pixel size of the up and down arrows in the legend paging * navigation. * * @sample {highcharts} highcharts/legend/navigation/ * Legend page navigation demonstrated * @sample {highstock} highcharts/legend/navigation/ * Legend page navigation demonstrated * * @type {number} * @default 12 * @since 2.2.4 * @apioption legend.navigation.arrowSize */ /** * Whether to enable the legend navigation. In most cases, disabling * the navigation results in an unwanted overflow. * * See also the * [adapt chart to legend](https://github.com/highcharts/adapt-chart-to-legend) * plugin for a solution to extend the chart height to make room for * the legend, optionally in exported charts only. * * @type {boolean} * @default true * @since 4.2.4 * @apioption legend.navigation.enabled */ /** * Text styles for the legend page navigation. * * @see In styled mode, the navigation items are styled with the * `.highcharts-legend-navigation` class. * * @sample {highcharts} highcharts/legend/navigation/ * Legend page navigation demonstrated * @sample {highstock} highcharts/legend/navigation/ * Legend page navigation demonstrated * * @type {Highcharts.CSSObject} * @since 2.2.4 * @apioption legend.navigation.style */ style: { fontSize: '0.8em' }, /** * The color for the active up or down arrow in the legend page * navigation. * * @see In styled mode, the active arrow be styled with the * `.highcharts-legend-nav-active` class. * * @sample {highcharts} highcharts/legend/navigation/ * Legend page navigation demonstrated * @sample {highstock} highcharts/legend/navigation/ * Legend page navigation demonstrated * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 2.2.4 */ activeColor: "#0022ff" /* Palette.highlightColor100 */, /** * The color of the inactive up or down arrow in the legend page * navigation. . * * @see In styled mode, the inactive arrow be styled with the * `.highcharts-legend-nav-inactive` class. * * @sample {highcharts} highcharts/legend/navigation/ * Legend page navigation demonstrated * @sample {highstock} highcharts/legend/navigation/ * Legend page navigation demonstrated * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 2.2.4 */ inactiveColor: "#cccccc" /* Palette.neutralColor20 */ }, /** * The inner padding of the legend box. * * @sample {highcharts|highstock} highcharts/legend/padding-itemmargin/ * Padding and item margins demonstrated * @sample {highmaps} maps/legend/padding-itemmargin/ * Padding and item margins demonstrated * * @type {number} * @default 8 * @since 2.2.0 * @apioption legend.padding */ /** * Whether to reverse the order of the legend items compared to the * order of the series or points as defined in the configuration object. * * @see [yAxis.reversedStacks](#yAxis.reversedStacks), * [series.legendIndex](#series.legendIndex) * * @sample {highcharts} highcharts/legend/reversed/ * Stacked bar with reversed legend * * @type {boolean} * @default false * @since 1.2.5 * @apioption legend.reversed */ /** * Whether to show the symbol on the right side of the text rather than * the left side. This is common in Arabic and Hebrew. * * @sample {highcharts} highcharts/legend/rtl/ * Symbol to the right * * @type {boolean} * @default false * @since 2.2 * @apioption legend.rtl */ /** * CSS styles for the legend area. In the 1.x versions the position * of the legend area was determined by CSS. In 2.x, the position is * determined by properties like `align`, `verticalAlign`, `x` and `y`, * but the styles are still parsed for backwards compatibility. * * @deprecated * * @type {Highcharts.CSSObject} * @product highcharts highstock * @apioption legend.style */ /** * CSS styles for each legend item. Only a subset of CSS is supported, * notably those options related to text. The default `textOverflow` * property makes long texts truncate. Set it to `undefined` to wrap * text instead. A `width` property can be added to control the text * width. * * @see In styled mode, the legend items can be styled with the * `.highcharts-legend-item` class. * * @sample {highcharts} highcharts/legend/itemstyle/ * Bold black text * @sample {highmaps} maps/legend/itemstyle/ * Item text styles * * @type {Highcharts.CSSObject} * @default {"color": "#333333", "cursor": "pointer", "fontSize": "0.75em", "fontWeight": "bold", "textOverflow": "ellipsis"} */ itemStyle: { /** * @ignore */ color: "#333333" /* Palette.neutralColor80 */, /** * @ignore */ cursor: 'pointer', /** * @ignore */ fontSize: '0.8em', /** * @ignore */ textDecoration: 'none', /** * @ignore */ textOverflow: 'ellipsis' }, /** * CSS styles for each legend item in hover mode. Only a subset of * CSS is supported, notably those options related to text. Properties * are inherited from `style` unless overridden here. * * @see In styled mode, the hovered legend items can be styled with * the `.highcharts-legend-item:hover` pseudo-class. * * @sample {highcharts} highcharts/legend/itemhoverstyle/ * Red on hover * @sample {highmaps} maps/legend/itemstyle/ * Item text styles * * @type {Highcharts.CSSObject} * @default {"color": "#000000"} */ itemHoverStyle: { /** * @ignore */ color: "#000000" /* Palette.neutralColor100 */ }, /** * CSS styles for each legend item when the corresponding series or * point is hidden. Only a subset of CSS is supported, notably those * options related to text. Properties are inherited from `style` * unless overridden here. * * @see In styled mode, the hidden legend items can be styled with * the `.highcharts-legend-item-hidden` class. * * @sample {highcharts} highcharts/legend/itemhiddenstyle/ * Darker gray color * * @type {Highcharts.CSSObject} * @default {"color": "#cccccc"} */ itemHiddenStyle: { /** * @ignore */ color: "#666666" /* Palette.neutralColor60 */, /** * @ignore */ textDecoration: 'line-through' }, /** * Whether to apply a drop shadow to the legend. A `backgroundColor` * also needs to be applied for this to take effect. The shadow can be * an object configuration containing `color`, `offsetX`, `offsetY`, * `opacity` and `width`. * * @sample {highcharts} highcharts/legend/shadow/ * White background and drop shadow * @sample {highstock} stock/legend/align/ * Various legend options * @sample {highmaps} maps/legend/border-background/ * Border and background options * * @type {boolean|Highcharts.CSSObject} */ shadow: false, /** * Default styling for the checkbox next to a legend item when * `showCheckbox` is true. * * @type {Highcharts.CSSObject} * @default {"width": "13px", "height": "13px", "position":"absolute"} */ itemCheckboxStyle: { /** * @ignore */ position: 'absolute', /** * @ignore */ width: '13px', /** * @ignore */ height: '13px' }, /// itemWidth: undefined, /** * When this is true, the legend symbol width will be the same as * the symbol height, which in turn defaults to the font size of the * legend items. * * @since 5.0.0 */ squareSymbol: true, /** * The pixel height of the symbol for series types that use a rectangle * in the legend. Defaults to the font size of legend items. * * Note: This option is a default source of color axis height, if the * [colorAxis.height](https://api.highcharts.com/highcharts/colorAxis.height) * option is not set. * * @productdesc {highmaps} * In Highmaps, when the symbol is the gradient of a vertical color * axis, the height defaults to 200. * * @sample {highmaps} maps/legend/layout-vertical-sized/ * Sized vertical gradient * @sample {highmaps} maps/legend/padding-itemmargin/ * No distance between data classes * * @type {number} * @since 3.0.8 * @apioption legend.symbolHeight */ /** * The border radius of the symbol for series types that use a rectangle * in the legend. Defaults to half the `symbolHeight`, effectively * creating a circle. * * For color axis scales, it defaults to 3. * * @sample {highcharts} highcharts/legend/symbolradius/ * Round symbols * @sample {highstock} highcharts/legend/symbolradius/ * Round symbols * @sample {highmaps} highcharts/legend/symbolradius/ * Round symbols * * @type {number} * @since 3.0.8 * @apioption legend.symbolRadius */ /** * The pixel width of the legend item symbol. When the `squareSymbol` * option is set, this defaults to the `symbolHeight`, otherwise 16. * * Note: This option is a default source of color axis width, if the * [colorAxis.width](https://api.highcharts.com/highcharts/colorAxis.width) * option is not set. * * @productdesc {highmaps} * In Highmaps, when the symbol is the gradient of a horizontal color * axis, the width defaults to 200. * * @sample {highcharts} highcharts/legend/symbolwidth/ * Greater symbol width and padding * @sample {highmaps} maps/legend/padding-itemmargin/ * Padding and item margins demonstrated * @sample {highmaps} maps/legend/layout-vertical-sized/ * Sized vertical gradient * * @type {number} * @apioption legend.symbolWidth */ /** * Whether to [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the legend item texts. * * Prior to 4.1.7, when using HTML, [legend.navigation]( * #legend.navigation) was disabled. * * @sample highcharts/legend/scrollable-vertical/ * Legend with vertical scrollable extension * @sample highcharts/legend/scrollable-horizontal/ * Legend with horizontal scrollable extension * * @type {boolean} * @default false * @apioption legend.useHTML */ /** * For a color axis with data classes, how many decimals to render in * the legend. The default preserves the decimals of the range numbers. * * @type {number} * @default -1 * @product highcharts highmaps * @apioption legend.valueDecimals */ /** * For a color axis with data classes, a suffix for the range numbers in * the legend. * * @type {string} * @default '' * @product highcharts highmaps * @apioption legend.valueSuffix */ /** * The width of the legend box. If a number is set, it translates to * pixels. Since v7.0.2 it allows setting a percent string of the full * chart width, for example `40%`. * * Defaults to the full chart width for legends below or above the * chart, half the chart width for legends to the left and right. * * @sample {highcharts} highcharts/legend/width/ * Aligned to the plot area * @sample {highcharts} highcharts/legend/width-percent/ * A percent of the chart width * * @type {number|string} * @since 2.0 * @apioption legend.width */ /** * The pixel padding between the legend item symbol and the legend * item text. * * @sample {highcharts} highcharts/legend/symbolpadding/ * Greater symbol width and padding */ symbolPadding: 5, /** * The vertical alignment of the legend box. Can be one of `top`, * `middle` or `bottom`. Vertical position can be further determined * by the `y` option. * * In the case that the legend is aligned in a corner position, the * `layout` option will determine whether to place it above/below * or on the side of the plot area. * * When the [layout](#legend.layout) option is `proximate`, the * `verticalAlign` option doesn't apply. * * @sample {highcharts} highcharts/legend/verticalalign/ * Legend 100px from the top of the chart * @sample {highstock} stock/legend/align/ * Various legend options * @sample {highmaps} maps/legend/alignment/ * Legend alignment * * @type {Highcharts.VerticalAlignValue} * @since 2.0 */ verticalAlign: 'bottom', // Width: undefined, /** * The x offset of the legend relative to its horizontal alignment * `align` within chart.spacingLeft and chart.spacingRight. Negative * x moves it to the left, positive x moves it to the right. * * @sample {highcharts} highcharts/legend/width/ * Aligned to the plot area * * @since 2.0 */ x: 0, /** * The vertical offset of the legend relative to it's vertical alignment * `verticalAlign` within chart.spacingTop and chart.spacingBottom. * Negative y moves it up, positive y moves it down. * * @sample {highcharts} highcharts/legend/verticalalign/ * Legend 100px from the top of the chart * @sample {highstock} stock/legend/align/ * Various legend options * @sample {highmaps} maps/legend/alignment/ * Legend alignment * * @since 2.0 */ y: 0, /** * A title to be added on top of the legend. * * @sample {highcharts} highcharts/legend/title/ * Legend title * @sample {highmaps} maps/legend/alignment/ * Legend with title * * @since 3.0 */ title: { /** * A text or HTML string for the title. * * @type {string} * @since 3.0 * @apioption legend.title.text */ /** * Generic CSS styles for the legend title. * * @see In styled mode, the legend title is styled with the * `.highcharts-legend-title` class. * * @type {Highcharts.CSSObject} * @default {"fontSize": "0.75em", "fontWeight": "bold"} * @since 3.0 */ style: { /** * @ignore */ fontSize: '0.8em', /** * @ignore */ fontWeight: 'bold' } } }, /** * The loading options control the appearance of the loading screen * that covers the plot area on chart operations. This screen only * appears after an explicit call to `chart.showLoading()`. It is a * utility for developers to communicate to the end user that something * is going on, for example while retrieving new data via an XHR connection. * The "Loading..." text itself is not part of this configuration * object, but part of the `lang` object. */ loading: { /** * The duration in milliseconds of the fade out effect. * * @sample highcharts/loading/hideduration/ * Fade in and out over a second * * @type {number} * @default 100 * @since 1.2.0 * @apioption loading.hideDuration */ /** * The duration in milliseconds of the fade in effect. * * @sample highcharts/loading/hideduration/ * Fade in and out over a second * * @type {number} * @default 100 * @since 1.2.0 * @apioption loading.showDuration */ /** * CSS styles for the loading label `span`. * * @see In styled mode, the loading label is styled with the * `.highcharts-loading-inner` class. * * @sample {highcharts|highmaps} highcharts/loading/labelstyle/ * Vertically centered * @sample {highstock} stock/loading/general/ * Label styles * * @type {Highcharts.CSSObject} * @default {"fontWeight": "bold", "position": "relative", "top": "45%"} * @since 1.2.0 */ labelStyle: { /** * @ignore */ fontWeight: 'bold', /** * @ignore */ position: 'relative', /** * @ignore */ top: '45%' }, /** * CSS styles for the loading screen that covers the plot area. * * In styled mode, the loading label is styled with the * `.highcharts-loading` class. * * @sample {highcharts|highmaps} highcharts/loading/style/ * Gray plot area, white text * @sample {highstock} stock/loading/general/ * Gray plot area, white text * * @type {Highcharts.CSSObject} * @default {"position": "absolute", "backgroundColor": "#ffffff", "opacity": 0.5, "textAlign": "center"} * @since 1.2.0 */ style: { /** * @ignore */ position: 'absolute', /** * @ignore */ backgroundColor: "#ffffff" /* Palette.backgroundColor */, /** * @ignore */ opacity: 0.5, /** * @ignore */ textAlign: 'center' } }, /** * Options for the tooltip that appears when the user hovers over a * series or point. * * @declare Highcharts.TooltipOptions */ tooltip: { /** * The color of the tooltip border. When `undefined`, the border takes * the color of the corresponding series or point. * * Note that the [borderWidth](#tooltip.borderWidth) is usually 0 by * default, so the border color may not be visible until a border width * is set. * * @sample {highcharts} highcharts/tooltip/bordercolor-default/ Follow * series by default * @sample {highcharts} highcharts/tooltip/bordercolor-black/ Black * border * @sample {highstock} stock/tooltip/general/ Styled tooltip * @sample {highmaps} maps/tooltip/background-border/ Background and * border demo * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption tooltip.borderColor */ /** * A CSS class name to apply to the tooltip's container div, * allowing unique CSS styling for each chart. * * @type {string} * @apioption tooltip.className */ /** * Since 4.1, the crosshair definitions are moved to the Axis object * in order for a better separation from the tooltip. See * [xAxis.crosshair](#xAxis.crosshair). * * @sample {highcharts} highcharts/tooltip/crosshairs-x/ * Enable a crosshair for the x value * * @deprecated * * @type {*} * @default true * @apioption tooltip.crosshairs */ /** * Distance from point to tooltip in pixels. * * @type {number} * @default 16 * @apioption tooltip.distance */ /** * Whether the tooltip should follow the mouse as it moves across * columns, pie slices and other point types with an extent. * By default it behaves this way for pie, polygon, map, sankey * and wordcloud series by override in the `plotOptions` * for those series types. * * Does not apply if [split](#tooltip.split) is `true`. * * For touch moves to behave the same way, [followTouchMove]( * #tooltip.followTouchMove) must be `true` also. * * @sample highcharts/tooltip/followpointer/ * Tooltip follow pointer comparison * * @type {boolean} * @default {highcharts} false * @default {highstock} false * @default {highmaps} true * @since 3.0 * @apioption tooltip.followPointer */ /** * Whether the tooltip should update as the finger moves on a touch * device. If this is `true` and [chart.panning](#chart.panning) is * set,`followTouchMove` will take over one-finger touches, so the user * needs to use two fingers for zooming and panning. * * Note the difference to [followPointer](#tooltip.followPointer) that * only defines the _position_ of the tooltip. If `followPointer` is * false in for example a column series, the tooltip will show above or * below the column, but as `followTouchMove` is true, the tooltip will * jump from column to column as the user swipes across the plot area. * * @type {boolean} * @default {highcharts} true * @default {highstock} true * @default {highmaps} false * @since 3.0.1 * @apioption tooltip.followTouchMove */ /** * A [format string](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting) * for the whole tooltip. When format strings are a requirement, it is * usually more convenient to use `headerFormat`, `pointFormat` and * `footerFormat`, but the `format` option allows combining them into * one setting. * * The context of the format string is the same as that of the * `formatter` callback. * * @sample {highcharts} highcharts/tooltip/format-shared/ * Format for shared tooltip * * @type {string} * @default undefined * @since 11.1.0 * @apioption tooltip.format */ /** * Callback function to format the text of the tooltip from scratch. In * case of single or [shared](#tooltip.shared) tooltips, a string should * be returned. In case of [split](#tooltip.split) tooltips, it should * return an array where the first item is the header, and subsequent * items are mapped to the points. Return `false` to disable tooltip for * a specific point on series. * * A subset of HTML is supported. Unless `useHTML` is true, the HTML of * the tooltip is parsed and converted to SVG, therefore this isn't a * complete HTML renderer. The following HTML tags are supported: `b`, * `br`, `em`, `i`, `span`, `strong`. Spans can be styled with a `style` * attribute, but only text-related CSS, that is shared with SVG, is * handled. * * The available data in the formatter differ a bit depending on whether * the tooltip is shared or split, or belongs to a single point. In a * shared/split tooltip, all properties except `x`, which is common for * all points, are kept in an array, `this.points`. * * Available data are: * * - **this.percentage (not shared) /** * **this.points[i].percentage (shared)**: * Stacked series and pies only. The point's percentage of the total. * * - **this.point (not shared) / this.points[i].point (shared)**: * The point object. The point name, if defined, is available through * `this.point.name`. * * - **this.points**: * In a shared tooltip, this is an array containing all other * properties for each point. * * - **this.series (not shared) / this.points[i].series (shared)**: * The series object. The series name is available through * `this.series.name`. * * - **this.total (not shared) / this.points[i].total (shared)**: * Stacked series only. The total value at this point's x value. * * - **this.x**: * The x value. This property is the same regardless of the tooltip * being shared or not. * * - **this.y (not shared) / this.points[i].y (shared)**: * The y value. * * @sample {highcharts} highcharts/tooltip/formatter-simple/ * Simple string formatting * @sample {highcharts} highcharts/tooltip/formatter-shared/ * Formatting with shared tooltip * @sample {highcharts|highstock} highcharts/tooltip/formatter-split/ * Formatting with split tooltip * @sample highcharts/tooltip/formatter-conditional-default/ * Extending default formatter * @sample {highstock} stock/tooltip/formatter/ * Formatting with shared tooltip * @sample {highmaps} maps/tooltip/formatter/ * String formatting * * @type {Highcharts.TooltipFormatterCallbackFunction} * @apioption tooltip.formatter */ /** * Callback function to format the text of the tooltip for * visible null points. * Works analogously to [formatter](#tooltip.formatter). * * @sample highcharts/plotoptions/series-nullformat * Format data label and tooltip for null point. * * @type {Highcharts.TooltipFormatterCallbackFunction} * @apioption tooltip.nullFormatter */ /** * Whether to allow the tooltip to render outside the chart's SVG * element box. By default (`false`), the tooltip is rendered within the * chart's SVG element, which results in the tooltip being aligned * inside the chart area. For small charts, this may result in clipping * or overlapping. When `true`, a separate SVG element is created and * overlaid on the page, allowing the tooltip to be aligned inside the * page itself. * * Defaults to `true` if `chart.scrollablePlotArea` is activated, * otherwise `false`. * * @sample highcharts/tooltip/outside * Small charts with tooltips outside * * @type {boolean|undefined} * @default undefined * @since 6.1.1 * @apioption tooltip.outside */ /** * A callback function for formatting the HTML output for a single point * in the tooltip. Like the `pointFormat` string, but with more * flexibility. * * @type {Highcharts.FormatterCallbackFunction} * @since 4.1.0 * @context Highcharts.Point * @apioption tooltip.pointFormatter */ /** * A callback function to place the tooltip in a custom position. The * callback receives three parameters: `labelWidth`, `labelHeight` and * `point`, where point contains values for `plotX` and `plotY` telling * where the reference point is in the plot area. Add `chart.plotLeft` * and `chart.plotTop` to get the full coordinates. * * To find the actual hovered `Point` instance, use * `this.chart.hoverPoint`. For shared or split tooltips, all the hover * points are available in `this.chart.hoverPoints`. * * Since v7, when [tooltip.split](#tooltip.split) option is enabled, * positioner is called for each of the boxes separately, including * xAxis header. xAxis header is not a point, instead `point` argument * contains info: `{ plotX: Number, plotY: Number, isHeader: Boolean }` * * The return should be an object containing x and y values, for example * `{ x: 100, y: 100 }`. * * @sample {highcharts} highcharts/tooltip/positioner/ * A fixed tooltip position * @sample {highstock} stock/tooltip/positioner/ * A fixed tooltip position on top of the chart * @sample {highmaps} maps/tooltip/positioner/ * A fixed tooltip position * @sample {highstock} stock/tooltip/split-positioner/ * Split tooltip with fixed positions * @sample {highstock} stock/tooltip/positioner-scrollable-plotarea/ * Scrollable plot area combined with tooltip positioner * * @type {Highcharts.TooltipPositionerCallbackFunction} * @since 2.2.4 * @apioption tooltip.positioner */ /** * Split the tooltip into one label per series, with the header close * to the axis. This is recommended over [shared](#tooltip.shared) * tooltips for charts with multiple line series, generally making them * easier to read. This option takes precedence over `tooltip.shared`. * * Not supported for [polar](#chart.polar) and [inverted](#chart.inverted) charts. * * @productdesc {highstock} In Highcharts Stock, tooltips are split * by default since v6.0.0. Stock charts typically contain * multi-dimension points and multiple panes, making split tooltips * the preferred layout over * the previous `shared` tooltip. * * @sample highcharts/tooltip/split/ * Split tooltip * @sample {highcharts|highstock} highcharts/tooltip/formatter-split/ * Split tooltip and custom formatter callback * * @type {boolean} * @default {highcharts} false * @default {highstock} true * @since 5.0.0 * @product highcharts highstock * @apioption tooltip.split */ /** * Prevents the tooltip from switching or closing, when touched or * pointed. * * @sample highcharts/tooltip/stickoncontact/ * Tooltip sticks on pointer contact * * @type {boolean} * @since 8.0.1 * @apioption tooltip.stickOnContact */ /** * Use HTML to render the contents of the tooltip instead of SVG. Using * HTML allows advanced formatting like tables and images in the * tooltip. It is also recommended for rtl languages as it works around * rtl bugs in early Firefox. * * @sample {highcharts|highstock} highcharts/tooltip/footerformat/ * A table for value alignment * @sample {highcharts|highstock} highcharts/tooltip/fullhtml/ * Full HTML tooltip * @sample {highmaps} maps/tooltip/usehtml/ * Pure HTML tooltip * * @type {boolean} * @default false * @since 2.2 * @apioption tooltip.useHTML */ /** * How many decimals to show in each series' y value. This is * overridable in each series' tooltip options object. The default is to * preserve all decimals. * * @sample {highcharts|highstock} highcharts/tooltip/valuedecimals/ * Set decimals, prefix and suffix for the value * @sample {highmaps} maps/tooltip/valuedecimals/ * Set decimals, prefix and suffix for the value * * @type {number|undefined} * @since 2.2 * @apioption tooltip.valueDecimals */ /** * A string to prepend to each series' y value. Overridable in each * series' tooltip options object. * * @sample {highcharts|highstock} highcharts/tooltip/valuedecimals/ * Set decimals, prefix and suffix for the value * @sample {highmaps} maps/tooltip/valuedecimals/ * Set decimals, prefix and suffix for the value * * @type {string} * @since 2.2 * @apioption tooltip.valuePrefix */ /** * A string to append to each series' y value. Overridable in each * series' tooltip options object. * * @sample {highcharts|highstock} highcharts/tooltip/valuedecimals/ * Set decimals, prefix and suffix for the value * @sample {highmaps} maps/tooltip/valuedecimals/ * Set decimals, prefix and suffix for the value * * @type {string} * @since 2.2 * @apioption tooltip.valueSuffix */ /** * The format for the date in the tooltip header if the X axis is a * datetime axis. The default is a best guess based on the smallest * distance between points in the chart. * * @sample {highcharts} highcharts/tooltip/xdateformat/ * A different format * * @type {string} * @product highcharts highstock gantt * @apioption tooltip.xDateFormat */ /** * How many decimals to show for the `point.change` * or the `point.cumulativeSum` value when the `series.compare` * or the `series.cumulative` option is set. * This is overridable in each series' tooltip options object. * * @type {number} * @default 2 * @since 1.0.1 * @product highstock * @apioption tooltip.changeDecimals */ /** * Enable or disable the tooltip. * * @sample {highcharts} highcharts/tooltip/enabled/ * Disabled * @sample {highcharts} highcharts/plotoptions/series-point-events-mouseover/ * Disable tooltip and show values on chart instead */ enabled: true, /** * Enable or disable animation of the tooltip. * * @type {boolean} * @default true * @since 2.3.0 */ animation: svg, /** * The radius of the rounded border corners. * * @sample {highcharts} highcharts/tooltip/bordercolor-default/ * Default border radius * @sample {highcharts} highcharts/tooltip/borderradius-0/ * Square borders * @sample {highmaps} maps/tooltip/background-border/ * Background and border demo */ borderRadius: 3, /** * For series on datetime axes, the date format in the tooltip's * header will by default be guessed based on the closest data points. * This member gives the default string representations used for * each unit. For an overview of the replacement codes, see * [dateFormat](/class-reference/Highcharts.Time#dateFormat). * * @see [xAxis.dateTimeLabelFormats](#xAxis.dateTimeLabelFormats) * * @type {Highcharts.Dictionary} * @product highcharts highstock gantt */ dateTimeLabelFormats: { /** @internal */ millisecond: '%A, %e %b, %H:%M:%S.%L', /** @internal */ second: '%A, %e %b, %H:%M:%S', /** @internal */ minute: '%A, %e %b, %H:%M', /** @internal */ hour: '%A, %e %b, %H:%M', /** @internal */ day: '%A, %e %b %Y', /** @internal */ week: 'Week from %A, %e %b %Y', /** @internal */ month: '%B %Y', /** @internal */ year: '%Y' }, /** * A string to append to the tooltip format. * * @sample {highcharts} highcharts/tooltip/footerformat/ * A table for value alignment * @sample {highmaps} maps/tooltip/format/ * Format demo * * @since 2.2 */ footerFormat: '', /** * The name of a symbol to use for the border around the tooltip * header. Applies only when [tooltip.split](#tooltip.split) is * enabled. * * Custom callbacks for symbol path generation can also be added to * `Highcharts.SVGRenderer.prototype.symbols` the same way as for * [series.marker.symbol](plotOptions.line.marker.symbol). * * @see [tooltip.shape](#tooltip.shape) * * @sample {highstock} stock/tooltip/split-positioner/ * Different shapes for header and split boxes * * @type {Highcharts.TooltipShapeValue} * @validvalue ["callout", "rect"] * @since 7.0 */ headerShape: 'callout', /** * The number of milliseconds to wait until the tooltip is hidden when * mouse out from a point or chart. * * @since 3.0 */ hideDelay: 500, /** * Padding inside the tooltip, in pixels. * * @since 5.0.0 */ padding: 8, /** * The name of a symbol to use for the border around the tooltip. Can * be one of: `"callout"`, `"circle"` or `"rect"`. When * [tooltip.split](#tooltip.split) * option is enabled, shape is applied to all boxes except header, which * is controlled by * [tooltip.headerShape](#tooltip.headerShape). * * Custom callbacks for symbol path generation can also be added to * `Highcharts.SVGRenderer.prototype.symbols` the same way as for * [series.marker.symbol](plotOptions.line.marker.symbol). * * @type {Highcharts.TooltipShapeValue} * @since 4.0 */ shape: 'callout', /** * When the tooltip is shared, the entire plot area will capture mouse * movement or touch events. Tooltip texts for series types with ordered * data (not pie, scatter, flags etc) will be shown in a single bubble. * This is recommended for single series charts and for tablet/mobile * optimized charts. * * See also [tooltip.split](#tooltip.split), that is better suited for * charts with many series, especially line-type series. The * `tooltip.split` option takes precedence over `tooltip.shared`. * * @sample {highcharts} highcharts/tooltip/shared-false/ * False by default * @sample {highcharts} highcharts/tooltip/shared-true/ * True * @sample {highcharts} highcharts/tooltip/shared-x-crosshair/ * True with x axis crosshair * @sample {highcharts} highcharts/tooltip/shared-true-mixed-types/ * True with mixed series types * * @since 2.1 * @product highcharts highstock */ shared: false, /** * Proximity snap for graphs or single points. It defaults to 10 for * mouse-powered devices and 25 for touch devices. * * Note that in most cases the whole plot area captures the mouse * movement, and in these cases `tooltip.snap` doesn't make sense. This * applies when [stickyTracking](#plotOptions.series.stickyTracking) * is `true` (default) and when the tooltip is [shared](#tooltip.shared) * or [split](#tooltip.split). * * @sample {highcharts} highcharts/tooltip/bordercolor-default/ * 10 px by default * @sample {highcharts} highcharts/tooltip/snap-50/ * 50 px on graph * * @type {number} * @default 10/25 * @since 1.2.0 * @product highcharts highstock */ snap: isTouchDevice ? 25 : 10, /** * The HTML of the tooltip header line. Variables are enclosed by * curly brackets. Available variables are `point.key`, `series.name`, * `series.color` and other members from the `point` and `series` * objects. The `point.key` variable contains the category name, x * value or datetime string depending on the type of axis. For datetime * axes, the `point.key` date format can be set using * `tooltip.xDateFormat`. * * @sample {highcharts} highcharts/tooltip/footerformat/ * An HTML table in the tooltip * @sample {highstock} highcharts/tooltip/footerformat/ * An HTML table in the tooltip * @sample {highmaps} maps/tooltip/format/ * Format demo * * @type {string} * @apioption tooltip.headerFormat */ headerFormat: '{point.key}
', /** * The HTML of the null point's line in the tooltip. Works analogously * to [pointFormat](#tooltip.pointFormat). * * @sample {highcharts} highcharts/plotoptions/series-nullformat * Format data label and tooltip for null point. * * @type {string} * @apioption tooltip.nullFormat */ /** * The HTML of the point's line in the tooltip. Variables are enclosed * by curly brackets. Available variables are `point.x`, `point.y`, * `series.name` and `series.color` and other properties on the same * form. Furthermore, `point.y` can be extended by the * `tooltip.valuePrefix` and `tooltip.valueSuffix` variables. This can * also be overridden for each series, which makes it a good hook for * displaying units. * * In styled mode, the dot is colored by a class name rather * than the point color. * * @sample {highcharts} highcharts/tooltip/pointformat/ * A different point format with value suffix * @sample {highcharts|highstock} highcharts/tooltip/pointformat-extra-information/ * Show extra information about points in the tooltip * @sample {highmaps} maps/tooltip/format/ * Format demo * * @type {string} * @since 2.2 * @apioption tooltip.pointFormat */ pointFormat: '\u25CF {series.name}: {point.y}
', /** * The background color or gradient for the tooltip. * * In styled mode, the stroke width is set in the * `.highcharts-tooltip-box` class. * * @sample {highcharts} highcharts/tooltip/backgroundcolor-solid/ * Yellowish background * @sample {highcharts} highcharts/tooltip/backgroundcolor-gradient/ * Gradient * @sample {highcharts} highcharts/css/tooltip-border-background/ * Tooltip in styled mode * @sample {highstock} stock/tooltip/general/ * Custom tooltip * @sample {highstock} highcharts/css/tooltip-border-background/ * Tooltip in styled mode * @sample {highmaps} maps/tooltip/background-border/ * Background and border demo * @sample {highmaps} highcharts/css/tooltip-border-background/ * Tooltip in styled mode * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ backgroundColor: "#ffffff" /* Palette.backgroundColor */, /** * The pixel width of the tooltip border. Defaults to 0 for single * tooltips and 1 for split tooltips. * * In styled mode, the stroke width is set in the * `.highcharts-tooltip-box` class. * * @sample {highcharts} highcharts/tooltip/bordercolor-default/ * 2 pixels * @sample {highcharts} highcharts/tooltip/borderwidth/ * No border (shadow only) * @sample {highcharts} highcharts/css/tooltip-border-background/ * Tooltip in styled mode * @sample {highstock} stock/tooltip/general/ * Custom tooltip * @sample {highstock} highcharts/css/tooltip-border-background/ * Tooltip in styled mode * @sample {highmaps} maps/tooltip/background-border/ * Background and border demo * @sample {highmaps} highcharts/css/tooltip-border-background/ * Tooltip in styled mode * * @type {number} */ borderWidth: void 0, /** * Whether to apply a drop shadow to the tooltip. * * @sample {highcharts} highcharts/tooltip/bordercolor-default/ * True by default * @sample {highcharts} highcharts/tooltip/shadow/ * False * @sample {highmaps} maps/tooltip/positioner/ * Fixed tooltip position, border and shadow disabled * * @type {boolean|Highcharts.ShadowOptionsObject} */ shadow: true, /** * Prevents the tooltip from switching or closing when touched or * pointed. * * @sample highcharts/tooltip/stickoncontact/ * Tooltip sticks on pointer contact * * @since 8.0.1 */ stickOnContact: false, /** * CSS styles for the tooltip. The tooltip can also be styled through * the CSS class `.highcharts-tooltip`. * * Note that the default `pointerEvents` style makes the tooltip ignore * mouse events, so in order to use clickable tooltips, this value must * be set to `auto`. * * @sample {highcharts} highcharts/tooltip/style/ * Greater padding, bold text * * @type {Highcharts.CSSObject} */ style: { /** @internal */ color: "#333333" /* Palette.neutralColor80 */, /** @internal */ cursor: 'default', /** @internal */ fontSize: '0.8em' }, /** * Use HTML to render the contents of the tooltip instead of SVG. Using * HTML allows advanced formatting like tables and images in the * tooltip. It is also recommended for rtl languages as it works around * rtl bugs in early Firefox. * * @sample {highcharts|highstock} highcharts/tooltip/footerformat/ * A table for value alignment * @sample {highcharts|highstock} highcharts/tooltip/fullhtml/ * Full HTML tooltip * @sample {highmaps} maps/tooltip/usehtml/ * Pure HTML tooltip * * @since 2.2 */ useHTML: false }, /** * Highchart by default puts a credits label in the lower right corner * of the chart. This can be changed using these options. */ credits: { /** * Credits for map source to be concatenated with conventional credit * text. By default this is a format string that collects copyright * information from the map if available. * * @see [mapTextFull](#credits.mapTextFull) * @see [text](#credits.text) * * @type {string} * @default \u00a9 {geojson.copyrightShort} * @since 4.2.2 * @product highmaps * @apioption credits.mapText */ /** * Detailed credits for map source to be displayed on hover of credits * text. By default this is a format string that collects copyright * information from the map if available. * * @see [mapText](#credits.mapText) * @see [text](#credits.text) * * @type {string} * @default {geojson.copyright} * @since 4.2.2 * @product highmaps * @apioption credits.mapTextFull */ /** * Whether to show the credits text. * * @sample {highcharts} highcharts/credits/enabled-false/ * Credits disabled * @sample {highstock} stock/credits/enabled/ * Credits disabled * @sample {highmaps} maps/credits/enabled-false/ * Credits disabled */ enabled: true, /** * The URL for the credits label. * * @sample {highcharts} highcharts/credits/href/ * Custom URL and text * @sample {highmaps} maps/credits/customized/ * Custom URL and text */ href: 'https://www.highcharts.com?credits', /** * Position configuration for the credits label. * * @sample {highcharts} highcharts/credits/position-left/ * Left aligned * @sample {highcharts} highcharts/credits/position-left/ * Left aligned * @sample {highmaps} maps/credits/customized/ * Left aligned * @sample {highmaps} maps/credits/customized/ * Left aligned * * @type {Highcharts.AlignObject} * @since 2.1 */ position: { /** @internal */ align: 'right', /** @internal */ x: -10, /** @internal */ verticalAlign: 'bottom', /** @internal */ y: -5 }, /** * CSS styles for the credits label. * * @see In styled mode, credits styles can be set with the * `.highcharts-credits` class. * * @type {Highcharts.CSSObject} */ style: { /** @internal */ cursor: 'pointer', /** @internal */ color: "#999999" /* Palette.neutralColor40 */, /** @internal */ fontSize: '0.6em' }, /** * The text for the credits label. * * @productdesc {highmaps} * If a map is loaded as GeoJSON, the text defaults to * `Highcharts @ {map-credits}`. Otherwise, it defaults to * `Highcharts.com`. * * @sample {highcharts} highcharts/credits/href/ * Custom URL and text * @sample {highmaps} maps/credits/customized/ * Custom URL and text */ text: 'Highcharts.com' } }; /* eslint-disable spaced-comment */ defaultOptions.chart.styledMode = false; ''; const defaultTime = new Time(defaultOptions.time); /** * Get the updated default options. Until 3.0.7, merely exposing defaultOptions * for outside modules wasn't enough because the setOptions method created a new * object. * * @function Highcharts.getOptions * * @return {Highcharts.Options} * Default options. */ function getOptions() { return defaultOptions; } /** * Merge the default options with custom options and return the new options * structure. Commonly used for defining reusable templates. * * @sample highcharts/global/useutc-false Setting a global option * @sample highcharts/members/setoptions Applying a global theme * * @function Highcharts.setOptions * * @param {Highcharts.Options} options * The new custom chart options. * * @return {Highcharts.Options} * Updated options. */ function setOptions(options) { // Copy in the default options merge(true, defaultOptions, options); // Update the time object if (options.time || options.global) { if (H.time) { H.time.update(merge(defaultOptions.global, defaultOptions.time, options.global, options.time)); } else { /** * Global `Time` object with default options. Since v6.0.5, time * settings can be applied individually for each chart. If no * individual settings apply, this `Time` object is shared by all * instances. * * @name Highcharts.time * @type {Highcharts.Time} */ H.time = defaultTime; } } return defaultOptions; } /* * * * Default Export * * */ const DefaultOptions = { defaultOptions, defaultTime, getOptions, setOptions }; /* * * * API Declarations * * */ /** * @typedef {"plotBox"|"spacingBox"} Highcharts.ButtonRelativeToValue */ /** * Gets fired when a series is added to the chart after load time, using the * `addSeries` method. Returning `false` prevents the series from being added. * * @callback Highcharts.ChartAddSeriesCallbackFunction * * @param {Highcharts.Chart} this * The chart on which the event occurred. * * @param {Highcharts.ChartAddSeriesEventObject} event * The event that occurred. */ /** * Contains common event information. Through the `options` property you can * access the series options that were passed to the `addSeries` method. * * @interface Highcharts.ChartAddSeriesEventObject */ /** * The series options that were passed to the `addSeries` method. * @name Highcharts.ChartAddSeriesEventObject#options * @type {Highcharts.SeriesOptionsType} */ /** * Prevents the default behaviour of the event. * @name Highcharts.ChartAddSeriesEventObject#preventDefault * @type {Function} */ /** * The event target. * @name Highcharts.ChartAddSeriesEventObject#target * @type {Highcharts.Chart} */ /** * The event type. * @name Highcharts.ChartAddSeriesEventObject#type * @type {"addSeries"} */ /** * Gets fired when clicking on the plot background. * * @callback Highcharts.ChartClickCallbackFunction * * @param {Highcharts.Chart} this * The chart on which the event occurred. * * @param {Highcharts.PointerEventObject} event * The event that occurred. */ /** * Contains an axes of the clicked spot. * * @interface Highcharts.ChartClickEventAxisObject */ /** * Axis at the clicked spot. * @name Highcharts.ChartClickEventAxisObject#axis * @type {Highcharts.Axis} */ /** * Axis value at the clicked spot. * @name Highcharts.ChartClickEventAxisObject#value * @type {number} */ /** * Contains information about the clicked spot on the chart. Remember the unit * of a datetime axis is milliseconds since 1970-01-01 00:00:00. * * @interface Highcharts.ChartClickEventObject * @extends Highcharts.PointerEventObject */ /** * Information about the x-axis on the clicked spot. * @name Highcharts.ChartClickEventObject#xAxis * @type {Array} */ /** * Information about the y-axis on the clicked spot. * @name Highcharts.ChartClickEventObject#yAxis * @type {Array} */ /** * Information about the z-axis on the clicked spot. * @name Highcharts.ChartClickEventObject#zAxis * @type {Array|undefined} */ /** * Gets fired when the chart is finished loading. * * @callback Highcharts.ChartLoadCallbackFunction * * @param {Highcharts.Chart} this * The chart on which the event occurred. * * @param {global.Event} event * The event that occurred. */ /** * Fires when the chart is redrawn, either after a call to `chart.redraw()` or * after an axis, series or point is modified with the `redraw` option set to * `true`. * * @callback Highcharts.ChartRedrawCallbackFunction * * @param {Highcharts.Chart} this * The chart on which the event occurred. * * @param {global.Event} event * The event that occurred. */ /** * Gets fired after initial load of the chart (directly after the `load` event), * and after each redraw (directly after the `redraw` event). * * @callback Highcharts.ChartRenderCallbackFunction * * @param {Highcharts.Chart} this * The chart on which the event occurred. * * @param {global.Event} event * The event that occurred. */ /** * Gets fired when an area of the chart has been selected. The default action * for the selection event is to zoom the chart to the selected area. It can be * prevented by calling `event.preventDefault()` or return false. * * @callback Highcharts.ChartSelectionCallbackFunction * * @param {Highcharts.Chart} this * The chart on which the event occurred. * * @param {Highcharts.SelectEventObject} event * Event informations * * @return {boolean|undefined} * Return false to prevent the default action, usually zoom. */ (''); // Detach doclets above return DefaultOptions; }); _registerModule(_modules, 'Core/Color/Color.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { isNumber, merge, pInt } = U; /* * * * Class * * */ /* eslint-disable valid-jsdoc */ /** * Handle color operations. Some object methods are chainable. * * @class * @name Highcharts.Color * * @param {Highcharts.ColorType} input * The input color in either rgba or hex format */ class Color { /* * * * Static Functions * * */ /** * Creates a color instance out of a color string or object. * * @function Highcharts.Color.parse * * @param {Highcharts.ColorType} [input] * The input color in either rgba or hex format. * * @return {Highcharts.Color} * Color instance. */ static parse(input) { return input ? new Color(input) : Color.None; } /* * * * Constructor * * */ constructor(input) { this.rgba = [NaN, NaN, NaN, NaN]; this.input = input; const GlobalColor = H.Color; // Backwards compatibility, allow class overwrite if (GlobalColor && GlobalColor !== Color) { return new GlobalColor(input); } let result, rgba, i, parser; // Gradients if (typeof input === 'object' && typeof input.stops !== 'undefined') { this.stops = input.stops.map((stop) => new Color(stop[1])); // Solid colors } else if (typeof input === 'string') { this.input = input = (Color.names[input.toLowerCase()] || input); // Bitmasking as input[0] is not working for legacy IE. if (input.charAt(0) === '#') { const len = input.length, col = parseInt(input.substr(1), 16); // Handle long-form, e.g. #AABBCC if (len === 7) { rgba = [ (col & 0xFF0000) >> 16, (col & 0xFF00) >> 8, (col & 0xFF), 1 ]; // Handle short-form, e.g. #ABC // In short form, the value is assumed to be the same // for both nibbles for each component. e.g. #ABC = #AABBCC } else if (len === 4) { rgba = [ (((col & 0xF00) >> 4) | (col & 0xF00) >> 8), (((col & 0xF0) >> 4) | (col & 0xF0)), ((col & 0xF) << 4) | (col & 0xF), 1 ]; } } // Otherwise, check regex parsers if (!rgba) { i = Color.parsers.length; while (i-- && !rgba) { parser = Color.parsers[i]; result = parser.regex.exec(input); if (result) { rgba = parser.parse(result); } } } } if (rgba) { this.rgba = rgba; } } /* * * * Functions * * */ /** * Return the color or gradient stops in the specified format * * @function Highcharts.Color#get * * @param {string} [format] * Possible values are 'a', 'rgb', 'rgba' (default). * * @return {Highcharts.ColorType} * This color as a string or gradient stops. */ get(format) { const input = this.input, rgba = this.rgba; if (typeof input === 'object' && typeof this.stops !== 'undefined') { const ret = merge(input); ret.stops = [].slice.call(ret.stops); this.stops.forEach((stop, i) => { ret.stops[i] = [ ret.stops[i][0], stop.get(format) ]; }); return ret; } // It's NaN if gradient colors on a column chart if (rgba && isNumber(rgba[0])) { if (format === 'rgb' || (!format && rgba[3] === 1)) { return 'rgb(' + rgba[0] + ',' + rgba[1] + ',' + rgba[2] + ')'; } if (format === 'a') { return `${rgba[3]}`; } return 'rgba(' + rgba.join(',') + ')'; } return input; } /** * Brighten the color instance. * * @function Highcharts.Color#brighten * * @param {number} alpha * The alpha value. * * @return {Highcharts.Color} * This color with modifications. */ brighten(alpha) { const rgba = this.rgba; if (this.stops) { this.stops.forEach(function (stop) { stop.brighten(alpha); }); } else if (isNumber(alpha) && alpha !== 0) { for (let 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. * * @function Highcharts.Color#setOpacity * * @param {number} alpha * Opacity between 0 and 1. * * @return {Highcharts.Color} * Color with modifications. */ setOpacity(alpha) { this.rgba[3] = alpha; return this; } /** * Return an intermediate color between two colors. * * @function Highcharts.Color#tweenTo * * @param {Highcharts.Color} to * The color object to tween to. * * @param {number} pos * The intermediate position, where 0 is the from color (current color * item), and 1 is the `to` color. * * @return {Highcharts.ColorType} * The intermediate color in rgba notation, or unsupported type. */ tweenTo(to, pos) { const fromRgba = this.rgba, toRgba = to.rgba; // Unsupported color, return to-color (#3920, #7034) if (!isNumber(fromRgba[0]) || !isNumber(toRgba[0])) { return to.input || 'none'; } // Check for has alpha, because rgba colors perform worse due to // lack of support in WebKit. const hasAlpha = (toRgba[3] !== 1 || fromRgba[3] !== 1); return (hasAlpha ? 'rgba(' : 'rgb(') + Math.round(toRgba[0] + (fromRgba[0] - toRgba[0]) * (1 - pos)) + ',' + Math.round(toRgba[1] + (fromRgba[1] - toRgba[1]) * (1 - pos)) + ',' + Math.round(toRgba[2] + (fromRgba[2] - toRgba[2]) * (1 - pos)) + (hasAlpha ? (',' + (toRgba[3] + (fromRgba[3] - toRgba[3]) * (1 - pos))) : '') + ')'; } } /* * * * Static Properties * * */ /** * Collection of named colors. Can be extended from the outside by adding * colors to Highcharts.Color.names. * @private */ Color.names = { white: '#ffffff', black: '#000000' }; /** * Collection of parsers. This can be extended from the outside by pushing * parsers to `Color.parsers`. */ Color.parsers = [{ // RGBA color // eslint-disable-next-line max-len regex: /rgba\(\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]?(?:\.[0-9]+)?)\s*\)/, parse: function (result) { return [ pInt(result[1]), pInt(result[2]), pInt(result[3]), parseFloat(result[4], 10) ]; } }, { // RGB color regex: /rgb\(\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*\)/, parse: function (result) { return [pInt(result[1]), pInt(result[2]), pInt(result[3]), 1]; } }]; // Must be last static member for init cycle Color.None = new Color(''); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * A valid color to be parsed and handled by Highcharts. Highcharts internally * supports hex colors like `#ffffff`, rgb colors like `rgb(255,255,255)` and * rgba colors like `rgba(255,255,255,1)`. Other colors may be supported by the * browsers and displayed correctly, but Highcharts is not able to process them * and apply concepts like opacity and brightening. * * @typedef {string} Highcharts.ColorString */ /** * A valid color type than can be parsed and handled by Highcharts. It can be a * color string, a gradient object, or a pattern object. * * @typedef {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} Highcharts.ColorType */ /** * Gradient options instead of a solid color. * * @example * // Linear gradient used as a color option * color: { * linearGradient: { x1: 0, x2: 0, y1: 0, y2: 1 }, * stops: [ * [0, '#003399'], // start * [0.5, '#ffffff'], // middle * [1, '#3366AA'] // end * ] * } * * @interface Highcharts.GradientColorObject */ /** * Holds an object that defines the start position and the end position relative * to the shape. * @name Highcharts.GradientColorObject#linearGradient * @type {Highcharts.LinearGradientColorObject|undefined} */ /** * Holds an object that defines the center position and the radius. * @name Highcharts.GradientColorObject#radialGradient * @type {Highcharts.RadialGradientColorObject|undefined} */ /** * The first item in each tuple is the position in the gradient, where 0 is the * start of the gradient and 1 is the end of the gradient. Multiple stops can be * applied. The second item is the color for each stop. This color can also be * given in the rgba format. * @name Highcharts.GradientColorObject#stops * @type {Array} */ /** * Color stop tuple. * * @see Highcharts.GradientColorObject * * @interface Highcharts.GradientColorStopObject */ /** * @name Highcharts.GradientColorStopObject#0 * @type {number} */ /** * @name Highcharts.GradientColorStopObject#1 * @type {Highcharts.ColorString} */ /** * @name Highcharts.GradientColorStopObject#color * @type {Highcharts.Color|undefined} */ /** * Defines the start position and the end position for a gradient relative * to the shape. Start position (x1, y1) and end position (x2, y2) are relative * to the shape, where 0 means top/left and 1 is bottom/right. * * @interface Highcharts.LinearGradientColorObject */ /** * Start horizontal position of the gradient. Float ranges 0-1. * @name Highcharts.LinearGradientColorObject#x1 * @type {number} */ /** * End horizontal position of the gradient. Float ranges 0-1. * @name Highcharts.LinearGradientColorObject#x2 * @type {number} */ /** * Start vertical position of the gradient. Float ranges 0-1. * @name Highcharts.LinearGradientColorObject#y1 * @type {number} */ /** * End vertical position of the gradient. Float ranges 0-1. * @name Highcharts.LinearGradientColorObject#y2 * @type {number} */ /** * Defines the center position and the radius for a gradient. * * @interface Highcharts.RadialGradientColorObject */ /** * Center horizontal position relative to the shape. Float ranges 0-1. * @name Highcharts.RadialGradientColorObject#cx * @type {number} */ /** * Center vertical position relative to the shape. Float ranges 0-1. * @name Highcharts.RadialGradientColorObject#cy * @type {number} */ /** * Radius relative to the shape. Float ranges 0-1. * @name Highcharts.RadialGradientColorObject#r * @type {number} */ /** * Creates a color instance out of a color string. * * @function Highcharts.color * * @param {Highcharts.ColorType} input * The input color in either rgba or hex format * * @return {Highcharts.Color} * Color instance */ (''); // Detach doclets above return Color; }); _registerModule(_modules, 'Core/Animation/Fx.js', [_modules['Core/Color/Color.js'], _modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (Color, H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { parse: color } = Color; const { win } = H; const { isNumber, objectEach } = U; /* eslint-disable no-invalid-this, valid-jsdoc */ /* * * * Class * * */ /** * An animator object used internally. One instance applies to one property * (attribute or style prop) on one element. Animation is always initiated * through {@link SVGElement#animate}. * * @example * let rect = renderer.rect(0, 0, 10, 10).add(); * rect.animate({ width: 100 }); * * @private * @class * @name Highcharts.Fx * * @param {Highcharts.HTMLDOMElement|Highcharts.SVGElement} elem * The element to animate. * * @param {Partial} options * Animation options. * * @param {string} prop * The single attribute or CSS property to animate. */ class Fx { /* * * * Constructors * * */ constructor(elem, options, prop) { this.pos = NaN; this.options = options; this.elem = elem; this.prop = prop; } /* * * * Functions * * */ /** * Set the current step of a path definition on SVGElement. * * @function Highcharts.Fx#dSetter * */ dSetter() { const paths = this.paths, start = paths && paths[0], end = paths && paths[1], now = this.now || 0; let path = []; // Land on the final path without adjustment points appended in the ends if (now === 1 || !start || !end) { path = this.toD || []; } else if (start.length === end.length && now < 1) { for (let i = 0; i < end.length; i++) { // Tween between the start segment and the end segment. Start // with a copy of the end segment and tween the appropriate // numerics const startSeg = start[i]; const endSeg = end[i]; const tweenSeg = []; for (let j = 0; j < endSeg.length; j++) { const startItem = startSeg[j]; const endItem = endSeg[j]; // Tween numbers if (isNumber(startItem) && isNumber(endItem) && // Arc boolean flags !(endSeg[0] === 'A' && (j === 4 || j === 5))) { tweenSeg[j] = startItem + now * (endItem - startItem); // Strings, take directly from the end segment } else { tweenSeg[j] = endItem; } } path.push(tweenSeg); } // If animation is finished or length not matching, land on right value } else { path = end; } this.elem.attr('d', path, void 0, true); } /** * Update the element with the current animation step. * * @function Highcharts.Fx#update * */ update() { const elem = this.elem, prop = this.prop, // If destroyed, it is null now = this.now, step = this.options.step; // Animation setter defined from outside if (this[prop + 'Setter']) { this[prop + 'Setter'](); // Other animations on SVGElement } else if (elem.attr) { if (elem.element) { elem.attr(prop, now, null, true); } // HTML styles, raw HTML content like container size } else { elem.style[prop] = now + this.unit; } if (step) { step.call(elem, now, this); } } /** * Run an animation. * * @function Highcharts.Fx#run * * @param {number} from * The current value, value to start from. * * @param {number} to * The end value, value to land on. * * @param {string} unit * The property unit, for example `px`. * */ run(from, to, unit) { const self = this, options = self.options, timer = function (gotoEnd) { return timer.stopped ? false : self.step(gotoEnd); }, requestAnimationFrame = win.requestAnimationFrame || function (step) { setTimeout(step, 13); }, step = function () { for (let i = 0; i < Fx.timers.length; i++) { if (!Fx.timers[i]()) { Fx.timers.splice(i--, 1); } } if (Fx.timers.length) { requestAnimationFrame(step); } }; if (from === to && !this.elem['forceAnimate:' + this.prop]) { delete options.curAnim[this.prop]; if (options.complete && Object.keys(options.curAnim).length === 0) { options.complete.call(this.elem); } } else { // #7166 this.startTime = +new Date(); this.start = from; this.end = to; this.unit = unit; this.now = this.start; this.pos = 0; timer.elem = this.elem; timer.prop = this.prop; if (timer() && Fx.timers.push(timer) === 1) { requestAnimationFrame(step); } } } /** * Run a single step in the animation. * * @function Highcharts.Fx#step * * @param {boolean} [gotoEnd] * Whether to go to the endpoint of the animation after abort. * * @return {boolean} * Returns `true` if animation continues. */ step(gotoEnd) { const t = +new Date(), options = this.options, elem = this.elem, complete = options.complete, duration = options.duration, curAnim = options.curAnim; let ret, done; if (!!elem.attr && !elem.element) { // #2616, element is destroyed ret = false; } else if (gotoEnd || t >= duration + this.startTime) { this.now = this.end; this.pos = 1; this.update(); curAnim[this.prop] = true; done = true; objectEach(curAnim, function (val) { if (val !== true) { done = false; } }); if (done && complete) { complete.call(elem); } ret = false; } else { this.pos = options.easing((t - this.startTime) / duration); this.now = this.start + ((this.end - this.start) * this.pos); this.update(); ret = true; } return ret; } /** * Prepare start and end values so that the path can be animated one to one. * * @function Highcharts.Fx#initPath * * @param {Highcharts.SVGElement} elem * The SVGElement item. * * @param {Highcharts.SVGPathArray|undefined} fromD * Starting path definition. * * @param {Highcharts.SVGPathArray} toD * Ending path definition. * * @return {Array} * An array containing start and end paths in array form so that * they can be animated in parallel. */ initPath(elem, fromD, toD) { const startX = elem.startX, endX = elem.endX, end = toD.slice(), // Copy isArea = elem.isArea, positionFactor = isArea ? 2 : 1; let shift, fullLength, i, reverse, start = fromD && fromD.slice(); // Copy if (!start) { return [end, end]; } /** * If shifting points, prepend a dummy point to the end path. * @private */ function prepend(arr, other) { while (arr.length < fullLength) { // Move to, line to or curve to? const moveSegment = arr[0], otherSegment = other[fullLength - arr.length]; if (otherSegment && moveSegment[0] === 'M') { if (otherSegment[0] === 'C') { arr[0] = [ 'C', moveSegment[1], moveSegment[2], moveSegment[1], moveSegment[2], moveSegment[1], moveSegment[2] ]; } else { arr[0] = ['L', moveSegment[1], moveSegment[2]]; } } // Prepend a copy of the first point arr.unshift(moveSegment); // For areas, the bottom path goes back again to the left, so we // need to append a copy of the last point. if (isArea) { const z = arr.pop(); arr.push(arr[arr.length - 1], z); // Append point and the Z } } } /** * Copy and append last point until the length matches the end length. * @private */ function append(arr) { while (arr.length < fullLength) { // Pull out the slice that is going to be appended or inserted. // In a line graph, the positionFactor is 1, and the last point // is sliced out. In an area graph, the positionFactor is 2, // causing the middle two points to be sliced out, since an area // path starts at left, follows the upper path then turns and // follows the bottom back. const segmentToAdd = arr[Math.floor(arr.length / positionFactor) - 1].slice(); // Disable the first control point of curve segments if (segmentToAdd[0] === 'C') { segmentToAdd[1] = segmentToAdd[5]; segmentToAdd[2] = segmentToAdd[6]; } if (!isArea) { arr.push(segmentToAdd); } else { const lowerSegmentToAdd = arr[Math.floor(arr.length / positionFactor)].slice(); arr.splice(arr.length / 2, 0, segmentToAdd, lowerSegmentToAdd); } } } // For sideways animation, find out how much we need to shift to get the // start path Xs to match the end path Xs. if (startX && endX && endX.length) { for (i = 0; i < startX.length; i++) { // Moving left, new points coming in on right if (startX[i] === endX[0]) { shift = i; break; // Moving right } else if (startX[0] === endX[endX.length - startX.length + i]) { shift = i; reverse = true; break; // Fixed from the right side, "scaling" left } else if (startX[startX.length - 1] === endX[endX.length - startX.length + i]) { shift = startX.length - i; break; } } if (typeof shift === 'undefined') { start = []; } } if (start.length && isNumber(shift)) { // The common target length for the start and end array, where both // arrays are padded in opposite ends fullLength = end.length + shift * positionFactor; if (!reverse) { prepend(end, start); append(start); } else { prepend(start, end); append(end); } } return [start, end]; } /** * Handle animation of the color attributes directly. * * @function Highcharts.Fx#fillSetter * */ fillSetter() { Fx.prototype.strokeSetter.apply(this, arguments); } /** * Handle animation of the color attributes directly. * * @function Highcharts.Fx#strokeSetter * */ strokeSetter() { this.elem.attr(this.prop, color(this.start).tweenTo(color(this.end), this.pos), void 0, true); } } /* * * * Static Properties * * */ Fx.timers = []; /* * * * Default Export * * */ return Fx; }); _registerModule(_modules, 'Core/Animation/AnimationUtilities.js', [_modules['Core/Animation/Fx.js'], _modules['Core/Utilities.js']], function (Fx, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defined, getStyle, isArray, isNumber, isObject, merge, objectEach, pick } = U; /* * * * Functions * * */ /** * Set the global animation to either a given value, or fall back to the given * chart's animation option. * * @function Highcharts.setAnimation * * @param {boolean|Partial|undefined} animation * The animation object. * * @param {Highcharts.Chart} chart * The chart instance. * * @todo * This function always relates to a chart, and sets a property on the renderer, * so it should be moved to the SVGRenderer. */ function setAnimation(animation, chart) { chart.renderer.globalAnimation = pick(animation, chart.options.chart.animation, true); } /** * Get the animation in object form, where a disabled animation is always * returned as `{ duration: 0 }`. * * @function Highcharts.animObject * * @param {boolean|Highcharts.AnimationOptionsObject} [animation=0] * An animation setting. Can be an object with duration, complete and * easing properties, or a boolean to enable or disable. * * @return {Highcharts.AnimationOptionsObject} * An object with at least a duration property. */ function animObject(animation) { return isObject(animation) ? merge({ duration: 500, defer: 0 }, animation) : { duration: animation ? 500 : 0, defer: 0 }; } /** * Get the defer as a number value from series animation options. * * @function Highcharts.getDeferredAnimation * * @param {Highcharts.Chart} chart * The chart instance. * * @param {boolean|Highcharts.AnimationOptionsObject} animation * An animation setting. Can be an object with duration, complete and * easing properties, or a boolean to enable or disable. * * @param {Highcharts.Series} [series] * Series to defer animation. * * @return {number} * The numeric value. */ function getDeferredAnimation(chart, animation, series) { const labelAnimation = animObject(animation), s = series ? [series] : chart.series; let defer = 0, duration = 0; s.forEach((series) => { const seriesAnim = animObject(series.options.animation); defer = isObject(animation) && defined(animation.defer) ? labelAnimation.defer : Math.max(defer, seriesAnim.duration + seriesAnim.defer); duration = Math.min(labelAnimation.duration, seriesAnim.duration); }); // Disable defer for exporting if (chart.renderer.forExport) { defer = 0; } const anim = { defer: Math.max(0, defer - duration), duration: Math.min(defer, duration) }; return anim; } /** * The global animate method, which uses Fx to create individual animators. * * @function Highcharts.animate * * @param {Highcharts.HTMLDOMElement|Highcharts.SVGElement} el * The element to animate. * * @param {Highcharts.CSSObject|Highcharts.SVGAttributes} params * An object containing key-value pairs of the properties to animate. * Supports numeric as pixel-based CSS properties for HTML objects and * attributes for SVGElements. * * @param {Partial} [opt] * Animation options. * * @return {void} */ function animate(el, params, opt) { let start, unit = '', end, fx, args; if (!isObject(opt)) { // Number or undefined/null args = arguments; opt = { duration: args[2], easing: args[3], complete: args[4] }; } if (!isNumber(opt.duration)) { opt.duration = 400; } opt.easing = typeof opt.easing === 'function' ? opt.easing : (Math[opt.easing] || Math.easeInOutSine); opt.curAnim = merge(params); objectEach(params, function (val, prop) { // Stop current running animation of this property stop(el, prop); fx = new Fx(el, opt, prop); end = void 0; if (prop === 'd' && isArray(params.d)) { fx.paths = fx.initPath(el, el.pathArray, params.d); fx.toD = params.d; start = 0; end = 1; } else if (el.attr) { start = el.attr(prop); } else { start = parseFloat(getStyle(el, prop)) || 0; if (prop !== 'opacity') { unit = 'px'; } } if (!end) { end = val; } if (typeof end === 'string' && end.match('px')) { end = end.replace(/px/g, ''); // #4351 } fx.run(start, end, unit); }); } /** * Stop running animation. * * @function Highcharts.stop * * @param {Highcharts.SVGElement} el * The SVGElement to stop animation on. * * @param {string} [prop] * The property to stop animating. If given, the stop method will stop a * single property from animating, while others continue. * * @return {void} * * @todo * A possible extension to this would be to stop a single property, when * we want to continue animating others. Then assign the prop to the timer * in the Fx.run method, and check for the prop here. This would be an * improvement in all cases where we stop the animation from .attr. Instead of * stopping everything, we can just stop the actual attributes we're setting. */ function stop(el, prop) { let i = Fx.timers.length; // Remove timers related to this element (#4519) while (i--) { if (Fx.timers[i].elem === el && (!prop || prop === Fx.timers[i].prop)) { Fx.timers[i].stopped = true; // #4667 } } } const animationExports = { animate, animObject, getDeferredAnimation, setAnimation, stop }; /* * * * Default Export * * */ return animationExports; }); _registerModule(_modules, 'Core/Renderer/HTML/AST.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { SVG_NS, win } = H; const { attr, createElement, css, error, isFunction, isString, objectEach, splat } = U; const { trustedTypes } = win; /* * * * Constants * * */ // Create the trusted type policy. This should not be exposed. const trustedTypesPolicy = (trustedTypes && isFunction(trustedTypes.createPolicy) && trustedTypes.createPolicy('highcharts', { createHTML: (s) => s })); const emptyHTML = trustedTypesPolicy ? trustedTypesPolicy.createHTML('') : ''; // IE9 and PhantomJS are only able to parse XML. const hasValidDOMParser = (function () { try { return Boolean(new DOMParser().parseFromString(emptyHTML, 'text/html')); } catch (e) { return false; } }()); /* * * * Class * * */ /** * The AST class represents an abstract syntax tree of HTML or SVG content. It * can take HTML as an argument, parse it, optionally transform it to SVG, then * perform sanitation before inserting it into the DOM. * * @class * @name Highcharts.AST * * @param {string|Array} source * Either an HTML string or an ASTNode list to populate the tree. */ class AST { /* * * * Static Functions * * */ /** * Filter an object of SVG or HTML attributes against the allow list. * * @static * * @function Highcharts.AST#filterUserAttributes * * @param {Highcharts.SVGAttributes} attributes The attributes to filter * * @return {Highcharts.SVGAttributes} * The filtered attributes */ static filterUserAttributes(attributes) { objectEach(attributes, (val, key) => { let valid = true; if (AST.allowedAttributes.indexOf(key) === -1) { valid = false; } if (['background', 'dynsrc', 'href', 'lowsrc', 'src'] .indexOf(key) !== -1) { valid = isString(val) && AST.allowedReferences.some((ref) => val.indexOf(ref) === 0); } if (!valid) { error(33, false, void 0, { 'Invalid attribute in config': `${key}` }); delete attributes[key]; } // #17753, < is not allowed in SVG attributes if (isString(val) && attributes[key]) { attributes[key] = val.replace(/ { const pair = line.split(':').map((s) => s.trim()), key = pair.shift(); if (key && pair.length) { styles[key.replace(/-([a-z])/g, (g) => g[1].toUpperCase())] = pair.join(':'); // #17146 } return styles; }, {}); } /** * Utility function to set html content for an element by passing in a * markup string. The markup is safely parsed by the AST class to avoid * XSS vulnerabilities. This function should be used instead of setting * `innerHTML` in all cases where the content is not fully trusted. * * @static * @function Highcharts.AST#setElementHTML * * @param {SVGDOMElement|HTMLDOMElement} el * Node to set content of. * * @param {string} html * Markup string */ static setElementHTML(el, html) { el.innerHTML = AST.emptyHTML; // Clear previous if (html) { const ast = new AST(html); ast.addToDOM(el); } } /* * * * Constructor * * */ // Construct an AST from HTML markup, or wrap an array of existing AST nodes constructor(source) { this.nodes = typeof source === 'string' ? this.parseMarkup(source) : source; } /* * * * Functions * * */ /** * Add the tree defined as a hierarchical JS structure to the DOM * * @function Highcharts.AST#addToDOM * * @param {Highcharts.HTMLDOMElement|Highcharts.SVGDOMElement} parent * The node where it should be added * * @return {Highcharts.HTMLDOMElement|Highcharts.SVGDOMElement} * The inserted node. */ addToDOM(parent) { /** * @private * @param {Highcharts.ASTNode} subtree * HTML/SVG definition * @param {Element} [subParent] * parent node * @return {Highcharts.SVGDOMElement|Highcharts.HTMLDOMElement} * The inserted node. */ function recurse(subtree, subParent) { let ret; splat(subtree).forEach(function (item) { const tagName = item.tagName; const textNode = item.textContent ? H.doc.createTextNode(item.textContent) : void 0; // Whether to ignore the AST filtering totally, #15345 const bypassHTMLFiltering = AST.bypassHTMLFiltering; let node; if (tagName) { if (tagName === '#text') { node = textNode; } else if (AST.allowedTags.indexOf(tagName) !== -1 || bypassHTMLFiltering) { const NS = tagName === 'svg' ? SVG_NS : (subParent.namespaceURI || SVG_NS); const element = H.doc.createElementNS(NS, tagName); const attributes = item.attributes || {}; // Apply attributes from root of AST node, legacy from // from before TextBuilder objectEach(item, function (val, key) { if (key !== 'tagName' && key !== 'attributes' && key !== 'children' && key !== 'style' && key !== 'textContent') { attributes[key] = val; } }); attr(element, bypassHTMLFiltering ? attributes : AST.filterUserAttributes(attributes)); if (item.style) { css(element, item.style); } // Add text content if (textNode) { element.appendChild(textNode); } // Recurse recurse(item.children || [], element); node = element; } else { error(33, false, void 0, { 'Invalid tagName in config': tagName }); } } // Add to the tree if (node) { subParent.appendChild(node); } ret = node; }); // Return last node added (on top level it's the only one) return ret; } return recurse(this.nodes, parent); } /** * Parse HTML/SVG markup into AST Node objects. Used internally from the * constructor. * * @private * * @function Highcharts.AST#getNodesFromMarkup * * @param {string} markup The markup string. * * @return {Array} The parsed nodes. */ parseMarkup(markup) { const nodes = []; markup = markup .trim() // The style attribute throws a warning when parsing when CSP is // enabled (#6884), so use an alias and pick it up below // Make all quotation marks parse correctly to DOM (#17627) .replace(/ style=(["'])/g, ' data-style=$1'); let doc; if (hasValidDOMParser) { doc = new DOMParser().parseFromString(trustedTypesPolicy ? trustedTypesPolicy.createHTML(markup) : markup, 'text/html'); } else { const body = createElement('div'); body.innerHTML = markup; doc = { body }; } const appendChildNodes = (node, addTo) => { const tagName = node.nodeName.toLowerCase(); // Add allowed tags const astNode = { tagName }; if (tagName === '#text') { astNode.textContent = node.textContent || ''; } const parsedAttributes = node.attributes; // Add attributes if (parsedAttributes) { const attributes = {}; [].forEach.call(parsedAttributes, (attrib) => { if (attrib.name === 'data-style') { astNode.style = AST.parseStyle(attrib.value); } else { attributes[attrib.name] = attrib.value; } }); astNode.attributes = attributes; } // Handle children if (node.childNodes.length) { const children = []; [].forEach.call(node.childNodes, (childNode) => { appendChildNodes(childNode, children); }); if (children.length) { astNode.children = children; } } addTo.push(astNode); }; [].forEach.call(doc.body.childNodes, (childNode) => appendChildNodes(childNode, nodes)); return nodes; } } /* * * * Static Properties * * */ /** * The list of allowed SVG or HTML attributes, used for sanitizing * potentially harmful content from the chart configuration before adding to * the DOM. * * @see [Source code with default values]( * https://github.com/highcharts/highcharts/blob/master/ts/Core/Renderer/HTML/AST.ts#:~:text=public%20static%20allowedAttributes) * * @example * // Allow a custom, trusted attribute * Highcharts.AST.allowedAttributes.push('data-value'); * * @name Highcharts.AST.allowedAttributes * @type {Array} */ AST.allowedAttributes = [ 'alt', 'aria-controls', 'aria-describedby', 'aria-expanded', 'aria-haspopup', 'aria-hidden', 'aria-label', 'aria-labelledby', 'aria-live', 'aria-pressed', 'aria-readonly', 'aria-roledescription', 'aria-selected', 'class', 'clip-path', 'color', 'colspan', 'cx', 'cy', 'd', 'dx', 'dy', 'disabled', 'fill', 'filterUnits', 'flood-color', 'flood-opacity', 'height', 'href', 'id', 'in', 'markerHeight', 'markerWidth', 'offset', 'opacity', 'orient', 'padding', 'paddingLeft', 'paddingRight', 'patternUnits', 'r', 'refX', 'refY', 'role', 'scope', 'slope', 'src', 'startOffset', 'stdDeviation', 'stroke', 'stroke-linecap', 'stroke-width', 'style', 'tableValues', 'result', 'rowspan', 'summary', 'target', 'tabindex', 'text-align', 'text-anchor', 'textAnchor', 'textLength', 'title', 'type', 'valign', 'width', 'x', 'x1', 'x2', 'xlink:href', 'y', 'y1', 'y2', 'zIndex' ]; /** * The list of allowed references for referring attributes like `href` and * `src`. Attribute values will only be allowed if they start with one of * these strings. * * @see [Source code with default values]( * https://github.com/highcharts/highcharts/blob/master/ts/Core/Renderer/HTML/AST.ts#:~:text=public%20static%20allowedReferences) * * @example * // Allow tel: * Highcharts.AST.allowedReferences.push('tel:'); * * @name Highcharts.AST.allowedReferences * @type {Array} */ AST.allowedReferences = [ 'https://', 'http://', 'mailto:', '/', '../', './', '#' ]; /** * The list of allowed SVG or HTML tags, used for sanitizing potentially * harmful content from the chart configuration before adding to the DOM. * * @see [Source code with default values]( * https://github.com/highcharts/highcharts/blob/master/ts/Core/Renderer/HTML/AST.ts#:~:text=public%20static%20allowedTags) * * @example * // Allow a custom, trusted tag * Highcharts.AST.allowedTags.push('blink'); // ;) * * @name Highcharts.AST.allowedTags * @type {Array} */ AST.allowedTags = [ 'a', 'abbr', 'b', 'br', 'button', 'caption', 'circle', 'clipPath', 'code', 'dd', 'defs', 'div', 'dl', 'dt', 'em', 'feComponentTransfer', 'feDropShadow', 'feFuncA', 'feFuncB', 'feFuncG', 'feFuncR', 'feGaussianBlur', 'feOffset', 'feMerge', 'feMergeNode', 'filter', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'hr', 'i', 'img', 'li', 'linearGradient', 'marker', 'ol', 'p', 'path', 'pattern', 'pre', 'rect', 'small', 'span', 'stop', 'strong', 'style', 'sub', 'sup', 'svg', 'table', 'text', 'textPath', 'thead', 'title', 'tbody', 'tspan', 'td', 'th', 'tr', 'u', 'ul', '#text' ]; AST.emptyHTML = emptyHTML; /** * Allow all custom SVG and HTML attributes, references and tags (together * with potentially harmful ones) to be added to the DOM from the chart * configuration. In other words, disable the allow-listing which is the * primary functionality of the AST. * * WARNING: Setting this property to `true` while allowing untrusted user * data in the chart configuration will expose your application to XSS * security risks! * * Note that in case you want to allow a known set of tags or attributes, * you should allow-list them instead of disabling the filtering totally. * See [allowedAttributes](Highcharts.AST#.allowedAttributes), * [allowedReferences](Highcharts.AST#.allowedReferences) and * [allowedTags](Highcharts.AST#.allowedTags). The `bypassHTMLFiltering` * setting is intended only for those cases where allow-listing is not * practical, and the chart configuration already comes from a secure * source. * * @example * // Allow all custom attributes, references and tags (disable DOM XSS * // filtering) * Highcharts.AST.bypassHTMLFiltering = true; * * @name Highcharts.AST.bypassHTMLFiltering * @static */ AST.bypassHTMLFiltering = false; /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Serialized form of an SVG/HTML definition, including children. * * @interface Highcharts.ASTNode */ /** * @name Highcharts.ASTNode#attributes * @type {Highcharts.SVGAttributes|undefined} */ /** * @name Highcharts.ASTNode#children * @type {Array|undefined} */ /** * @name Highcharts.ASTNode#tagName * @type {string|undefined} */ /** * @name Highcharts.ASTNode#textContent * @type {string|undefined} */ (''); // Keeps doclets above in file return AST; }); _registerModule(_modules, 'Core/Templating.js', [_modules['Core/Defaults.js'], _modules['Core/Utilities.js']], function (D, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defaultOptions, defaultTime } = D; const { extend, getNestedProperty, isArray, isNumber, isObject, pick, pInt } = U; const helpers = { // Built-in helpers add: (a, b) => a + b, divide: (a, b) => (b !== 0 ? a / b : ''), // eslint-disable-next-line eqeqeq eq: (a, b) => a == b, each: function (arr) { const match = arguments[arguments.length - 1]; return isArray(arr) ? arr.map((item, i) => format(match.body, extend(isObject(item) ? item : { '@this': item }, { '@index': i, '@first': i === 0, '@last': i === arr.length - 1 }))).join('') : false; }, ge: (a, b) => a >= b, gt: (a, b) => a > b, 'if': (condition) => !!condition, le: (a, b) => a <= b, lt: (a, b) => a < b, multiply: (a, b) => a * b, // eslint-disable-next-line eqeqeq ne: (a, b) => a != b, subtract: (a, b) => a - b, unless: (condition) => !condition }; /* * * * Functions * * */ /** * Formats a JavaScript date timestamp (milliseconds since Jan 1st 1970) into a * human readable date string. The format is a subset of the formats for PHP's * [strftime](https://www.php.net/manual/en/function.strftime.php) function. * Additional formats can be given in the {@link Highcharts.dateFormats} hook. * * Since v6.0.5, all internal dates are formatted through the * {@link Highcharts.Chart#time} instance to respect chart-level time settings. * The `Highcharts.dateFormat` function only reflects global time settings set * with `setOptions`. * * Supported format keys: * - `%a`: Short weekday, like 'Mon' * - `%A`: Long weekday, like 'Monday' * - `%d`: Two digit day of the month, 01 to 31 * - `%e`: Day of the month, 1 through 31 * - `%w`: Day of the week, 0 through 6 * - `%b`: Short month, like 'Jan' * - `%B`: Long month, like 'January' * - `%m`: Two digit month number, 01 through 12 * - `%y`: Two digits year, like 09 for 2009 * - `%Y`: Four digits year, like 2009 * - `%H`: Two digits hours in 24h format, 00 through 23 * - `%k`: Hours in 24h format, 0 through 23 * - `%I`: Two digits hours in 12h format, 00 through 11 * - `%l`: Hours in 12h format, 1 through 12 * - `%M`: Two digits minutes, 00 through 59 * - `%p`: Upper case AM or PM * - `%P`: Lower case AM or PM * - `%S`: Two digits seconds, 00 through 59 * - `%L`: Milliseconds (naming from Ruby) * * @function Highcharts.dateFormat * * @param {string} format * The desired format where various time representations are prefixed * with `%`. * * @param {number} timestamp * The JavaScript timestamp. * * @param {boolean} [capitalize=false] * Upper case first letter in the return. * * @return {string} * The formatted date. */ function dateFormat(format, timestamp, capitalize) { return defaultTime.dateFormat(format, timestamp, capitalize); } /** * Format a string according to a subset of the rules of Python's String.format * method. * * @example * let s = Highcharts.format( * 'The {color} fox was {len:.2f} feet long', * { color: 'red', len: Math.PI } * ); * // => The red fox was 3.14 feet long * * @function Highcharts.format * * @param {string} str * The string to format. * * @param {Record} ctx * The context, a collection of key-value pairs where each key is * replaced by its value. * * @param {Highcharts.Chart} [chart] * A `Chart` instance used to get numberFormatter and time. * * @return {string} * The formatted string. */ function format(str = '', ctx, chart) { const regex = /\{([a-zA-Z0-9\:\.\,;\-\/<>%_@"'= #\(\)]+)\}/g, // The sub expression regex is the same as the top expression regex, // but except parens and block helpers (#), and surrounded by parens // instead of curly brackets. subRegex = /\(([a-zA-Z0-9\:\.\,;\-\/<>%_@"'= ]+)\)/g, matches = [], floatRegex = /f$/, decRegex = /\.([0-9])/, lang = defaultOptions.lang, time = chart && chart.time || defaultTime, numberFormatter = chart && chart.numberFormatter || numberFormat; /* * Get a literal or variable value inside a template expression. May be * extended with other types like string or null if needed, but keep it * small for now. */ const resolveProperty = (key = '') => { let n; // Literals if (key === 'true') { return true; } if (key === 'false') { return false; } if ((n = Number(key)).toString() === key) { return n; } // Variables and constants return getNestedProperty(key, ctx); }; let match, currentMatch, depth = 0, hasSub; // Parse and create tree while ((match = regex.exec(str)) !== null) { // When a sub expression is found, it is evaluated first, and the // results recursively evaluated until no subexpression exists. const subMatch = subRegex.exec(match[1]); if (subMatch) { match = subMatch; hasSub = true; } if (!currentMatch || !currentMatch.isBlock) { currentMatch = { ctx, expression: match[1], find: match[0], isBlock: match[1].charAt(0) === '#', start: match.index, startInner: match.index + match[0].length, length: match[0].length }; } // Identify helpers const fn = match[1].split(' ')[0].replace('#', ''); if (helpers[fn]) { // Block helper, only 0 level is handled if (currentMatch.isBlock && fn === currentMatch.fn) { depth++; } if (!currentMatch.fn) { currentMatch.fn = fn; } } // Closing a block helper const startingElseSection = match[1] === 'else'; if (currentMatch.isBlock && currentMatch.fn && (match[1] === `/${currentMatch.fn}` || startingElseSection)) { if (!depth) { // === 0 const start = currentMatch.startInner, body = str.substr(start, match.index - start); // Either closing without an else section, or when encountering // an else section if (currentMatch.body === void 0) { currentMatch.body = body; currentMatch.startInner = match.index + match[0].length; // The body exists already, so this is the else section } else { currentMatch.elseBody = body; } currentMatch.find += body + match[0]; if (!startingElseSection) { matches.push(currentMatch); currentMatch = void 0; } } else if (!startingElseSection) { depth--; } // Common expression } else if (!currentMatch.isBlock) { matches.push(currentMatch); } // Evaluate sub-matches one by one to prevent orphaned block closers if (subMatch && !currentMatch?.isBlock) { break; } } // Execute matches.forEach((match) => { const { body, elseBody, expression, fn } = match; let replacement, i; // Helper function if (fn) { // Pass the helpers the amount of arguments defined by the function, // then the match as the last argument. const args = [match], parts = expression.split(' '); i = helpers[fn].length; while (i--) { args.unshift(resolveProperty(parts[i + 1])); } replacement = helpers[fn].apply(ctx, args); // Block helpers may return true or false. They may also return a // string, like the `each` helper. if (match.isBlock && typeof replacement === 'boolean') { replacement = format(replacement ? body : elseBody, ctx); } // Simple variable replacement } else { const valueAndFormat = expression.split(':'); replacement = resolveProperty(valueAndFormat.shift() || ''); // Format the replacement if (valueAndFormat.length && typeof replacement === 'number') { const segment = valueAndFormat.join(':'); if (floatRegex.test(segment)) { // Float const decimals = parseInt((segment.match(decRegex) || ['', '-1'])[1], 10); if (replacement !== null) { replacement = numberFormatter(replacement, decimals, lang.decimalPoint, segment.indexOf(',') > -1 ? lang.thousandsSep : ''); } } else { replacement = time.dateFormat(segment, replacement); } } } str = str.replace(match.find, pick(replacement, '')); }); return hasSub ? format(str, ctx, chart) : str; } /** * Format a number and return a string based on input settings. * * @sample highcharts/members/highcharts-numberformat/ * Custom number format * * @function Highcharts.numberFormat * * @param {number} number * The input number to format. * * @param {number} decimals * The amount of decimals. A value of -1 preserves the amount in the * input number. * * @param {string} [decimalPoint] * The decimal point, defaults to the one given in the lang options, or * a dot. * * @param {string} [thousandsSep] * The thousands separator, defaults to the one given in the lang * options, or a space character. * * @return {string} * The formatted number. */ function numberFormat(number, decimals, decimalPoint, thousandsSep) { number = +number || 0; decimals = +decimals; let ret, fractionDigits; const lang = defaultOptions.lang, origDec = (number.toString().split('.')[1] || '').split('e')[0].length, exponent = number.toString().split('e'), firstDecimals = decimals; if (decimals === -1) { // Preserve decimals. Not huge numbers (#3793). decimals = Math.min(origDec, 20); } else if (!isNumber(decimals)) { decimals = 2; } else if (decimals && exponent[1] && exponent[1] < 0) { // Expose decimals from exponential notation (#7042) fractionDigits = decimals + +exponent[1]; if (fractionDigits >= 0) { // Remove too small part of the number while keeping the notation exponent[0] = (+exponent[0]).toExponential(fractionDigits) .split('e')[0]; decimals = fractionDigits; } else { // `fractionDigits < 0` exponent[0] = exponent[0].split('.')[0] || 0; if (decimals < 20) { // Use number instead of exponential notation (#7405) number = (exponent[0] * Math.pow(10, exponent[1])) .toFixed(decimals); } else { // Or zero number = 0; } exponent[1] = 0; } } // Add another decimal to avoid rounding errors of float numbers. (#4573) // Then use toFixed to handle rounding. const roundedNumber = (Math.abs(exponent[1] ? exponent[0] : number) + Math.pow(10, -Math.max(decimals, origDec) - 1)).toFixed(decimals); // A string containing the positive integer component of the number const strinteger = String(pInt(roundedNumber)); // Leftover after grouping into thousands. Can be 0, 1 or 2. const thousands = strinteger.length > 3 ? strinteger.length % 3 : 0; // Language decimalPoint = pick(decimalPoint, lang.decimalPoint); thousandsSep = pick(thousandsSep, lang.thousandsSep); // Start building the return ret = number < 0 ? '-' : ''; // Add the leftover after grouping into thousands. For example, in the // number 42 000 000, this line adds 42. ret += thousands ? strinteger.substr(0, thousands) + thousandsSep : ''; if (+exponent[1] < 0 && !firstDecimals) { ret = '0'; } else { // Add the remaining thousands groups, joined by the thousands separator ret += strinteger .substr(thousands) .replace(/(\d{3})(?=\d)/g, '$1' + thousandsSep); } // Add the decimal point and the decimal component if (decimals) { // Get the decimal component ret += decimalPoint + roundedNumber.slice(-decimals); } if (exponent[1] && +ret !== 0) { ret += 'e' + exponent[1]; } return ret; } /* * * * Default Export * * */ const Templating = { dateFormat, format, helpers, numberFormat }; return Templating; }); _registerModule(_modules, 'Core/Renderer/RendererRegistry.js', [_modules['Core/Globals.js']], function (H) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Namespace * * */ var RendererRegistry; (function (RendererRegistry) { /* * * * Constants * * */ RendererRegistry.rendererTypes = {}; /* * * * Variables * * */ let defaultRenderer; /* * * * Functions * * */ /** * Gets a registered renderer class. If no renderer type is provided or the * requested renderer was not founded, the default renderer is returned. * * @param {string} [rendererType] * Renderer type or the default renderer. * * @return {Highcharts.Class} * Returns the requested renderer class or the default renderer class. */ function getRendererType(rendererType = defaultRenderer) { return (RendererRegistry.rendererTypes[rendererType] || RendererRegistry.rendererTypes[defaultRenderer]); } RendererRegistry.getRendererType = getRendererType; /** * Register a renderer class. * * @param {string} rendererType * Renderer type to register. * * @param {Highcharts.Class} rendererClass * Returns the requested renderer class or the default renderer class. * * @param {boolean} setAsDefault * Sets the renderer class as the default renderer. */ function registerRendererType(rendererType, rendererClass, setAsDefault) { RendererRegistry.rendererTypes[rendererType] = rendererClass; if (!defaultRenderer || setAsDefault) { defaultRenderer = rendererType; H.Renderer = rendererClass; // Compatibility } } RendererRegistry.registerRendererType = registerRendererType; })(RendererRegistry || (RendererRegistry = {})); /* * * * Default Export * * */ return RendererRegistry; }); _registerModule(_modules, 'Core/Renderer/RendererUtilities.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Imports * * */ const { clamp, pick, pushUnique, stableSort } = U; /* * * * Namespace * * */ var RendererUtilities; (function (RendererUtilities) { /* * * * Declarations * * */ /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * General distribution algorithm for distributing labels of differing size * along a confined length in two dimensions. The algorithm takes an array * of objects containing a size, a target and a rank. It will place the * labels as close as possible to their targets, skipping the lowest ranked * labels if necessary. * @private */ function distribute(boxes, len, maxDistance) { // Original array will be altered with added .pos const origBoxes = boxes, reducedLen = origBoxes.reducedLen || len, sortByRank = (a, b) => (b.rank || 0) - (a.rank || 0), sortByTarget = (a, b) => a.target - b.target, restBoxes = [], // The outranked overshoot boxesLength = boxes.length, forDeletion = [], push = restBoxes.push; let i, cursor, step, overlapping = true, box, target, total = 0, equalRank; // If the total size exceeds the len, remove those boxes with the lowest // rank i = boxesLength; while (i--) { total += boxes[i].size; } // Sort by rank, then slice away overshoot if (total > reducedLen) { stableSort(boxes, sortByRank); equalRank = boxes[0].rank === boxes[boxes.length - 1].rank; step = equalRank ? boxesLength / 2 : -1; cursor = equalRank ? step : boxesLength - 1; // When the boxes have equal rank (pie data labels, flags - #10073), // decimate the boxes by starting in the middle and gradually remove // more items inside the array. When they are sorted by rank, just // remove the ones with the lowest rank from the end. while (step && total > reducedLen) { i = Math.floor(cursor); box = boxes[i]; if (pushUnique(forDeletion, i)) { total -= box.size; } cursor += step; // Start over the decimation with smaller steps if (equalRank && cursor >= boxes.length) { step /= 2; cursor = step; } } // Clean out the boxes marked for deletion forDeletion .sort((a, b) => b - a) .forEach((i) => push.apply(restBoxes, boxes.splice(i, 1))); } // Order by target stableSort(boxes, sortByTarget); // So far we have been mutating the original array. Now // create a copy with target arrays boxes = boxes.map((box) => ({ size: box.size, targets: [box.target], align: pick(box.align, 0.5) })); while (overlapping) { // Initial positions: target centered in box i = boxes.length; while (i--) { box = boxes[i]; // Composite box, average of targets target = (Math.min.apply(0, box.targets) + Math.max.apply(0, box.targets)) / 2; box.pos = clamp(target - box.size * box.align, 0, len - box.size); } // Detect overlap and join boxes i = boxes.length; overlapping = false; while (i--) { // Overlap if (i > 0 && boxes[i - 1].pos + boxes[i - 1].size > boxes[i].pos) { // Add this size to the previous box boxes[i - 1].size += boxes[i].size; boxes[i - 1].targets = boxes[i - 1] .targets .concat(boxes[i].targets); boxes[i - 1].align = 0.5; // Overlapping right, push left if (boxes[i - 1].pos + boxes[i - 1].size > len) { boxes[i - 1].pos = len - boxes[i - 1].size; } boxes.splice(i, 1); // Remove this item overlapping = true; } } } // Add the rest (hidden boxes) push.apply(origBoxes, restBoxes); // Now the composite boxes are placed, we need to put the original boxes // within them i = 0; boxes.some((box) => { let posInCompositeBox = 0; // Exceeded maxDistance => abort return (box.targets || []).some(() => { origBoxes[i].pos = box.pos + posInCompositeBox; // If the distance between the position and the target exceeds // maxDistance, abort the loop and decrease the length in // increments of 10% to recursively reduce the number of // visible boxes by rank. Once all boxes are within the // maxDistance, we're good. if (typeof maxDistance !== 'undefined' && Math.abs(origBoxes[i].pos - origBoxes[i].target) > maxDistance) { // Reset the positions that are already set origBoxes .slice(0, i + 1) .forEach((box) => delete box.pos); // Try with a smaller length origBoxes.reducedLen = (origBoxes.reducedLen || len) - (len * 0.1); // Recurse if (origBoxes.reducedLen > len * 0.1) { distribute(origBoxes, len, maxDistance); } // Exceeded maxDistance => abort return true; } posInCompositeBox += origBoxes[i].size; i++; return false; }); }); // Add the rest (hidden) boxes and sort by target stableSort(origBoxes, sortByTarget); return origBoxes; } RendererUtilities.distribute = distribute; })(RendererUtilities || (RendererUtilities = {})); /* * * * Default Export * * */ return RendererUtilities; }); _registerModule(_modules, 'Core/Renderer/SVG/SVGElement.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Color/Color.js'], _modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (A, Color, H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { animate, animObject, stop } = A; const { deg2rad, doc, svg, SVG_NS, win } = H; const { addEvent, attr, createElement, css, defined, erase, extend, fireEvent, isArray, isFunction, isObject, isString, merge, objectEach, pick, pInt, replaceNested, syncTimeout, uniqueKey } = U; /* * * * Class * * */ /* eslint-disable no-invalid-this, valid-jsdoc */ /** * The SVGElement prototype is a JavaScript wrapper for SVG elements used in the * rendering layer of Highcharts. Combined with the * {@link Highcharts.SVGRenderer} * object, these prototypes allow freeform annotation in the charts or even in * HTML pages without instanciating a chart. The SVGElement can also wrap HTML * labels, when `text` or `label` elements are created with the `useHTML` * parameter. * * The SVGElement instances are created through factory functions on the * {@link Highcharts.SVGRenderer} * object, like * {@link Highcharts.SVGRenderer#rect|rect}, * {@link Highcharts.SVGRenderer#path|path}, * {@link Highcharts.SVGRenderer#text|text}, * {@link Highcharts.SVGRenderer#label|label}, * {@link Highcharts.SVGRenderer#g|g} * and more. * * See [How to use the SVG Renderer]( * https://www.highcharts.com/docs/advanced-chart-features/renderer) for a * comprehensive tutorial on how to draw SVG elements on a chart. * * @class * @name Highcharts.SVGElement */ class SVGElement { // @todo public zIndex?: number; /* * * * Functions * * */ /** * Get the current value of an attribute or pseudo attribute, * used mainly for animation. Called internally from * the {@link Highcharts.SVGRenderer#attr} function. * * @private * @function Highcharts.SVGElement#_defaultGetter * * @param {string} key * Property key. * * @return {number|string} * Property value. */ _defaultGetter(key) { let ret = pick(this[key + 'Value'], // Align getter this[key], this.element ? this.element.getAttribute(key) : null, 0); if (/^[\-0-9\.]+$/.test(ret)) { // Is numerical ret = parseFloat(ret); } return ret; } /** * @private * @function Highcharts.SVGElement#_defaultSetter * * @param {string} value * * @param {string} key * * @param {Highcharts.SVGDOMElement} element * */ _defaultSetter(value, key, element) { element.setAttribute(key, value); } /** * Add the element to the DOM. All elements must be added this way. * * @sample highcharts/members/renderer-g * Elements added to a group * * @function Highcharts.SVGElement#add * * @param {Highcharts.SVGElement} [parent] * The parent item to add it to. If undefined, the element is added * to the {@link Highcharts.SVGRenderer.box}. * * @return {Highcharts.SVGElement} * Returns the SVGElement for chaining. */ add(parent) { const renderer = this.renderer, element = this.element; let inserted; if (parent) { this.parentGroup = parent; } // Build formatted text if (typeof this.textStr !== 'undefined' && this.element.nodeName === 'text' // Not for SVGLabel instances ) { renderer.buildText(this); } // Mark as added this.added = true; // If we're adding to renderer root, or other elements in the group // have a z index, we need to handle it if (!parent || parent.handleZ || this.zIndex) { inserted = this.zIndexSetter(); } // If zIndex is not handled, append at the end if (!inserted) { (parent ? parent.element : renderer.box).appendChild(element); } // Fire an event for internal hooks if (this.onAdd) { this.onAdd(); } return this; } /** * Add a class name to an element. * * @function Highcharts.SVGElement#addClass * * @param {string} className * The new class name to add. * * @param {boolean} [replace=false] * When true, the existing class name(s) will be overwritten with the new * one. When false, the new one is added. * * @return {Highcharts.SVGElement} * Return the SVG element for chainability. */ addClass(className, replace) { const currentClassName = replace ? '' : (this.attr('class') || ''); // Trim the string and remove duplicates className = (className || '') .split(/ /g) .reduce(function (newClassName, name) { if (currentClassName.indexOf(name) === -1) { newClassName.push(name); } return newClassName; }, (currentClassName ? [currentClassName] : [])) .join(' '); if (className !== currentClassName) { this.attr('class', className); } return this; } /** * This method is executed in the end of `attr()`, after setting all * attributes in the hash. In can be used to efficiently consolidate * multiple attributes in one SVG property -- e.g., translate, rotate and * scale are merged in one "transform" attribute in the SVG node. * * @private * @function Highcharts.SVGElement#afterSetters */ afterSetters() { // Update transform. Do this outside the loop to prevent redundant // updating for batch setting of attributes. if (this.doTransform) { this.updateTransform(); this.doTransform = false; } } /** * Align the element relative to the chart or another box. * * @function Highcharts.SVGElement#align * * @param {Highcharts.AlignObject} [alignOptions] * The alignment options. The function can be called without this * parameter in order to re-align an element after the box has been * updated. * * @param {boolean} [alignByTranslate] * Align element by translation. * * @param {string|Highcharts.BBoxObject} [box] * The box to align to, needs a width and height. When the box is a * string, it refers to an object in the Renderer. For example, when * box is `spacingBox`, it refers to `Renderer.spacingBox` which * holds `width`, `height`, `x` and `y` properties. * * @param {boolean} [redraw] * Decide if SVGElement should be redrawn with new alignment or * just change its attributes. * * @return {Highcharts.SVGElement} Returns the SVGElement for chaining. */ align(alignOptions, alignByTranslate, box, redraw = true) { const attribs = {}, renderer = this.renderer, alignedObjects = renderer.alignedObjects; let x, y, alignTo, alignFactor, vAlignFactor; // First call on instanciate if (alignOptions) { this.alignOptions = alignOptions; this.alignByTranslate = alignByTranslate; if (!box || isString(box)) { this.alignTo = alignTo = box || 'renderer'; // Prevent duplicates, like legendGroup after resize erase(alignedObjects, this); alignedObjects.push(this); box = void 0; // Reassign it below } // When called on resize, no arguments are supplied } else { alignOptions = this.alignOptions; alignByTranslate = this.alignByTranslate; alignTo = this.alignTo; } box = pick(box, renderer[alignTo], renderer); // Assign variables const align = alignOptions.align, vAlign = alignOptions.verticalAlign; // Default: left align x = (box.x || 0) + (alignOptions.x || 0); // Default: top align y = (box.y || 0) + (alignOptions.y || 0); // Align if (align === 'right') { alignFactor = 1; } else if (align === 'center') { alignFactor = 2; } if (alignFactor) { x += (box.width - (alignOptions.width || 0)) / alignFactor; } attribs[alignByTranslate ? 'translateX' : 'x'] = Math.round(x); // Vertical align if (vAlign === 'bottom') { vAlignFactor = 1; } else if (vAlign === 'middle') { vAlignFactor = 2; } if (vAlignFactor) { y += (box.height - (alignOptions.height || 0)) / vAlignFactor; } attribs[alignByTranslate ? 'translateY' : 'y'] = Math.round(y); // Animate only if already placed if (redraw) { this[this.placed ? 'animate' : 'attr'](attribs); this.placed = true; } this.alignAttr = attribs; return this; } /** * @private * @function Highcharts.SVGElement#alignSetter * @param {"left"|"center"|"right"} value */ alignSetter(value) { const convert = { left: 'start', center: 'middle', right: 'end' }; if (convert[value]) { this.alignValue = value; this.element.setAttribute('text-anchor', convert[value]); } } /** * Animate to given attributes or CSS properties. * * @sample highcharts/members/element-on/ * Setting some attributes by animation * * @function Highcharts.SVGElement#animate * * @param {Highcharts.SVGAttributes} params * SVG attributes or CSS to animate. * * @param {boolean|Partial} [options] * Animation options. * * @param {Function} [complete] * Function to perform at the end of animation. * * @return {Highcharts.SVGElement} * Returns the SVGElement for chaining. */ animate(params, options, complete) { const animOptions = animObject(pick(options, this.renderer.globalAnimation, true)), deferTime = animOptions.defer; // When the page is hidden save resources in the background by not // running animation at all (#9749). if (doc.hidden) { animOptions.duration = 0; } if (animOptions.duration !== 0) { // Allows using a callback with the global animation without // overwriting it if (complete) { animOptions.complete = complete; } // If defer option is defined delay the animation #12901 syncTimeout(() => { if (this.element) { animate(this, params, animOptions); } }, deferTime); } else { this.attr(params, void 0, complete || animOptions.complete); // Call the end step synchronously objectEach(params, function (val, prop) { if (animOptions.step) { animOptions.step.call(this, val, { prop: prop, pos: 1, elem: this }); } }, this); } return this; } /** * Apply a text outline through a custom CSS property, by copying the text * element and apply stroke to the copy. Used internally. Contrast checks at * [example](https://jsfiddle.net/highcharts/43soe9m1/2/). * * @example * // Specific color * text.css({ * textOutline: '1px black' * }); * // Automatic contrast * text.css({ * color: '#000000', // black text * textOutline: '1px contrast' // => white outline * }); * * @private * @function Highcharts.SVGElement#applyTextOutline * * @param {string} textOutline * A custom CSS `text-outline` setting, defined by `width color`. */ applyTextOutline(textOutline) { const elem = this.element, hasContrast = textOutline.indexOf('contrast') !== -1, styles = {}; // When the text shadow is set to contrast, use dark stroke for light // text and vice versa. if (hasContrast) { styles.textOutline = textOutline = textOutline.replace(/contrast/g, this.renderer.getContrast(elem.style.fill)); } // Extract the stroke width and color const parts = textOutline.split(' '); const color = parts[parts.length - 1]; let strokeWidth = parts[0]; if (strokeWidth && strokeWidth !== 'none' && H.svg) { this.fakeTS = true; // Fake text shadow // Since the stroke is applied on center of the actual outline, we // need to double it to get the correct stroke-width outside the // glyphs. strokeWidth = strokeWidth.replace(/(^[\d\.]+)(.*?)$/g, function (match, digit, unit) { return (2 * Number(digit)) + unit; }); // Remove shadows from previous runs. this.removeTextOutline(); const outline = doc.createElementNS(SVG_NS, 'tspan'); attr(outline, { 'class': 'highcharts-text-outline', fill: color, stroke: color, 'stroke-width': strokeWidth, 'stroke-linejoin': 'round' }); // For each of the tspans and text nodes, create a copy in the // outline. const parentElem = elem.querySelector('textPath') || elem; [].forEach.call(parentElem.childNodes, (childNode) => { const clone = childNode.cloneNode(true); if (clone.removeAttribute) { ['fill', 'stroke', 'stroke-width', 'stroke'].forEach((prop) => clone .removeAttribute(prop)); } outline.appendChild(clone); }); // Collect the sum of dy from all children, included nested ones let totalHeight = 0; [].forEach.call(parentElem.querySelectorAll('text tspan'), (element) => { totalHeight += Number(element.getAttribute('dy')); }); // Insert an absolutely positioned break before the original text // to keep it in place const br = doc.createElementNS(SVG_NS, 'tspan'); br.textContent = '\u200B'; // Reset the position for the following text attr(br, { x: Number(elem.getAttribute('x')), dy: -totalHeight }); // Insert the outline outline.appendChild(br); parentElem.insertBefore(outline, parentElem.firstChild); } } /** * @function Highcharts.SVGElement#attr * @param {string} key * @return {number|string} */ /** * Apply native and custom attributes to the SVG elements. * * In order to set the rotation center for rotation, set x and y to 0 and * use `translateX` and `translateY` attributes to position the element * instead. * * Attributes frequently used in Highcharts are `fill`, `stroke`, * `stroke-width`. * * @sample highcharts/members/renderer-rect/ * Setting some attributes * * @example * // Set multiple attributes * element.attr({ * stroke: 'red', * fill: 'blue', * x: 10, * y: 10 * }); * * // Set a single attribute * element.attr('stroke', 'red'); * * // Get an attribute * element.attr('stroke'); // => 'red' * * @function Highcharts.SVGElement#attr * * @param {string|Highcharts.SVGAttributes} [hash] * The native and custom SVG attributes. * * @param {number|string|Highcharts.SVGPathArray} [val] * If the type of the first argument is `string`, the second can be a * value, which will serve as a single attribute setter. If the first * argument is a string and the second is undefined, the function * serves as a getter and the current value of the property is * returned. * * @param {Function} [complete] * A callback function to execute after setting the attributes. This * makes the function compliant and interchangeable with the * {@link SVGElement#animate} function. * * @param {boolean} [continueAnimation=true] * Used internally when `.attr` is called as part of an animation * step. Otherwise, calling `.attr` for an attribute will stop * animation for that attribute. * * @return {Highcharts.SVGElement} * If used as a setter, it returns the current * {@link Highcharts.SVGElement} so the calls can be chained. If * used as a getter, the current value of the attribute is returned. */ attr(hash, val, complete, continueAnimation) { const element = this.element, symbolCustomAttribs = SVGElement.symbolCustomAttribs; let key, hasSetSymbolSize, ret = this, skipAttr, setter; // Single key-value pair if (typeof hash === 'string' && typeof val !== 'undefined') { key = hash; hash = {}; hash[key] = val; } // Used as a getter: first argument is a string, second is undefined if (typeof hash === 'string') { ret = (this[hash + 'Getter'] || this._defaultGetter).call(this, hash, element); // Setter } else { objectEach(hash, function eachAttribute(val, key) { skipAttr = false; // Unless .attr is from the animator update, stop current // running animation of this property if (!continueAnimation) { stop(this, key); } // Special handling of symbol attributes if (this.symbolName && symbolCustomAttribs.indexOf(key) !== -1) { if (!hasSetSymbolSize) { this.symbolAttr(hash); hasSetSymbolSize = true; } skipAttr = true; } if (this.rotation && (key === 'x' || key === 'y')) { this.doTransform = true; } if (!skipAttr) { setter = (this[key + 'Setter'] || this._defaultSetter); setter.call(this, val, key, element); } }, this); this.afterSetters(); } // In accordance with animate, run a complete callback if (complete) { complete.call(this); } return ret; } /** * Apply a clipping shape to this element. * * @function Highcharts.SVGElement#clip * * @param {SVGElement} [clipElem] * The clipping shape. If skipped, the current clip is removed. * * @return {Highcharts.SVGElement} * Returns the SVG element to allow chaining. */ clip(clipElem) { if (clipElem && !clipElem.clipPath) { // Add a hyphen at the end to avoid confusion in testing indexes // -1 and -10, -11 etc (#6550) const id = uniqueKey() + '-', clipPath = this.renderer.createElement('clipPath') .attr({ id }) .add(this.renderer.defs); extend(clipElem, { clipPath, id, count: 0 }); clipElem.add(clipPath); } return this.attr('clip-path', clipElem ? `url(${this.renderer.url}#${clipElem.id})` : 'none'); } /** * Calculate the coordinates needed for drawing a rectangle crisply and * return the calculated attributes. * * @function Highcharts.SVGElement#crisp * * @param {Highcharts.RectangleObject} rect * Rectangle to crisp. * * @param {number} [strokeWidth] * The stroke width to consider when computing crisp positioning. It can * also be set directly on the rect parameter. * * @return {Highcharts.RectangleObject} * The modified rectangle arguments. */ crisp(rect, strokeWidth) { const wrapper = this; strokeWidth = strokeWidth || rect.strokeWidth || 0; // Math.round because strokeWidth can sometimes have roundoff errors const normalizer = Math.round(strokeWidth) % 2 / 2; // Normalize for crisp edges rect.x = Math.floor(rect.x || wrapper.x || 0) + normalizer; rect.y = Math.floor(rect.y || wrapper.y || 0) + normalizer; rect.width = Math.floor((rect.width || wrapper.width || 0) - 2 * normalizer); rect.height = Math.floor((rect.height || wrapper.height || 0) - 2 * normalizer); if (defined(rect.strokeWidth)) { rect.strokeWidth = strokeWidth; } return rect; } /** * Build and apply an SVG gradient out of a common JavaScript configuration * object. This function is called from the attribute setters. An event * hook is added for supporting other complex color types. * * @private * @function Highcharts.SVGElement#complexColor * * @param {Highcharts.GradientColorObject|Highcharts.PatternObject} colorOptions * The gradient or pattern options structure. * * @param {string} prop * The property to apply, can either be `fill` or `stroke`. * * @param {Highcharts.SVGDOMElement} elem * SVG element to apply the gradient on. */ complexColor(colorOptions, prop, elem) { const renderer = this.renderer; let colorObject, gradName, gradAttr, radAttr, gradients, stops, stopColor, stopOpacity, radialReference, id, key = [], value; fireEvent(this.renderer, 'complexColor', { args: arguments }, function () { // Apply linear or radial gradients if (colorOptions.radialGradient) { gradName = 'radialGradient'; } else if (colorOptions.linearGradient) { gradName = 'linearGradient'; } if (gradName) { gradAttr = colorOptions[gradName]; gradients = renderer.gradients; stops = colorOptions.stops; radialReference = elem.radialReference; // Keep < 2.2 compatibility if (isArray(gradAttr)) { colorOptions[gradName] = gradAttr = { x1: gradAttr[0], y1: gradAttr[1], x2: gradAttr[2], y2: gradAttr[3], gradientUnits: 'userSpaceOnUse' }; } // Correct the radial gradient for the radial reference system if (gradName === 'radialGradient' && radialReference && !defined(gradAttr.gradientUnits)) { // Save the radial attributes for updating radAttr = gradAttr; gradAttr = merge(gradAttr, renderer.getRadialAttr(radialReference, radAttr), { gradientUnits: 'userSpaceOnUse' }); } // Build the unique key to detect whether we need to create a // new element (#1282) objectEach(gradAttr, function (value, n) { if (n !== 'id') { key.push(n, value); } }); objectEach(stops, function (val) { key.push(val); }); key = key.join(','); // Check if a gradient object with the same config object is // created within this renderer if (gradients[key]) { id = gradients[key].attr('id'); } else { // Set the id and create the element gradAttr.id = id = uniqueKey(); const gradientObject = gradients[key] = renderer.createElement(gradName) .attr(gradAttr) .add(renderer.defs); gradientObject.radAttr = radAttr; // The gradient needs to keep a list of stops to be able to // destroy them gradientObject.stops = []; stops.forEach(function (stop) { if (stop[1].indexOf('rgba') === 0) { colorObject = Color.parse(stop[1]); stopColor = colorObject.get('rgb'); stopOpacity = colorObject.get('a'); } else { stopColor = stop[1]; stopOpacity = 1; } const stopObject = renderer.createElement('stop').attr({ offset: stop[0], 'stop-color': stopColor, 'stop-opacity': stopOpacity }).add(gradientObject); // Add the stop element to the gradient gradientObject.stops.push(stopObject); }); } // Set the reference to the gradient object value = 'url(' + renderer.url + '#' + id + ')'; elem.setAttribute(prop, value); elem.gradient = key; // Allow the color to be concatenated into tooltips formatters // etc. (#2995) colorOptions.toString = function () { return value; }; } }); } /** * Set styles for the element. In addition to CSS styles supported by * native SVG and HTML elements, there are also some custom made for * Highcharts, like `width`, `ellipsis` and `textOverflow` for SVG text * elements. * * @sample highcharts/members/renderer-text-on-chart/ * Styled text * * @function Highcharts.SVGElement#css * * @param {Highcharts.CSSObject} styles * The new CSS styles. * * @return {Highcharts.SVGElement} * Return the SVG element for chaining. */ css(styles) { const oldStyles = this.styles, newStyles = {}, elem = this.element; let textWidth, hasNew = !oldStyles; // Filter out existing styles to increase performance (#2640) if (oldStyles) { objectEach(styles, function (value, n) { if (oldStyles && oldStyles[n] !== value) { newStyles[n] = value; hasNew = true; } }); } if (hasNew) { // Merge the new styles with the old ones if (oldStyles) { styles = extend(oldStyles, newStyles); } // Get the text width from style // Previously set, unset it (#8234) if (styles.width === null || styles.width === 'auto') { delete this.textWidth; // Apply new } else if (elem.nodeName.toLowerCase() === 'text' && styles.width) { textWidth = this.textWidth = pInt(styles.width); } // Store object extend(this.styles, styles); if (textWidth && (!svg && this.renderer.forExport)) { delete styles.width; } const stylesToApply = merge(styles); if (elem.namespaceURI === this.SVG_NS) { // These CSS properties are interpreted internally by the SVG // renderer, but are not supported by SVG and should not be // added to the DOM. In styled mode, no CSS should find its way // to the DOM whatsoever (#6173, #6474). ['textOutline', 'textOverflow', 'width'].forEach((key) => (stylesToApply && delete stylesToApply[key])); // SVG requires fill for text if (stylesToApply.color) { stylesToApply.fill = stylesToApply.color; } } css(elem, stylesToApply); } if (this.added) { // Rebuild text after added. Cache mechanisms in the buildText will // prevent building if there are no significant changes. if (this.element.nodeName === 'text') { this.renderer.buildText(this); } // Apply text outline after added if (styles.textOutline) { this.applyTextOutline(styles.textOutline); } } return this; } /** * @private * @function Highcharts.SVGElement#dashstyleSetter * @param {string} value */ dashstyleSetter(value) { let i, strokeWidth = this['stroke-width']; // If "inherit", like maps in IE, assume 1 (#4981). With HC5 and the new // strokeWidth function, we should be able to use that instead. if (strokeWidth === 'inherit') { strokeWidth = 1; } value = value && value.toLowerCase(); if (value) { const v = 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 = v.length; while (i--) { v[i] = '' + (pInt(v[i]) * pick(strokeWidth, NaN)); } value = v.join(',').replace(/NaN/g, 'none'); // #3226 this.element.setAttribute('stroke-dasharray', value); } } /** * Destroy the element and element wrapper and clear up the DOM and event * hooks. * * @function Highcharts.SVGElement#destroy */ destroy() { const wrapper = this, element = wrapper.element || {}, renderer = wrapper.renderer, ownerSVGElement = element.ownerSVGElement; let parentToClean = (element.nodeName === 'SPAN' && wrapper.parentGroup || void 0), grandParent, i; // Remove events element.onclick = element.onmouseout = element.onmouseover = element.onmousemove = element.point = null; stop(wrapper); // Stop running animations if (wrapper.clipPath && ownerSVGElement) { const clipPath = wrapper.clipPath; // Look for existing references to this clipPath and remove them // before destroying the element (#6196). // The upper case version is for Edge [].forEach.call(ownerSVGElement.querySelectorAll('[clip-path],[CLIP-PATH]'), function (el) { if (el.getAttribute('clip-path').indexOf(clipPath.element.id) > -1) { el.removeAttribute('clip-path'); } }); wrapper.clipPath = clipPath.destroy(); } wrapper.connector = wrapper.connector?.destroy(); // Destroy stops in case this is a gradient object @todo old code? if (wrapper.stops) { for (i = 0; i < wrapper.stops.length; i++) { wrapper.stops[i].destroy(); } wrapper.stops.length = 0; wrapper.stops = void 0; } // Remove element wrapper.safeRemoveChild(element); // In case of useHTML, clean up empty containers emulating SVG groups // (#1960, #2393, #2697). while (parentToClean && parentToClean.div && parentToClean.div.childNodes.length === 0) { grandParent = parentToClean.parentGroup; wrapper.safeRemoveChild(parentToClean.div); delete parentToClean.div; parentToClean = grandParent; } // Remove from alignObjects if (wrapper.alignTo) { erase(renderer.alignedObjects, wrapper); } objectEach(wrapper, function (val, key) { // Destroy child elements of a group if (wrapper[key] && wrapper[key].parentGroup === wrapper && wrapper[key].destroy) { wrapper[key].destroy(); } // Delete all properties delete wrapper[key]; }); return; } /** * @private * @function Highcharts.SVGElement#dSettter * @param {number|string|Highcharts.SVGPathArray} value * @param {string} key * @param {Highcharts.SVGDOMElement} element */ dSetter(value, key, element) { if (isArray(value)) { // Backwards compatibility, convert one-dimensional array into an // array of segments if (typeof value[0] === 'string') { value = this.renderer.pathToSegments(value); } this.pathArray = value; value = value.reduce((acc, seg, i) => { if (!seg || !seg.join) { return (seg || '').toString(); } return (i ? acc + ' ' : '') + seg.join(' '); }, ''); } if (/(NaN| {2}|^$)/.test(value)) { value = 'M 0 0'; } // Check for cache before resetting. Resetting causes disturbance in the // DOM, causing flickering in some cases in Edge/IE (#6747). Also // possible performance gain. if (this[key] !== value) { element.setAttribute(key, value); this[key] = value; } } /** * @private * @function Highcharts.SVGElement#fillSetter * @param {Highcharts.ColorType} value * @param {string} key * @param {Highcharts.SVGDOMElement} element */ fillSetter(value, key, element) { if (typeof value === 'string') { element.setAttribute(key, value); } else if (value) { this.complexColor(value, key, element); } } /** * @private * @function Highcharts.SVGElement#hrefSetter * @param {Highcharts.ColorType} value * @param {string} key * @param {Highcharts.SVGDOMElement} element */ hrefSetter(value, key, element) { // Namespace is needed for offline export, #19106 element.setAttributeNS('http://www.w3.org/1999/xlink', key, value); } /** * Get the bounding box (width, height, x and y) for the element. Generally * used to get rendered text size. Since this is called a lot in charts, * the results are cached based on text properties, in order to save DOM * traffic. The returned bounding box includes the rotation, so for example * a single text line of rotation 90 will report a greater height, and a * width corresponding to the line-height. * * @sample highcharts/members/renderer-on-chart/ * Draw a rectangle based on a text's bounding box * * @function Highcharts.SVGElement#getBBox * * @param {boolean} [reload] * Skip the cache and get the updated DOM bounding box. * * @param {number} [rot] * Override the element's rotation. This is internally used on axis * labels with a value of 0 to find out what the bounding box would * be have been if it were not rotated. * * @return {Highcharts.BBoxObject} * The bounding box with `x`, `y`, `width` and `height` properties. */ getBBox(reload, rot) { const wrapper = this, { alignValue, element, renderer, styles, textStr } = wrapper, { cache, cacheKeys } = renderer, isSVG = element.namespaceURI === wrapper.SVG_NS, rotation = pick(rot, wrapper.rotation, 0), fontSize = renderer.styledMode ? (element && SVGElement.prototype.getStyle.call(element, 'font-size')) : (styles.fontSize); let bBox, height, toggleTextShadowShim, cacheKey; // Avoid undefined and null (#7316) if (defined(textStr)) { cacheKey = textStr.toString(); // Since numbers are monospaced, and numerical labels appear a lot // in a chart, we assume that a label of n characters has the same // bounding box as others of the same length. Unless there is inner // HTML in the label. In that case, leave the numbers as is (#5899). if (cacheKey.indexOf('<') === -1) { cacheKey = cacheKey.replace(/[0-9]/g, '0'); } // Properties that affect bounding box cacheKey += [ '', renderer.rootFontSize, fontSize, rotation, wrapper.textWidth, alignValue, styles.textOverflow, styles.fontWeight // #12163 ].join(','); } if (cacheKey && !reload) { bBox = cache[cacheKey]; } // No cache found if (!bBox) { // SVG elements if (isSVG || renderer.forExport) { try { // Fails in Firefox if the container has display: none. // When the text shadow shim is used, we need to hide the // fake shadows to get the correct bounding box (#3872) toggleTextShadowShim = this.fakeTS && function (display) { const outline = element.querySelector('.highcharts-text-outline'); if (outline) { css(outline, { display }); } }; // Workaround for #3842, Firefox reporting wrong bounding // box for shadows if (isFunction(toggleTextShadowShim)) { toggleTextShadowShim('none'); } bBox = element.getBBox ? // SVG: use extend because IE9 is not allowed to change // width and height in case of rotation (below) extend({}, element.getBBox()) : { // HTML elements with `exporting.allowHTML` and // legacy IE in export mode width: element.offsetWidth, height: element.offsetHeight, x: 0, y: 0 }; // #3842 if (isFunction(toggleTextShadowShim)) { toggleTextShadowShim(''); } } catch (e) { ''; } // If the bBox is not set, the try-catch block above failed. The // other condition is for Opera that returns a width of // -Infinity on hidden elements. if (!bBox || bBox.width < 0) { bBox = { x: 0, y: 0, width: 0, height: 0 }; } // Use HTML within SVG } else { bBox = wrapper.htmlGetBBox(); } // True SVG elements as well as HTML elements in modern browsers // using the .useHTML option need to compensated for rotation height = bBox.height; // Workaround for wrong bounding box in IE, Edge and Chrome on // Windows. With Highcharts' default font, IE and Edge report // a box height of 16.899 and Chrome rounds it to 17. If this // stands uncorrected, it results in more padding added below // the text than above when adding a label border or background. // Also vertical positioning is affected. // https://jsfiddle.net/highcharts/em37nvuj/ // (#1101, #1505, #1669, #2568, #6213). if (isSVG) { bBox.height = height = ({ '11px,17': 14, '13px,20': 16 }[`${fontSize || ''},${Math.round(height)}`] || height); } // Adjust for rotated text if (rotation) { bBox = this.getRotatedBox(bBox, rotation); } } // Cache it. When loading a chart in a hidden iframe in Firefox and // IE/Edge, the bounding box height is 0, so don't cache it (#5620). if (cacheKey && (textStr === '' || bBox.height > 0)) { // Rotate (#4681) while (cacheKeys.length > 250) { delete cache[cacheKeys.shift()]; } if (!cache[cacheKey]) { cacheKeys.push(cacheKey); } cache[cacheKey] = bBox; } return bBox; } /** * Get the rotated box. * @private */ getRotatedBox(box, rotation) { const { x: boxX, y: boxY, width, height } = box, { alignValue, translateY, rotationOriginX = 0, rotationOriginY = 0 } = this, alignFactor = { 'right': 1, 'center': 0.5 }[alignValue || 0] || 0, baseline = Number(this.element.getAttribute('y') || 0) - (translateY ? 0 : boxY), rad = rotation * deg2rad, rad90 = (rotation - 90) * deg2rad, cosRad = Math.cos(rad), sinRad = Math.sin(rad), wCosRad = width * cosRad, wSinRad = width * sinRad, cosRad90 = Math.cos(rad90), sinRad90 = Math.sin(rad90), [[xOriginCosRad, xOriginSinRad], [yOriginCosRad, yOriginSinRad]] = [ rotationOriginX, rotationOriginY ].map((rotOrigin) => [ rotOrigin - (rotOrigin * cosRad), rotOrigin * sinRad ]), // Find the starting point on the left side baseline of // the text pX = ((boxX + alignFactor * (width - wCosRad)) + xOriginCosRad + yOriginSinRad), pY = ((boxY + baseline - alignFactor * wSinRad) - xOriginSinRad + yOriginCosRad), // Find all corners aX = pX + baseline * cosRad90, bX = aX + wCosRad, cX = bX - height * cosRad90, dX = cX - wCosRad, aY = pY + baseline * sinRad90, bY = aY + wSinRad, cY = bY - height * sinRad90, dY = cY - wSinRad; // Deduct the bounding box from the corners const x = Math.min(aX, bX, cX, dX), y = Math.min(aY, bY, cY, dY), boxWidth = Math.max(aX, bX, cX, dX) - x, boxHeight = Math.max(aY, bY, cY, dY) - y; return { x, y, width: boxWidth, height: boxHeight }; } /** * Get the computed style. Only in styled mode. * * @example * chart.series[0].points[0].graphic.getStyle('stroke-width'); // => '1px' * * @function Highcharts.SVGElement#getStyle * * @param {string} prop * The property name to check for. * * @return {string} * The current computed value. */ getStyle(prop) { return win .getComputedStyle(this.element || this, '') .getPropertyValue(prop); } /** * Check if an element has the given class name. * * @function Highcharts.SVGElement#hasClass * * @param {string} className * The class name to check for. * * @return {boolean} * Whether the class name is found. */ hasClass(className) { return ('' + this.attr('class')) .split(' ') .indexOf(className) !== -1; } /** * Hide the element, similar to setting the `visibility` attribute to * `hidden`. * * @function Highcharts.SVGElement#hide * * @return {Highcharts.SVGElement} * Returns the SVGElement for chaining. */ hide() { return this.attr({ visibility: 'hidden' }); } /** * @private */ htmlGetBBox() { return { height: 0, width: 0, x: 0, y: 0 }; } /** * Initialize the SVG element. This function only exists to make the * initialization process overridable. It should not be called directly. * * @function Highcharts.SVGElement#init * * @param {Highcharts.SVGRenderer} renderer * The SVGRenderer instance to initialize to. * * @param {string} nodeName * The SVG node name. */ constructor(renderer, nodeName) { this.onEvents = {}; this.opacity = 1; // Default base for animation this.SVG_NS = SVG_NS; /** * The primary DOM node. Each `SVGElement` instance wraps a main DOM * node, but may also represent more nodes. * * @name Highcharts.SVGElement#element * @type {Highcharts.SVGDOMElement|Highcharts.HTMLDOMElement} */ this.element = nodeName === 'span' || nodeName === 'body' ? createElement(nodeName) : doc.createElementNS(this.SVG_NS, nodeName); /** * The renderer that the SVGElement belongs to. * * @name Highcharts.SVGElement#renderer * @type {Highcharts.SVGRenderer} */ this.renderer = renderer; this.styles = {}; fireEvent(this, 'afterInit'); } /** * Add an event listener. This is a simple setter that replaces the * previous event of the same type added by this function, as opposed to * the {@link Highcharts#addEvent} function. * * @sample highcharts/members/element-on/ * A clickable rectangle * * @function Highcharts.SVGElement#on * * @param {string} eventType * The event type. * * @param {Function} handler * The handler callback. * * @return {Highcharts.SVGElement} * The SVGElement for chaining. */ on(eventType, handler) { const { onEvents } = this; if (onEvents[eventType]) { // Unbind existing event onEvents[eventType](); } onEvents[eventType] = addEvent(this.element, eventType, handler); return this; } /** * @private * @function Highcharts.SVGElement#opacitySetter * @param {string} value * @param {string} key * @param {Highcharts.SVGDOMElement} element */ opacitySetter(value, key, element) { // Round off to avoid float errors, like tests where opacity lands on // 9.86957e-06 instead of 0 const opacity = Number(Number(value).toFixed(3)); this.opacity = opacity; element.setAttribute(key, opacity); } /** * Remove a class name from the element. * * @function Highcharts.SVGElement#removeClass * * @param {string|RegExp} className * The class name to remove. * * @return {Highcharts.SVGElement} Returns the SVG element for chainability. */ removeClass(className) { return this.attr('class', ('' + this.attr('class')) .replace(isString(className) ? new RegExp(`(^| )${className}( |$)`) : // #12064, #13590 className, ' ') .replace(/ +/g, ' ') .trim()); } /** * * @private */ removeTextOutline() { const outline = this.element .querySelector('tspan.highcharts-text-outline'); if (outline) { this.safeRemoveChild(outline); } } /** * Removes an element from the DOM. * * @private * @function Highcharts.SVGElement#safeRemoveChild * * @param {Highcharts.SVGDOMElement|Highcharts.HTMLDOMElement} element * The DOM node to remove. */ safeRemoveChild(element) { const parentNode = element.parentNode; if (parentNode) { parentNode.removeChild(element); } } /** * Set the coordinates needed to draw a consistent radial gradient across * a shape regardless of positioning inside the chart. Used on pie slices * to make all the slices have the same radial reference point. * * @function Highcharts.SVGElement#setRadialReference * * @param {Array} coordinates * The center reference. The format is `[centerX, centerY, diameter]` in * pixels. * * @return {Highcharts.SVGElement} * Returns the SVGElement for chaining. */ setRadialReference(coordinates) { const existingGradient = (this.element.gradient && this.renderer.gradients[this.element.gradient]); this.element.radialReference = coordinates; // On redrawing objects with an existing gradient, the gradient needs // to be repositioned (#3801) if (existingGradient && existingGradient.radAttr) { existingGradient.animate(this.renderer.getRadialAttr(coordinates, existingGradient.radAttr)); } return this; } /** * Set a text path for a `text` or `label` element, allowing the text to * flow along a path. * * In order to unset the path for an existing element, call `setTextPath` * with `{ enabled: false }` as the second argument. * * @sample highcharts/members/renderer-textpath/ Text path demonstrated * * @function Highcharts.SVGElement#setTextPath * * @param {Highcharts.SVGElement|undefined} path * Path to follow. If undefined, it allows changing options for the * existing path. * * @param {Highcharts.DataLabelsTextPathOptionsObject} textPathOptions * Options. * * @return {Highcharts.SVGElement} Returns the SVGElement for chaining. */ setTextPath(path, textPathOptions) { // Defaults textPathOptions = merge(true, { enabled: true, attributes: { dy: -5, startOffset: '50%', textAnchor: 'middle' } }, textPathOptions); const url = this.renderer.url, textWrapper = this.text || this, textPath = textWrapper.textPath, { attributes, enabled } = textPathOptions; path = path || (textPath && textPath.path); // Remove previously added event if (textPath) { textPath.undo(); } if (path && enabled) { const undo = addEvent(textWrapper, 'afterModifyTree', (e) => { if (path && enabled) { // Set ID for the path let textPathId = path.attr('id'); if (!textPathId) { path.attr('id', textPathId = uniqueKey()); } // Set attributes for the const textAttribs = { // `dx`/`dy` options must by set on (parent), the // rest should be set on x: 0, y: 0 }; if (defined(attributes.dx)) { textAttribs.dx = attributes.dx; delete attributes.dx; } if (defined(attributes.dy)) { textAttribs.dy = attributes.dy; delete attributes.dy; } textWrapper.attr(textAttribs); // Handle label properties this.attr({ transform: '' }); if (this.box) { this.box = this.box.destroy(); } // Wrap the nodes in a textPath const children = e.nodes.slice(0); e.nodes.length = 0; e.nodes[0] = { tagName: 'textPath', attributes: extend(attributes, { 'text-anchor': attributes.textAnchor, href: `${url}#${textPathId}` }), children }; } }); // Set the reference textWrapper.textPath = { path, undo }; } else { textWrapper.attr({ dx: 0, dy: 0 }); delete textWrapper.textPath; } if (this.added) { // Rebuild text after added textWrapper.textCache = ''; this.renderer.buildText(textWrapper); } return this; } /** * Add a shadow to the element. In styled mode, this method is not used, * instead use `defs` and filters. * * @example * renderer.rect(10, 100, 100, 100) * .attr({ fill: 'red' }) * .shadow(true); * * @function Highcharts.SVGElement#shadow * * @param {boolean|Highcharts.ShadowOptionsObject} [shadowOptions] The * shadow options. If `true`, the default options are applied. If * `false`, the current shadow will be removed. * * @return {Highcharts.SVGElement} Returns the SVGElement for chaining. */ shadow(shadowOptions) { const { renderer } = this, options = merge(this.parentGroup?.rotation === 90 ? { offsetX: -1, offsetY: -1 } : {}, isObject(shadowOptions) ? shadowOptions : {}), id = renderer.shadowDefinition(options); return this.attr({ filter: shadowOptions ? `url(${renderer.url}#${id})` : 'none' }); } /** * Show the element after it has been hidden. * * @function Highcharts.SVGElement#show * * @param {boolean} [inherit=true] * Set the visibility attribute to `inherit` rather than `visible`. * The difference is that an element with `visibility="visible"` * will be visible even if the parent is hidden. * * @return {Highcharts.SVGElement} * Returns the SVGElement for chaining. */ show(inherit = true) { return this.attr({ visibility: inherit ? 'inherit' : 'visible' }); } /** * Set the stroke-width and record it on the SVGElement * * @private * @function Highcharts.SVGElement#strokeSetter * @param {number|string|ColorType} value * @param {string} key * @param {Highcharts.SVGDOMElement} element */ 'stroke-widthSetter'(value, key, element) { // Record it for quick access in getter this[key] = value; element.setAttribute(key, value); } /** * Get the computed stroke width in pixel values. This is used extensively * when drawing shapes to ensure the shapes are rendered crisp and * positioned correctly relative to each other. Using * `shape-rendering: crispEdges` leaves us less control over positioning, * for example when we want to stack columns next to each other, or position * things pixel-perfectly within the plot box. * * The common pattern when placing a shape is: * - Create the SVGElement and add it to the DOM. In styled mode, it will * now receive a stroke width from the style sheet. In classic mode we * will add the `stroke-width` attribute. * - Read the computed `elem.strokeWidth()`. * - Place it based on the stroke width. * * @function Highcharts.SVGElement#strokeWidth * * @return {number} * The stroke width in pixels. Even if the given stroke width (in CSS or by * attributes) is based on `em` or other units, the pixel size is returned. */ strokeWidth() { // In non-styled mode, read the stroke width as set by .attr if (!this.renderer.styledMode) { return this['stroke-width'] || 0; } // In styled mode, read computed stroke width const val = this.getStyle('stroke-width'); let ret = 0, tempElement; // Read pixel values directly if (/px$/.test(val)) { ret = pInt(val); // Other values like em, pt etc need to be measured } else if (val !== '') { tempElement = doc.createElementNS(SVG_NS, 'rect'); attr(tempElement, { width: val, 'stroke-width': 0 }); this.element.parentNode.appendChild(tempElement); ret = tempElement.getBBox().width; tempElement.parentNode.removeChild(tempElement); } 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 * * @private * @function Highcharts.SVGElement#symbolAttr * * @param {Highcharts.SVGAttributes} hash * The attributes to set. */ symbolAttr(hash) { const wrapper = this; SVGElement.symbolCustomAttribs.forEach(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) }); } /** * @private * @function Highcharts.SVGElement#textSetter * @param {string} value */ textSetter(value) { if (value !== this.textStr) { // Delete size caches when the text changes // delete this.bBox; // old code in series-label delete this.textPxLength; this.textStr = value; if (this.added) { this.renderer.buildText(this); } } } /** * @private * @function Highcharts.SVGElement#titleSetter * @param {string} value */ titleSetter(value) { const el = this.element; const titleNode = el.getElementsByTagName('title')[0] || doc.createElementNS(this.SVG_NS, 'title'); // Move to first child if (el.insertBefore) { el.insertBefore(titleNode, el.firstChild); } else { el.appendChild(titleNode); } // Replace text content and escape markup titleNode.textContent = replaceNested(// Scan #[73] pick(value, ''), // #3276, #3895 [/<[^>]*>/g, '']).replace(/</g, '<').replace(/>/g, '>'); } /** * Bring the element to the front. Alternatively, a new zIndex can be set. * * @sample highcharts/members/element-tofront/ * Click an element to bring it to front * * @function Highcharts.SVGElement#toFront * * @return {Highcharts.SVGElement} * Returns the SVGElement for chaining. */ toFront() { const element = this.element; element.parentNode.appendChild(element); return this; } /** * Move an object and its children by x and y values. * * @function Highcharts.SVGElement#translate * * @param {number} x * The x value. * * @param {number} y * The y value. * * @return {Highcharts.SVGElement} * Translated element. */ translate(x, y) { return this.attr({ translateX: x, translateY: y }); } /** * Update the transform attribute based on internal properties. Deals with * the custom `translateX`, `translateY`, `rotation`, `scaleX` and `scaleY` * attributes and updates the SVG `transform` attribute. * * @private * @function Highcharts.SVGElement#updateTransform */ updateTransform(attrib = 'transform') { const { element, matrix, rotation = 0, rotationOriginX, rotationOriginY, scaleX, scaleY, translateX = 0, translateY = 0 } = this; // Apply translate. Nearly all transformed elements have translation, // so instead of checking for translate = 0, do it always (#1767, // #1846). const transform = ['translate(' + translateX + ',' + translateY + ')']; // Apply matrix if (defined(matrix)) { transform.push('matrix(' + matrix.join(',') + ')'); } // Apply rotation if (rotation) { transform.push('rotate(' + rotation + ' ' + pick(rotationOriginX, element.getAttribute('x'), 0) + ' ' + pick(rotationOriginY, element.getAttribute('y') || 0) + ')'); // HTML labels rotation (#20685) if (this.text?.element.tagName === 'SPAN') { this.text.attr({ rotation, rotationOriginX: (rotationOriginX || 0) - this.padding, rotationOriginY: (rotationOriginY || 0) - this.padding }); } } // Apply scale if (defined(scaleX) || defined(scaleY)) { transform.push('scale(' + pick(scaleX, 1) + ' ' + pick(scaleY, 1) + ')'); } if (transform.length && !(this.text || this).textPath) { element.setAttribute(attrib, transform.join(' ')); } } /** * @private * @function Highcharts.SVGElement#visibilitySetter * * @param {string} value * * @param {string} key * * @param {Highcharts.SVGDOMElement} element * */ visibilitySetter(value, key, element) { // IE9-11 doesn't handle visibility:inherit well, so we remove the // attribute instead (#2881, #3909) if (value === 'inherit') { element.removeAttribute(key); } else if (this[key] !== value) { // #6747 element.setAttribute(key, value); } this[key] = value; } /** * @private * @function Highcharts.SVGElement#xGetter */ xGetter(key) { if (this.element.nodeName === 'circle') { if (key === 'x') { key = 'cx'; } else if (key === 'y') { key = 'cy'; } } return this._defaultGetter(key); } /** * @private * @function Highcharts.SVGElement#zIndexSetter */ zIndexSetter(value, key) { const renderer = this.renderer, parentGroup = this.parentGroup, parentWrapper = parentGroup || renderer, parentNode = parentWrapper.element || renderer.box, element = this.element, svgParent = parentNode === renderer.box; let childNodes, otherElement, otherZIndex, inserted = false, undefinedOtherZIndex, run = this.added, i; if (defined(value)) { // So we can read it for other elements in the group element.setAttribute('data-z-index', value); value = +value; if (this[key] === value) { // Only update when needed (#3865) run = false; } } else if (defined(this[key])) { element.removeAttribute('data-z-index'); } this[key] = value; // Insert according to this and other elements' zIndex. Before .add() is // called, nothing is done. Then on add, or by later calls to // zIndexSetter, the node is placed on the right place in the DOM. if (run) { value = this.zIndex; if (value && parentGroup) { parentGroup.handleZ = true; } childNodes = parentNode.childNodes; for (i = childNodes.length - 1; i >= 0 && !inserted; i--) { otherElement = childNodes[i]; otherZIndex = otherElement.getAttribute('data-z-index'); undefinedOtherZIndex = !defined(otherZIndex); if (otherElement !== element) { if ( // Negative zIndex versus no zIndex: // On all levels except the highest. If the parent is // , then we don't want to put items before // or value < 0 && undefinedOtherZIndex && !svgParent && !i) { parentNode.insertBefore(element, childNodes[i]); inserted = true; } else if ( // Insert after the first element with a lower zIndex pInt(otherZIndex) <= value || // If negative zIndex, add this before first undefined // zIndex element (undefinedOtherZIndex && (!defined(value) || value >= 0))) { parentNode.insertBefore(element, childNodes[i + 1]); inserted = true; } } } if (!inserted) { parentNode.insertBefore(element, childNodes[svgParent ? 3 : 0]); inserted = true; } } return inserted; } } /* * * * Properties * * */ // Custom attributes used for symbols, these should be filtered out when // setting SVGElement attributes (#9375). SVGElement.symbolCustomAttribs = [ 'anchorX', 'anchorY', 'clockwise', 'end', 'height', 'innerR', 'r', 'start', 'width', 'x', 'y' ]; // Some shared setters and getters SVGElement.prototype.strokeSetter = SVGElement.prototype.fillSetter; SVGElement.prototype.yGetter = SVGElement.prototype.xGetter; SVGElement.prototype.matrixSetter = SVGElement.prototype.rotationOriginXSetter = SVGElement.prototype.rotationOriginYSetter = SVGElement.prototype.rotationSetter = SVGElement.prototype.scaleXSetter = SVGElement.prototype.scaleYSetter = SVGElement.prototype.translateXSetter = SVGElement.prototype.translateYSetter = SVGElement.prototype.verticalAlignSetter = function (value, key) { this[key] = value; this.doTransform = true; }; /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Reference to the global SVGElement class as a workaround for a name conflict * in the Highcharts namespace. * * @global * @typedef {global.SVGElement} GlobalSVGElement * * @see https://developer.mozilla.org/en-US/docs/Web/API/SVGElement */ /** * The horizontal alignment of an element. * * @typedef {"center"|"left"|"right"} Highcharts.AlignValue */ /** * Options to align the element relative to the chart or another box. * * @interface Highcharts.AlignObject */ /** * Horizontal alignment. Can be one of `left`, `center` and `right`. * * @name Highcharts.AlignObject#align * @type {Highcharts.AlignValue|undefined} * * @default left */ /** * Vertical alignment. Can be one of `top`, `middle` and `bottom`. * * @name Highcharts.AlignObject#verticalAlign * @type {Highcharts.VerticalAlignValue|undefined} * * @default top */ /** * Horizontal pixel offset from alignment. * * @name Highcharts.AlignObject#x * @type {number|undefined} * * @default 0 */ /** * Vertical pixel offset from alignment. * * @name Highcharts.AlignObject#y * @type {number|undefined} * * @default 0 */ /** * Use the `transform` attribute with translateX and translateY custom * attributes to align this elements rather than `x` and `y` attributes. * * @name Highcharts.AlignObject#alignByTranslate * @type {boolean|undefined} * * @default false */ /** * Bounding box of an element. * * @interface Highcharts.BBoxObject * @extends Highcharts.PositionObject */ /** * Height of the bounding box. * * @name Highcharts.BBoxObject#height * @type {number} */ /** * Width of the bounding box. * * @name Highcharts.BBoxObject#width * @type {number} */ /** * Horizontal position of the bounding box. * * @name Highcharts.BBoxObject#x * @type {number} */ /** * Vertical position of the bounding box. * * @name Highcharts.BBoxObject#y * @type {number} */ /** * An object of key-value pairs for SVG attributes. Attributes in Highcharts * elements for the most parts correspond to SVG, but some are specific to * Highcharts, like `zIndex`, `rotation`, `rotationOriginX`, * `rotationOriginY`, `translateX`, `translateY`, `scaleX` and `scaleY`. SVG * attributes containing a hyphen are _not_ camel-cased, they should be * quoted to preserve the hyphen. * * @example * { * 'stroke': '#ff0000', // basic * 'stroke-width': 2, // hyphenated * 'rotation': 45 // custom * 'd': ['M', 10, 10, 'L', 30, 30, 'z'] // path definition, note format * } * * @interface Highcharts.SVGAttributes */ /** * @name Highcharts.SVGAttributes#[key:string] * @type {*} */ /** * @name Highcharts.SVGAttributes#d * @type {string|Highcharts.SVGPathArray|undefined} */ /** * @name Highcharts.SVGAttributes#dx * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#dy * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#fill * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject|undefined} */ /** * @name Highcharts.SVGAttributes#inverted * @type {boolean|undefined} */ /** * @name Highcharts.SVGAttributes#matrix * @type {Array|undefined} */ /** * @name Highcharts.SVGAttributes#rotation * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#rotationOriginX * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#rotationOriginY * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#scaleX * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#scaleY * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#stroke * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject|undefined} */ /** * @name Highcharts.SVGAttributes#style * @type {string|Highcharts.CSSObject|undefined} */ /** * @name Highcharts.SVGAttributes#translateX * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#translateY * @type {number|undefined} */ /** * @name Highcharts.SVGAttributes#zIndex * @type {number|undefined} */ /** * An SVG DOM element. The type is a reference to the regular SVGElement in the * global scope. * * @typedef {globals.GlobalSVGElement} Highcharts.SVGDOMElement * * @see https://developer.mozilla.org/en-US/docs/Web/API/SVGElement */ /** * The vertical alignment of an element. * * @typedef {"bottom"|"middle"|"top"} Highcharts.VerticalAlignValue */ ''; // Keeps doclets above in JS file return SVGElement; }); _registerModule(_modules, 'Core/Renderer/SVG/SVGLabel.js', [_modules['Core/Renderer/SVG/SVGElement.js'], _modules['Core/Utilities.js']], function (SVGElement, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defined, extend, isNumber, merge, pick, removeEvent } = U; /* * * * Class * * */ /** * SVG label to render text. * @private * @class * @name Highcharts.SVGLabel * @augments Highcharts.SVGElement */ class SVGLabel extends SVGElement { /* * * * Constructor * * */ constructor(renderer, str, x, y, shape, anchorX, anchorY, useHTML, baseline, className) { super(renderer, 'g'); this.paddingLeftSetter = this.paddingSetter; this.paddingRightSetter = this.paddingSetter; this.textStr = str; this.x = x; this.y = y; this.anchorX = anchorX; this.anchorY = anchorY; this.baseline = baseline; this.className = className; this.addClass(className === 'button' ? 'highcharts-no-tooltip' : 'highcharts-label'); if (className) { this.addClass('highcharts-' + className); } // Create the text element. An undefined text content prevents redundant // box calculation (#16121) this.text = renderer.text(void 0, 0, 0, useHTML).attr({ zIndex: 1 }); // Validate the shape argument let hasBGImage; if (typeof shape === 'string') { hasBGImage = /^url\((.*?)\)$/.test(shape); if (hasBGImage || this.renderer.symbols[shape]) { this.symbolKey = shape; } } this.bBox = SVGLabel.emptyBBox; this.padding = 3; this.baselineOffset = 0; this.needsBox = renderer.styledMode || hasBGImage; this.deferredAttr = {}; this.alignFactor = 0; } /* * * * Functions * * */ alignSetter(value) { const alignFactor = ({ left: 0, center: 0.5, right: 1 })[value]; if (alignFactor !== this.alignFactor) { this.alignFactor = alignFactor; // Bounding box exists, means we're dynamically changing if (this.bBox && isNumber(this.xSetting)) { this.attr({ x: this.xSetting }); // #5134 } } } anchorXSetter(value, key) { this.anchorX = value; this.boxAttr(key, Math.round(value) - this.getCrispAdjust() - this.xSetting); } anchorYSetter(value, key) { this.anchorY = value; this.boxAttr(key, value - this.ySetting); } /* * Set a box attribute, or defer it if the box is not yet created */ boxAttr(key, value) { if (this.box) { this.box.attr(key, value); } else { this.deferredAttr[key] = value; } } /* * Pick up some properties and apply them to the text instead of the * wrapper. */ css(styles) { if (styles) { const textStyles = {}; // Create a copy to avoid altering the original object // (#537) styles = merge(styles); SVGLabel.textProps.forEach((prop) => { if (typeof styles[prop] !== 'undefined') { textStyles[prop] = styles[prop]; delete styles[prop]; } }); this.text.css(textStyles); // Update existing text, box (#9400, #12163, #18212) if ('fontSize' in textStyles || 'fontWeight' in textStyles) { this.updateTextPadding(); } else if ('width' in textStyles || 'textOverflow' in textStyles) { this.updateBoxSize(); } } return SVGElement.prototype.css.call(this, styles); } /* * Destroy and release memory. */ destroy() { // Added by button implementation removeEvent(this.element, 'mouseenter'); removeEvent(this.element, 'mouseleave'); if (this.text) { this.text.destroy(); } if (this.box) { this.box = this.box.destroy(); } // Call base implementation to destroy the rest SVGElement.prototype.destroy.call(this); return void 0; } fillSetter(value, key) { if (value) { this.needsBox = true; } // For animation getter (#6776) this.fill = value; this.boxAttr(key, value); } /* * Return the bounding box of the box, not the group. */ getBBox(reload, rot) { // If we have a text string and the DOM bBox was 0, it typically means // that the label was first rendered hidden, so we need to update the // bBox (#15246) if (this.textStr && this.bBox.width === 0 && this.bBox.height === 0) { this.updateBoxSize(); } const { padding, height = 0, translateX = 0, translateY = 0, width = 0 } = this, paddingLeft = pick(this.paddingLeft, padding), rotation = rot ?? (this.rotation || 0); let bBox = { width, height, x: translateX + this.bBox.x - paddingLeft, y: translateY + this.bBox.y - padding + this.baselineOffset }; if (rotation) { bBox = this.getRotatedBox(bBox, rotation); } return bBox; } getCrispAdjust() { return this.renderer.styledMode && this.box ? this.box.strokeWidth() % 2 / 2 : (this['stroke-width'] ? parseInt(this['stroke-width'], 10) : 0) % 2 / 2; } heightSetter(value) { this.heightSetting = value; } /* * After the text element is added, get the desired size of the border * box and add it before the text in the DOM. */ onAdd() { this.text.add(this); this.attr({ // Alignment is available now (#3295, 0 not rendered if given // as a value) text: pick(this.textStr, ''), x: this.x || 0, y: this.y || 0 }); if (this.box && defined(this.anchorX)) { this.attr({ anchorX: this.anchorX, anchorY: this.anchorY }); } } paddingSetter(value, key) { if (!isNumber(value)) { this[key] = void 0; } else if (value !== this[key]) { this[key] = value; this.updateTextPadding(); } } rSetter(value, key) { this.boxAttr(key, value); } strokeSetter(value, key) { // For animation getter (#6776) this.stroke = value; this.boxAttr(key, value); } 'stroke-widthSetter'(value, key) { if (value) { this.needsBox = true; } this['stroke-width'] = value; this.boxAttr(key, value); } 'text-alignSetter'(value) { this.textAlign = value; } textSetter(text) { if (typeof text !== 'undefined') { // Must use .attr to ensure transforms are done (#10009) this.text.attr({ text }); } this.updateTextPadding(); } /* * 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. */ updateBoxSize() { const text = this.text, attribs = {}, padding = this.padding, // #12165 error when width is null (auto) // #12163 when fontweight: bold, recalculate bBox without cache // #3295 && 3514 box failure when string equals 0 bBox = this.bBox = (((!isNumber(this.widthSetting) || !isNumber(this.heightSetting) || this.textAlign) && defined(text.textStr)) ? text.getBBox(void 0, 0) : SVGLabel.emptyBBox); let crispAdjust; this.width = this.getPaddedWidth(); this.height = (this.heightSetting || bBox.height || 0) + 2 * padding; const metrics = this.renderer.fontMetrics(text); // Update the label-scoped y offset. Math.min because of inline // style (#9400) this.baselineOffset = padding + Math.min( // When applicable, use the font size of the first line (#15707) (this.text.firstLineMetrics || metrics).b, // When the height is 0, there is no bBox, so go with the font // metrics. Highmaps CSS demos. bBox.height || Infinity); // #15491: Vertical centering if (this.heightSetting) { this.baselineOffset += (this.heightSetting - metrics.h) / 2; } if (this.needsBox && !text.textPath) { // Create the border box if it is not already present if (!this.box) { // Symbol definition exists (#5324) const box = this.box = this.symbolKey ? this.renderer.symbol(this.symbolKey) : this.renderer.rect(); box.addClass(// Don't use label className for buttons (this.className === 'button' ? '' : 'highcharts-label-box') + (this.className ? ' highcharts-' + this.className + '-box' : '')); box.add(this); } crispAdjust = this.getCrispAdjust(); attribs.x = crispAdjust; attribs.y = ((this.baseline ? -this.baselineOffset : 0) + crispAdjust); // Apply the box attributes attribs.width = Math.round(this.width); attribs.height = Math.round(this.height); this.box.attr(extend(attribs, this.deferredAttr)); this.deferredAttr = {}; } } /* * This function runs after setting text or padding, but only if padding * is changed. */ updateTextPadding() { const text = this.text; if (!text.textPath) { this.updateBoxSize(); // Determine y based on the baseline const textY = this.baseline ? 0 : this.baselineOffset; let textX = pick(this.paddingLeft, this.padding); // Compensate for alignment if (defined(this.widthSetting) && this.bBox && (this.textAlign === 'center' || this.textAlign === 'right')) { textX += { center: 0.5, right: 1 }[this.textAlign] * (this.widthSetting - this.bBox.width); } // Update if anything changed if (textX !== text.x || textY !== text.y) { text.attr('x', textX); // #8159 - prevent misplaced data labels in treemap // (useHTML: true) if (text.hasBoxWidthChanged) { this.bBox = text.getBBox(true); } if (typeof textY !== 'undefined') { text.attr('y', textY); } } // Record current values text.x = textX; text.y = textY; } } widthSetter(value) { // `width:auto` => null this.widthSetting = isNumber(value) ? value : void 0; } getPaddedWidth() { const padding = this.padding; const paddingLeft = pick(this.paddingLeft, padding); const paddingRight = pick(this.paddingRight, padding); return ((this.widthSetting || this.bBox.width || 0) + paddingLeft + paddingRight); } xSetter(value) { this.x = value; // For animation getter if (this.alignFactor) { value -= this.alignFactor * this.getPaddedWidth(); // Force animation even when setting to the same value (#7898) this['forceAnimate:x'] = true; } this.xSetting = Math.round(value); this.attr('translateX', this.xSetting); } ySetter(value) { this.ySetting = this.y = Math.round(value); this.attr('translateY', this.ySetting); } } /* * * * Static Properties * * */ SVGLabel.emptyBBox = { width: 0, height: 0, x: 0, y: 0 }; /** * For labels, these CSS properties are applied to the `text` node directly. * * @private * @name Highcharts.SVGLabel#textProps * @type {Array} */ SVGLabel.textProps = [ 'color', 'direction', 'fontFamily', 'fontSize', 'fontStyle', 'fontWeight', 'lineHeight', 'textAlign', 'textDecoration', 'textOutline', 'textOverflow', 'whiteSpace', 'width' ]; /* * * * Default Export * * */ return SVGLabel; }); _registerModule(_modules, 'Core/Renderer/SVG/Symbols.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defined, isNumber, pick } = U; /* * * * Functions * * */ /* eslint-disable require-jsdoc, valid-jsdoc */ /** * */ function arc(cx, cy, w, h, options) { const arc = []; if (options) { const start = options.start || 0, rx = pick(options.r, w), ry = pick(options.r, h || w), proximity = 0.001, fullCircle = (Math.abs((options.end || 0) - start - 2 * Math.PI) < proximity), // Subtract a small number to prevent cos and sin of start // and end from becoming equal on 360 arcs (related: #1561) end = (options.end || 0) - proximity, innerRadius = options.innerR, open = pick(options.open, fullCircle), cosStart = Math.cos(start), sinStart = Math.sin(start), cosEnd = Math.cos(end), sinEnd = Math.sin(end), // Proximity takes care of rounding errors around PI (#6971) longArc = pick(options.longArc, end - start - Math.PI < proximity ? 0 : 1); let arcSegment = [ 'A', rx, ry, 0, longArc, pick(options.clockwise, 1), cx + rx * cosEnd, cy + ry * sinEnd ]; arcSegment.params = { start, end, cx, cy }; // Memo for border radius arc.push([ 'M', cx + rx * cosStart, cy + ry * sinStart ], arcSegment); if (defined(innerRadius)) { arcSegment = [ 'A', innerRadius, innerRadius, 0, longArc, // Clockwise - opposite to the outer arc clockwise defined(options.clockwise) ? 1 - options.clockwise : 0, cx + innerRadius * cosStart, cy + innerRadius * sinStart ]; // Memo for border radius arcSegment.params = { start: end, end: start, cx, cy }; arc.push(open ? [ 'M', cx + innerRadius * cosEnd, cy + innerRadius * sinEnd ] : [ 'L', cx + innerRadius * cosEnd, cy + innerRadius * sinEnd ], arcSegment); } if (!open) { arc.push(['Z']); } } return arc; } /** * Callout shape used for default tooltips. */ function callout(x, y, w, h, options) { const arrowLength = 6, halfDistance = 6, r = Math.min((options && options.r) || 0, w, h), safeDistance = r + halfDistance, anchorX = options && options.anchorX, anchorY = options && options.anchorY || 0; const path = roundedRect(x, y, w, h, { r }); if (!isNumber(anchorX)) { return path; } // Do not render a connector, if anchor starts inside the label if (anchorX < w && anchorX > 0 && anchorY < h && anchorY > 0) { return path; } // Anchor on right side if (x + anchorX > w - safeDistance) { // Chevron if (anchorY > y + safeDistance && anchorY < y + h - safeDistance) { path.splice(3, 1, ['L', x + w, anchorY - halfDistance], ['L', x + w + arrowLength, anchorY], ['L', x + w, anchorY + halfDistance], ['L', x + w, y + h - r]); // Simple connector } else { if (anchorX < w) { // Corner connector const isTopCorner = anchorY < y + safeDistance, cornerY = isTopCorner ? y : y + h, sliceStart = isTopCorner ? 2 : 5; path.splice(sliceStart, 0, ['L', anchorX, anchorY], ['L', x + w - r, cornerY]); } else { // Side connector path.splice(3, 1, ['L', x + w, h / 2], ['L', anchorX, anchorY], ['L', x + w, h / 2], ['L', x + w, y + h - r]); } } // Anchor on left side } else if (x + anchorX < safeDistance) { // Chevron if (anchorY > y + safeDistance && anchorY < y + h - safeDistance) { path.splice(7, 1, ['L', x, anchorY + halfDistance], ['L', x - arrowLength, anchorY], ['L', x, anchorY - halfDistance], ['L', x, y + r]); // Simple connector } else { if (anchorX > 0) { // Corner connector const isTopCorner = anchorY < y + safeDistance, cornerY = isTopCorner ? y : y + h, sliceStart = isTopCorner ? 1 : 6; path.splice(sliceStart, 0, ['L', anchorX, anchorY], ['L', x + r, cornerY]); } else { // Side connector path.splice(7, 1, ['L', x, h / 2], ['L', anchorX, anchorY], ['L', x, h / 2], ['L', x, y + r]); } } } else if ( // Replace bottom anchorY > h && anchorX < w - safeDistance) { path.splice(5, 1, ['L', anchorX + halfDistance, y + h], ['L', anchorX, y + h + arrowLength], ['L', anchorX - halfDistance, y + h], ['L', x + r, y + h]); } else if ( // Replace top anchorY < 0 && anchorX > safeDistance) { path.splice(1, 1, ['L', anchorX - halfDistance, y], ['L', anchorX, y - arrowLength], ['L', anchorX + halfDistance, y], ['L', w - r, y]); } return path; } /** * */ function circle(x, y, w, h) { // Return a full arc return arc(x + w / 2, y + h / 2, w / 2, h / 2, { start: Math.PI * 0.5, end: Math.PI * 2.5, open: false }); } /** * */ function diamond(x, y, w, h) { return [ ['M', x + w / 2, y], ['L', x + w, y + h / 2], ['L', x + w / 2, y + h], ['L', x, y + h / 2], ['Z'] ]; } // #15291 /** * */ function rect(x, y, w, h, options) { if (options && options.r) { return roundedRect(x, y, w, h, options); } return [ ['M', x, y], ['L', x + w, y], ['L', x + w, y + h], ['L', x, y + h], ['Z'] ]; } /** * */ function roundedRect(x, y, w, h, options) { const r = options?.r || 0; return [ ['M', x + r, y], ['L', x + w - r, y], ['A', r, r, 0, 0, 1, x + w, y + r], ['L', x + w, y + h - r], ['A', r, r, 0, 0, 1, x + w - r, y + h], ['L', x + r, y + h], ['A', r, r, 0, 0, 1, x, y + h - r], ['L', x, y + r], ['A', r, r, 0, 0, 1, x + r, y], ['Z'] // Top-left corner ]; } /** * */ function triangle(x, y, w, h) { return [ ['M', x + w / 2, y], ['L', x + w, y + h], ['L', x, y + h], ['Z'] ]; } /** * */ function triangleDown(x, y, w, h) { return [ ['M', x, y], ['L', x + w, y], ['L', x + w / 2, y + h], ['Z'] ]; } const Symbols = { arc, callout, circle, diamond, rect, roundedRect, square: rect, triangle, 'triangle-down': triangleDown }; /* * * * Default Export * * */ return Symbols; }); _registerModule(_modules, 'Core/Renderer/SVG/TextBuilder.js', [_modules['Core/Renderer/HTML/AST.js'], _modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (AST, H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { doc, SVG_NS, win } = H; const { attr, extend, fireEvent, isString, objectEach, pick } = U; /* * * * Class * * */ /** * SVG Text Builder * @private * @class * @name Highcharts.TextBuilder */ class TextBuilder { constructor(svgElement) { const textStyles = svgElement.styles; this.renderer = svgElement.renderer; this.svgElement = svgElement; this.width = svgElement.textWidth; this.textLineHeight = textStyles && textStyles.lineHeight; this.textOutline = textStyles && textStyles.textOutline; this.ellipsis = Boolean(textStyles && textStyles.textOverflow === 'ellipsis'); this.noWrap = Boolean(textStyles && textStyles.whiteSpace === 'nowrap'); } /** * Build an SVG representation of the pseudo HTML given in the object's * svgElement. * * @private * * @return {void}. */ buildSVG() { const wrapper = this.svgElement, textNode = wrapper.element, renderer = wrapper.renderer, textStr = pick(wrapper.textStr, '').toString(), hasMarkup = textStr.indexOf('<') !== -1, childNodes = textNode.childNodes, tempParent = !wrapper.added && renderer.box, regexMatchBreaks = //g, // The buildText code is quite heavy, so if we're not changing // something that affects the text, skip it (#6113). textCache = [ textStr, this.ellipsis, this.noWrap, this.textLineHeight, this.textOutline, wrapper.getStyle('font-size'), this.width ].join(','); if (textCache === wrapper.textCache) { return; } wrapper.textCache = textCache; delete wrapper.actualWidth; // Remove old text for (let i = childNodes.length; i--;) { textNode.removeChild(childNodes[i]); } // Simple strings, add text directly and return if (!hasMarkup && !this.ellipsis && !this.width && !wrapper.textPath && (textStr.indexOf(' ') === -1 || (this.noWrap && !regexMatchBreaks.test(textStr)))) { textNode.appendChild(doc.createTextNode(this.unescapeEntities(textStr))); // Complex strings, add more logic } else if (textStr !== '') { if (tempParent) { // Attach it to the DOM to read offset width and font size tempParent.appendChild(textNode); } // Step 1. Parse the markup safely and directly into a tree // structure. const ast = new AST(textStr); // Step 2. Do as many as we can of the modifications to the tree // structure before it is added to the DOM this.modifyTree(ast.nodes); ast.addToDOM(textNode); // Step 3. Some modifications can't be done until the structure is // in the DOM, because we need to read computed metrics. this.modifyDOM(); // Add title if an ellipsis was added if (this.ellipsis && (textNode.textContent || '').indexOf('\u2026') !== -1) { wrapper.attr('title', this.unescapeEntities(wrapper.textStr || '', ['<', '>']) // #7179 ); } if (tempParent) { tempParent.removeChild(textNode); } } // Apply the text outline if (isString(this.textOutline) && wrapper.applyTextOutline) { wrapper.applyTextOutline(this.textOutline); } } /** * Modify the DOM of the generated SVG structure. This function only does * operations that cannot be done until the elements are attached to the * DOM, like doing layout based on rendered metrics of the added elements. * * @private * */ modifyDOM() { const wrapper = this.svgElement; const x = attr(wrapper.element, 'x'); wrapper.firstLineMetrics = void 0; // Remove empty tspans (including breaks) from the beginning because // SVG's getBBox doesn't count empty lines. The use case is tooltip // where the header is empty. By doing this in the DOM rather than in // the AST, we can inspect the textContent directly and don't have to // recurse down to look for valid content. let firstChild; while ((firstChild = wrapper.element.firstChild)) { if (/^[\s\u200B]*$/.test(firstChild.textContent || ' ')) { wrapper.element.removeChild(firstChild); } else { break; } } // Modify hard line breaks by applying the rendered line height [].forEach.call(wrapper.element.querySelectorAll('tspan.highcharts-br'), (br, i) => { if (br.nextSibling && br.previousSibling) { // #5261 if (i === 0 && br.previousSibling.nodeType === 1) { wrapper.firstLineMetrics = wrapper.renderer .fontMetrics(br.previousSibling); } attr(br, { // Since the break is inserted in front of the next // line, we need to use the next sibling for the line // height dy: this.getLineHeight(br.nextSibling), x }); } }); // Constrain the line width, either by ellipsis or wrapping const width = this.width || 0; if (!width) { return; } // Insert soft line breaks into each text node const modifyTextNode = (textNode, parentElement) => { const text = textNode.textContent || ''; const words = text .replace(/([^\^])-/g, '$1- ') // Split on hyphens // .trim() .split(' '); // #1273 const hasWhiteSpace = !this.noWrap && (words.length > 1 || wrapper.element.childNodes.length > 1); const dy = this.getLineHeight(parentElement); let lineNo = 0; let startAt = wrapper.actualWidth; if (this.ellipsis) { if (text) { this.truncate(textNode, text, void 0, 0, // Target width Math.max(0, // Subtract the font face to make room for the // ellipsis itself width - 0.8 * dy), // Build the text to test for (text, currentIndex) => text.substring(0, currentIndex) + '\u2026'); } } else if (hasWhiteSpace) { const lines = []; // Remove preceding siblings in order to make the text length // calculation correct in the truncate function const precedingSiblings = []; while (parentElement.firstChild && parentElement.firstChild !== textNode) { precedingSiblings.push(parentElement.firstChild); parentElement.removeChild(parentElement.firstChild); } while (words.length) { // Apply the previous line if (words.length && !this.noWrap && lineNo > 0) { lines.push(textNode.textContent || ''); textNode.textContent = words.join(' ') .replace(/- /g, '-'); } // For each line, truncate the remaining // words into the line length. this.truncate(textNode, void 0, words, lineNo === 0 ? (startAt || 0) : 0, width, // Build the text to test for (t, currentIndex) => words .slice(0, currentIndex) .join(' ') .replace(/- /g, '-')); startAt = wrapper.actualWidth; lineNo++; } // Reinsert the preceding child nodes precedingSiblings.forEach((childNode) => { parentElement.insertBefore(childNode, textNode); }); // Insert the previous lines before the original text node lines.forEach((line) => { // Insert the line parentElement.insertBefore(doc.createTextNode(line), textNode); // Insert a break const br = doc.createElementNS(SVG_NS, 'tspan'); br.textContent = '\u200B'; // Zero-width space attr(br, { dy, x }); parentElement.insertBefore(br, textNode); }); } }; // Recurse down the DOM tree and handle line breaks for each text node const modifyChildren = ((node) => { const childNodes = [].slice.call(node.childNodes); childNodes.forEach((childNode) => { if (childNode.nodeType === win.Node.TEXT_NODE) { modifyTextNode(childNode, node); } else { // Reset word-wrap width readings after hard breaks if (childNode.className.baseVal .indexOf('highcharts-br') !== -1) { wrapper.actualWidth = 0; } // Recurse down to child node modifyChildren(childNode); } }); }); modifyChildren(wrapper.element); } /** * Get the rendered line height of a , or pure text node. * * @param {DOMElementType|Text} node The node to check for * * @return {number} The rendered line height */ getLineHeight(node) { // If the node is a text node, use its parent const element = (node.nodeType === win.Node.TEXT_NODE) ? node.parentElement : node; return this.textLineHeight ? parseInt(this.textLineHeight.toString(), 10) : this.renderer.fontMetrics(element || this.svgElement.element).h; } /** * Transform a pseudo HTML AST node tree into an SVG structure. We do as * much heavy lifting as we can here, before doing the final processing in * the modifyDOM function. The original data is mutated. * * @private * * @param {ASTNode[]} nodes The AST nodes * */ modifyTree(nodes) { const modifyChild = (node, i) => { const { attributes = {}, children, style = {}, tagName } = node, styledMode = this.renderer.styledMode; // Apply styling to text tags if (tagName === 'b' || tagName === 'strong') { if (styledMode) { // eslint-disable-next-line dot-notation attributes['class'] = 'highcharts-strong'; } else { style.fontWeight = 'bold'; } } else if (tagName === 'i' || tagName === 'em') { if (styledMode) { // eslint-disable-next-line dot-notation attributes['class'] = 'highcharts-emphasized'; } else { style.fontStyle = 'italic'; } } // Modify styling if (style && style.color) { style.fill = style.color; } // Handle breaks if (tagName === 'br') { attributes['class'] = 'highcharts-br'; // eslint-disable-line dot-notation node.textContent = '\u200B'; // Zero-width space // Trim whitespace off the beginning of new lines const nextNode = nodes[i + 1]; if (nextNode && nextNode.textContent) { nextNode.textContent = nextNode.textContent.replace(/^ +/gm, ''); } // If an anchor has direct text node children, the text is unable to // wrap because there is no `getSubStringLength` function on the // element. Therefore we need to wrap the child text node or nodes // in a tspan. #16173. } else if (tagName === 'a' && children && children.some((child) => child.tagName === '#text')) { node.children = [{ children, tagName: 'tspan' }]; } if (tagName !== '#text' && tagName !== 'a') { node.tagName = 'tspan'; } extend(node, { attributes, style }); // Recurse if (children) { children .filter((c) => c.tagName !== '#text') .forEach(modifyChild); } }; nodes.forEach(modifyChild); fireEvent(this.svgElement, 'afterModifyTree', { nodes }); } /* * Truncate the text node contents to a given length. Used when the css * width is set. If the `textOverflow` is `ellipsis`, the text is truncated * character by character to the given length. If not, the text is * word-wrapped line by line. */ truncate(textNode, text, words, startAt, width, getString) { const svgElement = this.svgElement; const { rotation } = svgElement; // Cache the lengths to avoid checking the same twice const lengths = []; // Word wrap cannot be truncated to shorter than one word, ellipsis // text can be completely blank. let minIndex = words ? 1 : 0; let maxIndex = (text || words || '').length; let currentIndex = maxIndex; let str; let actualWidth; const getSubStringLength = function (charEnd, concatenatedEnd) { // `charEnd` is used when finding the character-by-character // break for ellipsis, concatenatedEnd is used for word-by-word // break for word wrapping. const end = concatenatedEnd || charEnd; const parentNode = textNode.parentNode; if (parentNode && typeof lengths[end] === 'undefined') { // Modern browsers if (parentNode.getSubStringLength) { // Fails with DOM exception on unit-tests/legend/members // of unknown reason. Desired width is 0, text content // is "5" and end is 1. try { lengths[end] = startAt + parentNode.getSubStringLength(0, words ? end + 1 : end); } catch (e) { ''; } } } return lengths[end]; }; svgElement.rotation = 0; // Discard rotation when computing box actualWidth = getSubStringLength(textNode.textContent.length); if (startAt + actualWidth > width) { // Do a binary search for the index where to truncate the text while (minIndex <= maxIndex) { currentIndex = Math.ceil((minIndex + maxIndex) / 2); // When checking words for word-wrap, we need to build the // string and measure the subStringLength at the concatenated // word length. if (words) { str = getString(words, currentIndex); } actualWidth = getSubStringLength(currentIndex, str && str.length - 1); if (minIndex === maxIndex) { // Complete minIndex = maxIndex + 1; } else if (actualWidth > width) { // Too large. Set max index to current. maxIndex = currentIndex - 1; } else { // Within width. Set min index to current. minIndex = currentIndex; } } // If max index was 0 it means the shortest possible text was also // too large. For ellipsis that means only the ellipsis, while for // word wrap it means the whole first word. if (maxIndex === 0) { // Remove ellipsis textNode.textContent = ''; // If the new text length is one less than the original, we don't // need the ellipsis } else if (!(text && maxIndex === text.length - 1)) { textNode.textContent = str || getString(text || words, currentIndex); } } // When doing line wrapping, prepare for the next line by removing the // items from this line. if (words) { words.splice(0, currentIndex); } svgElement.actualWidth = actualWidth; svgElement.rotation = rotation; // Apply rotation again. } /* * Un-escape HTML entities based on the public `renderer.escapes` list * * @private * * @param {string} inputStr The string to unescape * @param {Array} [except] Exceptions * * @return {string} The processed string */ unescapeEntities(inputStr, except) { objectEach(this.renderer.escapes, function (value, key) { if (!except || except.indexOf(value) === -1) { inputStr = inputStr.toString().replace(new RegExp(value, 'g'), key); } }); return inputStr; } } return TextBuilder; }); _registerModule(_modules, 'Core/Renderer/SVG/SVGRenderer.js', [_modules['Core/Renderer/HTML/AST.js'], _modules['Core/Color/Color.js'], _modules['Core/Globals.js'], _modules['Core/Renderer/RendererRegistry.js'], _modules['Core/Renderer/SVG/SVGElement.js'], _modules['Core/Renderer/SVG/SVGLabel.js'], _modules['Core/Renderer/SVG/Symbols.js'], _modules['Core/Renderer/SVG/TextBuilder.js'], _modules['Core/Utilities.js']], function (AST, Color, H, RendererRegistry, SVGElement, SVGLabel, Symbols, TextBuilder, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { charts, deg2rad, doc, isFirefox, isMS, isWebKit, noop, SVG_NS, symbolSizes, win } = H; const { addEvent, attr, createElement, css, defined, destroyObjectProperties, extend, isArray, isNumber, isObject, isString, merge, pick, pInt, replaceNested, uniqueKey } = U; /* * * * Variables * * */ let hasInternalReferenceBug; /* * * * Class * * */ /* eslint-disable no-invalid-this, valid-jsdoc */ /** * Allows direct access to the Highcharts rendering layer in order to draw * primitive shapes like circles, rectangles, paths or text directly on a chart, * or independent from any chart. The SVGRenderer represents a wrapper object * for SVG in modern browsers. * * An existing chart's renderer can be accessed through {@link Chart.renderer}. * The renderer can also be used completely decoupled from a chart. * * See [How to use the SVG Renderer]( * https://www.highcharts.com/docs/advanced-chart-features/renderer) for a * comprehensive tutorial. * * @sample highcharts/members/renderer-on-chart * Annotating a chart programmatically. * @sample highcharts/members/renderer-basic * Independent SVG drawing. * * @example * // Use directly without a chart object. * let renderer = new Highcharts.Renderer(parentNode, 600, 400); * * @class * @name Highcharts.SVGRenderer * * @param {Highcharts.HTMLDOMElement} container * Where to put the SVG in the web page. * * @param {number} width * The width of the SVG. * * @param {number} height * The height of the SVG. * * @param {Highcharts.CSSObject} [style] * The box style, if not in styleMode * * @param {boolean} [forExport=false] * Whether the rendered content is intended for export. * * @param {boolean} [allowHTML=true] * Whether the renderer is allowed to include HTML text, which will be * projected on top of the SVG. * * @param {boolean} [styledMode=false] * Whether the renderer belongs to a chart that is in styled mode. * If it does, it will avoid setting presentational attributes in * some cases, but not when set explicitly through `.attr` and `.css` * etc. */ class SVGRenderer { /** * The root `svg` node of the renderer. * * @name Highcharts.SVGRenderer#box * @type {Highcharts.SVGDOMElement} */ /** * The wrapper for the root `svg` node of the renderer. * * @name Highcharts.SVGRenderer#boxWrapper * @type {Highcharts.SVGElement} */ /** * A pointer to the `defs` node of the root SVG. * * @name Highcharts.SVGRenderer#defs * @type {Highcharts.SVGElement} */ /** * Whether the rendered content is intended for export. * * @name Highcharts.SVGRenderer#forExport * @type {boolean | undefined} */ /** * Page url used for internal references. * * @private * @name Highcharts.SVGRenderer#url * @type {string} */ /** * Initialize the SVGRenderer. Overridable initializer function that takes * the same parameters as the constructor. * * @function Highcharts.SVGRenderer#init * * @param {Highcharts.HTMLDOMElement} container * Where to put the SVG in the web page. * * @param {number} width * The width of the SVG. * * @param {number} height * The height of the SVG. * * @param {Highcharts.CSSObject} [style] * The box style, if not in styleMode * * @param {boolean} [forExport=false] * Whether the rendered content is intended for export. * * @param {boolean} [allowHTML=true] * Whether the renderer is allowed to include HTML text, which will be * projected on top of the SVG. * * @param {boolean} [styledMode=false] * Whether the renderer belongs to a chart that is in styled mode. If it * does, it will avoid setting presentational attributes in some cases, but * not when set explicitly through `.attr` and `.css` etc. */ constructor(container, width, height, style, forExport, allowHTML, styledMode) { const renderer = this, boxWrapper = renderer .createElement('svg') .attr({ version: '1.1', 'class': 'highcharts-root' }), element = boxWrapper.element; if (!styledMode) { boxWrapper.css(this.getStyle(style || {})); } container.appendChild(element); // Always use ltr on the container, otherwise text-anchor will be // flipped and text appear outside labels, buttons, tooltip etc (#3482) attr(container, 'dir', 'ltr'); // For browsers other than IE, add the namespace attribute (#1978) if (container.innerHTML.indexOf('xmlns') === -1) { attr(element, 'xmlns', this.SVG_NS); } this.box = element; this.boxWrapper = boxWrapper; this.alignedObjects = []; this.url = this.getReferenceURL(); // Add description const desc = this.createElement('desc').add(); desc.element.appendChild(doc.createTextNode('Created with Highcharts 11.4.1')); this.defs = this.createElement('defs').add(); this.allowHTML = allowHTML; this.forExport = forExport; this.styledMode = styledMode; this.gradients = {}; // Object where gradient SvgElements are stored this.cache = {}; // Cache for numerical bounding boxes this.cacheKeys = []; this.imgCount = 0; this.rootFontSize = boxWrapper.getStyle('font-size'); renderer.setSize(width, height, false); // Issue 110 workaround: // In Firefox, if a div is positioned by percentage, its pixel position // may land between pixels. The container itself doesn't display this, // but an SVG element inside this container will be drawn at subpixel // precision. In order to draw sharp lines, this must be compensated // for. This doesn't seem to work inside iframes though (like in // jsFiddle). let subPixelFix, rect; if (isFirefox && container.getBoundingClientRect) { subPixelFix = function () { css(container, { left: 0, top: 0 }); rect = container.getBoundingClientRect(); css(container, { left: (Math.ceil(rect.left) - rect.left) + 'px', top: (Math.ceil(rect.top) - rect.top) + 'px' }); }; // Run the fix now subPixelFix(); // Run it on resize renderer.unSubPixelFix = addEvent(win, 'resize', subPixelFix); } } /* * * * Functions * * */ /** * General method for adding a definition to the SVG `defs` tag. Can be used * for gradients, fills, filters etc. Styled mode only. A hook for adding * general definitions to the SVG's defs tag. Definitions can be referenced * from the CSS by its `id`. Read more in * [gradients, shadows and patterns](https://www.highcharts.com/docs/chart-design-and-style/gradients-shadows-and-patterns). * Styled mode only. * * @function Highcharts.SVGRenderer#definition * * @param {Highcharts.ASTNode} def * A serialized form of an SVG definition, including children. * * @return {Highcharts.SVGElement} * The inserted node. */ definition(def) { const ast = new AST([def]); return ast.addToDOM(this.defs.element); } /** * Get the prefix needed for internal URL references to work in certain * cases. Some older browser versions had a bug where internal url * references in SVG attributes, on the form `url(#some-id)`, would fail if * a base tag was present in the page. There were also issues with * `history.pushState` related to this prefix. * * Related issues: #24, #672, #1070, #5244. * * The affected browsers are: * - Chrome <= 53 (May 2018) * - Firefox <= 51 (January 2017) * - Safari/Mac <= 12.1 (2018 or 2019) * - Safari/iOS <= 13 * * @todo Remove this hack when time has passed. All the affected browsers * are evergreens, so it is increasingly unlikely that users are affected by * the bug. * * @return {string} * The prefix to use. An empty string for modern browsers. */ getReferenceURL() { if ((isFirefox || isWebKit) && doc.getElementsByTagName('base').length) { // Detect if a clip path is taking effect by performing a hit test // outside the clipped area. If the hit element is the rectangle // that was supposed to be clipped, the bug is present. This only // has to be performed once per page load, so we store the result // locally in the module. if (!defined(hasInternalReferenceBug)) { const id = uniqueKey(); const ast = new AST([{ tagName: 'svg', attributes: { width: 8, height: 8 }, children: [{ tagName: 'defs', children: [{ tagName: 'clipPath', attributes: { id }, children: [{ tagName: 'rect', attributes: { width: 4, height: 4 } }] }] }, { tagName: 'rect', attributes: { id: 'hitme', width: 8, height: 8, 'clip-path': `url(#${id})`, fill: 'rgba(0,0,0,0.001)' } }] }]); const svg = ast.addToDOM(doc.body); css(svg, { position: 'fixed', top: 0, left: 0, zIndex: 9e5 }); const hitElement = doc.elementFromPoint(6, 6); hasInternalReferenceBug = (hitElement && hitElement.id) === 'hitme'; doc.body.removeChild(svg); } if (hasInternalReferenceBug) { // Scan alert #[72]: Loop for nested patterns return replaceNested(win.location.href.split('#')[0], // Remove hash [/<[^>]*>/g, ''], // Wing cut HTML [/([\('\)])/g, '\\$1'], // Escape parantheses and quotes [/ /g, '%20'] // Replace spaces (needed for Safari only) ); } } return ''; } /** * Get the global style setting for the renderer. * * @private * @function Highcharts.SVGRenderer#getStyle * * @param {Highcharts.CSSObject} style * Style settings. * * @return {Highcharts.CSSObject} * The style settings mixed with defaults. */ getStyle(style) { this.style = extend({ fontFamily: 'Helvetica, Arial, sans-serif', fontSize: '1rem' }, style); return this.style; } /** * Apply the global style on the renderer, mixed with the default styles. * * @function Highcharts.SVGRenderer#setStyle * * @param {Highcharts.CSSObject} style * CSS to apply. */ setStyle(style) { this.boxWrapper.css(this.getStyle(style)); } /** * Detect whether the renderer is hidden. This happens when one of the * parent elements has `display: none`. Used internally to detect when we * need to render preliminarily in another div to get the text bounding * boxes right. * * @function Highcharts.SVGRenderer#isHidden * * @return {boolean} * True if it is hidden. */ isHidden() { return !this.boxWrapper.getBBox().width; } /** * Destroys the renderer and its allocated members. * * @function Highcharts.SVGRenderer#destroy * * @return {null} * Pass through value. */ destroy() { const 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; renderer.defs = rendererDefs.destroy(); // Remove sub pixel fix handler (#982) if (renderer.unSubPixelFix) { renderer.unSubPixelFix(); } renderer.alignedObjects = null; return null; } /** * Create a wrapper for an SVG element. Serves as a factory for * {@link SVGElement}, but this function is itself mostly called from * primitive factories like {@link SVGRenderer#path}, {@link * SVGRenderer#rect} or {@link SVGRenderer#text}. * * @function Highcharts.SVGRenderer#createElement * * @param {string} nodeName * The node name, for example `rect`, `g` etc. * * @return {Highcharts.SVGElement} * The generated SVGElement. */ createElement(nodeName) { return new this.Element(this, nodeName); } /** * Get converted radial gradient attributes according to the radial * reference. Used internally from the {@link SVGElement#colorGradient} * function. * * @private * @function Highcharts.SVGRenderer#getRadialAttr */ getRadialAttr(radialReference, gradAttr) { return { cx: (radialReference[0] - radialReference[2] / 2) + (gradAttr.cx || 0) * radialReference[2], cy: (radialReference[1] - radialReference[2] / 2) + (gradAttr.cy || 0) * radialReference[2], r: (gradAttr.r || 0) * radialReference[2] }; } /** * Create a drop shadow definition and return its id * * @private * @function Highcharts.SVGRenderer#shadowDefinition * * @param {boolean|Highcharts.ShadowOptionsObject} [shadowOptions] The * shadow options. If `true`, the default options are applied */ shadowDefinition(shadowOptions) { const id = [ `highcharts-drop-shadow-${this.chartIndex}`, ...Object.keys(shadowOptions) .map((key) => `${key}-${shadowOptions[key]}`) ].join('-').toLowerCase().replace(/[^a-z0-9\-]/g, ''), options = merge({ color: '#000000', offsetX: 1, offsetY: 1, opacity: 0.15, width: 5 }, shadowOptions); if (!this.defs.element.querySelector(`#${id}`)) { this.definition({ tagName: 'filter', attributes: { id, filterUnits: options.filterUnits }, children: [{ tagName: 'feDropShadow', attributes: { dx: options.offsetX, dy: options.offsetY, 'flood-color': options.color, // Tuned and modified to keep a preserve compatibility // with the old settings 'flood-opacity': Math.min(options.opacity * 5, 1), stdDeviation: options.width / 2 } }] }); } return id; } /** * Parse a simple HTML string into SVG tspans. Called internally when text * is set on an SVGElement. The function supports a subset of HTML tags, CSS * text features like `width`, `text-overflow`, `white-space`, and also * attributes like `href` and `style`. * * @private * @function Highcharts.SVGRenderer#buildText * * @param {Highcharts.SVGElement} wrapper * The parent SVGElement. */ buildText(wrapper) { new TextBuilder(wrapper).buildSVG(); } /** * Returns white for dark colors and black for bright colors, based on W3C's * definition of [Relative luminance]( * https://www.w3.org/WAI/GL/wiki/Relative_luminance). * * @function Highcharts.SVGRenderer#getContrast * * @param {Highcharts.ColorString} color * The color to get the contrast for. * * @return {Highcharts.ColorString} * The contrast color, either `#000000` or `#FFFFFF`. */ getContrast(color) { // #6216, #17273 const rgba = Color.parse(color).rgba .map((b8) => { const c = b8 / 255; return c <= 0.03928 ? c / 12.92 : Math.pow((c + 0.055) / 1.055, 2.4); }); // Relative luminance const l = 0.2126 * rgba[0] + 0.7152 * rgba[1] + 0.0722 * rgba[2]; // Use white or black based on which provides more contrast return 1.05 / (l + 0.05) > (l + 0.05) / 0.05 ? '#FFFFFF' : '#000000'; } /** * Create a button with preset states. * * @function Highcharts.SVGRenderer#button * * @param {string} text * The text or HTML to draw. * * @param {number} x * The x position of the button's left side. * * @param {number} y * The y position of the button's top side. * * @param {Highcharts.EventCallbackFunction} callback * The function to execute on button click or touch. * * @param {Highcharts.SVGAttributes} [theme] * SVG attributes for the normal state. * * @param {Highcharts.SVGAttributes} [hoverState] * SVG attributes for the hover state. * * @param {Highcharts.SVGAttributes} [selectState] * SVG attributes for the pressed state. * * @param {Highcharts.SVGAttributes} [disabledState] * SVG attributes for the disabled state. * * @param {Highcharts.SymbolKeyValue} [shape=rect] * The shape type. * * @param {boolean} [useHTML=false] * Whether to use HTML to render the label. * * @return {Highcharts.SVGElement} * The button element. */ button(text, x, y, callback, theme = {}, hoverState, selectState, disabledState, shape, useHTML) { const label = this.label(text, x, y, shape, void 0, void 0, useHTML, void 0, 'button'), styledMode = this.styledMode, states = theme.states || {}; let curState = 0; theme = merge(theme); delete theme.states; const normalStyle = merge({ color: "#333333" /* Palette.neutralColor80 */, cursor: 'pointer', fontSize: '0.8em', fontWeight: 'normal' }, theme.style); delete theme.style; // Remove stylable attributes. Pass in the ButtonThemeObject and get the // SVGAttributes subset back. let normalState = AST.filterUserAttributes(theme); // Default, non-stylable attributes label.attr(merge({ padding: 8, r: 2 }, normalState)); // Presentational. The string type is a mistake, it is just for // compliance with SVGAttribute and is not used in button theme. let hoverStyle, selectStyle, disabledStyle; if (!styledMode) { // Normal state - prepare the attributes normalState = merge({ fill: "#f7f7f7" /* Palette.neutralColor3 */, stroke: "#cccccc" /* Palette.neutralColor20 */, 'stroke-width': 1 }, normalState); // Hover state hoverState = merge(normalState, { fill: "#e6e6e6" /* Palette.neutralColor10 */ }, AST.filterUserAttributes(hoverState || states.hover || {})); hoverStyle = hoverState.style; delete hoverState.style; // Pressed state selectState = merge(normalState, { fill: "#e6e9ff" /* Palette.highlightColor10 */, style: { color: "#000000" /* Palette.neutralColor100 */, fontWeight: 'bold' } }, AST.filterUserAttributes(selectState || states.select || {})); selectStyle = selectState.style; delete selectState.style; // Disabled state disabledState = merge(normalState, { style: { color: "#cccccc" /* Palette.neutralColor20 */ } }, AST.filterUserAttributes(disabledState || states.disabled || {})); disabledStyle = disabledState.style; delete disabledState.style; } // Add the events. IE9 and IE10 need mouseover and mouseout to function // (#667). addEvent(label.element, isMS ? 'mouseover' : 'mouseenter', function () { if (curState !== 3) { label.setState(1); } }); addEvent(label.element, isMS ? 'mouseout' : 'mouseleave', function () { if (curState !== 3) { label.setState(curState); } }); label.setState = function (state) { // Hover state is temporary, don't record it if (state !== 1) { label.state = curState = state; } // Update visuals label .removeClass(/highcharts-button-(normal|hover|pressed|disabled)/) .addClass('highcharts-button-' + ['normal', 'hover', 'pressed', 'disabled'][state || 0]); if (!styledMode) { label .attr([ normalState, hoverState, selectState, disabledState ][state || 0]); const css = [ normalStyle, hoverStyle, selectStyle, disabledStyle ][state || 0]; if (isObject(css)) { label.css(css); } } }; // Presentational attributes if (!styledMode) { label .attr(normalState) .css(extend({ cursor: 'default' }, normalStyle)); // HTML labels don't need to handle pointer events because click and // mouseenter/mouseleave is bound to the underlying element. // Should this be reconsidered, we need more complex logic to share // events between the and its
counterpart, and avoid // triggering mouseenter/mouseleave when hovering from one to the // other (#17440). if (useHTML) { label.text.css({ pointerEvents: 'none' }); } } return label .on('touchstart', (e) => e.stopPropagation()) .on('click', function (e) { if (curState !== 3) { callback.call(label, e); } }); } /** * Make a straight line crisper by not spilling out to neighbour pixels. * * @function Highcharts.SVGRenderer#crispLine * * @param {Highcharts.SVGPathArray} points * The original points on the format `[['M', 0, 0], ['L', 100, 0]]`. * * @param {number} width * The width of the line. * * @param {string} [roundingFunction=round] * The rounding function name on the `Math` object, can be one of * `round`, `floor` or `ceil`. * * @return {Highcharts.SVGPathArray} * The original points array, but modified to render crisply. */ crispLine(points, width, roundingFunction = 'round') { const start = points[0]; const end = points[1]; // Normalize to a crisp line if (defined(start[1]) && start[1] === end[1]) { // Subtract due to #1129. Now bottom and left axis gridlines behave // the same. start[1] = end[1] = Math[roundingFunction](start[1]) - (width % 2 / 2); } if (defined(start[2]) && start[2] === end[2]) { start[2] = end[2] = Math[roundingFunction](start[2]) + (width % 2 / 2); } return points; } /** * Draw a path, wraps the SVG `path` element. * * @sample highcharts/members/renderer-path-on-chart/ * Draw a path in a chart * @sample highcharts/members/renderer-path/ * Draw a path independent from a chart * * @example * let path = renderer.path(['M', 10, 10, 'L', 30, 30, 'z']) * .attr({ stroke: '#ff00ff' }) * .add(); * * @function Highcharts.SVGRenderer#path * * @param {Highcharts.SVGPathArray} [path] * An SVG path definition in array form. * * @return {Highcharts.SVGElement} * The generated wrapper element. * */ /** * Draw a path, wraps the SVG `path` element. * * @function Highcharts.SVGRenderer#path * * @param {Highcharts.SVGAttributes} [attribs] * The initial attributes. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ path(path) { const attribs = (this.styledMode ? {} : { fill: 'none' }); if (isArray(path)) { attribs.d = path; } else if (isObject(path)) { // Attributes extend(attribs, path); } return this.createElement('path').attr(attribs); } /** * Draw a circle, wraps the SVG `circle` element. * * @sample highcharts/members/renderer-circle/ * Drawing a circle * * @function Highcharts.SVGRenderer#circle * * @param {number} [x] * The center x position. * * @param {number} [y] * The center y position. * * @param {number} [r] * The radius. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ /** * Draw a circle, wraps the SVG `circle` element. * * @function Highcharts.SVGRenderer#circle * * @param {Highcharts.SVGAttributes} [attribs] * The initial attributes. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ circle(x, y, r) { const attribs = (isObject(x) ? x : typeof x === 'undefined' ? {} : { x: x, y: y, r: r }), wrapper = this.createElement('circle'); // Setting x or y translates to cx and cy wrapper.xSetter = wrapper.ySetter = function (value, key, element) { element.setAttribute('c' + key, value); }; return wrapper.attr(attribs); } /** * Draw and return an arc. * * @sample highcharts/members/renderer-arc/ * Drawing an arc * * @function Highcharts.SVGRenderer#arc * * @param {number} [x=0] * Center X position. * * @param {number} [y=0] * Center Y position. * * @param {number} [r=0] * The outer radius' of the arc. * * @param {number} [innerR=0] * Inner radius like used in donut charts. * * @param {number} [start=0] * The starting angle of the arc in radians, where 0 is to the right and * `-Math.PI/2` is up. * * @param {number} [end=0] * The ending angle of the arc in radians, where 0 is to the right and * `-Math.PI/2` is up. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ /** * Draw and return an arc. Overloaded function that takes arguments object. * * @function Highcharts.SVGRenderer#arc * * @param {Highcharts.SVGAttributes} attribs * Initial SVG attributes. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ arc(x, y, r, innerR, start, end) { let options; if (isObject(x)) { options = x; y = options.y; r = options.r; innerR = options.innerR; start = options.start; end = options.end; x = options.x; } else { options = { innerR, start, end }; } // Arcs are defined as symbols for the ability to set // attributes in attr and animate const arc = this.symbol('arc', x, y, r, r, options); arc.r = r; // #959 return arc; } /** * Draw and return a rectangle. * * @function Highcharts.SVGRenderer#rect * * @param {number} [x] * Left position. * * @param {number} [y] * Top position. * * @param {number} [width] * Width of the rectangle. * * @param {number} [height] * Height of the rectangle. * * @param {number} [r] * Border corner radius. * * @param {number} [strokeWidth] * A stroke width can be supplied to allow crisp drawing. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ /** * Draw and return a rectangle. * * @sample highcharts/members/renderer-rect-on-chart/ * Draw a rectangle in a chart * @sample highcharts/members/renderer-rect/ * Draw a rectangle independent from a chart * * @function Highcharts.SVGRenderer#rect * * @param {Highcharts.SVGAttributes} [attributes] * General SVG attributes for the rectangle. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ rect(x, y, width, height, r, strokeWidth) { const attribs = (isObject(x) ? x : typeof x === 'undefined' ? {} : { x, y, r, width: Math.max(width || 0, 0), height: Math.max(height || 0, 0) }), wrapper = this.createElement('rect'); if (!this.styledMode) { if (typeof strokeWidth !== 'undefined') { attribs['stroke-width'] = strokeWidth; extend(attribs, wrapper.crisp(attribs)); } attribs.fill = 'none'; } wrapper.rSetter = function (value, _key, element) { wrapper.r = value; attr(element, { rx: value, ry: value }); }; wrapper.rGetter = function () { return wrapper.r || 0; }; return wrapper.attr(attribs); } /** * Draw and return a rectangle with advanced corner rounding options. * * @function Highcharts.SVGRenderer#roundedRect * * @param {Highcharts.SVGAttributes} attribs * Attributes * @return {Highcharts.SVGElement} * The generated wrapper element. */ roundedRect(attribs) { return this.symbol('roundedRect').attr(attribs); } /** * Resize the {@link SVGRenderer#box} and re-align all aligned child * elements. * * @sample highcharts/members/renderer-g/ * Show and hide grouped objects * * @function Highcharts.SVGRenderer#setSize * * @param {number} width * The new pixel width. * * @param {number} height * The new pixel height. * * @param {boolean|Partial} [animate=true] * Whether and how to animate. */ setSize(width, height, animate) { const renderer = this; renderer.width = width; renderer.height = height; renderer.boxWrapper.animate({ width: width, height: height }, { step: function () { this.attr({ viewBox: '0 0 ' + this.attr('width') + ' ' + this.attr('height') }); }, duration: pick(animate, true) ? void 0 : 0 }); renderer.alignElements(); } /** * Create and return an svg group element. Child * {@link Highcharts.SVGElement} objects are added to the group by using the * group as the first parameter in {@link Highcharts.SVGElement#add|add()}. * * @function Highcharts.SVGRenderer#g * * @param {string} [name] * The group will be given a class name of `highcharts-{name}`. This * can be used for styling and scripting. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ g(name) { const elem = this.createElement('g'); return name ? elem.attr({ 'class': 'highcharts-' + name }) : elem; } /** * Display an image. * * @sample highcharts/members/renderer-image-on-chart/ * Add an image in a chart * @sample highcharts/members/renderer-image/ * Add an image independent of a chart * * @function Highcharts.SVGRenderer#image * * @param {string} href * The image source. * * @param {number} [x] * The X position. * * @param {number} [y] * The Y position. * * @param {number} [width] * The image width. If omitted, it defaults to the image file width. * * @param {number} [height] * The image height. If omitted it defaults to the image file * height. * * @param {Function} [onload] * Event handler for image load. * * @return {Highcharts.SVGElement} * The generated wrapper element. */ image(href, x, y, width, height, onload) { const attribs = { preserveAspectRatio: 'none' }; // Optional properties (#11756) if (isNumber(x)) { attribs.x = x; } if (isNumber(y)) { attribs.y = y; } if (isNumber(width)) { attribs.width = width; } if (isNumber(height)) { attribs.height = height; } const elemWrapper = this.createElement('image').attr(attribs), onDummyLoad = function (e) { elemWrapper.attr({ href }); onload.call(elemWrapper, e); }; // Add load event if supplied if (onload) { // We have to use a dummy HTML image since IE support for SVG image // load events is very buggy. First set a transparent src, wait for // dummy to load, and then add the real src to the SVG image. elemWrapper.attr({ /* eslint-disable-next-line max-len */ href: 'data:image/gif;base64,R0lGODlhAQABAAAAACH5BAEKAAEALAAAAAABAAEAAAICTAEAOw==' }); const dummy = new win.Image(); addEvent(dummy, 'load', onDummyLoad); dummy.src = href; if (dummy.complete) { onDummyLoad({}); } } else { elemWrapper.attr({ href }); } return elemWrapper; } /** * Draw a symbol out of pre-defined shape paths from * {@link SVGRenderer#symbols}. * It is used in Highcharts for point makers, which cake a `symbol` option, * and label and button backgrounds like in the tooltip and stock flags. * * @function Highcharts.SVGRenderer#symbol * * @param {string} symbol * The symbol name. * * @param {number} [x] * The X coordinate for the top left position. * * @param {number} [y] * The Y coordinate for the top left position. * * @param {number} [width] * The pixel width. * * @param {number} [height] * The pixel height. * * @param {Highcharts.SymbolOptionsObject} [options] * Additional options, depending on the actual symbol drawn. * * @return {Highcharts.SVGElement} * SVG symbol. */ symbol(symbol, x, y, width, height, options) { const ren = this, imageRegex = /^url\((.*?)\)$/, isImage = imageRegex.test(symbol), sym = (!isImage && (this.symbols[symbol] ? symbol : 'circle')), // Get the symbol definition function symbolFn = (sym && this.symbols[sym]); let obj, path, imageSrc, centerImage; if (symbolFn) { // Check if there's a path defined for this symbol if (typeof x === 'number') { path = symbolFn.call(this.symbols, Math.round(x || 0), Math.round(y || 0), width || 0, height || 0, options); } obj = this.path(path); if (!ren.styledMode) { obj.attr('fill', 'none'); } // Expando properties for use in animate and attr extend(obj, { symbolName: (sym || void 0), x: x, y: y, width: width, height: height }); if (options) { extend(obj, options); } // Image symbols } else if (isImage) { imageSrc = symbol.match(imageRegex)[1]; // Create the image synchronously, add attribs async const img = obj = this.image(imageSrc); // The image width is not always the same as the symbol width. The // image may be centered within the symbol, as is the case when // image shapes are used as label backgrounds, for example in flags. img.imgwidth = pick(options && options.width, symbolSizes[imageSrc] && symbolSizes[imageSrc].width); img.imgheight = pick(options && options.height, symbolSizes[imageSrc] && symbolSizes[imageSrc].height); /** * Set the size and position */ centerImage = (obj) => obj.attr({ width: obj.width, height: obj.height }); /** * Width and height setters that take both the image's physical size * and the label size into consideration, and translates the image * to center within the label. */ ['width', 'height'].forEach((key) => { img[`${key}Setter`] = function (value, key) { this[key] = value; const { alignByTranslate, element, width, height, imgwidth, imgheight } = this, imgSize = key === 'width' ? imgwidth : imgheight; let scale = 1; // Scale and center the image within its container. The name // `backgroundSize` is taken from the CSS spec, but the // value `within` is made up. Other possible values in the // spec, `cover` and `contain`, can be implemented if // needed. if (options && options.backgroundSize === 'within' && width && height && imgwidth && imgheight) { scale = Math.min(width / imgwidth, height / imgheight); // Update both width and height to keep the ratio // correct (#17315) attr(element, { width: Math.round(imgwidth * scale), height: Math.round(imgheight * scale) }); } else if (element && imgSize) { element.setAttribute(key, imgSize); } if (!alignByTranslate && imgwidth && imgheight) { this.translate(((width || 0) - (imgwidth * scale)) / 2, ((height || 0) - (imgheight * scale)) / 2); } }; }); if (defined(x)) { img.attr({ x: x, y: y }); } img.isImg = true; if (defined(img.imgwidth) && defined(img.imgheight)) { centerImage(img); } else { // Initialize image to be 0 size so export will still function // if there's no cached sizes. img.attr({ width: 0, height: 0 }); // Create a dummy JavaScript image to get the width and height. createElement('img', { onload: function () { const chart = charts[ren.chartIndex]; // Special case for SVGs on IE11, the width is not // accessible until the image is part of the DOM // (#2854). if (this.width === 0) { css(this, { position: 'absolute', top: '-999em' }); doc.body.appendChild(this); } // Center the image symbolSizes[imageSrc] = { width: this.width, height: this.height }; img.imgwidth = this.width; img.imgheight = this.height; if (img.element) { centerImage(img); } // Clean up after #2854 workaround. if (this.parentNode) { this.parentNode.removeChild(this); } // Fire the load event when all external images are // loaded ren.imgCount--; if (!ren.imgCount && chart && !chart.hasLoaded) { chart.onload(); } }, src: imageSrc }); this.imgCount++; } } return obj; } /** * Define a clipping rectangle. The clipping rectangle is later applied * to {@link SVGElement} objects through the {@link SVGElement#clip} * function. * * This function is deprecated as of v11.2. Instead, use a regular shape * (`rect`, `path` etc), and the `SVGElement.clipTo` function. * * @example * let circle = renderer.circle(100, 100, 100) * .attr({ fill: 'red' }) * .add(); * let clipRect = renderer.clipRect(100, 100, 100, 100); * * // Leave only the lower right quarter visible * circle.clip(clipRect); * * @deprecated * * @function Highcharts.SVGRenderer#clipRect * * @param {number} [x] * * @param {number} [y] * * @param {number} [width] * * @param {number} [height] * * @return {Highcharts.ClipRectElement} * A clipping rectangle. */ clipRect(x, y, width, height) { return this.rect(x, y, width, height, 0); } /** * Draw text. The text can contain a subset of HTML, like spans and anchors * and some basic text styling of these. For more advanced features like * border and background, use {@link Highcharts.SVGRenderer#label} instead. * To update the text after render, run `text.attr({ text: 'New text' })`. * * @sample highcharts/members/renderer-text-on-chart/ * Annotate the chart freely * @sample highcharts/members/renderer-on-chart/ * Annotate with a border and in response to the data * @sample highcharts/members/renderer-text/ * Formatted text * * @function Highcharts.SVGRenderer#text * * @param {string} [str] * The text of (subset) HTML to draw. * * @param {number} [x] * The x position of the text's lower left corner. * * @param {number} [y] * The y position of the text's lower left corner. * * @param {boolean} [useHTML=false] * Use HTML to render the text. * * @return {Highcharts.SVGElement} * The text object. */ text(str, x, y, useHTML) { const renderer = this, attribs = {}; if (useHTML && (renderer.allowHTML || !renderer.forExport)) { return renderer.html(str, x, y); } attribs.x = Math.round(x || 0); // X always needed for line-wrap logic if (y) { attribs.y = Math.round(y); } if (defined(str)) { attribs.text = str; } const wrapper = renderer.createElement('text').attr(attribs); if (!useHTML || (renderer.forExport && !renderer.allowHTML)) { wrapper.xSetter = function (value, key, element) { const tspans = element.getElementsByTagName('tspan'), parentVal = element.getAttribute(key); for (let i = 0, tspan; i < tspans.length; i++) { tspan = tspans[i]; // If the x values are equal, the tspan represents a line // break if (tspan.getAttribute(key) === parentVal) { tspan.setAttribute(key, value); } } element.setAttribute(key, value); }; } return wrapper; } /** * Utility to return the baseline offset and total line height from the font * size. * * @function Highcharts.SVGRenderer#fontMetrics * * @param {Highcharts.SVGElement|Highcharts.SVGDOMElement|number} [element] * The element to inspect for a current font size. If a number is * given, it's used as a fall back for direct font size in pixels. * * @return {Highcharts.FontMetricsObject} * The font metrics. */ fontMetrics(element) { const f = pInt(SVGElement.prototype.getStyle.call(element, 'font-size') || 0); // Empirical values found by comparing font size and bounding box // height. Applies to the default font family. // https://jsfiddle.net/highcharts/7xvn7/ const h = f < 24 ? f + 3 : Math.round(f * 1.2), b = Math.round(h * 0.8); return { // Line height h, // Baseline b, // Font size f }; } /** * Correct X and Y positioning of a label for rotation (#1764). * * @private * @function Highcharts.SVGRenderer#rotCorr */ rotCorr(baseline, rotation, alterY) { let y = baseline; if (rotation && alterY) { y = Math.max(y * Math.cos(rotation * deg2rad), 4); } return { x: (-baseline / 3) * Math.sin(rotation * deg2rad), y: y }; } /** * Compatibility function to convert the legacy one-dimensional path array * into an array of segments. * * It is used in maps to parse the `path` option, and in SVGRenderer.dSetter * to support legacy paths from demos. * * @private * @function Highcharts.SVGRenderer#pathToSegments */ pathToSegments(path) { const ret = []; const segment = []; const commandLength = { A: 8, C: 7, H: 2, L: 3, M: 3, Q: 5, S: 5, T: 3, V: 2 }; // Short, non-typesafe parsing of the one-dimensional array. It splits // the path on any string. This is not type checked against the tuple // types, but is shorter, and doesn't require specific checks for any // command type in SVG. for (let i = 0; i < path.length; i++) { // Command skipped, repeat previous or insert L/l for M/m if (isString(segment[0]) && isNumber(path[i]) && segment.length === commandLength[(segment[0].toUpperCase())]) { path.splice(i, 0, segment[0].replace('M', 'L').replace('m', 'l')); } // Split on string if (typeof path[i] === 'string') { if (segment.length) { ret.push(segment.slice(0)); } segment.length = 0; } segment.push(path[i]); } ret.push(segment.slice(0)); return ret; /* // Fully type-safe version where each tuple type is checked. The // downside is filesize and a lack of flexibility for unsupported // commands const ret: SVGPath = [], commands = { A: 7, C: 6, H: 1, L: 2, M: 2, Q: 4, S: 4, T: 2, V: 1, Z: 0 }; let i = 0, lastI = 0, lastCommand; while (i < path.length) { const item = path[i]; let command; if (typeof item === 'string') { command = item; i += 1; } else { command = lastCommand || 'M'; } // Upper case const commandUC = command.toUpperCase(); if (commandUC in commands) { // No numeric parameters if (command === 'Z' || command === 'z') { ret.push([command]); // One numeric parameter } else { const val0 = path[i]; if (typeof val0 === 'number') { // Horizontal line to if (command === 'H' || command === 'h') { ret.push([command, val0]); i += 1; // Vertical line to } else if (command === 'V' || command === 'v') { ret.push([command, val0]); i += 1; // Two numeric parameters } else { const val1 = path[i + 1]; if (typeof val1 === 'number') { // lineTo if (command === 'L' || command === 'l') { ret.push([command, val0, val1]); i += 2; // moveTo } else if (command === 'M' || command === 'm') { ret.push([command, val0, val1]); i += 2; // Smooth quadratic bezier } else if (command === 'T' || command === 't') { ret.push([command, val0, val1]); i += 2; // Four numeric parameters } else { const val2 = path[i + 2], val3 = path[i + 3]; if ( typeof val2 === 'number' && typeof val3 === 'number' ) { // Quadratic bezier to if ( command === 'Q' || command === 'q' ) { ret.push([ command, val0, val1, val2, val3 ]); i += 4; // Smooth cubic bezier to } else if ( command === 'S' || command === 's' ) { ret.push([ command, val0, val1, val2, val3 ]); i += 4; // Six numeric parameters } else { const val4 = path[i + 4], val5 = path[i + 5]; if ( typeof val4 === 'number' && typeof val5 === 'number' ) { // Curve to if ( command === 'C' || command === 'c' ) { ret.push([ command, val0, val1, val2, val3, val4, val5 ]); i += 6; // Seven numeric parameters } else { const val6 = path[i + 6]; // Arc to if ( typeof val6 === 'number' && ( command === 'A' || command === 'a' ) ) { ret.push([ command, val0, val1, val2, val3, val4, val5, val6 ]); i += 7; } } } } } } } } } } } // An unmarked command following a moveTo is a lineTo lastCommand = command === 'M' ? 'L' : command; if (i === lastI) { break; } lastI = i; } return ret; */ } /** * Draw a label, which is an extended text element with support for border * and background. Highcharts creates a `g` element with a text and a `path` * or `rect` inside, to make it behave somewhat like a HTML div. Border and * background are set through `stroke`, `stroke-width` and `fill` attributes * using the {@link Highcharts.SVGElement#attr|attr} method. To update the * text after render, run `label.attr({ text: 'New text' })`. * * @sample highcharts/members/renderer-label-on-chart/ * A label on the chart * * @function Highcharts.SVGRenderer#label * * @param {string} str * The initial text string or (subset) HTML to render. * * @param {number} x * The x position of the label's left side. * * @param {number} [y] * The y position of the label's top side or baseline, depending on * the `baseline` parameter. * * @param {string} [shape='rect'] * The shape of the label's border/background, if any. Defaults to * `rect`. Other possible values are `callout` or other shapes * defined in {@link Highcharts.SVGRenderer#symbols}. * * @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] * In case the `shape` has a pointer, like a flag, this is the * coordinates it should be pinned to. * * @param {boolean} [useHTML=false] * Whether to use HTML to render the label. * * @param {boolean} [baseline=false] * Whether to position the label relative to the text baseline, * like {@link Highcharts.SVGRenderer#text|renderer.text}, or to the * upper border of the rectangle. * * @param {string} [className] * Class name for the group. * * @return {Highcharts.SVGElement} * The generated label. */ label(str, x, y, shape, anchorX, anchorY, useHTML, baseline, className) { return new SVGLabel(this, str, x, y, shape, anchorX, anchorY, useHTML, baseline, className); } /** * Re-align all aligned elements. * * @private * @function Highcharts.SVGRenderer#alignElements */ alignElements() { this.alignedObjects.forEach((el) => el.align()); } } extend(SVGRenderer.prototype, { /** * A pointer to the renderer's associated Element class. * * @name Highcharts.SVGRenderer#Element * @type {Highcharts.SVGElement} */ Element: SVGElement, SVG_NS, /** * A collection of characters mapped to HTML entities. When `useHTML` on an * element is true, these entities will be rendered correctly by HTML. In * the SVG pseudo-HTML, they need to be unescaped back to simple characters, * so for example `<` will render as `<`. * * @example * // Add support for unescaping quotes * Highcharts.SVGRenderer.prototype.escapes['"'] = '"'; * * @name Highcharts.SVGRenderer#escapes * @type {Highcharts.Dictionary} */ escapes: { '&': '&', '<': '<', '>': '>', "'": ''', '"': '"' }, /** * An extendable collection of functions for defining symbol paths. * * @name Highcharts.SVGRenderer#symbols * @type {Highcharts.SymbolDictionary} */ symbols: Symbols, /** * Dummy function for plugins, called every time the renderer is updated. * Prior to Highcharts 5, this was used for the canvg renderer. * * @deprecated * @function Highcharts.SVGRenderer#draw */ draw: noop }); /* * * * Registry * * */ RendererRegistry.registerRendererType('svg', SVGRenderer, true); /* * * * Export Default * * */ /* * * * API Declarations * * */ /** * A clipping rectangle that can be applied to one or more {@link SVGElement} * instances. It is instantiated with the {@link SVGRenderer#clipRect} function * and applied with the {@link SVGElement#clip} function. * * @example * let circle = renderer.circle(100, 100, 100) * .attr({ fill: 'red' }) * .add(); * let clipRect = renderer.clipRect(100, 100, 100, 100); * * // Leave only the lower right quarter visible * circle.clip(clipRect); * * @typedef {Highcharts.SVGElement} Highcharts.ClipRectElement */ /** * The font metrics. * * @interface Highcharts.FontMetricsObject */ /** * The baseline relative to the top of the box. * * @name Highcharts.FontMetricsObject#b * @type {number} */ /** * The font size. * * @name Highcharts.FontMetricsObject#f * @type {number} */ /** * The line height. * * @name Highcharts.FontMetricsObject#h * @type {number} */ /** * An object containing `x` and `y` properties for the position of an element. * * @interface Highcharts.PositionObject */ /** * X position of the element. * @name Highcharts.PositionObject#x * @type {number} */ /** * Y position of the element. * @name Highcharts.PositionObject#y * @type {number} */ /** * A rectangle. * * @interface Highcharts.RectangleObject */ /** * Height of the rectangle. * @name Highcharts.RectangleObject#height * @type {number} */ /** * Width of the rectangle. * @name Highcharts.RectangleObject#width * @type {number} */ /** * Horizontal position of the rectangle. * @name Highcharts.RectangleObject#x * @type {number} */ /** * Vertical position of the rectangle. * @name Highcharts.RectangleObject#y * @type {number} */ /** * The shadow options. * * @interface Highcharts.ShadowOptionsObject */ /** * The shadow color. * @name Highcharts.ShadowOptionsObject#color * @type {Highcharts.ColorString|undefined} * @default #000000 */ /** * The horizontal offset from the element. * * @name Highcharts.ShadowOptionsObject#offsetX * @type {number|undefined} * @default 1 */ /** * The vertical offset from the element. * @name Highcharts.ShadowOptionsObject#offsetY * @type {number|undefined} * @default 1 */ /** * The shadow opacity. * * @name Highcharts.ShadowOptionsObject#opacity * @type {number|undefined} * @default 0.15 */ /** * The shadow width or distance from the element. * @name Highcharts.ShadowOptionsObject#width * @type {number|undefined} * @default 3 */ /** * @interface Highcharts.SizeObject */ /** * @name Highcharts.SizeObject#height * @type {number} */ /** * @name Highcharts.SizeObject#width * @type {number} */ /** * Array of path commands, that will go into the `d` attribute of an SVG * element. * * @typedef {Array<(Array|Array|Array|Array|Array|Array)>} Highcharts.SVGPathArray */ /** * Possible path commands in an SVG path array. Valid values are `A`, `C`, `H`, * `L`, `M`, `Q`, `S`, `T`, `V`, `Z`. * * @typedef {string} Highcharts.SVGPathCommand * @validvalue ["a","c","h","l","m","q","s","t","v","z","A","C","H","L","M","Q","S","T","V","Z"] */ /** * An extendable collection of functions for defining symbol paths. Symbols are * used internally for point markers, button and label borders and backgrounds, * or custom shapes. Extendable by adding to {@link SVGRenderer#symbols}. * * @interface Highcharts.SymbolDictionary */ /** * @name Highcharts.SymbolDictionary#[key:string] * @type {Function|undefined} */ /** * @name Highcharts.SymbolDictionary#arc * @type {Function|undefined} */ /** * @name Highcharts.SymbolDictionary#callout * @type {Function|undefined} */ /** * @name Highcharts.SymbolDictionary#circle * @type {Function|undefined} */ /** * @name Highcharts.SymbolDictionary#diamond * @type {Function|undefined} */ /** * @name Highcharts.SymbolDictionary#square * @type {Function|undefined} */ /** * @name Highcharts.SymbolDictionary#triangle * @type {Function|undefined} */ /** * Can be one of `arc`, `callout`, `circle`, `diamond`, `square`, `triangle`, * and `triangle-down`. Symbols are used internally for point markers, button * and label borders and backgrounds, or custom shapes. Extendable by adding to * {@link SVGRenderer#symbols}. * * @typedef {"arc"|"callout"|"circle"|"diamond"|"square"|"triangle"|"triangle-down"} Highcharts.SymbolKeyValue */ /** * Additional options, depending on the actual symbol drawn. * * @interface Highcharts.SymbolOptionsObject */ /** * The anchor X position for the `callout` symbol. This is where the chevron * points to. * * @name Highcharts.SymbolOptionsObject#anchorX * @type {number|undefined} */ /** * The anchor Y position for the `callout` symbol. This is where the chevron * points to. * * @name Highcharts.SymbolOptionsObject#anchorY * @type {number|undefined} */ /** * The end angle of an `arc` symbol. * * @name Highcharts.SymbolOptionsObject#end * @type {number|undefined} */ /** * Whether to draw `arc` symbol open or closed. * * @name Highcharts.SymbolOptionsObject#open * @type {boolean|undefined} */ /** * The radius of an `arc` symbol, or the border radius for the `callout` symbol. * * @name Highcharts.SymbolOptionsObject#r * @type {number|undefined} */ /** * The start angle of an `arc` symbol. * * @name Highcharts.SymbolOptionsObject#start * @type {number|undefined} */ (''); // Keeps doclets above in transpiled file return SVGRenderer; }); _registerModule(_modules, 'Core/Renderer/HTML/HTMLElement.js', [_modules['Core/Renderer/HTML/AST.js'], _modules['Core/Globals.js'], _modules['Core/Renderer/SVG/SVGElement.js'], _modules['Core/Utilities.js']], function (AST, H, SVGElement, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { composed } = H; const { attr, css, createElement, defined, extend, pInt, pushUnique } = U; /** * The opacity and visibility properties are set as attributes on the main * element and SVG groups, and as identical CSS properties on the HTML element * and the ancestry divs. (#3542) * * @private */ function commonSetter(value, key, elem) { const style = this.div?.style || elem.style; SVGElement.prototype[`${key}Setter`].call(this, value, key, elem); if (style) { style[key] = value; } } /** * Decorate each SVG group in the ancestry line. Each SVG `g` element that * contains children with useHTML, will receive a `div` element counterpart to * contain the HTML span. These div elements are translated and styled like * original `g` counterparts. * * @private */ const decorateSVGGroup = (g, container) => { if (!g.div) { const className = attr(g.element, 'class'), cssProto = g.css; // Create the parallel HTML group const div = createElement('div', className ? { className } : void 0, { // Add HTML specific styles position: 'absolute', left: `${g.translateX || 0}px`, top: `${g.translateY || 0}px`, // Add pre-existing styles ...g.styles, // Add g attributes that correspond to CSS display: g.display, opacity: g.opacity, visibility: g.visibility }, // The top group is appended to container g.parentGroup?.div || container); g.classSetter = (value, key, element) => { element.setAttribute('class', value); div.className = value; }; /** * Common translate setter for X and Y on the HTML group. * * Reverted the fix for #6957 due to positioning problems and offline * export (#7254, #7280, #7529) * @private */ g.translateXSetter = g.translateYSetter = (value, key) => { g[key] = value; div.style[key === 'translateX' ? 'left' : 'top'] = `${value}px`; g.doTransform = true; }; g.opacitySetter = g.visibilitySetter = commonSetter; // Extend the parent group's css function by updating the parallel div // counterpart with the same style. g.css = (styles) => { // Call the base css method. The `parentGroup` can be either an // SVGElement or an SVGLabel, in which the css method is extended // (#19200). cssProto.call(g, styles); // #6794 if (styles.cursor) { div.style.cursor = styles.cursor; } // #18821 if (styles.pointerEvents) { div.style.pointerEvents = styles.pointerEvents; } return g; }; // Event handling g.on = function () { SVGElement.prototype.on.apply({ element: div, onEvents: g.onEvents }, arguments); return g; }; g.div = div; } return g.div; }; /* * * * Class * * */ class HTMLElement extends SVGElement { /* * * * Static Functions * * */ /** * Compose * @private */ static compose(SVGRendererClass) { if (pushUnique(composed, this.compose)) { /** * Create a HTML text node. This is used by the SVG renderer `text` * and `label` functions through the `useHTML` parameter. * * @private */ SVGRendererClass.prototype.html = function (str, x, y) { return new HTMLElement(this, 'span') // Set the default attributes .attr({ text: str, x: Math.round(x), y: Math.round(y) }); }; } } /* * * * Functions * * */ constructor(renderer, nodeName) { super(renderer, nodeName); this.css({ position: 'absolute', ...(renderer.styledMode ? {} : { fontFamily: renderer.style.fontFamily, fontSize: renderer.style.fontSize }) }); // Keep the whiteSpace style outside the `HTMLElement.styles` collection this.element.style.whiteSpace = 'nowrap'; } /** * Get the correction in X and Y positioning as the element is rotated. * @private */ getSpanCorrection(width, baseline, alignCorrection) { this.xCorr = -width * alignCorrection; this.yCorr = -baseline; } /** * Apply CSS to HTML elements. This is used in text within SVG rendering. * @private */ css(styles) { const { element } = this, // When setting or unsetting the width style, we need to update // transform (#8809) isSettingWidth = (element.tagName === 'SPAN' && styles && 'width' in styles), textWidth = isSettingWidth && styles.width; let doTransform; if (isSettingWidth) { delete styles.width; this.textWidth = pInt(textWidth) || void 0; doTransform = true; } if (styles?.textOverflow === 'ellipsis') { styles.whiteSpace = 'nowrap'; styles.overflow = 'hidden'; } extend(this.styles, styles); css(element, styles); // Now that all styles are applied, to the transform if (doTransform) { this.updateTransform(); } return this; } /** * The useHTML method for calculating the bounding box based on offsets. * Called internally from the `SVGElement.getBBox` function and subsequently * rotated. * * @private */ htmlGetBBox() { const { element } = this; return { x: element.offsetLeft, y: element.offsetTop, width: element.offsetWidth, height: element.offsetHeight }; } /** * Batch update styles and attributes related to transform * * @private */ updateTransform() { // Aligning non added elements is expensive if (!this.added) { this.alignOnAdd = true; return; } const { element, renderer, rotation, rotationOriginX, rotationOriginY, styles, textAlign = 'left', textWidth, translateX = 0, translateY = 0, x = 0, y = 0 } = this, alignCorrection = { left: 0, center: 0.5, right: 1 }[textAlign], whiteSpace = styles.whiteSpace; // Get the pixel length of the text const getTextPxLength = () => { if (this.textPxLength) { return this.textPxLength; } // Reset multiline/ellipsis in order to read width (#4928, // #5417) css(element, { width: '', whiteSpace: whiteSpace || 'nowrap' }); return element.offsetWidth; }; // Apply translate css(element, { marginLeft: `${translateX}px`, marginTop: `${translateY}px` }); if (element.tagName === 'SPAN') { const currentTextTransform = [ rotation, textAlign, element.innerHTML, textWidth, this.textAlign ].join(','), parentPadding = (this.parentGroup?.padding * -1) || 0; let baseline, hasBoxWidthChanged = false; // Update textWidth. Use the memoized textPxLength if possible, to // avoid the getTextPxLength function using elem.offsetWidth. // Calling offsetWidth affects rendering time as it forces layout // (#7656). if (textWidth !== this.oldTextWidth) { // #983, #1254 const textPxLength = getTextPxLength(), textWidthNum = textWidth || 0; if (((textWidthNum > this.oldTextWidth) || textPxLength > textWidthNum) && ( // Only set the width if the text is able to word-wrap, // or text-overflow is ellipsis (#9537) /[ \-]/.test(element.textContent || element.innerText) || element.style.textOverflow === 'ellipsis')) { css(element, { width: (textPxLength > textWidthNum) || rotation ? textWidth + 'px' : 'auto', display: 'block', whiteSpace: whiteSpace || 'normal' // #3331 }); this.oldTextWidth = textWidth; hasBoxWidthChanged = true; // #8159 } } this.hasBoxWidthChanged = hasBoxWidthChanged; // #8159 // Do the calculations and DOM access only if properties changed if (currentTextTransform !== this.cTT) { baseline = renderer.fontMetrics(element).b; // Renderer specific handling of span rotation, but only if we // have something to update. if (defined(rotation) && ((rotation !== (this.oldRotation || 0)) || (textAlign !== this.oldAlign))) { this.setSpanRotation(rotation, parentPadding, parentPadding); } this.getSpanCorrection( // Avoid elem.offsetWidth if we can, it affects rendering // time heavily (#7656) ((!defined(rotation) && this.textPxLength) || // #7920 element.offsetWidth), baseline, alignCorrection); } // Apply position with correction and rotation origin const { xCorr = 0, yCorr = 0 } = this, rotOriginX = (rotationOriginX ?? x) - xCorr - x - parentPadding, rotOriginY = (rotationOriginY ?? y) - yCorr - y - parentPadding, styles = { left: `${x + xCorr}px`, top: `${y + yCorr}px`, transformOrigin: `${rotOriginX}px ${rotOriginY}px` }; css(element, styles); // Record current text transform this.cTT = currentTextTransform; this.oldRotation = rotation; this.oldAlign = textAlign; } } /** * Set the rotation of an individual HTML span. * @private */ setSpanRotation(rotation, originX, originY) { // CSS transform and transform-origin both supported without prefix // since Firefox 16 (2012), IE 10 (2012), Chrome 36 (2014), Safari 9 // (2015).; css(this.element, { transform: `rotate(${rotation}deg)`, transformOrigin: `${originX}% ${originY}px` }); } /** * Add the element to a group wrapper. For HTML elements, a parallel div * will be created for each ancenstor SVG `g` element. * * @private */ add(parentGroup) { const container = this.renderer.box .parentNode, parents = []; let div; this.parentGroup = parentGroup; // Create a parallel divs to hold the HTML elements if (parentGroup) { div = parentGroup.div; if (!div) { // Read the parent chain into an array and read from top // down let svgGroup = parentGroup; while (svgGroup) { parents.push(svgGroup); // Move up to the next parent group svgGroup = svgGroup.parentGroup; } // Decorate each of the ancestor group elements with a parallel // div that reflects translation and styling for (const parentGroup of parents.reverse()) { div = decorateSVGGroup(parentGroup, container); } } } (div || container).appendChild(this.element); this.added = true; if (this.alignOnAdd) { this.updateTransform(); } return this; } /** * Text setter * @private */ textSetter(value) { if (value !== this.textStr) { delete this.bBox; delete this.oldTextWidth; AST.setElementHTML(this.element, value ?? ''); this.textStr = value; this.doTransform = true; } } /** * Align setter * * @private */ alignSetter(value) { this.alignValue = this.textAlign = value; this.doTransform = true; } /** * Various setters which rely on update transform * @private */ xSetter(value, key) { this[key] = value; this.doTransform = true; } } // Some shared setters const proto = HTMLElement.prototype; proto.visibilitySetter = proto.opacitySetter = commonSetter; proto.ySetter = proto.rotationSetter = proto.rotationOriginXSetter = proto.rotationOriginYSetter = proto.xSetter; /* * * * Default Export * * */ return HTMLElement; }); _registerModule(_modules, 'Core/Axis/AxisDefaults.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Namespace * * */ var AxisDefaults; (function (AxisDefaults) { /* * * * Constants * * */ /** * The X axis or category axis. Normally this is the horizontal axis, * though if the chart is inverted this is the vertical axis. In case of * multiple axes, the xAxis node is an array of configuration objects. * * See the [Axis class](/class-reference/Highcharts.Axis) for programmatic * access to the axis. * * @productdesc {highmaps} * In Highmaps, the axis is hidden, but it is used behind the scenes to * control features like zooming and panning. Zooming is in effect the same * as setting the extremes of one of the exes. * * @type {*|Array<*>} * @optionparent xAxis */ AxisDefaults.xAxis = { /** * When using multiple axis, the ticks of two or more opposite axes * will automatically be aligned by adding ticks to the axis or axes * with the least ticks, as if `tickAmount` were specified. * * This can be prevented by setting `alignTicks` to false. If the grid * lines look messy, it's a good idea to hide them for the secondary * axis by setting `gridLineWidth` to 0. * * If `startOnTick` or `endOnTick` in an Axis options are set to false, * then the `alignTicks ` will be disabled for the Axis. * * Disabled for logarithmic axes. * * @product highcharts highstock gantt */ alignTicks: true, /** * Whether to allow decimals in this axis' ticks. When counting * integers, like persons or hits on a web page, decimals should * be avoided in the labels. By default, decimals are allowed on small * scale axes. * * @see [minTickInterval](#xAxis.minTickInterval) * * @sample {highcharts|highstock} highcharts/yaxis/allowdecimals-true/ * True by default * @sample {highcharts|highstock} highcharts/yaxis/allowdecimals-false/ * False * * @type {boolean|undefined} * @default undefined * @since 2.0 */ allowDecimals: void 0, /** * When using an alternate grid color, a band is painted across the * plot area between every other grid line. * * @sample {highcharts} highcharts/yaxis/alternategridcolor/ * Alternate grid color on the Y axis * @sample {highstock} stock/xaxis/alternategridcolor/ * Alternate grid color on the Y axis * * @type {Highcharts.ColorType} * @apioption xAxis.alternateGridColor */ /** * An array defining breaks in the axis, the sections defined will be * left out and all the points shifted closer to each other. * * @productdesc {highcharts} * Requires that the broken-axis.js module is loaded. * * @sample {highcharts} highcharts/axisbreak/break-simple/ * Simple break * @sample {highcharts|highstock} highcharts/axisbreak/break-visualized/ * Advanced with callback * @sample {highstock} stock/demo/intraday-breaks/ * Break on nights and weekends * * @type {Array<*>} * @since 4.1.0 * @product highcharts highstock gantt * @apioption xAxis.breaks */ /** * A number indicating how much space should be left between the start * and the end of the break. The break size is given in axis units, * so for instance on a `datetime` axis, a break size of 3600000 would * indicate the equivalent of an hour. * * @type {number} * @default 0 * @since 4.1.0 * @product highcharts highstock gantt * @apioption xAxis.breaks.breakSize */ /** * The point where the break starts. * * @type {number} * @since 4.1.0 * @product highcharts highstock gantt * @apioption xAxis.breaks.from */ /** * Defines an interval after which the break appears again. By default * the breaks do not repeat. * * @type {number} * @default 0 * @since 4.1.0 * @product highcharts highstock gantt * @apioption xAxis.breaks.repeat */ /** * The point where the break ends. * * @type {number} * @since 4.1.0 * @product highcharts highstock gantt * @apioption xAxis.breaks.to */ /** * If categories are present for the xAxis, names are used instead of * numbers for that axis. * * Since Highcharts 3.0, categories can also * be extracted by giving each point a [name](#series.data) and setting * axis [type](#xAxis.type) to `category`. However, if you have multiple * series, best practice remains defining the `categories` array. * * Example: `categories: ['Apples', 'Bananas', 'Oranges']` * * @sample {highcharts} highcharts/demo/line-labels/ * With * @sample {highcharts} highcharts/xaxis/categories/ * Without * * @type {Array} * @product highcharts gantt * @apioption xAxis.categories */ /** * The highest allowed value for automatically computed axis extremes. * * @see [floor](#xAxis.floor) * * @sample {highcharts|highstock} highcharts/yaxis/floor-ceiling/ * Floor and ceiling * * @type {number} * @since 4.0 * @product highcharts highstock gantt * @apioption xAxis.ceiling */ /** * A class name that opens for styling the axis by CSS, especially in * Highcharts styled mode. The class name is applied to group elements * for the grid, axis elements and labels. * * @sample {highcharts|highstock|highmaps} highcharts/css/axis/ * Multiple axes with separate styling * * @type {string} * @since 5.0.0 * @apioption xAxis.className */ /** * Configure a crosshair that follows either the mouse pointer or the * hovered point. * * In styled mode, the crosshairs are styled in the * `.highcharts-crosshair`, `.highcharts-crosshair-thin` or * `.highcharts-xaxis-category` classes. * * @productdesc {highstock} * In Highcharts stock, by default, the crosshair is enabled on the * X axis and disabled on the Y axis. * * @sample {highcharts} highcharts/xaxis/crosshair-both/ * Crosshair on both axes * @sample {highstock} stock/xaxis/crosshairs-xy/ * Crosshair on both axes, with y axis label * @sample {highmaps} highcharts/xaxis/crosshair-both/ * Crosshair on both axes * * @declare Highcharts.AxisCrosshairOptions * @type {boolean|*} * @default false * @since 4.1 * @apioption xAxis.crosshair */ /** * The value on a perpendicular axis where this axis should cross. This * is typically used on mathematical plots where the axes cross at 0. * When `crossing` is set, space will not be reserved at the sides of * the chart for axis labels and title, so those may be clipped. In this * case it is better to place the axes without the `crossing` option. * * @type {number} * @sample highcharts/xaxis/crossing * Function plot with axes crossing at 0 * @since 11.0.1 * @apioption xAxis.crossing */ /** * A class name for the crosshair, especially as a hook for styling. * * @type {string} * @since 5.0.0 * @apioption xAxis.crosshair.className */ /** * The color of the crosshair. Defaults to `#cccccc` for numeric and * datetime axes, and `rgba(204,214,235,0.25)` for category axes, where * the crosshair by default highlights the whole category. * * @sample {highcharts|highstock|highmaps} highcharts/xaxis/crosshair-customized/ * Customized crosshairs * * @type {Highcharts.ColorType} * @default #cccccc * @since 4.1 * @apioption xAxis.crosshair.color */ /** * The dash style for the crosshair. See * [plotOptions.series.dashStyle](#plotOptions.series.dashStyle) * for possible values. * * @sample {highcharts|highmaps} highcharts/xaxis/crosshair-dotted/ * Dotted crosshair * @sample {highstock} stock/xaxis/crosshair-dashed/ * Dashed X axis crosshair * * @type {Highcharts.DashStyleValue} * @default Solid * @since 4.1 * @apioption xAxis.crosshair.dashStyle */ /** * A label on the axis next to the crosshair. * * In styled mode, the label is styled with the * `.highcharts-crosshair-label` class. * * @sample {highstock} stock/xaxis/crosshair-label/ * Crosshair labels * @sample {highstock} highcharts/css/crosshair-label/ * Style mode * * @declare Highcharts.AxisCrosshairLabelOptions * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label */ /** * Alignment of the label compared to the axis. Defaults to `"left"` for * right-side axes, `"right"` for left-side axes and `"center"` for * horizontal axes. * * @type {Highcharts.AlignValue} * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.align */ /** * The background color for the label. Defaults to the related series * color, or `#666666` if that is not available. * * @type {Highcharts.ColorType} * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.backgroundColor */ /** * The border color for the crosshair label * * @type {Highcharts.ColorType} * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.borderColor */ /** * The border corner radius of the crosshair label. * * @type {number} * @default 3 * @since 2.1.10 * @product highstock * @apioption xAxis.crosshair.label.borderRadius */ /** * The border width for the crosshair label. * * @type {number} * @default 0 * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.borderWidth */ /** * Flag to enable crosshair's label. * * @sample {highstock} stock/xaxis/crosshairs-xy/ * Enabled label for yAxis' crosshair * * @type {boolean} * @default false * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.enabled */ /** * A format string for the crosshair label. Defaults to `{value}` for * numeric axes and `{value:%b %d, %Y}` for datetime axes. * * @type {string} * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.format */ /** * Formatter function for the label text. * * @type {Highcharts.XAxisCrosshairLabelFormatterCallbackFunction} * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.formatter */ /** * Padding inside the crosshair label. * * @type {number} * @default 8 * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.padding */ /** * The shape to use for the label box. * * @type {string} * @default callout * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.shape */ /** * Text styles for the crosshair label. * * @type {Highcharts.CSSObject} * @default {"color": "white", "fontWeight": "normal", "fontSize": "11px", "textAlign": "center"} * @since 2.1 * @product highstock * @apioption xAxis.crosshair.label.style */ /** * Whether the crosshair should snap to the point or follow the pointer * independent of points. * * @sample {highcharts|highstock} highcharts/xaxis/crosshair-snap-false/ * True by default * @sample {highmaps} maps/demo/latlon-advanced/ * Snap is false * * @type {boolean} * @default true * @since 4.1 * @apioption xAxis.crosshair.snap */ /** * The pixel width of the crosshair. Defaults to 1 for numeric or * datetime axes, and for one category width for category axes. * * @sample {highcharts} highcharts/xaxis/crosshair-customized/ * Customized crosshairs * @sample {highstock} highcharts/xaxis/crosshair-customized/ * Customized crosshairs * @sample {highmaps} highcharts/xaxis/crosshair-customized/ * Customized crosshairs * * @type {number} * @default 1 * @since 4.1 * @apioption xAxis.crosshair.width */ /** * The Z index of the crosshair. Higher Z indices allow drawing the * crosshair on top of the series or behind the grid lines. * * @type {number} * @default 2 * @since 4.1 * @apioption xAxis.crosshair.zIndex */ /** * Whether to pan axis. If `chart.panning` is enabled, the option * allows to disable panning on an individual axis. */ panningEnabled: true, /** * The Z index for the axis group. * * @see [axis.gridZIndex](#xAxis.gridZIndex) * @see [axis.labels.zIndex](#xAxis.labels.zIndex) */ zIndex: 2, /** * Whether to zoom axis. If `chart.zoomType` is set, the option allows * to disable zooming on an individual axis. * * @sample {highcharts} highcharts/xaxis/zoomenabled/ * Zoom enabled is false */ zoomEnabled: true, /** * For a datetime axis, the scale will automatically adjust to the * appropriate unit. This member gives the default string * representations used for each unit. For intermediate values, * different units may be used, for example the `day` unit can be used * on midnight and `hour` unit be used for intermediate values on the * same axis. * * For an overview of the replacement codes, see * [dateFormat](/class-reference/Highcharts.Time#dateFormat). * * Defaults to: * ```js * { * 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' * } * ``` * * @sample {highcharts} highcharts/xaxis/datetimelabelformats/ * Different day format on X axis * @sample {highstock} stock/xaxis/datetimelabelformats/ * More information in x axis labels * * @declare Highcharts.AxisDateTimeLabelFormatsOptions * @product highcharts highstock gantt */ dateTimeLabelFormats: { /** * @declare Highcharts.AxisDateTimeLabelFormatsOptionsObject * @type {string|*} */ millisecond: { /** * @type {Array} * @default undefined * @apioption xAxis.dateTimeLabelFormats.millisecond.list */ /** * @apioption xAxis.dateTimeLabelFormats.millisecond.main */ main: '%H:%M:%S.%L', range: false }, /** * @declare Highcharts.AxisDateTimeLabelFormatsOptionsObject * @type {string|*} */ second: { /** * @type {Array} * @default undefined * @apioption xAxis.dateTimeLabelFormats.second.list */ /** * @apioption xAxis.dateTimeLabelFormats.second.main */ main: '%H:%M:%S', range: false }, /** * @declare Highcharts.AxisDateTimeLabelFormatsOptionsObject * @type {string|*} */ minute: { /** * @type {Array} * @default undefined * @apioption xAxis.dateTimeLabelFormats.minute.list */ /** * @apioption xAxis.dateTimeLabelFormats.minute.main */ main: '%H:%M', range: false }, /** * @declare Highcharts.AxisDateTimeLabelFormatsOptionsObject * @type {string|*} */ hour: { /** * @type {Array} * @default undefined * @apioption xAxis.dateTimeLabelFormats.hour.list */ /** * @apioption xAxis.dateTimeLabelFormats.hour.main */ main: '%H:%M', range: false }, /** * @declare Highcharts.AxisDateTimeLabelFormatsOptionsObject * @type {string|*} */ day: { /** * @type {Array} * @default undefined * @apioption xAxis.dateTimeLabelFormats.day.list */ /** * @apioption xAxis.dateTimeLabelFormats.day.main */ main: '%e %b' }, /** * @declare Highcharts.AxisDateTimeLabelFormatsOptionsObject * @type {string|*} */ week: { /** * @type {Array} * @default undefined * @apioption xAxis.dateTimeLabelFormats.week.list */ /** * @apioption xAxis.dateTimeLabelFormats.week.main */ main: '%e %b' }, /** * @declare Highcharts.AxisDateTimeLabelFormatsOptionsObject * @type {string|*} */ month: { /** * @type {Array} * @default undefined * @apioption xAxis.dateTimeLabelFormats.month.list */ /** * @apioption xAxis.dateTimeLabelFormats.month.main */ main: '%b \'%y' }, /** * @declare Highcharts.AxisDateTimeLabelFormatsOptionsObject * @type {string|*} */ year: { /** * @type {Array} * @default undefined * @apioption xAxis.dateTimeLabelFormats.year.list */ /** * @apioption xAxis.dateTimeLabelFormats.year.main */ main: '%Y' } }, /** * Whether to force the axis to end on a tick. Use this option with * the `maxPadding` option to control the axis end. * * @productdesc {highstock} * In Highcharts Stock, `endOnTick` is always `false` when the navigator * is enabled, to prevent jumpy scrolling. With disabled navigator * enabling `endOnTick` may lead to extending the xAxis to show the last * tick, therefore range selector buttons may not have an active state * if the axis gets extended. * * @sample {highcharts} highcharts/yaxis/endontick/ * True by default * @sample {highcharts} highcharts/yaxis/endontick-false/ * False * @sample {highstock} stock/demo/basic-line/ * True by default * @sample {highstock} stock/xaxis/endontick/ * False * * @since 1.2.0 */ endOnTick: false, /** * Event handlers for the axis. * * @type {*} * @apioption xAxis.events */ /** * An event fired after the breaks have rendered. * * @see [breaks](#xAxis.breaks) * * @sample {highcharts} highcharts/axisbreak/break-event/ * AfterBreak Event * * @type {Highcharts.AxisEventCallbackFunction} * @since 4.1.0 * @product highcharts gantt * @apioption xAxis.events.afterBreaks */ /** * As opposed to the `setExtremes` event, this event fires after the * final min and max values are computed and corrected for `minRange`. * * Fires when the minimum and maximum is set for the axis, either by * calling the `.setExtremes()` method or by selecting an area in the * chart. One parameter, `event`, is passed to the function, containing * common event information. * * The new user set minimum and maximum values can be found by * `event.min` and `event.max`. These reflect the axis minimum and * maximum in axis values. The actual data extremes are found in * `event.dataMin` and `event.dataMax`. * * @type {Highcharts.AxisSetExtremesEventCallbackFunction} * @since 2.3 * @context Highcharts.Axis * @apioption xAxis.events.afterSetExtremes */ /** * An event fired when a break from this axis occurs on a point. * * @see [breaks](#xAxis.breaks) * * @sample {highcharts} highcharts/axisbreak/break-visualized/ * Visualization of a Break * * @type {Highcharts.AxisPointBreakEventCallbackFunction} * @since 4.1.0 * @product highcharts gantt * @context Highcharts.Axis * @apioption xAxis.events.pointBreak */ /** * An event fired when a point falls inside a break from this axis. * * @type {Highcharts.AxisPointBreakEventCallbackFunction} * @product highcharts highstock gantt * @context Highcharts.Axis * @apioption xAxis.events.pointInBreak */ /** * An event fired when a point is outside a break after zoom. * * @type {Highcharts.AxisPointBreakEventCallbackFunction} * @product highcharts highstock gantt * @context Highcharts.Axis * @apioption xAxis.events.pointBreakOut */ /** * Fires when the minimum and maximum is set for the axis, either by * calling the `.setExtremes()` method or by selecting an area in the * chart. One parameter, `event`, is passed to the function, * containing common event information. * * The new user set minimum and maximum values can be found by * `event.min` and `event.max`. These reflect the axis minimum and * maximum in data values. When an axis is zoomed all the way out from * the "Reset zoom" button, `event.min` and `event.max` are null, and * the new extremes are set based on `this.dataMin` and `this.dataMax`. * * @sample {highstock} stock/xaxis/events-setextremes/ * Log new extremes on x axis * * @type {Highcharts.AxisSetExtremesEventCallbackFunction} * @since 1.2.0 * @context Highcharts.Axis * @apioption xAxis.events.setExtremes */ /** * The lowest allowed value for automatically computed axis extremes. * * @see [ceiling](#yAxis.ceiling) * * @sample {highcharts} highcharts/yaxis/floor-ceiling/ * Floor and ceiling * @sample {highstock} stock/demo/lazy-loading/ * Prevent negative stock price on Y axis * * @type {number} * @since 4.0 * @product highcharts highstock gantt * @apioption xAxis.floor */ /** * The dash or dot style of the grid lines. For possible values, see * [this demonstration](https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/plotoptions/series-dashstyle-all/). * * @sample {highcharts} highcharts/yaxis/gridlinedashstyle/ * Long dashes * @sample {highstock} stock/xaxis/gridlinedashstyle/ * Long dashes * * @type {Highcharts.DashStyleValue} * @since 1.2 */ gridLineDashStyle: 'Solid', /** * The Z index of the grid lines. * * @sample {highcharts|highstock} highcharts/xaxis/gridzindex/ * A Z index of 4 renders the grid above the graph * * @product highcharts highstock gantt * * @see [axis.zIndex](#xAxis.zIndex) * @see [axis.labels.zIndex](#xAxis.labels.zIndex) */ gridZIndex: 1, /** * An id for the axis. This can be used after render time to get * a pointer to the axis object through `chart.get()`. * * @sample {highcharts} highcharts/xaxis/id/ * Get the object * @sample {highstock} stock/xaxis/id/ * Get the object * * @type {string} * @since 1.2.0 * @apioption xAxis.id */ /** * The axis labels show the number or category for each tick. * * Since v8.0.0: Labels are animated in categorized x-axis with * updating data if `tickInterval` and `step` is set to 1. * * @productdesc {highmaps} * X and Y axis labels are by default disabled in Highmaps, but the * functionality is inherited from Highcharts and used on `colorAxis`, * and can be enabled on X and Y axes too. */ labels: { /** * What part of the string the given position is anchored to. * If `left`, the left side of the string is at the axis position. * Can be one of `"left"`, `"center"` or `"right"`. Defaults to * an intelligent guess based on which side of the chart the axis * is on and the rotation of the label. * * @see [reserveSpace](#xAxis.labels.reserveSpace) * * @sample {highcharts} highcharts/xaxis/labels-align-left/ * Left * @sample {highcharts} highcharts/xaxis/labels-align-right/ * Right * @sample {highcharts} highcharts/xaxis/labels-reservespace-true/ * Left-aligned labels on a vertical category axis * * @type {Highcharts.AlignValue} * @apioption xAxis.labels.align */ /** * Whether to allow the axis labels to overlap. When false, * overlapping labels are hidden. * * @sample {highcharts} highcharts/xaxis/labels-allowoverlap-true/ * X axis labels overlap enabled * * @type {boolean} * @default false * @apioption xAxis.labels.allowOverlap */ /** * For horizontal axes, the allowed degrees of label rotation * to prevent overlapping labels. If there is enough space, * labels are not rotated. As the chart gets narrower, it * will start rotating the labels -45 degrees, then remove * every second label and try again with rotations 0 and -45 etc. * Set it to `undefined` to disable rotation, which will * cause the labels to word-wrap if possible. Defaults to `[-45]`` * on bottom and top axes, `undefined` on left and right axes. * * @sample {highcharts|highstock} highcharts/xaxis/labels-autorotation-default/ * Default auto rotation of 0 or -45 * @sample {highcharts|highstock} highcharts/xaxis/labels-autorotation-0-90/ * Custom graded auto rotation * * @type {Array} * @default undefined * @since 4.1.0 * @product highcharts highstock gantt * @apioption xAxis.labels.autoRotation */ /** * When each category width is more than this many pixels, we don't * apply auto rotation. Instead, we lay out the axis label with word * wrap. A lower limit makes sense when the label contains multiple * short words that don't extend the available horizontal space for * each label. * * @sample {highcharts} highcharts/xaxis/labels-autorotationlimit/ * Lower limit * * @since 4.1.5 * @product highcharts gantt */ autoRotationLimit: 80, /** * The label's pixel distance from the perimeter of the plot area. * On cartesian charts, this is overridden if the `labels.y` setting * is set. * * @sample {highcharts} highcharts/yaxis/labels-distance/ * Polar chart, labels centered under the arc * * @type {number} * @product highcharts gantt */ distance: 15, /** * Enable or disable the axis labels. * * @sample {highcharts} highcharts/xaxis/labels-enabled/ * X axis labels disabled * @sample {highstock} stock/xaxis/labels-enabled/ * X axis labels disabled * */ enabled: true, /** * A format string for the axis label. The context is available as * format string variables. For example, you can use `{text}` to * insert the default formatted text. The recommended way of adding * units for the label is using `text`, for example `{text} km`. * * To add custom numeric or datetime formatting, use `{value}` with * formatting, for example `{value:.1f}` or `{value:%Y-%m-%d}`. * * See * [format string](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting) * for more examples of formatting. * * The default value is not specified due to the dynamic * nature of the default implementation. * * @sample {highcharts|highstock} highcharts/yaxis/labels-format/ * Add units to Y axis label * @sample {highcharts} highcharts/xaxis/labels-format-linked/ * Linked category names * @sample {highcharts} highcharts/xaxis/labels-format-custom/ * Custom number format * * @type {string} * @since 3.0 * @apioption xAxis.labels.format */ /** * Callback JavaScript function to format the label. The value * is given by `this.value`. Additional properties for `this` are * `axis`, `chart`, `isFirst`, `isLast` and `text` which holds the * value of the default formatter. * * Defaults to a built in function returning a formatted string * depending on whether the axis is `category`, `datetime`, * `numeric` or other. * * @sample {highcharts} highcharts/xaxis/labels-formatter-linked/ * Linked category names * @sample {highcharts} highcharts/xaxis/labels-formatter-extended/ * Modified numeric labels * @sample {highstock} stock/xaxis/labels-formatter/ * Added units on Y axis * * @type {Highcharts.AxisLabelsFormatterCallbackFunction} * @apioption xAxis.labels.formatter */ /** * The number of pixels to indent the labels per level in a treegrid * axis. * * @sample gantt/treegrid-axis/demo * Indentation 10px by default. * @sample gantt/treegrid-axis/indentation-0px * Indentation set to 0px. * * @product gantt */ indentation: 10, /** * Horizontal axis only. When `staggerLines` is not set, * `maxStaggerLines` defines how many lines the axis is allowed to * add to automatically avoid overlapping X labels. Set to `1` to * disable overlap detection. * * @deprecated * @type {number} * @default 5 * @since 1.3.3 * @apioption xAxis.labels.maxStaggerLines */ /** * How to handle overflowing labels on horizontal axis. If set to * `"allow"`, it will not be aligned at all. By default it * `"justify"` labels inside the chart area. If there is room to * move it, it will be aligned to the edge, else it will be removed. * * @since 2.2.5 * @validvalue ["allow", "justify"] */ overflow: 'justify', /** * The pixel padding for axis labels, to ensure white space between * them. * * @product highcharts gantt */ padding: 5, /** * Whether to reserve space for the labels. By default, space is * reserved for the labels in these cases: * * * On all horizontal axes. * * On vertical axes if `label.align` is `right` on a left-side * axis or `left` on a right-side axis. * * On vertical axes if `label.align` is `center`. * * This can be turned off when for example the labels are rendered * inside the plot area instead of outside. * * @see [labels.align](#xAxis.labels.align) * * @sample {highcharts} highcharts/xaxis/labels-reservespace/ * No reserved space, labels inside plot * @sample {highcharts} highcharts/xaxis/labels-reservespace-true/ * Left-aligned labels on a vertical category axis * * @type {boolean} * @since 4.1.10 * @product highcharts highstock gantt * @apioption xAxis.labels.reserveSpace */ reserveSpace: void 0, /** * Rotation of the labels in degrees. When `undefined`, the * `autoRotation` option takes precedence. * * @sample {highcharts} highcharts/xaxis/labels-rotation/ * X axis labels rotated 90° * * @type {number} * @default 0 * @apioption xAxis.labels.rotation */ rotation: void 0, /** * Horizontal axes only. The number of lines to spread the labels * over to make room or tighter labels. 0 disables staggering. * * @sample {highcharts} highcharts/xaxis/labels-staggerlines/ * Show labels over two lines * @sample {highstock} stock/xaxis/labels-staggerlines/ * Show labels over two lines * * @since 2.1 */ staggerLines: 0, /** * To show only every _n_'th label on the axis, set the step to _n_. * Setting the step to 2 shows every other label. * * By default, when 0, the step is calculated automatically to avoid * overlap. To prevent this, set it to 1\. This usually only * happens on a category axis, and is often a sign that you have * chosen the wrong axis type. * * Read more at * [Axis docs](https://www.highcharts.com/docs/chart-concepts/axes) * => What axis should I use? * * @sample {highcharts} highcharts/xaxis/labels-step/ * Showing only every other axis label on a categorized * x-axis * @sample {highcharts} highcharts/xaxis/labels-step-auto/ * Auto steps on a category axis * * @since 2.1 */ step: 0, /** * Whether to [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the labels. */ useHTML: false, /** * The x position offset of all labels relative to the tick * positions on the axis. Overrides the `labels.distance` option. * * @type {number} * @apioption xAxis.labels.x */ /** * The y position offset of all labels relative to the tick * positions on the axis. Overrides the `labels.distance` option. * * @sample {highcharts} highcharts/xaxis/labels-x/ * X axis labels placed on grid lines * * @type {number} * @apioption xAxis.labels.y */ /** * The Z index for the axis labels. * * @see [axis.zIndex](#xAxis.zIndex) * @see [axis.gridZIndex](#xAxis.gridZIndex) */ zIndex: 7, /** * CSS styles for the label. Use `whiteSpace: 'nowrap'` to prevent * wrapping of category labels. Use `textOverflow: 'none'` to * prevent ellipsis (dots). * * In styled mode, the labels are styled with the * `.highcharts-axis-labels` class. * * @sample {highcharts} highcharts/xaxis/labels-style/ * Red X axis labels * * @type {Highcharts.CSSObject} */ style: { /** @internal */ color: "#333333" /* Palette.neutralColor80 */, /** @internal */ cursor: 'default', /** @internal */ fontSize: '0.8em' } }, /** * The left position as the horizontal axis. If it's a number, it is * interpreted as pixel position relative to the chart. * * Since Highcharts v5.0.13: If it's a percentage string, it is * interpreted as percentages of the plot width, offset from plot area * left. * * @sample {highcharts} highcharts/xaxis/axis-position-properties * Different axis position properties * * @type {number|string} * @product highcharts highstock * @apioption xAxis.left */ /** * The top position as the vertical axis. If it's a number, it is * interpreted as pixel position relative to the chart. * * Since Highcharts 2: If it's a percentage string, it is interpreted * as percentages of the plot height, offset from plot area top. * * @sample {highcharts} highcharts/xaxis/axis-position-properties * Different axis position properties * * @type {number|string} * @product highcharts highstock * @apioption xAxis.top */ /** * Index of another axis that this axis is linked to. When an axis is * linked to a master axis, it will take the same extremes as * the master, but as assigned by min or max or by setExtremes. * It can be used to show additional info, or to ease reading the * chart by duplicating the scales. * * @sample {highcharts} highcharts/xaxis/linkedto/ * Different string formats of the same date * @sample {highcharts} highcharts/yaxis/linkedto/ * Y values on both sides * * @type {number} * @since 2.0.2 * @product highcharts highstock gantt * @apioption xAxis.linkedTo */ /** * The maximum value of the axis. If `null`, the max value is * automatically calculated. * * If the [endOnTick](#yAxis.endOnTick) option is true, the `max` value * might be rounded up. * * If a [tickAmount](#yAxis.tickAmount) is set, the axis may be extended * beyond the set max in order to reach the given number of ticks. The * same may happen in a chart with multiple axes, determined by [chart. * alignTicks](#chart), where a `tickAmount` is applied internally. * * @sample {highcharts} highcharts/yaxis/max-200/ * Y axis max of 200 * @sample {highcharts} highcharts/yaxis/max-logarithmic/ * Y axis max on logarithmic axis * @sample {highstock} stock/xaxis/min-max/ * Fixed min and max on X axis * * @type {number|null} * @apioption xAxis.max */ /** * Padding of the max value relative to the length of the axis. A * padding of 0.05 will make a 100px axis 5px longer. This is useful * when you don't want the highest data value to appear on the edge * of the plot area. When the axis' `max` option is set or a max extreme * is set using `axis.setExtremes()`, the maxPadding will be ignored. * * @productdesc {highstock} * For an [ordinal](#xAxis.ordinal) axis, `minPadding` and `maxPadding` * are ignored. Use [overscroll](#xAxis.overscroll) instead. * * @sample {highcharts} highcharts/yaxis/maxpadding/ * Max padding of 0.25 on y axis * @sample {highstock} stock/xaxis/minpadding-maxpadding/ * Greater min- and maxPadding * @sample {highmaps} maps/chart/plotbackgroundcolor-gradient/ * Add some padding * * @default {highcharts} 0.01 * @default {highstock|highmaps} 0 * @since 1.2.0 */ maxPadding: 0.01, /** * Deprecated. Use `minRange` instead. * * @deprecated * @type {number} * @product highcharts highstock * @apioption xAxis.maxZoom */ /** * The minimum value of the axis. If `null` the min value is * automatically calculated. * * If the [startOnTick](#yAxis.startOnTick) option is true (default), * the `min` value might be rounded down. * * The automatically calculated minimum value is also affected by * [floor](#yAxis.floor), [softMin](#yAxis.softMin), * [minPadding](#yAxis.minPadding), [minRange](#yAxis.minRange) * as well as [series.threshold](#plotOptions.series.threshold) * and [series.softThreshold](#plotOptions.series.softThreshold). * * @sample {highcharts} highcharts/yaxis/min-startontick-false/ * -50 with startOnTick to false * @sample {highcharts} highcharts/yaxis/min-startontick-true/ * -50 with startOnTick true by default * @sample {highstock} stock/xaxis/min-max/ * Set min and max on X axis * * @type {number|null} * @apioption xAxis.min */ /** * The dash or dot style of the minor grid lines. For possible values, * see [this demonstration](https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/plotoptions/series-dashstyle-all/). * * @sample {highcharts} highcharts/yaxis/minorgridlinedashstyle/ * Long dashes on minor grid lines * @sample {highstock} stock/xaxis/minorgridlinedashstyle/ * Long dashes on minor grid lines * * @type {Highcharts.DashStyleValue} * @since 1.2 */ minorGridLineDashStyle: 'Solid', /** * Specific tick interval in axis units for the minor ticks. On a linear * axis, if `"auto"`, the minor tick interval is calculated as a fifth * of the tickInterval. If `undefined`, minor ticks are not shown. * * On logarithmic axes, the unit is the power of the value. For example, * setting the minorTickInterval to 1 puts one tick on each of 0.1, 1, * 10, 100 etc. Setting the minorTickInterval to 0.1 produces 9 ticks * between 1 and 10, 10 and 100 etc. * * If user settings dictate minor ticks to become too dense, they don't * make sense, and will be ignored to prevent performance problems. * * @sample {highcharts} highcharts/yaxis/minortickinterval-null/ * Undefined by default * @sample {highcharts} highcharts/yaxis/minortickinterval-5/ 5 units * @sample {highcharts} highcharts/yaxis/minortickinterval-log-auto/ * "auto" * @sample {highcharts} highcharts/yaxis/minortickinterval-log/ 0.1 * @sample {highstock} stock/demo/basic-line/ Null by default * @sample {highstock} stock/xaxis/minortickinterval-auto/ "auto" * * @type {number|'auto'} * @apioption xAxis.minorTickInterval */ /** * The pixel length of the minor tick marks. * * @sample {highcharts} highcharts/yaxis/minorticklength/ * 10px on Y axis * @sample {highstock} stock/xaxis/minorticks/ * 10px on Y axis */ minorTickLength: 2, /** * The position of the minor tick marks relative to the axis line. * Can be one of `inside` and `outside`. * * @sample {highcharts} highcharts/yaxis/minortickposition-outside/ * Outside by default * @sample {highcharts} highcharts/yaxis/minortickposition-inside/ * Inside * @sample {highstock} stock/xaxis/minorticks/ * Inside * * @validvalue ["inside", "outside"] */ minorTickPosition: 'outside', /** * Enable or disable minor ticks. The interval between the minor ticks * can be controlled either by the * [minorTicksPerMajor](#xAxis.minorTicksPerMajor) setting, or as an * absolute [minorTickInterval](#xAxis.minorTickInterval) value. * * On a logarithmic axis, minor ticks are laid out based on a best * guess, attempting to enter an approximate number of minor ticks * between each major tick based on * [minorTicksPerMajor](#xAxis.minorTicksPerMajor). * * Prior to v6.0.0, ticks were enabled in auto layout by setting * `minorTickInterval` to `"auto"`. * * @productdesc {highcharts} On axes using * [categories](#xAxis.categories), minor ticks are not supported. * * @sample {highcharts} highcharts/yaxis/minorticks-true/ Enabled on * linear Y axis * * @type {boolean} * @default false * @since 6.0.0 * @apioption xAxis.minorTicks */ /** * The number of minor ticks per major tick. Works for `linear`, * `logarithmic` and `datetime` axes. * * @sample {highcharts} highcharts/yaxis/minortickspermajor/ * 2 minor ticks per major tick on Y axis * * @since 11.0.0 * * @type {number} */ minorTicksPerMajor: 5, /** * The pixel width of the minor tick mark. * * @sample {highcharts} highcharts/yaxis/minortickwidth/ * 3px width * @sample {highstock} stock/xaxis/minorticks/ * 1px width * * @type {number} * @default 0 * @apioption xAxis.minorTickWidth */ /** * Padding of the min value relative to the length of the axis. A * padding of 0.05 will make a 100px axis 5px longer. This is useful * when you don't want the lowest data value to appear on the edge * of the plot area. When the axis' `min` option is set or a min extreme * is set using `axis.setExtremes()`, the minPadding will be ignored. * * @productdesc {highstock} * For an [ordinal](#xAxis.ordinal) axis, `minPadding` and `maxPadding` * are ignored. Use [overscroll](#xAxis.overscroll) instead. * * @sample {highcharts} highcharts/yaxis/minpadding/ * Min padding of 0.2 * @sample {highstock} stock/xaxis/minpadding-maxpadding/ * Greater min- and maxPadding * @sample {highmaps} maps/chart/plotbackgroundcolor-gradient/ * Add some padding * * @default {highcharts} 0.01 * @default {highstock|highmaps} 0 * @since 1.2.0 * @product highcharts highstock gantt */ minPadding: 0.01, /** * The minimum range to display on this axis. The entire axis will not * be allowed to span over a smaller interval than this. For example, * for a datetime axis the main unit is milliseconds. If minRange is * set to 3600000, you can't zoom in more than to one hour. * * The default minRange for the x axis is five times the smallest * interval between any of the data points. * * On a logarithmic axis, the unit for the minimum range is the power. * So a minRange of 1 means that the axis can be zoomed to 10-100, * 100-1000, 1000-10000 etc. * * **Note**: The `minPadding`, `maxPadding`, `startOnTick` and * `endOnTick` settings also affect how the extremes of the axis * are computed. * * @sample {highcharts} highcharts/xaxis/minrange/ * Minimum range of 5 * @sample {highstock} stock/xaxis/minrange/ * Max zoom of 6 months overrides user selections * * @type {number} * @apioption xAxis.minRange */ /** * The minimum tick interval allowed in axis values. For example on * zooming in on an axis with daily data, this can be used to prevent * the axis from showing hours. Defaults to the closest distance between * two points on the axis. * * @type {number} * @since 2.3.0 * @apioption xAxis.minTickInterval */ /** * The distance in pixels from the plot area to the axis line. * A positive offset moves the axis with it's line, labels and ticks * away from the plot area. This is typically used when two or more * axes are displayed on the same side of the plot. With multiple * axes the offset is dynamically adjusted to avoid collision, this * can be overridden by setting offset explicitly. * * @sample {highcharts} highcharts/yaxis/offset/ * Y axis offset of 70 * @sample {highcharts} highcharts/yaxis/offset-centered/ * Axes positioned in the center of the plot * @sample {highstock} stock/xaxis/offset/ * Y axis offset by 70 px * * @type {number} */ offset: void 0, /** * Whether to display the axis on the opposite side of the normal. The * normal is on the left side for vertical axes and bottom for * horizontal, so the opposite sides will be right and top respectively. * This is typically used with dual or multiple axes. * * @sample {highcharts} highcharts/yaxis/opposite/ * Secondary Y axis opposite * @sample {highstock} stock/xaxis/opposite/ * Y axis on left side * * @default {highcharts|highstock|highmaps} false * @default {gantt} true * @type Boolean * @apioption xAxis.opposite */ /** * In an ordinal axis, the points are equally spaced in the chart * regardless of the actual time or x distance between them. This means * that missing data periods (e.g. nights or weekends for a stock chart) * will not take up space in the chart. * Having `ordinal: false` will show any gaps created by the `gapSize` * setting proportionate to their duration. * * In stock charts the X axis is ordinal by default, unless * the boost module is used and at least one of the series' data length * exceeds the [boostThreshold](#series.line.boostThreshold). * * For an ordinal axis, `minPadding` and `maxPadding` are ignored. Use * [overscroll](#xAxis.overscroll) instead. * * @sample {highstock} stock/xaxis/ordinal-true/ * True by default * @sample {highstock} stock/xaxis/ordinal-false/ * False * * @see [overscroll](#xAxis.overscroll) * * @type {boolean} * @default true * @since 1.1 * @product highstock * @apioption xAxis.ordinal */ /** * Additional range on the right side of the xAxis. Works similar to * `xAxis.maxPadding`, but the value is set in terms of axis values, * percentage or pixels. * * If it's a number, it is interpreted as axis values, which in a * datetime axis equals milliseconds. * * If it's a percentage string, is interpreted as percentages of axis * length. An overscroll of 50% will make a 100px axis 50px longer. * * If it's a pixel string, it is interpreted as a fixed pixel value, but * limited to 90% of the axis length. * * @sample {highstock} stock/xaxis/overscroll/ One minute overscroll * with live data * @sample {highstock} stock/xaxis/overscroll-percent/ Overscroll set in * percentage * @sample {highstock} stock/xaxis/overscroll-pixel/ Overscroll set in * pixels * * @type {number | string} * @default 0 * @since 6.0.0 * @product highstock * @apioption xAxis.overscroll */ /** * Refers to the index in the [panes](#panes) array. Used for circular * gauges and polar charts. When the option is not set then first pane * will be used. * * @sample highcharts/demo/gauge-vu-meter * Two gauges with different center * * @type {number} * @product highcharts * @apioption xAxis.pane */ /** * The zoomed range to display when only defining one or none of `min` * or `max`. For example, to show the latest month, a range of one month * can be set. * * @sample {highstock} stock/xaxis/range/ * Setting a zoomed range when the rangeSelector is disabled * * @type {number} * @product highstock * @apioption xAxis.range */ /** * Whether to reverse the axis so that the highest number is closest * to the origin. If the chart is inverted, the x axis is reversed by * default. * * @sample {highcharts} highcharts/yaxis/reversed/ * Reversed Y axis * @sample {highstock} stock/xaxis/reversed/ * Reversed Y axis * * @type {boolean} * @default undefined * @apioption xAxis.reversed */ reversed: void 0, /** * This option determines how stacks should be ordered within a group. * For example reversed xAxis also reverses stacks, so first series * comes last in a group. To keep order like for non-reversed xAxis * enable this option. * * @sample {highcharts} highcharts/xaxis/reversedstacks/ * Reversed stacks comparison * @sample {highstock} highcharts/xaxis/reversedstacks/ * Reversed stacks comparison * * @since 6.1.1 * @product highcharts highstock */ reversedStacks: false, /** * An optional scrollbar to display on the X axis in response to * limiting the minimum and maximum of the axis values. * * In styled mode, all the presentational options for the scrollbar are * replaced by the classes `.highcharts-scrollbar-thumb`, * `.highcharts-scrollbar-arrow`, `.highcharts-scrollbar-button`, * `.highcharts-scrollbar-rifles` and `.highcharts-scrollbar-track`. * * @sample {highstock} stock/yaxis/heatmap-scrollbars/ * Heatmap with both scrollbars * * @extends scrollbar * @since 4.2.6 * @product highstock * @apioption xAxis.scrollbar */ /** * Whether to show the axis line and title when the axis has no data. * * @sample {highcharts} highcharts/yaxis/showempty/ * When clicking the legend to hide series, one axis preserves * line and title, the other doesn't * @sample {highstock} highcharts/yaxis/showempty/ * When clicking the legend to hide series, one axis preserves * line and title, the other doesn't * * @since 1.1 */ showEmpty: true, /** * Whether to show the first tick label. * * @sample {highcharts} highcharts/xaxis/showfirstlabel-false/ * Set to false on X axis * @sample {highstock} stock/xaxis/showfirstlabel/ * Labels below plot lines on Y axis */ showFirstLabel: true, /** * Whether to show the last tick label. Defaults to `true` on cartesian * charts, and `false` on polar charts. * * @sample {highcharts} highcharts/xaxis/showlastlabel-true/ * Set to true on X axis * @sample {highstock} stock/xaxis/showfirstlabel/ * Labels below plot lines on Y axis * * @type {boolean} * @default undefined * @product highcharts highstock gantt */ showLastLabel: true, /** * A soft maximum for the axis. If the series data maximum is less than * this, the axis will stay at this maximum, but if the series data * maximum is higher, the axis will flex to show all data. * * @sample highcharts/yaxis/softmin-softmax/ * Soft min and max * * @type {number} * @since 5.0.1 * @product highcharts highstock gantt * @apioption xAxis.softMax */ /** * A soft minimum for the axis. If the series data minimum is greater * than this, the axis will stay at this minimum, but if the series * data minimum is lower, the axis will flex to show all data. * * @sample highcharts/yaxis/softmin-softmax/ * Soft min and max * * @type {number} * @since 5.0.1 * @product highcharts highstock gantt * @apioption xAxis.softMin */ /** * For datetime axes, this decides where to put the tick between weeks. * 0 = Sunday, 1 = Monday. * * @sample {highcharts} highcharts/xaxis/startofweek-monday/ * Monday by default * @sample {highcharts} highcharts/xaxis/startofweek-sunday/ * Sunday * @sample {highstock} stock/xaxis/startofweek-1 * Monday by default * @sample {highstock} stock/xaxis/startofweek-0 * Sunday * * @product highcharts highstock gantt */ startOfWeek: 1, /** * Whether to force the axis to start on a tick. Use this option with * the `minPadding` option to control the axis start. * * @productdesc {highstock} * In Highcharts Stock, `startOnTick` is always `false` when * the navigator is enabled, to prevent jumpy scrolling. * * @sample {highcharts} highcharts/xaxis/startontick-false/ * False by default * @sample {highcharts} highcharts/xaxis/startontick-true/ * True * * @since 1.2.0 */ startOnTick: false, /** * The amount of ticks to draw on the axis. This opens up for aligning * the ticks of multiple charts or panes within a chart. This option * overrides the `tickPixelInterval` option. * * This option only has an effect on linear axes. Datetime, logarithmic * or category axes are not affected. * * @sample {highcharts} highcharts/yaxis/tickamount/ * 8 ticks on Y axis * @sample {highstock} highcharts/yaxis/tickamount/ * 8 ticks on Y axis * * @type {number} * @since 4.1.0 * @product highcharts highstock gantt * @apioption xAxis.tickAmount */ /** * The interval of the tick marks in axis units. When `undefined`, the * tick interval is computed to approximately follow the * [tickPixelInterval](#xAxis.tickPixelInterval) on linear and datetime * axes. On categorized axes, a `undefined` tickInterval will default to * 1, one category. Note that datetime axes are based on milliseconds, * so for example an interval of one day is expressed as * `24 * 3600 * 1000`. * * On logarithmic axes, the tickInterval is based on powers, so a * tickInterval of 1 means one tick on each of 0.1, 1, 10, 100 etc. A * tickInterval of 2 means a tick of 0.1, 10, 1000 etc. A tickInterval * of 0.2 puts a tick on 0.1, 0.2, 0.4, 0.6, 0.8, 1, 2, 4, 6, 8, 10, 20, * 40 etc. * * * If the tickInterval is too dense for labels to be drawn, Highcharts * may remove ticks. * * If the chart has multiple axes, the [alignTicks](#chart.alignTicks) * option may interfere with the `tickInterval` setting. * * @see [tickPixelInterval](#xAxis.tickPixelInterval) * @see [tickPositions](#xAxis.tickPositions) * @see [tickPositioner](#xAxis.tickPositioner) * * @sample {highcharts} highcharts/xaxis/tickinterval-5/ * Tick interval of 5 on a linear axis * @sample {highstock} stock/xaxis/tickinterval/ * Tick interval of 0.01 on Y axis * * @type {number} * @apioption xAxis.tickInterval */ /** * The pixel length of the main tick marks. * * @sample {highcharts} highcharts/xaxis/ticklength/ * 20 px tick length on the X axis * @sample {highstock} stock/xaxis/ticks/ * Formatted ticks on X axis */ tickLength: 10, /** * If tickInterval is `null` this option sets the approximate pixel * interval of the tick marks. Not applicable to categorized axis. * * The tick interval is also influenced by the [minTickInterval]( * #xAxis.minTickInterval) option, that, by default prevents ticks from * being denser than the data points. * * @see [tickInterval](#xAxis.tickInterval) * @see [tickPositioner](#xAxis.tickPositioner) * @see [tickPositions](#xAxis.tickPositions) * * @sample {highcharts} highcharts/xaxis/tickpixelinterval-50/ * 50 px on X axis * @sample {highstock} stock/xaxis/tickpixelinterval/ * 200 px on X axis */ tickPixelInterval: 100, /** * For categorized axes only. If `on` the tick mark is placed in the * center of the category, if `between` the tick mark is placed between * categories. The default is `between` if the `tickInterval` is 1, else * `on`. In order to render tick marks on a category axis it is necessary * to provide a [tickWidth](#xAxis.tickWidth). * * @sample {highcharts} highcharts/xaxis/tickmarkplacement-between/ * "between" by default * @sample {highcharts} highcharts/xaxis/tickmarkplacement-on/ * "on" * * @product highcharts gantt * @validvalue ["on", "between"] */ tickmarkPlacement: 'between', /** * The position of the major tick marks relative to the axis line. * Can be one of `inside` and `outside`. * * @sample {highcharts} highcharts/xaxis/tickposition-outside/ * "outside" by default * @sample {highcharts} highcharts/xaxis/tickposition-inside/ * "inside" * @sample {highstock} stock/xaxis/ticks/ * Formatted ticks on X axis * * @validvalue ["inside", "outside"] */ tickPosition: 'outside', /** * A callback function returning array defining where the ticks are * laid out on the axis. This overrides the default behaviour of * [tickPixelInterval](#xAxis.tickPixelInterval) and [tickInterval]( * #xAxis.tickInterval). The automatic tick positions are accessible * through `this.tickPositions` and can be modified by the callback. * * @see [tickPositions](#xAxis.tickPositions) * * @sample {highcharts} highcharts/xaxis/tickpositions-tickpositioner/ * Demo of tickPositions and tickPositioner * @sample {highstock} highcharts/xaxis/tickpositions-tickpositioner/ * Demo of tickPositions and tickPositioner * * @type {Highcharts.AxisTickPositionerCallbackFunction} * @apioption xAxis.tickPositioner */ /** * An array defining where the ticks are laid out on the axis. This * overrides the default behaviour of [tickPixelInterval]( * #xAxis.tickPixelInterval) and [tickInterval](#xAxis.tickInterval). * * @see [tickPositioner](#xAxis.tickPositioner) * * @sample {highcharts} highcharts/xaxis/tickpositions-tickpositioner/ * Demo of tickPositions and tickPositioner * @sample {highstock} highcharts/xaxis/tickpositions-tickpositioner/ * Demo of tickPositions and tickPositioner * * @type {Array} * @apioption xAxis.tickPositions */ /** * The pixel width of the major tick marks. Defaults to 0 on category * axes, otherwise 1. * * In styled mode, the stroke width is given in the `.highcharts-tick` * class, but in order for the element to be generated on category axes, * the option must be explicitly set to 1. * * @sample {highcharts} highcharts/xaxis/tickwidth/ * 10 px width * @sample {highcharts} highcharts/css/axis-grid/ * Styled mode * @sample {highstock} stock/xaxis/ticks/ * Formatted ticks on X axis * @sample {highstock} highcharts/css/axis-grid/ * Styled mode * * @type {undefined|number} * @default {highstock} 1 * @default {highmaps} 0 * @apioption xAxis.tickWidth */ /** * The axis title, showing next to the axis line. * * @productdesc {highmaps} * In Highmaps, the axis is hidden by default, but adding an axis title * is still possible. X axis and Y axis titles will appear at the bottom * and left by default. */ title: { /** * Alignment of the title relative to the axis values. Possible * values are "low", "middle" or "high". * * @sample {highcharts} highcharts/xaxis/title-align-low/ * "low" * @sample {highcharts} highcharts/xaxis/title-align-center/ * "middle" by default * @sample {highcharts} highcharts/xaxis/title-align-high/ * "high" * @sample {highcharts} highcharts/yaxis/title-offset/ * Place the Y axis title on top of the axis * @sample {highstock} stock/xaxis/title-align/ * Aligned to "high" value * * @type {Highcharts.AxisTitleAlignValue} */ align: 'middle', /** * Deprecated. Set the `text` to `undefined` to disable the title. * * @deprecated * @type {boolean} * @product highcharts * @apioption xAxis.title.enabled */ /** * The pixel distance between the axis labels or line and the title. * Defaults to 0 for horizontal axes, 10 for vertical * * @sample {highcharts} highcharts/xaxis/title-margin/ * Y axis title margin of 60 * * @type {number} * @apioption xAxis.title.margin */ /** * The distance of the axis title from the axis line. By default, * this distance is computed from the offset width of the labels, * the labels' distance from the axis and the title's margin. * However when the offset option is set, it overrides all this. * * @sample {highcharts} highcharts/yaxis/title-offset/ * Place the axis title on top of the axis * @sample {highstock} highcharts/yaxis/title-offset/ * Place the axis title on top of the Y axis * * @type {number} * @since 2.2.0 * @apioption xAxis.title.offset */ /** * Whether to reserve space for the title when laying out the axis. * * @type {boolean} * @default true * @since 5.0.11 * @product highcharts highstock gantt * @apioption xAxis.title.reserveSpace */ /** * The rotation of the text in degrees. 0 is horizontal, 270 is * vertical reading from bottom to top. Defaults to 0 for horizontal * axes, 270 for left-side axes and 90 for right-side axes. * * @sample {highcharts} highcharts/yaxis/title-offset/ * Horizontal * * @type {number} * @default undefined * @apioption xAxis.title.rotation */ /** * The actual text of the axis title. It can contain basic HTML tags * like `b`, `i` and `span` with style. * * @sample {highcharts} highcharts/xaxis/title-text/ * Custom HTML * @sample {highstock} stock/xaxis/title-text/ * Titles for both axes * * @type {string|null} * @apioption xAxis.title.text */ /** * Alignment of the text, can be `"left"`, `"right"` or `"center"`. * Default alignment depends on the * [title.align](xAxis.title.align): * * Horizontal axes: * - for `align` = `"low"`, `textAlign` is set to `left` * - for `align` = `"middle"`, `textAlign` is set to `center` * - for `align` = `"high"`, `textAlign` is set to `right` * * Vertical axes: * - for `align` = `"low"` and `opposite` = `true`, `textAlign` is * set to `right` * - for `align` = `"low"` and `opposite` = `false`, `textAlign` is * set to `left` * - for `align` = `"middle"`, `textAlign` is set to `center` * - for `align` = `"high"` and `opposite` = `true` `textAlign` is * set to `left` * - for `align` = `"high"` and `opposite` = `false` `textAlign` is * set to `right` * * @type {Highcharts.AlignValue} * @apioption xAxis.title.textAlign */ /** * Whether to [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the axis title. * * @product highcharts highstock gantt */ useHTML: false, /** * Horizontal pixel offset of the title position. * * @since 4.1.6 * @product highcharts highstock gantt */ x: 0, /** * Vertical pixel offset of the title position. * * @product highcharts highstock gantt */ y: 0, /** * CSS styles for the title. If the title text is longer than the * axis length, it will wrap to multiple lines by default. This can * be customized by setting `textOverflow: 'ellipsis'`, by * setting a specific `width` or by setting `whiteSpace: 'nowrap'`. * * In styled mode, the stroke width is given in the * `.highcharts-axis-title` class. * * @sample {highcharts} highcharts/xaxis/title-style/ * Red * @sample {highcharts} highcharts/css/axis/ * Styled mode * * @type {Highcharts.CSSObject} */ style: { /** @internal */ color: "#666666" /* Palette.neutralColor60 */, /** @internal */ fontSize: '0.8em' } }, /** * The type of axis. Can be one of `linear`, `logarithmic`, `datetime` * or `category`. In a datetime axis, the numbers are given in * milliseconds, and tick marks are placed on appropriate values like * full hours or days. In a category axis, the * [point names](#series.line.data.name) of the chart's series are used * for categories, if not a [categories](#xAxis.categories) array is * defined. * * @sample {highcharts} highcharts/xaxis/type-linear/ * Linear * @sample {highcharts} highcharts/yaxis/type-log/ * Logarithmic * @sample {highcharts} highcharts/yaxis/type-log-minorgrid/ * Logarithmic with minor grid lines * @sample {highcharts} highcharts/xaxis/type-log-both/ * Logarithmic on two axes * @sample {highcharts} highcharts/yaxis/type-log-negative/ * Logarithmic with extension to emulate negative values * * @type {Highcharts.AxisTypeValue} * @product highcharts gantt */ type: 'linear', /** * If there are multiple axes on the same side of the chart, the pixel * margin between the axes. Defaults to 0 on vertical axes, 15 on * horizontal axes. * * @type {number} * @since 7.0.3 * @apioption xAxis.margin */ /** * Applies only when the axis `type` is `category`. When `uniqueNames` * is true, points are placed on the X axis according to their names. * If the same point name is repeated in the same or another series, * the point is placed on the same X position as other points of the * same name. When `uniqueNames` is false, the points are laid out in * increasing X positions regardless of their names, and the X axis * category will take the name of the last point in each position. * * @sample {highcharts} highcharts/xaxis/uniquenames-true/ * True by default * @sample {highcharts} highcharts/xaxis/uniquenames-false/ * False * * @since 4.2.7 * @product highcharts gantt */ uniqueNames: true, /** * Datetime axis only. An array determining what time intervals the * ticks are allowed to fall on. Each array item is an array where the * first value is the time unit and the second value another array of * allowed multiples. * * Defaults to: * ```js * units: [[ * '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 * ]] * ``` * * @sample {highcharts} highcharts/xaxis/units/ * Axis units demonstrated * * @type {Array|null)>>} * @product highcharts highstock gantt * @apioption xAxis.units */ /** * Whether axis, including axis title, line, ticks and labels, should * be visible. * * @since 4.1.9 * @product highcharts highstock gantt */ visible: true, /** * Color of the minor, secondary grid lines. * * In styled mode, the stroke width is given in the * `.highcharts-minor-grid-line` class. * * @sample {highcharts} highcharts/yaxis/minorgridlinecolor/ * Bright grey lines from Y axis * @sample {highcharts|highstock} highcharts/css/axis-grid/ * Styled mode * @sample {highstock} stock/xaxis/minorgridlinecolor/ * Bright grey lines from Y axis * * @type {Highcharts.ColorType} * @default #f2f2f2 */ minorGridLineColor: "#f2f2f2" /* Palette.neutralColor5 */, /** * Width of the minor, secondary grid lines. * * In styled mode, the stroke width is given in the * `.highcharts-grid-line` class. * * @sample {highcharts} highcharts/yaxis/minorgridlinewidth/ * 2px lines from Y axis * @sample {highcharts|highstock} highcharts/css/axis-grid/ * Styled mode * @sample {highstock} stock/xaxis/minorgridlinewidth/ * 2px lines from Y axis */ minorGridLineWidth: 1, /** * Color for the minor tick marks. * * @sample {highcharts} highcharts/yaxis/minortickcolor/ * Black tick marks on Y axis * @sample {highstock} stock/xaxis/minorticks/ * Black tick marks on Y axis * * @type {Highcharts.ColorType} * @default #999999 */ minorTickColor: "#999999" /* Palette.neutralColor40 */, /** * The color of the line marking the axis itself. * * In styled mode, the line stroke is given in the * `.highcharts-axis-line` or `.highcharts-xaxis-line` class. * * @sample {highcharts} highcharts/yaxis/linecolor/ * A red line on Y axis * @sample {highcharts|highstock} highcharts/css/axis/ * Axes in styled mode * @sample {highstock} stock/xaxis/linecolor/ * A red line on X axis * * @type {Highcharts.ColorType} */ lineColor: "#333333" /* Palette.neutralColor80 */, /** * The width of the line marking the axis itself. * * In styled mode, the stroke width is given in the * `.highcharts-axis-line` or `.highcharts-xaxis-line` class. * * @sample {highcharts} highcharts/yaxis/linecolor/ * A 1px line on Y axis * @sample {highcharts|highstock} highcharts/css/axis/ * Axes in styled mode * @sample {highstock} stock/xaxis/linewidth/ * A 2px line on X axis * * @default {highcharts|highstock} 1 * @default {highmaps} 0 */ lineWidth: 1, /** * Color of the grid lines extending the ticks across the plot area. * * In styled mode, the stroke is given in the `.highcharts-grid-line` * class. * * @productdesc {highmaps} * In Highmaps, the grid lines are hidden by default. * * @sample {highcharts} highcharts/yaxis/gridlinecolor/ * Green lines * @sample {highcharts|highstock} highcharts/css/axis-grid/ * Styled mode * @sample {highstock} stock/xaxis/gridlinecolor/ * Green lines * * @type {Highcharts.ColorType} * @default #e6e6e6 */ gridLineColor: "#e6e6e6" /* Palette.neutralColor10 */, /** * The width of the grid lines extending the ticks across the plot area. * Defaults to 1 on the Y axis and 0 on the X axis, except for 3d * charts. * * In styled mode, the stroke width is given in the * `.highcharts-grid-line` class. * * @sample {highcharts} highcharts/yaxis/gridlinewidth/ * 2px lines * @sample {highcharts|highstock} highcharts/css/axis-grid/ * Styled mode * @sample {highstock} stock/xaxis/gridlinewidth/ * 2px lines * * @type {number} * @apioption xAxis.gridLineWidth */ gridLineWidth: void 0, /** * The height as the vertical axis. If it's a number, it is * interpreted as pixels. * * Since Highcharts 2: If it's a percentage string, it is interpreted * as percentages of the total plot height. * * @sample {highcharts} highcharts/xaxis/axis-position-properties * Different axis position properties * * @type {number|string} * @product highcharts highstock * @apioption xAxis.height */ /** * The width as the horizontal axis. If it's a number, it is interpreted * as pixels. * * Since Highcharts v5.0.13: If it's a percentage string, it is * interpreted as percentages of the total plot width. * * @sample {highcharts} highcharts/xaxis/axis-position-properties * Different axis position properties * * @type {number|string} * @product highcharts highstock * @apioption xAxis.width */ /** * Color for the main tick marks. * * In styled mode, the stroke is given in the `.highcharts-tick` * class. * * @sample {highcharts} highcharts/xaxis/tickcolor/ * Red ticks on X axis * @sample {highcharts|highstock} highcharts/css/axis-grid/ * Styled mode * @sample {highstock} stock/xaxis/ticks/ * Formatted ticks on X axis * * @type {Highcharts.ColorType} */ tickColor: "#333333" /* Palette.neutralColor80 */ // `tickWidth: 1` }; /** * The Z axis or depth axis for 3D plots. * * See the [Axis class](/class-reference/Highcharts.Axis) for programmatic * access to the axis. * * @sample {highcharts} highcharts/3d/scatter-zaxis-categories/ * Z-Axis with Categories * @sample {highcharts} highcharts/3d/scatter-zaxis-grid/ * Z-Axis with styling * * @type {*|Array<*>} * @extends xAxis * @since 5.0.0 * @product highcharts * @excluding breaks, crosshair, height, left, lineColor, lineWidth, * nameToX, showEmpty, top, width * @apioption zAxis */ /** * The Y axis or value axis. Normally this is the vertical axis, * though if the chart is inverted this is the horizontal axis. * In case of multiple axes, the yAxis node is an array of * configuration objects. * * See [the Axis object](/class-reference/Highcharts.Axis) for programmatic * access to the axis. * * @type {*|Array<*>} * @extends xAxis * @excluding currentDateIndicator,ordinal,overscroll * @optionparent yAxis */ AxisDefaults.yAxis = { /** * The type of axis. Can be one of `linear`, `logarithmic`, `datetime`, * `category` or `treegrid`. Defaults to `treegrid` for Gantt charts, * `linear` for other chart types. * * In a datetime axis, the numbers are given in milliseconds, and tick * marks are placed on appropriate values, like full hours or days. In a * category or treegrid axis, the [point names](#series.line.data.name) * of the chart's series are used for categories, if a * [categories](#xAxis.categories) array is not defined. * * @sample {highcharts} highcharts/yaxis/type-log-minorgrid/ * Logarithmic with minor grid lines * @sample {highcharts} highcharts/yaxis/type-log-negative/ * Logarithmic with extension to emulate negative values * @sample {gantt} gantt/treegrid-axis/demo * Treegrid axis * * @type {Highcharts.AxisTypeValue} * @default {highcharts} linear * @default {gantt} treegrid * @product highcharts gantt * @apioption yAxis.type */ /** * The height of the Y axis. If it's a number, it is interpreted as * pixels. * * Since Highcharts 2: If it's a percentage string, it is interpreted as * percentages of the total plot height. * * @see [yAxis.top](#yAxis.top) * * @sample {highstock} stock/demo/candlestick-and-volume/ * Percentage height panes * * @type {number|string} * @product highcharts highstock * @apioption yAxis.height */ /** * Solid gauge only. Unless [stops](#yAxis.stops) are set, the color * to represent the maximum value of the Y axis. * * @sample {highcharts} highcharts/yaxis/mincolor-maxcolor/ * Min and max colors * * @type {Highcharts.ColorType} * @default #003399 * @since 4.0 * @product highcharts * @apioption yAxis.maxColor */ /** * Solid gauge only. Unless [stops](#yAxis.stops) are set, the color * to represent the minimum value of the Y axis. * * @sample {highcharts} highcharts/yaxis/mincolor-maxcolor/ * Min and max color * * @type {Highcharts.ColorType} * @default #e6ebf5 * @since 4.0 * @product highcharts * @apioption yAxis.minColor */ /** * Whether to reverse the axis so that the highest number is closest * to the origin. * * @sample {highcharts} highcharts/yaxis/reversed/ * Reversed Y axis * @sample {highstock} stock/xaxis/reversed/ * Reversed Y axis * * @type {boolean} * @default {highcharts} false * @default {highstock} false * @default {highmaps} true * @default {gantt} true * @apioption yAxis.reversed */ /** * If `true`, the first series in a stack will be drawn on top in a * positive, non-reversed Y axis. If `false`, the first series is in * the base of the stack. * * @sample {highcharts} highcharts/yaxis/reversedstacks-false/ * Non-reversed stacks * @sample {highstock} highcharts/yaxis/reversedstacks-false/ * Non-reversed stacks * * @type {boolean} * @default true * @since 3.0.10 * @product highcharts highstock * @apioption yAxis.reversedStacks */ reversedStacks: true, /** * Solid gauge series only. Color stops for the solid gauge. Use this * in cases where a linear gradient between a `minColor` and `maxColor` * is not sufficient. The stops is an array of tuples, where the first * item is a float between 0 and 1 assigning the relative position in * the gradient, and the second item is the color. * * For solid gauges, the Y axis also inherits the concept of * [data classes](https://api.highcharts.com/highmaps#colorAxis.dataClasses) * from the Highmaps color axis. * * @sample {highcharts} highcharts/demo/gauge-solid/ * Gauge with stops * * @see [minColor](#yAxis.minColor) * @see [maxColor](#yAxis.maxColor) * * @type {Array>} * @since 4.0 * @product highcharts * @apioption yAxis.stops */ /** * The pixel width of the major tick marks. * * @sample {highcharts} highcharts/xaxis/tickwidth/ 10 px width * @sample {highstock} stock/xaxis/ticks/ Formatted ticks on X axis * * @type {number} * @default 0 * @product highcharts highstock gantt * @apioption yAxis.tickWidth */ /** * Whether to force the axis to end on a tick. Use this option with * the `maxPadding` option to control the axis end. * * This option is always disabled, when panning type is * either `y` or `xy`. * * @see [type](#chart.panning.type) * * * @sample {highcharts} highcharts/yaxis/endontick/ * True by default * @sample {highcharts} highcharts/yaxis/endontick-false/ * False * @sample {highstock} stock/demo/basic-line/ * True by default * @sample {highstock} stock/xaxis/endontick/ * False for Y axis * * @since 1.2.0 */ endOnTick: true, /** * Padding of the max value relative to the length of the axis. A * padding of 0.05 will make a 100px axis 5px longer. This is useful * when you don't want the highest data value to appear on the edge * of the plot area. When the axis' `max` option is set or a max extreme * is set using `axis.setExtremes()`, the maxPadding will be ignored. * * Also the `softThreshold` option takes precedence over `maxPadding`, * so if the data is tangent to the threshold, `maxPadding` may not * apply unless `softThreshold` is set to false. * * @sample {highcharts} highcharts/yaxis/maxpadding-02/ * Max padding of 0.2 * @sample {highstock} stock/xaxis/minpadding-maxpadding/ * Greater min- and maxPadding * * @since 1.2.0 * @product highcharts highstock gantt */ maxPadding: 0.05, /** * Padding of the min value relative to the length of the axis. A * padding of 0.05 will make a 100px axis 5px longer. This is useful * when you don't want the lowest data value to appear on the edge * of the plot area. When the axis' `min` option is set or a max extreme * is set using `axis.setExtremes()`, the maxPadding will be ignored. * * Also the `softThreshold` option takes precedence over `minPadding`, * so if the data is tangent to the threshold, `minPadding` may not * apply unless `softThreshold` is set to false. * * @sample {highcharts} highcharts/yaxis/minpadding/ * Min padding of 0.2 * @sample {highstock} stock/xaxis/minpadding-maxpadding/ * Greater min- and maxPadding * * @since 1.2.0 * @product highcharts highstock gantt */ minPadding: 0.05, /** * @productdesc {highstock} * In Highcharts Stock 1.x, the Y axis was placed * on the left side by default. * * @sample {highcharts} highcharts/yaxis/opposite/ * Secondary Y axis opposite * @sample {highstock} stock/xaxis/opposite/ * Y axis on left side * * @type {boolean} * @default {highstock} true * @default {highcharts} false * @product highstock highcharts gantt * @apioption yAxis.opposite */ /** * @see [tickInterval](#xAxis.tickInterval) * @see [tickPositioner](#xAxis.tickPositioner) * @see [tickPositions](#xAxis.tickPositions) */ tickPixelInterval: 72, /** * Whether to show the last tick label. * * @productdesc {highcharts|gantt} * Defaults to `true` on cartesian charts, and `false` on polar charts. * * @productdesc {highstock} * Defaults to `true` for categorized yAxis and `false` for other types * of yAxis. * * @default undefined */ showLastLabel: true, /** * @extends xAxis.labels */ labels: { /** * The label's pixel distance from the perimeter of the plot area. * On cartesian charts, this is overridden if the `labels.y` setting * is set. * * On polar charts, if it's a percentage string, it is interpreted * the same as [series.radius](#plotOptions.gauge.radius), so the * label can be aligned under the gauge's shape. * * @sample {highcharts} highcharts/yaxis/labels-distance/ * Polar chart, labels centered under the arc * * @type {number|string} * @product highcharts * @apioption yAxis.labels.distance */ /** * The y position offset of all labels relative to the tick * positions on the axis. For polar and radial axis consider the use * of the [distance](#yAxis.labels.distance) option. * * @sample {highcharts} highcharts/xaxis/labels-x/ * Y axis labels placed on grid lines * * @type {number} * @default {highcharts} 3 * @default {highstock} -2 * @default {highmaps} 3 * @apioption yAxis.labels.y */ /** * What part of the string the given position is anchored to. Can * be one of `"left"`, `"center"` or `"right"`. The exact position * also depends on the `labels.x` setting. * * Angular gauges and solid gauges defaults to `"center"`. * Solid gauges with two labels have additional option `"auto"` * for automatic horizontal and vertical alignment. * * @sample {highcharts} highcharts/yaxis/labels-align-left/ * Left * @sample {highcharts} highcharts/series-solidgauge/labels-auto-aligned/ * Solid gauge labels auto aligned * * @type {Highcharts.AlignValue} * @default {highstock} right * @apioption yAxis.labels.align */ /** * The x position offset of all labels relative to the tick * positions on the axis. Defaults to -15 for left axis, 15 for * right axis. * * @sample {highcharts} highcharts/xaxis/labels-x/ * Y axis labels placed on grid lines * * @type {number} */ x: void 0 }, /** * @sample {highcharts} highcharts/yaxis/max-200/ * Y axis max of 200 * @sample {highcharts} highcharts/yaxis/max-logarithmic/ * Y axis max on logarithmic axis * @sample {highstock} stock/yaxis/min-max/ * Fixed min and max on Y axis * * @apioption yAxis.max */ /** * @sample {highcharts} highcharts/yaxis/min-startontick-false/ * -50 with startOnTick to false * @sample {highcharts} highcharts/yaxis/min-startontick-true/ * -50 with startOnTick true by default * @sample {highstock} stock/yaxis/min-max/ * Fixed min and max on Y axis * * @apioption yAxis.min */ /** * An optional scrollbar to display on the Y axis in response to * limiting the minimum an maximum of the axis values. * * In styled mode, all the presentational options for the scrollbar * are replaced by the classes `.highcharts-scrollbar-thumb`, * `.highcharts-scrollbar-arrow`, `.highcharts-scrollbar-button`, * `.highcharts-scrollbar-rifles` and `.highcharts-scrollbar-track`. * * @sample {highstock} stock/yaxis/scrollbar/ * Scrollbar on the Y axis * * @extends scrollbar * @since 4.2.6 * @product highstock * @excluding height * @apioption yAxis.scrollbar */ /** * Enable the scrollbar on the Y axis. * * @sample {highstock} stock/yaxis/scrollbar/ * Enabled on Y axis * * @type {boolean} * @default false * @since 4.2.6 * @product highstock * @apioption yAxis.scrollbar.enabled */ /** * Pixel margin between the scrollbar and the axis elements. * * @type {number} * @default 10 * @since 4.2.6 * @product highstock * @apioption yAxis.scrollbar.margin */ /* eslint-disable highcharts/doclet-apioption-last */ /** * Defines the position of the scrollbar. By default, it is positioned * on the opposite of the main axis (right side of the chart). * However, in the case of RTL languages could be set to `false` * which positions the scrollbar on the left. * * Works only for vertical axes. * This means yAxis in a non-inverted chart and xAxis in the inverted. * * @sample stock/yaxis/scrollbar-opposite/ * A scrollbar not on the opposite side * * @type {boolean} * @default true * @since 9.3.0 * * @apioption yAxis.scrollbar.opposite * @apioption xAxis.scrollbar.opposite * */ /* eslint-enable highcharts/doclet-apioption-last */ /** * Whether to show the scrollbar when it is fully zoomed out at max * range. Setting it to `false` on the Y axis makes the scrollbar stay * hidden until the user zooms in, like common in browsers. * * @type {boolean} * @default true * @since 4.2.6 * @product highstock * @apioption yAxis.scrollbar.showFull */ /** * The width of a vertical scrollbar or height of a horizontal * scrollbar. Defaults to 20 on touch devices. * * @type {number} * @default 14 * @since 4.2.6 * @product highstock * @apioption yAxis.scrollbar.size */ /** * Z index of the scrollbar elements. * * @type {number} * @default 3 * @since 4.2.6 * @product highstock * @apioption yAxis.scrollbar.zIndex */ /** * A soft maximum for the axis. If the series data maximum is less * than this, the axis will stay at this maximum, but if the series * data maximum is higher, the axis will flex to show all data. * * **Note**: The [series.softThreshold]( * #plotOptions.series.softThreshold) option takes precedence over this * option. * * @sample highcharts/yaxis/softmin-softmax/ * Soft min and max * * @type {number} * @since 5.0.1 * @product highcharts highstock gantt * @apioption yAxis.softMax */ /** * A soft minimum for the axis. If the series data minimum is greater * than this, the axis will stay at this minimum, but if the series * data minimum is lower, the axis will flex to show all data. * * **Note**: The [series.softThreshold]( * #plotOptions.series.softThreshold) option takes precedence over this * option. * * @sample highcharts/yaxis/softmin-softmax/ * Soft min and max * * @type {number} * @since 5.0.1 * @product highcharts highstock gantt * @apioption yAxis.softMin */ /** * Defines the horizontal alignment of the stack total label. Can be one * of `"left"`, `"center"` or `"right"`. The default value is calculated * at runtime and depends on orientation and whether the stack is * positive or negative. * * @sample {highcharts} highcharts/yaxis/stacklabels-align-left/ * Aligned to the left * @sample {highcharts} highcharts/yaxis/stacklabels-align-center/ * Aligned in center * @sample {highcharts} highcharts/yaxis/stacklabels-align-right/ * Aligned to the right * * @type {Highcharts.AlignValue} * @since 2.1.5 * @product highcharts * @apioption yAxis.stackLabels.align */ /** * A format string for the data label. Available variables are the same * as for `formatter`. * * @type {string} * @default {total} * @since 3.0.2 * @product highcharts highstock * @apioption yAxis.stackLabels.format */ /** * Rotation of the labels in degrees. * * @sample {highcharts} highcharts/yaxis/stacklabels-rotation/ * Labels rotated 45° * * @type {number} * @default 0 * @since 2.1.5 * @product highcharts * @apioption yAxis.stackLabels.rotation */ /** * The text alignment for the label. While `align` determines where the * texts anchor point is placed with regards to the stack, `textAlign` * determines how the text is aligned against its anchor point. Possible * values are `"left"`, `"center"` and `"right"`. The default value is * calculated at runtime and depends on orientation and whether the * stack is positive or negative. * * @sample {highcharts} highcharts/yaxis/stacklabels-textalign-left/ * Label in center position but text-aligned left * * @type {Highcharts.AlignValue} * @since 2.1.5 * @product highcharts * @apioption yAxis.stackLabels.textAlign */ /** * Whether to [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the labels. * * @type {boolean} * @default false * @since 3.0 * @product highcharts highstock * @apioption yAxis.stackLabels.useHTML */ /** * Defines the vertical alignment of the stack total label. Can be one * of `"top"`, `"middle"` or `"bottom"`. The default value is calculated * at runtime and depends on orientation and whether the stack is * positive or negative. * * @sample {highcharts} highcharts/yaxis/stacklabels-verticalalign-top/ * Vertically aligned top * @sample {highcharts} highcharts/yaxis/stacklabels-verticalalign-middle/ * Vertically aligned middle * @sample {highcharts} highcharts/yaxis/stacklabels-verticalalign-bottom/ * Vertically aligned bottom * * @type {Highcharts.VerticalAlignValue} * @since 2.1.5 * @product highcharts * @apioption yAxis.stackLabels.verticalAlign */ /** * The x position offset of the label relative to the left of the * stacked bar. The default value is calculated at runtime and depends * on orientation and whether the stack is positive or negative. * * @sample {highcharts} highcharts/yaxis/stacklabels-x/ * Stack total labels with x offset * * @type {number} * @since 2.1.5 * @product highcharts * @apioption yAxis.stackLabels.x */ /** * The y position offset of the label relative to the tick position * on the axis. The default value is calculated at runtime and depends * on orientation and whether the stack is positive or negative. * * @sample {highcharts} highcharts/yaxis/stacklabels-y/ * Stack total labels with y offset * * @type {number} * @since 2.1.5 * @product highcharts * @apioption yAxis.stackLabels.y */ /** * Whether to force the axis to start on a tick. Use this option with * the `maxPadding` option to control the axis start. * * This option is always disabled, when panning type is * either `y` or `xy`. * * @see [type](#chart.panning.type) * * @sample {highcharts} highcharts/xaxis/startontick-false/ * False by default * @sample {highcharts} highcharts/xaxis/startontick-true/ * True * @sample {highstock} stock/xaxis/endontick/ * False for Y axis * * @since 1.2.0 * @product highcharts highstock gantt */ startOnTick: true, title: { /** * The pixel distance between the axis labels and the title. * Positive values are outside the axis line, negative are inside. * * @sample {highcharts} highcharts/xaxis/title-margin/ * Y axis title margin of 60 * * @type {number} * @default 40 * @apioption yAxis.title.margin */ /** * The actual text of the axis title. Horizontal texts can contain * HTML, but rotated texts are painted using vector techniques and * must be clean text. The Y axis title is disabled by setting the * `text` option to `undefined`. * * @sample {highcharts} highcharts/xaxis/title-text/ * Custom HTML * * @type {string|null} * @default {highcharts} Values * @default {highstock} undefined * @product highcharts highstock gantt */ text: 'Values' }, /** * The top position of the Y axis. If it's a number, it is interpreted * as pixel position relative to the chart. * * Since Highcharts 2: If it's a percentage string, it is interpreted as * percentages of the plot height, offset from plot area top. * * @see [yAxis.height](#yAxis.height) * * @sample {highstock} stock/demo/candlestick-and-volume/ * Percentage height panes * * @type {number|string} * @product highcharts highstock * @apioption yAxis.top */ /** * The stack labels show the total value for each bar in a stacked * column or bar chart. The label will be placed on top of positive * columns and below negative columns. In case of an inverted column * chart or a bar chart the label is placed to the right of positive * bars and to the left of negative bars. * * @product highcharts */ stackLabels: { /** * Enable or disable the initial animation when a series is * displayed for the `stackLabels`. The animation can also be set as * a configuration object. Please note that this option only * applies to the initial animation. * For other animations, see [chart.animation](#chart.animation) * and the animation parameter under the API methods. * The following properties are supported: * * - `defer`: The animation delay time in milliseconds. * * @sample {highcharts} highcharts/plotoptions/animation-defer/ * Animation defer settings * @type {boolean|Partial} * @since 8.2.0 * @apioption yAxis.stackLabels.animation */ animation: {}, /** * The animation delay time in milliseconds. * Set to `0` renders stackLabel immediately. * As `undefined` inherits defer time from the [series.animation.defer](#plotOptions.series.animation.defer). * * @type {number} * @since 8.2.0 * @apioption yAxis.stackLabels.animation.defer */ /** * Allow the stack labels to overlap. * * @sample {highcharts} highcharts/yaxis/stacklabels-allowoverlap-false/ * Default false * * @since 5.0.13 * @product highcharts */ allowOverlap: false, /** * The background color or gradient for the stack label. * * @sample {highcharts} highcharts/yaxis/stacklabels-box/ * Stack labels box options * @type {Highcharts.ColorType} * @since 8.1.0 * @apioption yAxis.stackLabels.backgroundColor */ /** * The border color for the stack label. Defaults to `undefined`. * * @sample {highcharts} highcharts/yaxis/stacklabels-box/ * Stack labels box options * @type {Highcharts.ColorType} * @since 8.1.0 * @apioption yAxis.stackLabels.borderColor */ /** * The border radius in pixels for the stack label. * * @sample {highcharts} highcharts/yaxis/stacklabels-box/ * Stack labels box options * @type {number} * @default 0 * @since 8.1.0 * @apioption yAxis.stackLabels.borderRadius */ /** * The border width in pixels for the stack label. * * @sample {highcharts} highcharts/yaxis/stacklabels-box/ * Stack labels box options * @type {number} * @default 0 * @since 8.1.0 * @apioption yAxis.stackLabels.borderWidth */ /** * Enable or disable the stack total labels. * * @sample {highcharts} highcharts/yaxis/stacklabels-enabled/ * Enabled stack total labels * @sample {highcharts} highcharts/yaxis/stacklabels-enabled-waterfall/ * Enabled stack labels in waterfall chart * * @since 2.1.5 * @product highcharts */ enabled: false, /** * Whether to hide stack labels that are outside the plot area. * By default, the stack label is moved * inside the plot area according to the * [overflow](/highcharts/#yAxis/stackLabels/overflow) * option. * * @type {boolean} * @since 7.1.3 */ crop: true, /** * How to handle stack total labels that flow outside the plot area. * The default is set to `"justify"`, * which aligns them inside the plot area. * For columns and bars, this means it will be moved inside the bar. * To display stack labels outside the plot area, * set `crop` to `false` and `overflow` to `"allow"`. * * @sample highcharts/yaxis/stacklabels-overflow/ * Stack labels flows outside the plot area. * * @type {Highcharts.DataLabelsOverflowValue} * @since 7.1.3 */ overflow: 'justify', /* eslint-disable valid-jsdoc */ /** * Callback JavaScript function to format the label. The value is * given by `this.total`. * * @sample {highcharts} highcharts/yaxis/stacklabels-formatter/ * Added units to stack total value * * @type {Highcharts.FormatterCallbackFunction} * @since 2.1.5 * @product highcharts */ formatter: function () { const { numberFormatter } = this.axis.chart; /* eslint-enable valid-jsdoc */ return numberFormatter(this.total || 0, -1); }, /** * CSS styles for the label. * * In styled mode, the styles are set in the * `.highcharts-stack-label` class. * * @sample {highcharts} highcharts/yaxis/stacklabels-style/ * Red stack total labels * * @type {Highcharts.CSSObject} * @since 2.1.5 * @product highcharts */ style: { /** @internal */ color: "#000000" /* Palette.neutralColor100 */, /** @internal */ fontSize: '0.7em', /** @internal */ fontWeight: 'bold', /** @internal */ textOutline: '1px contrast' } }, gridLineWidth: 1, lineWidth: 0 }; })(AxisDefaults || (AxisDefaults = {})); /* * * * Default Export * * */ return AxisDefaults; }); _registerModule(_modules, 'Core/Foundation.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { addEvent, isFunction, objectEach, removeEvent } = U; /* * * * Class Namespace * * */ var Foundation; (function (Foundation) { /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * Register event options. If an event handler is set on the options, it * should be subject to Chart.update, Axis.update and Series.update. This is * contrary to general handlers that are set directly using addEvent either * on the class or on the instance. #6538, #6943, #10861. * @private */ function registerEventOptions(component, options) { // A lookup over those events that are added by _options_ (not // programmatically). These are updated through .update() component.eventOptions = component.eventOptions || {}; // Register event listeners objectEach(options.events, function (event, eventType) { // If event does not exist, or is changed by the .update() // function if (component.eventOptions[eventType] !== event) { // Remove existing if set by option if (component.eventOptions[eventType]) { removeEvent(component, eventType, component.eventOptions[eventType]); delete component.eventOptions[eventType]; } if (isFunction(event)) { component.eventOptions[eventType] = event; addEvent(component, eventType, event, { order: 0 // #14080 fire those events as firsts }); } } }); } Foundation.registerEventOptions = registerEventOptions; })(Foundation || (Foundation = {})); /* * * * Default Export * * */ return Foundation; }); _registerModule(_modules, 'Core/Axis/Tick.js', [_modules['Core/Templating.js'], _modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (F, H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { deg2rad } = H; const { clamp, correctFloat, defined, destroyObjectProperties, extend, fireEvent, isNumber, merge, objectEach, pick } = U; /* * * * Class * * */ /* eslint-disable no-invalid-this, valid-jsdoc */ /** * The Tick class. * * @class * @name Highcharts.Tick * * @param {Highcharts.Axis} axis * The axis of the tick. * * @param {number} pos * The position of the tick on the axis in terms of axis values. * * @param {string} [type] * The type of tick, either 'minor' or an empty string * * @param {boolean} [noLabel=false] * Whether to disable the label or not. Defaults to false. * * @param {Object} [parameters] * Optional parameters for the tick. */ class Tick { /* * * * Constructors * * */ constructor(axis, pos, type, noLabel, parameters) { this.isNew = true; this.isNewLabel = true; /** * The related axis of the tick. * @name Highcharts.Tick#axis * @type {Highcharts.Axis} */ this.axis = axis; /** * The logical position of the tick on the axis in terms of axis values. * @name Highcharts.Tick#pos * @type {number} */ this.pos = pos; /** * The tick type, which can be `"minor"`, or an empty string. * @name Highcharts.Tick#type * @type {string} */ this.type = type || ''; this.parameters = parameters || {}; /** * The mark offset of the tick on the axis. Usually `undefined`, numeric * for grid axes. * @name Highcharts.Tick#tickmarkOffset * @type {number|undefined} */ this.tickmarkOffset = this.parameters.tickmarkOffset; this.options = this.parameters.options; fireEvent(this, 'init'); if (!type && !noLabel) { this.addLabel(); } } /* * * * Functions * * */ /** * Write the tick label. * * @private * @function Highcharts.Tick#addLabel */ addLabel() { const tick = this, axis = tick.axis, options = axis.options, chart = axis.chart, categories = axis.categories, log = axis.logarithmic, names = axis.names, pos = tick.pos, labelOptions = pick(tick.options && tick.options.labels, options.labels), tickPositions = axis.tickPositions, isFirst = pos === tickPositions[0], isLast = pos === tickPositions[tickPositions.length - 1], animateLabels = (!labelOptions.step || labelOptions.step === 1) && axis.tickInterval === 1, tickPositionInfo = tickPositions.info; let label = tick.label, dateTimeLabelFormat, dateTimeLabelFormats, i; // The context value let value = this.parameters.category || (categories ? pick(categories[pos], names[pos], pos) : pos); if (log && isNumber(value)) { value = correctFloat(log.lin2log(value)); } // Set the datetime label format. If a higher rank is set for this // position, use that. If not, use the general format. if (axis.dateTime) { if (tickPositionInfo) { dateTimeLabelFormats = chart.time.resolveDTLFormat(options.dateTimeLabelFormats[(!options.grid && tickPositionInfo.higherRanks[pos]) || tickPositionInfo.unitName]); dateTimeLabelFormat = dateTimeLabelFormats.main; } else if (isNumber(value)) { // #1441 dateTimeLabelFormat = axis.dateTime.getXDateFormat(value, options.dateTimeLabelFormats || {}); } } // Set properties for access in render method /** * True if the tick is the first one on the axis. * @name Highcharts.Tick#isFirst * @readonly * @type {boolean|undefined} */ tick.isFirst = isFirst; /** * True if the tick is the last one on the axis. * @name Highcharts.Tick#isLast * @readonly * @type {boolean|undefined} */ tick.isLast = isLast; // Get the string const ctx = { axis, chart, dateTimeLabelFormat: dateTimeLabelFormat, isFirst, isLast, pos, tick: tick, tickPositionInfo, value }; // Fire an event that allows modifying the context for use in // `labels.format` and `labels.formatter`. fireEvent(this, 'labelFormat', ctx); // Label formatting. When `labels.format` is given, we first run the // defaultFormatter and append the result to the context as `text`. // Handy for adding prefix or suffix while keeping default number // formatting. const labelFormatter = (ctx) => { if (labelOptions.formatter) { return labelOptions.formatter.call(ctx, ctx); } if (labelOptions.format) { ctx.text = axis.defaultLabelFormatter.call(ctx); return F.format(labelOptions.format, ctx, chart); } return axis.defaultLabelFormatter.call(ctx); }; const str = labelFormatter.call(ctx, ctx); // Set up conditional formatting based on the format list if existing. const list = dateTimeLabelFormats && dateTimeLabelFormats.list; if (list) { tick.shortenLabel = function () { for (i = 0; i < list.length; i++) { extend(ctx, { dateTimeLabelFormat: list[i] }); label.attr({ text: labelFormatter.call(ctx, ctx) }); if (label.getBBox().width < axis.getSlotWidth(tick) - 2 * labelOptions.padding) { return; } } label.attr({ text: '' }); }; } else { // #15692 tick.shortenLabel = void 0; } // Call only after first render if (animateLabels && axis._addedPlotLB) { tick.moveLabel(str, labelOptions); } // First call if (!defined(label) && !tick.movedLabel) { /** * The rendered text label of the tick. * @name Highcharts.Tick#label * @type {Highcharts.SVGElement|undefined} */ tick.label = label = tick.createLabel(str, labelOptions); // Base value to detect change for new calls to getBBox tick.rotation = 0; // Update } else if (label && label.textStr !== str && !animateLabels) { // When resetting text, also reset the width if dynamically set // (#8809) if (label.textWidth && !labelOptions.style.width && !label.styles.width) { label.css({ width: null }); } label.attr({ text: str }); label.textPxLength = label.getBBox().width; } } /** * Render and return the label of the tick. * * @private * @function Highcharts.Tick#createLabel */ createLabel(str, labelOptions, xy) { const axis = this.axis, chart = axis.chart, label = defined(str) && labelOptions.enabled ? chart.renderer .text(str, xy?.x, xy?.y, labelOptions.useHTML) .add(axis.labelGroup) : void 0; // Un-rotated length if (label) { // Without position absolute, IE export sometimes is wrong if (!chart.styledMode) { label.css(merge(labelOptions.style)); } label.textPxLength = label.getBBox().width; } return label; } /** * Destructor for the tick prototype * * @private * @function Highcharts.Tick#destroy */ destroy() { destroyObjectProperties(this, this.axis); } /** * Gets the x and y positions for ticks in terms of pixels. * * @private * @function Highcharts.Tick#getPosition * * @param {boolean} horiz * Whether the tick is on an horizontal axis or not. * * @param {number} tickPos * Position of the tick. * * @param {number} tickmarkOffset * Tickmark offset for all ticks. * * @param {boolean} [old] * Whether the axis has changed or not. * * @return {Highcharts.PositionObject} * The tick position. * * @emits Highcharts.Tick#event:afterGetPosition */ getPosition(horiz, tickPos, tickmarkOffset, old) { const axis = this.axis, chart = axis.chart, cHeight = (old && chart.oldChartHeight) || chart.chartHeight, pos = { x: horiz ? correctFloat(axis.translate(tickPos + tickmarkOffset, void 0, void 0, old) + axis.transB) : (axis.left + axis.offset + (axis.opposite ? (((old && chart.oldChartWidth) || chart.chartWidth) - axis.right - axis.left) : 0)), y: horiz ? (cHeight - axis.bottom + axis.offset - (axis.opposite ? axis.height : 0)) : correctFloat(cHeight - axis.translate(tickPos + tickmarkOffset, void 0, void 0, old) - axis.transB) }; // Chrome workaround for #10516 pos.y = clamp(pos.y, -1e5, 1e5); fireEvent(this, 'afterGetPosition', { pos: pos }); return pos; } /** * Get the x, y position of the tick label * @private */ getLabelPosition(x, y, label, horiz, labelOptions, tickmarkOffset, index, step) { const axis = this.axis, transA = axis.transA, reversed = ( // #7911 axis.isLinked && axis.linkedParent ? axis.linkedParent.reversed : axis.reversed), staggerLines = axis.staggerLines, rotCorr = axis.tickRotCorr || { x: 0, y: 0 }, // Adjust for label alignment if we use reserveSpace: true (#5286) labelOffsetCorrection = (!horiz && !axis.reserveSpaceDefault ? -axis.labelOffset * (axis.labelAlign === 'center' ? 0.5 : 1) : 0), distance = labelOptions.distance, pos = {}; let yOffset, line; if (axis.side === 0) { yOffset = label.rotation ? -distance : -label.getBBox().height; } else if (axis.side === 2) { yOffset = rotCorr.y + distance; } else { // #3140, #3140 yOffset = Math.cos(label.rotation * deg2rad) * (rotCorr.y - label.getBBox(false, 0).height / 2); } if (defined(labelOptions.y)) { yOffset = axis.side === 0 && axis.horiz ? labelOptions.y + yOffset : labelOptions.y; } x = x + pick(labelOptions.x, [0, 1, 0, -1][axis.side] * distance) + labelOffsetCorrection + rotCorr.x - (tickmarkOffset && horiz ? tickmarkOffset * transA * (reversed ? -1 : 1) : 0); y = y + yOffset - (tickmarkOffset && !horiz ? tickmarkOffset * transA * (reversed ? 1 : -1) : 0); // Correct for staggered labels if (staggerLines) { line = (index / (step || 1) % staggerLines); if (axis.opposite) { line = staggerLines - line - 1; } y += line * (axis.labelOffset / staggerLines); } pos.x = x; pos.y = Math.round(y); fireEvent(this, 'afterGetLabelPosition', { pos: pos, tickmarkOffset: tickmarkOffset, index: index }); return pos; } /** * Get the offset height or width of the label * * @private * @function Highcharts.Tick#getLabelSize */ getLabelSize() { return this.label ? this.label.getBBox()[this.axis.horiz ? 'height' : 'width'] : 0; } /** * Extendible method to return the path of the marker * @private */ getMarkPath(x, y, tickLength, tickWidth, horiz, renderer) { return renderer.crispLine([[ 'M', x, y ], [ 'L', x + (horiz ? 0 : -tickLength), y + (horiz ? tickLength : 0) ]], tickWidth); } /** * Handle the label overflow by adjusting the labels to the left and right * edge, or hide them if they collide into the neighbour label. * * @private * @function Highcharts.Tick#handleOverflow */ handleOverflow(xy) { const tick = this, axis = this.axis, labelOptions = axis.options.labels, pxPos = xy.x, chartWidth = axis.chart.chartWidth, spacing = axis.chart.spacing, leftBound = pick(axis.labelLeft, Math.min(axis.pos, spacing[3])), rightBound = pick(axis.labelRight, Math.max(!axis.isRadial ? axis.pos + axis.len : 0, chartWidth - spacing[1])), label = this.label, rotation = this.rotation, factor = { left: 0, center: 0.5, right: 1 }[axis.labelAlign || label.attr('align')], labelWidth = label.getBBox().width, slotWidth = axis.getSlotWidth(tick), xCorrection = factor, css = {}; let modifiedSlotWidth = slotWidth, goRight = 1, leftPos, rightPos, textWidth; // Check if the label overshoots the chart spacing box. If it does, move // it. If it now overshoots the slotWidth, add ellipsis. if (!rotation && labelOptions.overflow === 'justify') { leftPos = pxPos - factor * labelWidth; rightPos = pxPos + (1 - factor) * labelWidth; if (leftPos < leftBound) { modifiedSlotWidth = xy.x + modifiedSlotWidth * (1 - factor) - leftBound; } else if (rightPos > rightBound) { modifiedSlotWidth = rightBound - xy.x + modifiedSlotWidth * factor; goRight = -1; } modifiedSlotWidth = Math.min(slotWidth, modifiedSlotWidth); // #4177 if (modifiedSlotWidth < slotWidth && axis.labelAlign === 'center') { xy.x += (goRight * (slotWidth - modifiedSlotWidth - xCorrection * (slotWidth - Math.min(labelWidth, modifiedSlotWidth)))); } // If the label width exceeds the available space, set a text width // to be picked up below. Also, if a width has been set before, we // need to set a new one because the reported labelWidth will be // limited by the box (#3938). if (labelWidth > modifiedSlotWidth || (axis.autoRotation && (label.styles || {}).width)) { textWidth = modifiedSlotWidth; } // Add ellipsis to prevent rotated labels to be clipped against the edge // of the chart } else if (rotation < 0 && pxPos - factor * labelWidth < leftBound) { textWidth = Math.round(pxPos / Math.cos(rotation * deg2rad) - leftBound); } else if (rotation > 0 && pxPos + factor * labelWidth > rightBound) { textWidth = Math.round((chartWidth - pxPos) / Math.cos(rotation * deg2rad)); } if (textWidth) { if (tick.shortenLabel) { tick.shortenLabel(); } else { css.width = Math.floor(textWidth) + 'px'; if (!(labelOptions.style || {}).textOverflow) { css.textOverflow = 'ellipsis'; } label.css(css); } } } /** * Try to replace the label if the same one already exists. * * @private * @function Highcharts.Tick#moveLabel */ moveLabel(str, labelOptions) { const tick = this, label = tick.label, axis = tick.axis; let moved = false, labelPos; if (label && label.textStr === str) { tick.movedLabel = label; moved = true; delete tick.label; } else { // Find a label with the same string objectEach(axis.ticks, function (currentTick) { if (!moved && !currentTick.isNew && currentTick !== tick && currentTick.label && currentTick.label.textStr === str) { tick.movedLabel = currentTick.label; moved = true; currentTick.labelPos = tick.movedLabel.xy; delete currentTick.label; } }); } // Create new label if the actual one is moved if (!moved && (tick.labelPos || label)) { labelPos = tick.labelPos || label.xy; tick.movedLabel = tick.createLabel(str, labelOptions, labelPos); if (tick.movedLabel) { tick.movedLabel.attr({ opacity: 0 }); } } } /** * Put everything in place * * @private * @param {number} index * * @param {boolean} [old] * Use old coordinates to prepare an animation into new position * * @param {number} [opacity] */ render(index, old, opacity) { const tick = this, axis = tick.axis, horiz = axis.horiz, pos = tick.pos, tickmarkOffset = pick(tick.tickmarkOffset, axis.tickmarkOffset), xy = tick.getPosition(horiz, pos, tickmarkOffset, old), x = xy.x, y = xy.y, axisStart = axis.pos, axisEnd = axisStart + axis.len, reverseCrisp = ((horiz && x === axisEnd) || (!horiz && y === axisStart)) ? -1 : 1, // #1480, #1687 pxPos = horiz ? x : y; // Anything that is not between `axis.pos` and `axis.pos + axis.length` // should not be visible (#20166). The `correctFloat` is for reversed // axes in Safari. if (!axis.chart.polar && tick.isNew && (correctFloat(pxPos) < axisStart || pxPos > axisEnd)) { opacity = 0; } const labelOpacity = pick(opacity, tick.label && tick.label.newOpacity, // #15528 1); opacity = pick(opacity, 1); this.isActive = true; // Create the grid line this.renderGridLine(old, opacity, reverseCrisp); // Create the tick mark this.renderMark(xy, opacity, reverseCrisp); // The label is created on init - now move it into place this.renderLabel(xy, old, labelOpacity, index); tick.isNew = false; fireEvent(this, 'afterRender'); } /** * Renders the gridLine. * * @private * @function Highcharts.Tick#renderGridLine * @param {boolean} old Whether or not the tick is old * @param {number} opacity The opacity of the grid line * @param {number} reverseCrisp Modifier for avoiding overlapping 1 or -1 */ renderGridLine(old, opacity, reverseCrisp) { const tick = this, axis = tick.axis, options = axis.options, attribs = {}, pos = tick.pos, type = tick.type, tickmarkOffset = pick(tick.tickmarkOffset, axis.tickmarkOffset), renderer = axis.chart.renderer; let gridLine = tick.gridLine, gridLinePath, gridLineWidth = options.gridLineWidth, gridLineColor = options.gridLineColor, dashStyle = options.gridLineDashStyle; if (tick.type === 'minor') { gridLineWidth = options.minorGridLineWidth; gridLineColor = options.minorGridLineColor; dashStyle = options.minorGridLineDashStyle; } if (!gridLine) { if (!axis.chart.styledMode) { attribs.stroke = gridLineColor; attribs['stroke-width'] = gridLineWidth || 0; attribs.dashstyle = dashStyle; } if (!type) { attribs.zIndex = 1; } if (old) { opacity = 0; } /** * The rendered grid line of the tick. * @name Highcharts.Tick#gridLine * @type {Highcharts.SVGElement|undefined} */ tick.gridLine = gridLine = renderer.path() .attr(attribs) .addClass('highcharts-' + (type ? type + '-' : '') + 'grid-line') .add(axis.gridGroup); } if (gridLine) { gridLinePath = axis.getPlotLinePath({ value: pos + tickmarkOffset, lineWidth: gridLine.strokeWidth() * reverseCrisp, force: 'pass', old: old, acrossPanes: false // #18025 }); // If the parameter 'old' is set, the current call will be followed // by another call, therefore do not do any animations this time if (gridLinePath) { gridLine[old || tick.isNew ? 'attr' : 'animate']({ d: gridLinePath, opacity: opacity }); } } } /** * Renders the tick mark. * * @private * @function Highcharts.Tick#renderMark * @param {Highcharts.PositionObject} xy The position vector of the mark * @param {number} opacity The opacity of the mark * @param {number} reverseCrisp Modifier for avoiding overlapping 1 or -1 */ renderMark(xy, opacity, reverseCrisp) { const tick = this, axis = tick.axis, options = axis.options, renderer = axis.chart.renderer, type = tick.type, tickSize = axis.tickSize(type ? type + 'Tick' : 'tick'), x = xy.x, y = xy.y, tickWidth = pick(options[type !== 'minor' ? 'tickWidth' : 'minorTickWidth'], !type && axis.isXAxis ? 1 : 0), // X axis defaults to 1 tickColor = options[type !== 'minor' ? 'tickColor' : 'minorTickColor']; let mark = tick.mark; const isNewMark = !mark; if (tickSize) { // Negate the length if (axis.opposite) { tickSize[0] = -tickSize[0]; } // First time, create it if (!mark) { /** * The rendered mark of the tick. * @name Highcharts.Tick#mark * @type {Highcharts.SVGElement|undefined} */ tick.mark = mark = renderer.path() .addClass('highcharts-' + (type ? type + '-' : '') + 'tick') .add(axis.axisGroup); if (!axis.chart.styledMode) { mark.attr({ stroke: tickColor, 'stroke-width': tickWidth }); } } mark[isNewMark ? 'attr' : 'animate']({ d: tick.getMarkPath(x, y, tickSize[0], mark.strokeWidth() * reverseCrisp, axis.horiz, renderer), opacity: opacity }); } } /** * Renders the tick label. * Note: The label should already be created in init(), so it should only * have to be moved into place. * * @private * @function Highcharts.Tick#renderLabel * @param {Highcharts.PositionObject} xy The position vector of the label * @param {boolean} old Whether or not the tick is old * @param {number} opacity The opacity of the label * @param {number} index The index of the tick */ renderLabel(xy, old, opacity, index) { const tick = this, axis = tick.axis, horiz = axis.horiz, options = axis.options, label = tick.label, labelOptions = options.labels, step = labelOptions.step, tickmarkOffset = pick(tick.tickmarkOffset, axis.tickmarkOffset), x = xy.x, y = xy.y; let show = true; if (label && isNumber(x)) { label.xy = xy = tick.getLabelPosition(x, y, label, horiz, labelOptions, tickmarkOffset, index, step); // Apply show first and show last. If the tick is both first and // last, it is a single centered tick, in which case we show the // label anyway (#2100). if ((tick.isFirst && !tick.isLast && !options.showFirstLabel) || (tick.isLast && !tick.isFirst && !options.showLastLabel)) { show = false; // Handle label overflow and show or hide accordingly } else if (horiz && !labelOptions.step && !labelOptions.rotation && !old && opacity !== 0) { tick.handleOverflow(xy); } // Apply step if (step && index % step) { // Show those indices dividable by step show = false; } // Set the new position, and show or hide if (show && isNumber(xy.y)) { xy.opacity = opacity; label[tick.isNewLabel ? 'attr' : 'animate'](xy).show(true); tick.isNewLabel = false; } else { label.hide(); // #1338, #15863 tick.isNewLabel = true; } } } /** * Replace labels with the moved ones to perform animation. Additionally * destroy unused labels. * * @private * @function Highcharts.Tick#replaceMovedLabel */ replaceMovedLabel() { const tick = this, label = tick.label, axis = tick.axis; // Animate and destroy if (label && !tick.isNew) { label.animate({ opacity: 0 }, void 0, label.destroy); delete tick.label; } axis.isDirty = true; tick.label = tick.movedLabel; delete tick.movedLabel; } } /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Optional parameters for the tick. * @private * @interface Highcharts.TickParametersObject */ /** * Set category for the tick. * @name Highcharts.TickParametersObject#category * @type {string|undefined} */ /** * @name Highcharts.TickParametersObject#options * @type {Highcharts.Dictionary|undefined} */ /** * Set tickmarkOffset for the tick. * @name Highcharts.TickParametersObject#tickmarkOffset * @type {number|undefined} */ /** * Additional time tick information. * * @interface Highcharts.TimeTicksInfoObject * @extends Highcharts.TimeNormalizedObject */ /** * @name Highcharts.TimeTicksInfoObject#higherRanks * @type {Array} */ /** * @name Highcharts.TimeTicksInfoObject#totalRange * @type {number} */ (''); // Keeps doclets above in JS file return Tick; }); _registerModule(_modules, 'Core/Axis/Axis.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Axis/AxisDefaults.js'], _modules['Core/Color/Color.js'], _modules['Core/Defaults.js'], _modules['Core/Foundation.js'], _modules['Core/Globals.js'], _modules['Core/Axis/Tick.js'], _modules['Core/Utilities.js']], function (A, AxisDefaults, Color, D, F, H, Tick, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { animObject } = A; const { xAxis, yAxis } = AxisDefaults; const { defaultOptions } = D; const { registerEventOptions } = F; const { deg2rad } = H; const { arrayMax, arrayMin, clamp, correctFloat, defined, destroyObjectProperties, erase, error, extend, fireEvent, getClosestDistance, insertItem, isArray, isNumber, isString, merge, normalizeTickInterval, objectEach, pick, relativeLength, removeEvent, splat, syncTimeout } = U; const getNormalizedTickInterval = (axis, tickInterval) => normalizeTickInterval(tickInterval, void 0, void 0, pick(axis.options.allowDecimals, // If the tick interval is greater than 0.5, avoid decimals, as // linear axes are often used to render discrete values (#3363). If // a tick amount is set, allow decimals by default, as it increases // the chances for a good fit. tickInterval < 0.5 || axis.tickAmount !== void 0), !!axis.tickAmount); extend(defaultOptions, { xAxis, yAxis: merge(xAxis, yAxis) }); /* * * * Class * * */ /** * Create a new axis object. Called internally when instantiating a new chart or * adding axes by {@link Highcharts.Chart#addAxis}. * * A chart can have from 0 axes (pie chart) to multiples. In a normal, single * series cartesian chart, there is one X axis and one Y axis. * * The X axis or axes are referenced by {@link Highcharts.Chart.xAxis}, which is * an array of Axis objects. If there is only one axis, it can be referenced * through `chart.xAxis[0]`, and multiple axes have increasing indices. The same * pattern goes for Y axes. * * If you need to get the axes from a series object, use the `series.xAxis` and * `series.yAxis` properties. These are not arrays, as one series can only be * associated to one X and one Y axis. * * A third way to reference the axis programmatically is by `id`. Add an `id` in * the axis configuration options, and get the axis by * {@link Highcharts.Chart#get}. * * Configuration options for the axes are given in options.xAxis and * options.yAxis. * * @class * @name Highcharts.Axis * * @param {Highcharts.Chart} chart * The Chart instance to apply the axis on. * * @param {Highcharts.AxisOptions} userOptions * Axis options */ class Axis { /* * * * Constructors * * */ constructor(chart, userOptions, coll) { this.init(chart, userOptions, coll); } /* * * * Functions * * */ /** * Overrideable function to initialize the axis. * * @see {@link Axis} * * @function Highcharts.Axis#init * * @param {Highcharts.Chart} chart * The Chart instance to apply the axis on. * * @param {AxisOptions} userOptions * Axis options. * * @emits Highcharts.Axis#event:afterInit * @emits Highcharts.Axis#event:init */ init(chart, userOptions, coll = this.coll) { const isXAxis = coll === 'xAxis', axis = this, horiz = axis.isZAxis || (chart.inverted ? !isXAxis : isXAxis); /** * The Chart that the axis belongs to. * * @name Highcharts.Axis#chart * @type {Highcharts.Chart} */ axis.chart = chart; /** * Whether the axis is horizontal. * * @name Highcharts.Axis#horiz * @type {boolean|undefined} */ axis.horiz = horiz; /** * Whether the axis is the x-axis. * * @name Highcharts.Axis#isXAxis * @type {boolean|undefined} */ axis.isXAxis = isXAxis; /** * The collection where the axis belongs, for example `xAxis`, `yAxis` * or `colorAxis`. Corresponds to properties on Chart, for example * {@link Chart.xAxis}. * * @name Highcharts.Axis#coll * @type {string} */ axis.coll = coll; fireEvent(this, 'init', { userOptions: userOptions }); // Needed in setOptions axis.opposite = pick(userOptions.opposite, axis.opposite); /** * The side on which the axis is rendered. 0 is top, 1 is right, 2 * is bottom and 3 is left. * * @name Highcharts.Axis#side * @type {number} */ axis.side = pick(userOptions.side, axis.side, (horiz ? (axis.opposite ? 0 : 2) : // Top : bottom (axis.opposite ? 1 : 3)) // Right : left ); /** * Current options for the axis after merge of defaults and user's * options. * * @name Highcharts.Axis#options * @type {Highcharts.AxisOptions} */ axis.setOptions(userOptions); const options = this.options, labelsOptions = options.labels, type = options.type; /** * User's options for this axis without defaults. * * @name Highcharts.Axis#userOptions * @type {Highcharts.AxisOptions} */ axis.userOptions = userOptions; axis.minPixelPadding = 0; /** * Whether the axis is reversed. Based on the `axis.reversed`, * option, but inverted charts have reversed xAxis by default. * * @name Highcharts.Axis#reversed * @type {boolean} */ axis.reversed = pick(options.reversed, axis.reversed); axis.visible = options.visible; axis.zoomEnabled = options.zoomEnabled; // Initial categories axis.hasNames = type === 'category' || options.categories === true; /** * If categories are present for the axis, names are used instead of * numbers for that axis. * * Since Highcharts 3.0, categories can also be extracted by giving each * point a name and setting axis type to `category`. However, if you * have multiple series, best practice remains defining the `categories` * array. * * @see [xAxis.categories](/highcharts/xAxis.categories) * * @name Highcharts.Axis#categories * @type {Array} * @readonly */ axis.categories = (isArray(options.categories) && options.categories) || (axis.hasNames ? [] : void 0); if (!axis.names) { // Preserve on update (#3830) axis.names = []; axis.names.keys = {}; } // Placeholder for plotlines and plotbands groups axis.plotLinesAndBandsGroups = {}; // Shorthand types axis.positiveValuesOnly = !!axis.logarithmic; // Flag, if axis is linked to another axis axis.isLinked = defined(options.linkedTo); /** * List of major ticks mapped by position on axis. * * @see {@link Highcharts.Tick} * * @name Highcharts.Axis#ticks * @type {Highcharts.Dictionary} */ axis.ticks = {}; axis.labelEdge = []; /** * List of minor ticks mapped by position on the axis. * * @see {@link Highcharts.Tick} * * @name Highcharts.Axis#minorTicks * @type {Highcharts.Dictionary} */ axis.minorTicks = {}; // List of plotLines/Bands axis.plotLinesAndBands = []; // Alternate bands axis.alternateBands = {}; /** * The length of the axis in terms of pixels. * * @name Highcharts.Axis#len * @type {number} */ axis.len = 0; axis.minRange = axis.userMinRange = options.minRange || options.maxZoom; axis.range = options.range; axis.offset = options.offset || 0; /** * The maximum value of the axis. In a logarithmic axis, this is the * logarithm of the real value, and the real value can be obtained from * {@link Axis#getExtremes}. * * @name Highcharts.Axis#max * @type {number|undefined} */ axis.max = void 0; /** * The minimum value of the axis. In a logarithmic axis, this is the * logarithm of the real value, and the real value can be obtained from * {@link Axis#getExtremes}. * * @name Highcharts.Axis#min * @type {number|undefined} */ axis.min = void 0; /** * The processed crosshair options. * * @name Highcharts.Axis#crosshair * @type {boolean|Highcharts.AxisCrosshairOptions} */ const crosshair = pick(options.crosshair, splat(chart.options.tooltip.crosshairs)[isXAxis ? 0 : 1]); axis.crosshair = crosshair === true ? {} : crosshair; // Register. Don't add it again on Axis.update(). if (chart.axes.indexOf(axis) === -1) { // if (isXAxis) { // #2713 chart.axes.splice(chart.xAxis.length, 0, axis); } else { chart.axes.push(axis); } insertItem(this, chart[this.coll]); } chart.orderItems(axis.coll); /** * All series associated to the axis. * * @name Highcharts.Axis#series * @type {Array} */ axis.series = axis.series || []; // Populated by Series // Reversed axis if (chart.inverted && !axis.isZAxis && isXAxis && !defined(axis.reversed)) { axis.reversed = true; } axis.labelRotation = isNumber(labelsOptions.rotation) ? labelsOptions.rotation : void 0; // Register event listeners registerEventOptions(axis, options); fireEvent(this, 'afterInit'); } /** * Merge and set options. * * @private * @function Highcharts.Axis#setOptions * * @param {Highcharts.AxisOptions} userOptions * Axis options. * * @emits Highcharts.Axis#event:afterSetOptions */ setOptions(userOptions) { const sideSpecific = this.horiz ? // Top and bottom axis defaults { labels: { autoRotation: [-45] }, margin: 15 } : // Left and right axis, title rotated 90 or 270 degrees // respectively { title: { rotation: 90 * this.side } }; this.options = merge(sideSpecific, defaultOptions[this.coll], userOptions); fireEvent(this, 'afterSetOptions', { userOptions }); } /** * The default label formatter. The context is a special config object for * the label. In apps, use the * [labels.formatter](https://api.highcharts.com/highcharts/xAxis.labels.formatter) * instead, except when a modification is needed. * * @function Highcharts.Axis#defaultLabelFormatter * * @param {Highcharts.AxisLabelsFormatterContextObject} this * Formatter context of axis label. * * @param {Highcharts.AxisLabelsFormatterContextObject} [ctx] * Formatter context of axis label. * * @return {string} * The formatted label content. */ defaultLabelFormatter() { const axis = this.axis, chart = this.chart, { numberFormatter } = chart, value = isNumber(this.value) ? this.value : NaN, time = axis.chart.time, categories = axis.categories, dateTimeLabelFormat = this.dateTimeLabelFormat, lang = defaultOptions.lang, numericSymbols = lang.numericSymbols, numSymMagnitude = lang.numericSymbolMagnitude || 1000, // Make sure the same symbol is added for all labels on a linear // axis numericSymbolDetector = axis.logarithmic ? Math.abs(value) : axis.tickInterval; let i = numericSymbols && numericSymbols.length, multi, ret; if (categories) { ret = `${this.value}`; } else if (dateTimeLabelFormat) { // Datetime axis ret = time.dateFormat(dateTimeLabelFormat, value); } else if (i && numericSymbols && numericSymbolDetector >= 1000) { // Decide whether we should add a numeric symbol like k (thousands) // or M (millions). If we are to enable this in tooltip or other // places as well, we can move this logic to the numberFormatter and // enable it by a parameter. while (i-- && typeof ret === 'undefined') { multi = Math.pow(numSymMagnitude, i + 1); if ( // Only accept a numeric symbol when the distance is more // than a full unit. So for example if the symbol is k, we // don't accept numbers like 0.5k. numericSymbolDetector >= multi && // Accept one decimal before the symbol. Accepts 0.5k but // not 0.25k. How does this work with the previous? (value * 10) % multi === 0 && numericSymbols[i] !== null && value !== 0) { // #5480 ret = numberFormatter(value / multi, -1) + numericSymbols[i]; } } } if (typeof ret === 'undefined') { if (Math.abs(value) >= 10000) { // Add thousands separators ret = numberFormatter(value, -1); } else { // Small numbers ret = numberFormatter(value, -1, void 0, ''); // #2466 } } return ret; } /** * Get the minimum and maximum for the series of each axis. The function * analyzes the axis series and updates `this.dataMin` and `this.dataMax`. * * @private * @function Highcharts.Axis#getSeriesExtremes * * @emits Highcharts.Axis#event:afterGetSeriesExtremes * @emits Highcharts.Axis#event:getSeriesExtremes */ getSeriesExtremes() { const axis = this; let xExtremes; fireEvent(this, 'getSeriesExtremes', null, function () { axis.hasVisibleSeries = false; // Reset properties in case we're redrawing (#3353) axis.dataMin = axis.dataMax = axis.threshold = void 0; axis.softThreshold = !axis.isXAxis; // Loop through this axis' series axis.series.forEach((series) => { if (series.reserveSpace()) { const seriesOptions = series.options; let xData, threshold = seriesOptions.threshold, seriesDataMin, seriesDataMax; axis.hasVisibleSeries = true; // Validate threshold in logarithmic axes if (axis.positiveValuesOnly && (threshold || 0) <= 0) { threshold = void 0; } // Get dataMin and dataMax for X axes if (axis.isXAxis) { xData = series.xData; if (xData && xData.length) { xData = axis.logarithmic ? xData.filter((x) => x > 0) : xData; xExtremes = series.getXExtremes(xData); // If xData contains values which is not numbers, // then filter them out. To prevent performance hit, // we only do this after we have already found // seriesDataMin because in most cases all data is // valid. #5234. seriesDataMin = xExtremes.min; seriesDataMax = xExtremes.max; if (!isNumber(seriesDataMin) && // #5010: !(seriesDataMin instanceof Date)) { xData = xData.filter(isNumber); xExtremes = series.getXExtremes(xData); // Do it again with valid data seriesDataMin = xExtremes.min; seriesDataMax = xExtremes.max; } if (xData.length) { axis.dataMin = Math.min(pick(axis.dataMin, seriesDataMin), seriesDataMin); axis.dataMax = Math.max(pick(axis.dataMax, seriesDataMax), seriesDataMax); } } // Get dataMin and dataMax for Y axes, as well as handle // stacking and processed data } else { // Get this particular series extremes const dataExtremes = series.applyExtremes(); // Get the dataMin and dataMax so far. If percentage is // used, the min and max are always 0 and 100. If // seriesDataMin and seriesDataMax is null, then series // doesn't have active y data, we continue with nulls if (isNumber(dataExtremes.dataMin)) { seriesDataMin = dataExtremes.dataMin; axis.dataMin = Math.min(pick(axis.dataMin, seriesDataMin), seriesDataMin); } if (isNumber(dataExtremes.dataMax)) { seriesDataMax = dataExtremes.dataMax; axis.dataMax = Math.max(pick(axis.dataMax, seriesDataMax), seriesDataMax); } // Adjust to threshold if (defined(threshold)) { axis.threshold = threshold; } // If any series has a hard threshold, it takes // precedence if (!seriesOptions.softThreshold || axis.positiveValuesOnly) { axis.softThreshold = false; } } } }); }); fireEvent(this, 'afterGetSeriesExtremes'); } /** * Translate from axis value to pixel position on the chart, or back. Use * the `toPixels` and `toValue` functions in applications. * * @private * @function Highcharts.Axis#translate */ translate(val, backwards, cvsCoord, old, handleLog, pointPlacement) { const axis = (this.linkedParent || this), // #1417 localMin = (old && axis.old ? axis.old.min : axis.min); if (!isNumber(localMin)) { return NaN; } const minPixelPadding = axis.minPixelPadding, doPostTranslate = (axis.isOrdinal || axis.brokenAxis?.hasBreaks || (axis.logarithmic && handleLog)) && axis.lin2val; let sign = 1, cvsOffset = 0, localA = old && axis.old ? axis.old.transA : axis.transA, returnValue = 0; if (!localA) { localA = axis.transA; } // In vertical axes, the canvas coordinates start from 0 at the top like // in SVG. if (cvsCoord) { sign *= -1; // Canvas coordinates inverts the value cvsOffset = axis.len; } // Handle reversed axis if (axis.reversed) { sign *= -1; cvsOffset -= sign * (axis.sector || axis.len); } // From pixels to value if (backwards) { // Reverse translation val = val * sign + cvsOffset; val -= minPixelPadding; // From chart pixel to value: returnValue = val / localA + localMin; if (doPostTranslate) { // Log, ordinal and broken axis returnValue = axis.lin2val(returnValue); } // From value to pixels } else { if (doPostTranslate) { // Log, ordinal and broken axis val = axis.val2lin(val); } const value = sign * (val - localMin) * localA; returnValue = (!axis.isRadial ? correctFloat(value) : value) + cvsOffset + (sign * minPixelPadding) + (isNumber(pointPlacement) ? localA * pointPlacement : 0); } return returnValue; } /** * Translate a value in terms of axis units into pixels within the chart. * * @function Highcharts.Axis#toPixels * * @param {number} value * A value in terms of axis units. * * @param {boolean} paneCoordinates * Whether to return the pixel coordinate relative to the chart or just the * axis/pane itself. * * @return {number} * Pixel position of the value on the chart or axis. */ toPixels(value, paneCoordinates) { return this.translate(value, false, !this.horiz, void 0, true) + (paneCoordinates ? 0 : this.pos); } /** * Translate a pixel position along the axis to a value in terms of axis * units. * * @function Highcharts.Axis#toValue * * @param {number} pixel * The pixel value coordinate. * * @param {boolean} [paneCoordinates=false] * Whether the input pixel is relative to the chart or just the axis/pane * itself. * * @return {number} * The axis value. */ toValue(pixel, paneCoordinates) { return this.translate(pixel - (paneCoordinates ? 0 : this.pos), true, !this.horiz, void 0, true); } /** * Create the path for a plot line that goes from the given value on * this axis, across the plot to the opposite side. Also used internally for * grid lines and crosshairs. * * @function Highcharts.Axis#getPlotLinePath * * @param {Highcharts.AxisPlotLinePathOptionsObject} options * Options for the path. * * @return {Highcharts.SVGPathArray|null} * The SVG path definition for the plot line. */ getPlotLinePath(options) { const axis = this, chart = axis.chart, axisLeft = axis.left, axisTop = axis.top, old = options.old, value = options.value, lineWidth = options.lineWidth, cHeight = (old && chart.oldChartHeight) || chart.chartHeight, cWidth = (old && chart.oldChartWidth) || chart.chartWidth, transB = axis.transB; let translatedValue = options.translatedValue, force = options.force, x1, y1, x2, y2, skip; // eslint-disable-next-line valid-jsdoc /** * Check if x is between a and b. If not, either move to a/b * or skip, depending on the force parameter. * @private */ function between(x, a, b) { if (force !== 'pass' && (x < a || x > b)) { if (force) { x = clamp(x, a, b); } else { skip = true; } } return x; } const evt = { value, lineWidth, old, force, acrossPanes: options.acrossPanes, translatedValue }; fireEvent(this, 'getPlotLinePath', evt, function (e) { translatedValue = pick(translatedValue, axis.translate(value, void 0, void 0, old)); // Keep the translated value within sane bounds, and avoid Infinity // to fail the isNumber test (#7709). translatedValue = clamp(translatedValue, -1e5, 1e5); x1 = x2 = Math.round(translatedValue + transB); y1 = y2 = Math.round(cHeight - translatedValue - transB); if (!isNumber(translatedValue)) { // No min or max skip = true; force = false; // #7175, don't force it when path is invalid } else if (axis.horiz) { y1 = axisTop; y2 = cHeight - axis.bottom + (chart.scrollablePixelsY || 0); x1 = x2 = between(x1, axisLeft, axisLeft + axis.width); } else { x1 = axisLeft; x2 = cWidth - axis.right + (chart.scrollablePixelsX || 0); y1 = y2 = between(y1, axisTop, axisTop + axis.height); } e.path = skip && !force ? void 0 : chart.renderer.crispLine([['M', x1, y1], ['L', x2, y2]], lineWidth || 1); }); return evt.path; } /** * Internal function to get the tick positions of a linear axis to round * values like whole tens or every five. * * @function Highcharts.Axis#getLinearTickPositions * * @param {number} tickInterval * The normalized tick interval. * * @param {number} min * Axis minimum. * * @param {number} max * Axis maximum. * * @return {Array} * An array of axis values where ticks should be placed. */ getLinearTickPositions(tickInterval, min, max) { const roundedMin = correctFloat(Math.floor(min / tickInterval) * tickInterval), roundedMax = correctFloat(Math.ceil(max / tickInterval) * tickInterval), tickPositions = []; let pos, lastPos, precision; // When the precision is higher than what we filter out in // correctFloat, skip it (#6183). if (correctFloat(roundedMin + tickInterval) === roundedMin) { precision = 20; } // For single points, add a tick regardless of the relative position // (#2662, #6274) if (this.single) { return [min]; } // Populate the intermediate values pos = roundedMin; while (pos <= roundedMax) { // Place the tick on the rounded value tickPositions.push(pos); // Always add the raw tickInterval, not the corrected one. pos = correctFloat(pos + tickInterval, precision); // 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; } /** * Resolve the new minorTicks/minorTickInterval options into the legacy * loosely typed minorTickInterval option. * * @function Highcharts.Axis#getMinorTickInterval * * @return {number|"auto"|null} * Legacy option */ getMinorTickInterval() { const { minorTicks, minorTickInterval } = this.options; if (minorTicks === true) { return pick(minorTickInterval, 'auto'); } if (minorTicks === false) { return; } return minorTickInterval; } /** * Internal function to return the minor tick positions. For logarithmic * axes, the same logic as for major ticks is reused. * * @function Highcharts.Axis#getMinorTickPositions * * @return {Array} * An array of axis values where ticks should be placed. */ getMinorTickPositions() { const axis = this, options = axis.options, tickPositions = axis.tickPositions, minorTickInterval = axis.minorTickInterval, pointRangePadding = axis.pointRangePadding || 0, min = (axis.min || 0) - pointRangePadding, // #1498 max = (axis.max || 0) + pointRangePadding, // #1498 range = max - min; let minorTickPositions = [], pos; // If minor ticks get too dense, they are hard to read, and may cause // long running script. So we don't draw them. if (range && range / minorTickInterval < axis.len / 3) { // #3875 const logarithmic = axis.logarithmic; if (logarithmic) { // For each interval in the major ticks, compute the minor ticks // separately. this.paddedTicks.forEach(function (_pos, i, paddedTicks) { if (i) { minorTickPositions.push.apply(minorTickPositions, logarithmic.getLogTickPositions(minorTickInterval, paddedTicks[i - 1], paddedTicks[i], true)); } }); } else if (axis.dateTime && this.getMinorTickInterval() === 'auto') { // #1314 minorTickPositions = minorTickPositions.concat(axis.getTimeTicks(axis.dateTime.normalizeTimeTickInterval(minorTickInterval), min, max, options.startOfWeek)); } else { for (pos = min + (tickPositions[0] - min) % minorTickInterval; pos <= max; pos += minorTickInterval) { // Very, very, tight grid lines (#5771) if (pos === minorTickPositions[0]) { break; } minorTickPositions.push(pos); } } } if (minorTickPositions.length !== 0) { axis.trimTicks(minorTickPositions); // #3652 #3743 #1498 #6330 } 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. * * @private * @function Highcharts.Axis#adjustForMinRange */ adjustForMinRange() { const axis = this, options = axis.options, logarithmic = axis.logarithmic; let { max, min, minRange } = axis, zoomOffset, spaceAvailable, closestDataRange, minArgs, maxArgs; // Set the automatic minimum range based on the closest point distance if (axis.isXAxis && typeof minRange === 'undefined' && !logarithmic) { if (defined(options.min) || defined(options.max) || defined(options.floor) || defined(options.ceiling)) { // Setting it to null, as opposed to undefined, signals we don't // run this block again as per the condition above. minRange = null; } else { // Find the closest distance between raw data points, as opposed // to closestPointRange that applies to processed points // (cropped and grouped) closestDataRange = getClosestDistance(axis.series.map((s) => // If xIncrement, we only need to measure the two first // points to get the distance. Saves processing time. (s.xIncrement ? s.xData?.slice(0, 2) : s.xData) || [])) || 0; minRange = Math.min(closestDataRange * 5, axis.dataMax - axis.dataMin); } } // If minRange is exceeded, adjust if (isNumber(max) && isNumber(min) && isNumber(minRange) && max - min < minRange) { spaceAvailable = axis.dataMax - axis.dataMin >= 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 space is available, stay within the data range if (spaceAvailable) { minArgs[2] = logarithmic ? logarithmic.log2lin(axis.dataMin) : axis.dataMin; } min = arrayMax(minArgs); maxArgs = [ min + minRange, pick(options.max, min + minRange) ]; // If space is available, stay within the data range if (spaceAvailable) { maxArgs[2] = logarithmic ? logarithmic.log2lin(axis.dataMax) : axis.dataMax; } max = arrayMin(maxArgs); // Now if the max is adjusted, adjust the min back if (max - min < minRange) { minArgs[0] = max - minRange; minArgs[1] = pick(options.min, max - minRange); min = arrayMax(minArgs); } } // Record modified extremes axis.minRange = minRange; axis.min = min; axis.max = max; } /** * Find the closestPointRange across all series, including the single data * series. * * @private * @function Highcharts.Axis#getClosest */ getClosest() { let closestSingleDistance, closestDistance; if (this.categories) { closestDistance = 1; } else { const singleXs = []; this.series.forEach(function (series) { const seriesClosest = series.closestPointRange; if (series.xData?.length === 1) { singleXs.push(series.xData[0]); } else if (!series.noSharedTooltip && defined(seriesClosest) && series.reserveSpace()) { closestDistance = defined(closestDistance) ? Math.min(closestDistance, seriesClosest) : seriesClosest; } }); if (singleXs.length) { singleXs.sort((a, b) => a - b); closestSingleDistance = getClosestDistance([singleXs]); } } if (closestSingleDistance && closestDistance) { return Math.min(closestSingleDistance, closestDistance); } return closestSingleDistance || closestDistance; } /** * When a point name is given and no x, search for the name in the existing * categories, or if categories aren't provided, search names or create a * new category (#2522). * * @private * @function Highcharts.Axis#nameToX * * @param {Highcharts.Point} point * The point to inspect. * * @return {number} * The X value that the point is given. */ nameToX(point) { const explicitCategories = isArray(this.options.categories), names = explicitCategories ? this.categories : this.names; let nameX = point.options.x, x; point.series.requireSorting = false; if (!defined(nameX)) { nameX = this.options.uniqueNames && names ? (explicitCategories ? names.indexOf(point.name) : pick(names.keys[point.name], -1)) : point.series.autoIncrement(); } if (nameX === -1) { // Not found in current categories if (!explicitCategories && names) { x = names.length; } } else { x = nameX; } // Write the last point's name to the names array if (typeof x !== 'undefined') { this.names[x] = point.name; // Backwards mapping is much faster than array searching (#7725) this.names.keys[point.name] = x; } else if (point.x) { x = point.x; // #17438 } return x; } /** * When changes have been done to series data, update the axis.names. * * @private * @function Highcharts.Axis#updateNames */ updateNames() { const axis = this, names = this.names, i = names.length; if (i > 0) { Object.keys(names.keys).forEach(function (key) { delete (names.keys)[key]; }); names.length = 0; this.minRange = this.userMinRange; // Reset (this.series || []).forEach((series) => { // Reset incrementer (#5928) series.xIncrement = null; // When adding a series, points are not yet generated if (!series.points || series.isDirtyData) { // When we're updating the series with data that is longer // than it was, and cropThreshold is passed, we need to make // sure that the axis.max is increased _before_ running the // premature processData. Otherwise this early iteration of // processData will crop the points to axis.max, and the // names array will be too short (#5857). axis.max = Math.max(axis.max, series.xData.length - 1); series.processData(); series.generatePoints(); } series.data.forEach(function (point, i) { let x; if (point?.options && typeof point.name !== 'undefined' // #9562 ) { x = axis.nameToX(point); if (typeof x !== 'undefined' && x !== point.x) { point.x = x; series.xData[i] = x; } } }); }); } } /** * Update translation information. * * @private * @function Highcharts.Axis#setAxisTranslation * * @emits Highcharts.Axis#event:afterSetAxisTranslation */ setAxisTranslation() { const axis = this, range = axis.max - axis.min, linkedParent = axis.linkedParent, hasCategories = !!axis.categories, isXAxis = axis.isXAxis; let pointRange = axis.axisPointRange || 0, closestPointRange, minPointOffset = 0, pointRangePadding = 0, ordinalCorrection, transA = axis.transA; // Adjust translation for padding. Y axis with categories need to go // through the same (#1784). if (isXAxis || hasCategories || pointRange) { // Get the closest points closestPointRange = axis.getClosest(); if (linkedParent) { minPointOffset = linkedParent.minPointOffset; pointRangePadding = linkedParent.pointRangePadding; } else { axis.series.forEach(function (series) { const seriesPointRange = hasCategories ? 1 : (isXAxis ? pick(series.options.pointRange, closestPointRange, 0) : (axis.axisPointRange || 0)), // #2806 pointPlacement = series.options.pointPlacement; pointRange = Math.max(pointRange, seriesPointRange); if (!axis.single || hasCategories) { // TODO: series should internally set x- and y- // pointPlacement to simplify this logic. const isPointPlacementAxis = series.is('xrange') ? !isXAxis : isXAxis; // The `minPointOffset` is the value padding to the left // of the axis in order to make room for points with a // pointRange, typically columns. When the // pointPlacement option is 'between' or 'on', this // padding does not apply. minPointOffset = Math.max(minPointOffset, isPointPlacementAxis && isString(pointPlacement) ? 0 : seriesPointRange / 2); // Determine the total padding needed to the length of // the axis to make room for the pointRange. If the // series' pointPlacement is 'on', no padding is added. pointRangePadding = Math.max(pointRangePadding, isPointPlacementAxis && pointPlacement === 'on' ? 0 : seriesPointRange); } }); } // Record minPointOffset and pointRangePadding ordinalCorrection = (axis.ordinal && axis.ordinal.slope && closestPointRange) ? axis.ordinal.slope / closestPointRange : 1; // #988, #1853 axis.minPointOffset = minPointOffset = minPointOffset * ordinalCorrection; axis.pointRangePadding = pointRangePadding = pointRangePadding * ordinalCorrection; // The `pointRange` is the width reserved for each point, like in a // column chart axis.pointRange = Math.min(pointRange, axis.single && hasCategories ? 1 : range); // The `closestPointRange` is the closest distance between points. // In columns it is mostly equal to pointRange, but in lines // pointRange is 0 while closestPointRange is some other value if (isXAxis && closestPointRange) { axis.closestPointRange = closestPointRange; } } // Secondary values axis.translationSlope = axis.transA = transA = axis.staticScale || axis.len / ((range + pointRangePadding) || 1); // Translation addend axis.transB = axis.horiz ? axis.left : axis.bottom; axis.minPixelPadding = transA * minPointOffset; fireEvent(this, 'afterSetAxisTranslation'); } /** * @private * @function Highcharts.Axis#minFromRange */ minFromRange() { const { max, min } = this; return isNumber(max) && isNumber(min) && max - min || void 0; } /** * Set the tick positions to round values and optionally extend the extremes * to the nearest tick. * * @private * @function Highcharts.Axis#setTickInterval * * @param {boolean} secondPass * TO-DO: parameter description * * @emits Highcharts.Axis#event:foundExtremes */ setTickInterval(secondPass) { const axis = this, { categories, chart, dataMax, dataMin, dateTime, isXAxis, logarithmic, options, softThreshold } = axis, threshold = isNumber(axis.threshold) ? axis.threshold : void 0, minRange = axis.minRange || 0, { ceiling, floor, linkedTo, softMax, softMin } = options, linkedParent = isNumber(linkedTo) && chart[axis.coll]?.[linkedTo], tickPixelIntervalOption = options.tickPixelInterval; let maxPadding = options.maxPadding, minPadding = options.minPadding, range = 0, linkedParentExtremes, // Only non-negative tickInterval is valid, #12961 tickIntervalOption = isNumber(options.tickInterval) && options.tickInterval >= 0 ? options.tickInterval : void 0, thresholdMin, thresholdMax, hardMin, hardMax; if (!dateTime && !categories && !linkedParent) { this.getTickAmount(); } // Min or max set either by zooming/setExtremes or initial options hardMin = pick(axis.userMin, options.min); hardMax = pick(axis.userMax, options.max); // Linked axis gets the extremes from the parent axis if (linkedParent) { axis.linkedParent = linkedParent; linkedParentExtremes = linkedParent.getExtremes(); axis.min = pick(linkedParentExtremes.min, linkedParentExtremes.dataMin); axis.max = pick(linkedParentExtremes.max, linkedParentExtremes.dataMax); if (options.type !== linkedParent.options.type) { // Can't link axes of different type error(11, true, chart); } // Initial min and max from the extreme data values } else { // Adjust to hard threshold if (softThreshold && defined(threshold) && isNumber(dataMax) && isNumber(dataMin)) { if (dataMin >= threshold) { thresholdMin = threshold; minPadding = 0; } else if (dataMax <= threshold) { thresholdMax = threshold; maxPadding = 0; } } axis.min = pick(hardMin, thresholdMin, dataMin); axis.max = pick(hardMax, thresholdMax, dataMax); } if (isNumber(axis.max) && isNumber(axis.min)) { if (logarithmic) { if (axis.positiveValuesOnly && !secondPass && Math.min(axis.min, pick(dataMin, axis.min)) <= 0) { // #978 // Can't plot negative values on log axis error(10, true, chart); } // The correctFloat cures #934, float errors on full tens. But // it was too aggressive for #4360 because of conversion back to // lin, therefore use precision 15. axis.min = correctFloat(logarithmic.log2lin(axis.min), 16); axis.max = correctFloat(logarithmic.log2lin(axis.max), 16); } // Handle zoomed range if (axis.range && isNumber(dataMin)) { // #618, #6773: axis.userMin = axis.min = hardMin = Math.max(dataMin, axis.minFromRange() || 0); axis.userMax = hardMax = axis.max; axis.range = void 0; // Don't use it when running setExtremes } } // Hook for Highcharts Stock Scroller and bubble axis padding fireEvent(axis, 'foundExtremes'); // Adjust min and max for the minimum range axis.adjustForMinRange(); if (isNumber(axis.min) && isNumber(axis.max)) { // Handle options for floor, ceiling, softMin and softMax (#6359) if (!isNumber(axis.userMin) && isNumber(softMin) && softMin < axis.min) { axis.min = hardMin = softMin; // #6894 } if (!isNumber(axis.userMax) && isNumber(softMax) && softMax > axis.max) { axis.max = hardMax = softMax; // #6894 } // Pad the values to get clear of the chart's edges. To avoid // tickInterval taking the padding into account, we do this after // computing tick interval (#1337). if (!categories && !axis.axisPointRange && !axis.stacking?.usePercentage && !linkedParent) { range = axis.max - axis.min; if (range) { if (!defined(hardMin) && minPadding) { axis.min -= range * minPadding; } if (!defined(hardMax) && maxPadding) { axis.max += range * maxPadding; } } } if (!isNumber(axis.userMin) && isNumber(floor)) { axis.min = Math.max(axis.min, floor); } if (!isNumber(axis.userMax) && isNumber(ceiling)) { axis.max = Math.min(axis.max, ceiling); } // When the threshold is soft, adjust the extreme value only if the // data extreme and the padded extreme land on either side of the // threshold. For example, a series of [0, 1, 2, 3] would make the // yAxis add a tick for -1 because of the default `minPadding` and // `startOnTick` options. This is prevented by the `softThreshold` // option. if (softThreshold && isNumber(dataMin) && isNumber(dataMax)) { const numThreshold = threshold || 0; if (!defined(hardMin) && axis.min < numThreshold && dataMin >= numThreshold) { axis.min = options.minRange ? Math.min(numThreshold, axis.max - minRange) : numThreshold; } else if (!defined(hardMax) && axis.max > numThreshold && dataMax <= numThreshold) { axis.max = options.minRange ? Math.max(numThreshold, axis.min + minRange) : numThreshold; } } // If min is bigger than highest, or if max less than lowest value, // the chart should not render points. (#14417) if (!chart.polar && axis.min > axis.max) { if (defined(options.min)) { axis.max = axis.min; } else if (defined(options.max)) { axis.min = axis.max; } } range = axis.max - axis.min; } // Get tickInterval if (axis.min === axis.max || !isNumber(axis.min) || !isNumber(axis.max)) { axis.tickInterval = 1; } else if (linkedParent && !tickIntervalOption && tickPixelIntervalOption === linkedParent.options.tickPixelInterval) { axis.tickInterval = tickIntervalOption = linkedParent.tickInterval; } else { axis.tickInterval = pick(tickIntervalOption, this.tickAmount ? range / Math.max(this.tickAmount - 1, 1) : void 0, // For categorized axis, 1 is default, for linear axis use // tickPix categories ? 1 : // Don't let it be more than the data range range * tickPixelIntervalOption / Math.max(axis.len, tickPixelIntervalOption)); } // Now we're finished detecting min and max, crop and group series data. // This is in turn needed in order to find tick positions in ordinal // axes. if (isXAxis && !secondPass) { const hasExtremesChanged = axis.min !== axis.old?.min || axis.max !== axis.old?.max; // First process all series assigned to that axis. axis.series.forEach(function (series) { // Allows filtering out points outside the plot area. series.forceCrop = series.forceCropping?.(); series.processData(hasExtremesChanged); }); // Then apply grouping if needed. The hasExtremesChanged helps to // decide if the data grouping should be skipped in the further // calculations #16319. fireEvent(this, 'postProcessData', { hasExtremesChanged }); } // Set the translation factor used in translate function axis.setAxisTranslation(); // Hook for ordinal axes and radial axes fireEvent(this, 'initialAxisTranslation'); // In column-like charts, don't cramp in more ticks than there are // points (#1943, #4184) if (axis.pointRange && !tickIntervalOption) { axis.tickInterval = Math.max(axis.pointRange, axis.tickInterval); } // Before normalizing the tick interval, handle minimum tick interval. // This applies only if tickInterval is not defined. const minTickInterval = pick(options.minTickInterval, // In datetime axes, don't go below the data interval, except when // there are scatter-like series involved (#13369). dateTime && !axis.series.some((s) => s.noSharedTooltip) ? axis.closestPointRange : 0); if (!tickIntervalOption && axis.tickInterval < minTickInterval) { axis.tickInterval = minTickInterval; } // For linear axes, normalize the interval if (!dateTime && !logarithmic && !tickIntervalOption) { axis.tickInterval = getNormalizedTickInterval(axis, axis.tickInterval); } // Prevent ticks from getting so close that we can't draw the labels if (!this.tickAmount) { axis.tickInterval = axis.unsquish(); } this.setTickPositions(); } /** * Now we have computed the normalized tickInterval, get the tick positions. * * @private * @function Highcharts.Axis#setTickPositions * * @emits Highcharts.Axis#event:afterSetTickPositions */ setTickPositions() { const axis = this, options = this.options, tickPositionsOption = options.tickPositions, tickPositioner = options.tickPositioner, minorTickIntervalOption = this.getMinorTickInterval(), allowEndOnTick = !this.isPanning, startOnTick = allowEndOnTick && options.startOnTick, endOnTick = allowEndOnTick && options.endOnTick; let tickPositions = [], tickPositionerResult; // Set the tickmarkOffset this.tickmarkOffset = (this.categories && options.tickmarkPlacement === 'between' && this.tickInterval === 1) ? 0.5 : 0; // #3202 // Get minorTickInterval this.minorTickInterval = minorTickIntervalOption === 'auto' && this.tickInterval ? this.tickInterval / options.minorTicksPerMajor : minorTickIntervalOption; // When there is only one point, or all points have the same value on // this axis, then min and max are equal and tickPositions.length is 0 // or 1. In this case, add some padding in order to center the point, // but leave it with one tick. #1337. this.single = this.min === this.max && defined(this.min) && !this.tickAmount && ( // Data is on integer (#6563) this.min % 1 === 0 || // Between integers and decimals are not allowed (#6274) options.allowDecimals !== false); /** * Contains the current positions that are laid out on the axis. The * positions are numbers in terms of axis values. In a category axis * they are integers, in a datetime axis they are also integers, but * designating milliseconds. * * This property is read only - for modifying the tick positions, use * the `tickPositioner` callback or [axis.tickPositions( * https://api.highcharts.com/highcharts/xAxis.tickPositions) option * instead. * * @name Highcharts.Axis#tickPositions * @type {Highcharts.AxisTickPositionsArray|undefined} */ if (tickPositionsOption) { // Find the tick positions. Work on a copy (#1565) tickPositions = tickPositionsOption.slice(); } else if (isNumber(this.min) && isNumber(this.max)) { // Too many ticks (#6405). Create a friendly warning and provide two // ticks so at least we can show the data series. if (!axis.ordinal?.positions && ((this.max - this.min) / this.tickInterval > Math.max(2 * this.len, 200))) { tickPositions = [this.min, this.max]; error(19, false, this.chart); } else if (axis.dateTime) { tickPositions = axis.getTimeTicks(axis.dateTime.normalizeTimeTickInterval(this.tickInterval, options.units), this.min, this.max, options.startOfWeek, axis.ordinal?.positions, this.closestPointRange, true); } else if (axis.logarithmic) { tickPositions = axis.logarithmic.getLogTickPositions(this.tickInterval, this.min, this.max); } else { const startingTickInterval = this.tickInterval; let adjustedTickInterval = startingTickInterval; while (adjustedTickInterval <= startingTickInterval * 2) { tickPositions = this.getLinearTickPositions(this.tickInterval, this.min, this.max); // If there are more tick positions than the set tickAmount, // increase the tickInterval and continue until it fits. // (#17100) if (this.tickAmount && tickPositions.length > this.tickAmount) { this.tickInterval = getNormalizedTickInterval(this, adjustedTickInterval *= 1.1); } else { break; } } } // Too dense ticks, keep only the first and last (#4477) if (tickPositions.length > this.len) { tickPositions = [ tickPositions[0], tickPositions[tickPositions.length - 1] ]; // Reduce doubled value (#7339) if (tickPositions[0] === tickPositions[1]) { tickPositions.length = 1; } } // Run the tick positioner callback, that allows modifying auto tick // positions. if (tickPositioner) { // Make it available to the positioner this.tickPositions = tickPositions; tickPositionerResult = tickPositioner.apply(axis, [this.min, this.max]); if (tickPositionerResult) { tickPositions = tickPositionerResult; } } } this.tickPositions = tickPositions; // Reset min/max or remove extremes based on start/end on tick this.paddedTicks = tickPositions.slice(0); // Used for logarithmic minor this.trimTicks(tickPositions, startOnTick, endOnTick); if (!this.isLinked && isNumber(this.min) && isNumber(this.max)) { // Substract half a unit (#2619, #2846, #2515, #3390), but not in // case of multiple ticks (#6897) if (this.single && tickPositions.length < 2 && !this.categories && !this.series.some((s) => (s.is('heatmap') && s.options.pointPlacement === 'between'))) { this.min -= 0.5; this.max += 0.5; } if (!tickPositionsOption && !tickPositionerResult) { this.adjustTickAmount(); } } fireEvent(this, 'afterSetTickPositions'); } /** * Handle startOnTick and endOnTick by either adapting to padding min/max or * rounded min/max. Also handle single data points. * * @private * @function Highcharts.Axis#trimTicks * * @param {Array} tickPositions * TO-DO: parameter description * * @param {boolean} [startOnTick] * TO-DO: parameter description * * @param {boolean} [endOnTick] * TO-DO: parameter description */ trimTicks(tickPositions, startOnTick, endOnTick) { const roundedMin = tickPositions[0], roundedMax = tickPositions[tickPositions.length - 1], minPointOffset = (!this.isOrdinal && this.minPointOffset) || 0; // (#12716) fireEvent(this, 'trimTicks'); if (!this.isLinked) { if (startOnTick && roundedMin !== -Infinity) { // #6502 this.min = roundedMin; } else { while (this.min - minPointOffset > tickPositions[0]) { tickPositions.shift(); } } if (endOnTick) { this.max = roundedMax; } else { while (this.max + minPointOffset < tickPositions[tickPositions.length - 1]) { tickPositions.pop(); } } // If no tick are left, set one tick in the middle (#3195) if (tickPositions.length === 0 && defined(roundedMin) && !this.options.tickPositions) { tickPositions.push((roundedMax + roundedMin) / 2); } } } /** * Check if there are multiple axes in the same pane. * * @private * @function Highcharts.Axis#alignToOthers * * @return {boolean|undefined} * True if there are other axes. */ alignToOthers() { const axis = this, chart = axis.chart, alignedAxes = [this], options = axis.options, chartOptions = chart.options.chart, alignThresholds = (this.coll === 'yAxis' && chartOptions.alignThresholds), thresholdAlignments = []; let hasOther; axis.thresholdAlignment = void 0; if (( // Only if alignTicks or alignThresholds is true (chartOptions.alignTicks !== false && options.alignTicks) || alignThresholds) && // Disabled when startOnTick or endOnTick are false (#7604) options.startOnTick !== false && options.endOnTick !== false && // Don't try to align ticks on a log axis, they are not evenly // spaced (#6021) !axis.logarithmic) { // Get a key identifying which pane the axis belongs to const getKey = (axis) => { const { horiz, options } = axis; return [ horiz ? options.left : options.top, options.width, options.height, options.pane ].join(','); }; const thisKey = getKey(this); chart[this.coll].forEach(function (otherAxis) { const { series } = otherAxis; if ( // #4442 series.length && series.some((s) => s.visible) && otherAxis !== axis && getKey(otherAxis) === thisKey) { hasOther = true; // #4201 alignedAxes.push(otherAxis); } }); } if (hasOther && alignThresholds) { // Handle alignThresholds. The `thresholdAlignments` array keeps // records of where each axis in the group wants its threshold, from // 0 which is on `axis.min`, to 1 which is on `axis.max`. alignedAxes.forEach((otherAxis) => { const threshAlign = otherAxis.getThresholdAlignment(axis); if (isNumber(threshAlign)) { thresholdAlignments.push(threshAlign); } }); // For each of the axes in the group, record the average // `thresholdAlignment`. const thresholdAlignment = thresholdAlignments.length > 1 ? thresholdAlignments.reduce((sum, n) => (sum += n), 0) / thresholdAlignments.length : void 0; alignedAxes.forEach((axis) => { axis.thresholdAlignment = thresholdAlignment; }); } return hasOther; } /** * Where the axis wants its threshold, from 0 which is on `axis.min`, to 1 which * is on `axis.max`. * * @private * @function Highcharts.Axis#getThresholdAlignment */ getThresholdAlignment(callerAxis) { if (!isNumber(this.dataMin) || (this !== callerAxis && this.series.some((s) => (s.isDirty || s.isDirtyData)))) { this.getSeriesExtremes(); } if (isNumber(this.threshold)) { let thresholdAlignment = clamp(((this.threshold - (this.dataMin || 0)) / ((this.dataMax || 0) - (this.dataMin || 0))), 0, 1); if (this.options.reversed) { thresholdAlignment = 1 - thresholdAlignment; } return thresholdAlignment; } } /** * Find the max ticks of either the x and y axis collection, and record it * in `this.tickAmount`. * * @private * @function Highcharts.Axis#getTickAmount */ getTickAmount() { const axis = this, options = this.options, tickPixelInterval = options.tickPixelInterval; let tickAmount = options.tickAmount; if (!defined(options.tickInterval) && !tickAmount && this.len < tickPixelInterval && !this.isRadial && !axis.logarithmic && options.startOnTick && options.endOnTick) { tickAmount = 2; } if (!tickAmount && this.alignToOthers()) { // Add 1 because 4 tick intervals require 5 ticks (including first // and last) tickAmount = Math.ceil(this.len / tickPixelInterval) + 1; } // For tick amounts of 2 and 3, compute five ticks and remove the // intermediate ones. This prevents the axis from adding ticks that are // too far away from the data extremes. if (tickAmount < 4) { this.finalTickAmt = tickAmount; tickAmount = 5; } this.tickAmount = tickAmount; } /** * When using multiple axes, adjust the number of ticks to match the highest * number of ticks in that group. * * @private * @function Highcharts.Axis#adjustTickAmount */ adjustTickAmount() { const axis = this, { finalTickAmt, max, min, options, tickPositions, tickAmount, thresholdAlignment } = axis, currentTickAmount = tickPositions?.length, threshold = pick(axis.threshold, axis.softThreshold ? 0 : null); let len, i, tickInterval = axis.tickInterval, thresholdTickIndex; const // Extend the tickPositions by appending a position append = () => tickPositions.push(correctFloat(tickPositions[tickPositions.length - 1] + tickInterval)), // Extend the tickPositions by prepending a position prepend = () => tickPositions.unshift(correctFloat(tickPositions[0] - tickInterval)); // If `thresholdAlignment` is a number, it means the `alignThresholds` // option is true. The `thresholdAlignment` is a scalar value between 0 // and 1 for where the threshold should be relative to `axis.min` and // `axis.max`. Now that we know the tick amount, convert this to the // tick index. Unless `thresholdAlignment` is exactly 0 or 1, avoid the // first or last tick because that would lead to series being clipped. if (isNumber(thresholdAlignment)) { thresholdTickIndex = thresholdAlignment < 0.5 ? Math.ceil(thresholdAlignment * (tickAmount - 1)) : Math.floor(thresholdAlignment * (tickAmount - 1)); if (options.reversed) { thresholdTickIndex = tickAmount - 1 - thresholdTickIndex; } } if (axis.hasData() && isNumber(min) && isNumber(max)) { // #14769 // Adjust extremes and translation to the modified tick positions const adjustExtremes = () => { axis.transA *= (currentTickAmount - 1) / (tickAmount - 1); // Do not crop when ticks are not extremes (#9841) axis.min = options.startOnTick ? tickPositions[0] : Math.min(min, tickPositions[0]); axis.max = options.endOnTick ? tickPositions[tickPositions.length - 1] : Math.max(max, tickPositions[tickPositions.length - 1]); }; // When the axis is subject to the alignThresholds option. Use // axis.threshold because the local threshold includes the // `softThreshold`. if (isNumber(thresholdTickIndex) && isNumber(axis.threshold)) { // Throw away the previously computed tickPositions and start // from scratch with only the threshold itself, then add ticks // below the threshold first, then fill up above the threshold. // If we are not able to fill up to axis.max, double the // tickInterval and run again. while (tickPositions[thresholdTickIndex] !== threshold || tickPositions.length !== tickAmount || tickPositions[0] > min || tickPositions[tickPositions.length - 1] < max) { tickPositions.length = 0; tickPositions.push(axis.threshold); while (tickPositions.length < tickAmount) { if ( // Start by prepending positions until the threshold // is at the required index... tickPositions[thresholdTickIndex] === void 0 || tickPositions[thresholdTickIndex] > axis.threshold) { prepend(); } else { // ... then append positions until we have the // required length append(); } } // Safety vent if (tickInterval > axis.tickInterval * 8) { break; } tickInterval *= 2; } adjustExtremes(); } else if (currentTickAmount < tickAmount) { while (tickPositions.length < tickAmount) { // Extend evenly for both sides unless we're on the // threshold (#3965) if (tickPositions.length % 2 || min === threshold) { append(); } else { prepend(); } } adjustExtremes(); } // The finalTickAmt property is set in getTickAmount if (defined(finalTickAmt)) { i = len = tickPositions.length; while (i--) { if ( // Remove every other tick (finalTickAmt === 3 && i % 2 === 1) || // Remove all but first and last (finalTickAmt <= 2 && i > 0 && i < len - 1)) { tickPositions.splice(i, 1); } } axis.finalTickAmt = void 0; } } } /** * Set the scale based on data min and max, user set min and max or options. * * @private * @function Highcharts.Axis#setScale * * @emits Highcharts.Axis#event:afterSetScale */ setScale() { const axis = this, { coll, stacking } = axis; let isDirtyData = false, isXAxisDirty = false; axis.series.forEach((series) => { isDirtyData = isDirtyData || series.isDirtyData || series.isDirty; // When x axis is dirty, we need new data extremes for y as // well: isXAxisDirty = (isXAxisDirty || (series.xAxis && series.xAxis.isDirty) || false); }); // Set the new axisLength axis.setAxisSize(); const isDirtyAxisLength = axis.len !== (axis.old && axis.old.len); // Do we really need to go through all this? if (isDirtyAxisLength || isDirtyData || isXAxisDirty || axis.isLinked || axis.forceRedraw || axis.userMin !== (axis.old && axis.old.userMin) || axis.userMax !== (axis.old && axis.old.userMax) || axis.alignToOthers()) { if (stacking && coll === 'yAxis') { stacking.buildStacks(); } axis.forceRedraw = false; // #18066 delete minRange property to ensure that it will be // calculated again after dirty data in series if (!axis.userMinRange) { axis.minRange = void 0; } // Get data extremes if needed axis.getSeriesExtremes(); // Get fixed positions based on tickInterval axis.setTickInterval(); if (stacking && coll === 'xAxis') { stacking.buildStacks(); } // Mark as dirty if it is not already set to dirty and extremes have // changed. #595. if (!axis.isDirty) { axis.isDirty = isDirtyAxisLength || axis.min !== axis.old?.min || axis.max !== axis.old?.max; } } else if (stacking) { stacking.cleanStacks(); } // Recalculate all extremes object when the data has changed. It is // required when vertical panning is enabled. if (isDirtyData) { delete axis.allExtremes; } fireEvent(this, 'afterSetScale'); } /** * Set the minimum and maximum of the axes after render time. If the * `startOnTick` and `endOnTick` options are true, the minimum and maximum * values are rounded off to the nearest tick. To prevent this, these * options can be set to false before calling setExtremes. Also, setExtremes * will not allow a range lower than the `minRange` option, which by default * is the range of five points. * * @sample highcharts/members/axis-setextremes/ * Set extremes from a button * @sample highcharts/members/axis-setextremes-datetime/ * Set extremes on a datetime axis * @sample highcharts/members/axis-setextremes-off-ticks/ * Set extremes off ticks * @sample stock/members/axis-setextremes/ * Set extremes in Highcharts Stock * * @function Highcharts.Axis#setExtremes * * @param {number} [newMin] * The new minimum value. * * @param {number} [newMax] * The new maximum value. * * @param {boolean} [redraw=true] * Whether to redraw the chart or wait for an explicit call to * {@link Highcharts.Chart#redraw} * * @param {boolean|Partial} [animation=true] * Enable or modify animations. * * @param {*} [eventArguments] * Arguments to be accessed in event handler. * * @emits Highcharts.Axis#event:setExtremes */ setExtremes(min, max, redraw = true, animation, eventArguments) { this.series.forEach((serie) => { delete serie.kdTree; }); // Extend the arguments with min and max eventArguments = extend(eventArguments, { min, max }); // Fire the event fireEvent(this, 'setExtremes', eventArguments, (e) => { this.userMin = e.min; this.userMax = e.max; this.eventArgs = e; if (redraw) { this.chart.redraw(animation); } }); } /** * Update the axis metrics. * * @private * @function Highcharts.Axis#setAxisSize */ setAxisSize() { const chart = this.chart, options = this.options, // [top, right, bottom, left] offsets = options.offsets || [0, 0, 0, 0], horiz = this.horiz, // Check for percentage based input values. Rounding fixes problems // with column overflow and plot line filtering (#4898, #4899) width = this.width = Math.round(relativeLength(pick(options.width, chart.plotWidth - offsets[3] + offsets[1]), chart.plotWidth)), height = this.height = Math.round(relativeLength(pick(options.height, chart.plotHeight - offsets[0] + offsets[2]), chart.plotHeight)), top = this.top = Math.round(relativeLength(pick(options.top, chart.plotTop + offsets[0]), chart.plotHeight, chart.plotTop)), left = this.left = Math.round(relativeLength(pick(options.left, chart.plotLeft + offsets[3]), chart.plotWidth, chart.plotLeft)); // Expose basic values to use in Series object and navigator this.bottom = chart.chartHeight - height - top; this.right = chart.chartWidth - width - left; // Direction agnostic properties this.len = Math.max(horiz ? width : height, 0); // Math.max fixes #905 /** * The position of the axis in terms of pixels, compared to the chart * edge. In a horizontal axis it is the same as `chart.plotLeft` unless * the axis is explicitly positioned, and in a default vertical axis it * is the same as `chart.plotTop`. * * @name Highcharts.Axis#pos * @type {number} */ this.pos = horiz ? left : top; // Distance from SVG origin } /** * Get the current extremes for the axis. * * @sample highcharts/members/axis-getextremes/ * Report extremes by click on a button * * @function Highcharts.Axis#getExtremes * * @return {Highcharts.ExtremesObject} * An object containing extremes information. */ getExtremes() { const axis = this, log = axis.logarithmic; return { min: log ? correctFloat(log.lin2log(axis.min)) : axis.min, max: log ? correctFloat(log.lin2log(axis.max)) : axis.max, dataMin: axis.dataMin, dataMax: axis.dataMax, userMin: axis.userMin, userMax: axis.userMax }; } /** * Get the zero plane either based on zero or on the min or max value. * Used in bar and area plots. * * @function Highcharts.Axis#getThreshold * * @param {number} threshold * The threshold in axis values. * * @return {number} * The translated threshold position in terms of pixels, and corrected to * stay within the axis bounds. */ getThreshold(threshold) { const axis = this, log = axis.logarithmic, realMin = log ? log.lin2log(axis.min) : axis.min, realMax = log ? log.lin2log(axis.max) : axis.max; if (threshold === null || threshold === -Infinity) { threshold = realMin; } else if (threshold === Infinity) { threshold = realMax; } else if (realMin > threshold) { threshold = realMin; } else if (realMax < threshold) { threshold = realMax; } return axis.translate(threshold, 0, 1, 0, 1); } /** * Compute auto alignment for the axis label based on which side the axis is * on and the given rotation for the label. * * @private * @function Highcharts.Axis#autoLabelAlign * * @param {number} rotation * The rotation in degrees as set by either the `rotation` or `autoRotation` * options. * * @return {Highcharts.AlignValue} * Can be `"center"`, `"left"` or `"right"`. */ autoLabelAlign(rotation) { const angle = (pick(rotation, 0) - (this.side * 90) + 720) % 360, evt = { align: 'center' }; fireEvent(this, 'autoLabelAlign', evt, function (e) { if (angle > 15 && angle < 165) { e.align = 'right'; } else if (angle > 195 && angle < 345) { e.align = 'left'; } }); return evt.align; } /** * Get the tick length and width for the axis based on axis options. * * @private * @function Highcharts.Axis#tickSize * * @param {string} [prefix] * 'tick' or 'minorTick' * * @return {Array|undefined} * An array of tickLength and tickWidth */ tickSize(prefix) { const options = this.options, tickWidth = pick(options[prefix === 'tick' ? 'tickWidth' : 'minorTickWidth'], // Default to 1 on linear and datetime X axes prefix === 'tick' && this.isXAxis && !this.categories ? 1 : 0); let tickLength = options[prefix === 'tick' ? 'tickLength' : 'minorTickLength'], tickSize; if (tickWidth && tickLength) { // Negate the length if (options[prefix + 'Position'] === 'inside') { tickLength = -tickLength; } tickSize = [tickLength, tickWidth]; } const e = { tickSize }; fireEvent(this, 'afterTickSize', e); return e.tickSize; } /** * Return the size of the labels. * * @private * @function Highcharts.Axis#labelMetrics */ labelMetrics() { const renderer = this.chart.renderer, ticks = this.ticks, tick = ticks[Object.keys(ticks)[0]] || {}; return this.chart.renderer.fontMetrics(tick.label || tick.movedLabel || renderer.box); } /** * Prevent the ticks from getting so close we can't draw the labels. On a * horizontal axis, this is handled by rotating the labels, removing ticks * and adding ellipsis. On a vertical axis remove ticks and add ellipsis. * * @private * @function Highcharts.Axis#unsquish */ unsquish() { const labelOptions = this.options.labels, horiz = this.horiz, tickInterval = this.tickInterval, slotSize = this.len / (((this.categories ? 1 : 0) + this.max - this.min) / tickInterval), rotationOption = labelOptions.rotation, // We don't know the actual rendered line height at this point, but // it defaults to 0.75em lineHeight = this.labelMetrics().h, range = Math.max(this.max - this.min, 0), // Return the multiple of tickInterval that is needed to avoid // collision getStep = function (spaceNeeded) { let step = spaceNeeded / (slotSize || 1); step = step > 1 ? Math.ceil(step) : 1; // Guard for very small or negative angles (#9835) if (step * tickInterval > range && spaceNeeded !== Infinity && slotSize !== Infinity && range) { step = Math.ceil(range / tickInterval); } return correctFloat(step * tickInterval); }; let newTickInterval = tickInterval, rotation, bestScore = Number.MAX_VALUE, autoRotation; if (horiz) { if (!labelOptions.staggerLines) { if (isNumber(rotationOption)) { autoRotation = [rotationOption]; } else if (slotSize < labelOptions.autoRotationLimit) { autoRotation = labelOptions.autoRotation; } } if (autoRotation) { let step, score; // Loop over the given autoRotation options, and determine which // gives the best score. The best score is that with the lowest // number of steps and a rotation closest to horizontal. for (const rot of autoRotation) { if (rot === rotationOption || (rot && rot >= -90 && rot <= 90)) { // #3891 step = getStep(Math.abs(lineHeight / Math.sin(deg2rad * rot))); score = step + Math.abs(rot / 360); if (score < bestScore) { bestScore = score; rotation = rot; newTickInterval = step; } } } } } else { // #4411 newTickInterval = getStep(lineHeight * 0.75); } this.autoRotation = autoRotation; this.labelRotation = pick(rotation, isNumber(rotationOption) ? rotationOption : 0); return labelOptions.step ? tickInterval : newTickInterval; } /** * Get the general slot width for labels/categories on this axis. This may * change between the pre-render (from Axis.getOffset) and the final tick * rendering and placement. * * @private * @function Highcharts.Axis#getSlotWidth * * @param {Highcharts.Tick} [tick] Optionally, calculate the slot width * basing on tick label. It is used in highcharts-3d module, where the slots * has different widths depending on perspective angles. * * @return {number} * The pixel width allocated to each axis label. */ getSlotWidth(tick) { // #5086, #1580, #1931 const chart = this.chart, horiz = this.horiz, labelOptions = this.options.labels, slotCount = Math.max(this.tickPositions.length - (this.categories ? 0 : 1), 1), marginLeft = chart.margin[3]; // Used by grid axis if (tick && isNumber(tick.slotWidth)) { // #13221, can be 0 return tick.slotWidth; } if (horiz && labelOptions.step < 2) { if (labelOptions.rotation) { // #4415 return 0; } return ((this.staggerLines || 1) * this.len) / slotCount; } if (!horiz) { // #7028 const cssWidth = labelOptions.style.width; if (cssWidth !== void 0) { return parseInt(String(cssWidth), 10); } if (marginLeft) { return marginLeft - chart.spacing[3]; } } // Last resort, a fraction of the available size return chart.chartWidth * 0.33; } /** * Render the axis labels and determine whether ellipsis or rotation need to * be applied. * * @private * @function Highcharts.Axis#renderUnsquish */ renderUnsquish() { const chart = this.chart, renderer = chart.renderer, tickPositions = this.tickPositions, ticks = this.ticks, labelOptions = this.options.labels, labelStyleOptions = labelOptions.style, horiz = this.horiz, slotWidth = this.getSlotWidth(), innerWidth = Math.max(1, Math.round(slotWidth - 2 * labelOptions.padding)), attr = {}, labelMetrics = this.labelMetrics(), textOverflowOption = labelStyleOptions.textOverflow; let commonWidth, commonTextOverflow, maxLabelLength = 0, label, i, pos; // Set rotation option unless it is "auto", like in gauges if (!isString(labelOptions.rotation)) { // #4443 attr.rotation = labelOptions.rotation || 0; } // Get the longest label length tickPositions.forEach(function (tickPosition) { const tick = ticks[tickPosition]; // Replace label - sorting animation if (tick.movedLabel) { tick.replaceMovedLabel(); } if (tick && tick.label && tick.label.textPxLength > maxLabelLength) { maxLabelLength = tick.label.textPxLength; } }); this.maxLabelLength = maxLabelLength; // Handle auto rotation on horizontal axis if (this.autoRotation) { // Apply rotation only if the label is too wide for the slot, and // the label is wider than its height. if (maxLabelLength > innerWidth && maxLabelLength > labelMetrics.h) { attr.rotation = this.labelRotation; } else { this.labelRotation = 0; } // Handle word-wrap or ellipsis on vertical axis } else if (slotWidth) { // For word-wrap or ellipsis commonWidth = innerWidth; if (!textOverflowOption) { commonTextOverflow = 'clip'; // On vertical axis, only allow word wrap if there is room // for more lines. i = tickPositions.length; while (!horiz && i--) { pos = tickPositions[i]; label = ticks[pos].label; if (label) { // Reset ellipsis in order to get the correct // bounding box (#4070) if (label.styles.textOverflow === 'ellipsis') { label.css({ textOverflow: 'clip' }); // Set the correct width in order to read // the bounding box height (#4678, #5034) } else if (label.textPxLength > slotWidth) { label.css({ width: slotWidth + 'px' }); } if (label.getBBox().height > (this.len / tickPositions.length - (labelMetrics.h - labelMetrics.f))) { label.specificTextOverflow = 'ellipsis'; } } } } } // Add ellipsis if the label length is significantly longer than ideal if (attr.rotation) { commonWidth = (maxLabelLength > chart.chartHeight * 0.5 ? chart.chartHeight * 0.33 : maxLabelLength); if (!textOverflowOption) { commonTextOverflow = 'ellipsis'; } } // Set the explicit or automatic label alignment this.labelAlign = labelOptions.align || this.autoLabelAlign(this.labelRotation); if (this.labelAlign) { attr.align = this.labelAlign; } // Apply general and specific CSS tickPositions.forEach(function (pos) { const tick = ticks[pos], label = tick && tick.label, widthOption = labelStyleOptions.width, css = {}; if (label) { // This needs to go before the CSS in old IE (#4502) label.attr(attr); if (tick.shortenLabel) { tick.shortenLabel(); } else if (commonWidth && !widthOption && // Setting width in this case messes with the bounding box // (#7975) labelStyleOptions.whiteSpace !== 'nowrap' && ( // Speed optimizing, #7656 commonWidth < label.textPxLength || // Resetting CSS, #4928 label.element.tagName === 'SPAN')) { css.width = commonWidth + 'px'; if (!textOverflowOption) { css.textOverflow = (label.specificTextOverflow || commonTextOverflow); } label.css(css); // Reset previously shortened label (#8210) } else if (label.styles.width && !css.width && !widthOption) { label.css({ width: null }); } delete label.specificTextOverflow; tick.rotation = attr.rotation; } }, this); // Note: Why is this not part of getLabelPosition? this.tickRotCorr = renderer.rotCorr(labelMetrics.b, this.labelRotation || 0, this.side !== 0); } /** * Return true if the axis has associated data. * * @function Highcharts.Axis#hasData * * @return {boolean} * True if the axis has associated visible series and those series have * either valid data points or explicit `min` and `max` settings. */ hasData() { return this.series.some(function (s) { return s.hasData(); }) || (this.options.showEmpty && defined(this.min) && defined(this.max)); } /** * Adds the title defined in axis.options.title. * * @function Highcharts.Axis#addTitle * * @param {boolean} [display] * Whether or not to display the title. */ addTitle(display) { const axis = this, renderer = axis.chart.renderer, horiz = axis.horiz, opposite = axis.opposite, options = axis.options, axisTitleOptions = options.title, styledMode = axis.chart.styledMode; let textAlign; if (!axis.axisTitle) { textAlign = axisTitleOptions.textAlign; if (!textAlign) { textAlign = (horiz ? { low: 'left', middle: 'center', high: 'right' } : { low: opposite ? 'right' : 'left', middle: 'center', high: opposite ? 'left' : 'right' })[axisTitleOptions.align]; } axis.axisTitle = renderer .text(axisTitleOptions.text || '', 0, 0, axisTitleOptions.useHTML) .attr({ zIndex: 7, rotation: axisTitleOptions.rotation || 0, align: textAlign }) .addClass('highcharts-axis-title'); // #7814, don't mutate style option if (!styledMode) { axis.axisTitle.css(merge(axisTitleOptions.style)); } axis.axisTitle.add(axis.axisGroup); axis.axisTitle.isNew = true; } // Max width defaults to the length of the axis if (!styledMode && !axisTitleOptions.style.width && !axis.isRadial) { axis.axisTitle.css({ width: axis.len + 'px' }); } // Hide or show the title depending on whether showEmpty is set axis.axisTitle[display ? 'show' : 'hide'](display); } /** * Generates a tick for initial positioning. * * @private * @function Highcharts.Axis#generateTick * * @param {number} pos * The tick position in axis values. * * @param {number} [i] * The index of the tick in {@link Axis.tickPositions}. */ generateTick(pos) { const axis = this, ticks = axis.ticks; if (!ticks[pos]) { ticks[pos] = new Tick(axis, pos); } else { ticks[pos].addLabel(); // Update labels depending on tick interval } } /** * Create the axisGroup and gridGroup elements on first iteration. * * @private * @function Highcharts.Axis#getOffset * * @emits Highcharts.Axis#event:afterGetOffset */ createGroups() { const { axisParent, // Used in color axis chart, coll, options } = this, renderer = chart.renderer; const createGroup = (name, suffix, zIndex) => renderer.g(name) .attr({ zIndex }) .addClass(`highcharts-${coll.toLowerCase()}${suffix} ` + (this.isRadial ? `highcharts-radial-axis${suffix} ` : '') + (options.className || '')) .add(axisParent); if (!this.axisGroup) { this.gridGroup = createGroup('grid', '-grid', options.gridZIndex); this.axisGroup = createGroup('axis', '', options.zIndex); this.labelGroup = createGroup('axis-labels', '-labels', options.labels.zIndex); } } /** * Render the tick labels to a preliminary position to get their sizes * * @private * @function Highcharts.Axis#getOffset * * @emits Highcharts.Axis#event:afterGetOffset */ getOffset() { const axis = this, { chart, horiz, options, side, ticks, tickPositions, coll } = axis, invertedSide = (chart.inverted && !axis.isZAxis ? [1, 0, 3, 2][side] : side), hasData = axis.hasData(), axisTitleOptions = options.title, labelOptions = options.labels, hasCrossing = isNumber(options.crossing), axisOffset = chart.axisOffset, clipOffset = chart.clipOffset, directionFactor = [-1, 1, 1, -1][side]; let showAxis, titleOffset = 0, titleOffsetOption, titleMargin = 0, labelOffset = 0, // Reset labelOffsetPadded, lineHeightCorrection; // For reuse in Axis.render axis.showAxis = showAxis = hasData || options.showEmpty; // Set/reset staggerLines axis.staggerLines = (axis.horiz && labelOptions.staggerLines) || void 0; axis.createGroups(); if (hasData || axis.isLinked) { // Generate ticks tickPositions.forEach(function (pos) { axis.generateTick(pos); }); axis.renderUnsquish(); // Left side must be align: right and right side must // have align: left for labels axis.reserveSpaceDefault = (side === 0 || side === 2 || { 1: 'left', 3: 'right' }[side] === axis.labelAlign); if (pick(labelOptions.reserveSpace, hasCrossing ? false : null, axis.labelAlign === 'center' ? true : null, axis.reserveSpaceDefault)) { tickPositions.forEach(function (pos) { // Get the highest offset labelOffset = Math.max(ticks[pos].getLabelSize(), labelOffset); }); } if (axis.staggerLines) { labelOffset *= axis.staggerLines; } axis.labelOffset = labelOffset * (axis.opposite ? -1 : 1); } else { // Doesn't have data objectEach(ticks, function (tick, n) { tick.destroy(); delete ticks[n]; }); } if (axisTitleOptions?.text && axisTitleOptions.enabled !== false) { axis.addTitle(showAxis); if (showAxis && !hasCrossing && axisTitleOptions.reserveSpace !== false) { axis.titleOffset = titleOffset = axis.axisTitle.getBBox()[horiz ? 'height' : 'width']; titleOffsetOption = axisTitleOptions.offset; titleMargin = defined(titleOffsetOption) ? 0 : pick(axisTitleOptions.margin, horiz ? 5 : 10); } } // Render the axis line axis.renderLine(); // Handle automatic or user set offset axis.offset = directionFactor * pick(options.offset, axisOffset[side] ? axisOffset[side] + (options.margin || 0) : 0); axis.tickRotCorr = axis.tickRotCorr || { x: 0, y: 0 }; // Polar if (side === 0) { lineHeightCorrection = -axis.labelMetrics().h; } else if (side === 2) { lineHeightCorrection = axis.tickRotCorr.y; } else { lineHeightCorrection = 0; } // Find the padded label offset labelOffsetPadded = Math.abs(labelOffset) + titleMargin; if (labelOffset) { labelOffsetPadded -= lineHeightCorrection; labelOffsetPadded += directionFactor * (horiz ? pick(labelOptions.y, axis.tickRotCorr.y + directionFactor * labelOptions.distance) : pick(labelOptions.x, directionFactor * labelOptions.distance)); } axis.axisTitleMargin = pick(titleOffsetOption, labelOffsetPadded); if (axis.getMaxLabelDimensions) { axis.maxLabelDimensions = axis.getMaxLabelDimensions(ticks, tickPositions); } // Due to GridAxis.tickSize, tickSize should be calculated after ticks // has rendered. if (coll !== 'colorAxis') { const tickSize = this.tickSize('tick'); axisOffset[side] = Math.max(axisOffset[side], (axis.axisTitleMargin || 0) + titleOffset + directionFactor * axis.offset, labelOffsetPadded, // #3027 tickPositions && tickPositions.length && tickSize ? tickSize[0] + directionFactor * axis.offset : 0 // #4866 ); // Decide the clipping needed to keep the graph inside // the plot area and axis lines const clip = !axis.axisLine || options.offset ? 0 : // #4308, #4371: Math.floor(axis.axisLine.strokeWidth() / 2) * 2; clipOffset[invertedSide] = Math.max(clipOffset[invertedSide], clip); } fireEvent(this, 'afterGetOffset'); } /** * Internal function to get the path for the axis line. Extended for polar * charts. * * @function Highcharts.Axis#getLinePath * * @param {number} lineWidth * The line width in pixels. * * @return {Highcharts.SVGPathArray} * The SVG path definition in array form. */ getLinePath(lineWidth) { const chart = this.chart, opposite = this.opposite, offset = this.offset, horiz = this.horiz, lineLeft = this.left + (opposite ? this.width : 0) + offset, lineTop = chart.chartHeight - this.bottom - (opposite ? this.height : 0) + offset; if (opposite) { lineWidth *= -1; // Crispify the other way - #1480, #1687 } return chart.renderer .crispLine([ [ 'M', horiz ? this.left : lineLeft, horiz ? lineTop : this.top ], [ 'L', horiz ? chart.chartWidth - this.right : lineLeft, horiz ? lineTop : chart.chartHeight - this.bottom ] ], lineWidth); } /** * Render the axis line. Called internally when rendering and redrawing the * axis. * * @function Highcharts.Axis#renderLine */ renderLine() { if (!this.axisLine) { this.axisLine = this.chart.renderer.path() .addClass('highcharts-axis-line') .add(this.axisGroup); if (!this.chart.styledMode) { this.axisLine.attr({ stroke: this.options.lineColor, 'stroke-width': this.options.lineWidth, zIndex: 7 }); } } } /** * Position the axis title. * * @private * @function Highcharts.Axis#getTitlePosition * * @return {Highcharts.PositionObject} * X and Y positions for the title. */ getTitlePosition(axisTitle) { // Compute anchor points for each of the title align options const horiz = this.horiz, axisLeft = this.left, axisTop = this.top, axisLength = this.len, axisTitleOptions = this.options.title, margin = horiz ? axisLeft : axisTop, opposite = this.opposite, offset = this.offset, xOption = axisTitleOptions.x, yOption = axisTitleOptions.y, fontMetrics = this.chart.renderer.fontMetrics(axisTitle), // The part of a multiline text that is below the baseline of the // first line. Subtract 1 to preserve pixel-perfectness from the // old behaviour (v5.0.12), where only one line was allowed. textHeightOvershoot = axisTitle ? Math.max(axisTitle.getBBox(false, 0).height - fontMetrics.h - 1, 0) : 0, // The position in the length direction of the axis alongAxis = ({ low: margin + (horiz ? 0 : axisLength), middle: margin + axisLength / 2, high: margin + (horiz ? axisLength : 0) })[axisTitleOptions.align], // The position in the perpendicular direction of the axis offAxis = (horiz ? axisTop + this.height : axisLeft) + (horiz ? 1 : -1) * // Horizontal axis reverses the margin (opposite ? -1 : 1) * // So does opposite axes (this.axisTitleMargin || 0) + [ -textHeightOvershoot, textHeightOvershoot, fontMetrics.f, -textHeightOvershoot // Left ][this.side], titlePosition = { x: horiz ? alongAxis + xOption : offAxis + (opposite ? this.width : 0) + offset + xOption, y: horiz ? offAxis + yOption - (opposite ? this.height : 0) + offset : alongAxis + yOption }; fireEvent(this, 'afterGetTitlePosition', { titlePosition: titlePosition }); return titlePosition; } /** * Render a minor tick into the given position. If a minor tick already * exists in this position, move it. * * @function Highcharts.Axis#renderMinorTick * * @param {number} pos * The position in axis values. * * @param {boolean} slideIn * Whether the tick should animate in from last computed position */ renderMinorTick(pos, slideIn) { const axis = this; const minorTicks = axis.minorTicks; if (!minorTicks[pos]) { minorTicks[pos] = new Tick(axis, pos, 'minor'); } // Render new ticks in old position if (slideIn && minorTicks[pos].isNew) { minorTicks[pos].render(null, true); } minorTicks[pos].render(null, false, 1); } /** * Render a major tick into the given position. If a tick already exists * in this position, move it. * * @function Highcharts.Axis#renderTick * * @param {number} pos * The position in axis values. * * @param {number} i * The tick index. * * @param {boolean} slideIn * Whether the tick should animate in from last computed position */ renderTick(pos, i, slideIn) { const axis = this, isLinked = axis.isLinked, ticks = axis.ticks; // Linked axes need an extra check to find out if if (!isLinked || (pos >= axis.min && pos <= axis.max) || (axis.grid && axis.grid.isColumn)) { if (!ticks[pos]) { ticks[pos] = new Tick(axis, pos); } // NOTE this seems like overkill. Could be handled in tick.render by // setting old position in attr, then set new position in animate. // render new ticks in old position if (slideIn && ticks[pos].isNew) { // Start with negative opacity so that it is visible from // halfway into the animation ticks[pos].render(i, true, -1); } ticks[pos].render(i); } } /** * Render the axis. * * @private * @function Highcharts.Axis#render * * @emits Highcharts.Axis#event:afterRender */ render() { const axis = this, chart = axis.chart, log = axis.logarithmic, renderer = chart.renderer, options = axis.options, isLinked = axis.isLinked, tickPositions = axis.tickPositions, axisTitle = axis.axisTitle, ticks = axis.ticks, minorTicks = axis.minorTicks, alternateBands = axis.alternateBands, stackLabelOptions = options.stackLabels, alternateGridColor = options.alternateGridColor, crossing = options.crossing, tickmarkOffset = axis.tickmarkOffset, axisLine = axis.axisLine, showAxis = axis.showAxis, animation = animObject(renderer.globalAnimation); let from, to; // Reset axis.labelEdge.length = 0; axis.overlap = false; // Mark all elements inActive before we go over and mark the active ones [ticks, minorTicks, alternateBands].forEach(function (coll) { objectEach(coll, function (tick) { tick.isActive = false; }); }); // Crossing if (isNumber(crossing)) { const otherAxis = this.isXAxis ? chart.yAxis[0] : chart.xAxis[0], directionFactor = [1, -1, -1, 1][this.side]; if (otherAxis) { let px = otherAxis.toPixels(crossing, true); if (axis.horiz) { px = otherAxis.len - px; } axis.offset = directionFactor * px; } } // If the series has data draw the ticks. Else only the line and title if (axis.hasData() || isLinked) { const slideInTicks = axis.chart.hasRendered && axis.old && isNumber(axis.old.min); // Minor ticks if (axis.minorTickInterval && !axis.categories) { axis.getMinorTickPositions().forEach(function (pos) { axis.renderMinorTick(pos, slideInTicks); }); } // Major ticks. Pull out the first item and render it last so that // we can get the position of the neighbour label. #808. if (tickPositions.length) { // #1300 tickPositions.forEach(function (pos, i) { axis.renderTick(pos, i, slideInTicks); }); // In a categorized axis, the tick marks are displayed // between labels. So we need to add a tick mark and // grid line at the left edge of the X axis. if (tickmarkOffset && (axis.min === 0 || axis.single)) { if (!ticks[-1]) { ticks[-1] = new Tick(axis, -1, null, true); } ticks[-1].render(-1); } } // Alternate grid color if (alternateGridColor) { tickPositions.forEach(function (pos, i) { to = typeof tickPositions[i + 1] !== 'undefined' ? tickPositions[i + 1] + tickmarkOffset : axis.max - tickmarkOffset; if (i % 2 === 0 && pos < axis.max && to <= axis.max + (chart.polar ? -tickmarkOffset : tickmarkOffset)) { // #2248, #4660 if (!alternateBands[pos]) { // Should be imported from PlotLineOrBand.js, but // the dependency cycle with axis is a problem alternateBands[pos] = new H.PlotLineOrBand(axis, {}); } from = pos + tickmarkOffset; // #949 alternateBands[pos].options = { from: log ? log.lin2log(from) : from, to: log ? log.lin2log(to) : to, color: alternateGridColor, className: 'highcharts-alternate-grid' }; alternateBands[pos].render(); alternateBands[pos].isActive = true; } }); } // Custom plot lines and bands if (!axis._addedPlotLB) { // Only first time axis._addedPlotLB = true; (options.plotLines || []) .concat(options.plotBands || []) .forEach(function (plotLineOptions) { axis .addPlotBandOrLine(plotLineOptions); }); } } // End if hasData // Remove inactive ticks [ticks, minorTicks, alternateBands].forEach(function (coll) { const forDestruction = [], delay = animation.duration, destroyInactiveItems = function () { let i = forDestruction.length; while (i--) { // When resizing rapidly, the same items // may be destroyed in different timeouts, // or the may be reactivated if (coll[forDestruction[i]] && !coll[forDestruction[i]].isActive) { coll[forDestruction[i]].destroy(); delete coll[forDestruction[i]]; } } }; objectEach(coll, function (tick, pos) { if (!tick.isActive) { // Render to zero opacity tick.render(pos, false, 0); tick.isActive = false; forDestruction.push(pos); } }); // When the objects are finished fading out, destroy them syncTimeout(destroyInactiveItems, coll === alternateBands || !chart.hasRendered || !delay ? 0 : delay); }); // Set the axis line path if (axisLine) { axisLine[axisLine.isPlaced ? 'animate' : 'attr']({ d: this.getLinePath(axisLine.strokeWidth()) }); axisLine.isPlaced = true; // Show or hide the line depending on options.showEmpty axisLine[showAxis ? 'show' : 'hide'](showAxis); } if (axisTitle && showAxis) { axisTitle[axisTitle.isNew ? 'attr' : 'animate'](axis.getTitlePosition(axisTitle)); axisTitle.isNew = false; } // Stacked totals: if (stackLabelOptions && stackLabelOptions.enabled && axis.stacking) { axis.stacking.renderStackTotals(); } // End stacked totals // Record old scaling for updating/animation. Pinch base must be // preserved until the pinch ends. axis.old = { len: axis.len, max: axis.max, min: axis.min, transA: axis.transA, userMax: axis.userMax, userMin: axis.userMin }; axis.isDirty = false; fireEvent(this, 'afterRender'); } /** * Redraw the axis to reflect changes in the data or axis extremes. Called * internally from Highcharts.Chart#redraw. * * @private * @function Highcharts.Axis#redraw */ redraw() { if (this.visible) { // Render the axis this.render(); // Move plot lines and bands this.plotLinesAndBands.forEach(function (plotLine) { plotLine.render(); }); } // Mark associated series as dirty and ready for redraw this.series.forEach(function (series) { series.isDirty = true; }); } /** * Returns an array of axis properties, that should be untouched during * reinitialization. * * @private * @function Highcharts.Axis#getKeepProps */ getKeepProps() { return (this.keepProps || Axis.keepProps); } /** * Destroys an Axis instance. See {@link Axis#remove} for the API endpoint * to fully remove the axis. * * @private * @function Highcharts.Axis#destroy * * @param {boolean} [keepEvents] * Whether to preserve events, used internally in Axis.update. */ destroy(keepEvents) { const axis = this, plotLinesAndBands = axis.plotLinesAndBands, eventOptions = this.eventOptions; fireEvent(this, 'destroy', { keepEvents: keepEvents }); // Remove the events if (!keepEvents) { removeEvent(axis); } // Destroy collections [axis.ticks, axis.minorTicks, axis.alternateBands].forEach(function (coll) { destroyObjectProperties(coll); }); if (plotLinesAndBands) { let i = plotLinesAndBands.length; while (i--) { // #1975 plotLinesAndBands[i].destroy(); } } // Destroy elements [ 'axisLine', 'axisTitle', 'axisGroup', 'gridGroup', 'labelGroup', 'cross', 'scrollbar' ].forEach(function (prop) { if (axis[prop]) { axis[prop] = axis[prop].destroy(); } }); // Destroy each generated group for plotlines and plotbands for (const plotGroup in axis.plotLinesAndBandsGroups) { // eslint-disable-line guard-for-in axis.plotLinesAndBandsGroups[plotGroup] = axis.plotLinesAndBandsGroups[plotGroup].destroy(); } // Delete all properties and fall back to the prototype. objectEach(axis, function (val, key) { if (axis.getKeepProps().indexOf(key) === -1) { delete axis[key]; } }); this.eventOptions = eventOptions; } /** * Internal function to draw a crosshair. * * @function Highcharts.Axis#drawCrosshair * * @param {Highcharts.PointerEventObject} [e] * The event arguments from the modified pointer event, extended with * `chartX` and `chartY` * * @param {Highcharts.Point} [point] * The Point object if the crosshair snaps to points. * * @emits Highcharts.Axis#event:afterDrawCrosshair * @emits Highcharts.Axis#event:drawCrosshair */ drawCrosshair(e, point) { const options = this.crosshair, snap = pick(options && options.snap, true), chart = this.chart; let path, pos, categorized, graphic = this.cross, crossOptions; fireEvent(this, 'drawCrosshair', { e: e, point: point }); // Use last available event when updating non-snapped crosshairs without // mouse interaction (#5287) if (!e) { e = this.cross && this.cross.e; } if ( // Disabled in options !options || // Snap ((defined(point) || !snap) === false)) { this.hideCrosshair(); } else { // Get the path if (!snap) { pos = e && (this.horiz ? e.chartX - this.pos : this.len - e.chartY + this.pos); } else if (defined(point)) { // #3834 pos = pick(this.coll !== 'colorAxis' ? point.crosshairPos : // 3D axis extension null, this.isXAxis ? point.plotX : this.len - point.plotY); } if (defined(pos)) { crossOptions = { // Value, only used on radial value: point && (this.isXAxis ? point.x : pick(point.stackY, point.y)), translatedValue: pos }; if (chart.polar) { // Additional information required for crosshairs in // polar chart extend(crossOptions, { isCrosshair: true, chartX: e && e.chartX, chartY: e && e.chartY, point: point }); } path = this.getPlotLinePath(crossOptions) || null; // #3189 } if (!defined(path)) { this.hideCrosshair(); return; } categorized = this.categories && !this.isRadial; // Draw the cross if (!graphic) { this.cross = graphic = chart.renderer .path() .addClass('highcharts-crosshair highcharts-crosshair-' + (categorized ? 'category ' : 'thin ') + (options.className || '')) .attr({ zIndex: pick(options.zIndex, 2) }) .add(); // Presentational attributes if (!chart.styledMode) { graphic.attr({ stroke: options.color || (categorized ? Color .parse("#ccd3ff" /* Palette.highlightColor20 */) .setOpacity(0.25) .get() : "#cccccc" /* Palette.neutralColor20 */), 'stroke-width': pick(options.width, 1) }).css({ 'pointer-events': 'none' }); if (options.dashStyle) { graphic.attr({ dashstyle: options.dashStyle }); } } } graphic.show().attr({ d: path }); if (categorized && !options.width) { graphic.attr({ 'stroke-width': this.transA }); } this.cross.e = e; } fireEvent(this, 'afterDrawCrosshair', { e: e, point: point }); } /** * Hide the crosshair if visible. * * @function Highcharts.Axis#hideCrosshair */ hideCrosshair() { if (this.cross) { this.cross.hide(); } fireEvent(this, 'afterHideCrosshair'); } /** * Update an axis object with a new set of options. The options are merged * with the existing options, so only new or altered options need to be * specified. * * @sample highcharts/members/axis-update/ * Axis update demo * * @function Highcharts.Axis#update * * @param {Highcharts.AxisOptions} options * The new options that will be merged in with existing options on the axis. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the axis is altered. If doing more * operations on the chart, it is a good idea to set redraw to false and * call {@link Chart#redraw} after. */ update(options, redraw) { const chart = this.chart; options = merge(this.userOptions, options); this.destroy(true); this.init(chart, options); chart.isDirtyBox = true; if (pick(redraw, true)) { chart.redraw(); } } /** * Remove the axis from the chart. * * @sample highcharts/members/chart-addaxis/ * Add and remove axes * * @function Highcharts.Axis#remove * * @param {boolean} [redraw=true] * Whether to redraw the chart following the remove. */ remove(redraw) { const chart = this.chart, coll = this.coll, axisSeries = this.series; let i = axisSeries.length; // Remove associated series (#2687) while (i--) { if (axisSeries[i]) { axisSeries[i].remove(false); } } // Remove the axis erase(chart.axes, this); erase(chart[coll] || [], this); chart.orderItems(coll); this.destroy(); chart.isDirtyBox = true; if (pick(redraw, true)) { chart.redraw(); } } /** * Update the axis title by options after render time. * * @sample highcharts/members/axis-settitle/ * Set a new Y axis title * * @function Highcharts.Axis#setTitle * * @param {Highcharts.AxisTitleOptions} titleOptions * The additional title options. * * @param {boolean} [redraw=true] * Whether to redraw the chart after setting the title. */ setTitle(titleOptions, redraw) { this.update({ title: titleOptions }, redraw); } /** * Set new axis categories and optionally redraw. * * @sample highcharts/members/axis-setcategories/ * Set categories by click on a button * * @function Highcharts.Axis#setCategories * * @param {Array} categories * The new categories. * * @param {boolean} [redraw=true] * Whether to redraw the chart. */ setCategories(categories, redraw) { this.update({ categories: categories }, redraw); } } /* * * * Static Properties * * */ // Properties to survive after destroy, needed for Axis.update (#4317, // #5773, #5881). Axis.keepProps = [ 'coll', 'extKey', 'hcEvents', 'names', 'series', 'userMax', 'userMin' ]; /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Options for the path on the Axis to be calculated. * @interface Highcharts.AxisPlotLinePathOptionsObject */ /** * Axis value. * @name Highcharts.AxisPlotLinePathOptionsObject#value * @type {number|undefined} */ /** * Line width used for calculation crisp line coordinates. Defaults to 1. * @name Highcharts.AxisPlotLinePathOptionsObject#lineWidth * @type {number|undefined} */ /** * If `false`, the function will return null when it falls outside the axis * bounds. If `true`, the function will return a path aligned to the plot area * sides if it falls outside. If `pass`, it will return a path outside. * @name Highcharts.AxisPlotLinePathOptionsObject#force * @type {string|boolean|undefined} */ /** * Used in Highcharts Stock. When `true`, plot paths * (crosshair, plotLines, gridLines) * will be rendered on all axes when defined on the first axis. * @name Highcharts.AxisPlotLinePathOptionsObject#acrossPanes * @type {boolean|undefined} */ /** * Use old coordinates (for resizing and rescaling). * If not set, defaults to `false`. * @name Highcharts.AxisPlotLinePathOptionsObject#old * @type {boolean|undefined} */ /** * If given, return the plot line path of a pixel position on the axis. * @name Highcharts.AxisPlotLinePathOptionsObject#translatedValue * @type {number|undefined} */ /** * Used in Polar axes. Reverse the positions for concatenation of polygonal * plot bands * @name Highcharts.AxisPlotLinePathOptionsObject#reverse * @type {boolean|undefined} */ /** * Options for crosshairs on axes. * * @product highstock * * @typedef {Highcharts.XAxisCrosshairOptions|Highcharts.YAxisCrosshairOptions} Highcharts.AxisCrosshairOptions */ /** * @typedef {"navigator"|"pan"|"rangeSelectorButton"|"rangeSelectorInput"|"scrollbar"|"traverseUpButton"|"zoom"} Highcharts.AxisExtremesTriggerValue */ /** * @callback Highcharts.AxisEventCallbackFunction * * @param {Highcharts.Axis} this */ /** * @callback Highcharts.AxisLabelsFormatterCallbackFunction * * @param {Highcharts.AxisLabelsFormatterContextObject} this * * @param {Highcharts.AxisLabelsFormatterContextObject} ctx * * @return {string} */ /** * @interface Highcharts.AxisLabelsFormatterContextObject */ /** * The axis item of the label * @name Highcharts.AxisLabelsFormatterContextObject#axis * @type {Highcharts.Axis} */ /** * The chart instance. * @name Highcharts.AxisLabelsFormatterContextObject#chart * @type {Highcharts.Chart} */ /** * Default formatting of date/time labels. * @name Highcharts.AxisLabelsFormatterContextObject#dateTimeLabelFormat * @type {string|undefined} */ /** * Whether the label belongs to the first tick on the axis. * @name Highcharts.AxisLabelsFormatterContextObject#isFirst * @type {boolean} */ /** * Whether the label belongs to the last tick on the axis. * @name Highcharts.AxisLabelsFormatterContextObject#isLast * @type {boolean} */ /** * The position on the axis in terms of axis values. For category axes, a * zero-based index. For datetime axes, the JavaScript time in milliseconds * since 1970. * @name Highcharts.AxisLabelsFormatterContextObject#pos * @type {number} */ /** * The preformatted text as the result of the default formatting. For example * dates will be formatted as strings, and numbers with language-specific comma * separators, thousands separators and numeric symbols like `k` or `M`. * @name Highcharts.AxisLabelsFormatterContextObject#text * @type {string|undefined} */ /** * The Tick instance. * @name Highcharts.AxisLabelsFormatterContextObject#tick * @type {Highcharts.Tick} */ /** * This can be either a numeric value or a category string. * @name Highcharts.AxisLabelsFormatterContextObject#value * @type {number|string} */ /** * Options for axes. * * @typedef {Highcharts.XAxisOptions|Highcharts.YAxisOptions|Highcharts.ZAxisOptions} Highcharts.AxisOptions */ /** * @callback Highcharts.AxisPointBreakEventCallbackFunction * * @param {Highcharts.Axis} this * * @param {Highcharts.AxisPointBreakEventObject} evt */ /** * @interface Highcharts.AxisPointBreakEventObject */ /** * @name Highcharts.AxisPointBreakEventObject#brk * @type {Highcharts.Dictionary} */ /** * @name Highcharts.AxisPointBreakEventObject#point * @type {Highcharts.Point} */ /** * @name Highcharts.AxisPointBreakEventObject#preventDefault * @type {Function} */ /** * @name Highcharts.AxisPointBreakEventObject#target * @type {Highcharts.SVGElement} */ /** * @name Highcharts.AxisPointBreakEventObject#type * @type {"pointBreak"|"pointInBreak"} */ /** * @callback Highcharts.AxisSetExtremesEventCallbackFunction * * @param {Highcharts.Axis} this * * @param {Highcharts.AxisSetExtremesEventObject} evt */ /** * @interface Highcharts.AxisSetExtremesEventObject * @extends Highcharts.ExtremesObject */ /** * @name Highcharts.AxisSetExtremesEventObject#preventDefault * @type {Function} */ /** * @name Highcharts.AxisSetExtremesEventObject#target * @type {Highcharts.SVGElement} */ /** * @name Highcharts.AxisSetExtremesEventObject#trigger * @type {Highcharts.AxisExtremesTriggerValue|string} */ /** * @name Highcharts.AxisSetExtremesEventObject#type * @type {"setExtremes"} */ /** * @callback Highcharts.AxisTickPositionerCallbackFunction * * @param {Highcharts.Axis} this * * @return {Highcharts.AxisTickPositionsArray} */ /** * @interface Highcharts.AxisTickPositionsArray * @augments Array */ /** * @typedef {"high"|"low"|"middle"} Highcharts.AxisTitleAlignValue */ /** * @typedef {Highcharts.XAxisTitleOptions|Highcharts.YAxisTitleOptions|Highcharts.ZAxisTitleOptions} Highcharts.AxisTitleOptions */ /** * @typedef {"linear"|"logarithmic"|"datetime"|"category"|"treegrid"} Highcharts.AxisTypeValue */ /** * The returned object literal from the {@link Highcharts.Axis#getExtremes} * function. * * @interface Highcharts.ExtremesObject */ /** * The maximum value of the axis' associated series. * @name Highcharts.ExtremesObject#dataMax * @type {number} */ /** * The minimum value of the axis' associated series. * @name Highcharts.ExtremesObject#dataMin * @type {number} */ /** * The maximum axis value, either automatic or set manually. If the `max` option * is not set, `maxPadding` is 0 and `endOnTick` is false, this value will be * the same as `dataMax`. * @name Highcharts.ExtremesObject#max * @type {number} */ /** * The minimum axis value, either automatic or set manually. If the `min` option * is not set, `minPadding` is 0 and `startOnTick` is false, this value will be * the same as `dataMin`. * @name Highcharts.ExtremesObject#min * @type {number} */ /** * The user defined maximum, either from the `max` option or from a zoom or * `setExtremes` action. * @name Highcharts.ExtremesObject#userMax * @type {number|undefined} */ /** * The user defined minimum, either from the `min` option or from a zoom or * `setExtremes` action. * @name Highcharts.ExtremesObject#userMin * @type {number|undefined} */ /** * Formatter function for the text of a crosshair label. * * @callback Highcharts.XAxisCrosshairLabelFormatterCallbackFunction * * @param {Highcharts.Axis} this * Axis context * * @param {number} value * Y value of the data point * * @return {string} */ ''; // Keeps doclets above in JS file return Axis; }); _registerModule(_modules, 'Core/Axis/DateTimeAxis.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { addEvent, getMagnitude, normalizeTickInterval, timeUnits } = U; /* * * * Composition * * */ /* eslint-disable valid-jsdoc */ var DateTimeAxis; (function (DateTimeAxis) { /* * * * Declarations * * */ /* * * * Functions * * */ /** * Extends axis class with date and time support. * @private */ function compose(AxisClass) { if (!AxisClass.keepProps.includes('dateTime')) { AxisClass.keepProps.push('dateTime'); const axisProto = AxisClass.prototype; axisProto.getTimeTicks = getTimeTicks; addEvent(AxisClass, 'afterSetOptions', onAfterSetOptions); } return AxisClass; } DateTimeAxis.compose = compose; /** * 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. * * @private * @function Highcharts.Axis#getTimeTicks * @param {Highcharts.TimeNormalizeObject} 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. */ function getTimeTicks() { return this.chart.time.getTimeTicks.apply(this.chart.time, arguments); } /** * @private */ function onAfterSetOptions() { if (this.options.type !== 'datetime') { this.dateTime = void 0; return; } if (!this.dateTime) { this.dateTime = new Additions(this); } } /* * * * Classes * * */ class Additions { /* * * * Constructors * * */ constructor(axis) { this.axis = axis; } /* * * * Functions * * */ /** * 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. * @private */ normalizeTimeTickInterval(tickInterval, unitsOption) { const units = (unitsOption || [[ // Unit name 'millisecond', // Allowed multiples [1, 2, 5, 10, 20, 25, 50, 100, 200, 500] ], [ '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 ]]); let unit = units[units.length - 1], // Default unit is years interval = timeUnits[unit[0]], multiples = unit[1], 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. const lessThan = (interval * multiples[multiples.length - 1] + timeUnits[units[i + 1][0]]) / 2; // Break and keep the current unit if (tickInterval <= lessThan) { break; } } } // Prevent 2.5 years intervals, though 25, 250 etc. are allowed if (interval === timeUnits.year && tickInterval < 5 * interval) { multiples = [1, 2, 5]; } // Get the count const count = normalizeTickInterval(tickInterval / interval, multiples, unit[0] === 'year' ? // #1913, #2360 Math.max(getMagnitude(tickInterval / interval), 1) : 1); return { unitRange: interval, count: count, unitName: unit[0] }; } /** * Get the best date format for a specific X value based on the closest * point range on the axis. * * @private */ getXDateFormat(x, dateTimeLabelFormats) { const { axis } = this, time = axis.chart.time; return axis.closestPointRange ? time.getDateFormat(axis.closestPointRange, x, axis.options.startOfWeek, dateTimeLabelFormats) || // #2546, 2581 time.resolveDTLFormat(dateTimeLabelFormats.year).main : time.resolveDTLFormat(dateTimeLabelFormats.day).main; } } DateTimeAxis.Additions = Additions; })(DateTimeAxis || (DateTimeAxis = {})); /* * * * Default Export * * */ return DateTimeAxis; }); _registerModule(_modules, 'Core/Axis/LogarithmicAxis.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { addEvent, normalizeTickInterval, pick } = U; /* * * * Class * * */ /** * @private */ var LogarithmicAxis; (function (LogarithmicAxis) { /* * * * Declarations * * */ /* * * * Functions * * */ /** * Provides logarithmic support for axes. * @private */ function compose(AxisClass) { if (!AxisClass.keepProps.includes('logarithmic')) { AxisClass.keepProps.push('logarithmic'); addEvent(AxisClass, 'init', onInit); addEvent(AxisClass, 'afterInit', onAfterInit); } return AxisClass; } LogarithmicAxis.compose = compose; /** * @private */ function onInit(e) { const axis = this; const options = e.userOptions; let logarithmic = axis.logarithmic; if (options.type !== 'logarithmic') { axis.logarithmic = void 0; } else { if (!logarithmic) { logarithmic = axis.logarithmic = new Additions(axis); } } } /** * @private */ function onAfterInit() { const axis = this; const log = axis.logarithmic; // Extend logarithmic axis if (log) { axis.lin2val = function (num) { return log.lin2log(num); }; axis.val2lin = function (num) { return log.log2lin(num); }; } } /* * * * Class * * */ /** * Provides logarithmic support for axes. * @private * @class */ class Additions { /* * * * Constructors * * */ constructor(axis) { this.axis = axis; } /* * * * Functions * * */ /** * Set the tick positions of a logarithmic axis. */ getLogTickPositions(interval, min, max, minor) { const log = this; const axis = log.axis; const axisLength = axis.len; const options = axis.options; // Since we use this method for both major and minor ticks, // use a local variable and return the result let positions = []; // Reset if (!minor) { log.minorAutoInterval = void 0; } // First case: All ticks fall on whole logarithms: 1, 10, 100 etc. if (interval >= 0.5) { interval = Math.round(interval); positions = axis.getLinearTickPositions(interval, min, max); // Second case: We need intermediary ticks. For example // 1, 2, 4, 6, 8, 10, 20, 40 etc. } else if (interval >= 0.08) { const roundedMin = Math.floor(min); let intermediate, i, j, len, pos, lastPos, break2; if (interval > 0.3) { intermediate = [1, 2, 4]; // 0.2 equals five minor ticks per 1, 10, 100 etc } else if (interval > 0.15) { 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 = log.log2lin(log.lin2log(i) * intermediate[j]); // #1670, lastPos is #3113 if (pos > min && (!minor || lastPos <= max) && typeof lastPos !== 'undefined') { 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 { const realMin = log.lin2log(min), realMax = log.lin2log(max), tickIntervalOption = minor ? axis.getMinorTickInterval() : options.tickInterval, filteredTickIntervalOption = tickIntervalOption === 'auto' ? null : tickIntervalOption, tickPixelIntervalOption = options.tickPixelInterval / (minor ? 5 : 1), totalPixelLength = minor ? axisLength / axis.tickPositions.length : axisLength; interval = pick(filteredTickIntervalOption, log.minorAutoInterval, (realMax - realMin) * tickPixelIntervalOption / (totalPixelLength || 1)); interval = normalizeTickInterval(interval); positions = axis.getLinearTickPositions(interval, realMin, realMax).map(log.log2lin); if (!minor) { log.minorAutoInterval = interval / 5; } } // Set the axis-level tickInterval variable if (!minor) { axis.tickInterval = interval; } return positions; } lin2log(num) { return Math.pow(10, num); } log2lin(num) { return Math.log(num) / Math.LN10; } } LogarithmicAxis.Additions = Additions; })(LogarithmicAxis || (LogarithmicAxis = {})); /* * * * Default Export * * */ return LogarithmicAxis; }); _registerModule(_modules, 'Core/Axis/PlotLineOrBand/PlotLineOrBandAxis.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { erase, extend, isNumber } = U; /* * * * Composition * * */ var PlotLineOrBandAxis; (function (PlotLineOrBandAxis) { /* * * * Declarations * * */ /* * * * Variables * * */ let PlotLineOrBandClass; /* * * * Functions * * */ /** * Add a plot band after render time. * * @sample highcharts/members/axis-addplotband/ * Toggle the plot band from a button * * @function Highcharts.Axis#addPlotBand * * @param {Highcharts.AxisPlotBandsOptions} options * A configuration object for the plot band, as defined in * [xAxis.plotBands](https://api.highcharts.com/highcharts/xAxis.plotBands). * * @return {Highcharts.PlotLineOrBand|undefined} * The added plot band, or `undefined` if the options are not valid. */ function addPlotBand(options) { return this.addPlotBandOrLine(options, 'plotBands'); } /** * Add a plot band or plot line after render time. Called from * addPlotBand and addPlotLine internally. * * @private * @function Highcharts.Axis#addPlotBandOrLine * @param {Highcharts.AxisPlotBandsOptions|Highcharts.AxisPlotLinesOptions} options * The plotBand or plotLine configuration object. */ function addPlotBandOrLine(options, coll) { const userOptions = this.userOptions; let obj = new PlotLineOrBandClass(this, options); if (this.visible) { obj = obj.render(); } if (obj) { // #2189 if (!this._addedPlotLB) { this._addedPlotLB = true; (userOptions.plotLines || []) .concat(userOptions.plotBands || []) .forEach((plotLineOptions) => { this.addPlotBandOrLine(plotLineOptions); }); } // Add it to the user options for exporting and Axis.update if (coll) { // Workaround Microsoft/TypeScript issue #32693 const updatedOptions = (userOptions[coll] || []); updatedOptions.push(options); userOptions[coll] = updatedOptions; } this.plotLinesAndBands.push(obj); } return obj; } /** * Add a plot line after render time. * * @sample highcharts/members/axis-addplotline/ * Toggle the plot line from a button * * @function Highcharts.Axis#addPlotLine * * @param {Highcharts.AxisPlotLinesOptions} options * A configuration object for the plot line, as defined in * [xAxis.plotLines](https://api.highcharts.com/highcharts/xAxis.plotLines). * * @return {Highcharts.PlotLineOrBand|undefined} * The added plot line, or `undefined` if the options are not valid. */ function addPlotLine(options) { return this.addPlotBandOrLine(options, 'plotLines'); } /** * @private */ function compose(PlotLineOrBandType, AxisClass) { const axisProto = AxisClass.prototype; if (!axisProto.addPlotBand) { PlotLineOrBandClass = PlotLineOrBandType; extend(axisProto, { addPlotBand, addPlotLine, addPlotBandOrLine, getPlotBandPath, removePlotBand, removePlotLine, removePlotBandOrLine }); } return AxisClass; } PlotLineOrBandAxis.compose = compose; /** * Internal function to create the SVG path definition for a plot band. * * @function Highcharts.Axis#getPlotBandPath * * @param {number} from * The axis value to start from. * * @param {number} to * The axis value to end on. * * @param {Highcharts.AxisPlotBandsOptions|Highcharts.AxisPlotLinesOptions} options * The plotBand or plotLine configuration object. * * @return {Highcharts.SVGPathArray} * The SVG path definition in array form. */ function getPlotBandPath(from, to, options) { options = options || this.options; const toPath = this.getPlotLinePath({ value: to, force: true, acrossPanes: options.acrossPanes }), result = [], horiz = this.horiz, outside = !isNumber(this.min) || !isNumber(this.max) || (from < this.min && to < this.min) || (from > this.max && to > this.max), path = this.getPlotLinePath({ value: from, force: true, acrossPanes: options.acrossPanes }); let i, // #4964 check if chart is inverted or plotband is on yAxis plus = 1, isFlat; if (path && toPath) { // Flat paths don't need labels (#3836) if (outside) { isFlat = path.toString() === toPath.toString(); plus = 0; } // Go over each subpath - for panes in Highcharts Stock for (i = 0; i < path.length; i += 2) { const pathStart = path[i], pathEnd = path[i + 1], toPathStart = toPath[i], toPathEnd = toPath[i + 1]; // Type checking all affected path segments. Consider // something smarter. if ((pathStart[0] === 'M' || pathStart[0] === 'L') && (pathEnd[0] === 'M' || pathEnd[0] === 'L') && (toPathStart[0] === 'M' || toPathStart[0] === 'L') && (toPathEnd[0] === 'M' || toPathEnd[0] === 'L')) { // Add 1 pixel when coordinates are the same if (horiz && toPathStart[1] === pathStart[1]) { toPathStart[1] += plus; toPathEnd[1] += plus; } else if (!horiz && toPathStart[2] === pathStart[2]) { toPathStart[2] += plus; toPathEnd[2] += plus; } result.push(['M', pathStart[1], pathStart[2]], ['L', pathEnd[1], pathEnd[2]], ['L', toPathEnd[1], toPathEnd[2]], ['L', toPathStart[1], toPathStart[2]], ['Z']); } result.isFlat = isFlat; } } return result; } /** * Remove a plot band by its id. * * @sample highcharts/members/axis-removeplotband/ * Remove plot band by id * @sample highcharts/members/axis-addplotband/ * Toggle the plot band from a button * * @function Highcharts.Axis#removePlotBand * * @param {string} id * The plot band's `id` as given in the original configuration * object or in the `addPlotBand` option. */ function removePlotBand(id) { this.removePlotBandOrLine(id); } /** * Remove a plot band or plot line from the chart by id. Called * internally from `removePlotBand` and `removePlotLine`. * @private * @function Highcharts.Axis#removePlotBandOrLine */ function removePlotBandOrLine(id) { const plotLinesAndBands = this.plotLinesAndBands, options = this.options, userOptions = this.userOptions; if (plotLinesAndBands) { // #15639 let i = plotLinesAndBands.length; while (i--) { if (plotLinesAndBands[i].id === id) { plotLinesAndBands[i].destroy(); } } ([ options.plotLines || [], userOptions.plotLines || [], options.plotBands || [], userOptions.plotBands || [] ]).forEach(function (arr) { i = arr.length; while (i--) { if ((arr[i] || {}).id === id) { erase(arr, arr[i]); } } }); } } /** * Remove a plot line by its id. * * @sample highcharts/xaxis/plotlines-id/ * Remove plot line by id * @sample highcharts/members/axis-addplotline/ * Toggle the plot line from a button * * @function Highcharts.Axis#removePlotLine * * @param {string} id * The plot line's `id` as given in the original configuration * object or in the `addPlotLine` option. */ function removePlotLine(id) { this.removePlotBandOrLine(id); } })(PlotLineOrBandAxis || (PlotLineOrBandAxis = {})); /* * * * Default Export * * */ return PlotLineOrBandAxis; }); _registerModule(_modules, 'Core/Axis/PlotLineOrBand/PlotLineOrBand.js', [_modules['Core/Axis/PlotLineOrBand/PlotLineOrBandAxis.js'], _modules['Core/Utilities.js']], function (PlotLineOrBandAxis, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { arrayMax, arrayMin, defined, destroyObjectProperties, erase, fireEvent, merge, objectEach, pick } = U; /* * * * Class * * */ /** * The object wrapper for plot lines and plot bands * * @class * @name Highcharts.PlotLineOrBand * * @param {Highcharts.Axis} axis * Related axis. * * @param {Highcharts.AxisPlotLinesOptions|Highcharts.AxisPlotBandsOptions} [options] * Options to use. */ class PlotLineOrBand { /* * * * Static Functions * * */ static compose(AxisClass) { return PlotLineOrBandAxis.compose(PlotLineOrBand, AxisClass); } /* * * * Constructor * * */ constructor(axis, options) { /** * Related axis. * * @name Highcharts.PlotLineOrBand#axis * @type {Highcharts.Axis} */ this.axis = axis; /** * Options of the plot line or band. * * @name Highcharts.PlotLineOrBand#options * @type {AxisPlotBandsOptions|AxisPlotLinesOptions} */ this.options = options; this.id = options.id; } /* * * * Functions * * */ /* eslint-disable no-invalid-this, valid-jsdoc */ /** * Render the plot line or plot band. If it is already existing, * move it. * @private * @function Highcharts.PlotLineOrBand#render */ render() { fireEvent(this, 'render'); const { axis, options } = this, { horiz, logarithmic } = axis, { color, events, zIndex = 0 } = options, groupAttribs = {}, renderer = axis.chart.renderer, // These properties only exist on either band or line to = options.to, from = options.from, value = options.value, borderWidth = options.borderWidth; let optionsLabel = options.label, { label, svgElem } = this, path = [], group; const isBand = defined(from) && defined(to), isLine = defined(value), isNew = !svgElem, attribs = { 'class': 'highcharts-plot-' + (isBand ? 'band ' : 'line ') + (options.className || '') }; let groupName = isBand ? 'bands' : 'lines'; // Set the presentational attributes if (!axis.chart.styledMode) { if (isLine) { attribs.stroke = color || "#999999" /* Palette.neutralColor40 */; attribs['stroke-width'] = pick(options.width, 1); if (options.dashStyle) { attribs.dashstyle = options.dashStyle; } } else if (isBand) { // Plot band attribs.fill = color || "#e6e9ff" /* Palette.highlightColor10 */; if (borderWidth) { attribs.stroke = options.borderColor; attribs['stroke-width'] = borderWidth; } } } // Grouping and zIndex groupAttribs.zIndex = zIndex; groupName += '-' + zIndex; group = axis.plotLinesAndBandsGroups[groupName]; if (!group) { axis.plotLinesAndBandsGroups[groupName] = group = renderer.g('plot-' + groupName) .attr(groupAttribs).add(); } // Create the path if (!svgElem) { /** * SVG element of the plot line or band. * * @name Highcharts.PlotLineOrBand#svgElem * @type {Highcharts.SVGElement} */ this.svgElem = svgElem = renderer .path() .attr(attribs) .add(group); } // Set the path or return if (defined(value)) { // Plot line path = axis.getPlotLinePath({ value: logarithmic?.log2lin(value) ?? value, lineWidth: svgElem.strokeWidth(), acrossPanes: options.acrossPanes }); } else if (defined(from) && defined(to)) { // Plot band path = axis.getPlotBandPath(logarithmic?.log2lin(from) ?? from, logarithmic?.log2lin(to) ?? to, options); } else { return; } // Common for lines and bands. Add events only if they were not added // before. if (!this.eventsAdded && events) { objectEach(events, (event, eventType) => { svgElem?.on(eventType, (e) => { events[eventType].apply(this, [e]); }); }); this.eventsAdded = true; } if ((isNew || !svgElem.d) && path?.length) { svgElem.attr({ d: path }); } else if (svgElem) { if (path) { svgElem.show(); svgElem.animate({ d: path }); } else if (svgElem.d) { svgElem.hide(); if (label) { this.label = label = label.destroy(); } } } // The plot band/line label if (optionsLabel && (defined(optionsLabel.text) || defined(optionsLabel.formatter)) && path?.length && axis.width > 0 && axis.height > 0 && !path.isFlat) { // Apply defaults optionsLabel = merge({ align: horiz && isBand ? 'center' : void 0, x: horiz ? !isBand && 4 : 10, verticalAlign: !horiz && isBand ? 'middle' : void 0, y: horiz ? isBand ? 16 : 10 : isBand ? 6 : -4, rotation: horiz && !isBand ? 90 : 0 }, optionsLabel); this.renderLabel(optionsLabel, path, isBand, zIndex); // Move out of sight } else if (label) { label.hide(); } // Chainable return this; } /** * Render and align label for plot line or band. * @private * @function Highcharts.PlotLineOrBand#renderLabel */ renderLabel(optionsLabel, path, isBand, zIndex) { const plotLine = this, axis = plotLine.axis, renderer = axis.chart.renderer; let label = plotLine.label; // Add the SVG element if (!label) { /** * SVG element of the label. * * @name Highcharts.PlotLineOrBand#label * @type {Highcharts.SVGElement} */ plotLine.label = label = renderer .text(this.getLabelText(optionsLabel), 0, 0, optionsLabel.useHTML) .attr({ align: optionsLabel.textAlign || optionsLabel.align, rotation: optionsLabel.rotation, 'class': 'highcharts-plot-' + (isBand ? 'band' : 'line') + '-label ' + (optionsLabel.className || ''), zIndex }); if (!axis.chart.styledMode) { label.css(merge({ fontSize: '0.8em', textOverflow: 'ellipsis' }, optionsLabel.style)); } label.add(); } // Get the bounding box and align the label // #3000 changed to better handle choice between plotband or plotline const xBounds = path.xBounds || [path[0][1], path[1][1], (isBand ? path[2][1] : path[0][1])], yBounds = path.yBounds || [path[0][2], path[1][2], (isBand ? path[2][2] : path[0][2])], x = arrayMin(xBounds), y = arrayMin(yBounds); label.align(optionsLabel, false, { x, y, width: arrayMax(xBounds) - x, height: arrayMax(yBounds) - y }); if (!label.alignValue || label.alignValue === 'left') { const width = optionsLabel.clip ? axis.width : axis.chart.chartWidth; label.css({ width: (label.rotation === 90 ? axis.height - (label.alignAttr.y - axis.top) : width - (label.alignAttr.x - axis.left)) + 'px' }); } label.show(true); } /** * Get label's text content. * @private * @function Highcharts.PlotLineOrBand#getLabelText */ getLabelText(optionsLabel) { return defined(optionsLabel.formatter) ? optionsLabel.formatter .call(this) : optionsLabel.text; } /** * Remove the plot line or band. * * @function Highcharts.PlotLineOrBand#destroy */ destroy() { // Remove it from the lookup erase(this.axis.plotLinesAndBands, this); delete this.axis; destroyObjectProperties(this); } } /* * * * Default Export * * */ /* * * * API Options * * */ /** * Options for plot bands on axes. * * @typedef {Highcharts.XAxisPlotBandsOptions|Highcharts.YAxisPlotBandsOptions|Highcharts.ZAxisPlotBandsOptions} Highcharts.AxisPlotBandsOptions */ /** * Options for plot band labels on axes. * * @typedef {Highcharts.XAxisPlotBandsLabelOptions|Highcharts.YAxisPlotBandsLabelOptions|Highcharts.ZAxisPlotBandsLabelOptions} Highcharts.AxisPlotBandsLabelOptions */ /** * Options for plot lines on axes. * * @typedef {Highcharts.XAxisPlotLinesOptions|Highcharts.YAxisPlotLinesOptions|Highcharts.ZAxisPlotLinesOptions} Highcharts.AxisPlotLinesOptions */ /** * Options for plot line labels on axes. * * @typedef {Highcharts.XAxisPlotLinesLabelOptions|Highcharts.YAxisPlotLinesLabelOptions|Highcharts.ZAxisPlotLinesLabelOptions} Highcharts.AxisPlotLinesLabelOptions */ (''); /* * * * API Options * * */ /** * An array of colored bands stretching across the plot area marking an * interval on the axis. * * In styled mode, the plot bands are styled by the `.highcharts-plot-band` * class in addition to the `className` option. * * @productdesc {highcharts} * In a gauge, a plot band on the Y axis (value axis) will stretch along the * perimeter of the gauge. * * @type {Array<*>} * @product highcharts highstock gantt * @apioption xAxis.plotBands */ /** * Flag to decide if plotBand should be rendered across all panes. * * @since 7.1.2 * @product highstock * @type {boolean} * @default true * @apioption xAxis.plotBands.acrossPanes */ /** * Border color for the plot band. Also requires `borderWidth` to be set. * * @type {Highcharts.ColorString} * @apioption xAxis.plotBands.borderColor */ /** * Border width for the plot band. Also requires `borderColor` to be set. * * @type {number} * @default 0 * @apioption xAxis.plotBands.borderWidth */ /** * A custom class name, in addition to the default `highcharts-plot-band`, * to apply to each individual band. * * @type {string} * @since 5.0.0 * @apioption xAxis.plotBands.className */ /** * The color of the plot band. * * @sample {highcharts} highcharts/xaxis/plotbands-color/ * Color band * @sample {highstock} stock/xaxis/plotbands/ * Plot band on Y axis * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default #e6e9ff * @apioption xAxis.plotBands.color */ /** * An object defining mouse events for the plot band. Supported properties * are `click`, `mouseover`, `mouseout`, `mousemove`. * * @sample {highcharts} highcharts/xaxis/plotbands-events/ * Mouse events demonstrated * * @since 1.2 * @apioption xAxis.plotBands.events */ /** * Click event on a plot band. * * @type {Highcharts.EventCallbackFunction} * @apioption xAxis.plotBands.events.click */ /** * Mouse move event on a plot band. * * @type {Highcharts.EventCallbackFunction} * @apioption xAxis.plotBands.events.mousemove */ /** * Mouse out event on the corner of a plot band. * * @type {Highcharts.EventCallbackFunction} * @apioption xAxis.plotBands.events.mouseout */ /** * Mouse over event on a plot band. * * @type {Highcharts.EventCallbackFunction} * @apioption xAxis.plotBands.events.mouseover */ /** * The start position of the plot band in axis units. * * @sample {highcharts} highcharts/xaxis/plotbands-color/ * Datetime axis * @sample {highcharts} highcharts/xaxis/plotbands-from/ * Categorized axis * @sample {highstock} stock/xaxis/plotbands/ * Plot band on Y axis * * @type {number} * @apioption xAxis.plotBands.from */ /** * An id used for identifying the plot band in Axis.removePlotBand. * * @sample {highcharts} highcharts/xaxis/plotbands-id/ * Remove plot band by id * @sample {highstock} highcharts/xaxis/plotbands-id/ * Remove plot band by id * * @type {string} * @apioption xAxis.plotBands.id */ /** * The end position of the plot band in axis units. * * @sample {highcharts} highcharts/xaxis/plotbands-color/ * Datetime axis * @sample {highcharts} highcharts/xaxis/plotbands-from/ * Categorized axis * @sample {highstock} stock/xaxis/plotbands/ * Plot band on Y axis * * @type {number} * @apioption xAxis.plotBands.to */ /** * The z index of the plot band within the chart, relative to other * elements. Using the same z index as another element may give * unpredictable results, as the last rendered element will be on top. * Values from 0 to 20 make sense. * * @sample {highcharts} highcharts/xaxis/plotbands-color/ * Behind plot lines by default * @sample {highcharts} highcharts/xaxis/plotbands-zindex/ * Above plot lines * @sample {highcharts} highcharts/xaxis/plotbands-zindex-above-series/ * Above plot lines and series * * @type {number} * @since 1.2 * @apioption xAxis.plotBands.zIndex */ /** * Text labels for the plot bands * * @product highcharts highstock gantt * @apioption xAxis.plotBands.label */ /** * Horizontal alignment of the label. Can be one of "left", "center" or * "right". * * @sample {highcharts} highcharts/xaxis/plotbands-label-align/ * Aligned to the right * @sample {highstock} stock/xaxis/plotbands-label/ * Plot band with labels * * @type {Highcharts.AlignValue} * @default center * @since 2.1 * @apioption xAxis.plotBands.label.align */ /** * Rotation of the text label in degrees . * * @sample {highcharts} highcharts/xaxis/plotbands-label-rotation/ * Vertical text * * @type {number} * @default 0 * @since 2.1 * @apioption xAxis.plotBands.label.rotation */ /** * CSS styles for the text label. * * In styled mode, the labels are styled by the * `.highcharts-plot-band-label` class. * * @sample {highcharts} highcharts/xaxis/plotbands-label-style/ * Blue and bold label * * @type {Highcharts.CSSObject} * @since 2.1 * @apioption xAxis.plotBands.label.style */ /** * The string text itself. A subset of HTML is supported. * * @type {string} * @since 2.1 * @apioption xAxis.plotBands.label.text */ /** * The text alignment for the label. While `align` determines where the * texts anchor point is placed within the plot band, `textAlign` determines * how the text is aligned against its anchor point. Possible values are * "left", "center" and "right". Defaults to the same as the `align` option. * * @sample {highcharts} highcharts/xaxis/plotbands-label-rotation/ * Vertical text in center position but text-aligned left * * @type {Highcharts.AlignValue} * @since 2.1 * @apioption xAxis.plotBands.label.textAlign */ /** * Whether to [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the labels. * * @type {boolean} * @default false * @since 3.0.3 * @apioption xAxis.plotBands.label.useHTML */ /** * Vertical alignment of the label relative to the plot band. Can be one of * "top", "middle" or "bottom". * * @sample {highcharts} highcharts/xaxis/plotbands-label-verticalalign/ * Vertically centered label * @sample {highstock} stock/xaxis/plotbands-label/ * Plot band with labels * * @type {Highcharts.VerticalAlignValue} * @default top * @since 2.1 * @apioption xAxis.plotBands.label.verticalAlign */ /** * Horizontal position relative the alignment. Default varies by * orientation. * * @sample {highcharts} highcharts/xaxis/plotbands-label-align/ * Aligned 10px from the right edge * @sample {highstock} stock/xaxis/plotbands-label/ * Plot band with labels * * @type {number} * @since 2.1 * @apioption xAxis.plotBands.label.x */ /** * Vertical position of the text baseline relative to the alignment. Default * varies by orientation. * * @sample {highcharts} highcharts/xaxis/plotbands-label-y/ * Label on x axis * @sample {highstock} stock/xaxis/plotbands-label/ * Plot band with labels * * @type {number} * @since 2.1 * @apioption xAxis.plotBands.label.y */ /** * An array of lines stretching across the plot area, marking a specific * value on one of the axes. * * In styled mode, the plot lines are styled by the * `.highcharts-plot-line` class in addition to the `className` option. * * @type {Array<*>} * @product highcharts highstock gantt * @sample {highcharts} highcharts/xaxis/plotlines-color/ * Basic plot line * @sample {highcharts} highcharts/series-solidgauge/labels-auto-aligned/ * Solid gauge plot line * @apioption xAxis.plotLines */ /** * Flag to decide if plotLine should be rendered across all panes. * * @sample {highstock} stock/xaxis/plotlines-acrosspanes/ * Plot lines on different panes * * @since 7.1.2 * @product highstock * @type {boolean} * @default true * @apioption xAxis.plotLines.acrossPanes */ /** * A custom class name, in addition to the default `highcharts-plot-line`, * to apply to each individual line. * * @type {string} * @since 5.0.0 * @apioption xAxis.plotLines.className */ /** * The color of the line. * * @sample {highcharts} highcharts/xaxis/plotlines-color/ * A red line from X axis * @sample {highstock} stock/xaxis/plotlines/ * Plot line on Y axis * * @type {Highcharts.ColorString} * @default #999999 * @apioption xAxis.plotLines.color */ /** * The dashing or dot style for the plot line. For possible values see * [this overview](https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/plotoptions/series-dashstyle-all/). * * @sample {highcharts} highcharts/xaxis/plotlines-dashstyle/ * Dash and dot pattern * @sample {highstock} stock/xaxis/plotlines/ * Plot line on Y axis * * @type {Highcharts.DashStyleValue} * @default Solid * @since 1.2 * @apioption xAxis.plotLines.dashStyle */ /** * An object defining mouse events for the plot line. Supported * properties are `click`, `mouseover`, `mouseout`, `mousemove`. * * @sample {highcharts} highcharts/xaxis/plotlines-events/ * Mouse events demonstrated * * @since 1.2 * @apioption xAxis.plotLines.events */ /** * Click event on a plot band. * * @type {Highcharts.EventCallbackFunction} * @apioption xAxis.plotLines.events.click */ /** * Mouse move event on a plot band. * * @type {Highcharts.EventCallbackFunction} * @apioption xAxis.plotLines.events.mousemove */ /** * Mouse out event on the corner of a plot band. * * @type {Highcharts.EventCallbackFunction} * @apioption xAxis.plotLines.events.mouseout */ /** * Mouse over event on a plot band. * * @type {Highcharts.EventCallbackFunction} * @apioption xAxis.plotLines.events.mouseover */ /** * An id used for identifying the plot line in Axis.removePlotLine. * * @sample {highcharts} highcharts/xaxis/plotlines-id/ * Remove plot line by id * * @type {string} * @apioption xAxis.plotLines.id */ /** * The position of the line in axis units. * * @sample {highcharts} highcharts/xaxis/plotlines-color/ * Between two categories on X axis * @sample {highstock} stock/xaxis/plotlines/ * Plot line on Y axis * * @type {number} * @apioption xAxis.plotLines.value */ /** * The width or thickness of the plot line. * * @sample {highcharts} highcharts/xaxis/plotlines-color/ * 2px wide line from X axis * @sample {highstock} stock/xaxis/plotlines/ * Plot line on Y axis * * @type {number} * @default 2 * @apioption xAxis.plotLines.width */ /** * The z index of the plot line within the chart. * * @sample {highcharts} highcharts/xaxis/plotlines-zindex-behind/ * Behind plot lines by default * @sample {highcharts} highcharts/xaxis/plotlines-zindex-above/ * Above plot lines * @sample {highcharts} highcharts/xaxis/plotlines-zindex-above-all/ * Above plot lines and series * * @type {number} * @since 1.2 * @apioption xAxis.plotLines.zIndex */ /** * Text labels for the plot bands * * @apioption xAxis.plotLines.label */ /** * Horizontal alignment of the label. Can be one of "left", "center" or * "right". * * @sample {highcharts} highcharts/xaxis/plotlines-label-align-right/ * Aligned to the right * @sample {highstock} stock/xaxis/plotlines/ * Plot line on Y axis * * @type {Highcharts.AlignValue} * @default left * @since 2.1 * @apioption xAxis.plotLines.label.align */ /** * Whether to hide labels that are outside the plot area. * * @type {boolean} * @default false * @since 10.3.3 * @apioption xAxis.plotLines.labels.clip */ /** * Callback JavaScript function to format the label. Useful properties like * the value of plot line or the range of plot band (`from` & `to` * properties) can be found in `this.options` object. * * @sample {highcharts} highcharts/xaxis/plotlines-plotbands-label-formatter * Label formatters for plot line and plot band. * @type {Highcharts.FormatterCallbackFunction} * @apioption xAxis.plotLines.label.formatter */ /** * Rotation of the text label in degrees. Defaults to 0 for horizontal plot * lines and 90 for vertical lines. * * @sample {highcharts} highcharts/xaxis/plotlines-label-verticalalign-middle/ * Slanted text * * @type {number} * @since 2.1 * @apioption xAxis.plotLines.label.rotation */ /** * CSS styles for the text label. * * In styled mode, the labels are styled by the * `.highcharts-plot-line-label` class. * * @sample {highcharts} highcharts/xaxis/plotlines-label-style/ * Blue and bold label * * @type {Highcharts.CSSObject} * @since 2.1 * @apioption xAxis.plotLines.label.style */ /** * The text itself. A subset of HTML is supported. * * @type {string} * @since 2.1 * @apioption xAxis.plotLines.label.text */ /** * The text alignment for the label. While `align` determines where the * texts anchor point is placed within the plot band, `textAlign` determines * how the text is aligned against its anchor point. Possible values are * "left", "center" and "right". Defaults to the same as the `align` option. * * @sample {highcharts} highcharts/xaxis/plotlines-label-textalign/ * Text label in bottom position * * @type {Highcharts.AlignValue} * @since 2.1 * @apioption xAxis.plotLines.label.textAlign */ /** * Whether to [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the labels. * * @type {boolean} * @default false * @since 3.0.3 * @apioption xAxis.plotLines.label.useHTML */ /** * Vertical alignment of the label relative to the plot line. Can be * one of "top", "middle" or "bottom". * * @sample {highcharts} highcharts/xaxis/plotlines-label-verticalalign-middle/ * Vertically centered label * * @type {Highcharts.VerticalAlignValue} * @default {highcharts} top * @default {highstock} top * @since 2.1 * @apioption xAxis.plotLines.label.verticalAlign */ /** * Horizontal position relative the alignment. Default varies by * orientation. * * @sample {highcharts} highcharts/xaxis/plotlines-label-align-right/ * Aligned 10px from the right edge * @sample {highstock} stock/xaxis/plotlines/ * Plot line on Y axis * * @type {number} * @since 2.1 * @apioption xAxis.plotLines.label.x */ /** * Vertical position of the text baseline relative to the alignment. Default * varies by orientation. * * @sample {highcharts} highcharts/xaxis/plotlines-label-y/ * Label below the plot line * @sample {highstock} stock/xaxis/plotlines/ * Plot line on Y axis * * @type {number} * @since 2.1 * @apioption xAxis.plotLines.label.y */ /** * @type {Array<*>} * @extends xAxis.plotBands * @apioption yAxis.plotBands */ /** * In a gauge chart, this option determines the inner radius of the * plot band that stretches along the perimeter. It can be given as * a percentage string, like `"100%"`, or as a pixel number, like `100`. * By default, the inner radius is controlled by the [thickness]( * #yAxis.plotBands.thickness) option. * * @sample {highcharts} highcharts/xaxis/plotbands-gauge * Gauge plot band * * @type {number|string} * @since 2.3 * @product highcharts * @apioption yAxis.plotBands.innerRadius */ /** * In a gauge chart, this option determines the outer radius of the * plot band that stretches along the perimeter. It can be given as * a percentage string, like `"100%"`, or as a pixel number, like `100`. * * @sample {highcharts} highcharts/xaxis/plotbands-gauge * Gauge plot band * * @type {number|string} * @default 100% * @since 2.3 * @product highcharts * @apioption yAxis.plotBands.outerRadius */ /** * In a gauge chart, this option sets the width of the plot band * stretching along the perimeter. It can be given as a percentage * string, like `"10%"`, or as a pixel number, like `10`. The default * value 10 is the same as the default [tickLength](#yAxis.tickLength), * thus making the plot band act as a background for the tick markers. * * @sample {highcharts} highcharts/xaxis/plotbands-gauge * Gauge plot band * * @type {number|string} * @default 10 * @since 2.3 * @product highcharts * @apioption yAxis.plotBands.thickness */ /** * @type {Array<*>} * @extends xAxis.plotLines * @apioption yAxis.plotLines */ (''); // Keeps doclets above in JS file return PlotLineOrBand; }); _registerModule(_modules, 'Core/Tooltip.js', [_modules['Core/Templating.js'], _modules['Core/Globals.js'], _modules['Core/Renderer/RendererUtilities.js'], _modules['Core/Renderer/RendererRegistry.js'], _modules['Core/Utilities.js']], function (F, H, R, RendererRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { format } = F; const { composed, doc, isSafari } = H; const { distribute } = R; const { addEvent, clamp, css, discardElement, extend, fireEvent, isArray, isNumber, isString, merge, pick, pushUnique, splat, syncTimeout } = U; /* * * * Class * * */ /* eslint-disable no-invalid-this, valid-jsdoc */ /** * Tooltip of a chart. * * @class * @name Highcharts.Tooltip * * @param {Highcharts.Chart} chart * The chart instance. * * @param {Highcharts.TooltipOptions} options * Tooltip options. */ class Tooltip { /* * * * Constructors * * */ constructor(chart, options, pointer) { /* * * * Properties * * */ this.allowShared = true; this.crosshairs = []; this.distance = 0; this.isHidden = true; this.isSticky = false; this.now = {}; this.options = {}; this.outside = false; this.chart = chart; this.init(chart, options); this.pointer = pointer; } /* * * * Functions * * */ /** * Build the body (lines) of the tooltip by iterating over the items and * returning one entry for each item, abstracting this functionality allows * to easily overwrite and extend it. * * @private * @function Highcharts.Tooltip#bodyFormatter */ bodyFormatter(items) { return items.map(function (item) { const tooltipOptions = item.series.tooltipOptions; return (tooltipOptions[(item.point.formatPrefix || 'point') + 'Formatter'] || item.point.tooltipFormatter).call(item.point, tooltipOptions[(item.point.formatPrefix || 'point') + 'Format'] || ''); }); } /** * Destroy the single tooltips in a split tooltip. * If the tooltip is active then it is not destroyed, unless forced to. * * @private * @function Highcharts.Tooltip#cleanSplit * * @param {boolean} [force] * Force destroy all tooltips. */ cleanSplit(force) { this.chart.series.forEach(function (series) { const tt = series && series.tt; if (tt) { if (!tt.isActive || force) { series.tt = tt.destroy(); } else { tt.isActive = false; } } }); } /** * In case no user defined formatter is given, this will be used. Note that * the context here is an object holding point, series, x, y etc. * * @function Highcharts.Tooltip#defaultFormatter * * @param {Highcharts.Tooltip} tooltip * * @return {string|Array} * Returns a string (single tooltip and shared) * or an array of strings (split tooltip) */ defaultFormatter(tooltip) { const items = this.points || splat(this); let s; // Build the header s = [tooltip.tooltipFooterHeaderFormatter(items[0])]; // Build the values s = s.concat(tooltip.bodyFormatter(items)); // Footer s.push(tooltip.tooltipFooterHeaderFormatter(items[0], true)); return s; } /** * Removes and destroys the tooltip and its elements. * * @function Highcharts.Tooltip#destroy */ destroy() { // Destroy and clear local variables if (this.label) { this.label = this.label.destroy(); } if (this.split) { this.cleanSplit(true); if (this.tt) { this.tt = this.tt.destroy(); } } if (this.renderer) { this.renderer = this.renderer.destroy(); discardElement(this.container); } U.clearTimeout(this.hideTimer); U.clearTimeout(this.tooltipTimeout); } /** * Extendable method to get the anchor position of the tooltip * from a point or set of points * * @private * @function Highcharts.Tooltip#getAnchor */ getAnchor(points, mouseEvent) { const { chart, pointer } = this, inverted = chart.inverted, plotTop = chart.plotTop, plotLeft = chart.plotLeft; let ret; points = splat(points); // If reversedStacks are false the tooltip position should be taken from // the last point (#17948) if (points[0].series && points[0].series.yAxis && !points[0].series.yAxis.options.reversedStacks) { points = points.slice().reverse(); } // When tooltip follows mouse, relate the position to the mouse if (this.followPointer && mouseEvent) { if (typeof mouseEvent.chartX === 'undefined') { mouseEvent = pointer.normalize(mouseEvent); } ret = [ mouseEvent.chartX - plotLeft, mouseEvent.chartY - plotTop ]; // Some series types use a specificly calculated tooltip position for // each point } else if (points[0].tooltipPos) { ret = points[0].tooltipPos; // Calculate the average position and adjust for axis positions } else { let chartX = 0, chartY = 0; points.forEach(function (point) { const pos = point.pos(true); if (pos) { chartX += pos[0]; chartY += pos[1]; } }); chartX /= points.length; chartY /= points.length; // When shared, place the tooltip next to the mouse (#424) if (this.shared && points.length > 1 && mouseEvent) { if (inverted) { chartX = mouseEvent.chartX; } else { chartY = mouseEvent.chartY; } } // Use the average position for multiple points ret = [chartX - plotLeft, chartY - plotTop]; } return ret.map(Math.round); } /** * Get the CSS class names for the tooltip's label. Styles the label * by `colorIndex` or user-defined CSS. * * @function Highcharts.Tooltip#getClassName * * @return {string} * The class names. */ getClassName(point, isSplit, isHeader) { const options = this.options, series = point.series, seriesOptions = series.options; return [ options.className, 'highcharts-label', isHeader && 'highcharts-tooltip-header', isSplit ? 'highcharts-tooltip-box' : 'highcharts-tooltip', !isHeader && 'highcharts-color-' + pick(point.colorIndex, series.colorIndex), (seriesOptions && seriesOptions.className) ].filter(isString).join(' '); } /** * Creates the Tooltip label element if it does not exist, then returns it. * * @function Highcharts.Tooltip#getLabel * * @return {Highcharts.SVGElement} * Tooltip label */ getLabel() { const tooltip = this, styledMode = this.chart.styledMode, options = this.options, doSplit = this.split && this.allowShared; let container = this.container, renderer = this.chart.renderer; // If changing from a split tooltip to a non-split tooltip, we must // destroy it in order to get the SVG right. #13868. if (this.label) { const wasSplit = !this.label.hasClass('highcharts-label'); if ((!doSplit && wasSplit) || (doSplit && !wasSplit)) { this.destroy(); } } if (!this.label) { if (this.outside) { const chartStyle = this.chart.options.chart.style, Renderer = RendererRegistry.getRendererType(); /** * Reference to the tooltip's container, when * [Highcharts.Tooltip#outside] is set to true, otherwise * it's undefined. * * @name Highcharts.Tooltip#container * @type {Highcharts.HTMLDOMElement|undefined} */ this.container = container = H.doc.createElement('div'); container.className = 'highcharts-tooltip-container'; // We need to set pointerEvents = 'none' as otherwise it makes // the area under the tooltip non-hoverable even after the // tooltip disappears, #19035. css(container, { position: 'absolute', top: '1px', pointerEvents: 'none', zIndex: Math.max(this.options.style.zIndex || 0, (chartStyle && chartStyle.zIndex || 0) + 3) }); /** * Reference to the tooltip's renderer, when * [Highcharts.Tooltip#outside] is set to true, otherwise * it's undefined. * * @name Highcharts.Tooltip#renderer * @type {Highcharts.SVGRenderer|undefined} */ this.renderer = renderer = new Renderer(container, 0, 0, chartStyle, void 0, void 0, renderer.styledMode); } // Create the label if (doSplit) { this.label = renderer.g('tooltip'); } else { this.label = renderer .label('', 0, 0, options.shape, void 0, void 0, options.useHTML, void 0, 'tooltip') .attr({ padding: options.padding, r: options.borderRadius }); if (!styledMode) { this.label .attr({ fill: options.backgroundColor, 'stroke-width': options.borderWidth || 0 }) // #2301, #2657 .css(options.style) .css({ pointerEvents: (options.style.pointerEvents || (this.shouldStickOnContact() ? 'auto' : 'none')) }); } } // Split tooltip use updateTooltipContainer to position the tooltip // container. if (tooltip.outside) { const label = this.label; const { xSetter, ySetter } = label; label.xSetter = function (value) { xSetter.call(label, tooltip.distance); if (container) { container.style.left = value + 'px'; } }; label.ySetter = function (value) { ySetter.call(label, tooltip.distance); if (container) { container.style.top = value + 'px'; } }; } this.label .attr({ zIndex: 8 }) .shadow(options.shadow) .add(); } if (container && !container.parentElement) { H.doc.body.appendChild(container); } return this.label; } /** * Get the total area available area to place the tooltip * * @private */ getPlayingField() { const { body, documentElement } = doc, { chart, distance, outside } = this; return { width: outside ? // Subtract distance to prevent scrollbars Math.max(body.scrollWidth, documentElement.scrollWidth, body.offsetWidth, documentElement.offsetWidth, documentElement.clientWidth) - 2 * distance : chart.chartWidth, height: outside ? Math.max(body.scrollHeight, documentElement.scrollHeight, body.offsetHeight, documentElement.offsetHeight, documentElement.clientHeight) : chart.chartHeight }; } /** * Place the tooltip in a chart without spilling over and not covering the * point itself. * * @function Highcharts.Tooltip#getPosition * * @param {number} boxWidth * Width of the tooltip box. * * @param {number} boxHeight * Height of the tooltip box. * * @param {Highcharts.Point} point * Tooltip related point. * * @return {Highcharts.PositionObject} * Recommended position of the tooltip. */ getPosition(boxWidth, boxHeight, point) { const { distance, chart, outside, pointer } = this, { inverted, plotLeft, plotTop, polar } = chart, { plotX = 0, plotY = 0 } = point, ret = {}, // Don't use h if chart isn't inverted (#7242) ??? h = (inverted && point.h) || 0, // #4117 ??? { height: outerHeight, width: outerWidth } = this.getPlayingField(), chartPosition = pointer.getChartPosition(), scaleX = (val) => (val * chartPosition.scaleX), scaleY = (val) => (val * chartPosition.scaleY), // Build parameter arrays for firstDimension()/secondDimension() buildDimensionArray = (dim) => { const isX = dim === 'x'; return [ dim, isX ? outerWidth : outerHeight, isX ? boxWidth : boxHeight ].concat(outside ? [ // If we are using tooltip.outside, we need to scale the // position to match scaling of the container in case there // is a transform/zoom on the container. #11329 isX ? scaleX(boxWidth) : scaleY(boxHeight), isX ? chartPosition.left - distance + scaleX(plotX + plotLeft) : chartPosition.top - distance + scaleY(plotY + plotTop), 0, isX ? outerWidth : outerHeight ] : [ // Not outside, no scaling is needed isX ? boxWidth : boxHeight, isX ? plotX + plotLeft : plotY + plotTop, isX ? plotLeft : plotTop, isX ? plotLeft + chart.plotWidth : plotTop + chart.plotHeight ]); }; let first = buildDimensionArray('y'), second = buildDimensionArray('x'), swapped; // Handle negative points or reversed axis (#13780) let flipped = !!point.negative; if (!polar && chart.hoverSeries?.yAxis?.reversed) { flipped = !flipped; } // The far side is right or bottom const preferFarSide = !this.followPointer && pick(point.ttBelow, polar ? false : !inverted === flipped), // #4984 /* * Handle the preferred dimension. When the preferred dimension is * tooltip on top or bottom of the point, it will look for space * there. * * @private */ firstDimension = function (dim, outerSize, innerSize, scaledInnerSize, // #11329 point, min, max) { const scaledDist = outside ? (dim === 'y' ? scaleY(distance) : scaleX(distance)) : distance, scaleDiff = (innerSize - scaledInnerSize) / 2, roomLeft = scaledInnerSize < point - distance, roomRight = point + distance + scaledInnerSize < outerSize, alignedLeft = point - scaledDist - innerSize + scaleDiff, alignedRight = point + scaledDist - scaleDiff; if (preferFarSide && roomRight) { ret[dim] = alignedRight; } else if (!preferFarSide && roomLeft) { ret[dim] = alignedLeft; } else if (roomLeft) { ret[dim] = Math.min(max - scaledInnerSize, alignedLeft - h < 0 ? alignedLeft : alignedLeft - h); } else if (roomRight) { ret[dim] = Math.max(min, alignedRight + h + innerSize > outerSize ? alignedRight : alignedRight + h); } else { return false; } }, /* * Handle the secondary dimension. If the preferred dimension is * tooltip on top or bottom of the point, the second dimension is to * align the tooltip above the point, trying to align center but * allowing left or right align within the chart box. * * @private */ secondDimension = function (dim, outerSize, innerSize, scaledInnerSize, // #11329 point) { // Too close to the edge, return false and swap dimensions if (point < distance || point > outerSize - distance) { return false; } // Align left/top if (point < innerSize / 2) { ret[dim] = 1; // Align right/bottom } else if (point > outerSize - scaledInnerSize / 2) { ret[dim] = outerSize - scaledInnerSize - 2; // Align center } else { ret[dim] = point - innerSize / 2; } }, /* * Swap the dimensions */ swap = function (count) { [first, second] = [second, first]; swapped = count; }, run = () => { if (firstDimension.apply(0, first) !== false) { if (secondDimension.apply(0, second) === false && !swapped) { swap(true); run(); } } else if (!swapped) { swap(true); run(); } else { ret.x = ret.y = 0; } }; // Under these conditions, prefer the tooltip on the side of the point if ((inverted && !polar) || this.len > 1) { swap(); } run(); return ret; } /** * Hides the tooltip with a fade out animation. * * @function Highcharts.Tooltip#hide * * @param {number} [delay] * The fade out in milliseconds. If no value is provided the value * of the tooltip.hideDelay option is used. A value of 0 disables * the fade out animation. */ hide(delay) { const tooltip = this; // Disallow duplicate timers (#1728, #1766) U.clearTimeout(this.hideTimer); delay = pick(delay, this.options.hideDelay); if (!this.isHidden) { this.hideTimer = syncTimeout(function () { const label = tooltip.getLabel(); // If there is a delay, fade out with the default duration. If // the hideDelay is 0, we assume no animation is wanted, so we // pass 0 duration. #12994. tooltip.getLabel().animate({ opacity: 0 }, { duration: delay ? 150 : delay, complete: () => { // #3088, assuming we're only using this for tooltips label.hide(); // Clear the container for outside tooltip (#18490) if (tooltip.container) { tooltip.container.remove(); } } }); tooltip.isHidden = true; }, delay); } } /** * Initialize tooltip. * * @private * @function Highcharts.Tooltip#init * * @param {Highcharts.Chart} chart * The chart instance. * * @param {Highcharts.TooltipOptions} options * Tooltip options. */ init(chart, options) { /** * Chart of the tooltip. * * @readonly * @name Highcharts.Tooltip#chart * @type {Highcharts.Chart} */ this.chart = chart; /** * Used tooltip options. * * @readonly * @name Highcharts.Tooltip#options * @type {Highcharts.TooltipOptions} */ this.options = options; /** * List of crosshairs. * * @private * @readonly * @name Highcharts.Tooltip#crosshairs * @type {Array} */ this.crosshairs = []; /** * Current values of x and y when animating. * * @private * @readonly * @name Highcharts.Tooltip#now * @type {Highcharts.PositionObject} */ this.now = { x: 0, y: 0 }; /** * Tooltips are initially hidden. * * @private * @readonly * @name Highcharts.Tooltip#isHidden * @type {boolean} */ this.isHidden = true; /** * True, if the tooltip is split into one label per series, with the * header close to the axis. * * @readonly * @name Highcharts.Tooltip#split * @type {boolean|undefined} */ this.split = options.split && !chart.inverted && !chart.polar; /** * When the tooltip is shared, the entire plot area will capture mouse * movement or touch events. * * @readonly * @name Highcharts.Tooltip#shared * @type {boolean|undefined} */ this.shared = options.shared || this.split; /** * Whether to allow the tooltip to render outside the chart's SVG * element box. By default (false), the tooltip is rendered within the * chart's SVG element, which results in the tooltip being aligned * inside the chart area. * * @readonly * @name Highcharts.Tooltip#outside * @type {boolean} * * @todo * Split tooltip does not support outside in the first iteration. Should * not be too complicated to implement. */ this.outside = pick(options.outside, Boolean(chart.scrollablePixelsX || chart.scrollablePixelsY)); } shouldStickOnContact(pointerEvent) { return !!(!this.followPointer && this.options.stickOnContact && (!pointerEvent || this.pointer.inClass(pointerEvent.target, 'highcharts-tooltip'))); } /** * Moves the tooltip with a soft animation to a new position. * * @private * @function Highcharts.Tooltip#move * * @param {number} x * * @param {number} y * * @param {number} anchorX * * @param {number} anchorY */ move(x, y, anchorX, anchorY) { const tooltip = this, now = tooltip.now, animate = tooltip.options.animation !== false && !tooltip.isHidden && // When we get close to the target position, abort animation and // land on the right place (#3056) (Math.abs(x - now.x) > 1 || Math.abs(y - now.y) > 1), skipAnchor = tooltip.followPointer || tooltip.len > 1; // Get intermediate values for animation extend(now, { x: animate ? (2 * now.x + x) / 3 : x, y: animate ? (now.y + y) / 2 : y, anchorX: skipAnchor ? void 0 : animate ? (2 * now.anchorX + anchorX) / 3 : anchorX, anchorY: skipAnchor ? void 0 : animate ? (now.anchorY + anchorY) / 2 : anchorY }); // Move to the intermediate value tooltip.getLabel().attr(now); tooltip.drawTracker(); // Run on next tick of the mouse tracker if (animate) { // Never allow two timeouts U.clearTimeout(this.tooltipTimeout); // Set the fixed interval ticking for the smooth tooltip this.tooltipTimeout = setTimeout(function () { // The interval function may still be running during destroy, // so check that the chart is really there before calling. if (tooltip) { tooltip.move(x, y, anchorX, anchorY); } }, 32); } } /** * Refresh the tooltip's text and position. * * @function Highcharts.Tooltip#refresh * * @param {Highcharts.Point|Array} pointOrPoints * Either a point or an array of points. * * @param {Highcharts.PointerEventObject} [mouseEvent] * Mouse event, that is responsible for the refresh and should be * used for the tooltip update. */ refresh(pointOrPoints, mouseEvent) { const tooltip = this, { chart, options, pointer, shared } = this, points = splat(pointOrPoints), point = points[0], pointConfig = [], formatString = options.format, formatter = options.formatter || tooltip.defaultFormatter, styledMode = chart.styledMode; let formatterContext = {}; if (!options.enabled || !point.series) { // #16820 return; } U.clearTimeout(this.hideTimer); // A switch saying if this specific tooltip configuration allows shared // or split modes tooltip.allowShared = !(!isArray(pointOrPoints) && pointOrPoints.series && pointOrPoints.series.noSharedTooltip); // Get the reference point coordinates (pie charts use tooltipPos) tooltip.followPointer = (!tooltip.split && point.series.tooltipOptions.followPointer); const anchor = tooltip.getAnchor(pointOrPoints, mouseEvent), x = anchor[0], y = anchor[1]; // Shared tooltip, array is sent over if (shared && tooltip.allowShared) { pointer.applyInactiveState(points); // Now set hover state for the chosen ones: points.forEach(function (item) { item.setState('hover'); pointConfig.push(item.getLabelConfig()); }); formatterContext = point.getLabelConfig(); formatterContext.points = pointConfig; // Single point tooltip } else { formatterContext = point.getLabelConfig(); } this.len = pointConfig.length; // #6128 const text = isString(formatString) ? format(formatString, formatterContext, chart) : formatter.call(formatterContext, tooltip); // Register the current series const currentSeries = point.series; this.distance = pick(currentSeries.tooltipOptions.distance, 16); // Update the inner HTML if (text === false) { this.hide(); } else { // Update text if (tooltip.split && tooltip.allowShared) { // #13868 this.renderSplit(text, points); } else { let checkX = x; let checkY = y; if (mouseEvent && pointer.isDirectTouch) { checkX = mouseEvent.chartX - chart.plotLeft; checkY = mouseEvent.chartY - chart.plotTop; } // #11493, #13095 if (chart.polar || currentSeries.options.clip === false || points.some((p) => // #16004 pointer.isDirectTouch || // ##17929 p.series.shouldShowTooltip(checkX, checkY))) { const label = tooltip.getLabel(); // Prevent the tooltip from flowing over the chart box // (#6659) if (!options.style.width || styledMode) { label.css({ width: (this.outside ? this.getPlayingField() : chart.spacingBox).width + 'px' }); } label.attr({ text: text && text.join ? text.join('') : text }); // Set the stroke color of the box to reflect the point label.addClass(tooltip.getClassName(point), true); if (!styledMode) { label.attr({ stroke: (options.borderColor || point.color || currentSeries.color || "#666666" /* Palette.neutralColor60 */) }); } tooltip.updatePosition({ plotX: x, plotY: y, negative: point.negative, ttBelow: point.ttBelow, h: anchor[2] || 0 }); } else { tooltip.hide(); return; } } // Show it if (tooltip.isHidden && tooltip.label) { tooltip.label.attr({ opacity: 1 }).show(); } tooltip.isHidden = false; } fireEvent(this, 'refresh'); } /** * Render the split tooltip. Loops over each point's text and adds * a label next to the point, then uses the distribute function to * find best non-overlapping positions. * * @private * @function Highcharts.Tooltip#renderSplit * * @param {string|Array<(boolean|string)>} labels * * @param {Array} points */ renderSplit(labels, points) { const tooltip = this; const { chart, chart: { chartWidth, chartHeight, plotHeight, plotLeft, plotTop, scrollablePixelsY = 0, scrollablePixelsX, styledMode }, distance, options, options: { positioner }, pointer } = tooltip; const { scrollLeft = 0, scrollTop = 0 } = chart.scrollablePlotArea?.scrollingContainer || {}; // The area which the tooltip should be limited to. Limit to scrollable // plot area if enabled, otherwise limit to the chart container. If // outside is true it should be the whole viewport const bounds = (tooltip.outside && typeof scrollablePixelsX !== 'number') ? doc.documentElement.getBoundingClientRect() : { left: scrollLeft, right: scrollLeft + chartWidth, top: scrollTop, bottom: scrollTop + chartHeight }; const tooltipLabel = tooltip.getLabel(); const ren = this.renderer || chart.renderer; const headerTop = Boolean(chart.xAxis[0] && chart.xAxis[0].opposite); const { left: chartLeft, top: chartTop } = pointer.getChartPosition(); let distributionBoxTop = plotTop + scrollTop; let headerHeight = 0; let adjustedPlotHeight = plotHeight - scrollablePixelsY; /** * Calculates the anchor position for the partial tooltip * * @private * @param {Highcharts.Point} point The point related to the tooltip * @return {Object} Returns an object with anchorX and anchorY */ function getAnchor(point) { const { isHeader, plotX = 0, plotY = 0, series } = point; let anchorX; let anchorY; if (isHeader) { // Set anchorX to plotX anchorX = Math.max(plotLeft + plotX, plotLeft); // Set anchorY to center of visible plot area. anchorY = plotTop + plotHeight / 2; } else { const { xAxis, yAxis } = series; // Set anchorX to plotX. Limit to within xAxis. anchorX = xAxis.pos + clamp(plotX, -distance, xAxis.len + distance); // Set anchorY, limit to the scrollable plot area if (series.shouldShowTooltip(0, yAxis.pos - plotTop + plotY, { ignoreX: true })) { anchorY = yAxis.pos + plotY; } } // Limit values to plot area anchorX = clamp(anchorX, bounds.left - distance, bounds.right + distance); return { anchorX, anchorY }; } /** * Calculates the position of the partial tooltip * * @private * @param {number} anchorX * The partial tooltip anchor x position * * @param {number} anchorY * The partial tooltip anchor y position * * @param {boolean|undefined} isHeader * Whether the partial tooltip is a header * * @param {number} boxWidth * Width of the partial tooltip * * @return {Highcharts.PositionObject} * Returns the partial tooltip x and y position */ function defaultPositioner(anchorX, anchorY, isHeader, boxWidth, alignedLeft = true) { let y; let x; if (isHeader) { y = headerTop ? 0 : adjustedPlotHeight; x = clamp(anchorX - (boxWidth / 2), bounds.left, bounds.right - boxWidth - (tooltip.outside ? chartLeft : 0)); } else { y = anchorY - distributionBoxTop; x = alignedLeft ? anchorX - boxWidth - distance : anchorX + distance; x = clamp(x, alignedLeft ? x : bounds.left, bounds.right); } // NOTE: y is relative to distributionBoxTop return { x, y }; } /** * Updates the attributes and styling of the partial tooltip. Creates a * new partial tooltip if it does not exists. * * @private * @param {Highcharts.SVGElement|undefined} partialTooltip * The partial tooltip to update * @param {Highcharts.Point} point * The point related to the partial tooltip * @param {boolean|string} str The text for the partial tooltip * @return {Highcharts.SVGElement} Returns the updated partial tooltip */ function updatePartialTooltip(partialTooltip, point, str) { let tt = partialTooltip; const { isHeader, series } = point; if (!tt) { const attribs = { padding: options.padding, r: options.borderRadius }; if (!styledMode) { attribs.fill = options.backgroundColor; attribs['stroke-width'] = options.borderWidth ?? 1; } tt = ren .label('', 0, 0, (options[isHeader ? 'headerShape' : 'shape']), void 0, void 0, options.useHTML) .addClass(tooltip.getClassName(point, true, isHeader)) .attr(attribs) .add(tooltipLabel); } tt.isActive = true; tt.attr({ text: str }); if (!styledMode) { tt.css(options.style) .attr({ stroke: (options.borderColor || point.color || series.color || "#333333" /* Palette.neutralColor80 */) }); } return tt; } // Graceful degradation for legacy formatters if (isString(labels)) { labels = [false, labels]; } // Create the individual labels for header and points, ignore footer let boxes = labels.slice(0, points.length + 1).reduce(function (boxes, str, i) { if (str !== false && str !== '') { const point = (points[i - 1] || { // Item 0 is the header. Instead of this, we could also // use the crosshair label isHeader: true, plotX: points[0].plotX, plotY: plotHeight, series: {} }); const isHeader = point.isHeader; // Store the tooltip label reference on the series const owner = isHeader ? tooltip : point.series; const tt = owner.tt = updatePartialTooltip(owner.tt, point, str.toString()); // Get X position now, so we can move all to the other side in // case of overflow const bBox = tt.getBBox(); const boxWidth = bBox.width + tt.strokeWidth(); if (isHeader) { headerHeight = bBox.height; adjustedPlotHeight += headerHeight; if (headerTop) { distributionBoxTop -= headerHeight; } } const { anchorX, anchorY } = getAnchor(point); if (typeof anchorY === 'number') { const size = bBox.height + 1; const boxPosition = (positioner ? positioner.call(tooltip, boxWidth, size, point) : defaultPositioner(anchorX, anchorY, isHeader, boxWidth)); boxes.push({ // 0-align to the top, 1-align to the bottom align: positioner ? 0 : void 0, anchorX, anchorY, boxWidth, point, rank: pick(boxPosition.rank, isHeader ? 1 : 0), size, target: boxPosition.y, tt, x: boxPosition.x }); } else { // Hide tooltips which anchorY is outside the visible plot // area tt.isActive = false; } } return boxes; }, []); // Realign the tooltips towards the right if there is not enough space // to the left and there is space to the right if (!positioner && boxes.some((box) => { // Always realign if the beginning of a label is outside bounds const { outside } = tooltip; const boxStart = (outside ? chartLeft : 0) + box.anchorX; if (boxStart < bounds.left && boxStart + box.boxWidth < bounds.right) { return true; } // Otherwise, check if there is more space available to the right return boxStart < (chartLeft - bounds.left) + box.boxWidth && bounds.right - boxStart > boxStart; })) { boxes = boxes.map((box) => { const { x, y } = defaultPositioner(box.anchorX, box.anchorY, box.point.isHeader, box.boxWidth, false); return extend(box, { target: y, x }); }); } // Clean previous run (for missing points) tooltip.cleanSplit(); // Distribute and put in place distribute(boxes, adjustedPlotHeight); const boxExtremes = { left: chartLeft, right: chartLeft }; // Get the extremes from series tooltips boxes.forEach(function (box) { const { x, boxWidth, isHeader } = box; if (!isHeader) { if (tooltip.outside && chartLeft + x < boxExtremes.left) { boxExtremes.left = chartLeft + x; } if (!isHeader && tooltip.outside && boxExtremes.left + boxWidth > boxExtremes.right) { boxExtremes.right = chartLeft + x; } } }); boxes.forEach(function (box) { const { x, anchorX, anchorY, pos, point: { isHeader } } = box; const attributes = { visibility: typeof pos === 'undefined' ? 'hidden' : 'inherit', x, /* NOTE: y should equal pos to be consistent with !split * tooltip, but is currently relative to plotTop. Is left as is * to avoid breaking change. Remove distributionBoxTop to make * it consistent. */ y: (pos || 0) + distributionBoxTop, anchorX, anchorY }; // Handle left-aligned tooltips overflowing the chart area if (tooltip.outside && x < anchorX) { const offset = chartLeft - boxExtremes.left; // Skip this if there is no overflow if (offset > 0) { if (!isHeader) { attributes.x = x + offset; attributes.anchorX = anchorX + offset; } if (isHeader) { attributes.x = (boxExtremes.right - boxExtremes.left) / 2; attributes.anchorX = anchorX + offset; } } } // Put the label in place box.tt.attr(attributes); }); /* If we have a separate tooltip container, then update the necessary * container properties. * Test that tooltip has its own container and renderer before executing * the operation. */ const { container, outside, renderer } = tooltip; if (outside && container && renderer) { // Set container size to fit the bounds const { width, height, x, y } = tooltipLabel.getBBox(); renderer.setSize(width + x, height + y, false); // Position the tooltip container to the chart container container.style.left = boxExtremes.left + 'px'; container.style.top = chartTop + 'px'; } // Workaround for #18927, artefacts left by the shadows of split // tooltips in Safari v16 (2023). Check again with later versions if we // can remove this. if (isSafari) { tooltipLabel.attr({ // Force a redraw of the whole group by chaining the opacity // slightly opacity: tooltipLabel.opacity === 1 ? 0.999 : 1 }); } } /** * If the `stickOnContact` option is active, this will add a tracker shape. * * @private * @function Highcharts.Tooltip#drawTracker */ drawTracker() { const tooltip = this; if (!this.shouldStickOnContact()) { if (tooltip.tracker) { tooltip.tracker = tooltip.tracker.destroy(); } return; } const chart = tooltip.chart; const label = tooltip.label; const points = tooltip.shared ? chart.hoverPoints : chart.hoverPoint; if (!label || !points) { return; } const box = { x: 0, y: 0, width: 0, height: 0 }; // Combine anchor and tooltip const anchorPos = this.getAnchor(points); const labelBBox = label.getBBox(); anchorPos[0] += chart.plotLeft - (label.translateX || 0); anchorPos[1] += chart.plotTop - (label.translateY || 0); // When the mouse pointer is between the anchor point and the label, // the label should stick. box.x = Math.min(0, anchorPos[0]); box.y = Math.min(0, anchorPos[1]); box.width = (anchorPos[0] < 0 ? Math.max(Math.abs(anchorPos[0]), labelBBox.width - anchorPos[0]) : Math.max(Math.abs(anchorPos[0]), labelBBox.width)); box.height = (anchorPos[1] < 0 ? Math.max(Math.abs(anchorPos[1]), labelBBox.height - Math.abs(anchorPos[1])) : Math.max(Math.abs(anchorPos[1]), labelBBox.height)); if (tooltip.tracker) { tooltip.tracker.attr(box); } else { tooltip.tracker = label.renderer .rect(box) .addClass('highcharts-tracker') .add(label); if (!chart.styledMode) { tooltip.tracker.attr({ fill: 'rgba(0,0,0,0)' }); } } } /** * @private */ styledModeFormat(formatString) { return formatString .replace('style="font-size: 0.8em"', 'class="highcharts-header"') .replace(/style="color:{(point|series)\.color}"/g, 'class="highcharts-color-{$1.colorIndex} ' + '{series.options.className} ' + '{point.options.className}"'); } /** * Format the footer/header of the tooltip * #3397: abstraction to enable formatting of footer and header * * @private * @function Highcharts.Tooltip#tooltipFooterHeaderFormatter */ tooltipFooterHeaderFormatter(labelConfig, isFooter) { const series = labelConfig.series, tooltipOptions = series.tooltipOptions, xAxis = series.xAxis, dateTime = xAxis && xAxis.dateTime, e = { isFooter: isFooter, labelConfig: labelConfig }; let xDateFormat = tooltipOptions.xDateFormat, formatString = tooltipOptions[isFooter ? 'footerFormat' : 'headerFormat']; fireEvent(this, 'headerFormatter', e, function (e) { // Guess the best date format based on the closest point distance // (#568, #3418) if (dateTime && !xDateFormat && isNumber(labelConfig.key)) { xDateFormat = dateTime.getXDateFormat(labelConfig.key, tooltipOptions.dateTimeLabelFormats); } // Insert the footer date format if any if (dateTime && xDateFormat) { ((labelConfig.point && labelConfig.point.tooltipDateKeys) || ['key']).forEach(function (key) { formatString = formatString.replace('{point.' + key + '}', '{point.' + key + ':' + xDateFormat + '}'); }); } // Replace default header style with class name if (series.chart.styledMode) { formatString = this.styledModeFormat(formatString); } e.text = format(formatString, { point: labelConfig, series: series }, this.chart); }); return e.text; } /** * Updates the tooltip with the provided tooltip options. * * @function Highcharts.Tooltip#update * * @param {Highcharts.TooltipOptions} options * The tooltip options to update. */ update(options) { this.destroy(); this.init(this.chart, merge(true, this.options, options)); } /** * Find the new position and perform the move * * @private * @function Highcharts.Tooltip#updatePosition * * @param {Highcharts.Point} point */ updatePosition(point) { const { chart, container, distance, options, pointer, renderer } = this, { height = 0, width = 0 } = this.getLabel(), // Needed for outside: true (#11688) { left, top, scaleX, scaleY } = pointer.getChartPosition(), pos = (options.positioner || this.getPosition).call(this, width, height, point); let anchorX = (point.plotX || 0) + chart.plotLeft, anchorY = (point.plotY || 0) + chart.plotTop, pad; // Set the renderer size dynamically to prevent document size to change. // Renderer only exists when tooltip is outside. if (renderer && container) { // Corrects positions, occurs with tooltip positioner (#16944) if (options.positioner) { pos.x += left - distance; pos.y += top - distance; } // Pad it by the border width and distance. Add 2 to make room for // the default shadow (#19314). pad = (options.borderWidth || 0) + 2 * distance + 2; renderer.setSize(width + pad, height + pad, false); // Anchor and tooltip container need scaling if chart container has // scale transform/css zoom. #11329. if (scaleX !== 1 || scaleY !== 1) { css(container, { transform: `scale(${scaleX}, ${scaleY})` }); anchorX *= scaleX; anchorY *= scaleY; } anchorX += left - pos.x; anchorY += top - pos.y; } // Do the move this.move(Math.round(pos.x), Math.round(pos.y || 0), // Can be undefined (#3977) anchorX, anchorY); } } /* * * * Class namespace * * */ (function (Tooltip) { /* * * * Declarations * * */ /* * * * Functions * * */ /** * @private */ function compose(PointerClass) { if (pushUnique(composed, 'Core.Tooltip')) { addEvent(PointerClass, 'afterInit', function () { const chart = this.chart; if (chart.options.tooltip) { /** * Tooltip object for points of series. * * @name Highcharts.Chart#tooltip * @type {Highcharts.Tooltip} */ chart.tooltip = new Tooltip(chart, chart.options.tooltip, this); } }); } } Tooltip.compose = compose; })(Tooltip || (Tooltip = {})); /* * * * Default export * * */ /* * * * API Declarations * * */ /** * Callback function to format the text of the tooltip from scratch. * * In case of single or shared tooltips, a string should be returned. In case * of splitted tooltips, it should return an array where the first item is the * header, and subsequent items are mapped to the points. Return `false` to * disable tooltip for a specific point on series. * * @callback Highcharts.TooltipFormatterCallbackFunction * * @param {Highcharts.TooltipFormatterContextObject} this * Context to format * * @param {Highcharts.Tooltip} tooltip * The tooltip instance * * @return {false|string|Array<(string|null|undefined)>|null|undefined} * Formatted text or false */ /** * Configuration for the tooltip formatters. * * @interface Highcharts.TooltipFormatterContextObject * @extends Highcharts.PointLabelObject */ /** * Array of points in shared tooltips. * @name Highcharts.TooltipFormatterContextObject#points * @type {Array|undefined} */ /** * A callback function to place the tooltip in a specific position. * * @callback Highcharts.TooltipPositionerCallbackFunction * * @param {Highcharts.Tooltip} this * Tooltip context of the callback. * * @param {number} labelWidth * Width of the tooltip. * * @param {number} labelHeight * Height of the tooltip. * * @param {Highcharts.TooltipPositionerPointObject} point * Point information for positioning a tooltip. * * @return {Highcharts.PositionObject} * New position for the tooltip. */ /** * Point information for positioning a tooltip. * * @interface Highcharts.TooltipPositionerPointObject * @extends Highcharts.Point */ /** * If `tooltip.split` option is enabled and positioner is called for each of the * boxes separately, this property indicates the call on the xAxis header, which * is not a point itself. * @name Highcharts.TooltipPositionerPointObject#isHeader * @type {boolean} */ /** * The reference point relative to the plot area. Add chart.plotLeft to get the * full coordinates. * @name Highcharts.TooltipPositionerPointObject#plotX * @type {number} */ /** * The reference point relative to the plot area. Add chart.plotTop to get the * full coordinates. * @name Highcharts.TooltipPositionerPointObject#plotY * @type {number} */ /** * @typedef {"callout"|"circle"|"rect"} Highcharts.TooltipShapeValue */ ''; // Keeps doclets above in JS file return Tooltip; }); _registerModule(_modules, 'Core/Series/Point.js', [_modules['Core/Renderer/HTML/AST.js'], _modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Defaults.js'], _modules['Core/Templating.js'], _modules['Core/Utilities.js']], function (AST, A, D, F, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { animObject } = A; const { defaultOptions } = D; const { format } = F; const { addEvent, erase, extend, fireEvent, getNestedProperty, isArray, isFunction, isNumber, isObject, merge, pick, syncTimeout, removeEvent, uniqueKey } = U; /* eslint-disable no-invalid-this, valid-jsdoc */ /* * * * Class * * */ /** * The Point object. The point objects are generated from the `series.data` * configuration objects or raw numbers. They can be accessed from the * `Series.points` array. Other ways to instantiate points are through {@link * Highcharts.Series#addPoint} or {@link Highcharts.Series#setData}. * * @class * @name Highcharts.Point */ class Point { /** * For categorized axes this property holds the category name for the * point. For other axes it holds the X value. * * @name Highcharts.Point#category * @type {number|string} */ /** * The name of the point. The name can be given as the first position of the * point configuration array, or as a `name` property in the configuration: * * @example * // Array config * data: [ * ['John', 1], * ['Jane', 2] * ] * * // Object config * data: [{ * name: 'John', * y: 1 * }, { * name: 'Jane', * y: 2 * }] * * @name Highcharts.Point#name * @type {string} */ /** * The point's options as applied in the initial configuration, or * extended through `Point.update`. * * In TypeScript you have to extend `PointOptionsObject` via an * additional interface to allow custom data options: * * ``` * declare interface PointOptionsObject { * customProperty: string; * } * ``` * * @name Highcharts.Point#options * @type {Highcharts.PointOptionsObject} */ /** * The percentage for points in a stacked series, pies or gauges. * * @name Highcharts.Point#percentage * @type {number|undefined} */ /** * The series object associated with the point. * * @name Highcharts.Point#series * @type {Highcharts.Series} */ /** * The attributes of the rendered SVG shape like in `column` or `pie` * series. * * @readonly * @name Highcharts.Point#shapeArgs * @type {Readonly|undefined} */ /** * The total of values in either a stack for stacked series, or a pie in a * pie series. * * @name Highcharts.Point#total * @type {number|undefined} */ /** * For certain series types, like pie charts, where individual points can * be shown or hidden. * * @name Highcharts.Point#visible * @type {boolean} * @default true */ /* * * * Functions * * */ /** * Animate SVG elements associated with the point. * * @private * @function Highcharts.Point#animateBeforeDestroy */ animateBeforeDestroy() { const point = this, animateParams = { x: point.startXPos, opacity: 0 }, graphicalProps = point.getGraphicalProps(); graphicalProps.singular.forEach(function (prop) { const isDataLabel = prop === 'dataLabel'; point[prop] = point[prop].animate(isDataLabel ? { x: point[prop].startXPos, y: point[prop].startYPos, opacity: 0 } : animateParams); }); graphicalProps.plural.forEach(function (plural) { point[plural].forEach(function (item) { if (item.element) { item.animate(extend({ x: point.startXPos }, (item.startYPos ? { x: item.startXPos, y: item.startYPos } : {}))); } }); }); } /** * Apply the options containing the x and y data and possible some extra * properties. Called on point init or from point.update. * * @private * @function Highcharts.Point#applyOptions * * @param {Highcharts.PointOptionsType} options * The point options as defined in series.data. * * @param {number} [x] * Optionally, the x value. * * @return {Highcharts.Point} * The Point instance. */ applyOptions(options, x) { const point = this, series = point.series, pointValKey = series.options.pointValKey || series.pointValKey; options = Point.prototype.optionsToObject.call(this, options); // Copy options directly to point extend(point, options); point.options = point.options ? extend(point.options, options) : options; // Since options are copied into the Point instance, some accidental // options must be shielded (#5681) if (options.group) { delete point.group; } if (options.dataLabels) { delete point.dataLabels; } /** * The y value of the point. * @name Highcharts.Point#y * @type {number|undefined} */ // For higher dimension series types. For instance, for ranges, point.y // is mapped to point.low. if (pointValKey) { point.y = Point.prototype.getNestedProperty.call(point, pointValKey); } // The point is initially selected by options (#5777) if (point.selected) { point.state = 'select'; } /** * The x value of the point. * @name Highcharts.Point#x * @type {number} */ // If no x is set by now, get auto incremented value. All points must // have an x value, however the y value can be null to create a gap in // the series if ('name' in point && typeof x === 'undefined' && series.xAxis && series.xAxis.hasNames) { point.x = series.xAxis.nameToX(point); } if (typeof point.x === 'undefined' && series) { if (typeof x === 'undefined') { point.x = series.autoIncrement(); } else { point.x = x; } } else if (isNumber(options.x) && series.options.relativeXValue) { point.x = series.autoIncrement(options.x); } point.isNull = this.isValid && !this.isValid(); point.formatPrefix = point.isNull ? 'null' : 'point'; // #9233, #10874 return point; } /** * Destroy a point to clear memory. Its reference still stays in * `series.data`. * * @private * @function Highcharts.Point#destroy */ destroy() { if (!this.destroyed) { const point = this, series = point.series, chart = series.chart, dataSorting = series.options.dataSorting, hoverPoints = chart.hoverPoints, globalAnimation = point.series.chart.renderer.globalAnimation, animation = animObject(globalAnimation); /** * Allow to call after animation. * @private */ const destroyPoint = () => { // Remove all events and elements if (point.graphic || point.graphics || point.dataLabel || point.dataLabels) { removeEvent(point); point.destroyElements(); } for (const prop in point) { // eslint-disable-line guard-for-in delete point[prop]; } }; if (point.legendItem) { // Pies have legend items chart.legend.destroyItem(point); } if (hoverPoints) { point.setState(); erase(hoverPoints, point); if (!hoverPoints.length) { chart.hoverPoints = null; } } if (point === chart.hoverPoint) { point.onMouseOut(); } // Remove properties after animation if (!dataSorting || !dataSorting.enabled) { destroyPoint(); } else { this.animateBeforeDestroy(); syncTimeout(destroyPoint, animation.duration); } chart.pointCount--; } this.destroyed = true; } /** * Destroy SVG elements associated with the point. * * @private * @function Highcharts.Point#destroyElements * @param {Highcharts.Dictionary} [kinds] */ destroyElements(kinds) { const point = this, props = point.getGraphicalProps(kinds); props.singular.forEach(function (prop) { point[prop] = point[prop].destroy(); }); props.plural.forEach(function (plural) { point[plural].forEach(function (item) { if (item && item.element) { item.destroy(); } }); delete point[plural]; }); } /** * Fire an event on the Point object. * * @private * @function Highcharts.Point#firePointEvent * * @param {string} eventType * Type of the event. * * @param {Highcharts.Dictionary|Event} [eventArgs] * Additional event arguments. * * @param {Highcharts.EventCallbackFunction|Function} [defaultFunction] * Default event handler. * * @emits Highcharts.Point#event:* */ firePointEvent(eventType, eventArgs, defaultFunction) { const point = this, series = this.series, seriesOptions = series.options; // Load event handlers on demand to save time on mouseover/out point.manageEvent(eventType); // Add default handler if in selection mode if (eventType === 'click' && seriesOptions.allowPointSelect) { defaultFunction = function (event) { // Control key is for Windows, meta (= Cmd key) for Mac, Shift // for Opera. if (!point.destroyed && point.select) { // #2911, #19075 point.select(null, event.ctrlKey || event.metaKey || event.shiftKey); } }; } fireEvent(point, eventType, eventArgs, defaultFunction); } /** * Get the CSS class names for individual points. Used internally where the * returned value is set on every point. * * @function Highcharts.Point#getClassName * * @return {string} * The class names. */ getClassName() { const point = this; return 'highcharts-point' + (point.selected ? ' highcharts-point-select' : '') + (point.negative ? ' highcharts-negative' : '') + (point.isNull ? ' highcharts-null-point' : '') + (typeof point.colorIndex !== 'undefined' ? ' highcharts-color-' + point.colorIndex : '') + (point.options.className ? ' ' + point.options.className : '') + (point.zone && point.zone.className ? ' ' + point.zone.className.replace('highcharts-negative', '') : ''); } /** * Get props of all existing graphical point elements. * * @private * @function Highcharts.Point#getGraphicalProps */ getGraphicalProps(kinds) { const point = this, props = [], graphicalProps = { singular: [], plural: [] }; let prop, i; kinds = kinds || { graphic: 1, dataLabel: 1 }; if (kinds.graphic) { props.push('graphic', 'connector' // Used by dumbbell ); } if (kinds.dataLabel) { props.push('dataLabel', 'dataLabelPath', 'dataLabelUpper'); } i = props.length; while (i--) { prop = props[i]; if (point[prop]) { graphicalProps.singular.push(prop); } } [ 'graphic', 'dataLabel' ].forEach(function (prop) { const plural = prop + 's'; if (kinds[prop] && point[plural]) { graphicalProps.plural.push(plural); } }); return graphicalProps; } /** * Return the configuration hash needed for the data label and tooltip * formatters. * * @function Highcharts.Point#getLabelConfig * * @return {Highcharts.PointLabelObject} * Abstract object used in formatters and formats. */ getLabelConfig() { return { x: this.category, y: this.y, color: this.color, colorIndex: this.colorIndex, key: this.name || this.category, series: this.series, point: this, percentage: this.percentage, total: this.total || this.stackTotal }; } /** * Returns the value of the point property for a given value. * @private */ getNestedProperty(key) { if (!key) { return; } if (key.indexOf('custom.') === 0) { return getNestedProperty(key, this.options); } return this[key]; } /** * In a series with `zones`, return the zone that the point belongs to. * * @function Highcharts.Point#getZone * * @return {Highcharts.SeriesZonesOptionsObject} * The zone item. */ getZone() { const series = this.series, zones = series.zones, zoneAxis = series.zoneAxis || 'y'; let zone, i = 0; zone = zones[i]; while (this[zoneAxis] >= zone.value) { zone = zones[++i]; } // For resetting or reusing the point (#8100) if (!this.nonZonedColor) { this.nonZonedColor = this.color; } if (zone && zone.color && !this.options.color) { this.color = zone.color; } else { this.color = this.nonZonedColor; } return zone; } /** * Utility to check if point has new shape type. Used in column series and * all others that are based on column series. * @private */ hasNewShapeType() { const point = this; const oldShapeType = point.graphic && (point.graphic.symbolName || point.graphic.element.nodeName); return oldShapeType !== this.shapeType; } /** * Initialize the point. Called internally based on the `series.data` * option. * * @function Highcharts.Point#init * * @param {Highcharts.Series} series * The series object containing this point. * * @param {Highcharts.PointOptionsType} options * The data in either number, array or object format. * * @param {number} [x] * Optionally, the X value of the point. * * @return {Highcharts.Point} * The Point instance. * * @emits Highcharts.Point#event:afterInit */ constructor(series, options, x) { this.formatPrefix = 'point'; this.visible = true; this.series = series; this.applyOptions(options, x); // Add a unique ID to the point if none is assigned this.id ?? (this.id = uniqueKey()); this.resolveColor(); series.chart.pointCount++; fireEvent(this, 'afterInit'); } /** * Determine if point is valid. * @private * @function Highcharts.Point#isValid */ isValid() { return ((isNumber(this.x) || this.x instanceof Date) && isNumber(this.y)); } /** * Transform number or array configs into objects. Also called for object * configs. Used internally to unify the different configuration formats for * points. For example, a simple number `10` in a line series will be * transformed to `{ y: 10 }`, and an array config like `[1, 10]` in a * scatter series will be transformed to `{ x: 1, y: 10 }`. * * @deprecated * @function Highcharts.Point#optionsToObject * * @param {Highcharts.PointOptionsType} options * Series data options. * * @return {Highcharts.Dictionary<*>} * Transformed point options. */ optionsToObject(options) { const series = this.series, keys = series.options.keys, pointArrayMap = keys || series.pointArrayMap || ['y'], valueCount = pointArrayMap.length; let ret = {}, firstItemType, i = 0, j = 0; if (isNumber(options) || options === null) { ret[pointArrayMap[0]] = options; } else if (isArray(options)) { // With leading x value if (!keys && options.length > valueCount) { firstItemType = typeof options[0]; if (firstItemType === 'string') { ret.name = options[0]; } else if (firstItemType === 'number') { ret.x = options[0]; } i++; } while (j < valueCount) { // Skip undefined positions for keys if (!keys || typeof options[i] !== 'undefined') { if (pointArrayMap[j].indexOf('.') > 0) { // Handle nested keys, e.g. ['color.pattern.image'] // Avoid function call unless necessary. Point.prototype.setNestedProperty(ret, options[i], pointArrayMap[j]); } else { ret[pointArrayMap[j]] = options[i]; } } i++; j++; } } else if (typeof options === 'object') { ret = options; // This is the fastest way to detect if there are individual point // dataLabels that need to be considered in drawDataLabels. These // can only occur in object configs. if (options.dataLabels) { // Override the prototype function to always return true, // regardless of whether data labels are enabled series-wide series.hasDataLabels = () => true; } // Same approach as above for markers if (options.marker) { series._hasPointMarkers = true; } } return ret; } /** * Get the pixel position of the point relative to the plot area. * @function Highcharts.Point#pos * * @sample highcharts/point/position * Get point's position in pixels. * * @param {boolean} chartCoordinates * If true, the returned position is relative to the full chart area. * If false, it is relative to the plot area determined by the axes. * * @param {number|undefined} plotY * A custom plot y position to be computed. Used internally for some * series types that have multiple `y` positions, like area range (low * and high values). * * @return {Array|undefined} * Coordinates of the point if the point exists. */ pos(chartCoordinates, plotY = this.plotY) { if (!this.destroyed) { const { plotX, series } = this, { chart, xAxis, yAxis } = series; let posX = 0, posY = 0; if (isNumber(plotX) && isNumber(plotY)) { if (chartCoordinates) { posX = xAxis ? xAxis.pos : chart.plotLeft; posY = yAxis ? yAxis.pos : chart.plotTop; } return chart.inverted && xAxis && yAxis ? [yAxis.len - plotY + posY, xAxis.len - plotX + posX] : [plotX + posX, plotY + posY]; } } } /** * @private * @function Highcharts.Point#resolveColor */ resolveColor() { const series = this.series, optionsChart = series.chart.options.chart, styledMode = series.chart.styledMode; let color, colors, colorCount = optionsChart.colorCount, colorIndex; // Remove points nonZonedColor for later recalculation delete this.nonZonedColor; if (series.options.colorByPoint) { if (!styledMode) { colors = series.options.colors || series.chart.options.colors; color = colors[series.colorCounter]; colorCount = colors.length; } colorIndex = series.colorCounter; series.colorCounter++; // Loop back to zero if (series.colorCounter === colorCount) { series.colorCounter = 0; } } else { if (!styledMode) { color = series.color; } colorIndex = series.colorIndex; } /** * The point's current color index, used in styled mode instead of * `color`. The color index is inserted in class names used for styling. * * @name Highcharts.Point#colorIndex * @type {number|undefined} */ this.colorIndex = pick(this.options.colorIndex, colorIndex); /** * The point's current color. * * @name Highcharts.Point#color * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject|undefined} */ this.color = pick(this.options.color, color); } /** * Set a value in an object, on the property defined by key. The key * supports nested properties using dot notation. The function modifies the * input object and does not make a copy. * * @function Highcharts.Point#setNestedProperty * * @param {T} object * The object to set the value on. * * @param {*} value * The value to set. * * @param {string} key * Key to the property to set. * * @return {T} * The modified object. */ setNestedProperty(object, value, key) { const nestedKeys = key.split('.'); nestedKeys.reduce(function (result, key, i, arr) { const isLastKey = arr.length - 1 === i; result[key] = (isLastKey ? value : isObject(result[key], true) ? result[key] : {}); return result[key]; }, object); return object; } shouldDraw() { return !this.isNull; } /** * Extendable method for formatting each point's tooltip line. * * @function Highcharts.Point#tooltipFormatter * * @param {string} pointFormat * The point format. * * @return {string} * A string to be concatenated in to the common tooltip text. */ tooltipFormatter(pointFormat) { // Insert options for valueDecimals, valuePrefix, and valueSuffix const series = this.series, seriesTooltipOptions = series.tooltipOptions, valueDecimals = pick(seriesTooltipOptions.valueDecimals, ''), valuePrefix = seriesTooltipOptions.valuePrefix || '', valueSuffix = seriesTooltipOptions.valueSuffix || ''; // Replace default point style with class name if (series.chart.styledMode) { pointFormat = series.chart.tooltip.styledModeFormat(pointFormat); } // Loop over the point array map and replace unformatted values with // sprintf formatting markup (series.pointArrayMap || ['y']).forEach(function (key) { key = '{point.' + key; // Without the closing bracket if (valuePrefix || valueSuffix) { pointFormat = pointFormat.replace(RegExp(key + '}', 'g'), valuePrefix + key + '}' + valueSuffix); } pointFormat = pointFormat.replace(RegExp(key + '}', 'g'), key + ':,.' + valueDecimals + 'f}'); }); return format(pointFormat, { point: this, series: this.series }, series.chart); } /** * Update point with new options (typically x/y data) and optionally redraw * the series. * * @sample highcharts/members/point-update-column/ * Update column value * @sample highcharts/members/point-update-pie/ * Update pie slice * @sample maps/members/point-update/ * Update map area value in Highmaps * * @function Highcharts.Point#update * * @param {Highcharts.PointOptionsType} options * The point options. Point options are handled as described under * the `series.type.data` item for each series type. For example * for a line series, if options is a single number, the point will * be given that number as the marin y value. If it is an array, it * will be interpreted as x and y values respectively. If it is an * object, advanced options are applied. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the point is updated. If doing * more operations on the chart, it is best practice to set * `redraw` to false and call `chart.redraw()` after. * * @param {boolean|Partial} [animation=true] * Whether to apply animation, and optionally animation * configuration. * * @emits Highcharts.Point#event:update */ update(options, redraw, animation, runEvent) { const point = this, series = point.series, graphic = point.graphic, chart = series.chart, seriesOptions = series.options; let i; redraw = pick(redraw, true); /** * @private */ function update() { point.applyOptions(options); // Update visuals, #4146 // Handle mock graphic elements for a11y, #12718 const hasMockGraphic = graphic && point.hasMockGraphic; const shouldDestroyGraphic = point.y === null ? !hasMockGraphic : hasMockGraphic; if (graphic && shouldDestroyGraphic) { point.graphic = graphic.destroy(); delete point.hasMockGraphic; } if (isObject(options, true)) { // Destroy so we can get new elements if (graphic && graphic.element) { // "null" is also a valid symbol if (options && options.marker && typeof options.marker.symbol !== 'undefined') { point.graphic = graphic.destroy(); } } if (options?.dataLabels && point.dataLabel) { point.dataLabel = point.dataLabel.destroy(); // #2468 } } // Record changes in the parallel arrays i = point.index; series.updateParallelArrays(point, i); // Record the options to options.data. If the old or the new config // is an object, use point options, otherwise use raw options // (#4701, #4916). seriesOptions.data[i] = (isObject(seriesOptions.data[i], true) || isObject(options, true)) ? point.options : pick(options, seriesOptions.data[i]); // Redraw series.isDirty = series.isDirtyData = true; if (!series.fixedBox && series.hasCartesianSeries) { // #1906, #2320 chart.isDirtyBox = true; } if (seriesOptions.legendType === 'point') { // #1831, #1885 chart.isDirtyLegend = true; } if (redraw) { chart.redraw(animation); } } // Fire the event with a default handler of doing the update if (runEvent === false) { // When called from setData update(); } else { point.firePointEvent('update', { options: options }, update); } } /** * Remove a point and optionally redraw the series and if necessary the axes * * @sample highcharts/plotoptions/series-point-events-remove/ * Remove point and confirm * @sample highcharts/members/point-remove/ * Remove pie slice * @sample maps/members/point-remove/ * Remove selected points in Highmaps * * @function Highcharts.Point#remove * * @param {boolean} [redraw=true] * Whether to redraw the chart or wait for an explicit call. When * doing more operations on the chart, for example running * `point.remove()` in a loop, it is best practice to set `redraw` * to false and call `chart.redraw()` after. * * @param {boolean|Partial} [animation=false] * Whether to apply animation, and optionally animation * configuration. */ remove(redraw, animation) { this.series.removePoint(this.series.data.indexOf(this), redraw, animation); } /** * Toggle the selection status of a point. * * @see Highcharts.Chart#getSelectedPoints * * @sample highcharts/members/point-select/ * Select a point from a button * @sample highcharts/members/point-select-lasso/ * Lasso selection * @sample highcharts/chart/events-selection-points/ * Rectangle selection * @sample maps/series/data-id/ * Select a point in Highmaps * * @function Highcharts.Point#select * * @param {boolean} [selected] * When `true`, the point is selected. When `false`, the point is * unselected. When `null` or `undefined`, the selection state is toggled. * * @param {boolean} [accumulate=false] * When `true`, the selection is added to other selected points. * When `false`, other selected points are deselected. Internally in * Highcharts, when * [allowPointSelect](https://api.highcharts.com/highcharts/plotOptions.series.allowPointSelect) * is `true`, selected points are accumulated on Control, Shift or Cmd * clicking the point. * * @emits Highcharts.Point#event:select * @emits Highcharts.Point#event:unselect */ select(selected, accumulate) { const point = this, series = point.series, chart = series.chart; selected = pick(selected, !point.selected); this.selectedStaging = selected; // Fire the event with the default handler point.firePointEvent(selected ? 'select' : 'unselect', { accumulate: accumulate }, function () { /** * Whether the point is selected or not. * * @see Point#select * @see Chart#getSelectedPoints * * @name Highcharts.Point#selected * @type {boolean} */ point.selected = point.options.selected = selected; series.options.data[series.data.indexOf(point)] = point.options; point.setState(selected && 'select'); // Unselect all other points unless Ctrl or Cmd + click if (!accumulate) { chart.getSelectedPoints().forEach(function (loopPoint) { const loopSeries = loopPoint.series; if (loopPoint.selected && loopPoint !== point) { loopPoint.selected = loopPoint.options.selected = false; loopSeries.options.data[loopSeries.data.indexOf(loopPoint)] = loopPoint.options; // Programmatically selecting a point should restore // normal state, but when click happened on other // point, set inactive state to match other points loopPoint.setState(chart.hoverPoints && loopSeries.options.inactiveOtherPoints ? 'inactive' : ''); loopPoint.firePointEvent('unselect'); } }); } }); delete this.selectedStaging; } /** * Runs on mouse over the point. Called internally from mouse and touch * events. * * @function Highcharts.Point#onMouseOver * * @param {Highcharts.PointerEventObject} [e] * The event arguments. */ onMouseOver(e) { const point = this, series = point.series, { inverted, pointer } = series.chart; if (pointer) { e = e ? pointer.normalize(e) : // In cases where onMouseOver is called directly without an // event pointer.getChartCoordinatesFromPoint(point, inverted); pointer.runPointActions(e, point); } } /** * Runs on mouse out from the point. Called internally from mouse and touch * events. * * @function Highcharts.Point#onMouseOut * @emits Highcharts.Point#event:mouseOut */ onMouseOut() { const point = this, chart = point.series.chart; point.firePointEvent('mouseOut'); if (!point.series.options.inactiveOtherPoints) { (chart.hoverPoints || []).forEach(function (p) { p.setState(); }); } chart.hoverPoints = chart.hoverPoint = null; } /** * Manage specific event from the series' and point's options. Only do it on * demand, to save processing time on hovering. * * @private * @function Highcharts.Point#importEvents */ manageEvent(eventType) { const point = this, options = merge(point.series.options.point, point.options), userEvent = options.events?.[eventType]; if (isFunction(userEvent) && (!point.hcEvents?.[eventType] || // Some HC modules, like marker-clusters, draggable-poins etc. // use events in their logic, so we need to be sure, that // callback function is different point.hcEvents?.[eventType]?.map((el) => el.fn) .indexOf(userEvent) === -1)) { addEvent(point, eventType, userEvent); point.hasImportedEvents = true; } else if (point.hasImportedEvents && !userEvent && point.hcEvents?.[eventType]) { removeEvent(point, eventType); delete point.hcEvents[eventType]; if (!Object.keys(point.hcEvents)) { point.hasImportedEvents = false; } } } /** * Set the point's state. * * @function Highcharts.Point#setState * * @param {Highcharts.PointStateValue|""} [state] * The new state, can be one of `'hover'`, `'select'`, `'inactive'`, * or `''` (an empty string), `'normal'` or `undefined` to set to * normal state. * @param {boolean} [move] * State for animation. * * @emits Highcharts.Point#event:afterSetState */ setState(state, move) { const point = this, series = point.series, previousState = point.state, stateOptions = (series.options.states[state || 'normal'] || {}), markerOptions = (defaultOptions.plotOptions[series.type].marker && series.options.marker), normalDisabled = (markerOptions && markerOptions.enabled === false), markerStateOptions = ((markerOptions && markerOptions.states && markerOptions.states[state || 'normal']) || {}), stateDisabled = markerStateOptions.enabled === false, pointMarker = point.marker || {}, chart = series.chart, hasMarkers = (markerOptions && series.markerAttribs); let halo = series.halo, markerAttribs, pointAttribs, pointAttribsAnimation, stateMarkerGraphic = series.stateMarkerGraphic, newSymbol; state = state || ''; // Empty string if ( // Already has this state (state === point.state && !move) || // Selected points don't respond to hover (point.selected && state !== 'select') || // Series' state options is disabled (stateOptions.enabled === false) || // General point marker's state options is disabled (state && (stateDisabled || (normalDisabled && markerStateOptions.enabled === false))) || // Individual point marker's state options is disabled (state && pointMarker.states && pointMarker.states[state] && pointMarker.states[state].enabled === false) // #1610 ) { return; } point.state = state; if (hasMarkers) { markerAttribs = series.markerAttribs(point, state); } // Apply hover styles to the existing point // Prevent from mocked null points (#14966) if (point.graphic && !point.hasMockGraphic) { if (previousState) { point.graphic.removeClass('highcharts-point-' + previousState); } if (state) { point.graphic.addClass('highcharts-point-' + state); } if (!chart.styledMode) { pointAttribs = series.pointAttribs(point, state); pointAttribsAnimation = pick(chart.options.chart.animation, stateOptions.animation); const opacity = pointAttribs.opacity; // Some inactive points (e.g. slices in pie) should apply // opacity also for their labels if (series.options.inactiveOtherPoints && isNumber(opacity)) { (point.dataLabels || []).forEach(function (label) { if (label && !label.hasClass('highcharts-data-label-hidden')) { label.animate({ opacity }, pointAttribsAnimation); if (label.connector) { label.connector.animate({ opacity }, pointAttribsAnimation); } } }); } point.graphic.animate(pointAttribs, pointAttribsAnimation); } if (markerAttribs) { point.graphic.animate(markerAttribs, pick( // Turn off globally: chart.options.chart.animation, markerStateOptions.animation, markerOptions.animation)); } // Zooming in from a range with no markers to a range with markers if (stateMarkerGraphic) { stateMarkerGraphic.hide(); } } else { // If a graphic is not applied to each point in the normal state, // create a shared graphic for the hover state if (state && markerStateOptions) { newSymbol = pointMarker.symbol || series.symbol; // If the point has another symbol than the previous one, throw // away the state marker graphic and force a new one (#1459) if (stateMarkerGraphic && stateMarkerGraphic.currentSymbol !== newSymbol) { stateMarkerGraphic = stateMarkerGraphic.destroy(); } // Add a new state marker graphic if (markerAttribs) { if (!stateMarkerGraphic) { if (newSymbol) { series.stateMarkerGraphic = stateMarkerGraphic = chart.renderer .symbol(newSymbol, markerAttribs.x, markerAttribs.y, markerAttribs.width, markerAttribs.height) .add(series.markerGroup); stateMarkerGraphic.currentSymbol = newSymbol; } // Move the existing graphic } else { stateMarkerGraphic[move ? 'animate' : 'attr']({ x: markerAttribs.x, y: markerAttribs.y }); } } if (!chart.styledMode && stateMarkerGraphic && point.state !== 'inactive') { stateMarkerGraphic.attr(series.pointAttribs(point, state)); } } if (stateMarkerGraphic) { stateMarkerGraphic[state && point.isInside ? 'show' : 'hide'](); // #2450 stateMarkerGraphic.element.point = point; // #4310 stateMarkerGraphic.addClass(point.getClassName(), true); } } // Show me your halo const haloOptions = stateOptions.halo; const markerGraphic = (point.graphic || stateMarkerGraphic); const markerVisibility = (markerGraphic && markerGraphic.visibility || 'inherit'); if (haloOptions && haloOptions.size && markerGraphic && markerVisibility !== 'hidden' && !point.isCluster) { if (!halo) { series.halo = halo = chart.renderer.path() // #5818, #5903, #6705 .add(markerGraphic.parentGroup); } halo.show()[move ? 'animate' : 'attr']({ d: point.haloPath(haloOptions.size) }); halo.attr({ 'class': 'highcharts-halo highcharts-color-' + pick(point.colorIndex, series.colorIndex) + (point.className ? ' ' + point.className : ''), 'visibility': markerVisibility, 'zIndex': -1 // #4929, #8276 }); halo.point = point; // #6055 if (!chart.styledMode) { halo.attr(extend({ 'fill': point.color || series.color, 'fill-opacity': haloOptions.opacity }, AST.filterUserAttributes(haloOptions.attributes || {}))); } } else if (halo && halo.point && halo.point.haloPath) { // Animate back to 0 on the current halo point (#6055) halo.animate({ d: halo.point.haloPath(0) }, null, // Hide after unhovering. The `complete` callback runs in the // halo's context (#7681). halo.hide); } fireEvent(point, 'afterSetState', { state }); } /** * Get the path definition for the halo, which is usually a shadow-like * circle around the currently hovered point. * * @function Highcharts.Point#haloPath * * @param {number} size * The radius of the circular halo. * * @return {Highcharts.SVGPathArray} * The path definition. */ haloPath(size) { const pos = this.pos(); return pos ? this.series.chart.renderer.symbols.circle(Math.floor(pos[0]) - size, pos[1] - size, size * 2, size * 2) : []; } } /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Function callback when a series point is clicked. Return false to cancel the * action. * * @callback Highcharts.PointClickCallbackFunction * * @param {Highcharts.Point} this * The point where the event occurred. * * @param {Highcharts.PointClickEventObject} event * Event arguments. */ /** * Common information for a click event on a series point. * * @interface Highcharts.PointClickEventObject * @extends Highcharts.PointerEventObject */ /** * Clicked point. * @name Highcharts.PointClickEventObject#point * @type {Highcharts.Point} */ /** * Configuration for the data label and tooltip formatters. * * @interface Highcharts.PointLabelObject */ /** * The point's current color. * @name Highcharts.PointLabelObject#color * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject|undefined} */ /** * The point's current color index, used in styled mode instead of `color`. The * color index is inserted in class names used for styling. * @name Highcharts.PointLabelObject#colorIndex * @type {number} */ /** * The name of the related point. * @name Highcharts.PointLabelObject#key * @type {string|undefined} */ /** * The percentage for related points in a stacked series or pies. * @name Highcharts.PointLabelObject#percentage * @type {number} */ /** * The related point. The point name, if defined, is available through * `this.point.name`. * @name Highcharts.PointLabelObject#point * @type {Highcharts.Point} */ /** * The related series. The series name is available through `this.series.name`. * @name Highcharts.PointLabelObject#series * @type {Highcharts.Series} */ /** * The total of values in either a stack for stacked series, or a pie in a pie * series. * @name Highcharts.PointLabelObject#total * @type {number|undefined} */ /** * For categorized axes this property holds the category name for the point. For * other axes it holds the X value. * @name Highcharts.PointLabelObject#x * @type {number|string|undefined} */ /** * The y value of the point. * @name Highcharts.PointLabelObject#y * @type {number|null|undefined} */ /** * Gets fired when the mouse leaves the area close to the point. * * @callback Highcharts.PointMouseOutCallbackFunction * * @param {Highcharts.Point} this * Point where the event occurred. * * @param {global.PointerEvent} event * Event that occurred. */ /** * Gets fired when the mouse enters the area close to the point. * * @callback Highcharts.PointMouseOverCallbackFunction * * @param {Highcharts.Point} this * Point where the event occurred. * * @param {global.Event} event * Event that occurred. */ /** * The generic point options for all series. * * In TypeScript you have to extend `PointOptionsObject` with an additional * declaration to allow custom data options: * * ``` * declare interface PointOptionsObject { * customProperty: string; * } * ``` * * @interface Highcharts.PointOptionsObject */ /** * Possible option types for a data point. Use `null` to indicate a gap. * * @typedef {number|string|Highcharts.PointOptionsObject|Array<(number|string|null)>|null} Highcharts.PointOptionsType */ /** * Gets fired when the point is removed using the `.remove()` method. * * @callback Highcharts.PointRemoveCallbackFunction * * @param {Highcharts.Point} this * Point where the event occurred. * * @param {global.Event} event * Event that occurred. */ /** * Possible key values for the point state options. * * @typedef {"hover"|"inactive"|"normal"|"select"} Highcharts.PointStateValue */ /** * Gets fired when the point is updated programmatically through the `.update()` * method. * * @callback Highcharts.PointUpdateCallbackFunction * * @param {Highcharts.Point} this * Point where the event occurred. * * @param {Highcharts.PointUpdateEventObject} event * Event that occurred. */ /** * Information about the update event. * * @interface Highcharts.PointUpdateEventObject * @extends global.Event */ /** * Options data of the update event. * @name Highcharts.PointUpdateEventObject#options * @type {Highcharts.PointOptionsType} */ /** * @interface Highcharts.PointEventsOptionsObject */ /** * Fires when the point is selected either programmatically or following a click * on the point. One parameter, `event`, is passed to the function. Returning * `false` cancels the operation. * @name Highcharts.PointEventsOptionsObject#select * @type {Highcharts.PointSelectCallbackFunction|undefined} */ /** * Fires when the point is unselected either programmatically or following a * click on the point. One parameter, `event`, is passed to the function. * Returning `false` cancels the operation. * @name Highcharts.PointEventsOptionsObject#unselect * @type {Highcharts.PointUnselectCallbackFunction|undefined} */ /** * Information about the select/unselect event. * * @interface Highcharts.PointInteractionEventObject * @extends global.Event */ /** * @name Highcharts.PointInteractionEventObject#accumulate * @type {boolean} */ /** * Gets fired when the point is selected either programmatically or following a * click on the point. * * @callback Highcharts.PointSelectCallbackFunction * * @param {Highcharts.Point} this * Point where the event occurred. * * @param {Highcharts.PointInteractionEventObject} event * Event that occurred. */ /** * Fires when the point is unselected either programmatically or following a * click on the point. * * @callback Highcharts.PointUnselectCallbackFunction * * @param {Highcharts.Point} this * Point where the event occurred. * * @param {Highcharts.PointInteractionEventObject} event * Event that occurred. */ ''; // Keeps doclets above in JS file. return Point; }); _registerModule(_modules, 'Core/Pointer.js', [_modules['Core/Color/Color.js'], _modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (Color, H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { parse: color } = Color; const { charts, composed, isTouchDevice } = H; const { addEvent, attr, css, extend, find, fireEvent, isNumber, isObject, objectEach, offset, pick, pushUnique, splat } = U; /* * * * Class * * */ /** * The mouse and touch tracker object. Each {@link Chart} item has one * associated Pointer item that can be accessed from the {@link Chart.pointer} * property. * * @class * @name Highcharts.Pointer * * @param {Highcharts.Chart} chart * The chart instance. * * @param {Highcharts.Options} options * The root options object. The pointer uses options from the chart and tooltip * structures. */ class Pointer { /* * * * Functions * * */ /** * Set inactive state to all series that are not currently hovered, * or, if `inactiveOtherPoints` is set to true, set inactive state to * all points within that series. * * @private * @function Highcharts.Pointer#applyInactiveState * * @param {Array} points * Currently hovered points */ applyInactiveState(points) { let activeSeries = [], series; // Get all active series from the hovered points (points || []).forEach(function (item) { series = item.series; // Include itself activeSeries.push(series); // Include parent series if (series.linkedParent) { activeSeries.push(series.linkedParent); } // Include all child series if (series.linkedSeries) { activeSeries = activeSeries.concat(series.linkedSeries); } // Include navigator series if (series.navigatorSeries) { activeSeries.push(series.navigatorSeries); } }); // Now loop over all series, filtering out active series this.chart.series.forEach(function (inactiveSeries) { if (activeSeries.indexOf(inactiveSeries) === -1) { // Inactive series inactiveSeries.setState('inactive', true); } else if (inactiveSeries.options.inactiveOtherPoints) { // Active series, but other points should be inactivated inactiveSeries.setAllPointsToState('inactive'); } }); } /** * Destroys the Pointer object and disconnects DOM events. * * @function Highcharts.Pointer#destroy */ destroy() { const pointer = this; this.eventsToUnbind.forEach((unbind) => unbind()); this.eventsToUnbind = []; if (!H.chartCount) { if (Pointer.unbindDocumentMouseUp) { Pointer.unbindDocumentMouseUp = Pointer.unbindDocumentMouseUp(); } if (Pointer.unbindDocumentTouchEnd) { Pointer.unbindDocumentTouchEnd = (Pointer.unbindDocumentTouchEnd()); } } // Memory and CPU leak clearInterval(pointer.tooltipTimeout); objectEach(pointer, function (_val, prop) { pointer[prop] = void 0; }); } /** * Calculate attrs for selection marker. * @private * @function Highcharts.Pointer#getSelectionMarkerAttrs * @emits getSelectionMarkerAttrs */ getSelectionMarkerAttrs(chartX, chartY) { const e = { args: { chartX, chartY }, attrs: {}, shapeType: 'rect' }; fireEvent(this, 'getSelectionMarkerAttrs', e, (e) => { const { chart, zoomHor, zoomVert } = this, { mouseDownX = 0, mouseDownY = 0 } = chart, attrs = e.attrs; let size; attrs.x = chart.plotLeft; attrs.y = chart.plotTop; attrs.width = zoomHor ? 1 : chart.plotWidth; attrs.height = zoomVert ? 1 : chart.plotHeight; // Adjust the width of the selection marker. Firefox needs at // least one pixel width or height in order to return a bounding // box. if (zoomHor) { size = chartX - mouseDownX; attrs.width = Math.max(1, Math.abs(size)); attrs.x = (size > 0 ? 0 : size) + mouseDownX; } // Adjust the height of the selection marker if (zoomVert) { size = chartY - mouseDownY; attrs.height = Math.max(1, Math.abs(size)); attrs.y = (size > 0 ? 0 : size) + mouseDownY; } }); return e; } /** * Perform a drag operation in response to a mousemove event while the mouse * is down. * @private * @function Highcharts.Pointer#drag */ drag(e) { const { chart } = this, { mouseDownX = 0, mouseDownY = 0 } = chart, { panning, panKey, selectionMarkerFill } = chart.options.chart, plotLeft = chart.plotLeft, plotTop = chart.plotTop, plotWidth = chart.plotWidth, plotHeight = chart.plotHeight, panningEnabled = isObject(panning) ? panning.enabled : panning, panKeyPressed = panKey && e[`${panKey}Key`]; let chartX = e.chartX, chartY = e.chartY, clickedInside, selectionMarker = this.selectionMarker; // If the device supports both touch and mouse (like IE11), and we are // touch-dragging inside the plot area, don't handle the mouse event. // #4339. if (selectionMarker && selectionMarker.touch) { return; } // If the mouse is outside the plot area, adjust to coordinates // inside to prevent the selection marker from going outside if (chartX < plotLeft) { chartX = plotLeft; } else if (chartX > plotLeft + plotWidth) { chartX = plotLeft + plotWidth; } if (chartY < plotTop) { chartY = plotTop; } else if (chartY > plotTop + plotHeight) { chartY = plotTop + plotHeight; } // Determine if the mouse has moved more than 10px this.hasDragged = Math.sqrt(Math.pow(mouseDownX - chartX, 2) + Math.pow(mouseDownY - chartY, 2)); if (this.hasDragged > 10) { clickedInside = chart.isInsidePlot(mouseDownX - plotLeft, mouseDownY - plotTop, { visiblePlotOnly: true }); const { shapeType, attrs } = this.getSelectionMarkerAttrs(chartX, chartY); // Make a selection if ((chart.hasCartesianSeries || chart.mapView) && this.hasZoom && clickedInside && !panKeyPressed) { if (!selectionMarker) { this.selectionMarker = selectionMarker = chart.renderer[shapeType](); selectionMarker .attr({ 'class': 'highcharts-selection-marker', zIndex: 7 }) .add(); if (!chart.styledMode) { selectionMarker.attr({ fill: selectionMarkerFill || color("#334eff" /* Palette.highlightColor80 */) .setOpacity(0.25).get() }); } } } if (selectionMarker) { selectionMarker.attr(attrs); } // Panning if (clickedInside && !selectionMarker && panningEnabled) { chart.pan(e, panning); } } } /** * Start a drag operation. * @private * @function Highcharts.Pointer#dragStart */ dragStart(e) { const chart = this.chart; // Record the start position chart.mouseIsDown = e.type; chart.cancelClick = false; chart.mouseDownX = e.chartX; chart.mouseDownY = e.chartY; } /** * Get selection box to calculate extremes * @private * @function Highcharts.Pointer#getSelectionBox * @emits getSelectionBox */ getSelectionBox(marker) { const e = { args: { marker }, result: marker.getBBox() }; fireEvent(this, 'getSelectionBox', e); return e.result; } /** * On mouse up or touch end across the entire document, drop the selection. * @private * @function Highcharts.Pointer#drop */ drop(e) { const { chart, selectionMarker } = this; // During a mouse, touch or mousewheel pan, the `startOnTick` and // `endOnTick` options are ignored. Otherwise the zooming or panning // would be jumpy, or even not performed because the end ticks would // block it. After the touch has ended, we undo this and render again. let redraw; for (const axis of chart.axes) { if (axis.isPanning) { axis.isPanning = false; if (axis.options.startOnTick || axis.options.endOnTick || axis.series.some((s) => s.boosted)) { axis.forceRedraw = true; axis.setExtremes(axis.userMin, axis.userMax, false); redraw = true; } } } if (redraw) { chart.redraw(); } if (selectionMarker && e) { // A selection has been made if (this.hasDragged) { const from = this.getSelectionBox(selectionMarker); chart.transform({ axes: chart.axes.filter((a) => a.zoomEnabled && ((a.coll === 'xAxis' && this.zoomX) || (a.coll === 'yAxis' && this.zoomY))), selection: { originalEvent: e, xAxis: [], yAxis: [], ...from }, from }); } if (isNumber(chart.index)) { this.selectionMarker = selectionMarker.destroy(); } } // Reset all. Check isNumber because it may be destroyed on mouse up // (#877) if (chart && isNumber(chart.index)) { css(chart.container, { cursor: chart._cursor }); chart.cancelClick = this.hasDragged > 10; // #370 chart.mouseIsDown = false; this.hasDragged = 0; this.pinchDown = []; } } /** * Finds the closest point to a set of coordinates, using the k-d-tree * algorithm. * * @function Highcharts.Pointer#findNearestKDPoint * * @param {Array} series * All the series to search in. * * @param {boolean|undefined} shared * Whether it is a shared tooltip or not. * * @param {Highcharts.PointerEventObject} e * The pointer event object, containing chart coordinates of the pointer. * * @return {Highcharts.Point|undefined} * The point closest to given coordinates. */ findNearestKDPoint(series, shared, e) { let closest; /** @private */ function sort(p1, p2) { const isCloserX = p1.distX - p2.distX, isCloser = p1.dist - p2.dist, isAbove = (p2.series.group?.zIndex - p1.series.group?.zIndex); let result; // We have two points which are not in the same place on xAxis // and shared tooltip: if (isCloserX !== 0 && shared) { // #5721 result = isCloserX; // Points are not exactly in the same place on x/yAxis: } else if (isCloser !== 0) { result = isCloser; // The same xAxis and yAxis position, sort by z-index: } else if (isAbove !== 0) { result = isAbove; // The same zIndex, sort by array index: } else { result = p1.series.index > p2.series.index ? -1 : 1; } return result; } series.forEach(function (s) { const noSharedTooltip = s.noSharedTooltip && shared, compareX = (!noSharedTooltip && s.options.findNearestPointBy.indexOf('y') < 0), point = s.searchPoint(e, compareX); if ( // Check that we actually found a point on the series. isObject(point, true) && point.series && // Use the new point if it is closer. (!isObject(closest, true) || (sort(closest, point) > 0))) { closest = point; } }); return closest; } /** * @private * @function Highcharts.Pointer#getChartCoordinatesFromPoint */ getChartCoordinatesFromPoint(point, inverted) { const { xAxis, yAxis } = point.series, shapeArgs = point.shapeArgs; if (xAxis && yAxis) { let x = point.clientX ?? point.plotX ?? 0, y = point.plotY || 0; if (point.isNode && shapeArgs && isNumber(shapeArgs.x) && isNumber(shapeArgs.y)) { x = shapeArgs.x; y = shapeArgs.y; } return inverted ? { chartX: yAxis.len + yAxis.pos - y, chartY: xAxis.len + xAxis.pos - x } : { chartX: x + xAxis.pos, chartY: y + yAxis.pos }; } if (shapeArgs && shapeArgs.x && shapeArgs.y) { // E.g. pies do not have axes return { chartX: shapeArgs.x, chartY: shapeArgs.y }; } } /** * Return the cached chartPosition if it is available on the Pointer, * otherwise find it. Running offset is quite expensive, so it should be * avoided when we know the chart hasn't moved. * * @function Highcharts.Pointer#getChartPosition * * @return {Highcharts.ChartPositionObject} * The offset of the chart container within the page */ getChartPosition() { if (this.chartPosition) { return this.chartPosition; } const { container } = this.chart; const pos = offset(container); this.chartPosition = { left: pos.left, top: pos.top, scaleX: 1, scaleY: 1 }; const { offsetHeight, offsetWidth } = container; // #13342 - tooltip was not visible in Chrome, when chart // updates height. if (offsetWidth > 2 && // #13342 offsetHeight > 2 // #13342 ) { this.chartPosition.scaleX = pos.width / offsetWidth; this.chartPosition.scaleY = pos.height / offsetHeight; } return this.chartPosition; } /** * Get the click position in terms of axis values. * * @function Highcharts.Pointer#getCoordinates * * @param {Highcharts.PointerEventObject} e * Pointer event, extended with `chartX` and `chartY` properties. * * @return {Highcharts.PointerAxisCoordinatesObject} * Axis coordinates. */ getCoordinates(e) { const coordinates = { xAxis: [], yAxis: [] }; for (const axis of this.chart.axes) { coordinates[axis.isXAxis ? 'xAxis' : 'yAxis'].push({ axis, value: axis.toValue(e[axis.horiz ? 'chartX' : 'chartY']) }); } return coordinates; } /** * Calculates what is the current hovered point/points and series. * * @private * @function Highcharts.Pointer#getHoverData * * @param {Highcharts.Point|undefined} existingHoverPoint * The point currently being hovered. * * @param {Highcharts.Series|undefined} existingHoverSeries * The series currently being hovered. * * @param {Array} series * All the series in the chart. * * @param {boolean} isDirectTouch * Is the pointer directly hovering the point. * * @param {boolean|undefined} shared * Whether it is a shared tooltip or not. * * @param {Highcharts.PointerEventObject} [e] * The triggering event, containing chart coordinates of the pointer. * * @return {Object} * Object containing resulting hover data: hoverPoint, hoverSeries, and * hoverPoints. */ getHoverData(existingHoverPoint, existingHoverSeries, series, isDirectTouch, shared, e) { const hoverPoints = [], useExisting = !!(isDirectTouch && existingHoverPoint), filter = function (s) { return (s.visible && !(!shared && s.directTouch) && // #3821 pick(s.options.enableMouseTracking, true)); }; let hoverSeries = existingHoverSeries, // Which series to look in for the hover point searchSeries, // Parameters needed for beforeGetHoverData event. eventArgs = { chartX: e ? e.chartX : void 0, chartY: e ? e.chartY : void 0, shared: shared }; // Find chart.hoverPane and update filter method in polar. fireEvent(this, 'beforeGetHoverData', eventArgs); const notSticky = hoverSeries && !hoverSeries.stickyTracking; searchSeries = notSticky ? // Only search on hovered series if it has stickyTracking false [hoverSeries] : // Filter what series to look in. series.filter((s) => s.stickyTracking && (eventArgs.filter || filter)(s)); // Use existing hovered point or find the one closest to coordinates. const hoverPoint = useExisting || !e ? existingHoverPoint : this.findNearestKDPoint(searchSeries, shared, e); // Assign hover series hoverSeries = hoverPoint && hoverPoint.series; // If we have a hoverPoint, assign hoverPoints. if (hoverPoint) { // When tooltip is shared, it displays more than one point if (shared && !hoverSeries.noSharedTooltip) { searchSeries = series.filter(function (s) { return eventArgs.filter ? eventArgs.filter(s) : filter(s) && !s.noSharedTooltip; }); // Get all points with the same x value as the hoverPoint searchSeries.forEach(function (s) { let point = find(s.points, function (p) { return p.x === hoverPoint.x && !p.isNull; }); if (isObject(point)) { /* * Boost returns a minimal point. Convert it to a usable * point for tooltip and states. */ if (s.boosted && s.boost) { point = s.boost.getPoint(point); } hoverPoints.push(point); } }); } else { hoverPoints.push(hoverPoint); } } // Check whether the hoverPoint is inside pane we are hovering over. eventArgs = { hoverPoint: hoverPoint }; fireEvent(this, 'afterGetHoverData', eventArgs); return { hoverPoint: eventArgs.hoverPoint, hoverSeries: hoverSeries, hoverPoints: hoverPoints }; } /** * @private * @function Highcharts.Pointer#getPointFromEvent */ getPointFromEvent(e) { let target = e.target, point; while (target && !point) { point = target.point; target = target.parentNode; } return point; } /** * @private * @function Highcharts.Pointer#onTrackerMouseOut */ onTrackerMouseOut(e) { const chart = this.chart; const relatedTarget = e.relatedTarget; const series = chart.hoverSeries; this.isDirectTouch = false; if (series && relatedTarget && !series.stickyTracking && !this.inClass(relatedTarget, 'highcharts-tooltip') && (!this.inClass(relatedTarget, 'highcharts-series-' + series.index) || // #2499, #4465, #5553 !this.inClass(relatedTarget, 'highcharts-tracker'))) { series.onMouseOut(); } } /** * Utility to detect whether an element has, or has a parent with, a * specific class name. Used on detection of tracker objects and on deciding * whether hovering the tooltip should cause the active series to mouse out. * * @function Highcharts.Pointer#inClass * * @param {Highcharts.SVGDOMElement|Highcharts.HTMLDOMElement} element * The element to investigate. * * @param {string} className * The class name to look for. * * @return {boolean|undefined} * True if either the element or one of its parents has the given class * name. */ inClass(element, className) { let elem = element, elemClassName; while (elem) { elemClassName = attr(elem, 'class'); if (elemClassName) { if (elemClassName.indexOf(className) !== -1) { return true; } if (elemClassName.indexOf('highcharts-container') !== -1) { return false; } } elem = elem.parentElement; } } /** * Initialize the Pointer. * * @private * @function Highcharts.Pointer#init * * @param {Highcharts.Chart} chart * The Chart instance. * * @param {Highcharts.Options} options * The root options object. The pointer uses options from the chart and * tooltip structures. */ constructor(chart, options) { this.hasDragged = 0; this.pointerCaptureEventsToUnbind = []; this.eventsToUnbind = []; // Store references this.options = options; this.chart = chart; // Do we need to handle click on a touch device? this.runChartClick = Boolean(options.chart.events?.click); this.pinchDown = []; this.setDOMEvents(); fireEvent(this, 'afterInit'); } /** * Takes a browser event object and extends it with custom Highcharts * properties `chartX` and `chartY` in order to work on the internal * coordinate system. * * On map charts, the properties `lon` and `lat` are added to the event * object given that the chart has projection information. * * @function Highcharts.Pointer#normalize * * @param {global.MouseEvent|global.PointerEvent|global.TouchEvent} e * Event object in standard browsers. * * @param {Highcharts.OffsetObject} [chartPosition] * Additional chart offset. * * @return {Highcharts.PointerEventObject} * A browser event with extended properties `chartX` and `chartY`. */ normalize(e, chartPosition) { const touches = e.touches; // Position for iOS (#2757) const ePos = (touches ? touches.length ? touches.item(0) : (pick(// #13534 touches.changedTouches, e.changedTouches))[0] : e); // Get mouse position if (!chartPosition) { chartPosition = this.getChartPosition(); } let chartX = ePos.pageX - chartPosition.left, chartY = ePos.pageY - chartPosition.top; // #11329 - when there is scaling on a parent element, we need to take // this into account chartX /= chartPosition.scaleX; chartY /= chartPosition.scaleY; return extend(e, { chartX: Math.round(chartX), chartY: Math.round(chartY) }); } /** * @private * @function Highcharts.Pointer#onContainerClick */ onContainerClick(e) { const chart = this.chart; const hoverPoint = chart.hoverPoint; const pEvt = this.normalize(e); const plotLeft = chart.plotLeft; const plotTop = chart.plotTop; if (!chart.cancelClick) { // On tracker click, fire the series and point events. #783, #1583 if (hoverPoint && this.inClass(pEvt.target, 'highcharts-tracker')) { // The series click event fireEvent(hoverPoint.series, 'click', extend(pEvt, { point: hoverPoint })); // The point click event if (chart.hoverPoint) { // It may be destroyed (#1844) hoverPoint.firePointEvent('click', pEvt); } // When clicking outside a tracker, fire a chart event } else { extend(pEvt, this.getCoordinates(pEvt)); // Fire a click event in the chart if (chart.isInsidePlot(pEvt.chartX - plotLeft, pEvt.chartY - plotTop, { visiblePlotOnly: true })) { fireEvent(chart, 'click', pEvt); } } } } /** * @private * @function Highcharts.Pointer#onContainerMouseDown */ onContainerMouseDown(e) { const isPrimaryButton = ((e.buttons || e.button) & 1) === 1; e = this.normalize(e); // #11635, Firefox does not reliably fire move event after click scroll if (H.isFirefox && e.button !== 0) { this.onContainerMouseMove(e); } // #11635, limiting to primary button if (typeof e.button === 'undefined' || isPrimaryButton) { this.zoomOption(e); // #295, #13737 solve conflict between container drag and chart zoom if (isPrimaryButton) { e.preventDefault?.(); } this.dragStart(e); } } /** * When mouse leaves the container, hide the tooltip. * @private * @function Highcharts.Pointer#onContainerMouseLeave */ onContainerMouseLeave(e) { const { pointer } = charts[pick(Pointer.hoverChartIndex, -1)] || {}; e = this.normalize(e); this.onContainerMouseMove(e); // #4886, MS Touch end fires mouseleave but with no related target if (pointer && e.relatedTarget && !this.inClass(e.relatedTarget, 'highcharts-tooltip')) { pointer.reset(); // Also reset the chart position, used in #149 fix pointer.chartPosition = void 0; } } /** * When mouse enters the container, delete pointer's chartPosition. * @private * @function Highcharts.Pointer#onContainerMouseEnter */ onContainerMouseEnter() { delete this.chartPosition; } /** * The mousemove, touchmove and touchstart event handler * @private * @function Highcharts.Pointer#onContainerMouseMove */ onContainerMouseMove(e) { const chart = this.chart, tooltip = chart.tooltip, pEvt = this.normalize(e); this.setHoverChartIndex(e); if (chart.mouseIsDown === 'mousedown' || this.touchSelect(pEvt)) { this.drag(pEvt); } // Show the tooltip and run mouse over events (#977) if (!chart.openMenu && (this.inClass(pEvt.target, 'highcharts-tracker') || chart.isInsidePlot(pEvt.chartX - chart.plotLeft, pEvt.chartY - chart.plotTop, { visiblePlotOnly: true })) && // If the tooltip has stickOnContact enabled, do nothing. This // applies regardless of any combinations of the `split` and // `useHTML` options. !(tooltip && tooltip.shouldStickOnContact(pEvt))) { if (this.inClass(pEvt.target, 'highcharts-no-tooltip')) { this.reset(false, 0); } else { this.runPointActions(pEvt); } } } /** * @private * @function Highcharts.Pointer#onDocumentTouchEnd */ onDocumentTouchEnd(e) { this.onDocumentMouseUp(e); } /** * @private * @function Highcharts.Pointer#onContainerTouchMove */ onContainerTouchMove(e) { if (this.touchSelect(e)) { this.onContainerMouseMove(e); } else { this.touch(e); } } /** * @private * @function Highcharts.Pointer#onContainerTouchStart */ onContainerTouchStart(e) { if (this.touchSelect(e)) { this.onContainerMouseDown(e); } else { this.zoomOption(e); this.touch(e, true); } } /** * Special handler for mouse move that will hide the tooltip when the mouse * leaves the plotarea. Issue #149 workaround. The mouseleave event does not * always fire. * @private * @function Highcharts.Pointer#onDocumentMouseMove */ onDocumentMouseMove(e) { const chart = this.chart; const tooltip = chart.tooltip; const chartPosition = this.chartPosition; const pEvt = this.normalize(e, chartPosition); // If we're outside, hide the tooltip if (chartPosition && !chart.isInsidePlot(pEvt.chartX - chart.plotLeft, pEvt.chartY - chart.plotTop, { visiblePlotOnly: true }) && !(tooltip && tooltip.shouldStickOnContact(pEvt)) && !this.inClass(pEvt.target, 'highcharts-tracker')) { this.reset(); } } /** * @private * @function Highcharts.Pointer#onDocumentMouseUp */ onDocumentMouseUp(e) { charts[pick(Pointer.hoverChartIndex, -1)] ?.pointer ?.drop(e); } /** * Handle touch events with two touches * @private * @function Highcharts.Pointer#pinch */ pinch(e) { const pointer = this, { chart, hasZoom, lastTouches } = pointer, touches = [].map.call(e.touches || [], // Normalize each touch (touch) => pointer.normalize(touch)), touchesLength = touches.length, fireClickEvent = touchesLength === 1 && ((pointer.inClass(e.target, 'highcharts-tracker') && chart.runTrackerClick) || pointer.runChartClick), tooltip = chart.tooltip, followTouchMove = touchesLength === 1 && pick(tooltip?.options.followTouchMove, true); // Don't initiate panning until the user has pinched. This prevents us // from blocking page scrolling as users scroll down a long page // (#4210). if (touchesLength > 1) { pointer.initiated = true; } else if (followTouchMove) { // #16119: Prevent blocking scroll when single-finger panning is // not enabled pointer.initiated = false; } // On touch devices, only proceed to trigger click if a handler is // defined if (hasZoom && pointer.initiated && !fireClickEvent && e.cancelable !== false) { e.preventDefault(); } // Register the touch start position if (e.type === 'touchstart') { pointer.pinchDown = touches; pointer.res = true; // Reset on next move // Optionally move the tooltip on touchmove } else if (followTouchMove) { this.runPointActions(pointer.normalize(e)); // Event type is touchmove, handle panning and pinching. The length can // be 0 when releasing, if touchend fires first } else if (lastTouches) { fireEvent(chart, 'touchpan', { originalEvent: e, touches }, () => { const boxFromTouches = (touches) => { const finger0 = touches[0], finger1 = touches[1] || finger0; return { x: finger0.chartX, y: finger0.chartY, width: finger1.chartX - finger0.chartX, height: finger1.chartY - finger0.chartY }; }; chart.transform({ axes: chart.axes .filter((axis) => axis.zoomEnabled && ((this.zoomHor && axis.horiz) || (this.zoomVert && !axis.horiz))), to: boxFromTouches(touches), from: boxFromTouches(lastTouches), trigger: e.type }); }); if (pointer.res) { pointer.res = false; this.reset(false, 0); } } pointer.lastTouches = touches; } /** * Run translation operations * @private * @function Highcharts.Pointer#pinchTranslate * / public pinchTranslate( pinchDown: Array, touches: Array, transform: any, selectionMarker: any, clip: any, lastValidTouch: any ): void { if (this.zoomHor) { this.pinchTranslateDirection( true, pinchDown, touches, transform, selectionMarker, clip, lastValidTouch ); } if (this.zoomVert) { this.pinchTranslateDirection( false, pinchDown, touches, transform, selectionMarker, clip, lastValidTouch ); } } */ /** * Run translation operations for each direction (horizontal and vertical) * independently. * @private * @function Highcharts.Pointer#pinchTranslateDirection * / public pinchTranslateDirection( horiz: boolean, pinchDown: Array, touches: Array, transform: any, selectionMarker: any, clip: any, lastValidTouch: any, forcedScale?: number ): void { const chart = this.chart, xy: ('x'|'y') = horiz ? 'x' : 'y', XY: ('X'|'Y') = horiz ? 'X' : 'Y', sChartXY: ('chartX'|'chartY') = ('chart' + XY) as any, wh = horiz ? 'width' : 'height', plotLeftTop = (chart as any)['plot' + (horiz ? 'Left' : 'Top')], inverted = chart.inverted, bounds = chart.bounds[horiz ? 'h' : 'v'], singleTouch = pinchDown.length === 1, touch0Start = pinchDown[0][sChartXY], touch1Start = !singleTouch && pinchDown[1][sChartXY], setScale = function (): void { // Don't zoom if fingers are too close on this axis if ( typeof touch1Now === 'number' && Math.abs(touch0Start - touch1Start) > 20 ) { scale = forcedScale || Math.abs(touch0Now - touch1Now) / Math.abs(touch0Start - touch1Start); } clipXY = ((plotLeftTop - touch0Now) / scale) + touch0Start; selectionWH = (chart as any)[ 'plot' + (horiz ? 'Width' : 'Height') ] / scale; }; let selectionWH: any, selectionXY, clipXY: any, scale = forcedScale || 1, touch0Now = touches[0][sChartXY], touch1Now = !singleTouch && touches[1][sChartXY], outOfBounds; // Set the scale, first pass setScale(); // The clip position (x or y) is altered if out of bounds, the selection // position is not selectionXY = clipXY; // Out of bounds if (selectionXY < bounds.min) { selectionXY = bounds.min; outOfBounds = true; } else if (selectionXY + selectionWH > bounds.max) { selectionXY = bounds.max - selectionWH; outOfBounds = true; } // Is the chart dragged off its bounds, determined by dataMin and // dataMax? if (outOfBounds) { // Modify the touchNow position in order to create an elastic drag // movement. This indicates to the user that the chart is responsive // but can't be dragged further. touch0Now -= 0.8 * (touch0Now - lastValidTouch[xy][0]); if (typeof touch1Now === 'number') { touch1Now -= 0.8 * (touch1Now - lastValidTouch[xy][1]); } // Set the scale, second pass to adapt to the modified touchNow // positions setScale(); } else { lastValidTouch[xy] = [touch0Now, touch1Now]; } // Set geometry for clipping, selection and transformation if (!inverted) { clip[xy] = clipXY - plotLeftTop; clip[wh] = selectionWH; } const scaleKey = inverted ? (horiz ? 'scaleY' : 'scaleX') : 'scale' + XY; const transformScale = inverted ? 1 / scale : scale; selectionMarker[wh] = selectionWH; selectionMarker[xy] = selectionXY; // Invert scale if needed (#19217) transform[scaleKey] = scale * (inverted && !horiz ? -1 : 1); transform['translate' + XY] = (transformScale * plotLeftTop) + (touch0Now - (transformScale * touch0Start)); } */ /** * Reset the tracking by hiding the tooltip, the hover series state and the * hover point * * @function Highcharts.Pointer#reset * * @param {boolean} [allowMove] * Instead of destroying the tooltip altogether, allow moving it if * possible. * * @param {number} [delay] */ reset(allowMove, delay) { const pointer = this, chart = pointer.chart, hoverSeries = chart.hoverSeries, hoverPoint = chart.hoverPoint, hoverPoints = chart.hoverPoints, tooltip = chart.tooltip, tooltipPoints = tooltip && tooltip.shared ? hoverPoints : hoverPoint; // Check if the points have moved outside the plot area (#1003, #4736, // #5101) if (allowMove && tooltipPoints) { splat(tooltipPoints).forEach(function (point) { if (point.series.isCartesian && typeof point.plotX === 'undefined') { allowMove = false; } }); } // Just move the tooltip, #349 if (allowMove) { if (tooltip && tooltipPoints && splat(tooltipPoints).length) { tooltip.refresh(tooltipPoints); if (tooltip.shared && hoverPoints) { // #8284 hoverPoints.forEach(function (point) { point.setState(point.state, true); if (point.series.isCartesian) { if (point.series.xAxis.crosshair) { point.series.xAxis .drawCrosshair(null, point); } if (point.series.yAxis.crosshair) { point.series.yAxis .drawCrosshair(null, point); } } }); } else if (hoverPoint) { // #2500 hoverPoint.setState(hoverPoint.state, true); chart.axes.forEach(function (axis) { if (axis.crosshair && hoverPoint.series[axis.coll] === axis) { axis.drawCrosshair(null, hoverPoint); } }); } } // Full reset } else { if (hoverPoint) { hoverPoint.onMouseOut(); } if (hoverPoints) { hoverPoints.forEach(function (point) { point.setState(); }); } if (hoverSeries) { hoverSeries.onMouseOut(); } if (tooltip) { tooltip.hide(delay); } if (pointer.unDocMouseMove) { pointer.unDocMouseMove = pointer.unDocMouseMove(); } // Remove crosshairs chart.axes.forEach(function (axis) { axis.hideCrosshair(); }); chart.hoverPoints = chart.hoverPoint = void 0; } } /** * With line type charts with a single tracker, get the point closest to the * mouse. Run Point.onMouseOver and display tooltip for the point or points. * * @private * @function Highcharts.Pointer#runPointActions * * @emits Highcharts.Point#event:mouseOut * @emits Highcharts.Point#event:mouseOver */ runPointActions(e, p, force) { const pointer = this, chart = pointer.chart, series = chart.series, tooltip = (chart.tooltip && chart.tooltip.options.enabled ? chart.tooltip : void 0), shared = (tooltip ? tooltip.shared : false); let hoverPoint = p || chart.hoverPoint, hoverSeries = hoverPoint && hoverPoint.series || chart.hoverSeries; const // `onMouseOver` or already hovering a series with directTouch isDirectTouch = (!e || e.type !== 'touchmove') && (!!p || ((hoverSeries && hoverSeries.directTouch) && pointer.isDirectTouch)), hoverData = this.getHoverData(hoverPoint, hoverSeries, series, isDirectTouch, shared, e); // Update variables from hoverData. hoverPoint = hoverData.hoverPoint; hoverSeries = hoverData.hoverSeries; const points = hoverData.hoverPoints, followPointer = hoverSeries && hoverSeries.tooltipOptions.followPointer && !hoverSeries.tooltipOptions.split, useSharedTooltip = (shared && hoverSeries && !hoverSeries.noSharedTooltip); // Refresh tooltip for kdpoint if new hover point or tooltip was hidden // #3926, #4200 if (hoverPoint && (force || hoverPoint !== chart.hoverPoint || (tooltip && tooltip.isHidden))) { (chart.hoverPoints || []).forEach(function (p) { if (points.indexOf(p) === -1) { p.setState(); } }); // Set normal state to previous series if (chart.hoverSeries !== hoverSeries) { hoverSeries.onMouseOver(); } pointer.applyInactiveState(points); // Do mouseover on all points (#3919, #3985, #4410, #5622) (points || []).forEach(function (p) { p.setState('hover'); }); // If tracking is on series in stead of on each point, // fire mouseOver on hover point. // #4448 if (chart.hoverPoint) { chart.hoverPoint.firePointEvent('mouseOut'); } // Hover point may have been destroyed in the event handlers (#7127) if (!hoverPoint.series) { return; } /** * Contains all hovered points. * * @name Highcharts.Chart#hoverPoints * @type {Array|null} */ chart.hoverPoints = points; /** * Contains the original hovered point. * * @name Highcharts.Chart#hoverPoint * @type {Highcharts.Point|null} */ chart.hoverPoint = hoverPoint; /** * Hover state should not be lost when axis is updated (#12569) * Axis.update runs pointer.reset which uses chart.hoverPoint.state * to apply state which does not exist in hoverPoint yet. * The mouseOver event should be triggered when hoverPoint * is correct. */ hoverPoint.firePointEvent('mouseOver', void 0, () => { // Draw tooltip if necessary if (tooltip && hoverPoint) { tooltip.refresh(useSharedTooltip ? points : hoverPoint, e); } }); // Update positions (regardless of kdpoint or hoverPoint) } else if (followPointer && tooltip && !tooltip.isHidden) { const anchor = tooltip.getAnchor([{}], e); if (chart.isInsidePlot(anchor[0], anchor[1], { visiblePlotOnly: true })) { tooltip.updatePosition({ plotX: anchor[0], plotY: anchor[1] }); } } // Start the event listener to pick up the tooltip and crosshairs if (!pointer.unDocMouseMove) { pointer.unDocMouseMove = addEvent(chart.container.ownerDocument, 'mousemove', (e) => charts[Pointer.hoverChartIndex ?? -1] ?.pointer ?.onDocumentMouseMove(e)); pointer.eventsToUnbind.push(pointer.unDocMouseMove); } // Issues related to crosshair #4927, #5269 #5066, #5658 chart.axes.forEach(function drawAxisCrosshair(axis) { const snap = pick((axis.crosshair || {}).snap, true); let point; if (snap) { point = chart.hoverPoint; // #13002 if (!point || point.series[axis.coll] !== axis) { point = find(points, (p) => p.series && p.series[axis.coll] === axis); } } // Axis has snapping crosshairs, and one of the hover points belongs // to axis. Always call drawCrosshair when it is not snap. if (point || !snap) { axis.drawCrosshair(e, point); // Axis has snapping crosshairs, but no hover point belongs to axis } else { axis.hideCrosshair(); } }); } /** * Set the JS DOM events on the container and document. This method should * contain a one-to-one assignment between methods and their handlers. Any * advanced logic should be moved to the handler reflecting the event's * name. * @private * @function Highcharts.Pointer#setDOMEvents */ setDOMEvents() { const container = this.chart.container, ownerDoc = container.ownerDocument; container.onmousedown = this.onContainerMouseDown.bind(this); container.onmousemove = this.onContainerMouseMove.bind(this); container.onclick = this.onContainerClick.bind(this); this.eventsToUnbind.push(addEvent(container, 'mouseenter', this.onContainerMouseEnter.bind(this)), addEvent(container, 'mouseleave', this.onContainerMouseLeave.bind(this))); if (!Pointer.unbindDocumentMouseUp) { Pointer.unbindDocumentMouseUp = addEvent(ownerDoc, 'mouseup', this.onDocumentMouseUp.bind(this)); } // In case we are dealing with overflow, reset the chart position when // scrolling parent elements let parent = this.chart.renderTo.parentElement; while (parent && parent.tagName !== 'BODY') { this.eventsToUnbind.push(addEvent(parent, 'scroll', () => { delete this.chartPosition; })); parent = parent.parentElement; } this.eventsToUnbind.push(addEvent(container, 'touchstart', this.onContainerTouchStart.bind(this), { passive: false }), addEvent(container, 'touchmove', this.onContainerTouchMove.bind(this), { passive: false })); if (!Pointer.unbindDocumentTouchEnd) { Pointer.unbindDocumentTouchEnd = addEvent(ownerDoc, 'touchend', this.onDocumentTouchEnd.bind(this), { passive: false }); } this.setPointerCapture(); addEvent(this.chart, 'redraw', this.setPointerCapture.bind(this)); } /** * Sets, or removes on update, pointer events using pointer capture for * tooltip.followTouchMove if any series has findNearestPointBy that * includes the y dimension. * @private * @function Highcharts.Pointer#setPointerCapture */ setPointerCapture() { // Only for touch if (!isTouchDevice) { return; } const pointer = this, events = pointer.pointerCaptureEventsToUnbind, chart = pointer.chart, container = chart.container, followTouchMove = pick(chart.options.tooltip?.followTouchMove, true), shouldHave = followTouchMove && chart.series.some((series) => series.options.findNearestPointBy .indexOf('y') > -1); if (!pointer.hasPointerCapture && shouldHave) { // Add // Bind events.push(addEvent(container, 'pointerdown', (e) => { if (e.target?.hasPointerCapture(e.pointerId)) { e.target?.releasePointerCapture(e.pointerId); } }), addEvent(container, 'pointermove', (e) => { chart.pointer?.getPointFromEvent(e)?.onMouseOver(e); })); if (!chart.styledMode) { css(container, { 'touch-action': 'none' }); } // Mostly for styled mode container.className += ' highcharts-no-touch-action'; pointer.hasPointerCapture = true; } else if (pointer.hasPointerCapture && !shouldHave) { // Remove // Unbind events.forEach((e) => e()); events.length = 0; if (!chart.styledMode) { css(container, { 'touch-action': pick(chart.options.chart.style?.['touch-action'], 'manipulation') }); } // Mostly for styled mode container.className = container.className.replace(' highcharts-no-touch-action', ''); pointer.hasPointerCapture = false; } } /** * Sets the index of the hovered chart and leaves the previous hovered * chart, to reset states like tooltip. * @private * @function Highcharts.Pointer#setHoverChartIndex */ setHoverChartIndex(e) { const chart = this.chart; const hoverChart = H.charts[pick(Pointer.hoverChartIndex, -1)]; if (hoverChart && hoverChart !== chart) { hoverChart.pointer?.onContainerMouseLeave(e || { relatedTarget: chart.container }); } if (!hoverChart || !hoverChart.mouseIsDown) { Pointer.hoverChartIndex = chart.index; } } /** * General touch handler shared by touchstart and touchmove. * @private * @function Highcharts.Pointer#touch */ touch(e, start) { const { chart, pinchDown = [] } = this; let hasMoved, isInside; this.setHoverChartIndex(); if (e.touches.length === 1) { e = this.normalize(e); isInside = chart.isInsidePlot(e.chartX - chart.plotLeft, e.chartY - chart.plotTop, { visiblePlotOnly: true }); if (isInside && !chart.openMenu) { // Run mouse events and display tooltip etc if (start) { this.runPointActions(e); } // Android fires touchmove events after the touchstart even if // the finger hasn't moved, or moved only a pixel or two. In iOS // however, the touchmove doesn't fire unless the finger moves // more than ~4px. So we emulate this behaviour in Android by // checking how much it moved, and cancelling on small // distances. #3450. Tested and still relevant as of 2024. if (e.type === 'touchmove') { hasMoved = pinchDown[0] ? // #5266 (Math.pow(pinchDown[0].chartX - e.chartX, 2) + Math.pow(pinchDown[0].chartY - e.chartY, 2)) >= 16 : false; } if (pick(hasMoved, true)) { this.pinch(e); } } else if (start) { // Hide the tooltip on touching outside the plot area (#1203) this.reset(); } } else if (e.touches.length === 2) { this.pinch(e); } } /** * Returns true if the chart is set up for zooming by single touch and the * event is capable * @private * @function Highcharts.Pointer#touchSelect */ touchSelect(e) { return Boolean(this.chart.zooming.singleTouch && e.touches && e.touches.length === 1); } /** * Resolve the zoomType option, this is reset on all touch start and mouse * down events. * @private * @function Highcharts.Pointer#zoomOption */ zoomOption(e) { const chart = this.chart, inverted = chart.inverted; let zoomType = chart.zooming.type || '', zoomX, zoomY; // Look for the pinchType option if (/touch/.test(e.type)) { zoomType = pick(chart.zooming.pinchType, zoomType); } this.zoomX = zoomX = /x/.test(zoomType); this.zoomY = zoomY = /y/.test(zoomType); this.zoomHor = (zoomX && !inverted) || (zoomY && inverted); this.zoomVert = (zoomY && !inverted) || (zoomX && inverted); this.hasZoom = zoomX || zoomY; } } /* * * * Class Namespace * * */ (function (Pointer) { /* * * * Declarations * * */ /* * * * Functions * * */ /** * @private */ function compose(ChartClass) { if (pushUnique(composed, 'Core.Pointer')) { addEvent(ChartClass, 'beforeRender', function () { /** * The Pointer that keeps track of mouse and touch * interaction. * * @memberof Highcharts.Chart * @name pointer * @type {Highcharts.Pointer} * @instance */ this.pointer = new Pointer(this, this.options); }); } } Pointer.compose = compose; })(Pointer || (Pointer = {})); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Chart position and scale. * * @interface Highcharts.ChartPositionObject */ /** * @name Highcharts.ChartPositionObject#left * @type {number} */ /** * @name Highcharts.ChartPositionObject#scaleX * @type {number} */ /** * @name Highcharts.ChartPositionObject#scaleY * @type {number} */ /** * @name Highcharts.ChartPositionObject#top * @type {number} */ /** * One position in relation to an axis. * * @interface Highcharts.PointerAxisCoordinateObject */ /** * Related axis. * * @name Highcharts.PointerAxisCoordinateObject#axis * @type {Highcharts.Axis} */ /** * Axis value. * * @name Highcharts.PointerAxisCoordinateObject#value * @type {number} */ /** * Positions in terms of axis values. * * @interface Highcharts.PointerAxisCoordinatesObject */ /** * Positions on the x-axis. * @name Highcharts.PointerAxisCoordinatesObject#xAxis * @type {Array} */ /** * Positions on the y-axis. * @name Highcharts.PointerAxisCoordinatesObject#yAxis * @type {Array} */ /** * Pointer coordinates. * * @interface Highcharts.PointerCoordinatesObject */ /** * @name Highcharts.PointerCoordinatesObject#chartX * @type {number} */ /** * @name Highcharts.PointerCoordinatesObject#chartY * @type {number} */ /** * A native browser mouse or touch event, extended with position information * relative to the {@link Chart.container}. * * @interface Highcharts.PointerEventObject * @extends global.PointerEvent */ /** * The X coordinate of the pointer interaction relative to the chart. * * @name Highcharts.PointerEventObject#chartX * @type {number} */ /** * The Y coordinate of the pointer interaction relative to the chart. * * @name Highcharts.PointerEventObject#chartY * @type {number} */ /** * Axis-specific data of a selection. * * @interface Highcharts.SelectDataObject */ /** * The selected Axis. * @name Highcharts.SelectDataObject#axis * @type {Highcharts.Axis} */ /** * The maximum axis value, either automatic or set manually. * @name Highcharts.SelectDataObject#max * @type {number} */ /** * The minimum axis value, either automatic or set manually. * @name Highcharts.SelectDataObject#min * @type {number} */ /** * Object for select events. * The primary axes are `xAxis[0]` and `yAxis[0]`. Remember the unit of a * datetime axis is milliseconds since 1970-01-01 00:00:00. * * @interface Highcharts.SelectEventObject */ /** * The related browser event. * @name Highcharts.SelectEventObject#originalEvent * @type {global.Event} */ /** * Indicates a reset event to restore default state. * @name Highcharts.SelectEventObject#resetSelection * @type {boolean|undefined} */ /** * Arrays containing the axes of each dimension and each axis' min and max * values. * @name Highcharts.SelectEventObject#xAxis * @type {Array} */ /** * Arrays containing the axes of each dimension and each axis' min and max * values. * @name Highcharts.SelectEventObject#yAxis * @type {Array} */ ''; // Keeps doclets above in JS file return Pointer; }); _registerModule(_modules, 'Core/Legend/Legend.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Templating.js'], _modules['Core/Globals.js'], _modules['Core/Series/Point.js'], _modules['Core/Renderer/RendererUtilities.js'], _modules['Core/Utilities.js']], function (A, F, H, Point, R, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { animObject, setAnimation } = A; const { format } = F; const { composed, marginNames } = H; const { distribute } = R; const { addEvent, createElement, css, defined, discardElement, find, fireEvent, isNumber, merge, pick, pushUnique, relativeLength, stableSort, syncTimeout } = U; /* * * * Class * * */ /** * The overview of the chart's series. The legend object is instantiated * internally in the chart constructor, and is available from the `chart.legend` * property. Each chart has only one legend. * * @class * @name Highcharts.Legend * * @param {Highcharts.Chart} chart * The chart instance. * * @param {Highcharts.LegendOptions} options * Legend options. */ class Legend { /* * * * Functions * * */ /** * Initialize the legend. * * @private * @function Highcharts.Legend#init * * @param {Highcharts.Chart} chart * The chart instance. * * @param {Highcharts.LegendOptions} options * Legend options. */ constructor(chart, options) { /* * * * Properties * * */ this.allItems = []; this.initialItemY = 0; this.itemHeight = 0; this.itemMarginBottom = 0; this.itemMarginTop = 0; this.itemX = 0; this.itemY = 0; this.lastItemY = 0; this.lastLineHeight = 0; this.legendHeight = 0; this.legendWidth = 0; this.maxItemWidth = 0; this.maxLegendWidth = 0; this.offsetWidth = 0; this.padding = 0; this.pages = []; this.symbolHeight = 0; this.symbolWidth = 0; this.titleHeight = 0; this.totalItemWidth = 0; this.widthOption = 0; /** * Chart of this legend. * * @readonly * @name Highcharts.Legend#chart * @type {Highcharts.Chart} */ this.chart = chart; this.setOptions(options); if (options.enabled) { // Render it this.render(); // Move checkboxes addEvent(this.chart, 'endResize', function () { this.legend.positionCheckboxes(); }); } // On Legend.init and Legend.update, make sure that proximate layout // events are either added or removed (#18362). addEvent(this.chart, 'render', () => { if (this.options.enabled && this.proximate) { this.proximatePositions(); this.positionItems(); } }); } /** * @private * @function Highcharts.Legend#setOptions * @param {Highcharts.LegendOptions} options */ setOptions(options) { const padding = pick(options.padding, 8); /** * Legend options. * * @readonly * @name Highcharts.Legend#options * @type {Highcharts.LegendOptions} */ this.options = options; if (!this.chart.styledMode) { this.itemStyle = options.itemStyle; this.itemHiddenStyle = merge(this.itemStyle, options.itemHiddenStyle); } this.itemMarginTop = options.itemMarginTop; this.itemMarginBottom = options.itemMarginBottom; this.padding = padding; this.initialItemY = padding - 5; // 5 is pixels above the text this.symbolWidth = pick(options.symbolWidth, 16); this.pages = []; this.proximate = options.layout === 'proximate' && !this.chart.inverted; // #12705: baseline has to be reset on every update this.baseline = void 0; } /** * Update the legend with new options. Equivalent to running `chart.update` * with a legend configuration option. * * @sample highcharts/legend/legend-update/ * Legend update * * @function Highcharts.Legend#update * * @param {Highcharts.LegendOptions} options * Legend options. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the axis is altered. If doing more * operations on the chart, it is a good idea to set redraw to false and * call {@link Chart#redraw} after. Whether to redraw the chart. * * @emits Highcharts.Legends#event:afterUpdate */ update(options, redraw) { const chart = this.chart; this.setOptions(merge(true, this.options, options)); this.destroy(); chart.isDirtyLegend = chart.isDirtyBox = true; if (pick(redraw, true)) { chart.redraw(); } fireEvent(this, 'afterUpdate', { redraw }); } /** * Set the colors for the legend item. * * @private * @function Highcharts.Legend#colorizeItem * @param {Highcharts.BubbleLegendItem|Highcharts.Point|Highcharts.Series} item * A Series or Point instance * @param {boolean} [visible=false] * Dimmed or colored * * @todo * Make events official: Fires the event `afterColorizeItem`. */ colorizeItem(item, visible) { const { area, group, label, line, symbol } = item.legendItem || {}; group?.[visible ? 'removeClass' : 'addClass']('highcharts-legend-item-hidden'); if (!this.chart.styledMode) { const { itemHiddenStyle = {} } = this, hiddenColor = itemHiddenStyle.color, { fillColor, fillOpacity, lineColor, marker } = item.options, colorizeHidden = (attr) => { if (!visible) { if (attr.fill) { attr.fill = hiddenColor; } if (attr.stroke) { attr.stroke = hiddenColor; } } return attr; }; label?.css(merge(visible ? this.itemStyle : itemHiddenStyle)); line?.attr(colorizeHidden({ stroke: lineColor || item.color })); if (symbol) { // Apply marker options symbol.attr(colorizeHidden(marker && symbol.isMarker ? // #585 item.pointAttribs() : { fill: item.color })); } area?.attr(colorizeHidden({ fill: fillColor || item.color, 'fill-opacity': fillColor ? 1 : (fillOpacity ?? 0.75) })); } fireEvent(this, 'afterColorizeItem', { item, visible }); } /** * @private * @function Highcharts.Legend#positionItems */ positionItems() { // Now that the legend width and height are established, put the items // in the final position this.allItems.forEach(this.positionItem, this); if (!this.chart.isResizing) { this.positionCheckboxes(); } } /** * Position the legend item. * * @private * @function Highcharts.Legend#positionItem * @param {Highcharts.BubbleLegendItem|Highcharts.Point|Highcharts.Series} item * The item to position */ positionItem(item) { const legend = this, { group, x = 0, y = 0 } = item.legendItem || {}, options = legend.options, symbolPadding = options.symbolPadding, ltr = !options.rtl, checkbox = item.checkbox; if (group && group.element) { const attribs = { translateX: ltr ? x : legend.legendWidth - x - 2 * symbolPadding - 4, translateY: y }; const complete = () => { fireEvent(this, 'afterPositionItem', { item }); }; group[defined(group.translateY) ? 'animate' : 'attr'](attribs, void 0, complete); } if (checkbox) { checkbox.x = x; checkbox.y = y; } } /** * Destroy a single legend item, used internally on removing series items. * * @private * @function Highcharts.Legend#destroyItem * @param {Highcharts.BubbleLegendItem|Highcharts.Point|Highcharts.Series} item * The item to remove */ destroyItem(item) { const checkbox = item.checkbox, legendItem = item.legendItem || {}; // Destroy SVG elements for (const key of ['group', 'label', 'line', 'symbol']) { if (legendItem[key]) { legendItem[key] = legendItem[key].destroy(); } } if (checkbox) { discardElement(checkbox); } item.legendItem = void 0; } /** * Destroy the legend. Used internally. To reflow objects, `chart.redraw` * must be called after destruction. * * @private * @function Highcharts.Legend#destroy */ destroy() { const legend = this; // Destroy items for (const item of this.getAllItems()) { this.destroyItem(item); } // Destroy legend elements for (const key of [ 'clipRect', 'up', 'down', 'pager', 'nav', 'box', 'title', 'group' ]) { if (legend[key]) { legend[key] = legend[key].destroy(); } } this.display = null; // Reset in .render on update. } /** * Position the checkboxes after the width is determined. * * @private * @function Highcharts.Legend#positionCheckboxes */ positionCheckboxes() { const alignAttr = this.group && this.group.alignAttr, clipHeight = this.clipHeight || this.legendHeight, titleHeight = this.titleHeight; let translateY; if (alignAttr) { translateY = alignAttr.translateY; this.allItems.forEach(function (item) { const checkbox = item.checkbox; let top; if (checkbox) { top = translateY + titleHeight + checkbox.y + (this.scrollOffset || 0) + 3; css(checkbox, { left: (alignAttr.translateX + item.checkboxOffset + checkbox.x - 20) + 'px', top: top + 'px', display: this.proximate || (top > translateY - 6 && top < translateY + clipHeight - 6) ? '' : 'none' }); } }, this); } } /** * Render the legend title on top of the legend. * * @private * @function Highcharts.Legend#renderTitle */ renderTitle() { const options = this.options, padding = this.padding, titleOptions = options.title; let bBox, titleHeight = 0; if (titleOptions.text) { if (!this.title) { /** * SVG element of the legend title. * * @readonly * @name Highcharts.Legend#title * @type {Highcharts.SVGElement} */ this.title = this.chart.renderer.label(titleOptions.text, padding - 3, padding - 4, void 0, void 0, void 0, options.useHTML, void 0, 'legend-title') .attr({ zIndex: 1 }); if (!this.chart.styledMode) { this.title.css(titleOptions.style); } this.title.add(this.group); } // Set the max title width (#7253) if (!titleOptions.width) { this.title.css({ width: this.maxLegendWidth + 'px' }); } bBox = this.title.getBBox(); titleHeight = bBox.height; this.offsetWidth = bBox.width; // #1717 this.contentGroup.attr({ translateY: titleHeight }); } this.titleHeight = titleHeight; } /** * Set the legend item text. * * @function Highcharts.Legend#setText * @param {Highcharts.Point|Highcharts.Series} item * The item for which to update the text in the legend. */ setText(item) { const options = this.options; item.legendItem.label.attr({ text: options.labelFormat ? format(options.labelFormat, item, this.chart) : options.labelFormatter.call(item) }); } /** * Render a single specific legend item. Called internally from the `render` * function. * * @private * @function Highcharts.Legend#renderItem * @param {Highcharts.BubbleLegendItem|Highcharts.Point|Highcharts.Series} item * The item to render. */ renderItem(item) { const legend = this, legendItem = item.legendItem = item.legendItem || {}, chart = legend.chart, renderer = chart.renderer, options = legend.options, horizontal = options.layout === 'horizontal', symbolWidth = legend.symbolWidth, symbolPadding = options.symbolPadding || 0, itemStyle = legend.itemStyle, itemHiddenStyle = legend.itemHiddenStyle, itemDistance = horizontal ? pick(options.itemDistance, 20) : 0, ltr = !options.rtl, isSeries = !item.series, series = !isSeries && item.series.drawLegendSymbol ? item.series : item, seriesOptions = series.options, showCheckbox = (!!legend.createCheckboxForItem && seriesOptions && seriesOptions.showCheckbox), useHTML = options.useHTML, itemClassName = item.options.className; let label = legendItem.label, // Full width minus text width itemExtraWidth = symbolWidth + symbolPadding + itemDistance + (showCheckbox ? 20 : 0); if (!label) { // Generate it once, later move it // Generate the group box, a group to hold the symbol and text. Text // is to be appended in Legend class. legendItem.group = renderer .g('legend-item') .addClass('highcharts-' + series.type + '-series ' + 'highcharts-color-' + item.colorIndex + (itemClassName ? ' ' + itemClassName : '') + (isSeries ? ' highcharts-series-' + item.index : '')) .attr({ zIndex: 1 }) .add(legend.scrollGroup); // Generate the list item text and add it to the group legendItem.label = label = renderer.text('', ltr ? symbolWidth + symbolPadding : -symbolPadding, legend.baseline || 0, useHTML); if (!chart.styledMode) { // Merge to prevent modifying original (#1021) label.css(merge(item.visible ? itemStyle : itemHiddenStyle)); } label .attr({ align: ltr ? 'left' : 'right', zIndex: 2 }) .add(legendItem.group); // Get the baseline for the first item - the font size is equal for // all if (!legend.baseline) { legend.fontMetrics = renderer.fontMetrics(label); legend.baseline = legend.fontMetrics.f + 3 + legend.itemMarginTop; label.attr('y', legend.baseline); legend.symbolHeight = pick(options.symbolHeight, legend.fontMetrics.f); if (options.squareSymbol) { legend.symbolWidth = pick(options.symbolWidth, Math.max(legend.symbolHeight, 16)); itemExtraWidth = legend.symbolWidth + symbolPadding + itemDistance + (showCheckbox ? 20 : 0); if (ltr) { label.attr('x', legend.symbolWidth + symbolPadding); } } } // Draw the legend symbol inside the group box series.drawLegendSymbol(legend, item); if (legend.setItemEvents) { legend.setItemEvents(item, label, useHTML); } } // Add the HTML checkbox on top if (showCheckbox && !item.checkbox && legend.createCheckboxForItem) { legend.createCheckboxForItem(item); } // Colorize the items legend.colorizeItem(item, item.visible); // Take care of max width and text overflow (#6659) if (chart.styledMode || !itemStyle.width) { label.css({ width: ((options.itemWidth || legend.widthOption || chart.spacingBox.width) - itemExtraWidth) + 'px' }); } // Always update the text legend.setText(item); // Calculate the positions for the next line const bBox = label.getBBox(); const fontMetricsH = (legend.fontMetrics && legend.fontMetrics.h) || 0; item.itemWidth = item.checkboxOffset = options.itemWidth || legendItem.labelWidth || bBox.width + itemExtraWidth; legend.maxItemWidth = Math.max(legend.maxItemWidth, item.itemWidth); legend.totalItemWidth += item.itemWidth; legend.itemHeight = item.itemHeight = Math.round(legendItem.labelHeight || // Use bBox for multiline (#16398) (bBox.height > fontMetricsH * 1.5 ? bBox.height : fontMetricsH)); } /** * Get the position of the item in the layout. We now know the * maxItemWidth from the previous loop. * * @private * @function Highcharts.Legend#layoutItem * @param {Highcharts.BubbleLegendItem|Highcharts.Point|Highcharts.Series} item */ layoutItem(item) { const options = this.options, padding = this.padding, horizontal = options.layout === 'horizontal', itemHeight = item.itemHeight, itemMarginBottom = this.itemMarginBottom, itemMarginTop = this.itemMarginTop, itemDistance = horizontal ? pick(options.itemDistance, 20) : 0, maxLegendWidth = this.maxLegendWidth, itemWidth = (options.alignColumns && this.totalItemWidth > maxLegendWidth) ? this.maxItemWidth : item.itemWidth, legendItem = item.legendItem || {}; // If the item exceeds the width, start a new line if (horizontal && this.itemX - padding + itemWidth > maxLegendWidth) { this.itemX = padding; if (this.lastLineHeight) { // Not for the first line (#10167) this.itemY += (itemMarginTop + this.lastLineHeight + itemMarginBottom); } this.lastLineHeight = 0; // Reset for next line (#915, #3976) } // Set the edge positions this.lastItemY = itemMarginTop + this.itemY + itemMarginBottom; this.lastLineHeight = Math.max(// #915 itemHeight, this.lastLineHeight); // Cache the position of the newly generated or reordered items legendItem.x = this.itemX; legendItem.y = this.itemY; // Advance if (horizontal) { this.itemX += itemWidth; } else { this.itemY += itemMarginTop + itemHeight + itemMarginBottom; this.lastLineHeight = itemHeight; } // The width of the widest item this.offsetWidth = this.widthOption || Math.max((horizontal ? this.itemX - padding - (item.checkbox ? // Decrease by itemDistance only when no checkbox #4853 0 : itemDistance) : itemWidth) + padding, this.offsetWidth); } /** * Get all items, which is one item per series for most series and one * item per point for pie series and its derivatives. Fires the event * `afterGetAllItems`. * * @private * @function Highcharts.Legend#getAllItems * @return {Array<(Highcharts.BubbleLegendItem|Highcharts.Point|Highcharts.Series)>} * The current items in the legend. * @emits Highcharts.Legend#event:afterGetAllItems */ getAllItems() { let allItems = []; this.chart.series.forEach(function (series) { const seriesOptions = series && series.options; // Handle showInLegend. If the series is linked to another series, // defaults to false. if (series && pick(seriesOptions.showInLegend, !defined(seriesOptions.linkedTo) ? void 0 : false, true)) { // Use points or series for the legend item depending on // legendType allItems = allItems.concat((series.legendItem || {}).labels || (seriesOptions.legendType === 'point' ? series.data : series)); } }); fireEvent(this, 'afterGetAllItems', { allItems }); return allItems; } /** * Get a short, three letter string reflecting the alignment and layout. * * @private * @function Highcharts.Legend#getAlignment * @return {string} * The alignment, empty string if floating */ getAlignment() { const options = this.options; // Use the first letter of each alignment option in order to detect // the side. (#4189 - use charAt(x) notation instead of [x] for IE7) if (this.proximate) { return options.align.charAt(0) + 'tv'; } return options.floating ? '' : (options.align.charAt(0) + options.verticalAlign.charAt(0) + options.layout.charAt(0)); } /** * Adjust the chart margins by reserving space for the legend on only one * side of the chart. If the position is set to a corner, top or bottom is * reserved for horizontal legends and left or right for vertical ones. * * @private * @function Highcharts.Legend#adjustMargins * @param {Array} margin * @param {Array} spacing */ adjustMargins(margin, spacing) { const chart = this.chart, options = this.options, alignment = this.getAlignment(); if (alignment) { ([ /(lth|ct|rth)/, /(rtv|rm|rbv)/, /(rbh|cb|lbh)/, /(lbv|lm|ltv)/ ]).forEach(function (alignments, side) { if (alignments.test(alignment) && !defined(margin[side])) { // Now we have detected on which side of the chart we should // reserve space for the legend chart[marginNames[side]] = Math.max(chart[marginNames[side]], (chart.legend[(side + 1) % 2 ? 'legendHeight' : 'legendWidth'] + [1, -1, -1, 1][side] * options[(side % 2) ? 'x' : 'y'] + pick(options.margin, 12) + spacing[side] + (chart.titleOffset[side] || 0))); } }); } } /** * @private * @function Highcharts.Legend#proximatePositions */ proximatePositions() { const chart = this.chart, boxes = [], alignLeft = this.options.align === 'left'; this.allItems.forEach(function (item) { let lastPoint, height, useFirstPoint = alignLeft, target, top; if (item.yAxis) { if (item.xAxis.options.reversed) { useFirstPoint = !useFirstPoint; } if (item.points) { lastPoint = find(useFirstPoint ? item.points : item.points.slice(0).reverse(), function (item) { return isNumber(item.plotY); }); } height = this.itemMarginTop + item.legendItem.label.getBBox().height + this.itemMarginBottom; top = item.yAxis.top - chart.plotTop; if (item.visible) { target = lastPoint ? lastPoint.plotY : item.yAxis.height; target += top - 0.3 * height; } else { target = top + item.yAxis.height; } boxes.push({ target: target, size: height, item }); } }, this); let legendItem; for (const box of distribute(boxes, chart.plotHeight)) { legendItem = box.item.legendItem || {}; if (isNumber(box.pos)) { legendItem.y = chart.plotTop - chart.spacing[0] + box.pos; } } } /** * 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. Called internally on initial render and after * redraws. * * @private * @function Highcharts.Legend#render */ render() { const legend = this, chart = legend.chart, renderer = chart.renderer, options = legend.options, padding = legend.padding, // Add each series or point allItems = legend.getAllItems(); let display, legendWidth, legendHeight, legendGroup = legend.group, allowedWidth, box = legend.box; legend.itemX = padding; legend.itemY = legend.initialItemY; legend.offsetWidth = 0; legend.lastItemY = 0; legend.widthOption = relativeLength(options.width, chart.spacingBox.width - padding); // Compute how wide the legend is allowed to be allowedWidth = chart.spacingBox.width - 2 * padding - options.x; if (['rm', 'lm'].indexOf(legend.getAlignment().substring(0, 2)) > -1) { allowedWidth /= 2; } legend.maxLegendWidth = legend.widthOption || allowedWidth; if (!legendGroup) { /** * SVG group of the legend. * * @readonly * @name Highcharts.Legend#group * @type {Highcharts.SVGElement} */ legend.group = legendGroup = renderer .g('legend') .addClass(options.className || '') .attr({ zIndex: 7 }) .add(); legend.contentGroup = renderer .g() .attr({ zIndex: 1 }) // Above background .add(legendGroup); legend.scrollGroup = renderer .g() .add(legend.contentGroup); } legend.renderTitle(); // Sort by legendIndex stableSort(allItems, (a, b) => ((a.options && a.options.legendIndex) || 0) - ((b.options && b.options.legendIndex) || 0)); // Reversed legend if (options.reversed) { allItems.reverse(); } /** * All items for the legend, which is an array of series for most series * and an array of points for pie series and its derivatives. * * @readonly * @name Highcharts.Legend#allItems * @type {Array<(Highcharts.Point|Highcharts.Series)>} */ legend.allItems = allItems; legend.display = display = !!allItems.length; // Render the items. First we run a loop to set the text and properties // and read all the bounding boxes. The next loop computes the item // positions based on the bounding boxes. legend.lastLineHeight = 0; legend.maxItemWidth = 0; legend.totalItemWidth = 0; legend.itemHeight = 0; allItems.forEach(legend.renderItem, legend); allItems.forEach(legend.layoutItem, legend); // Get the box legendWidth = (legend.widthOption || legend.offsetWidth) + padding; legendHeight = legend.lastItemY + legend.lastLineHeight + legend.titleHeight; legendHeight = legend.handleOverflow(legendHeight); legendHeight += padding; // Draw the border and/or background if (!box) { /** * SVG element of the legend box. * * @readonly * @name Highcharts.Legend#box * @type {Highcharts.SVGElement} */ legend.box = box = renderer.rect() .addClass('highcharts-legend-box') .attr({ r: options.borderRadius }) .add(legendGroup); } // Presentational if (!chart.styledMode) { box .attr({ stroke: options.borderColor, 'stroke-width': options.borderWidth || 0, fill: options.backgroundColor || 'none' }) .shadow(options.shadow); } if (legendWidth > 0 && legendHeight > 0) { box[box.placed ? 'animate' : 'attr'](box.crisp.call({}, { x: 0, y: 0, width: legendWidth, height: legendHeight }, box.strokeWidth())); } // Hide the border if no items legendGroup[display ? 'show' : 'hide'](); // Open for responsiveness if (chart.styledMode && legendGroup.getStyle('display') === 'none') { legendWidth = legendHeight = 0; } legend.legendWidth = legendWidth; legend.legendHeight = legendHeight; if (display) { legend.align(); } if (!this.proximate) { this.positionItems(); } fireEvent(this, 'afterRender'); } /** * Align the legend to chart's box. * * @private * @function Highcharts.align * @param {Highcharts.BBoxObject} alignTo */ align(alignTo = this.chart.spacingBox) { const chart = this.chart, options = this.options; // If aligning to the top and the layout is horizontal, adjust for // the title (#7428) let y = alignTo.y; if (/(lth|ct|rth)/.test(this.getAlignment()) && chart.titleOffset[0] > 0) { y += chart.titleOffset[0]; } else if (/(lbh|cb|rbh)/.test(this.getAlignment()) && chart.titleOffset[2] > 0) { y -= chart.titleOffset[2]; } if (y !== alignTo.y) { alignTo = merge(alignTo, { y }); } if (!chart.hasRendered) { // Avoid animation when adjusting alignment for responsiveness and // colorAxis label layout this.group.placed = false; } this.group.align(merge(options, { width: this.legendWidth, height: this.legendHeight, verticalAlign: this.proximate ? 'top' : options.verticalAlign }), true, alignTo); } /** * Set up the overflow handling by adding navigation with up and down arrows * below the legend. * * @private * @function Highcharts.Legend#handleOverflow */ handleOverflow(legendHeight) { const legend = this, chart = this.chart, renderer = chart.renderer, options = this.options, optionsY = options.y, alignTop = options.verticalAlign === 'top', padding = this.padding, maxHeight = options.maxHeight, navOptions = options.navigation, animation = pick(navOptions.animation, true), arrowSize = navOptions.arrowSize || 12, pages = this.pages, allItems = this.allItems, clipToHeight = function (height) { if (typeof height === 'number') { clipRect.attr({ height: height }); } else if (clipRect) { // Reset (#5912) legend.clipRect = clipRect.destroy(); legend.contentGroup.clip(); } // Use HTML if (legend.contentGroup.div) { legend.contentGroup.div.style.clip = height ? 'rect(' + padding + 'px,9999px,' + (padding + height) + 'px,0)' : 'auto'; } }, addTracker = function (key) { legend[key] = renderer .circle(0, 0, arrowSize * 1.3) .translate(arrowSize / 2, arrowSize / 2) .add(nav); if (!chart.styledMode) { legend[key].attr('fill', 'rgba(0,0,0,0.0001)'); } return legend[key]; }; let clipHeight, lastY, legendItem, spaceHeight = (chart.spacingBox.height + (alignTop ? -optionsY : optionsY) - padding), nav = this.nav, clipRect = this.clipRect; // Adjust the height if (options.layout === 'horizontal' && options.verticalAlign !== 'middle' && !options.floating) { spaceHeight /= 2; } if (maxHeight) { spaceHeight = Math.min(spaceHeight, maxHeight); } // Reset the legend height and adjust the clipping rectangle pages.length = 0; if (legendHeight && spaceHeight > 0 && legendHeight > spaceHeight && navOptions.enabled !== false) { this.clipHeight = clipHeight = Math.max(spaceHeight - 20 - this.titleHeight - padding, 0); this.currentPage = pick(this.currentPage, 1); this.fullHeight = legendHeight; // Fill pages with Y positions so that the top of each a legend item // defines the scroll top for each page (#2098) allItems.forEach((item, i) => { legendItem = item.legendItem || {}; const y = legendItem.y || 0, h = Math.round(legendItem.label.getBBox().height); let len = pages.length; if (!len || (y - pages[len - 1] > clipHeight && (lastY || y) !== pages[len - 1])) { pages.push(lastY || y); len++; } // Keep track of which page each item is on legendItem.pageIx = len - 1; if (lastY) { (allItems[i - 1].legendItem || {}).pageIx = len - 1; } // Add the last page if needed (#2617, #13683) if ( // Check the last item i === allItems.length - 1 && // If adding next page is needed (#18768) y + h - pages[len - 1] > clipHeight && y > pages[len - 1]) { pages.push(y); legendItem.pageIx = len; } if (y !== lastY) { lastY = y; } }); // Only apply clipping if needed. Clipping causes blurred legend in // PDF export (#1787) if (!clipRect) { clipRect = legend.clipRect = renderer.clipRect(0, padding - 2, 9999, 0); legend.contentGroup.clip(clipRect); } clipToHeight(clipHeight); // Add navigation elements if (!nav) { this.nav = nav = renderer.g() .attr({ zIndex: 1 }) .add(this.group); this.up = renderer .symbol('triangle', 0, 0, arrowSize, arrowSize) .add(nav); addTracker('upTracker') .on('click', function () { legend.scroll(-1, animation); }); this.pager = renderer.text('', 15, 10) .addClass('highcharts-legend-navigation'); if (!chart.styledMode && navOptions.style) { this.pager.css(navOptions.style); } this.pager.add(nav); this.down = renderer .symbol('triangle-down', 0, 0, arrowSize, arrowSize) .add(nav); addTracker('downTracker') .on('click', function () { legend.scroll(1, animation); }); } // Set initial position legend.scroll(0); legendHeight = spaceHeight; // Reset } else if (nav) { clipToHeight(); this.nav = nav.destroy(); // #6322 this.scrollGroup.attr({ translateY: 1 }); this.clipHeight = 0; // #1379 } return legendHeight; } /** * Scroll the legend by a number of pages. * * @private * @function Highcharts.Legend#scroll * * @param {number} scrollBy * The number of pages to scroll. * * @param {boolean|Partial} [animation] * Whether and how to apply animation. * */ scroll(scrollBy, animation) { const chart = this.chart, pages = this.pages, pageCount = pages.length, clipHeight = this.clipHeight, navOptions = this.options.navigation, pager = this.pager, padding = this.padding; let currentPage = this.currentPage + scrollBy; // When resizing while looking at the last page if (currentPage > pageCount) { currentPage = pageCount; } if (currentPage > 0) { if (typeof animation !== 'undefined') { setAnimation(animation, chart); } this.nav.attr({ translateX: padding, translateY: clipHeight + this.padding + 7 + this.titleHeight, visibility: 'inherit' }); [this.up, this.upTracker].forEach(function (elem) { elem.attr({ 'class': currentPage === 1 ? 'highcharts-legend-nav-inactive' : 'highcharts-legend-nav-active' }); }); pager.attr({ text: currentPage + '/' + pageCount }); [this.down, this.downTracker].forEach(function (elem) { elem.attr({ // Adjust to text width x: 18 + this.pager.getBBox().width, 'class': currentPage === pageCount ? 'highcharts-legend-nav-inactive' : 'highcharts-legend-nav-active' }); }, this); if (!chart.styledMode) { this.up .attr({ fill: currentPage === 1 ? navOptions.inactiveColor : navOptions.activeColor }); this.upTracker .css({ cursor: currentPage === 1 ? 'default' : 'pointer' }); this.down .attr({ fill: currentPage === pageCount ? navOptions.inactiveColor : navOptions.activeColor }); this.downTracker .css({ cursor: currentPage === pageCount ? 'default' : 'pointer' }); } this.scrollOffset = -pages[currentPage - 1] + this.initialItemY; this.scrollGroup.animate({ translateY: this.scrollOffset }); this.currentPage = currentPage; this.positionCheckboxes(); // Fire event after scroll animation is complete const animOptions = animObject(pick(animation, chart.renderer.globalAnimation, true)); syncTimeout(() => { fireEvent(this, 'afterScroll', { currentPage }); }, animOptions.duration); } } /** * @private * @function Highcharts.Legend#setItemEvents * @param {Highcharts.BubbleLegendItem|Point|Highcharts.Series} item * @param {Highcharts.SVGElement} legendLabel * @param {boolean} [useHTML=false] * @emits Highcharts.Point#event:legendItemClick * @emits Highcharts.Series#event:legendItemClick */ setItemEvents(item, legendLabel, useHTML) { const legend = this, legendItem = item.legendItem || {}, boxWrapper = legend.chart.renderer.boxWrapper, isPoint = item instanceof Point, activeClass = 'highcharts-legend-' + (isPoint ? 'point' : 'series') + '-active', styledMode = legend.chart.styledMode, // When `useHTML`, the symbol is rendered in other group, so // we need to apply events listeners to both places legendElements = useHTML ? [legendLabel, legendItem.symbol] : [legendItem.group]; const setOtherItemsState = (state) => { legend.allItems.forEach((otherItem) => { if (item !== otherItem) { [otherItem] .concat(otherItem.linkedSeries || []) .forEach((otherItem) => { otherItem.setState(state, !isPoint); }); } }); }; // Set the events on the item group, or in case of useHTML, the item // itself (#1249) for (const element of legendElements) { if (element) { element .on('mouseover', function () { if (item.visible) { setOtherItemsState('inactive'); } item.setState('hover'); // A CSS class to dim or hide other than the hovered // series. // Works only if hovered series is visible (#10071). if (item.visible) { boxWrapper.addClass(activeClass); } if (!styledMode) { legendLabel.css(legend.options.itemHoverStyle); } }) .on('mouseout', function () { if (!legend.chart.styledMode) { legendLabel.css(merge(item.visible ? legend.itemStyle : legend.itemHiddenStyle)); } setOtherItemsState(''); // A CSS class to dim or hide other than the hovered // series. boxWrapper.removeClass(activeClass); item.setState(); }) .on('click', function (event) { const strLegendItemClick = 'legendItemClick', fnLegendItemClick = function () { if (item.setVisible) { item.setVisible(); } // Reset inactive state setOtherItemsState(item.visible ? 'inactive' : ''); }; // A CSS class to dim or hide other than the hovered // series. Event handling in iOS causes the activeClass // to be added prior to click in some cases (#7418). boxWrapper.removeClass(activeClass); // Pass over the click/touch event. #4. event = { browserEvent: event }; // Click the name or symbol if (item.firePointEvent) { // Point item.firePointEvent(strLegendItemClick, event, fnLegendItemClick); } else { fireEvent(item, strLegendItemClick, event, fnLegendItemClick); } }); } } } /** * @private * @function Highcharts.Legend#createCheckboxForItem * @param {Highcharts.BubbleLegendItem|Point|Highcharts.Series} item * @emits Highcharts.Series#event:checkboxClick */ createCheckboxForItem(item) { const legend = this; item.checkbox = createElement('input', { type: 'checkbox', className: 'highcharts-legend-checkbox', checked: item.selected, defaultChecked: item.selected // Required by IE7 }, legend.options.itemCheckboxStyle, legend.chart.container); addEvent(item.checkbox, 'click', function (event) { const target = event.target; fireEvent(item.series || item, 'checkboxClick', { checked: target.checked, item: item }, function () { item.select(); }); }); } } /* * * * Class Namespace * * */ (function (Legend) { /* * * * Declarations * * */ /* * * * Functions * * */ /** * @private */ function compose(ChartClass) { if (pushUnique(composed, 'Core.Legend')) { addEvent(ChartClass, 'beforeMargins', function () { /** * The legend contains an interactive overview over chart items, * usually individual series or points depending on the series * type. The color axis and bubble legend are also rendered in * the chart legend. * * @name Highcharts.Chart#legend * @type {Highcharts.Legend} */ this.legend = new Legend(this, this.options.legend); }); } } Legend.compose = compose; })(Legend || (Legend = {})); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * @interface Highcharts.LegendItemObject */ /** * @name Highcharts.LegendItemObject#item * @type {Highcharts.SVGElement|undefined} */ /** * @name Highcharts.LegendItemObject#line * @type {Highcharts.SVGElement|undefined} */ /** * @name Highcharts.LegendItemObject#symbol * @type {Highcharts.SVGElement|undefined} */ /** * Gets fired when the legend item belonging to a point is clicked. The default * action is to toggle the visibility of the point. This can be prevented by * returning `false` or calling `event.preventDefault()`. * * @callback Highcharts.PointLegendItemClickCallbackFunction * * @param {Highcharts.Point} this * The point on which the event occurred. * * @param {Highcharts.PointLegendItemClickEventObject} event * The event that occurred. */ /** * Information about the legend click event. * * @interface Highcharts.PointLegendItemClickEventObject */ /** * Related browser event. * @name Highcharts.PointLegendItemClickEventObject#browserEvent * @type {Highcharts.PointerEvent} */ /** * Prevent the default action of toggle the visibility of the point. * @name Highcharts.PointLegendItemClickEventObject#preventDefault * @type {Function} */ /** * Related point. * @name Highcharts.PointLegendItemClickEventObject#target * @type {Highcharts.Point} */ /** * Event type. * @name Highcharts.PointLegendItemClickEventObject#type * @type {"legendItemClick"} */ /** * Series color as used by the legend and some series types. * @name Highcharts.Series#color * @type {Highcharts.ColorType|undefined} */ /** * Legend data for the series. * @name Highcharts.Series#legendItem * @type {Highcharts.LegendItemObject|undefined} * @since 10.3.0 */ /** * Gets fired when the legend item belonging to a series is clicked. The default * action is to toggle the visibility of the series. This can be prevented by * returning `false` or calling `event.preventDefault()`. * * @callback Highcharts.SeriesLegendItemClickCallbackFunction * * @param {Highcharts.Series} this * The series where the event occurred. * * @param {Highcharts.SeriesLegendItemClickEventObject} event * The event that occurred. */ /** * Information about the legend click event. * * @interface Highcharts.SeriesLegendItemClickEventObject */ /** * Related browser event. * @name Highcharts.SeriesLegendItemClickEventObject#browserEvent * @type {Highcharts.PointerEvent} */ /** * Prevent the default action of toggle the visibility of the series. * @name Highcharts.SeriesLegendItemClickEventObject#preventDefault * @type {Function} */ /** * Related series. * @name Highcharts.SeriesLegendItemClickEventObject#target * @type {Highcharts.Series} */ /** * Event type. * @name Highcharts.SeriesLegendItemClickEventObject#type * @type {"legendItemClick"} */ (''); // Keeps doclets above in JS file return Legend; }); _registerModule(_modules, 'Core/Legend/LegendSymbol.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { extend, merge, pick } = U; /* * * * Namespace * * */ var LegendSymbol; (function (LegendSymbol) { /* * * * Functions * * */ /** * Draw a line, a point marker and an area in the legend. * * @private * @function Highcharts.LegendSymbolMixin.areaMarker * * @param {Highcharts.Legend} legend * The legend object. */ function areaMarker(legend, item) { lineMarker.call(this, legend, item, true); } LegendSymbol.areaMarker = areaMarker; /** * Draw a line and a point marker in the legend. * * @private * @function Highcharts.LegendSymbolMixin.lineMarker * * @param {Highcharts.Legend} legend * The legend object. */ function lineMarker(legend, item, hasArea) { const legendItem = this.legendItem = this.legendItem || {}, { chart, options } = this, { baseline = 0, symbolWidth, symbolHeight } = legend, symbol = this.symbol || 'circle', generalRadius = symbolHeight / 2, renderer = chart.renderer, legendItemGroup = legendItem.group, verticalCenter = baseline - Math.round(symbolHeight * // Render line and marker slightly higher to make room for the // area (hasArea ? 0.4 : 0.3)), attr = {}; let legendSymbol, markerOptions = options.marker, lineSizer = 0; // Draw the line if (!chart.styledMode) { attr['stroke-width'] = Math.min(options.lineWidth || 0, 24); if (options.dashStyle) { attr.dashstyle = options.dashStyle; } else if (options.linecap !== 'square') { attr['stroke-linecap'] = 'round'; } } legendItem.line = renderer .path() .addClass('highcharts-graph') .attr(attr) .add(legendItemGroup); if (hasArea) { legendItem.area = renderer .path() .addClass('highcharts-area') .add(legendItemGroup); } if (attr['stroke-linecap']) { lineSizer = Math.min(legendItem.line.strokeWidth(), symbolWidth) / 2; } if (symbolWidth) { const d = [ ['M', lineSizer, verticalCenter], ['L', symbolWidth - lineSizer, verticalCenter] ]; legendItem.line.attr({ d }); legendItem.area?.attr({ d: [ ...d, ['L', symbolWidth - lineSizer, baseline], ['L', lineSizer, baseline] ] }); } // Draw the marker if (markerOptions && markerOptions.enabled !== false && symbolWidth) { // Do not allow the marker to be larger than the symbolHeight let radius = Math.min(pick(markerOptions.radius, generalRadius), generalRadius); // Restrict symbol markers size if (symbol.indexOf('url') === 0) { markerOptions = merge(markerOptions, { width: symbolHeight, height: symbolHeight }); radius = 0; } legendItem.symbol = legendSymbol = renderer .symbol(symbol, (symbolWidth / 2) - radius, verticalCenter - radius, 2 * radius, 2 * radius, extend({ context: 'legend' }, markerOptions)) .addClass('highcharts-point') .add(legendItemGroup); legendSymbol.isMarker = true; } } LegendSymbol.lineMarker = lineMarker; /** * Get the series' symbol in the legend. * * This method should be overridable to create custom symbols through * Highcharts.seriesTypes[type].prototype.drawLegendSymbol. * * @private * @function Highcharts.LegendSymbolMixin.rectangle * * @param {Highcharts.Legend} legend * The legend object * * @param {Highcharts.Point|Highcharts.Series} item * The series (this) or point */ function rectangle(legend, item) { const legendItem = item.legendItem || {}, options = legend.options, symbolHeight = legend.symbolHeight, square = options.squareSymbol, symbolWidth = square ? symbolHeight : legend.symbolWidth; legendItem.symbol = this.chart.renderer .rect(square ? (legend.symbolWidth - symbolHeight) / 2 : 0, legend.baseline - symbolHeight + 1, // #3988 symbolWidth, symbolHeight, pick(legend.options.symbolRadius, symbolHeight / 2)) .addClass('highcharts-point') .attr({ zIndex: 3 }) .add(legendItem.group); } LegendSymbol.rectangle = rectangle; })(LegendSymbol || (LegendSymbol = {})); /* * * * Default Export * * */ return LegendSymbol; }); _registerModule(_modules, 'Core/Series/SeriesDefaults.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * API Options * * */ /** * General options for all series types. * * @optionparent plotOptions.series */ const seriesDefaults = { // Base series options /** * The SVG value used for the `stroke-linecap` and `stroke-linejoin` * of a line graph. Round means that lines are rounded in the ends and * bends. * * @type {Highcharts.SeriesLinecapValue} * @default round * @since 3.0.7 * @apioption plotOptions.line.linecap */ /** * Pixel width of the graph line. * * @see In styled mode, the line stroke-width can be set with the * `.highcharts-graph` class name. * * @sample {highcharts} highcharts/plotoptions/series-linewidth-general/ * On all series * @sample {highcharts} highcharts/plotoptions/series-linewidth-specific/ * On one single series * * @product highcharts highstock */ lineWidth: 2, /** * For some series, there is a limit that shuts down animation * by default when the total number of points in the chart is too high. * For example, for a column chart and its derivatives, animation does * not run if there is more than 250 points totally. To disable this * cap, set `animationLimit` to `Infinity`. This option works if animation * is fired on individual points, not on a group of points like e.g. during * the initial animation. * * @sample {highcharts} highcharts/plotoptions/series-animationlimit/ * Animation limit on updating individual points * * @type {number} * @apioption plotOptions.series.animationLimit */ /** * Allow this series' points to be selected by clicking on the graphic * (columns, point markers, pie slices, map areas etc). * * The selected points can be handled by point select and unselect * events, or collectively by the [getSelectedPoints * ](/class-reference/Highcharts.Chart#getSelectedPoints) function. * * And alternative way of selecting points is through dragging. * * @sample {highcharts} highcharts/plotoptions/series-allowpointselect-line/ * Line * @sample {highcharts} highcharts/plotoptions/series-allowpointselect-column/ * Column * @sample {highcharts} highcharts/plotoptions/series-allowpointselect-pie/ * Pie * @sample {highcharts} highcharts/chart/events-selection-points/ * Select a range of points through a drag selection * @sample {highmaps} maps/plotoptions/series-allowpointselect/ * Map area * @sample {highmaps} maps/plotoptions/mapbubble-allowpointselect/ * Map bubble * * @since 1.2.0 * * @private */ allowPointSelect: false, /** * When true, each point or column edge is rounded to its nearest pixel * in order to render sharp on screen. In some cases, when there are a * lot of densely packed columns, this leads to visible difference * in column widths or distance between columns. In these cases, * setting `crisp` to `false` may look better, even though each column * is rendered blurry. * * @sample {highcharts} highcharts/plotoptions/column-crisp-false/ * Crisp is false * * @since 5.0.10 * @product highcharts highstock gantt * * @private */ crisp: true, /** * If true, a checkbox is displayed next to the legend item to allow * selecting the series. The state of the checkbox is determined by * the `selected` option. * * @productdesc {highmaps} * Note that if a `colorAxis` is defined, the color axis is represented * in the legend, not the series. * * @sample {highcharts} highcharts/plotoptions/series-showcheckbox-true/ * Show select box * * @since 1.2.0 * * @private */ showCheckbox: false, /** * Enable or disable the initial animation when a series is displayed. * The animation can also be set as a configuration object. Please * note that this option only applies to the initial animation of the * series itself. For other animations, see [chart.animation]( * #chart.animation) and the animation parameter under the API methods. * The following properties are supported: * * - `defer`: The animation delay time in milliseconds. * * - `duration`: The duration of the animation in milliseconds. (Defaults to * `1000`) * * - `easing`: Can be a string reference to an easing function set on * the `Math` object or a function. See the _Custom easing function_ * demo below. (Defaults to `easeInOutSine`) * * Due to poor performance, animation is disabled in old IE browsers * for several chart types. * * @sample {highcharts} highcharts/plotoptions/series-animation-disabled/ * Animation disabled * @sample {highcharts} highcharts/plotoptions/series-animation-slower/ * Slower animation * @sample {highcharts} highcharts/plotoptions/series-animation-easing/ * Custom easing function * @sample {highstock} stock/plotoptions/animation-slower/ * Slower animation * @sample {highstock} stock/plotoptions/animation-easing/ * Custom easing function * @sample {highmaps} maps/plotoptions/series-animation-true/ * Animation enabled on map series * @sample {highmaps} maps/plotoptions/mapbubble-animation-false/ * Disabled on mapbubble series * * @type {boolean|Highcharts.AnimationOptionsObject} * @default {highcharts} true * @default {highstock} true * @default {highmaps} false * * @private */ animation: { /** @ignore-option */ duration: 1000 }, /** * An additional class name to apply to the series' graphical elements. * This option does not replace default class names of the graphical * element. Changes to the series' color will also be reflected in a * chart's legend and tooltip. * * @sample {highcharts} highcharts/css/point-series-classname * Series and point class name * * @type {string} * @since 5.0.0 * @apioption plotOptions.series.className */ /** * Disable this option to allow series rendering in the whole plotting * area. * * **Note:** Clipping should be always enabled when * [chart.zoomType](#chart.zoomType) is set * * @sample {highcharts} highcharts/plotoptions/series-clip/ * Disabled clipping * * @default true * @type {boolean} * @since 3.0.0 * @apioption plotOptions.series.clip */ /** * The main color of the series. In line type series it applies to the * line and the point markers unless otherwise specified. In bar type * series it applies to the bars unless a color is specified per point. * The default value is pulled from the `options.colors` array. * * In styled mode, the color can be defined by the * [colorIndex](#plotOptions.series.colorIndex) option. Also, the series * color can be set with the `.highcharts-series`, * `.highcharts-color-{n}`, `.highcharts-{type}-series` or * `.highcharts-series-{n}` class, or individual classes given by the * `className` option. * * @productdesc {highmaps} * In maps, the series color is rarely used, as most choropleth maps use * the color to denote the value of each point. The series color can * however be used in a map with multiple series holding categorized * data. * * @sample {highcharts} highcharts/plotoptions/series-color-general/ * General plot option * @sample {highcharts} highcharts/plotoptions/series-color-specific/ * One specific series * @sample {highcharts} highcharts/plotoptions/series-color-area/ * Area color * @sample {highcharts} highcharts/series/infographic/ * Pattern fill * @sample {highmaps} maps/demo/category-map/ * Category map by multiple series * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption plotOptions.series.color */ /** * Styled mode only. A specific color index to use for the series, so its * graphic representations are given the class name `highcharts-color-{n}`. * * Since v11, CSS variables on the form `--highcharts-color-{n}` make * changing the color scheme very convenient. * * @sample {highcharts} highcharts/css/colorindex/ Series and point color * index * * @type {number} * @since 5.0.0 * @apioption plotOptions.series.colorIndex */ /** * Whether to connect a graph line across null points, or render a gap * between the two points on either side of the null. * * In stacked area chart, if `connectNulls` is set to true, * null points are interpreted as 0. * * @sample {highcharts} highcharts/plotoptions/series-connectnulls-false/ * False by default * @sample {highcharts} highcharts/plotoptions/series-connectnulls-true/ * True * * @type {boolean} * @default false * @product highcharts highstock * @apioption plotOptions.series.connectNulls */ /** * You can set the cursor to "pointer" if you have click events attached * to the series, to signal to the user that the points and lines can * be clicked. * * In styled mode, the series cursor can be set with the same classes * as listed under [series.color](#plotOptions.series.color). * * @sample {highcharts} highcharts/plotoptions/series-cursor-line/ * On line graph * @sample {highcharts} highcharts/plotoptions/series-cursor-column/ * On columns * @sample {highcharts} highcharts/plotoptions/series-cursor-scatter/ * On scatter markers * @sample {highstock} stock/plotoptions/cursor/ * Pointer on a line graph * @sample {highmaps} maps/plotoptions/series-allowpointselect/ * Map area * @sample {highmaps} maps/plotoptions/mapbubble-allowpointselect/ * Map bubble * * @type {string|Highcharts.CursorValue} * @apioption plotOptions.series.cursor */ /** * A reserved subspace to store options and values for customized * functionality. Here you can add additional data for your own event * callbacks and formatter callbacks. * * @sample {highcharts} highcharts/point/custom/ * Point and series with custom data * * @type {Highcharts.Dictionary<*>} * @apioption plotOptions.series.custom */ /** * Name of the dash style to use for the graph, or for some series types * the outline of each shape. * * In styled mode, the * [stroke dash-array](https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/css/series-dashstyle/) * can be set with the same classes as listed under * [series.color](#plotOptions.series.color). * * @sample {highcharts} highcharts/plotoptions/series-dashstyle-all/ * Possible values demonstrated * @sample {highcharts} highcharts/plotoptions/series-dashstyle/ * Chart suitable for printing in black and white * @sample {highstock} highcharts/plotoptions/series-dashstyle-all/ * Possible values demonstrated * @sample {highmaps} highcharts/plotoptions/series-dashstyle-all/ * Possible values demonstrated * @sample {highmaps} maps/plotoptions/series-dashstyle/ * Dotted borders on a map * * @type {Highcharts.DashStyleValue} * @default Solid * @since 2.1 * @apioption plotOptions.series.dashStyle */ /** * A description of the series to add to the screen reader information * about the series. * * @type {string} * @since 5.0.0 * @requires modules/accessibility * @apioption plotOptions.series.description */ /** * Options for the series data sorting. * * @type {Highcharts.DataSortingOptionsObject} * @since 8.0.0 * @product highcharts highstock * @apioption plotOptions.series.dataSorting */ /** * Enable or disable data sorting for the series. Use [xAxis.reversed]( * #xAxis.reversed) to change the sorting order. * * @sample {highcharts} highcharts/datasorting/animation/ * Data sorting in scatter-3d * @sample {highcharts} highcharts/datasorting/labels-animation/ * Axis labels animation * @sample {highcharts} highcharts/datasorting/dependent-sorting/ * Dependent series sorting * @sample {highcharts} highcharts/datasorting/independent-sorting/ * Independent series sorting * * @type {boolean} * @since 8.0.0 * @apioption plotOptions.series.dataSorting.enabled */ /** * Whether to allow matching points by name in an update. If this option * is disabled, points will be matched by order. * * @sample {highcharts} highcharts/datasorting/match-by-name/ * Enabled match by name * * @type {boolean} * @since 8.0.0 * @apioption plotOptions.series.dataSorting.matchByName */ /** * Determines what data value should be used to sort by. * * @sample {highcharts} highcharts/datasorting/sort-key/ * Sort key as `z` value * * @type {string} * @since 8.0.0 * @default y * @apioption plotOptions.series.dataSorting.sortKey */ /** * Enable or disable the mouse tracking for a specific series. This * includes point tooltips and click events on graphs and points. For * large datasets it improves performance. * * @sample {highcharts} highcharts/plotoptions/series-enablemousetracking-false/ * No mouse tracking * @sample {highmaps} maps/plotoptions/series-enablemousetracking-false/ * No mouse tracking * * @type {boolean} * @default true * @apioption plotOptions.series.enableMouseTracking */ enableMouseTracking: true, /** * Whether to use the Y extremes of the total chart width or only the * zoomed area when zooming in on parts of the X axis. By default, the * Y axis adjusts to the min and max of the visible data. Cartesian * series only. * * @type {boolean} * @default false * @since 4.1.6 * @product highcharts highstock gantt * @apioption plotOptions.series.getExtremesFromAll */ /** * Highlight only the hovered point and fade the remaining points. * * Scatter-type series require enabling the 'inactive' marker state and * adjusting opacity. Note that this approach could affect performance * with large datasets. * * @sample {highcharts} highcharts/plotoptions/series-inactiveotherpoints-enabled/ * Chart with inactiveOtherPoints option enabled. * * @type {boolean} * @default false * @apioption plotOptions.series.inactiveOtherPoints */ /** * An array specifying which option maps to which key in the data point * array. This makes it convenient to work with unstructured data arrays * from different sources. * * @see [series.data](#series.line.data) * * @sample {highcharts|highstock} highcharts/series/data-keys/ * An extended data array with keys * @sample {highcharts|highstock} highcharts/series/data-nested-keys/ * Nested keys used to access object properties * * @type {Array} * @since 4.1.6 * @apioption plotOptions.series.keys */ /** * The line cap used for line ends and line joins on the graph. * * @sample highcharts/series-line/linecap/ * Line cap comparison * * @type {Highcharts.SeriesLinecapValue} * @default round * @product highcharts highstock * @apioption plotOptions.series.linecap */ /** * The [id](#series.id) of another series to link to. Additionally, * the value can be ":previous" to link to the previous series. When * two series are linked, only the first one appears in the legend. * Toggling the visibility of this also toggles the linked series. * * If master series uses data sorting and linked series does not have * its own sorting definition, the linked series will be sorted in the * same order as the master one. * * @sample {highcharts|highstock} highcharts/demo/arearange-line/ * Linked series * * @type {string} * @since 3.0 * @product highcharts highstock gantt * @apioption plotOptions.series.linkedTo */ /** * Options for the corresponding navigator series if `showInNavigator` * is `true` for this series. Available options are the same as any * series, documented at [plotOptions](#plotOptions.series) and * [series](#series). * * These options are merged with options in [navigator.series]( * #navigator.series), and will take precedence if the same option is * defined both places. * * @see [navigator.series](#navigator.series) * * @type {Highcharts.PlotSeriesOptions} * @since 5.0.0 * @product highstock * @apioption plotOptions.series.navigatorOptions */ /** * The color for the parts of the graph or points that are below the * [threshold](#plotOptions.series.threshold). Note that `zones` takes * precedence over the negative color. Using `negativeColor` is * equivalent to applying a zone with value of 0. * * @see In styled mode, a negative color is applied by setting this option * to `true` combined with the `.highcharts-negative` class name. * * @sample {highcharts} highcharts/plotoptions/series-negative-color/ * Spline, area and column * @sample {highcharts} highcharts/plotoptions/arearange-negativecolor/ * Arearange * @sample {highcharts} highcharts/css/series-negative-color/ * Styled mode * @sample {highstock} highcharts/plotoptions/series-negative-color/ * Spline, area and column * @sample {highstock} highcharts/plotoptions/arearange-negativecolor/ * Arearange * @sample {highmaps} highcharts/plotoptions/series-negative-color/ * Spline, area and column * @sample {highmaps} highcharts/plotoptions/arearange-negativecolor/ * Arearange * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 3.0 * @apioption plotOptions.series.negativeColor */ /** * Same as * [accessibility.point.descriptionFormat](#accessibility.point.descriptionFormat), * but for an individual series. Overrides the chart wide configuration. * * @type {Function} * @since 11.1.0 * @apioption plotOptions.series.pointDescriptionFormat */ /** * Same as * [accessibility.series.descriptionFormatter](#accessibility.series.descriptionFormatter), * but for an individual series. Overrides the chart wide configuration. * * @type {Function} * @since 5.0.12 * @apioption plotOptions.series.pointDescriptionFormatter */ /** * If no x values are given for the points in a series, `pointInterval` * defines the interval of the x values. For example, if a series * contains one value every decade starting from year 0, set * `pointInterval` to `10`. In true `datetime` axes, the `pointInterval` * is set in milliseconds. * * It can be also be combined with `pointIntervalUnit` to draw irregular * time intervals. * * If combined with `relativeXValue`, an x value can be set on each * point, and the `pointInterval` is added x times to the `pointStart` * setting. * * Please note that this options applies to the _series data_, not the * interval of the axis ticks, which is independent. * * @sample {highcharts} highcharts/plotoptions/series-pointstart-datetime/ * Datetime X axis * @sample {highcharts} highcharts/plotoptions/series-relativexvalue/ * Relative x value * @sample {highstock} stock/plotoptions/pointinterval-pointstart/ * Using pointStart and pointInterval * @sample {highstock} stock/plotoptions/relativexvalue/ * Relative x value * * @type {number} * @default 1 * @product highcharts highstock gantt * @apioption plotOptions.series.pointInterval */ /** * On datetime series, this allows for setting the * [pointInterval](#plotOptions.series.pointInterval) to irregular time * units, `day`, `month` and `year`. A day is usually the same as 24 * hours, but `pointIntervalUnit` also takes the DST crossover into * consideration when dealing with local time. Combine this option with * `pointInterval` to draw weeks, quarters, 6 months, 10 years etc. * * Please note that this options applies to the _series data_, not the * interval of the axis ticks, which is independent. * * @sample {highcharts} highcharts/plotoptions/series-pointintervalunit/ * One point a month * @sample {highstock} highcharts/plotoptions/series-pointintervalunit/ * One point a month * * @type {string} * @since 4.1.0 * @product highcharts highstock gantt * @validvalue ["day", "month", "year"] * @apioption plotOptions.series.pointIntervalUnit */ /** * Possible values: `"on"`, `"between"`, `number`. * * In a column chart, when pointPlacement is `"on"`, the point will not * create any padding of the X axis. In a polar column chart this means * that the first column points directly north. If the pointPlacement is * `"between"`, the columns will be laid out between ticks. This is * useful for example for visualising an amount between two points in * time or in a certain sector of a polar chart. * * Since Highcharts 3.0.2, the point placement can also be numeric, * where 0 is on the axis value, -0.5 is between this value and the * previous, and 0.5 is between this value and the next. Unlike the * textual options, numeric point placement options won't affect axis * padding. * * Note that pointPlacement needs a [pointRange]( * #plotOptions.series.pointRange) to work. For column series this is * computed, but for line-type series it needs to be set. * * For the `xrange` series type and gantt charts, if the Y axis is a * category axis, the `pointPlacement` applies to the Y axis rather than * the (typically datetime) X axis. * * Defaults to `undefined` in cartesian charts, `"between"` in polar * charts. * * @see [xAxis.tickmarkPlacement](#xAxis.tickmarkPlacement) * * @sample {highcharts|highstock} highcharts/plotoptions/series-pointplacement-between/ * Between in a column chart * @sample {highcharts|highstock} highcharts/plotoptions/series-pointplacement-numeric/ * Numeric placement for custom layout * @sample {highcharts|highstock} maps/plotoptions/heatmap-pointplacement/ * Placement in heatmap * * @type {string|number} * @since 2.3.0 * @product highcharts highstock gantt * @apioption plotOptions.series.pointPlacement */ /** * If no x values are given for the points in a series, pointStart * defines on what value to start. For example, if a series contains one * yearly value starting from 1945, set pointStart to 1945. * * If combined with `relativeXValue`, an x value can be set on each * point. The x value from the point options is multiplied by * `pointInterval` and added to `pointStart` to produce a modified x * value. * * @sample {highcharts} highcharts/plotoptions/series-pointstart-linear/ * Linear * @sample {highcharts} highcharts/plotoptions/series-pointstart-datetime/ * Datetime * @sample {highcharts} highcharts/plotoptions/series-relativexvalue/ * Relative x value * @sample {highstock} stock/plotoptions/pointinterval-pointstart/ * Using pointStart and pointInterval * @sample {highstock} stock/plotoptions/relativexvalue/ * Relative x value * * @type {number} * @default 0 * @product highcharts highstock gantt * @apioption plotOptions.series.pointStart */ /** * When true, X values in the data set are relative to the current * `pointStart`, `pointInterval` and `pointIntervalUnit` settings. This * allows compression of the data for datasets with irregular X values. * * The real X values are computed on the formula `f(x) = ax + b`, where * `a` is the `pointInterval` (optionally with a time unit given by * `pointIntervalUnit`), and `b` is the `pointStart`. * * @sample {highcharts} highcharts/plotoptions/series-relativexvalue/ * Relative X value * @sample {highstock} stock/plotoptions/relativexvalue/ * Relative X value * * @type {boolean} * @default false * @product highcharts highstock * @apioption plotOptions.series.relativeXValue */ /** * Whether to select the series initially. If `showCheckbox` is true, * the checkbox next to the series name in the legend will be checked * for a selected series. * * @sample {highcharts} highcharts/plotoptions/series-selected/ * One out of two series selected * * @type {boolean} * @default false * @since 1.2.0 * @apioption plotOptions.series.selected */ /** * Whether to apply a drop shadow to the graph line. Since 2.3 the * shadow can be an object configuration containing `color`, `offsetX`, * `offsetY`, `opacity` and `width`. * * Note that in some cases, like stacked columns or other dense layouts, the * series may cast shadows on each other. In that case, the * `chart.seriesGroupShadow` allows applying a common drop shadow to the * whole series group. * * @sample {highcharts} highcharts/plotoptions/series-shadow/ * Shadow enabled * * @type {boolean|Highcharts.ShadowOptionsObject} * @default false * @apioption plotOptions.series.shadow */ /** * Whether to display this particular series or series type in the * legend. Standalone series are shown in legend by default, and linked * series are not. Since v7.2.0 it is possible to show series that use * colorAxis by setting this option to `true`. * * @sample {highcharts} highcharts/plotoptions/series-showinlegend/ * One series in the legend, one hidden * * @type {boolean} * @apioption plotOptions.series.showInLegend */ /** * Whether or not to show the series in the navigator. Takes precedence * over [navigator.baseSeries](#navigator.baseSeries) if defined. * * @type {boolean} * @since 5.0.0 * @product highstock * @apioption plotOptions.series.showInNavigator */ /** * If set to `true`, the accessibility module will skip past the points * in this series for keyboard navigation. * * @type {boolean} * @since 5.0.12 * @apioption plotOptions.series.skipKeyboardNavigation */ /** * Whether to stack the values of each series on top of each other. * Possible values are `undefined` to disable, `"normal"` to stack by * value or `"percent"`. * * When stacking is enabled, data must be sorted * in ascending X order. * * Some stacking options are related to specific series types. In the * streamgraph series type, the stacking option is set to `"stream"`. * The second one is `"overlap"`, which only applies to waterfall * series. * * @see [yAxis.reversedStacks](#yAxis.reversedStacks) * * @sample {highcharts} highcharts/plotoptions/series-stacking-line/ * Line * @sample {highcharts} highcharts/plotoptions/series-stacking-column/ * Column * @sample {highcharts} highcharts/plotoptions/series-stacking-bar/ * Bar * @sample {highcharts} highcharts/plotoptions/series-stacking-area/ * Area * @sample {highcharts} highcharts/plotoptions/series-stacking-percent-line/ * Line * @sample {highcharts} highcharts/plotoptions/series-stacking-percent-column/ * Column * @sample {highcharts} highcharts/plotoptions/series-stacking-percent-bar/ * Bar * @sample {highcharts} highcharts/plotoptions/series-stacking-percent-area/ * Area * @sample {highcharts} highcharts/plotoptions/series-waterfall-with-normal-stacking * Waterfall with normal stacking * @sample {highcharts} highcharts/plotoptions/series-waterfall-with-overlap-stacking * Waterfall with overlap stacking * @sample {highstock} stock/plotoptions/stacking/ * Area * * @type {string} * @product highcharts highstock * @validvalue ["normal", "overlap", "percent", "stream"] * @apioption plotOptions.series.stacking */ /** * Whether to apply steps to the line. Possible values are `left`, * `center` and `right`. * * @sample {highcharts} highcharts/plotoptions/line-step/ * Different step line options * @sample {highcharts} highcharts/plotoptions/area-step/ * Stepped, stacked area * @sample {highstock} stock/plotoptions/line-step/ * Step line * * @type {string} * @since 1.2.5 * @product highcharts highstock * @validvalue ["left", "center", "right"] * @apioption plotOptions.series.step */ /** * The threshold, also called zero level or base level. For line type * series this is only used in conjunction with * [negativeColor](#plotOptions.series.negativeColor). * * @see [softThreshold](#plotOptions.series.softThreshold). * * @type {number|null} * @default 0 * @since 3.0 * @product highcharts highstock * @apioption plotOptions.series.threshold */ /** * Set the initial visibility of the series. * * @sample {highcharts} highcharts/plotoptions/series-visible/ * Two series, one hidden and one visible * @sample {highstock} stock/plotoptions/series-visibility/ * Hidden series * * @type {boolean} * @default true * @apioption plotOptions.series.visible */ /** * Defines the Axis on which the zones are applied. * * @see [zones](#plotOptions.series.zones) * * @sample {highcharts} highcharts/series/color-zones-zoneaxis-x/ * Zones on the X-Axis * @sample {highstock} highcharts/series/color-zones-zoneaxis-x/ * Zones on the X-Axis * * @type {string} * @default y * @since 4.1.0 * @product highcharts highstock * @apioption plotOptions.series.zoneAxis */ /** * General event handlers for the series items. These event hooks can * also be attached to the series at run time using the * `Highcharts.addEvent` function. * * @declare Highcharts.SeriesEventsOptionsObject * * @private */ events: {}, /** * Fires after the series has finished its initial animation, or in case * animation is disabled, immediately as the series is displayed. * * @sample {highcharts} highcharts/plotoptions/series-events-afteranimate/ * Show label after animate * @sample {highstock} highcharts/plotoptions/series-events-afteranimate/ * Show label after animate * * @type {Highcharts.SeriesAfterAnimateCallbackFunction} * @since 4.0 * @product highcharts highstock gantt * @context Highcharts.Series * @apioption plotOptions.series.events.afterAnimate */ /** * Fires when the checkbox next to the series' name in the legend is * clicked. One parameter, `event`, is passed to the function. The state * of the checkbox is found by `event.checked`. The checked item is * found by `event.item`. Return `false` to prevent the default action * which is to toggle the select state of the series. * * @sample {highcharts} highcharts/plotoptions/series-events-checkboxclick/ * Alert checkbox status * * @type {Highcharts.SeriesCheckboxClickCallbackFunction} * @since 1.2.0 * @context Highcharts.Series * @apioption plotOptions.series.events.checkboxClick */ /** * Fires when the series is clicked. One parameter, `event`, is passed * to the function, containing common event information. Additionally, * `event.point` holds a pointer to the nearest point on the graph. * * @sample {highcharts} highcharts/plotoptions/series-events-click/ * Alert click info * @sample {highstock} stock/plotoptions/series-events-click/ * Alert click info * @sample {highmaps} maps/plotoptions/series-events-click/ * Display click info in subtitle * * @type {Highcharts.SeriesClickCallbackFunction} * @context Highcharts.Series * @apioption plotOptions.series.events.click */ /** * Fires when the series is hidden after chart generation time, either * by clicking the legend item or by calling `.hide()`. * * @sample {highcharts} highcharts/plotoptions/series-events-hide/ * Alert when the series is hidden by clicking the legend item * * @type {Highcharts.SeriesHideCallbackFunction} * @since 1.2.0 * @context Highcharts.Series * @apioption plotOptions.series.events.hide */ /** * Fires when the legend item belonging to the series is clicked. One * parameter, `event`, is passed to the function. The default action * is to toggle the visibility of the series. This can be prevented * by returning `false` or calling `event.preventDefault()`. * * @sample {highcharts} highcharts/plotoptions/series-events-legenditemclick/ * Confirm hiding and showing * * @type {Highcharts.SeriesLegendItemClickCallbackFunction} * @context Highcharts.Series * @apioption plotOptions.series.events.legendItemClick */ /** * Fires when the mouse leaves the graph. One parameter, `event`, is * passed to the function, containing common event information. If the * [stickyTracking](#plotOptions.series) option is true, `mouseOut` * doesn't happen before the mouse enters another graph or leaves the * plot area. * * @sample {highcharts} highcharts/plotoptions/series-events-mouseover-sticky/ * With sticky tracking by default * @sample {highcharts} highcharts/plotoptions/series-events-mouseover-no-sticky/ * Without sticky tracking * * @type {Highcharts.SeriesMouseOutCallbackFunction} * @context Highcharts.Series * @apioption plotOptions.series.events.mouseOut */ /** * Fires when the mouse enters the graph. One parameter, `event`, is * passed to the function, containing common event information. * * @sample {highcharts} highcharts/plotoptions/series-events-mouseover-sticky/ * With sticky tracking by default * @sample {highcharts} highcharts/plotoptions/series-events-mouseover-no-sticky/ * Without sticky tracking * * @type {Highcharts.SeriesMouseOverCallbackFunction} * @context Highcharts.Series * @apioption plotOptions.series.events.mouseOver */ /** * Fires when the series is shown after chart generation time, either * by clicking the legend item or by calling `.show()`. * * @sample {highcharts} highcharts/plotoptions/series-events-show/ * Alert when the series is shown by clicking the legend item. * * @type {Highcharts.SeriesShowCallbackFunction} * @since 1.2.0 * @context Highcharts.Series * @apioption plotOptions.series.events.show */ /** * Options for the point markers of line and scatter-like series. Properties * like `fillColor`, `lineColor` and `lineWidth` define the visual * appearance of the markers. The `symbol` option defines the shape. Other * series types, like column series, don't have markers, but have visual * options on the series level instead. * * In styled mode, the markers can be styled with the `.highcharts-point`, * `.highcharts-point-hover` and `.highcharts-point-select` class names. * * @declare Highcharts.PointMarkerOptionsObject * * @sample {highmaps} maps/demo/mappoint-mapmarker * Using the mapmarker symbol for points * * @private */ marker: { /** * Enable or disable the point marker. If `undefined`, the markers * are hidden when the data is dense, and shown for more widespread * data points. * * @sample {highcharts} highcharts/plotoptions/series-marker-enabled/ * Disabled markers * @sample {highcharts} highcharts/plotoptions/series-marker-enabled-false/ * Disabled in normal state but enabled on hover * @sample {highstock} stock/plotoptions/series-marker/ * Enabled markers * * @type {boolean} * @default {highcharts} undefined * @default {highstock} false * @apioption plotOptions.series.marker.enabled */ /** * The threshold for how dense the point markers should be before * they are hidden, given that `enabled` is not defined. The number * indicates the horizontal distance between the two closest points * in the series, as multiples of the `marker.radius`. In other * words, the default value of 2 means points are hidden if * overlapping horizontally. * * @sample highcharts/plotoptions/series-marker-enabledthreshold * A higher threshold * * @since 6.0.5 */ enabledThreshold: 2, /** * The fill color of the point marker. When `undefined`, the series' * or point's color is used. * * @sample {highcharts} highcharts/plotoptions/series-marker-fillcolor/ * White fill * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption plotOptions.series.marker.fillColor */ /** * Image markers only. Set the image width explicitly. When using * this option, a `width` must also be set. * * @sample {highcharts} highcharts/plotoptions/series-marker-width-height/ * Fixed width and height * @sample {highstock} highcharts/plotoptions/series-marker-width-height/ * Fixed width and height * * @type {number} * @since 4.0.4 * @apioption plotOptions.series.marker.height */ /** * The color of the point marker's outline. When `undefined`, the * series' or point's color is used. * * @sample {highcharts} highcharts/plotoptions/series-marker-fillcolor/ * Inherit from series color (undefined) * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ lineColor: "#ffffff" /* Palette.backgroundColor */, /** * The width of the point marker's outline. * * @sample {highcharts} highcharts/plotoptions/series-marker-fillcolor/ * 2px blue marker */ lineWidth: 0, /** * The radius of the point marker. * * @sample {highcharts} highcharts/plotoptions/series-marker-radius/ * Bigger markers * * @default {highstock} 2 * @default {highcharts} 4 * */ radius: 4, /** * A predefined shape or symbol for the marker. When undefined, the * symbol is pulled from options.symbols. Other possible values are * `'circle'`, `'square'`,`'diamond'`, `'triangle'` and * `'triangle-down'`. * * Additionally, the URL to a graphic can be given on this form: * `'url(graphic.png)'`. Note that for the image to be applied to * exported charts, its URL needs to be accessible by the export * server. * * Custom callbacks for symbol path generation can also be added to * `Highcharts.SVGRenderer.prototype.symbols`. The callback is then * used by its method name, as shown in the demo. * * @sample {highcharts} highcharts/plotoptions/series-marker-symbol/ * Predefined, graphic and custom markers * @sample {highstock} highcharts/plotoptions/series-marker-symbol/ * Predefined, graphic and custom markers * @sample {highmaps} maps/demo/mappoint-mapmarker * Using the mapmarker symbol for points * * @type {string} * @apioption plotOptions.series.marker.symbol */ /** * Image markers only. Set the image width explicitly. When using * this option, a `height` must also be set. * * @sample {highcharts} highcharts/plotoptions/series-marker-width-height/ * Fixed width and height * @sample {highstock} highcharts/plotoptions/series-marker-width-height/ * Fixed width and height * * @type {number} * @since 4.0.4 * @apioption plotOptions.series.marker.width */ /** * States for a single point marker. * * @declare Highcharts.PointStatesOptionsObject */ states: { /** * The normal state of a single point marker. Currently only * used for setting animation when returning to normal state * from hover. * * @declare Highcharts.PointStatesNormalOptionsObject */ normal: { /** * Animation when returning to normal state after hovering. * * @type {boolean|Partial} */ animation: true }, /** * The hover state for a single point marker. * * @declare Highcharts.PointStatesHoverOptionsObject */ hover: { /** * Animation when hovering over the marker. * * @type {boolean|Partial} */ animation: { /** @internal */ duration: 150 }, /** * Enable or disable the point marker. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-hover-enabled/ * Disabled hover state */ enabled: true, /** * The fill color of the marker in hover state. When * `undefined`, the series' or point's fillColor for normal * state is used. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption plotOptions.series.marker.states.hover.fillColor */ /** * The color of the point marker's outline. When * `undefined`, the series' or point's lineColor for normal * state is used. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-hover-linecolor/ * White fill color, black line color * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption plotOptions.series.marker.states.hover.lineColor */ /** * The width of the point marker's outline. When * `undefined`, the series' or point's lineWidth for normal * state is used. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-hover-linewidth/ * 3px line width * * @type {number} * @apioption plotOptions.series.marker.states.hover.lineWidth */ /** * The radius of the point marker. In hover state, it * defaults to the normal state's radius + 2 as per the * [radiusPlus](#plotOptions.series.marker.states.hover.radiusPlus) * option. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-hover-radius/ * 10px radius * * @type {number} * @apioption plotOptions.series.marker.states.hover.radius */ /** * The number of pixels to increase the radius of the * hovered point. * * @sample {highcharts} highcharts/plotoptions/series-states-hover-linewidthplus/ * 5 pixels greater radius on hover * @sample {highstock} highcharts/plotoptions/series-states-hover-linewidthplus/ * 5 pixels greater radius on hover * * @since 4.0.3 */ radiusPlus: 2, /** * The additional line width for a hovered point. * * @sample {highcharts} highcharts/plotoptions/series-states-hover-linewidthplus/ * 2 pixels wider on hover * @sample {highstock} highcharts/plotoptions/series-states-hover-linewidthplus/ * 2 pixels wider on hover * * @since 4.0.3 */ lineWidthPlus: 1 }, /** * The appearance of the point marker when selected. In order to * allow a point to be selected, set the * `series.allowPointSelect` option to true. * * @declare Highcharts.PointStatesSelectOptionsObject */ select: { /** * Enable or disable visible feedback for selection. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-select-enabled/ * Disabled select state * * @type {boolean} * @default true * @apioption plotOptions.series.marker.states.select.enabled */ /** * The radius of the point marker. In hover state, it * defaults to the normal state's radius + 2. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-select-radius/ * 10px radius for selected points * * @type {number} * @apioption plotOptions.series.marker.states.select.radius */ /** * The fill color of the point marker. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-select-fillcolor/ * Solid red discs for selected points * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ fillColor: "#cccccc" /* Palette.neutralColor20 */, /** * The color of the point marker's outline. When * `undefined`, the series' or point's color is used. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-select-linecolor/ * Red line color for selected points * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ lineColor: "#000000" /* Palette.neutralColor100 */, /** * The width of the point marker's outline. * * @sample {highcharts} highcharts/plotoptions/series-marker-states-select-linewidth/ * 3px line width for selected points */ lineWidth: 2 } } }, /** * Properties for each single point. * * @declare Highcharts.PlotSeriesPointOptions * * @private */ point: { /** * Fires when a point is clicked. One parameter, `event`, is passed * to the function, containing common event information. * * If the `series.allowPointSelect` option is true, the default * action for the point's click event is to toggle the point's * select state. Returning `false` cancels this action. * * @sample {highcharts} highcharts/plotoptions/series-point-events-click/ * Click marker to alert values * @sample {highcharts} highcharts/plotoptions/series-point-events-click-column/ * Click column * @sample {highcharts} highcharts/plotoptions/series-point-events-click-url/ * Go to URL * @sample {highmaps} maps/plotoptions/series-point-events-click/ * Click marker to display values * @sample {highmaps} maps/plotoptions/series-point-events-click-url/ * Go to URL * * @type {Highcharts.PointClickCallbackFunction} * @context Highcharts.Point * @apioption plotOptions.series.point.events.click */ /** * Fires when the mouse leaves the area close to the point. One * parameter, `event`, is passed to the function, containing common * event information. * * @sample {highcharts} highcharts/plotoptions/series-point-events-mouseover/ * Show values in the chart's corner on mouse over * * @type {Highcharts.PointMouseOutCallbackFunction} * @context Highcharts.Point * @apioption plotOptions.series.point.events.mouseOut */ /** * Fires when the mouse enters the area close to the point. One * parameter, `event`, is passed to the function, containing common * event information. * * Returning `false` cancels the default behavior, which is to show a * tooltip for the point. * * @sample {highcharts} highcharts/plotoptions/series-point-events-mouseover/ * Show values in the chart's corner on mouse over * * @type {Highcharts.PointMouseOverCallbackFunction} * @context Highcharts.Point * @apioption plotOptions.series.point.events.mouseOver */ /** * Fires when the point is removed using the `.remove()` method. One * parameter, `event`, is passed to the function. Returning `false` * cancels the operation. * * @sample {highcharts} highcharts/plotoptions/series-point-events-remove/ * Remove point and confirm * * @type {Highcharts.PointRemoveCallbackFunction} * @since 1.2.0 * @context Highcharts.Point * @apioption plotOptions.series.point.events.remove */ /** * Fires when the point is selected either programmatically or * following a click on the point. One parameter, `event`, is passed * to the function. Returning `false` cancels the operation. * * @sample {highcharts} highcharts/plotoptions/series-point-events-select/ * Report the last selected point * @sample {highmaps} maps/plotoptions/series-allowpointselect/ * Report select and unselect * * @type {Highcharts.PointSelectCallbackFunction} * @since 1.2.0 * @context Highcharts.Point * @apioption plotOptions.series.point.events.select */ /** * Fires when the point is unselected either programmatically or * following a click on the point. One parameter, `event`, is passed * to the function. * Returning `false` cancels the operation. * * @sample {highcharts} highcharts/plotoptions/series-point-events-unselect/ * Report the last unselected point * @sample {highmaps} maps/plotoptions/series-allowpointselect/ * Report select and unselect * * @type {Highcharts.PointUnselectCallbackFunction} * @since 1.2.0 * @context Highcharts.Point * @apioption plotOptions.series.point.events.unselect */ /** * Fires when the point is updated programmatically through the * `.update()` method. One parameter, `event`, is passed to the * function. The new point options can be accessed through * `event.options`. Returning `false` cancels the operation. * * @sample {highcharts} highcharts/plotoptions/series-point-events-update/ * Confirm point updating * * @type {Highcharts.PointUpdateCallbackFunction} * @since 1.2.0 * @context Highcharts.Point * @apioption plotOptions.series.point.events.update */ /** * Events for each single point. * * @declare Highcharts.PointEventsOptionsObject */ events: {} }, /** * Options for the series data labels, appearing next to each data * point. * * Since v6.2.0, multiple data labels can be applied to each single * point by defining them as an array of configs. * * In styled mode, the data labels can be styled with the * `.highcharts-data-label-box` and `.highcharts-data-label` class names * ([see example](https://www.highcharts.com/samples/highcharts/css/series-datalabels)). * * @sample {highcharts} highcharts/plotoptions/series-datalabels-enabled * Data labels enabled * @sample {highcharts} highcharts/plotoptions/series-datalabels-multiple * Multiple data labels on a bar series * @sample {highcharts} highcharts/css/series-datalabels * Styled mode example * @sample {highmaps} maps/demo/color-axis * Choropleth map with data labels * @sample {highmaps} maps/demo/mappoint-datalabels-mapmarker * Using data labels as map markers * * @type {*|Array<*>} * @product highcharts highstock highmaps gantt * * @private */ dataLabels: { /** * Enable or disable the initial animation when a series is displayed * for the `dataLabels`. The animation can also be set as a * configuration object. Please note that this option only applies to * the initial animation. * * For other animations, see [chart.animation](#chart.animation) and the * animation parameter under the API methods. The following properties * are supported: * * - `defer`: The animation delay time in milliseconds. * * @sample {highcharts} highcharts/plotoptions/animation-defer/ * Animation defer settings * * @type {boolean|Partial} * @since 8.2.0 * @apioption plotOptions.series.dataLabels.animation */ animation: {}, /** * The animation delay time in milliseconds. Set to `0` to render the * data labels immediately. As `undefined` inherits defer time from the * [series.animation.defer](#plotOptions.series.animation.defer). * * @type {number} * @since 8.2.0 * @apioption plotOptions.series.dataLabels.animation.defer */ /** * The alignment of the data label compared to the point. If `right`, * the right side of the label should be touching the point. For points * with an extent, like columns, the alignments also dictates how to * align it inside the box, as given with the * [inside](#plotOptions.column.dataLabels.inside) option. Can be one of * `left`, `center` or `right`. * * @sample {highcharts} * highcharts/plotoptions/series-datalabels-align-left/ Left * aligned * @sample {highcharts} * highcharts/plotoptions/bar-datalabels-align-inside-bar/ Data * labels inside the bar * * @type {Highcharts.AlignValue|null} */ align: 'center', /** * Whether to allow data labels to overlap. To make the labels less * sensitive for overlapping, the * [dataLabels.padding](#plotOptions.series.dataLabels.padding) * can be set to 0. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-allowoverlap-false/ * Don't allow overlap * * @type {boolean} * @default false * @since 4.1.0 * @apioption plotOptions.series.dataLabels.allowOverlap */ /** * The background color or gradient for the data label. Setting it to * `auto` will use the point's color. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-box/ * Data labels box options * @sample {highmaps} maps/plotoptions/series-datalabels-box/ * Data labels box options * @sample {highmaps} maps/demo/mappoint-datalabels-mapmarker * Data labels as map markers * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 2.2.1 * @apioption plotOptions.series.dataLabels.backgroundColor */ /** * The border color for the data label. Setting it to `auto` will use * the point's color. Defaults to `undefined`. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-box/ * Data labels box options * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 2.2.1 * @apioption plotOptions.series.dataLabels.borderColor */ /** * The border radius in pixels for the data label. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-box/ * Data labels box options * @sample {highmaps} maps/plotoptions/series-datalabels-box/ * Data labels box options * * @type {number} * @default 0 * @since 2.2.1 * @apioption plotOptions.series.dataLabels.borderRadius */ /** * The border width in pixels for the data label. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-box/ * Data labels box options * * @type {number} * @default 0 * @since 2.2.1 * @apioption plotOptions.series.dataLabels.borderWidth */ borderWidth: 0, /** * A class name for the data label. Particularly in styled mode, * this can be used to give each series' or point's data label * unique styling. In addition to this option, a default color class * name is added so that we can give the labels a contrast text * shadow. * * @sample {highcharts} highcharts/css/data-label-contrast/ * Contrast text shadow * @sample {highcharts} highcharts/css/series-datalabels/ * Styling by CSS * * @type {string} * @since 5.0.0 * @apioption plotOptions.series.dataLabels.className */ /** * This options is deprecated. * Use [style.color](#plotOptions.series.dataLabels.style) instead. * * The text color for the data labels. Defaults to `undefined`. For * certain series types, like column or map, the data labels can be * drawn inside the points. In this case the data label will be * drawn with maximum contrast by default. Additionally, it will be * given a `text-outline` style with the opposite color, to further * increase the contrast. This can be overridden by setting the * `text-outline` style to `none` in the `dataLabels.style` option. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-color/ * Red data labels * @sample {highmaps} maps/demo/color-axis/ * White data labels * * @see [style.color](#plotOptions.series.dataLabels.style) * * @type {Highcharts.ColorType} * @deprecated 10.3 * @apioption plotOptions.series.dataLabels.color */ /** * Whether to hide data labels that are outside the plot area. By * default, the data label is moved inside the plot area according * to the * [overflow](#plotOptions.series.dataLabels.overflow) * option. * * @type {boolean} * @default true * @since 2.3.3 * @apioption plotOptions.series.dataLabels.crop */ /** * Whether to defer displaying the data labels until the initial * series animation has finished. Setting to `false` renders the * data label immediately. If set to `true` inherits the defer * time set in [plotOptions.series.animation](#plotOptions.series.animation). * * @since 4.0.0 * @type {boolean} * @product highcharts highstock gantt */ defer: true, /** * Enable or disable the data labels. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-enabled/ * Data labels enabled * @sample {highmaps} maps/demo/color-axis/ * Data labels enabled * * @type {boolean} * @default false * @apioption plotOptions.series.dataLabels.enabled */ /** * A declarative filter to control of which data labels to display. * The declarative filter is designed for use when callback * functions are not available, like when the chart options require * a pure JSON structure or for use with graphical editors. For * programmatic control, use the `formatter` instead, and return * `undefined` to disable a single data label. * * @example * filter: { * property: 'percentage', * operator: '>', * value: 4 * } * * @sample {highcharts} highcharts/demo/pie-monochrome * Data labels filtered by percentage * * @declare Highcharts.DataLabelsFilterOptionsObject * @since 6.0.3 * @apioption plotOptions.series.dataLabels.filter */ /** * The operator to compare by. Can be one of `>`, `<`, `>=`, `<=`, * `==`, `===`, `!=` and `!==`. * * @type {string} * @validvalue [">", "<", ">=", "<=", "==", "===", "!=", "!=="] * @apioption plotOptions.series.dataLabels.filter.operator */ /** * The point property to filter by. Point options are passed * directly to properties, additionally there are `y` value, * `percentage` and others listed under {@link Highcharts.Point} * members. * * @type {string} * @apioption plotOptions.series.dataLabels.filter.property */ /** * The value to compare against. * * @type {number} * @apioption plotOptions.series.dataLabels.filter.value */ /** * A * [format string](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting) * for the data label. Available variables are the same as for * `formatter`. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-format/ * Add a unit * @sample {highcharts} highcharts/plotoptions/series-datalabels-format-subexpression/ * Complex logic in the format string * @sample {highmaps} maps/plotoptions/series-datalabels-format/ * Formatted value in the data label * * @type {string} * @default y * @default point.value * @since 3.0 * @apioption plotOptions.series.dataLabels.format */ // eslint-disable-next-line valid-jsdoc /** * Callback JavaScript function to format the data label. Note that if a * `format` is defined, the format takes precedence and the formatter is * ignored. * * @sample {highmaps} maps/plotoptions/series-datalabels-format/ * Formatted value * * @type {Highcharts.DataLabelsFormatterCallbackFunction} */ formatter: function () { const { numberFormatter } = this.series.chart; return typeof this.y !== 'number' ? '' : numberFormatter(this.y, -1); }, /** * For points with an extent, like columns or map areas, whether to * align the data label inside the box or to the actual value point. * Defaults to `false` in most cases, `true` in stacked columns. * * @type {boolean} * @since 3.0 * @apioption plotOptions.series.dataLabels.inside */ /** * Format for points with the value of null. Works analogously to * [format](#plotOptions.series.dataLabels.format). `nullFormat` can * be applied only to series which support displaying null points * i.e `heatmap` or `tilemap`. Does not work with series that don't * display null points, like `line`, `column`, `bar` or `pie`. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-nullformat/ * Format data label for null points in heat map * * @type {boolean|string} * @since 7.1.0 * @apioption plotOptions.series.dataLabels.nullFormat */ /** * Callback JavaScript function that defines formatting for points * with the value of null. Works analogously to * [formatter](#plotOptions.series.dataLabels.formatter). * `nullFormatter` can be applied only to series which support * displaying null points i.e `heatmap` or `tilemap`. Does not work * with series that don't display null points, like `line`, `column`, * `bar` or `pie`. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-nullformat/ * Format data label for null points in heat map * * @type {Highcharts.DataLabelsFormatterCallbackFunction} * @since 7.1.0 * @apioption plotOptions.series.dataLabels.nullFormatter */ /** * How to handle data labels that flow outside the plot area. The * default is `"justify"`, which aligns them inside the plot area. * For columns and bars, this means it will be moved inside the bar. * To display data labels outside the plot area, set `crop` to * `false` and `overflow` to `"allow"`. * * @type {Highcharts.DataLabelsOverflowValue} * @default justify * @since 3.0.6 * @apioption plotOptions.series.dataLabels.overflow */ /** * When either the `borderWidth` or the `backgroundColor` is set, * this is the padding within the box. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-box/ * Data labels box options * @sample {highmaps} maps/plotoptions/series-datalabels-box/ * Data labels box options * * @since 2.2.1 */ padding: 5, /** * Aligns data labels relative to points. If `center` alignment is * not possible, it defaults to `right`. * * @type {Highcharts.AlignValue} * @default center * @apioption plotOptions.series.dataLabels.position */ /** * Text rotation in degrees. Note that due to a more complex * structure, backgrounds, borders and padding will be lost on a * rotated data label. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-rotation/ * Vertical labels * * @type {number} * @default 0 * @apioption plotOptions.series.dataLabels.rotation */ /** * The shadow of the box. Works best with `borderWidth` or * `backgroundColor`. Since 2.3 the shadow can be an object * configuration containing `color`, `offsetX`, `offsetY`, `opacity` * and `width`. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-box/ * Data labels box options * * @type {boolean|Highcharts.ShadowOptionsObject} * @default false * @since 2.2.1 * @apioption plotOptions.series.dataLabels.shadow */ /** * The name of a symbol to use for the border around the label. * Symbols are predefined functions on the Renderer object. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-shape/ * A callout for annotations * * @type {string} * @default square * @since 4.1.2 * @apioption plotOptions.series.dataLabels.shape */ /** * Styles for the label. The default `color` setting is * `"contrast"`, which is a pseudo color that Highcharts picks up * and applies the maximum contrast to the underlying point item, * for example the bar in a bar chart. * * The `textOutline` is a pseudo property that applies an outline of * the given width with the given color, which by default is the * maximum contrast to the text. So a bright text color will result * in a black text outline for maximum readability on a mixed * background. In some cases, especially with grayscale text, the * text outline doesn't work well, in which cases it can be disabled * by setting it to `"none"`. When `useHTML` is true, the * `textOutline` will not be picked up. In this, case, the same * effect can be acheived through the `text-shadow` CSS property. * * For some series types, where each point has an extent, like for * example tree maps, the data label may overflow the point. There * are two strategies for handling overflow. By default, the text * will wrap to multiple lines. The other strategy is to set * `style.textOverflow` to `ellipsis`, which will keep the text on * one line plus it will break inside long words. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-style/ * Bold labels * @sample {highcharts} highcharts/plotoptions/pie-datalabels-overflow/ * Long labels truncated with an ellipsis in a pie * @sample {highcharts} highcharts/plotoptions/pie-datalabels-overflow-wrap/ * Long labels are wrapped in a pie * @sample {highmaps} maps/demo/color-axis/ * Bold labels * * @type {Highcharts.CSSObject} * @since 4.1.0 * @apioption plotOptions.series.dataLabels.style */ style: { /** @internal */ fontSize: '0.7em', /** @internal */ fontWeight: 'bold', /** @internal */ color: 'contrast', /** @internal */ textOutline: '1px contrast' }, /** * Options for a label text which should follow marker's shape. * Border and background are disabled for a label that follows a * path. * * **Note:** Only SVG-based renderer supports this option. Setting * `useHTML` to true will disable this option. * * @declare Highcharts.DataLabelsTextPathOptionsObject * @since 7.1.0 * @apioption plotOptions.series.dataLabels.textPath */ /** * Presentation attributes for the text path. * * @type {Highcharts.SVGAttributes} * @since 7.1.0 * @apioption plotOptions.series.dataLabels.textPath.attributes */ /** * Enable or disable `textPath` option for link's or marker's data * labels. * * @type {boolean} * @since 7.1.0 * @apioption plotOptions.series.dataLabels.textPath.enabled */ /** * Whether to * [use HTML](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting#html) * to render the labels. * * @type {boolean} * @default false * @apioption plotOptions.series.dataLabels.useHTML */ /** * The vertical alignment of a data label. Can be one of `top`, * `middle` or `bottom`. The default value depends on the data, for * instance in a column chart, the label is above positive values * and below negative values. * * @type {Highcharts.VerticalAlignValue|null} * @since 2.3.3 */ verticalAlign: 'bottom', /** * The x position offset of the label relative to the point in * pixels. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-rotation/ * Vertical and positioned * @sample {highcharts} highcharts/plotoptions/bar-datalabels-align-inside-bar/ * Data labels inside the bar */ x: 0, /** * The z index of the data labels. Use a `zIndex` of 6 to display it above * the series, or use a `zIndex` of 2 to display it behind the series. * * @type {number} * @default 6 * @since 2.3.5 * @apioption plotOptions.series.dataLabels.zIndex */ /** * The y position offset of the label relative to the point in * pixels. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-rotation/ * Vertical and positioned */ y: 0 }, /** * When the series contains less points than the crop threshold, all * points are drawn, even if the points fall outside the visible plot * area at the current zoom. The advantage of drawing all points * (including markers and columns), is that animation is performed on * updates. On the other hand, when the series contains more points than * the crop threshold, the series data is cropped to only contain points * that fall within the plot area. The advantage of cropping away * invisible points is to increase performance on large series. * * @since 2.2 * @product highcharts highstock * * @private */ cropThreshold: 300, /** * Opacity of a series parts: line, fill (e.g. area) and dataLabels. * * @see [states.inactive.opacity](#plotOptions.series.states.inactive.opacity) * * @since 7.1.0 * * @private */ opacity: 1, /** * The width of each point on the x axis. For example in a column chart * with one value each day, the pointRange would be 1 day (= 24 * 3600 * * 1000 milliseconds). This is normally computed automatically, but * this option can be used to override the automatic value. * * @product highstock * * @private */ pointRange: 0, /** * When this is true, the series will not cause the Y axis to cross * the zero plane (or [threshold](#plotOptions.series.threshold) option) * unless the data actually crosses the plane. * * For example, if `softThreshold` is `false`, a series of 0, 1, 2, * 3 will make the Y axis show negative values according to the * `minPadding` option. If `softThreshold` is `true`, the Y axis starts * at 0. * * @since 4.1.9 * @product highcharts highstock * * @private */ softThreshold: true, /** * @declare Highcharts.SeriesStatesOptionsObject * * @private */ states: { /** * The normal state of a series, or for point items in column, pie * and similar series. Currently only used for setting animation * when returning to normal state from hover. * * @declare Highcharts.SeriesStatesNormalOptionsObject */ normal: { /** * Animation when returning to normal state after hovering. * * @type {boolean|Partial} */ animation: true }, /** * Options for the hovered series. These settings override the * normal state options when a series is moused over or touched. * * @declare Highcharts.SeriesStatesHoverOptionsObject */ hover: { /** * Enable separate styles for the hovered series to visualize * that the user hovers either the series itself or the legend. * * @sample {highcharts} highcharts/plotoptions/series-states-hover-enabled/ * Line * @sample {highcharts} highcharts/plotoptions/series-states-hover-enabled-column/ * Column * @sample {highcharts} highcharts/plotoptions/series-states-hover-enabled-pie/ * Pie * * @type {boolean} * @default true * @since 1.2 * @apioption plotOptions.series.states.hover.enabled */ /** * Animation setting for hovering the graph in line-type series. * * @type {boolean|Partial} * @since 5.0.8 * @product highcharts highstock */ animation: { /** * The duration of the hover animation in milliseconds. By * default the hover state animates quickly in, and slowly * back to normal. * * @internal */ duration: 150 }, /** * Pixel width of the graph line. By default this property is * undefined, and the `lineWidthPlus` property dictates how much * to increase the linewidth from normal state. * * @sample {highcharts} highcharts/plotoptions/series-states-hover-linewidth/ * 5px line on hover * * @type {number} * @product highcharts highstock * @apioption plotOptions.series.states.hover.lineWidth */ /** * The additional line width for the graph of a hovered series. * * @sample {highcharts} highcharts/plotoptions/series-states-hover-linewidthplus/ * 5 pixels wider * @sample {highstock} highcharts/plotoptions/series-states-hover-linewidthplus/ * 5 pixels wider * * @since 4.0.3 * @product highcharts highstock */ lineWidthPlus: 1, /** * In Highcharts 1.0, the appearance of all markers belonging * to the hovered series. For settings on the hover state of the * individual point, see * [marker.states.hover](#plotOptions.series.marker.states.hover). * * @deprecated * * @extends plotOptions.series.marker * @excluding states, symbol * @product highcharts highstock */ marker: { // `lineWidth: base + 1`, // `radius: base + 1` }, /** * Options for the halo appearing around the hovered point in * line-type series as well as outside the hovered slice in pie * charts. By default the halo is filled by the current point or * series color with an opacity of 0.25\. The halo can be * disabled by setting the `halo` option to `null`. * * In styled mode, the halo is styled with the * `.highcharts-halo` class, with colors inherited from * `.highcharts-color-{n}`. * * @sample {highcharts} highcharts/plotoptions/halo/ * Halo options * @sample {highstock} highcharts/plotoptions/halo/ * Halo options * * @declare Highcharts.SeriesStatesHoverHaloOptionsObject * @type {null|*} * @since 4.0 * @product highcharts highstock */ halo: { /** * A collection of SVG attributes to override the appearance * of the halo, for example `fill`, `stroke` and * `stroke-width`. * * @type {Highcharts.SVGAttributes} * @since 4.0 * @product highcharts highstock * @apioption plotOptions.series.states.hover.halo.attributes */ /** * The pixel size of the halo. For point markers this is the * radius of the halo. For pie slices it is the width of the * halo outside the slice. For bubbles it defaults to 5 and * is the width of the halo outside the bubble. * * @since 4.0 * @product highcharts highstock */ size: 10, /** * Opacity for the halo unless a specific fill is overridden * using the `attributes` setting. Note that Highcharts is * only able to apply opacity to colors of hex or rgb(a) * formats. * * @since 4.0 * @product highcharts highstock */ opacity: 0.25 } }, /** * Specific options for point in selected states, after being * selected by * [allowPointSelect](#plotOptions.series.allowPointSelect) * or programmatically. * * @sample maps/plotoptions/series-allowpointselect/ * Allow point select demo * * @declare Highcharts.SeriesStatesSelectOptionsObject * @extends plotOptions.series.states.hover * @excluding brightness */ select: { animation: { /** @internal */ duration: 0 } }, /** * The opposite state of a hover for series. * * @sample highcharts/plotoptions/series-states-inactive-disabled * Disabled inactive state * * @declare Highcharts.SeriesStatesInactiveOptionsObject */ inactive: { /** * Enable or disable the inactive state for a series * * @sample highcharts/plotoptions/series-states-inactive-disabled * Disabled inactive state * * @type {boolean} * @default true * @apioption plotOptions.series.states.inactive.enabled */ /** * The animation for entering the inactive state. * * @type {boolean|Partial} */ animation: { /** @internal */ duration: 150 }, /** * Opacity of series elements (dataLabels, line, area). * * @type {number} */ opacity: 0.2 } }, /** * Sticky tracking of mouse events. When true, the `mouseOut` event on a * series isn't triggered until the mouse moves over another series, or * out of the plot area. When false, the `mouseOut` event on a series is * triggered when the mouse leaves the area around the series' graph or * markers. This also implies the tooltip when not shared. When * `stickyTracking` is false and `tooltip.shared` is false, the tooltip * will be hidden when moving the mouse between series. Defaults to true * for line and area type series, but to false for columns, pies etc. * * **Note:** The boost module will force this option because of * technical limitations. * * @sample {highcharts} highcharts/plotoptions/series-stickytracking-true/ * True by default * @sample {highcharts} highcharts/plotoptions/series-stickytracking-false/ * False * * @default {highcharts} true * @default {highstock} true * @default {highmaps} false * @since 2.0 * * @private */ stickyTracking: true, /** * A configuration object for the tooltip rendering of each single * series. Properties are inherited from [tooltip](#tooltip), but only * the following properties can be defined on a series level. * * @declare Highcharts.SeriesTooltipOptionsObject * @since 2.3 * @extends tooltip * @excluding animation, backgroundColor, borderColor, borderRadius, * borderWidth, className, crosshairs, enabled, formatter, * headerShape, hideDelay, outside, padding, positioner, * shadow, shape, shared, snap, split, stickOnContact, * style, useHTML * @apioption plotOptions.series.tooltip */ /** * When a series contains a data array that is longer than this, only * one dimensional arrays of numbers, or two dimensional arrays with * x and y values are allowed. Also, only the first point is tested, * and the rest are assumed to be the same format. This saves expensive * data checking and indexing in long series. Set it to `0` disable. * * Note: * In boost mode turbo threshold is forced. Only array of numbers or * two dimensional arrays are allowed. * * @since 2.2 * @product highcharts highstock gantt * * @private */ turboThreshold: 1000, /** * An array defining zones within a series. Zones can be applied to the * X axis, Y axis or Z axis for bubbles, according to the `zoneAxis` * option. The zone definitions have to be in ascending order regarding * to the value. * * In styled mode, the color zones are styled with the * `.highcharts-zone-{n}` class, or custom classed from the `className` * option * ([view live demo](https://jsfiddle.net/gh/get/library/pure/highcharts/highcharts/tree/master/samples/highcharts/css/color-zones/)). * * @see [zoneAxis](#plotOptions.series.zoneAxis) * * @sample {highcharts} highcharts/series/color-zones-simple/ * Color zones * @sample {highstock} highcharts/series/color-zones-simple/ * Color zones * * @declare Highcharts.SeriesZonesOptionsObject * @type {Array<*>} * @since 4.1.0 * @product highcharts highstock * @apioption plotOptions.series.zones */ /** * Styled mode only. A custom class name for the zone. * * @sample highcharts/css/color-zones/ * Zones styled by class name * * @type {string} * @since 5.0.0 * @apioption plotOptions.series.zones.className */ /** * Defines the color of the series. * * @see [series color](#plotOptions.series.color) * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 4.1.0 * @product highcharts highstock * @apioption plotOptions.series.zones.color */ /** * A name for the dash style to use for the graph. * * @see [plotOptions.series.dashStyle](#plotOptions.series.dashStyle) * * @sample {highcharts|highstock} highcharts/series/color-zones-dashstyle-dot/ * Dashed line indicates prognosis * * @type {Highcharts.DashStyleValue} * @since 4.1.0 * @product highcharts highstock * @apioption plotOptions.series.zones.dashStyle */ /** * Defines the fill color for the series (in area type series) * * @see [fillColor](#plotOptions.area.fillColor) * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 4.1.0 * @product highcharts highstock * @apioption plotOptions.series.zones.fillColor */ /** * The value up to where the zone extends, if undefined the zones * stretches to the last value in the series. * * @type {number} * @since 4.1.0 * @product highcharts highstock * @apioption plotOptions.series.zones.value */ /** * When using dual or multiple color axes, this number defines which * colorAxis the particular series is connected to. It refers to * either the * {@link #colorAxis.id|axis id} * or the index of the axis in the colorAxis array, with 0 being the * first. Set this option to false to prevent a series from connecting * to the default color axis. * * Since v7.2.0 the option can also be an axis id or an axis index * instead of a boolean flag. * * @sample highcharts/coloraxis/coloraxis-with-pie/ * Color axis with pie series * @sample highcharts/coloraxis/multiple-coloraxis/ * Multiple color axis * * @type {number|string|boolean} * @default 0 * @product highcharts highstock highmaps * @apioption plotOptions.series.colorAxis */ /** * Determines what data value should be used to calculate point color * if `colorAxis` is used. Requires to set `min` and `max` if some * custom point property is used or if approximation for data grouping * is set to `'sum'`. * * @sample highcharts/coloraxis/custom-color-key/ * Custom color key * @sample highcharts/coloraxis/color-key-with-stops/ * Custom colorKey with color axis stops * @sample highcharts/coloraxis/changed-default-color-key/ * Changed default color key * * @type {string} * @default y * @since 7.2.0 * @product highcharts highstock highmaps * @apioption plotOptions.series.colorKey */ /** * What type of legend symbol to render for this series. Can be one of * `areaMarker`, `lineMarker` or `rectangle`. * * @validvalue ["areaMarker", "lineMarker", "rectangle"] * * @sample {highcharts} highcharts/series/legend-symbol/ * Change the legend symbol * * @type {string} * @default rectangle * @since 11.0.1 * @apioption plotOptions.series.legendSymbol */ /** * Determines whether the series should look for the nearest point * in both dimensions or just the x-dimension when hovering the series. * Defaults to `'xy'` for scatter series and `'x'` for most other * series. If the data has duplicate x-values, it is recommended to * set this to `'xy'` to allow hovering over all points. * * Applies only to series types using nearest neighbor search (not * direct hover) for tooltip. * * @sample {highcharts} highcharts/series/findnearestpointby/ * Different hover behaviors * @sample {highstock} highcharts/series/findnearestpointby/ * Different hover behaviors * @sample {highmaps} highcharts/series/findnearestpointby/ * Different hover behaviors * * @since 5.0.10 * @validvalue ["x", "xy"] * * @private */ findNearestPointBy: 'x' }; /* * * * Default Export * * */ return seriesDefaults; }); _registerModule(_modules, 'Core/Series/SeriesRegistry.js', [_modules['Core/Globals.js'], _modules['Core/Defaults.js'], _modules['Core/Series/Point.js'], _modules['Core/Utilities.js']], function (H, D, Point, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defaultOptions } = D; const { extend, extendClass, merge } = U; /* * * * Namespace * * */ var SeriesRegistry; (function (SeriesRegistry) { /* * * * Properties * * */ /** * @internal * @todo Move `Globals.seriesTypes` code to her. */ SeriesRegistry.seriesTypes = H.seriesTypes; /* * * * Functions * * */ /** * Registers class pattern of a series. * * @private */ function registerSeriesType(seriesType, SeriesClass) { const defaultPlotOptions = defaultOptions.plotOptions || {}, seriesOptions = SeriesClass.defaultOptions, seriesProto = SeriesClass.prototype; seriesProto.type = seriesType; if (!seriesProto.pointClass) { seriesProto.pointClass = Point; } if (SeriesRegistry.seriesTypes[seriesType]) { return false; } if (seriesOptions) { defaultPlotOptions[seriesType] = seriesOptions; } SeriesRegistry.seriesTypes[seriesType] = SeriesClass; return true; } SeriesRegistry.registerSeriesType = registerSeriesType; /** * Old factory to create new series prototypes. * * @deprecated * @function Highcharts.seriesType * * @param {string} type * The series type name. * * @param {string} parent * The parent series type name. Use `line` to inherit from the basic * {@link Series} object. * * @param {Highcharts.SeriesOptionsType|Highcharts.Dictionary<*>} options * The additional default options that are merged with the parent's options. * * @param {Highcharts.Dictionary<*>} [props] * The properties (functions and primitives) to set on the new prototype. * * @param {Highcharts.Dictionary<*>} [pointProps] * Members for a series-specific extension of the {@link Point} prototype if * needed. * * @return {Highcharts.Series} * The newly created prototype as extended from {@link Series} or its * derivatives. */ function seriesType(type, parent, options, seriesProto, pointProto) { const defaultPlotOptions = defaultOptions.plotOptions || {}; parent = parent || ''; // Merge the options defaultPlotOptions[type] = merge(defaultPlotOptions[parent], options); // Create the class delete SeriesRegistry.seriesTypes[type]; registerSeriesType(type, extendClass(SeriesRegistry.seriesTypes[parent] || function () { }, seriesProto)); SeriesRegistry.seriesTypes[type].prototype.type = type; // Create the point class if needed if (pointProto) { class PointClass extends Point { } extend(PointClass.prototype, pointProto); SeriesRegistry.seriesTypes[type].prototype.pointClass = PointClass; } return SeriesRegistry.seriesTypes[type]; } SeriesRegistry.seriesType = seriesType; })(SeriesRegistry || (SeriesRegistry = {})); /* * * * Default Export * * */ return SeriesRegistry; }); _registerModule(_modules, 'Core/Series/Series.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Defaults.js'], _modules['Core/Foundation.js'], _modules['Core/Globals.js'], _modules['Core/Legend/LegendSymbol.js'], _modules['Core/Series/Point.js'], _modules['Core/Series/SeriesDefaults.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Renderer/SVG/SVGElement.js'], _modules['Core/Utilities.js']], function (A, D, F, H, LegendSymbol, Point, SeriesDefaults, SeriesRegistry, SVGElement, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { animObject, setAnimation } = A; const { defaultOptions } = D; const { registerEventOptions } = F; const { svg, win } = H; const { seriesTypes } = SeriesRegistry; const { arrayMax, arrayMin, clamp, correctFloat, defined, destroyObjectProperties, diffObjects, erase, error, extend, find, fireEvent, getClosestDistance, getNestedProperty, insertItem, isArray, isNumber, isString, merge, objectEach, pick, removeEvent, splat, syncTimeout } = U; /* * * * Class * * */ /** * This is the base series prototype that all other series types inherit from. * A new series is initialized either through the * [series](https://api.highcharts.com/highcharts/series) * option structure, or after the chart is initialized, through * {@link Highcharts.Chart#addSeries}. * * The object can be accessed in a number of ways. All series and point event * handlers give a reference to the `series` object. The chart object has a * {@link Highcharts.Chart#series|series} property that is a collection of all * the chart's series. The point objects and axis objects also have the same * reference. * * Another way to reference the series programmatically is by `id`. Add an id * in the series configuration options, and get the series object by * {@link Highcharts.Chart#get}. * * Configuration options for the series are given in three levels. Options for * all series in a chart are given in the * [plotOptions.series](https://api.highcharts.com/highcharts/plotOptions.series) * object. Then options for all series of a specific type * are given in the plotOptions of that type, for example `plotOptions.line`. * Next, options for one single series are given in the series array, or as * arguments to `chart.addSeries`. * * 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 y values, * equivalent to `series.data` and `series.points`. * * @class * @name Highcharts.Series * * @param {Highcharts.Chart} chart * The chart instance. * * @param {Highcharts.SeriesOptionsType|object} options * The series options. */ class Series { constructor() { /* * * * Static Properties * * */ this.zoneAxis = 'y'; // eslint-enable valid-jsdoc } /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ init(chart, userOptions) { fireEvent(this, 'init', { options: userOptions }); const series = this, chartSeries = chart.series; // The 'eventsToUnbind' property moved from prototype into the // Series init to avoid reference to the same array between // the different series and charts. #12959, #13937 this.eventsToUnbind = []; /** * Read only. The chart that the series belongs to. * * @name Highcharts.Series#chart * @type {Highcharts.Chart} */ series.chart = chart; /** * Read only. The series' type, like "line", "area", "column" etc. * The type in the series options anc can be altered using * {@link Series#update}. * * @name Highcharts.Series#type * @type {string} */ /** * Read only. The series' current options. To update, use * {@link Series#update}. * * @name Highcharts.Series#options * @type {Highcharts.SeriesOptionsType} */ series.options = series.setOptions(userOptions); const options = series.options, visible = options.visible !== false; /** * All child series that are linked to the current series through the * [linkedTo](https://api.highcharts.com/highcharts/series.line.linkedTo) * option. * * @name Highcharts.Series#linkedSeries * @type {Array} * @readonly */ series.linkedSeries = []; // Bind the axes series.bindAxes(); extend(series, { /** * The series name as given in the options. Defaults to * "Series {n}". * * @name Highcharts.Series#name * @type {string} */ name: options.name, state: '', /** * Read only. The series' visibility state as set by {@link * Series#show}, {@link Series#hide}, or in the initial * configuration. * * @name Highcharts.Series#visible * @type {boolean} */ visible, /** * Read only. The series' selected state as set by {@link * Highcharts.Series#select}. * * @name Highcharts.Series#selected * @type {boolean} */ selected: options.selected === true // False by default }); registerEventOptions(this, options); const events = options.events; if ((events && events.click) || (options.point && options.point.events && options.point.events.click) || options.allowPointSelect) { chart.runTrackerClick = true; } series.getColor(); series.getSymbol(); // Initialize the parallel data arrays series.parallelArrays.forEach(function (key) { if (!series[key + 'Data']) { series[key + 'Data'] = []; } }); // Mark cartesian if (series.isCartesian) { chart.hasCartesianSeries = true; } // Get the index and register the series in the chart. The index is // one more than the current latest series index (#5960). let lastSeries; if (chartSeries.length) { lastSeries = chartSeries[chartSeries.length - 1]; } series._i = pick(lastSeries && lastSeries._i, -1) + 1; series.opacity = series.options.opacity; // Insert the series and re-order all series above the insertion // point. chart.orderItems('series', insertItem(this, chartSeries)); // Set options for series with sorting and set data later. if (options.dataSorting && options.dataSorting.enabled) { series.setDataSortingOptions(); } else if (!series.points && !series.data) { series.setData(options.data, false); } fireEvent(this, 'afterInit'); } /** * Check whether the series item is itself or inherits from a certain * series type. * * @function Highcharts.Series#is * @param {string} type The type of series to check for, can be either * featured or custom series types. For example `column`, `pie`, * `ohlc` etc. * * @return {boolean} * True if this item is or inherits from the given type. */ is(type) { return seriesTypes[type] && this instanceof seriesTypes[type]; } /** * Set the xAxis and yAxis properties of cartesian series, and register * the series in the `axis.series` array. * * @private * @function Highcharts.Series#bindAxes */ bindAxes() { const series = this, seriesOptions = series.options, chart = series.chart; let axisOptions; fireEvent(this, 'bindAxes', null, function () { // Repeat for xAxis and yAxis (series.axisTypes || []).forEach(function (coll) { // Loop through the chart's axis objects (chart[coll] || []).forEach(function (axis) { axisOptions = axis.options; // Apply if the series xAxis or yAxis option matches // the number of the axis, or if undefined, use the // first axis if (pick(seriesOptions[coll], 0) === axis.index || (typeof seriesOptions[coll] !== 'undefined' && seriesOptions[coll] === axisOptions.id)) { // Register this series in the axis.series lookup insertItem(series, axis.series); // Set this series.xAxis or series.yAxis reference /** * Read only. The unique xAxis object associated * with the series. * * @name Highcharts.Series#xAxis * @type {Highcharts.Axis} */ /** * Read only. The unique yAxis object associated * with the series. * * @name Highcharts.Series#yAxis * @type {Highcharts.Axis} */ series[coll] = axis; // Mark dirty for redraw axis.isDirty = true; } }); // The series needs an X and an Y axis if (!series[coll] && series.optionalAxis !== coll) { error(18, true, chart); } }); }); fireEvent(this, 'afterBindAxes'); } /** * For simple series types like line and column, the data values are * held in arrays like xData and yData for quick lookup to find extremes * and more. For multidimensional series like bubble and map, this can * be extended with arrays like zData and valueData by adding to the * `series.parallelArrays` array. * * @private * @function Highcharts.Series#updateParallelArrays */ updateParallelArrays(point, i, iArgs) { const series = point.series, fn = isNumber(i) ? // Insert the value in the given position function (key) { const val = key === 'y' && series.toYData ? series.toYData(point) : point[key]; series[key + 'Data'][i] = val; } : // Apply the method specified in i with the following // arguments as arguments function (key) { Array.prototype[i].apply(series[key + 'Data'], iArgs); }; series.parallelArrays.forEach(fn); } /** * Define hasData functions for series. These return true if there * are data points on this series within the plot area. * * @private * @function Highcharts.Series#hasData */ hasData() { return ((this.visible && typeof this.dataMax !== 'undefined' && typeof this.dataMin !== 'undefined') || ( // #3703 this.visible && this.yData && this.yData.length > 0) // #9758 ); } /** * Determine whether the marker in a series has changed. * * @private * @function Highcharts.Series#hasMarkerChanged */ hasMarkerChanged(options, oldOptions) { const marker = options.marker, oldMarker = oldOptions.marker || {}; return marker && ((oldMarker.enabled && !marker.enabled) || oldMarker.symbol !== marker.symbol || // #10870, #15946 oldMarker.height !== marker.height || // #16274 oldMarker.width !== marker.width // #16274 ); } /** * 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. * * @private * @function Highcharts.Series#autoIncrement */ autoIncrement(x) { const options = this.options, pointIntervalUnit = options.pointIntervalUnit, relativeXValue = options.relativeXValue, time = this.chart.time; let xIncrement = this.xIncrement, date, pointInterval; xIncrement = pick(xIncrement, options.pointStart, 0); this.pointInterval = pointInterval = pick(this.pointInterval, options.pointInterval, 1); if (relativeXValue && isNumber(x)) { pointInterval *= x; } // Added code for pointInterval strings if (pointIntervalUnit) { date = new time.Date(xIncrement); if (pointIntervalUnit === 'day') { time.set('Date', date, time.get('Date', date) + pointInterval); } else if (pointIntervalUnit === 'month') { time.set('Month', date, time.get('Month', date) + pointInterval); } else if (pointIntervalUnit === 'year') { time.set('FullYear', date, time.get('FullYear', date) + pointInterval); } pointInterval = date.getTime() - xIncrement; } if (relativeXValue && isNumber(x)) { return xIncrement + pointInterval; } this.xIncrement = xIncrement + pointInterval; return xIncrement; } /** * Internal function to set properties for series if data sorting is * enabled. * * @private * @function Highcharts.Series#setDataSortingOptions */ setDataSortingOptions() { const options = this.options; extend(this, { requireSorting: false, sorted: false, enabledDataSorting: true, allowDG: false }); // To allow unsorted data for column series. if (!defined(options.pointRange)) { options.pointRange = 1; } } /** * Set the series options by merging from the options tree. Called * internally on initializing and updating series. This function will * not redraw the series. For API usage, use {@link Series#update}. * @private * @function Highcharts.Series#setOptions * @param {Highcharts.SeriesOptionsType} itemOptions * The series options. * @emits Highcharts.Series#event:afterSetOptions */ setOptions(itemOptions) { const chart = this.chart, chartOptions = chart.options, plotOptions = chartOptions.plotOptions, userOptions = chart.userOptions || {}, seriesUserOptions = merge(itemOptions), styledMode = chart.styledMode, e = { plotOptions: plotOptions, userOptions: seriesUserOptions }; let zone; fireEvent(this, 'setOptions', e); // These may be modified by the event const typeOptions = e.plotOptions[this.type], userPlotOptions = (userOptions.plotOptions || {}), userPlotOptionsSeries = userPlotOptions.series || {}, defaultPlotOptionsType = (defaultOptions.plotOptions[this.type] || {}), userPlotOptionsType = userPlotOptions[this.type] || {}; // Use copy to prevent undetected changes (#9762) /** * Contains series options by the user without defaults. * @name Highcharts.Series#userOptions * @type {Highcharts.SeriesOptionsType} */ this.userOptions = e.userOptions; const options = merge(typeOptions, plotOptions.series, // #3881, chart instance plotOptions[type] should trump // plotOptions.series userPlotOptionsType, seriesUserOptions); // The tooltip options are merged between global and series specific // options. Importance order asscendingly: // globals: (1)tooltip, (2)plotOptions.series, // (3)plotOptions[this.type] // init userOptions with possible later updates: 4-6 like 1-3 and // (7)this series options this.tooltipOptions = merge(defaultOptions.tooltip, // 1 defaultOptions.plotOptions.series?.tooltip, // 2 defaultPlotOptionsType?.tooltip, // 3 chart.userOptions.tooltip, // 4 userPlotOptions.series?.tooltip, // 5 userPlotOptionsType.tooltip, // 6 seriesUserOptions.tooltip // 7 ); // When shared tooltip, stickyTracking is true by default, // unless user says otherwise. this.stickyTracking = pick(seriesUserOptions.stickyTracking, userPlotOptionsType.stickyTracking, userPlotOptionsSeries.stickyTracking, (this.tooltipOptions.shared && !this.noSharedTooltip ? true : options.stickyTracking)); // Delete marker object if not allowed (#1125) if (typeOptions.marker === null) { delete options.marker; } // Handle color zones this.zoneAxis = options.zoneAxis || 'y'; const zones = this.zones = // #20440, create deep copy of zones options (options.zones || []).map((z) => ({ ...z })); if ((options.negativeColor || options.negativeFillColor) && !options.zones) { zone = { value: options[this.zoneAxis + 'Threshold'] || options.threshold || 0, className: 'highcharts-negative' }; if (!styledMode) { zone.color = options.negativeColor; zone.fillColor = options.negativeFillColor; } zones.push(zone); } // Push one extra zone for the rest if (zones.length && defined(zones[zones.length - 1].value)) { zones.push(styledMode ? {} : { color: this.color, fillColor: this.fillColor }); } fireEvent(this, 'afterSetOptions', { options: options }); return options; } /** * Return series name in "Series {Number}" format or the one defined by * a user. This method can be simply overridden as series name format * can vary (e.g. technical indicators). * * @function Highcharts.Series#getName * * @return {string} * The series name. */ getName() { // #4119 return pick(this.options.name, 'Series ' + (this.index + 1)); } /** * @private * @function Highcharts.Series#getCyclic */ getCyclic(prop, value, defaults) { const chart = this.chart, indexName = `${prop}Index`, counterName = `${prop}Counter`, len = ( // Symbol count defaults?.length || // Color count chart.options.chart.colorCount); let i, setting; if (!value) { // Pick up either the colorIndex option, or the series.colorIndex // after Series.update() setting = pick(prop === 'color' ? this.options.colorIndex : void 0, this[indexName]); if (defined(setting)) { // After Series.update() i = setting; } else { // #6138 if (!chart.series.length) { chart[counterName] = 0; } i = chart[counterName] % len; chart[counterName] += 1; } if (defaults) { value = defaults[i]; } } // Set the colorIndex if (typeof i !== 'undefined') { this[indexName] = i; } this[prop] = value; } /** * Get the series' color based on either the options or pulled from * global options. * * @private * @function Highcharts.Series#getColor */ getColor() { if (this.chart.styledMode) { this.getCyclic('color'); } else if (this.options.colorByPoint) { this.color = "#cccccc" /* Palette.neutralColor20 */; } else { this.getCyclic('color', this.options.color || defaultOptions.plotOptions[this.type].color, this.chart.options.colors); } } /** * Get all points' instances created for this series. * * @private * @function Highcharts.Series#getPointsCollection */ getPointsCollection() { return (this.hasGroupedData ? this.points : this.data) || []; } /** * Get the series' symbol based on either the options or pulled from * global options. * * @private * @function Highcharts.Series#getSymbol */ getSymbol() { const seriesMarkerOption = this.options.marker; this.getCyclic('symbol', seriesMarkerOption.symbol, this.chart.options.symbols); } /** * Finds the index of an existing point that matches the given point * options. * * @private * @function Highcharts.Series#findPointIndex * @param {Highcharts.PointOptionsObject} optionsObject * The options of the point. * @param {number} fromIndex * The index to start searching from, used for optimizing series with * required sorting. * @return {number|undefined} * Returns the index of a matching point, or undefined if no match is found. */ findPointIndex(optionsObject, fromIndex) { const id = optionsObject.id, x = optionsObject.x, oldData = this.points, dataSorting = this.options.dataSorting; let matchingPoint, matchedById, pointIndex; if (id) { const item = this.chart.get(id); if (item instanceof Point) { matchingPoint = item; } } else if (this.linkedParent || this.enabledDataSorting || this.options.relativeXValue) { let matcher = (oldPoint) => !oldPoint.touched && oldPoint.index === optionsObject.index; if (dataSorting && dataSorting.matchByName) { matcher = (oldPoint) => !oldPoint.touched && oldPoint.name === optionsObject.name; } else if (this.options.relativeXValue) { matcher = (oldPoint) => !oldPoint.touched && oldPoint.options.x === optionsObject.x; } matchingPoint = find(oldData, matcher); // Add unmatched point as a new point if (!matchingPoint) { return void 0; } } if (matchingPoint) { pointIndex = matchingPoint && matchingPoint.index; if (typeof pointIndex !== 'undefined') { matchedById = true; } } // Search for the same X in the existing data set if (typeof pointIndex === 'undefined' && isNumber(x)) { pointIndex = this.xData.indexOf(x, fromIndex); } // Reduce pointIndex if data is cropped if (pointIndex !== -1 && typeof pointIndex !== 'undefined' && this.cropped) { pointIndex = (pointIndex >= this.cropStart) ? pointIndex - this.cropStart : pointIndex; } if (!matchedById && isNumber(pointIndex) && oldData[pointIndex] && oldData[pointIndex].touched) { pointIndex = void 0; } return pointIndex; } /** * Internal function called from setData. If the point count is the same * as it was, or if there are overlapping X values, just run * Point.update which is cheaper, allows animation, and keeps references * to points. This also allows adding or removing points if the X-es * don't match. * * @private * @function Highcharts.Series#updateData */ updateData(data, animation) { const options = this.options, dataSorting = options.dataSorting, oldData = this.points, pointsToAdd = [], requireSorting = this.requireSorting, equalLength = data.length === oldData.length; let hasUpdatedByKey, i, point, lastIndex, succeeded = true; this.xIncrement = null; // Iterate the new data data.forEach(function (pointOptions, i) { const optionsObject = (defined(pointOptions) && this.pointClass.prototype.optionsToObject.call({ series: this }, pointOptions)) || {}; let pointIndex; // Get the x of the new data point const x = optionsObject.x, id = optionsObject.id; if (id || isNumber(x)) { pointIndex = this.findPointIndex(optionsObject, lastIndex); // Matching X not found // or used already due to ununique x values (#8995), // add point (but later) if (pointIndex === -1 || typeof pointIndex === 'undefined') { pointsToAdd.push(pointOptions); // Matching X found, update } else if (oldData[pointIndex] && pointOptions !== options.data[pointIndex]) { oldData[pointIndex].update(pointOptions, false, null, false); // Mark it touched, below we will remove all points that // are not touched. oldData[pointIndex].touched = true; // Speed optimize by only searching after last known // index. Performs ~20% bettor on large data sets. if (requireSorting) { lastIndex = pointIndex + 1; } // Point exists, no changes, don't remove it } else if (oldData[pointIndex]) { oldData[pointIndex].touched = true; } // If the length is equal and some of the nodes had a // match in the same position, we don't want to remove // non-matches. if (!equalLength || i !== pointIndex || (dataSorting && dataSorting.enabled) || this.hasDerivedData) { hasUpdatedByKey = true; } } else { // Gather all points that are not matched pointsToAdd.push(pointOptions); } }, this); // Remove points that don't exist in the updated data set if (hasUpdatedByKey) { i = oldData.length; while (i--) { point = oldData[i]; if (point && !point.touched && point.remove) { point.remove(false, animation); } } // If we did not find keys (ids or x-values), and the length is the // same, update one-to-one } else if (equalLength && (!dataSorting || !dataSorting.enabled)) { data.forEach(function (point, i) { // .update doesn't exist on a linked, hidden series (#3709) // (#10187) if (point !== oldData[i].y && !oldData[i].destroyed) { oldData[i].update(point, false, null, false); } }); // Don't add new points since those configs are used above pointsToAdd.length = 0; // Did not succeed in updating data } else { succeeded = false; } oldData.forEach(function (point) { if (point) { point.touched = false; } }); if (!succeeded) { return false; } // Add new points pointsToAdd.forEach(function (point) { this.addPoint(point, false, null, null, false); }, this); if (this.xIncrement === null && this.xData && this.xData.length) { this.xIncrement = arrayMax(this.xData); this.autoIncrement(); } return true; } /** * Apply a new set of data to the series and optionally redraw it. The * new data array is passed by reference (except in case of * `updatePoints`), and may later be mutated when updating the chart * data. * * Note the difference in behaviour when setting the same amount of * points, or a different amount of points, as handled by the * `updatePoints` parameter. * * @sample highcharts/members/series-setdata/ * Set new data from a button * @sample highcharts/members/series-setdata-pie/ * Set data in a pie * @sample stock/members/series-setdata/ * Set new data in Highcharts Stock * @sample maps/members/series-setdata/ * Set new data in Highmaps * * @function Highcharts.Series#setData * * @param {Array} data * Takes an array of data in the same format as described under * `series.{type}.data` for the given series type, for example a * line series would take data in the form described under * [series.line.data](https://api.highcharts.com/highcharts/series.line.data). * * @param {boolean} [redraw=true] * Whether to redraw the chart after the series is altered. If * doing more operations on the chart, it is a good idea to set * redraw to false and call {@link Chart#redraw} after. * * @param {boolean|Partial} [animation] * When the updated data is the same length as the existing data, * points will be updated by default, and animation visualizes * how the points are changed. Set false to disable animation, or * a configuration object to set duration or easing. * * @param {boolean} [updatePoints=true] * When this is true, points will be updated instead of replaced * whenever possible. This occurs a) when the updated data is the * same length as the existing data, b) when points are matched * by their id's, or c) when points can be matched by X values. * This allows updating with animation and performs better. In * this case, the original array is not passed by reference. Set * `false` to prevent. */ setData(data, redraw = true, animation, updatePoints) { const series = this, oldData = series.points, oldDataLength = (oldData && oldData.length) || 0, options = series.options, chart = series.chart, dataSorting = options.dataSorting, xAxis = series.xAxis, turboThreshold = options.turboThreshold, xData = this.xData, yData = this.yData, pointArrayMap = series.pointArrayMap, valueCount = pointArrayMap && pointArrayMap.length, keys = options.keys; let i, pt, updatedData, indexOfX = 0, indexOfY = 1, firstPoint = null, copiedData; if (!chart.options.chart.allowMutatingData) { // #4259 // Remove old reference if (options.data) { delete series.options.data; } if (series.userOptions.data) { delete series.userOptions.data; } copiedData = merge(true, data); } data = copiedData || data || []; const dataLength = data.length; if (dataSorting && dataSorting.enabled) { data = this.sortData(data); } // First try to run Point.update which is cheaper, allows animation, // and keeps references to points. if (chart.options.chart.allowMutatingData && updatePoints !== false && dataLength && oldDataLength && !series.cropped && !series.hasGroupedData && series.visible && // Soft updating has no benefit in boost, and causes JS error // (#8355) !series.boosted) { updatedData = this.updateData(data, animation); } if (!updatedData) { // Reset properties series.xIncrement = null; series.colorCounter = 0; // For series with colorByPoint (#1547) // Update parallel arrays this.parallelArrays.forEach(function (key) { series[key + 'Data'].length = 0; }); // In turbo mode, only one- or twodimensional arrays of numbers // are allowed. The first value is tested, and we assume that // all the rest are defined the same way. Although the 'for' // loops are similar, they are repeated inside each if-else // conditional for max performance. if (turboThreshold && dataLength > turboThreshold) { firstPoint = series.getFirstValidPoint(data); if (isNumber(firstPoint)) { // Assume all points are numbers for (i = 0; i < dataLength; i++) { xData[i] = this.autoIncrement(); yData[i] = data[i]; } // Assume all points are arrays when first point is } else if (isArray(firstPoint)) { if (valueCount) { // [x, low, high] or [x, o, h, l, c] if (firstPoint.length === valueCount) { for (i = 0; i < dataLength; i++) { xData[i] = this.autoIncrement(); yData[i] = data[i]; } } else { for (i = 0; i < dataLength; i++) { pt = data[i]; xData[i] = pt[0]; yData[i] = pt.slice(1, valueCount + 1); } } } else { // [x, y] if (keys) { indexOfX = keys.indexOf('x'); indexOfY = keys.indexOf('y'); indexOfX = indexOfX >= 0 ? indexOfX : 0; indexOfY = indexOfY >= 0 ? indexOfY : 1; } if (firstPoint.length === 1) { indexOfY = 0; } if (indexOfX === indexOfY) { for (i = 0; i < dataLength; i++) { xData[i] = this.autoIncrement(); yData[i] = data[i][indexOfY]; } } else { for (i = 0; i < dataLength; i++) { pt = data[i]; xData[i] = pt[indexOfX]; yData[i] = pt[indexOfY]; } } } } else { // Highcharts expects configs to be numbers or arrays in // turbo mode error(12, false, chart); } } else { for (i = 0; i < dataLength; i++) { pt = { series: series }; series.pointClass.prototype.applyOptions.apply(pt, [data[i]]); series.updateParallelArrays(pt, i); } } // Forgetting to cast strings to numbers is a common caveat when // handling CSV or JSON if (yData && isString(yData[0])) { error(14, true, chart); } series.data = []; series.options.data = series.userOptions.data = data; // Destroy old points i = oldDataLength; while (i--) { oldData[i]?.destroy(); } // Reset minRange (#878) if (xAxis) { xAxis.minRange = xAxis.userMinRange; } // Redraw series.isDirty = chart.isDirtyBox = true; series.isDirtyData = !!oldData; animation = false; } // Typically for pie series, points need to be processed and // generated prior to rendering the legend if (options.legendType === 'point') { this.processData(); this.generatePoints(); } if (redraw) { chart.redraw(animation); } } /** * Internal function to sort series data * * @private * @function Highcharts.Series#sortData * @param {Array} data * Force data grouping. */ sortData(data) { const series = this, options = series.options, dataSorting = options.dataSorting, sortKey = dataSorting.sortKey || 'y', getPointOptionsObject = function (series, pointOptions) { return (defined(pointOptions) && series.pointClass.prototype.optionsToObject.call({ series: series }, pointOptions)) || {}; }; data.forEach(function (pointOptions, i) { data[i] = getPointOptionsObject(series, pointOptions); data[i].index = i; }, this); // Sorting const sortedData = data.concat().sort((a, b) => { const aValue = getNestedProperty(sortKey, a); const bValue = getNestedProperty(sortKey, b); return bValue < aValue ? -1 : bValue > aValue ? 1 : 0; }); // Set x value depending on the position in the array sortedData.forEach(function (point, i) { point.x = i; }, this); // Set the same x for linked series points if they don't have their // own sorting if (series.linkedSeries) { series.linkedSeries.forEach(function (linkedSeries) { const options = linkedSeries.options, seriesData = options.data; if ((!options.dataSorting || !options.dataSorting.enabled) && seriesData) { seriesData.forEach(function (pointOptions, i) { seriesData[i] = getPointOptionsObject(linkedSeries, pointOptions); if (data[i]) { seriesData[i].x = data[i].x; seriesData[i].index = i; } }); linkedSeries.setData(seriesData, false); } }); } return data; } /** * Internal function to process the data by cropping away unused data * points if the series is longer than the crop threshold. This saves * computing time for large series. * * @private * @function Highcharts.Series#getProcessedData * @param {boolean} [forceExtremesFromAll] * Force getting extremes of a total series data range. */ getProcessedData(forceExtremesFromAll) { const series = this, xAxis = series.xAxis, options = series.options, cropThreshold = options.cropThreshold, getExtremesFromAll = forceExtremesFromAll || series.getExtremesFromAll || options.getExtremesFromAll, // #4599 logarithmic = xAxis?.logarithmic, isCartesian = series.isCartesian; let croppedData, cropped, cropStart = 0, xExtremes, min, max, // Copied during slice operation: processedXData = series.xData, processedYData = series.yData, updatingNames = false; const dataLength = processedXData.length; if (xAxis) { // Corrected for log axis (#3053) xExtremes = xAxis.getExtremes(); min = xExtremes.min; max = xExtremes.max; updatingNames = !!(xAxis.categories && !xAxis.names.length); } // Optionally filter out points outside the plot area if (isCartesian && series.sorted && !getExtremesFromAll && (!cropThreshold || dataLength > cropThreshold || series.forceCrop)) { // It's outside current extremes if (processedXData[dataLength - 1] < min || processedXData[0] > max) { processedXData = []; processedYData = []; // Only crop if it's actually spilling out } else if (series.yData && (processedXData[0] < min || processedXData[dataLength - 1] > max)) { croppedData = this.cropData(series.xData, series.yData, min, max); processedXData = croppedData.xData; processedYData = croppedData.yData; cropStart = croppedData.start; cropped = true; } } // Find the closest distance between processed points const closestPointRange = getClosestDistance([ logarithmic ? processedXData.map(logarithmic.log2lin) : processedXData ], // Unsorted data is not supported by the line tooltip, as well as // data grouping and navigation in Stock charts (#725) and width // calculation of columns (#1900). Avoid warning during the // premature processing pass in updateNames (#16104). () => (series.requireSorting && !updatingNames && error(15, false, series.chart))); return { xData: processedXData, yData: processedYData, cropped: cropped, cropStart: cropStart, closestPointRange: closestPointRange }; } /** * Internal function to apply processed data. * In Highcharts Stock, this function is extended to provide data grouping. * * @private * @function Highcharts.Series#processData * @param {boolean} [force] * Force data grouping. */ processData(force) { const series = this, xAxis = series.xAxis; // 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 (series.isCartesian && !series.isDirty && !xAxis.isDirty && !series.yAxis.isDirty && !force) { return false; } const processedData = series.getProcessedData(); // Record the properties series.cropped = processedData.cropped; // Undefined or true series.cropStart = processedData.cropStart; series.processedXData = processedData.xData; series.processedYData = processedData.yData; series.closestPointRange = (series.basePointRange = processedData.closestPointRange); fireEvent(series, 'afterProcessData'); } /** * Iterate over xData and crop values between min and max. Returns * object containing crop start/end cropped xData with corresponding * part of yData, dataMin and dataMax within the cropped range. * * @private * @function Highcharts.Series#cropData */ cropData(xData, yData, min, max) { const dataLength = xData.length; let i, j, start = 0, end = dataLength; // Iterate up to find slice start for (i = 0; i < dataLength; i++) { if (xData[i] >= min) { start = Math.max(0, i - 1); break; } } // Proceed to find slice end for (j = i; j < dataLength; j++) { if (xData[j] > max) { end = j + 1; break; } } return { xData: xData.slice(start, end), yData: yData.slice(start, end), start, end }; } /** * Generate the data point after the data has been processed by cropping * away unused points and optionally grouped in Highcharts Stock. * * @private * @function Highcharts.Series#generatePoints */ generatePoints() { const series = this, options = series.options, dataOptions = series.processedData || options.data, processedXData = series.processedXData, processedYData = series.processedYData, PointClass = series.pointClass, processedDataLength = processedXData.length, cropStart = series.cropStart || 0, hasGroupedData = series.hasGroupedData, keys = options.keys, points = [], groupCropStartIndex = (options.dataGrouping && options.dataGrouping.groupAll ? cropStart : 0); let dataLength, cursor, point, i, data = series.data; if (!data && !hasGroupedData) { const arr = []; arr.length = dataOptions.length; data = series.data = arr; } if (keys && hasGroupedData) { // Grouped data has already applied keys (#6590) series.options.keys = false; } for (i = 0; i < processedDataLength; i++) { cursor = cropStart + i; if (!hasGroupedData) { point = data[cursor]; // #970: if (!point && typeof dataOptions[cursor] !== 'undefined') { data[cursor] = point = new PointClass(series, dataOptions[cursor], processedXData[i]); } } else { // Splat the y data in case of ohlc data array point = new PointClass(series, [processedXData[i]].concat(splat(processedYData[i]))); point.dataGroup = series.groupMap[groupCropStartIndex + i]; if (point.dataGroup.options) { point.options = point.dataGroup.options; extend(point, point.dataGroup.options); // Collision of props and options (#9770) delete point.dataLabels; } } if (point) { // #6279 /** * Contains the point's index in the `Series.points` array. * * @name Highcharts.Point#index * @type {number} * @readonly */ // For faster access in Point.update point.index = hasGroupedData ? (groupCropStartIndex + i) : cursor; points[i] = point; } } // Restore keys options (#6590) series.options.keys = keys; // Hide cropped-away points - this only runs when the number of // points is above cropThreshold, or when switching view from // non-grouped data to grouped data (#637) if (data && (processedDataLength !== (dataLength = data.length) || hasGroupedData)) { for (i = 0; i < dataLength; i++) { // When has grouped data, clear all points if (i === cropStart && !hasGroupedData) { i += processedDataLength; } if (data[i]) { data[i].destroyElements(); data[i].plotX = void 0; // #1003 } } } /** * Read only. An array containing those values converted to points. * In case the series data length exceeds the `cropThreshold`, or if * the data is grouped, `series.data` doesn't contain all the * points. Also, in case a series is hidden, the `data` array may be * empty. In case of cropping, the `data` array may contain `undefined` * values, instead of points. To access raw values, * `series.options.data` will always be up to date. `Series.data` only * contains the points that have been created on demand. To modify the * data, use * {@link Highcharts.Series#setData} or * {@link Highcharts.Point#update}. * * @see Series.points * * @name Highcharts.Series#data * @type {Array} */ series.data = data; /** * An array containing 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. To modify * the data, use {@link Highcharts.Series#setData} or * {@link Highcharts.Point#update}. * * @name Highcharts.Series#points * @type {Array} */ series.points = points; fireEvent(this, 'afterGeneratePoints'); } /** * Get current X extremes for the visible data. * * @private * @function Highcharts.Series#getXExtremes * @param {Array} xData * The data to inspect. Defaults to the current data within the visible * range. */ getXExtremes(xData) { return { min: arrayMin(xData), max: arrayMax(xData) }; } /** * Calculate Y extremes for the visible data. The result is returned * as an object with `dataMin` and `dataMax` properties. * * @private * @function Highcharts.Series#getExtremes * @param {Array} [yData] * The data to inspect. Defaults to the current data within the visible * range. * @param {boolean} [forceExtremesFromAll] * Force getting extremes of a total series data range. */ getExtremes(yData, forceExtremesFromAll) { const xAxis = this.xAxis, yAxis = this.yAxis, xData = this.processedXData || this.xData, activeYData = [], // Handle X outside the viewed area. This does not work with // non-sorted data like scatter (#7639). shoulder = this.requireSorting && !this.is('column') ? 1 : 0, // #2117, need to compensate for log X axis positiveValuesOnly = yAxis ? yAxis.positiveValuesOnly : false; let xExtremes, validValue, withinRange, x, y, i, j, xMin = 0, xMax = 0, activeCounter = 0; yData = yData || this.stackedYData || this.processedYData || []; const yDataLength = yData.length; if (xAxis) { xExtremes = xAxis.getExtremes(); xMin = xExtremes.min; xMax = xExtremes.max; } for (i = 0; i < yDataLength; i++) { x = xData[i]; y = yData[i]; // For points within the visible range, including the first // point outside the visible range (#7061), consider y extremes. validValue = ((isNumber(y) || isArray(y)) && ((isNumber(y) ? y > 0 : y.length) || !positiveValuesOnly)); withinRange = (forceExtremesFromAll || this.getExtremesFromAll || this.options.getExtremesFromAll || this.cropped || !xAxis || // For colorAxis support ((xData[i + shoulder] || x) >= xMin && (xData[i - shoulder] || x) <= xMax)); if (validValue && withinRange) { j = y.length; if (j) { // Array, like ohlc or range data while (j--) { if (isNumber(y[j])) { // #7380, #11513 activeYData[activeCounter++] = y[j]; } } } else { activeYData[activeCounter++] = y; } } } const dataExtremes = { activeYData, dataMin: arrayMin(activeYData), dataMax: arrayMax(activeYData) }; fireEvent(this, 'afterGetExtremes', { dataExtremes }); return dataExtremes; } /** * Set the current data extremes as `dataMin` and `dataMax` on the * Series item. Use this only when the series properties should be * updated. * * @private * @function Highcharts.Series#applyExtremes */ applyExtremes() { const dataExtremes = this.getExtremes(); /** * Contains the minimum value of the series' data point. Some series * types like `networkgraph` do not support this property as they * lack a `y`-value. * @name Highcharts.Series#dataMin * @type {number|undefined} * @readonly */ this.dataMin = dataExtremes.dataMin; /** * Contains the maximum value of the series' data point. Some series * types like `networkgraph` do not support this property as they * lack a `y`-value. * @name Highcharts.Series#dataMax * @type {number|undefined} * @readonly */ this.dataMax = dataExtremes.dataMax; return dataExtremes; } /** * Find and return the first non null point in the data * * @private * @function Highcharts.Series.getFirstValidPoint * @param {Array} data * Array of options for points */ getFirstValidPoint(data) { const dataLength = data.length; let i = 0, firstPoint = null; while (firstPoint === null && i < dataLength) { firstPoint = data[i]; i++; } return firstPoint; } /** * Translate data points from raw data values to chart specific * positioning data needed later in the `drawPoints` and `drawGraph` * functions. This function can be overridden in plugins and custom * series type implementations. * * @function Highcharts.Series#translate * * @emits Highcharts.Series#events:translate */ translate() { if (!this.processedXData) { // Hidden series this.processData(); } this.generatePoints(); const series = this, options = series.options, stacking = options.stacking, xAxis = series.xAxis, categories = xAxis.categories, enabledDataSorting = series.enabledDataSorting, yAxis = series.yAxis, points = series.points, dataLength = points.length, pointPlacement = series.pointPlacementToXValue(), // #7860 dynamicallyPlaced = Boolean(pointPlacement), threshold = options.threshold, stackThreshold = options.startFromThreshold ? threshold : 0; let i, plotX, lastPlotX, stackIndicator, closestPointRangePx = Number.MAX_VALUE; /** * Plotted coordinates need to be within a limited range. Drawing * too far outside the viewport causes various rendering issues * (#3201, #3923, #7555). * @private */ function limitedRange(val) { return clamp(val, -1e5, 1e5); } // Translate each point for (i = 0; i < dataLength; i++) { const point = points[i], xValue = point.x; let stackItem, stackValues, yValue = point.y, lowValue = point.low; const stacks = stacking && yAxis.stacking?.stacks[(series.negStacks && yValue < (stackThreshold ? 0 : threshold) ? '-' : '') + series.stackKey]; plotX = xAxis.translate(// #3923 xValue, false, false, false, true, pointPlacement); /** * The translated X value for the point in terms of pixels. Relative * to the X axis position if the series has one, otherwise relative * to the plot area. Depending on the series type this value might * not be defined. * * In an inverted chart the x-axis is going from the bottom to the * top so the `plotX` value is the number of pixels from the bottom * of the axis. * * @see Highcharts.Point#pos * @name Highcharts.Point#plotX * @type {number|undefined} */ point.plotX = isNumber(plotX) ? correctFloat(// #5236 limitedRange(plotX) // #3923 ) : void 0; // Calculate the bottom y value for stacked series if (stacking && series.visible && stacks && stacks[xValue]) { stackIndicator = series.getStackIndicator(stackIndicator, xValue, series.index); if (!point.isNull && stackIndicator.key) { stackItem = stacks[xValue]; stackValues = stackItem.points[stackIndicator.key]; } if (stackItem && isArray(stackValues)) { lowValue = stackValues[0]; yValue = stackValues[1]; if (lowValue === stackThreshold && stackIndicator.key === stacks[xValue].base) { lowValue = pick(isNumber(threshold) ? threshold : yAxis.min); } // #1200, #1232 if (yAxis.positiveValuesOnly && defined(lowValue) && lowValue <= 0) { lowValue = void 0; } point.total = point.stackTotal = pick(stackItem.total); point.percentage = defined(point.y) && stackItem.total ? (point.y / stackItem.total * 100) : void 0; point.stackY = yValue; // In case of variwide series (where widths of points are // different in most cases), stack labels are positioned // wrongly, so the call of the setOffset is omitted here and // labels are correctly positioned later, at the end of the // variwide's translate function (#10962) if (!series.irregularWidths) { stackItem.setOffset(series.pointXOffset || 0, series.barW || 0, void 0, void 0, void 0, series.xAxis); } } } // Set translated yBottom or remove it point.yBottom = defined(lowValue) ? limitedRange(yAxis.translate(lowValue, false, true, false, true)) : void 0; // General hook, used for Highcharts Stock compare and cumulative if (series.dataModify) { yValue = series.dataModify.modifyValue(yValue, i); } // Set the plotY value, reset it for redraws #3201, #18422 let plotY; if (isNumber(yValue) && point.plotX !== void 0) { plotY = yAxis.translate(yValue, false, true, false, true); plotY = isNumber(plotY) ? limitedRange(plotY) : void 0; } /** * The translated Y value for the point in terms of pixels. Relative * to the Y axis position if the series has one, otherwise relative * to the plot area. Depending on the series type this value might * not be defined. * * In an inverted chart the y-axis is going from right to left * so the `plotY` value is the number of pixels from the right * of the `yAxis`. * * @see Highcharts.Point#pos * @name Highcharts.Point#plotY * @type {number|undefined} */ point.plotY = plotY; point.isInside = this.isPointInside(point); // Set client related positions for mouse tracking point.clientX = dynamicallyPlaced ? correctFloat(xAxis.translate(xValue, false, false, false, true, pointPlacement)) : plotX; // #1514, #5383, #5518 // Negative points #19028 point.negative = (point.y || 0) < (threshold || 0); // Some API data point.category = pick(categories && categories[point.x], point.x); // Determine auto enabling of markers (#3635, #5099) if (!point.isNull && point.visible !== false) { if (typeof lastPlotX !== 'undefined') { closestPointRangePx = Math.min(closestPointRangePx, Math.abs(plotX - lastPlotX)); } lastPlotX = plotX; } // Find point zone point.zone = this.zones.length ? point.getZone() : void 0; // Animate new points with data sorting if (!point.graphic && series.group && enabledDataSorting) { point.isNew = true; } } series.closestPointRangePx = closestPointRangePx; fireEvent(this, 'afterTranslate'); } /** * Return the series points with null points filtered out. * * @function Highcharts.Series#getValidPoints * * @param {Array} [points] * The points to inspect, defaults to {@link Series.points}. * * @param {boolean} [insideOnly=false] * Whether to inspect only the points that are inside the visible view. * * @param {boolean} [allowNull=false] * Whether to allow null points to pass as valid points. * * @return {Array} * The valid points. */ getValidPoints(points, insideOnly, allowNull) { const chart = this.chart; // #3916, #5029, #5085 return (points || this.points || []).filter(function (point) { const { plotX, plotY } = point, // Undefined plotY is treated as null when negative values // in log axis (#18422) asNull = !allowNull && (point.isNull || !isNumber(plotY)); if (asNull || (insideOnly && !chart.isInsidePlot(plotX, plotY, { inverted: chart.inverted }))) { return false; } return point.visible !== false; }); } /** * Get the clipping for the series. Could be called for a series to * initiate animating the clip or to set the final clip (only width * and x). * * @private * @function Highcharts.Series#getClip */ getClipBox() { const { chart, xAxis, yAxis } = this; // If no axes on the series, use global clipBox let { x, y, width, height } = merge(chart.clipBox); // Otherwise, use clipBox.width which is corrected for plotBorderWidth // and clipOffset if (xAxis && xAxis.len !== chart.plotSizeX) { width = xAxis.len; } if (yAxis && yAxis.len !== chart.plotSizeY) { height = yAxis.len; } // If the chart is inverted and the series is not invertible, the chart // clip box should be inverted, but not the series clip box (#20264) if (chart.inverted && !this.invertible) { [width, height] = [height, width]; } return { x, y, width, height }; } /** * Get the shared clip key, creating it if it doesn't exist. * * @private * @function Highcharts.Series#getSharedClipKey */ getSharedClipKey() { this.sharedClipKey = (this.options.xAxis || 0) + ',' + (this.options.yAxis || 0); return this.sharedClipKey; } /** * Set the clipping for the series. For animated series the clip is later * modified. * * @private * @function Highcharts.Series#setClip */ setClip() { const { chart, group, markerGroup } = this, sharedClips = chart.sharedClips, renderer = chart.renderer, clipBox = this.getClipBox(), sharedClipKey = this.getSharedClipKey(); // #4526 let clipRect = sharedClips[sharedClipKey]; // If a clipping rectangle for the same set of axes does not exist, // create it if (!clipRect) { sharedClips[sharedClipKey] = clipRect = renderer.clipRect(clipBox); // When setting chart size, or when the series is rendered again before // starting animating, in compliance to a responsive rule } else { clipRect.animate(clipBox); } if (group) { // When clip is false, reset to no clip after animation group.clip(this.options.clip === false ? void 0 : clipRect); } // Unclip temporary animation clip if (markerGroup) { markerGroup.clip(); } } /** * Animate in the series. Called internally twice. First with the `init` * parameter set to true, which sets up the initial state of the * animation. Then when ready, it is called with the `init` parameter * undefined, in order to perform the actual animation. * * @function Highcharts.Series#animate * * @param {boolean} [init] * Initialize the animation. */ animate(init) { const { chart, group, markerGroup } = this, inverted = chart.inverted, animation = animObject(this.options.animation), // The key for temporary animation clips animationClipKey = [ this.getSharedClipKey(), animation.duration, animation.easing, animation.defer ].join(','); let animationClipRect = chart.sharedClips[animationClipKey], markerAnimationClipRect = chart.sharedClips[animationClipKey + 'm']; // Initialize the animation. Set up the clipping rectangle. if (init && group) { const clipBox = this.getClipBox(); // Create temporary animation clips if (!animationClipRect) { clipBox.width = 0; if (inverted) { clipBox.x = chart.plotHeight; } animationClipRect = chart.renderer.clipRect(clipBox); chart.sharedClips[animationClipKey] = animationClipRect; // The marker clip box. The number 99 is a safe margin to avoid // markers being clipped during animation. const markerClipBox = { x: inverted ? -99 : -99, y: inverted ? -99 : -99, width: inverted ? chart.plotWidth + 199 : 99, height: inverted ? 99 : chart.plotHeight + 199 }; markerAnimationClipRect = chart.renderer.clipRect(markerClipBox); chart.sharedClips[animationClipKey + 'm'] = markerAnimationClipRect; } else { // When height changes during animation, typically due to // responsive settings animationClipRect.attr('height', clipBox.height); } group.clip(animationClipRect); markerGroup?.clip(markerAnimationClipRect); // Run the animation } else if (animationClipRect && // Only first series in this pane !animationClipRect.hasClass('highcharts-animating')) { const finalBox = this.getClipBox(), step = animation.step; // Only do this when there are actually markers, or we have multiple // series (#20473) if (markerGroup?.element.childNodes.length || chart.series.length > 1) { // To provide as smooth animation as possible, update the marker // group clipping in steps of the main group animation animation.step = function (val, fx) { if (step) { step.apply(fx, arguments); } if (fx.prop === 'width' && markerAnimationClipRect?.element) { markerAnimationClipRect.attr(inverted ? 'height' : 'width', val + 99); } }; } animationClipRect .addClass('highcharts-animating') .animate(finalBox, animation); } } /** * This runs after animation to land on the final plot clipping. * * @private * @function Highcharts.Series#afterAnimate * * @emits Highcharts.Series#event:afterAnimate */ afterAnimate() { this.setClip(); // Destroy temporary clip rectangles that are no longer in use objectEach(this.chart.sharedClips, (clip, key, sharedClips) => { if (clip && !this.chart.container.querySelector(`[clip-path="url(#${clip.id})"]`)) { clip.destroy(); delete sharedClips[key]; } }); this.finishedAnimating = true; fireEvent(this, 'afterAnimate'); } /** * Draw the markers for line-like series types, and columns or other * graphical representation for {@link Point} objects for other series * types. The resulting element is typically stored as * {@link Point.graphic}, and is created on the first call and updated * and moved on subsequent calls. * * @function Highcharts.Series#drawPoints */ drawPoints(points = this.points) { const series = this, chart = series.chart, styledMode = chart.styledMode, { colorAxis, options } = series, seriesMarkerOptions = options.marker, markerGroup = series[series.specialGroup || 'markerGroup'], xAxis = series.xAxis, globallyEnabled = pick(seriesMarkerOptions.enabled, !xAxis || xAxis.isRadial ? true : null, // Use larger or equal as radius is null in bubbles (#6321) series.closestPointRangePx >= (seriesMarkerOptions.enabledThreshold * seriesMarkerOptions.radius)); let i, point, graphic, verb, pointMarkerOptions, hasPointMarker, markerAttribs; if (seriesMarkerOptions.enabled !== false || series._hasPointMarkers) { for (i = 0; i < points.length; i++) { point = points[i]; graphic = point.graphic; verb = graphic ? 'animate' : 'attr'; pointMarkerOptions = point.marker || {}; hasPointMarker = !!point.marker; const shouldDrawMarker = ((globallyEnabled && typeof pointMarkerOptions.enabled === 'undefined') || pointMarkerOptions.enabled) && !point.isNull && point.visible !== false; // Only draw the point if y is defined if (shouldDrawMarker) { // Shortcuts const symbol = pick(pointMarkerOptions.symbol, series.symbol, 'rect'); markerAttribs = series.markerAttribs(point, (point.selected && 'select')); // Set starting position for point sliding animation. if (series.enabledDataSorting) { point.startXPos = xAxis.reversed ? -(markerAttribs.width || 0) : xAxis.width; } const isInside = point.isInside !== false; if (!graphic && isInside && ((markerAttribs.width || 0) > 0 || point.hasImage)) { /** * SVG graphic representing the point in the chart. In * some cases it may be a hidden graphic to improve * accessibility. * * Typically this is a simple shape, like a `rect` * for column charts or `path` for line markers, but * for some complex series types like boxplot or 3D * charts, the graphic may be a `g` element * containing other shapes. The graphic is generated * the first time {@link Series#drawPoints} runs, * and updated and moved on subsequent runs. * * @see Highcharts.Point#graphics * * @name Highcharts.Point#graphic * @type {Highcharts.SVGElement|undefined} */ point.graphic = graphic = chart.renderer .symbol(symbol, markerAttribs.x, markerAttribs.y, markerAttribs.width, markerAttribs.height, hasPointMarker ? pointMarkerOptions : seriesMarkerOptions) .add(markerGroup); // Sliding animation for new points if (series.enabledDataSorting && chart.hasRendered) { graphic.attr({ x: point.startXPos }); verb = 'animate'; } } if (graphic && verb === 'animate') { // Update // Since the marker group isn't clipped, each // individual marker must be toggled graphic[isInside ? 'show' : 'hide'](isInside) .animate(markerAttribs); } // Presentational attributes if (graphic) { const pointAttr = series.pointAttribs(point, ((styledMode || !point.selected) ? void 0 : 'select')); if (!styledMode) { graphic[verb](pointAttr); } else if (colorAxis) { // #14114 graphic['css']({ fill: pointAttr.fill }); } } if (graphic) { graphic.addClass(point.getClassName(), true); } } else if (graphic) { point.graphic = graphic.destroy(); // #1269 } } } } /** * Get non-presentational attributes for a point. Used internally for * both styled mode and classic. Can be overridden for different series * types. * * @see Series#pointAttribs * * @function Highcharts.Series#markerAttribs * * @param {Highcharts.Point} point * The Point to inspect. * * @param {string} [state] * The state, can be either `hover`, `select` or undefined. * * @return {Highcharts.SVGAttributes} * A hash containing those attributes that are not settable from CSS. */ markerAttribs(point, state) { const seriesOptions = this.options, seriesMarkerOptions = seriesOptions.marker, pointMarkerOptions = point.marker || {}, symbol = (pointMarkerOptions.symbol || seriesMarkerOptions.symbol), attribs = {}; let seriesStateOptions, pointStateOptions, radius = pick(pointMarkerOptions.radius, seriesMarkerOptions && seriesMarkerOptions.radius); // Handle hover and select states if (state) { seriesStateOptions = seriesMarkerOptions.states[state]; pointStateOptions = pointMarkerOptions.states && pointMarkerOptions.states[state]; radius = pick(pointStateOptions && pointStateOptions.radius, seriesStateOptions && seriesStateOptions.radius, radius && radius + (seriesStateOptions && seriesStateOptions.radiusPlus || 0)); } point.hasImage = symbol && symbol.indexOf('url') === 0; if (point.hasImage) { radius = 0; // And subsequently width and height is not set } const pos = point.pos(); if (isNumber(radius) && pos) { attribs.x = pos[0] - radius; attribs.y = pos[1] - radius; if (seriesOptions.crisp) { // Math.floor for #1843: attribs.x = Math.floor(attribs.x); } } if (radius) { attribs.width = attribs.height = 2 * radius; } return attribs; } /** * Internal function to get presentational attributes for each point. * Unlike {@link Series#markerAttribs}, this function should return * those attributes that can also be set in CSS. In styled mode, * `pointAttribs` won't be called. * * @private * @function Highcharts.Series#pointAttribs * * @param {Highcharts.Point} [point] * The point instance to inspect. * * @param {string} [state] * The point state, can be either `hover`, `select` or 'normal'. If * undefined, normal state is assumed. * * @return {Highcharts.SVGAttributes} * The presentational attributes to be set on the point. */ pointAttribs(point, state) { const seriesMarkerOptions = this.options.marker, pointOptions = point && point.options, pointMarkerOptions = ((pointOptions && pointOptions.marker) || {}), pointColorOption = pointOptions && pointOptions.color, pointColor = point && point.color, zoneColor = point && point.zone && point.zone.color; let seriesStateOptions, pointStateOptions, color = this.color, fill, stroke, strokeWidth = pick(pointMarkerOptions.lineWidth, seriesMarkerOptions.lineWidth), opacity = 1; color = (pointColorOption || zoneColor || pointColor || color); fill = (pointMarkerOptions.fillColor || seriesMarkerOptions.fillColor || color); stroke = (pointMarkerOptions.lineColor || seriesMarkerOptions.lineColor || color); // Handle hover and select states state = state || 'normal'; if (state) { seriesStateOptions = (seriesMarkerOptions.states[state] || {}); pointStateOptions = (pointMarkerOptions.states && pointMarkerOptions.states[state]) || {}; strokeWidth = pick(pointStateOptions.lineWidth, seriesStateOptions.lineWidth, strokeWidth + pick(pointStateOptions.lineWidthPlus, seriesStateOptions.lineWidthPlus, 0)); fill = (pointStateOptions.fillColor || seriesStateOptions.fillColor || fill); stroke = (pointStateOptions.lineColor || seriesStateOptions.lineColor || stroke); opacity = pick(pointStateOptions.opacity, seriesStateOptions.opacity, opacity); } return { 'stroke': stroke, 'stroke-width': strokeWidth, 'fill': fill, 'opacity': opacity }; } /** * Clear DOM objects and free up memory. * * @private * @function Highcharts.Series#destroy * * @emits Highcharts.Series#event:destroy */ destroy(keepEventsForUpdate) { const series = this, chart = series.chart, issue134 = /AppleWebKit\/533/.test(win.navigator.userAgent), data = series.data || []; let destroy, i, point, axis; // Add event hook fireEvent(series, 'destroy', { keepEventsForUpdate }); // Remove events this.removeEvents(keepEventsForUpdate); // Erase from axes (series.axisTypes || []).forEach(function (AXIS) { axis = series[AXIS]; if (axis && axis.series) { erase(axis.series, series); axis.isDirty = axis.forceRedraw = true; } }); // Remove legend items if (series.legendItem) { series.chart.legend.destroyItem(series); } // Destroy all points with their elements i = data.length; while (i--) { point = data[i]; if (point && point.destroy) { point.destroy(); } } for (const zone of series.zones) { // Destroy SVGElement's but preserve primitive props (#20426) destroyObjectProperties(zone, void 0, true); } // Clear the animation timeout if we are destroying the series // during initial animation U.clearTimeout(series.animationTimeout); // Destroy all SVGElements associated to the series objectEach(series, function (val, prop) { // Survive provides a hook for not destroying if (val instanceof SVGElement && !val.survive) { // Issue 134 workaround destroy = issue134 && prop === 'group' ? 'hide' : 'destroy'; val[destroy](); } }); // Remove from hoverSeries if (chart.hoverSeries === series) { chart.hoverSeries = void 0; } erase(chart.series, series); chart.orderItems('series'); // Clear all members objectEach(series, function (val, prop) { if (!keepEventsForUpdate || prop !== 'hcEvents') { delete series[prop]; } }); } /** * Clip the graphs into zones for colors and styling. * * @private * @function Highcharts.Series#applyZones */ applyZones() { const series = this, { area, chart, graph, zones, points, xAxis, yAxis, zoneAxis } = series, { inverted, renderer } = chart, axis = this[`${zoneAxis}Axis`], { isXAxis, len = 0 } = axis || {}, halfWidth = (graph?.strokeWidth() || 0) / 2 + 1, // Avoid points that are so close to the threshold that the graph // line would be split avoidClose = (zone, plotX = 0, plotY = 0) => { if (inverted) { plotY = len - plotY; } const { translated = 0, lineClip } = zone, distance = plotY - translated; lineClip?.push([ 'L', plotX, Math.abs(distance) < halfWidth ? plotY - halfWidth * (distance <= 0 ? -1 : 1) : translated ]); }; if (zones.length && (graph || area) && axis && isNumber(axis.min)) { const axisMax = axis.getExtremes().max, // Invert the x and y coordinates of inverted charts invertPath = (path) => { path.forEach((segment, i) => { if (segment[0] === 'M' || segment[0] === 'L') { path[i] = [ segment[0], isXAxis ? len - segment[1] : segment[1], isXAxis ? segment[2] : len - segment[2] ]; } }); }; // Reset zones.forEach((zone) => { zone.lineClip = []; zone.translated = clamp(axis.toPixels(pick(zone.value, axisMax), true) || 0, 0, len); }); // The use of the Color Threshold assumes there are no gaps so it is // safe to hide the original graph and area unless it is not // waterfall series, then use showLine property to set lines between // columns to be visible (#7862) if (graph && !this.showLine) { graph.hide(); } if (area) { area.hide(); } // Prepare for adaptive clips, avoiding segments close to the // threshold (#19709) if (zoneAxis === 'y' && // Overheat protection points.length < xAxis.len) { for (const point of points) { const { plotX, plotY, zone } = point, zoneBelow = zone && zones[zones.indexOf(zone) - 1]; // Close to upper boundary if (zone) { avoidClose(zone, plotX, plotY); } // Close to lower boundary if (zoneBelow) { avoidClose(zoneBelow, plotX, plotY); } } } // Compute and apply the clips let lastLineClip = [], lastTranslated = axis.toPixels(axis.getExtremes().min, true); zones.forEach((zone) => { const lineClip = zone.lineClip || [], translated = Math.round(zone.translated || 0); if (xAxis.reversed) { lineClip.reverse(); } let { clip, simpleClip } = zone, x1 = 0, y1 = 0, x2 = xAxis.len, y2 = yAxis.len; if (isXAxis) { x1 = translated; x2 = lastTranslated; } else { y1 = translated; y2 = lastTranslated; } // Adaptive clips const simplePath = [ ['M', x1, y1], ['L', x2, y1], ['L', x2, y2], ['L', x1, y2], ['Z'] ], adaptivePath = [ simplePath[0], ...lineClip, simplePath[1], simplePath[2], ...lastLineClip, simplePath[3], simplePath[4] ]; lastLineClip = lineClip.reverse(); lastTranslated = translated; if (inverted) { invertPath(adaptivePath); if (area) { invertPath(simplePath); } } /* Debug clip paths chart.renderer.path(adaptivePath) .attr({ stroke: zone.color || this.color || 'gray', 'stroke-width': 1, 'dashstyle': 'Dash' }) .add(series.group); // */ if (clip) { clip.animate({ d: adaptivePath }); simpleClip?.animate({ d: simplePath }); } else { clip = zone.clip = renderer.path(adaptivePath); if (area) { simpleClip = zone.simpleClip = renderer.path(simplePath); } } // When no data, graph zone is not applied and after setData // clip was ignored. As a result, it should be applied each // time. if (graph) { zone.graph?.clip(clip); } if (area) { zone.area?.clip(simpleClip); } }); } else if (series.visible) { // If zones were removed, restore graph and area if (graph) { graph.show(); } if (area) { area.show(); } } } /** * General abstraction for creating plot groups like series.group, * series.dataLabelsGroup and series.markerGroup. On subsequent calls, * the group will only be adjusted to the updated plot size. * * @private * @function Highcharts.Series#plotGroup */ plotGroup(prop, name, visibility, zIndex, parent) { let group = this[prop]; const isNew = !group, attrs = { visibility, zIndex: zIndex || 0.1 // Pointer logic uses this }; // Avoid setting undefined opacity, or in styled mode if (defined(this.opacity) && !this.chart.styledMode && this.state !== 'inactive' // #13719 ) { attrs.opacity = this.opacity; } // Generate it on first call if (!group) { this[prop] = group = this.chart.renderer .g() .add(parent); } // Add the class names, and replace existing ones as response to // Series.update (#6660) group.addClass(('highcharts-' + name + ' highcharts-series-' + this.index + ' highcharts-' + this.type + '-series ' + (defined(this.colorIndex) ? 'highcharts-color-' + this.colorIndex + ' ' : '') + (this.options.className || '') + (group.hasClass('highcharts-tracker') ? ' highcharts-tracker' : '')), true); // Place it on first and subsequent (redraw) calls group.attr(attrs)[isNew ? 'attr' : 'animate'](this.getPlotBox(name)); return group; } /** * Get the translation and scale for the plot area of this series. * * @function Highcharts.Series#getPlotBox */ getPlotBox(name) { let horAxis = this.xAxis, vertAxis = this.yAxis; const chart = this.chart, inverted = (chart.inverted && !chart.polar && horAxis && this.invertible && name === 'series'); // Swap axes for inverted (#2339) if (chart.inverted) { horAxis = vertAxis; vertAxis = this.xAxis; } return { translateX: horAxis ? horAxis.left : chart.plotLeft, translateY: vertAxis ? vertAxis.top : chart.plotTop, rotation: inverted ? 90 : 0, rotationOriginX: inverted ? (horAxis.len - vertAxis.len) / 2 : 0, rotationOriginY: inverted ? (horAxis.len + vertAxis.len) / 2 : 0, scaleX: inverted ? -1 : 1, scaleY: 1 }; } /** * Removes the event handlers attached previously with addEvents. * @private * @function Highcharts.Series#removeEvents */ removeEvents(keepEventsForUpdate) { const { eventsToUnbind } = this; if (!keepEventsForUpdate) { // Remove all events removeEvent(this); } if (eventsToUnbind.length) { // Remove only internal events for proper update. #12355 solves // problem with multiple destroy events eventsToUnbind.forEach((unbind) => { unbind(); }); eventsToUnbind.length = 0; } } /** * Render the graph and markers. Called internally when first rendering * and later when redrawing the chart. This function can be extended in * plugins, but normally shouldn't be called directly. * * @function Highcharts.Series#render * * @emits Highcharts.Series#event:afterRender */ render() { const series = this, { chart, options, hasRendered } = series, animOptions = animObject(options.animation), visibility = series.visible ? 'inherit' : 'hidden', // #2597 zIndex = options.zIndex, chartSeriesGroup = chart.seriesGroup; let animDuration = series.finishedAnimating ? 0 : animOptions.duration; fireEvent(this, 'render'); // The group series.plotGroup('group', 'series', visibility, zIndex, chartSeriesGroup); series.markerGroup = series.plotGroup('markerGroup', 'markers', visibility, zIndex, chartSeriesGroup); // Initial clipping, applies to columns etc. (#3839). if (options.clip !== false) { series.setClip(); } // Initialize the animation if (animDuration) { series.animate?.(true); } // Draw the graph if any if (series.drawGraph) { series.drawGraph(); series.applyZones(); } // Draw the points if (series.visible) { series.drawPoints(); } // Draw the data labels series.drawDataLabels?.(); // In pie charts, slices are added to the DOM, but actual rendering // is postponed until labels reserved their space series.redrawPoints?.(); // Draw the mouse tracking area if (options.enableMouseTracking) { series.drawTracker?.(); } // Run the animation if (animDuration) { series.animate?.(); } // Call the afterAnimate function on animation complete (but don't // overwrite the animation.complete option which should be available // to the user). if (!hasRendered) { // Additional time if defer is defined before afterAnimate // will be triggered if (animDuration && animOptions.defer) { animDuration += animOptions.defer; } series.animationTimeout = syncTimeout(() => { series.afterAnimate(); }, animDuration || 0); } // Means data is in accordance with what you see series.isDirty = false; // (See #322) series.isDirty = series.isDirtyData = false; // means // data is in accordance with what you see series.hasRendered = true; fireEvent(series, 'afterRender'); } /** * Redraw the series. This function is called internally from * `chart.redraw` and normally shouldn't be called directly. * @private * @function Highcharts.Series#redraw */ redraw() { // Cache it here as it is set to false in render, but used after const wasDirty = this.isDirty || this.isDirtyData; this.translate(); this.render(); if (wasDirty) { // #3868, #3945 delete this.kdTree; } } /** * Whether to reserve space for the series, either because it is visible or * because the `chart.ignoreHiddenSeries` option is false. * * @private */ reserveSpace() { return this.visible || !this.chart.options.chart.ignoreHiddenSeries; } /** * Find the nearest point from a pointer event. This applies to series that * use k-d-trees to get the nearest point. Native pointer events must be * normalized using `Pointer.normalize`, that adds `chartX` and `chartY` * properties. * * @sample highcharts/demo/synchronized-charts * Synchronized charts with tooltips * * @function Highcharts.Series#searchPoint * * @param {Highcharts.PointerEvent} e * The normalized pointer event * @param {boolean} [compareX=false] * Search only by the X value, not Y * * @return {Point|undefined} * The closest point to the pointer event */ searchPoint(e, compareX) { const { xAxis, yAxis } = this, inverted = this.chart.inverted; return this.searchKDTree({ clientX: inverted ? xAxis.len - e.chartY + xAxis.pos : e.chartX - xAxis.pos, plotY: inverted ? yAxis.len - e.chartX + yAxis.pos : e.chartY - yAxis.pos }, compareX, e); } /** * Build the k-d-tree that is used by mouse and touch interaction to get * the closest point. Line-like series typically have a one-dimensional * tree where points are searched along the X axis, while scatter-like * series typically search in two dimensions, X and Y. * * @private * @function Highcharts.Series#buildKDTree */ buildKDTree(e) { // Prevent multiple k-d-trees from being built simultaneously // (#6235) this.buildingKdTree = true; const series = this, dimensions = series.options.findNearestPointBy .indexOf('y') > -1 ? 2 : 1; /** * Internal function * @private */ function kdtree(points, depth, dimensions) { const length = points?.length; let axis, median; if (length) { // Alternate between the axis axis = series.kdAxisArray[depth % dimensions]; // Sort point array points.sort((a, b) => (a[axis] || 0) - (b[axis] || 0)); median = Math.floor(length / 2); // Build and return node return { point: points[median], left: kdtree(points.slice(0, median), depth + 1, dimensions), right: kdtree(points.slice(median + 1), depth + 1, dimensions) }; } } /** * Start the recursive build process with a clone of the points * array and null points filtered out. (#3873) * @private */ function startRecursive() { series.kdTree = kdtree(series.getValidPoints(void 0, // For line-type series restrict to plot area, but // column-type series not (#3916, #4511) !series.directTouch), dimensions, dimensions); series.buildingKdTree = false; } delete series.kdTree; // For testing tooltips, don't build async. Also if touchstart, we may // be dealing with click events on mobile, so don't delay (#6817). syncTimeout(startRecursive, series.options.kdNow || e?.type === 'touchstart' ? 0 : 1); } /** * @private * @function Highcharts.Series#searchKDTree */ searchKDTree(point, compareX, e) { const series = this, [kdX, kdY] = this.kdAxisArray, kdComparer = compareX ? 'distX' : 'dist', kdDimensions = (series.options.findNearestPointBy || '') .indexOf('y') > -1 ? 2 : 1, useRadius = !!series.isBubble; /** * Set the one and two dimensional distance on the point object. * @private */ function setDistance(p1, p2) { const p1kdX = p1[kdX], p2kdX = p2[kdX], x = (defined(p1kdX) && defined(p2kdX)) ? p1kdX - p2kdX : null, p1kdY = p1[kdY], p2kdY = p2[kdY], y = (defined(p1kdY) && defined(p2kdY)) ? p1kdY - p2kdY : 0, radius = useRadius ? (p2.marker?.radius || 0) : 0; p2.dist = Math.sqrt(((x && x * x) || 0) + y * y) - radius; p2.distX = defined(x) ? (Math.abs(x) - radius) : Number.MAX_VALUE; } /** * @private */ function doSearch(search, tree, depth, dimensions) { const point = tree.point, axis = series.kdAxisArray[depth % dimensions]; let nPoint1, nPoint2, ret = point; setDistance(search, point); // Pick side based on distance to splitting point const tdist = (search[axis] || 0) - (point[axis] || 0) + (useRadius ? (point.marker?.radius || 0) : 0), sideA = tdist < 0 ? 'left' : 'right', sideB = tdist < 0 ? 'right' : 'left'; // End of tree if (tree[sideA]) { nPoint1 = doSearch(search, tree[sideA], depth + 1, dimensions); ret = (nPoint1[kdComparer] < ret[kdComparer] ? nPoint1 : point); } if (tree[sideB]) { // Compare distance to current best to splitting point to decide // whether to check side B or not if (Math.sqrt(tdist * tdist) < ret[kdComparer]) { nPoint2 = doSearch(search, tree[sideB], depth + 1, dimensions); ret = (nPoint2[kdComparer] < ret[kdComparer] ? nPoint2 : ret); } } return ret; } if (!this.kdTree && !this.buildingKdTree) { this.buildKDTree(e); } if (this.kdTree) { return doSearch(point, this.kdTree, kdDimensions, kdDimensions); } } /** * @private * @function Highcharts.Series#pointPlacementToXValue */ pointPlacementToXValue() { const { options, xAxis } = this; let factor = options.pointPlacement; // Point placement is relative to each series pointRange (#5889) if (factor === 'between') { factor = xAxis.reversed ? -0.5 : 0.5; // #11955 } return isNumber(factor) ? factor * (options.pointRange || xAxis.pointRange) : 0; } /** * @private * @function Highcharts.Series#isPointInside */ isPointInside(point) { const { chart, xAxis, yAxis } = this, { plotX = -1, plotY = -1 } = point, isInside = (plotY >= 0 && plotY <= (yAxis ? yAxis.len : chart.plotHeight) && plotX >= 0 && plotX <= (xAxis ? xAxis.len : chart.plotWidth)); return isInside; } /** * 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. * @private */ drawTracker() { const series = this, options = series.options, trackByArea = options.trackByArea, trackerPath = [].concat((trackByArea ? series.areaPath : series.graphPath) || []), chart = series.chart, pointer = chart.pointer, renderer = chart.renderer, snap = chart.options.tooltip?.snap || 0, onMouseOver = () => { if (options.enableMouseTracking && chart.hoverSeries !== series) { series.onMouseOver(); } }, /* * Empirical lowest possible opacities for TRACKER_FILL for an * element to stay invisible but clickable * IE9: 0.00000000001 (unlimited) * IE10: 0.0001 (exporting only) * FF: 0.00000000001 (unlimited) * Chrome: 0.000001 * Safari: 0.000001 * Opera: 0.00000000001 (unlimited) */ TRACKER_FILL = 'rgba(192,192,192,' + (svg ? 0.0001 : 0.002) + ')'; let tracker = series.tracker; // Draw the tracker if (tracker) { tracker.attr({ d: trackerPath }); } else if (series.graph) { // Create series.tracker = tracker = renderer.path(trackerPath) .attr({ visibility: series.visible ? 'inherit' : 'hidden', zIndex: 2 }) .addClass(trackByArea ? 'highcharts-tracker-area' : 'highcharts-tracker-line') .add(series.group); if (!chart.styledMode) { tracker.attr({ 'stroke-linecap': 'round', 'stroke-linejoin': 'round', stroke: TRACKER_FILL, fill: trackByArea ? TRACKER_FILL : 'none', 'stroke-width': series.graph.strokeWidth() + (trackByArea ? 0 : 2 * snap) }); } // The tracker is added to the series group, which is clipped, but // is covered by the marker group. So the marker group also needs to // capture events. [ series.tracker, series.markerGroup, series.dataLabelsGroup ].forEach((tracker) => { if (tracker) { tracker.addClass('highcharts-tracker') .on('mouseover', onMouseOver) .on('mouseout', (e) => { pointer?.onTrackerMouseOut(e); }); if (options.cursor && !chart.styledMode) { tracker.css({ cursor: options.cursor }); } tracker.on('touchstart', onMouseOver); } }); } fireEvent(this, 'afterDrawTracker'); } /** * Add a point to the series after render time. The point can be added at * the end, or by giving it an X value, to the start or in the middle of the * series. * * @sample highcharts/members/series-addpoint-append/ * Append point * @sample highcharts/members/series-addpoint-append-and-shift/ * Append and shift * @sample highcharts/members/series-addpoint-x-and-y/ * Both X and Y values given * @sample highcharts/members/series-addpoint-pie/ * Append pie slice * @sample stock/members/series-addpoint/ * Append 100 points in Highcharts Stock * @sample stock/members/series-addpoint-shift/ * Append and shift in Highcharts Stock * @sample maps/members/series-addpoint/ * Add a point in Highmaps * * @function Highcharts.Series#addPoint * * @param {Highcharts.PointOptionsType} options * The point options. If options is a single number, a point with * that y value is appended to the series. If it is an array, it will * be interpreted as x and y values respectively. If it is an * object, advanced options as outlined under `series.data` are * applied. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the point is added. When adding * more than one point, it is highly recommended that the redraw * option be set to false, and instead {@link Chart#redraw} is * explicitly called after the adding of points is finished. * Otherwise, the chart will redraw after adding each point. * * @param {boolean} [shift=false] * If true, a point is shifted off the start of the series as one is * appended to the end. * * @param {boolean|Partial} [animation] * Whether to apply animation, and optionally animation * configuration. * * @param {boolean} [withEvent=true] * Used internally, whether to fire the series `addPoint` event. * * @emits Highcharts.Series#event:addPoint */ addPoint(options, redraw, shift, animation, withEvent) { const series = this, seriesOptions = series.options, data = series.data, chart = series.chart, xAxis = series.xAxis, names = xAxis && xAxis.hasNames && xAxis.names, dataOptions = seriesOptions.data, xData = series.xData; let isInTheMiddle, i; // 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. const point = { series: series }; series.pointClass.prototype.applyOptions.apply(point, [options]); const x = point.x; // Get the insertion point i = xData.length; if (series.requireSorting && x < xData[i - 1]) { isInTheMiddle = true; while (i && xData[i - 1] > x) { i--; } } // Insert undefined item series.updateParallelArrays(point, 'splice', [i, 0, 0]); // Update it series.updateParallelArrays(point, i); if (names && point.name) { names[x] = point.name; } dataOptions.splice(i, 0, options); if (isInTheMiddle || // When processedData is present we need to splice an empty slot // into series.data, otherwise generatePoints won't pick it up. series.processedData) { series.data.splice(i, 0, null); series.processData(); } // Generate points to be added to the legend (#1329) if (seriesOptions.legendType === 'point') { series.generatePoints(); } // Shift the first point off the parallel arrays if (shift) { if (data[0] && !!data[0].remove) { data[0].remove(false); } else { data.shift(); series.updateParallelArrays(point, 'shift'); dataOptions.shift(); } } // Fire event if (withEvent !== false) { fireEvent(series, 'addPoint', { point: point }); } // Redraw series.isDirty = true; series.isDirtyData = true; if (redraw) { chart.redraw(animation); // Animation is set anyway on redraw, #5665 } } /** * Remove a point from the series. Unlike the * {@link Highcharts.Point#remove} method, this can also be done on a point * that is not instantiated because it is outside the view or subject to * Highcharts Stock data grouping. * * @sample highcharts/members/series-removepoint/ * Remove cropped point * * @function Highcharts.Series#removePoint * * @param {number} i * The index of the point in the {@link Highcharts.Series.data|data} * array. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the point is added. When * removing more than one point, it is highly recommended that the * `redraw` option be set to `false`, and instead {@link * Highcharts.Chart#redraw} is explicitly called after the adding of * points is finished. * * @param {boolean|Partial} [animation] * Whether and optionally how the series should be animated. * * @emits Highcharts.Point#event:remove */ removePoint(i, redraw, animation) { const series = this, data = series.data, point = data[i], points = series.points, chart = series.chart, remove = function () { if (points && points.length === data.length) { // #4935 points.splice(i, 1); } data.splice(i, 1); series.options.data.splice(i, 1); series.updateParallelArrays(point || { series: series }, 'splice', [i, 1]); if (point) { point.destroy(); } // Redraw series.isDirty = true; series.isDirtyData = true; if (redraw) { chart.redraw(); } }; setAnimation(animation, chart); redraw = pick(redraw, true); // Fire the event with a default handler of removing the point if (point) { point.firePointEvent('remove', null, remove); } else { remove(); } } /** * Remove a series and optionally redraw the chart. * * @sample highcharts/members/series-remove/ * Remove first series from a button * * @function Highcharts.Series#remove * * @param {boolean} [redraw=true] * Whether to redraw the chart or wait for an explicit call to * {@link Highcharts.Chart#redraw}. * * @param {boolean|Partial} [animation] * Whether to apply animation, and optionally animation * configuration. * * @param {boolean} [withEvent=true] * Used internally, whether to fire the series `remove` event. * * @emits Highcharts.Series#event:remove */ remove(redraw, animation, withEvent, keepEvents) { const series = this, chart = series.chart; /** * @private */ function remove() { // Destroy elements series.destroy(keepEvents); // Redraw chart.isDirtyLegend = chart.isDirtyBox = true; chart.linkSeries(keepEvents); if (pick(redraw, true)) { chart.redraw(animation); } } // Fire the event with a default handler of removing the point if (withEvent !== false) { fireEvent(series, 'remove', null, remove); } else { remove(); } } /** * Update the series with a new set of options. For a clean and precise * handling of new options, all methods and elements from the series are * removed, and it is initialized from scratch. Therefore, this method is * more performance expensive than some other utility methods like {@link * Series#setData} or {@link Series#setVisible}. * * Note that `Series.update` may mutate the passed `data` options. * * @sample highcharts/members/series-update/ * Updating series options * @sample maps/members/series-update/ * Update series options in Highmaps * * @function Highcharts.Series#update * * @param {Highcharts.SeriesOptionsType} options * New options that will be merged with the series' existing options. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the series is altered. If doing * more operations on the chart, it is a good idea to set redraw to * false and call {@link Chart#redraw} after. * * @emits Highcharts.Series#event:update * @emits Highcharts.Series#event:afterUpdate */ update(options, redraw) { options = diffObjects(options, this.userOptions); fireEvent(this, 'update', { options: options }); const series = this, chart = series.chart, // Must use user options when changing type because series.options // is merged in with type specific plotOptions oldOptions = series.userOptions, initialType = series.initialType || series.type, plotOptions = chart.options.plotOptions, initialSeriesProto = seriesTypes[initialType].prototype, groups = [ 'group', 'markerGroup', 'dataLabelsGroup', 'transformGroup' ], optionsToCheck = [ 'dataGrouping', 'pointStart', 'pointInterval', 'pointIntervalUnit', 'keys' ], // Animation must be enabled when calling update before the initial // animation has first run. This happens when calling update // directly after chart initialization, or when applying responsive // rules (#6912). animation = series.finishedAnimating && { animation: false }, kinds = {}; let seriesOptions, n, preserve = [ 'colorIndex', 'eventOptions', 'navigatorSeries', 'symbolIndex', 'baseSeries' ], newType = (options.type || oldOptions.type || chart.options.chart.type); const keepPoints = !( // Indicators, histograms etc recalculate the data. It should be // possible to omit this. this.hasDerivedData || // New type requires new point classes (newType && newType !== this.type) || // New options affecting how the data points are built typeof options.pointStart !== 'undefined' || typeof options.pointInterval !== 'undefined' || typeof options.relativeXValue !== 'undefined' || options.joinBy || options.mapData || // #11636 // Changes to data grouping requires new points in new group optionsToCheck.some((option) => series.hasOptionChanged(option))); newType = newType || initialType; if (keepPoints) { preserve.push('data', 'isDirtyData', // GeoHeatMap interpolation 'isDirtyCanvas', 'points', 'processedData', // #17057 'processedXData', 'processedYData', 'xIncrement', 'cropped', '_hasPointMarkers', 'hasDataLabels', // Networkgraph (#14397) 'nodes', 'layout', // Treemap 'level', // Map specific, consider moving it to series-specific preserve- // properties (#10617) 'mapMap', 'mapData', 'minY', 'maxY', 'minX', 'maxX', 'transformGroups' // #18857 ); if (options.visible !== false) { preserve.push('area', 'graph'); } series.parallelArrays.forEach(function (key) { preserve.push(key + 'Data'); }); if (options.data) { // `setData` uses `dataSorting` options so we need to update // them earlier if (options.dataSorting) { extend(series.options.dataSorting, options.dataSorting); } this.setData(options.data, false); } } // Do the merge, with some forced options options = merge(oldOptions, { // When oldOptions.index is null it should't be cleared. // Otherwise navigator series will have wrong indexes (#10193). index: oldOptions.index === void 0 ? series.index : oldOptions.index, pointStart: // When updating from blank (#7933) plotOptions?.series?.pointStart ?? oldOptions.pointStart ?? // When updating after addPoint series.xData?.[0] }, !keepPoints && { data: series.options.data }, options, animation); // Merge does not merge arrays, but replaces them. Since points were // updated, `series.options.data` has correct merged options, use it: if (keepPoints && options.data) { options.data = series.options.data; } // Make sure preserved properties are not destroyed (#3094) preserve = groups.concat(preserve); preserve.forEach(function (prop) { preserve[prop] = series[prop]; delete series[prop]; }); let casting = false; if (seriesTypes[newType]) { casting = newType !== series.type; // Destroy the series and delete all properties, it will be // reinserted within the `init` call below series.remove(false, false, false, true); if (casting) { // #20264: Re-detect a certain chart properties from new series chart.propFromSeries(); // Modern browsers including IE11 if (Object.setPrototypeOf) { Object.setPrototypeOf(series, seriesTypes[newType].prototype); // Legacy (IE < 11) } else { const ownEvents = Object.hasOwnProperty.call(series, 'hcEvents') && series.hcEvents; for (n in initialSeriesProto) { // eslint-disable-line guard-for-in series[n] = void 0; } // Reinsert all methods and properties from the new type // prototype (#2270, #3719). extend(series, seriesTypes[newType].prototype); // The events are tied to the prototype chain, don't copy if // they're not the series' own if (ownEvents) { series.hcEvents = ownEvents; } else { delete series.hcEvents; } } } } else { error(17, true, chart, { missingModuleFor: newType }); } // Re-register groups (#3094) and other preserved properties preserve.forEach(function (prop) { series[prop] = preserve[prop]; }); series.init(chart, options); // Remove particular elements of the points. Check `series.options` // because we need to consider the options being set on plotOptions as // well. if (keepPoints && this.points) { seriesOptions = series.options; // What kind of elements to destroy if (seriesOptions.visible === false) { kinds.graphic = 1; kinds.dataLabel = 1; } else { // If the marker got disabled or changed its symbol, width or // height - destroy if (this.hasMarkerChanged(seriesOptions, oldOptions)) { kinds.graphic = 1; } if (!series.hasDataLabels?.()) { kinds.dataLabel = 1; } } for (const point of this.points) { if (point && point.series) { point.resolveColor(); // Destroy elements in order to recreate based on updated // series options. if (Object.keys(kinds).length) { point.destroyElements(kinds); } if (seriesOptions.showInLegend === false && point.legendItem) { chart.legend.destroyItem(point); } } } } series.initialType = initialType; chart.linkSeries(); // Links are lost in series.remove (#3028) // Set data for series with sorting enabled if it isn't set yet (#19715) chart.setSortedData(); // #15383: Fire updatedData if the type has changed to keep linked // series such as indicators updated if (casting && series.linkedSeries.length) { series.isDirtyData = true; } fireEvent(this, 'afterUpdate'); if (pick(redraw, true)) { chart.redraw(keepPoints ? void 0 : false); } } /** * Used from within series.update * @private */ setName(name) { this.name = this.options.name = this.userOptions.name = name; this.chart.isDirtyLegend = true; } /** * Check if the option has changed. * @private */ hasOptionChanged(optionName) { const chart = this.chart, option = this.options[optionName], plotOptions = chart.options.plotOptions, oldOption = this.userOptions[optionName], plotOptionsOption = pick(plotOptions?.[this.type]?.[optionName], plotOptions?.series?.[optionName]); // Check if `plotOptions` are defined already, #19203 if (oldOption && !defined(plotOptionsOption)) { return option !== oldOption; } return option !== pick(plotOptionsOption, option); } /** * Runs on mouse over the series graphical items. * * @function Highcharts.Series#onMouseOver * @emits Highcharts.Series#event:mouseOver */ onMouseOver() { const series = this, chart = series.chart, hoverSeries = chart.hoverSeries, pointer = chart.pointer; pointer?.setHoverChartIndex(); // 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'); /** * Contains the original hovered series. * * @name Highcharts.Chart#hoverSeries * @type {Highcharts.Series|null} */ chart.hoverSeries = series; } /** * Runs on mouse out of the series graphical items. * * @function Highcharts.Series#onMouseOut * * @emits Highcharts.Series#event:mouseOut */ onMouseOut() { // Trigger the event only if listeners exist const series = this, options = series.options, chart = series.chart, tooltip = chart.tooltip, hoverPoint = chart.hoverPoint; // #182, set to null before the mouseOut event fires chart.hoverSeries = null; // 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 && !series.stickyTracking && (!tooltip.shared || series.noSharedTooltip)) { tooltip.hide(); } // Reset all inactive states chart.series.forEach(function (s) { s.setState('', true); }); } /** * Set the state of the series. Called internally on mouse interaction * operations, but it can also be called directly to visually * highlight a series. * * @function Highcharts.Series#setState * * @param {Highcharts.SeriesStateValue|""} [state] * The new state, can be either `'hover'`, `'inactive'`, `'select'`, * or `''` (an empty string), `'normal'` or `undefined` to set to * normal state. * @param {boolean} [inherit] * Determines if state should be inherited by points too. */ setState(state, inherit) { const series = this, options = series.options, graph = series.graph, inactiveOtherPoints = options.inactiveOtherPoints, stateOptions = options.states, // By default a quick animation to hover/inactive, // slower to un-hover stateAnimation = pick((stateOptions[state || 'normal'] && stateOptions[state || 'normal'].animation), series.chart.options.chart.animation); let lineWidth = options.lineWidth, opacity = options.opacity; state = state || ''; if (series.state !== state) { // Toggle class names [ series.group, series.markerGroup, series.dataLabelsGroup ].forEach(function (group) { if (group) { // Old state if (series.state) { group.removeClass('highcharts-series-' + series.state); } // New state if (state) { group.addClass('highcharts-series-' + state); } } }); series.state = state; if (!series.chart.styledMode) { if (stateOptions[state] && stateOptions[state].enabled === false) { return; } if (state) { lineWidth = (stateOptions[state].lineWidth || lineWidth + (stateOptions[state].lineWidthPlus || 0)); // #4035 opacity = pick(stateOptions[state].opacity, opacity); } if (graph && !graph.dashstyle && isNumber(lineWidth)) { // Animate the graph stroke-width for (const graphElement of [ graph, ...this.zones.map((zone) => zone.graph) ]) { graphElement?.animate({ 'stroke-width': lineWidth }, stateAnimation); } } // For some types (pie, networkgraph, sankey) opacity is // resolved on a point level if (!inactiveOtherPoints) { [ series.group, series.markerGroup, series.dataLabelsGroup, series.labelBySeries ].forEach(function (group) { if (group) { group.animate({ opacity: opacity }, stateAnimation); } }); } } } // Don't loop over points on a series that doesn't apply inactive state // to siblings markers (e.g. line, column) if (inherit && inactiveOtherPoints && series.points) { series.setAllPointsToState(state || void 0); } } /** * Set the state for all points in the series. * * @function Highcharts.Series#setAllPointsToState * * @private * * @param {string} [state] * Can be either `hover` or undefined to set to normal state. */ setAllPointsToState(state) { this.points.forEach(function (point) { if (point.setState) { point.setState(state); } }); } /** * Show or hide the series. * * @function Highcharts.Series#setVisible * * @param {boolean} [visible] * True to show the series, false to hide. If undefined, the visibility is * toggled. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the series is altered. If doing more * operations on the chart, it is a good idea to set redraw to false and * call {@link Chart#redraw|chart.redraw()} after. * * @emits Highcharts.Series#event:hide * @emits Highcharts.Series#event:show */ setVisible(vis, redraw) { const series = this, chart = series.chart, ignoreHiddenSeries = chart.options.chart.ignoreHiddenSeries, oldVisibility = series.visible; // If called without an argument, toggle visibility series.visible = vis = series.options.visible = series.userOptions.visible = typeof vis === 'undefined' ? !oldVisibility : vis; // #5618 const showOrHide = vis ? 'show' : 'hide'; // Show or hide elements [ 'group', 'dataLabelsGroup', 'markerGroup', 'tracker', 'tt' ].forEach((key) => { series[key]?.[showOrHide](); }); // Hide tooltip (#1361) if (chart.hoverSeries === series || chart.hoverPoint?.series === series) { series.onMouseOut(); } if (series.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) { chart.series.forEach((otherSeries) => { if (otherSeries.options.stacking && otherSeries.visible) { otherSeries.isDirty = true; } }); } // Show or hide linked series series.linkedSeries.forEach((otherSeries) => { otherSeries.setVisible(vis, false); }); if (ignoreHiddenSeries) { chart.isDirtyBox = true; } fireEvent(series, showOrHide); if (redraw !== false) { chart.redraw(); } } /** * Show the series if hidden. * * @sample highcharts/members/series-hide/ * Toggle visibility from a button * * @function Highcharts.Series#show * @emits Highcharts.Series#event:show */ show() { this.setVisible(true); } /** * Hide the series if visible. If the * [chart.ignoreHiddenSeries](https://api.highcharts.com/highcharts/chart.ignoreHiddenSeries) * option is true, the chart is redrawn without this series. * * @sample highcharts/members/series-hide/ * Toggle visibility from a button * * @function Highcharts.Series#hide * @emits Highcharts.Series#event:hide */ hide() { this.setVisible(false); } /** * Select or unselect the series. This means its * {@link Highcharts.Series.selected|selected} * property is set, the checkbox in the legend is toggled and when selected, * the series is returned by the {@link Highcharts.Chart#getSelectedSeries} * function. * * @sample highcharts/members/series-select/ * Select a series from a button * * @function Highcharts.Series#select * * @param {boolean} [selected] * True to select the series, false to unselect. If undefined, the selection * state is toggled. * * @emits Highcharts.Series#event:select * @emits Highcharts.Series#event:unselect */ select(selected) { const series = this; series.selected = selected = this.options.selected = (typeof selected === 'undefined' ? !series.selected : selected); if (series.checkbox) { series.checkbox.checked = selected; } fireEvent(series, selected ? 'select' : 'unselect'); } /** * Checks if a tooltip should be shown for a given point. * * @private */ shouldShowTooltip(plotX, plotY, options = {}) { options.series = this; options.visiblePlotOnly = true; return this.chart.isInsidePlot(plotX, plotY, options); } /** * Draws the legend symbol based on the legendSymbol user option. * * @private */ drawLegendSymbol(legend, item) { LegendSymbol[this.options.legendSymbol || 'rectangle'] ?.call(this, legend, item); } } Series.defaultOptions = SeriesDefaults; /** * Registry of all available series types. * * @name Highcharts.Series.types * @type {Highcharts.Dictionary} */ Series.types = SeriesRegistry.seriesTypes; /* * * * Static Functions * * */ /** * Registers a series class to be accessible via `Series.types`. * * @function Highcharts.Series.registerType * * @param {string} seriesType * The series type as an identifier string in lower case. * * @param {Function} SeriesClass * The series class as a class pattern or a constructor function with * prototype. */ Series.registerType = SeriesRegistry.registerSeriesType; extend(Series.prototype, { axisTypes: ['xAxis', 'yAxis'], coll: 'series', colorCounter: 0, directTouch: false, invertible: true, isCartesian: true, kdAxisArray: ['clientX', 'plotY'], // Each point's x and y values are stored in this.xData and this.yData: parallelArrays: ['x', 'y'], pointClass: Point, requireSorting: true, // Requires the data to be sorted: sorted: true }); /* * * * Registry * * */ SeriesRegistry.series = Series; /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * This is a placeholder type of the possible series options for * [Highcharts](../highcharts/series), [Highcharts Stock](../highstock/series), * [Highmaps](../highmaps/series), and [Gantt](../gantt/series). * * In TypeScript is this dynamically generated to reference all possible types * of series options. * * @ignore-declaration * @typedef {Highcharts.SeriesOptions|Highcharts.Dictionary<*>} Highcharts.SeriesOptionsType */ /** * Options for `dataSorting`. * * @interface Highcharts.DataSortingOptionsObject * @since 8.0.0 */ /** * Enable or disable data sorting for the series. * @name Highcharts.DataSortingOptionsObject#enabled * @type {boolean|undefined} */ /** * Whether to allow matching points by name in an update. * @name Highcharts.DataSortingOptionsObject#matchByName * @type {boolean|undefined} */ /** * Determines what data value should be used to sort by. * @name Highcharts.DataSortingOptionsObject#sortKey * @type {string|undefined} */ /** * Function callback when a series has been animated. * * @callback Highcharts.SeriesAfterAnimateCallbackFunction * * @param {Highcharts.Series} this * The series where the event occurred. * * @param {Highcharts.SeriesAfterAnimateEventObject} event * Event arguments. */ /** * Event information regarding completed animation of a series. * * @interface Highcharts.SeriesAfterAnimateEventObject */ /** * Animated series. * @name Highcharts.SeriesAfterAnimateEventObject#target * @type {Highcharts.Series} */ /** * Event type. * @name Highcharts.SeriesAfterAnimateEventObject#type * @type {"afterAnimate"} */ /** * Function callback when the checkbox next to the series' name in the legend is * clicked. * * @callback Highcharts.SeriesCheckboxClickCallbackFunction * * @param {Highcharts.Series} this * The series where the event occurred. * * @param {Highcharts.SeriesCheckboxClickEventObject} event * Event arguments. */ /** * Event information regarding check of a series box. * * @interface Highcharts.SeriesCheckboxClickEventObject */ /** * Whether the box has been checked. * @name Highcharts.SeriesCheckboxClickEventObject#checked * @type {boolean} */ /** * Related series. * @name Highcharts.SeriesCheckboxClickEventObject#item * @type {Highcharts.Series} */ /** * Related series. * @name Highcharts.SeriesCheckboxClickEventObject#target * @type {Highcharts.Series} */ /** * Event type. * @name Highcharts.SeriesCheckboxClickEventObject#type * @type {"checkboxClick"} */ /** * Function callback when a series is clicked. Return false to cancel toogle * actions. * * @callback Highcharts.SeriesClickCallbackFunction * * @param {Highcharts.Series} this * The series where the event occurred. * * @param {Highcharts.SeriesClickEventObject} event * Event arguments. */ /** * Common information for a click event on a series. * * @interface Highcharts.SeriesClickEventObject * @extends global.Event */ /** * Nearest point on the graph. * @name Highcharts.SeriesClickEventObject#point * @type {Highcharts.Point} */ /** * Gets fired when the series is hidden after chart generation time, either by * clicking the legend item or by calling `.hide()`. * * @callback Highcharts.SeriesHideCallbackFunction * * @param {Highcharts.Series} this * The series where the event occurred. * * @param {global.Event} event * The event that occurred. */ /** * The SVG value used for the `stroke-linecap` and `stroke-linejoin` of a line * graph. * * @typedef {"butt"|"round"|"square"|string} Highcharts.SeriesLinecapValue */ /** * Gets fired when the legend item belonging to the series is clicked. The * default action is to toggle the visibility of the series. This can be * prevented by returning `false` or calling `event.preventDefault()`. * * @callback Highcharts.SeriesLegendItemClickCallbackFunction * * @param {Highcharts.Series} this * The series where the event occurred. * * @param {Highcharts.SeriesLegendItemClickEventObject} event * The event that occurred. */ /** * Information about the event. * * @interface Highcharts.SeriesLegendItemClickEventObject */ /** * Related browser event. * @name Highcharts.SeriesLegendItemClickEventObject#browserEvent * @type {global.PointerEvent} */ /** * Prevent the default action of toggle the visibility of the series. * @name Highcharts.SeriesLegendItemClickEventObject#preventDefault * @type {Function} */ /** * Related series. * @name Highcharts.SeriesCheckboxClickEventObject#target * @type {Highcharts.Series} */ /** * Event type. * @name Highcharts.SeriesCheckboxClickEventObject#type * @type {"checkboxClick"} */ /** * Gets fired when the mouse leaves the graph. * * @callback Highcharts.SeriesMouseOutCallbackFunction * * @param {Highcharts.Series} this * Series where the event occurred. * * @param {global.PointerEvent} event * Event that occurred. */ /** * Gets fired when the mouse enters the graph. * * @callback Highcharts.SeriesMouseOverCallbackFunction * * @param {Highcharts.Series} this * Series where the event occurred. * * @param {global.PointerEvent} event * Event that occurred. */ /** * Translation and scale for the plot area of a series. * * @interface Highcharts.SeriesPlotBoxObject */ /** * @name Highcharts.SeriesPlotBoxObject#scaleX * @type {number} */ /** * @name Highcharts.SeriesPlotBoxObject#scaleY * @type {number} */ /** * @name Highcharts.SeriesPlotBoxObject#translateX * @type {number} */ /** * @name Highcharts.SeriesPlotBoxObject#translateY * @type {number} */ /** * Gets fired when the series is shown after chart generation time, either by * clicking the legend item or by calling `.show()`. * * @callback Highcharts.SeriesShowCallbackFunction * * @param {Highcharts.Series} this * Series where the event occurred. * * @param {global.Event} event * Event that occurred. */ /** * Possible key values for the series state options. * * @typedef {"hover"|"inactive"|"normal"|"select"} Highcharts.SeriesStateValue */ ''; // Detach doclets above /* * * * API Options * * */ /** * Series options for specific data and the data itself. In TypeScript you * have to cast the series options to specific series types, to get all * possible options for a series. * * @example * // TypeScript example * Highcharts.chart('container', { * series: [{ * color: '#06C', * data: [[0, 1], [2, 3]] * } as Highcharts.SeriesLineOptions ] * }); * * @type {Array<*>} * @apioption series */ /** * An id for the series. This can be used after render time to get a pointer * to the series object through `chart.get()`. * * @sample {highcharts} highcharts/plotoptions/series-id/ * Get series by id * * @type {string} * @since 1.2.0 * @apioption series.id */ /** * The index of the series in the chart, affecting the internal index in the * `chart.series` array, the visible Z index as well as the order in the * legend. * * @type {number} * @since 2.3.0 * @apioption series.index */ /** * The sequential index of the series in the legend. * * @see [legend.reversed](#legend.reversed), * [yAxis.reversedStacks](#yAxis.reversedStacks) * * @sample {highcharts|highstock} highcharts/series/legendindex/ * Legend in opposite order * * @type {number} * @apioption series.legendIndex */ /** * The name of the series as shown in the legend, tooltip etc. * * @sample {highcharts} highcharts/series/name/ * Series name * @sample {highmaps} maps/demo/category-map/ * Series name * * @type {string} * @apioption series.name */ /** * This option allows grouping series in a stacked chart. The stack option * can be a string or anything else, as long as the grouped series' stack * options match each other after conversion into a string. * * @sample {highcharts} highcharts/series/stack/ * Stacked and grouped columns * * @type {number|string} * @since 2.1 * @product highcharts highstock * @apioption series.stack */ /** * The type of series, for example `line` or `column`. By default, the * series type is inherited from [chart.type](#chart.type), so unless the * chart is a combination of series types, there is no need to set it on the * series level. * * @sample {highcharts} highcharts/series/type/ * Line and column in the same chart * @sample highcharts/series/type-dynamic/ * Dynamic types with button selector * @sample {highmaps} maps/demo/mapline-mappoint/ * Multiple types in the same map * * @type {string} * @apioption series.type */ /** * When using dual or multiple x axes, this number defines which xAxis the * particular series is connected to. It refers to either the * {@link #xAxis.id|axis id} * or the index of the axis in the xAxis array, with 0 being the first. * * @type {number|string} * @default 0 * @product highcharts highstock * @apioption series.xAxis */ /** * When using dual or multiple y axes, this number defines which yAxis the * particular series is connected to. It refers to either the * {@link #yAxis.id|axis id} * or the index of the axis in the yAxis array, with 0 being the first. * * @sample {highcharts} highcharts/series/yaxis/ * Apply the column series to the secondary Y axis * * @type {number|string} * @default 0 * @product highcharts highstock * @apioption series.yAxis */ /** * Define the visual z index of the series. * * @sample {highcharts} highcharts/plotoptions/series-zindex-default/ * With no z index, the series defined last are on top * @sample {highcharts} highcharts/plotoptions/series-zindex/ * With a z index, the series with the highest z index is on top * @sample {highstock} highcharts/plotoptions/series-zindex-default/ * With no z index, the series defined last are on top * @sample {highstock} highcharts/plotoptions/series-zindex/ * With a z index, the series with the highest z index is on top * * @type {number} * @product highcharts highstock * @apioption series.zIndex */ ''; // Include precedent doclets in transpiled return Series; }); _registerModule(_modules, 'Core/Chart/Chart.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Axis/Axis.js'], _modules['Core/Defaults.js'], _modules['Core/Templating.js'], _modules['Core/Foundation.js'], _modules['Core/Globals.js'], _modules['Core/Renderer/RendererRegistry.js'], _modules['Core/Series/Series.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Renderer/SVG/SVGRenderer.js'], _modules['Core/Time.js'], _modules['Core/Utilities.js'], _modules['Core/Renderer/HTML/AST.js'], _modules['Core/Axis/Tick.js']], function (A, Axis, D, Templating, Foundation, H, RendererRegistry, Series, SeriesRegistry, SVGRenderer, Time, U, AST, Tick) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { animate, animObject, setAnimation } = A; const { defaultOptions, defaultTime } = D; const { numberFormat } = Templating; const { registerEventOptions } = Foundation; const { charts, doc, marginNames, svg, win } = H; const { seriesTypes } = SeriesRegistry; const { addEvent, attr, createElement, css, defined, diffObjects, discardElement, erase, error, extend, find, fireEvent, getStyle, isArray, isNumber, isObject, isString, merge, objectEach, pick, pInt, relativeLength, removeEvent, splat, syncTimeout, uniqueKey } = U; /* * * * Class * * */ /* eslint-disable no-invalid-this, valid-jsdoc */ /** * The Chart class. The recommended constructor is {@link Highcharts#chart}. * * @example * let chart = Highcharts.chart('container', { * title: { * text: 'My chart' * }, * series: [{ * data: [1, 3, 2, 4] * }] * }) * * @class * @name Highcharts.Chart * * @param {string|Highcharts.HTMLDOMElement} [renderTo] * The DOM element to render to, or its id. * * @param {Highcharts.Options} options * The chart options structure. * * @param {Highcharts.ChartCallbackFunction} [callback] * Function to run when the chart has loaded and all external images * are loaded. Defining a * [chart.events.load](https://api.highcharts.com/highcharts/chart.events.load) * handler is equivalent. */ class Chart { /** * Factory function for basic charts. * * @example * // Render a chart in to div#container * let chart = Highcharts.chart('container', { * title: { * text: 'My chart' * }, * series: [{ * data: [1, 3, 2, 4] * }] * }); * * @function Highcharts.chart * * @param {string|Highcharts.HTMLDOMElement} [renderTo] * The DOM element to render to, or its id. * * @param {Highcharts.Options} options * The chart options structure. * * @param {Highcharts.ChartCallbackFunction} [callback] * Function to run when the chart has loaded and all external images are * loaded. Defining a * [chart.events.load](https://api.highcharts.com/highcharts/chart.events.load) * handler is equivalent. * * @return {Highcharts.Chart} * Returns the Chart object. */ static chart(a, b, c) { return new Chart(a, b, c); } // Implementation constructor(a, /* eslint-disable @typescript-eslint/no-unused-vars */ b, c /* eslint-enable @typescript-eslint/no-unused-vars */ ) { this.sharedClips = {}; const args = [ // ES5 builds fail unless we cast it to an Array ...arguments ]; // Remove the optional first argument, renderTo, and set it on this. if (isString(a) || a.nodeName) { this.renderTo = args.shift(); } this.init(args[0], args[1]); } /* * * * Functions * * */ /** * Function setting zoom options after chart init and after chart update. * Offers support for deprecated options. * * @private * @function Highcharts.Chart#setZoomOptions */ setZoomOptions() { const chart = this, options = chart.options.chart, zooming = options.zooming; chart.zooming = { ...zooming, type: pick(options.zoomType, zooming.type), key: pick(options.zoomKey, zooming.key), pinchType: pick(options.pinchType, zooming.pinchType), singleTouch: pick(options.zoomBySingleTouch, zooming.singleTouch, false), resetButton: merge(zooming.resetButton, options.resetZoomButton) }; } /** * Overridable function that initializes the chart. The constructor's * arguments are passed on directly. * * @function Highcharts.Chart#init * * @param {Highcharts.Options} userOptions * Custom options. * * @param {Function} [callback] * Function to run when the chart has loaded and all external * images are loaded. * * * @emits Highcharts.Chart#event:init * @emits Highcharts.Chart#event:afterInit */ init(userOptions, callback) { // Fire the event with a default function fireEvent(this, 'init', { args: arguments }, function () { const options = merge(defaultOptions, userOptions), // Do the merge optionsChart = options.chart; /** * The original options given to the constructor or a chart factory * like {@link Highcharts.chart} and {@link Highcharts.stockChart}. * The original options are shallow copied to avoid mutation. The * copy, `chart.userOptions`, may later be mutated to reflect * updated options throughout the lifetime of the chart. * * For collections, like `series`, `xAxis` and `yAxis`, the chart * user options should always be reflected by the item user option, * so for example the following should always be true: * * `chart.xAxis[0].userOptions === chart.userOptions.xAxis[0]` * * @name Highcharts.Chart#userOptions * @type {Highcharts.Options} */ this.userOptions = extend({}, userOptions); this.margin = []; this.spacing = []; // An array of functions that returns labels that should be // considered for anti-collision this.labelCollectors = []; this.callback = callback; this.isResizing = 0; /** * The options structure for the chart after merging * {@link #defaultOptions} and {@link #userOptions}. It contains * members for the sub elements like series, legend, tooltip etc. * * @name Highcharts.Chart#options * @type {Highcharts.Options} */ this.options = options; /** * All the axes in the chart. * * @see Highcharts.Chart.xAxis * @see Highcharts.Chart.yAxis * * @name Highcharts.Chart#axes * @type {Array} */ this.axes = []; /** * All the current series in the chart. * * @name Highcharts.Chart#series * @type {Array} */ this.series = []; /** * The `Time` object associated with the chart. Since v6.0.5, * time settings can be applied individually for each chart. If * no individual settings apply, the `Time` object is shared by * all instances. * * @name Highcharts.Chart#time * @type {Highcharts.Time} */ this.time = userOptions.time && Object.keys(userOptions.time).length ? new Time(userOptions.time) : H.time; /** * Callback function to override the default function that formats * all the numbers in the chart. Returns a string with the formatted * number. * * @name Highcharts.Chart#numberFormatter * @type {Highcharts.NumberFormatterCallbackFunction} */ this.numberFormatter = optionsChart.numberFormatter || numberFormat; /** * Whether the chart is in styled mode, meaning all presentational * attributes are avoided. * * @name Highcharts.Chart#styledMode * @type {boolean} */ this.styledMode = optionsChart.styledMode; this.hasCartesianSeries = optionsChart.showAxes; const chart = this; /** * Index position of the chart in the {@link Highcharts#charts} * property. * * @name Highcharts.Chart#index * @type {number} * @readonly */ chart.index = charts.length; // Add the chart to the global lookup charts.push(chart); H.chartCount++; // Chart event handlers registerEventOptions(this, optionsChart); /** * A collection of the X axes in the chart. * * @name Highcharts.Chart#xAxis * @type {Array} */ chart.xAxis = []; /** * A collection of the Y axes in the chart. * * @name Highcharts.Chart#yAxis * @type {Array} * * @todo * Make events official: Fire the event `afterInit`. */ chart.yAxis = []; chart.pointCount = chart.colorCounter = chart.symbolCounter = 0; this.setZoomOptions(); // Fire after init but before first render, before axes and series // have been initialized. fireEvent(chart, 'afterInit'); chart.firstRender(); }); } /** * Internal function to unitialize an individual series. * * @private * @function Highcharts.Chart#initSeries */ initSeries(options) { const chart = this, optionsChart = chart.options.chart, type = (options.type || optionsChart.type), SeriesClass = seriesTypes[type]; // No such series type if (!SeriesClass) { error(17, true, chart, { missingModuleFor: type }); } const series = new SeriesClass(); if (typeof series.init === 'function') { series.init(chart, options); } return series; } /** * Internal function to set data for all series with enabled sorting. * * @private * @function Highcharts.Chart#setSortedData */ setSortedData() { this.getSeriesOrderByLinks().forEach(function (series) { // We need to set data for series with sorting after series init if (!series.points && !series.data && series.enabledDataSorting) { series.setData(series.options.data, false); } }); } /** * Sort and return chart series in order depending on the number of linked * series. * * @private * @function Highcharts.Series#getSeriesOrderByLinks */ getSeriesOrderByLinks() { return this.series.concat().sort(function (a, b) { if (a.linkedSeries.length || b.linkedSeries.length) { return b.linkedSeries.length - a.linkedSeries.length; } return 0; }); } /** * Order all series or axes above a given index. When series or axes are * added and ordered by configuration, only the last series is handled * (#248, #1123, #2456, #6112). This function is called on series and axis * initialization and destroy. * * @private * @function Highcharts.Chart#orderItems * @param {string} coll The collection name * @param {number} [fromIndex=0] * If this is given, only the series above this index are handled. */ orderItems(coll, fromIndex = 0) { const collection = this[coll], // Item options should be reflected in chart.options.series, // chart.options.yAxis etc optionsArray = this.options[coll] = splat(this.options[coll]) .slice(), userOptionsArray = this.userOptions[coll] = this.userOptions[coll] ? splat(this.userOptions[coll]).slice() : []; if (this.hasRendered) { // Remove all above index optionsArray.splice(fromIndex); userOptionsArray.splice(fromIndex); } if (collection) { for (let i = fromIndex, iEnd = collection.length; i < iEnd; ++i) { const item = collection[i]; if (item) { /** * Contains the series' index in the `Chart.series` array. * * @name Highcharts.Series#index * @type {number} * @readonly */ item.index = i; if (item instanceof Series) { item.name = item.getName(); } if (!item.options.isInternal) { optionsArray[i] = item.options; userOptionsArray[i] = item.userOptions; } } } } } /** * Check whether a given point is within the plot area. * * @function Highcharts.Chart#isInsidePlot * * @param {number} plotX * Pixel x relative to the plot area. * * @param {number} plotY * Pixel y relative to the plot area. * * @param {Highcharts.ChartIsInsideOptionsObject} [options] * Options object. * * @return {boolean} * Returns true if the given point is inside the plot area. */ isInsidePlot(plotX, plotY, options = {}) { const { inverted, plotBox, plotLeft, plotTop, scrollablePlotBox } = this, { scrollLeft = 0, scrollTop = 0 } = (options.visiblePlotOnly && this.scrollablePlotArea?.scrollingContainer) || {}, series = options.series, box = (options.visiblePlotOnly && scrollablePlotBox) || plotBox, x = options.inverted ? plotY : plotX, y = options.inverted ? plotX : plotY, e = { x, y, isInsidePlot: true, options }; if (!options.ignoreX) { const xAxis = (series && (inverted && !this.polar ? series.yAxis : series.xAxis)) || { pos: plotLeft, len: Infinity }; const chartX = options.paneCoordinates ? xAxis.pos + x : plotLeft + x; if (!(chartX >= Math.max(scrollLeft + plotLeft, xAxis.pos) && chartX <= Math.min(scrollLeft + plotLeft + box.width, xAxis.pos + xAxis.len))) { e.isInsidePlot = false; } } if (!options.ignoreY && e.isInsidePlot) { const yAxis = (!inverted && options.axis && !options.axis.isXAxis && options.axis) || (series && (inverted ? series.xAxis : series.yAxis)) || { pos: plotTop, len: Infinity }; const chartY = options.paneCoordinates ? yAxis.pos + y : plotTop + y; if (!(chartY >= Math.max(scrollTop + plotTop, yAxis.pos) && chartY <= Math.min(scrollTop + plotTop + box.height, yAxis.pos + yAxis.len))) { e.isInsidePlot = false; } } fireEvent(this, 'afterIsInsidePlot', e); return e.isInsidePlot; } /** * Redraw the chart after changes have been done to the data, axis extremes * chart size or chart elements. All methods for updating axes, series or * points have a parameter for redrawing the chart. This is `true` by * default. But in many cases you want to do more than one operation on the * chart before redrawing, for example add a number of points. In those * cases it is a waste of resources to redraw the chart for each new point * added. So you add the points and call `chart.redraw()` after. * * @function Highcharts.Chart#redraw * * @param {boolean|Partial} [animation] * If or how to apply animation to the redraw. When `undefined`, it applies * the animation that is set in the `chart.animation` option. * * @emits Highcharts.Chart#event:afterSetExtremes * @emits Highcharts.Chart#event:beforeRedraw * @emits Highcharts.Chart#event:predraw * @emits Highcharts.Chart#event:redraw * @emits Highcharts.Chart#event:render * @emits Highcharts.Chart#event:updatedData */ redraw(animation) { fireEvent(this, 'beforeRedraw'); const chart = this, axes = chart.hasCartesianSeries ? chart.axes : chart.colorAxis || [], series = chart.series, pointer = chart.pointer, legend = chart.legend, legendUserOptions = chart.userOptions.legend, renderer = chart.renderer, isHiddenChart = renderer.isHidden(), afterRedraw = []; let hasDirtyStacks, hasStackedSeries, i, isDirtyBox = chart.isDirtyBox, redrawLegend = chart.isDirtyLegend, serie; renderer.rootFontSize = renderer.boxWrapper.getStyle('font-size'); // Handle responsive rules, not only on resize (#6130) if (chart.setResponsive) { chart.setResponsive(false); } // Set the global animation. When chart.hasRendered is not true, the // redraw call comes from a responsive rule and animation should not // occur. setAnimation(chart.hasRendered ? animation : false, chart); if (isHiddenChart) { chart.temporaryDisplay(); } // Adjust title layout (reflow multiline text) chart.layOutTitles(false); // Link stacked series i = series.length; while (i--) { serie = series[i]; if (serie.options.stacking || serie.options.centerInCategory) { hasStackedSeries = true; if (serie.isDirty) { hasDirtyStacks = true; break; } } } if (hasDirtyStacks) { // Mark others as dirty i = series.length; while (i--) { serie = series[i]; if (serie.options.stacking) { serie.isDirty = true; } } } // Handle updated data in the series series.forEach(function (serie) { if (serie.isDirty) { if (serie.options.legendType === 'point') { if (typeof serie.updateTotals === 'function') { serie.updateTotals(); } redrawLegend = true; } else if (legendUserOptions && (!!legendUserOptions.labelFormatter || legendUserOptions.labelFormat)) { redrawLegend = true; // #2165 } } if (serie.isDirtyData) { fireEvent(serie, 'updatedData'); } }); // Handle added or removed series if (redrawLegend && legend && legend.options.enabled) { // Draw legend graphics legend.render(); chart.isDirtyLegend = false; } // Reset stacks if (hasStackedSeries) { chart.getStacks(); } // Set axes scales axes.forEach(function (axis) { axis.updateNames(); axis.setScale(); }); chart.getMargins(); // #3098 // If one axis is dirty, all axes must be redrawn (#792, #2169) axes.forEach(function (axis) { if (axis.isDirty) { isDirtyBox = true; } }); // Redraw axes axes.forEach(function (axis) { // Fire 'afterSetExtremes' only if extremes are set const key = axis.min + ',' + axis.max; if (axis.extKey !== key) { // #821, #4452 axis.extKey = key; // Prevent a recursive call to chart.redraw() (#1119) afterRedraw.push(function () { fireEvent(axis, 'afterSetExtremes', extend(axis.eventArgs, axis.getExtremes())); // #747, #751 delete axis.eventArgs; }); } if (isDirtyBox || hasStackedSeries) { axis.redraw(); } }); // The plot areas size has changed if (isDirtyBox) { chart.drawChartBox(); } // Fire an event before redrawing series, used by the boost module to // clear previous series renderings. fireEvent(chart, 'predraw'); // Redraw affected series series.forEach(function (serie) { if ((isDirtyBox || serie.isDirty) && serie.visible) { serie.redraw(); } // Set it here, otherwise we will have unlimited 'updatedData' calls // for a hidden series after setData(). Fixes #6012 serie.isDirtyData = false; }); // Move tooltip or reset if (pointer) { pointer.reset(true); } // Redraw if canvas renderer.draw(); // Fire the events fireEvent(chart, 'redraw'); fireEvent(chart, 'render'); if (isHiddenChart) { chart.temporaryDisplay(true); } // Fire callbacks that are put on hold until after the redraw afterRedraw.forEach(function (callback) { callback.call(); }); } /** * Get an axis, series or point object by `id` as given in the configuration * options. Returns `undefined` if no item is found. * * @sample highcharts/plotoptions/series-id/ * Get series by id * * @function Highcharts.Chart#get * * @param {string} id * The id as given in the configuration options. * * @return {Highcharts.Axis|Highcharts.Series|Highcharts.Point|undefined} * The retrieved item. */ get(id) { const series = this.series; /** * @private */ function itemById(item) { return (item.id === id || (item.options && item.options.id === id)); } let ret = // Search axes find(this.axes, itemById) || // Search series find(this.series, itemById); // Search points for (let i = 0; !ret && i < series.length; i++) { ret = find(series[i].points || [], itemById); } return ret; } /** * Create the Axis instances based on the config options. * * @private * @function Highcharts.Chart#getAxes * @emits Highcharts.Chart#event:afterGetAxes * @emits Highcharts.Chart#event:getAxes */ getAxes() { const options = this.userOptions; fireEvent(this, 'getAxes'); for (const coll of ['xAxis', 'yAxis']) { const arr = options[coll] = splat(options[coll] || {}); for (const axisOptions of arr) { // eslint-disable-next-line no-new new Axis(this, axisOptions, coll); } } fireEvent(this, 'afterGetAxes'); } /** * Returns an array of all currently selected points in the chart. Points * can be selected by clicking or programmatically by the * {@link Highcharts.Point#select} * function. * * @sample highcharts/plotoptions/series-allowpointselect-line/ * Get selected points * @sample highcharts/members/point-select-lasso/ * Lasso selection * @sample highcharts/chart/events-selection-points/ * Rectangle selection * * @function Highcharts.Chart#getSelectedPoints * * @return {Array} * The currently selected points. */ getSelectedPoints() { return this.series.reduce((acc, series) => { // For one-to-one points inspect series.data in order to retrieve // points outside the visible range (#6445). For grouped data, // inspect the generated series.points. series.getPointsCollection() .forEach((point) => { if (pick(point.selectedStaging, point.selected)) { acc.push(point); } }); return acc; }, []); } /** * Returns an array of all currently selected series in the chart. Series * can be selected either programmatically by the * {@link Highcharts.Series#select} * function or by checking the checkbox next to the legend item if * [series.showCheckBox](https://api.highcharts.com/highcharts/plotOptions.series.showCheckbox) * is true. * * @sample highcharts/members/chart-getselectedseries/ * Get selected series * * @function Highcharts.Chart#getSelectedSeries * * @return {Array} * The currently selected series. */ getSelectedSeries() { return this.series.filter(function (serie) { return serie.selected; }); } /** * Set a new title or subtitle for the chart. * * @sample highcharts/members/chart-settitle/ * Set title text and styles * * @function Highcharts.Chart#setTitle * * @param {Highcharts.TitleOptions} [titleOptions] * New title options. The title text itself is set by the * `titleOptions.text` property. * * @param {Highcharts.SubtitleOptions} [subtitleOptions] * New subtitle options. The subtitle text itself is set by the * `subtitleOptions.text` property. * * @param {boolean} [redraw] * Whether to redraw the chart or wait for a later call to * `chart.redraw()`. */ setTitle(titleOptions, subtitleOptions, redraw) { this.applyDescription('title', titleOptions); this.applyDescription('subtitle', subtitleOptions); // The initial call also adds the caption. On update, chart.update will // relay to Chart.setCaption. this.applyDescription('caption', void 0); this.layOutTitles(redraw); } /** * Apply a title, subtitle or caption for the chart * * @private * @function Highcharts.Chart#applyDescription * @param name {string} * Either title, subtitle or caption * @param {Highcharts.TitleOptions|Highcharts.SubtitleOptions|Highcharts.CaptionOptions|undefined} explicitOptions * The options to set, will be merged with default options. */ applyDescription(name, explicitOptions) { const chart = this; // Merge default options with explicit options const options = this.options[name] = merge(this.options[name], explicitOptions); let elem = this[name]; if (elem && explicitOptions) { this[name] = elem = elem.destroy(); // Remove old } if (options && !elem) { elem = this.renderer.text(options.text, 0, 0, options.useHTML) .attr({ align: options.align, 'class': 'highcharts-' + name, zIndex: options.zIndex || 4 }) .add(); // Update methods, relay to `applyDescription` elem.update = function (updateOptions, redraw) { chart.applyDescription(name, updateOptions); chart.layOutTitles(redraw); }; // Presentational if (!this.styledMode) { elem.css(extend(name === 'title' ? { // #2944 fontSize: this.options.isStock ? '1em' : '1.2em' } : {}, options.style)); } /** * The chart title. The title has an `update` method that allows * modifying the options directly or indirectly via * `chart.update`. * * @sample highcharts/members/title-update/ * Updating titles * * @name Highcharts.Chart#title * @type {Highcharts.TitleObject} */ /** * The chart subtitle. The subtitle has an `update` method that * allows modifying the options directly or indirectly via * `chart.update`. * * @name Highcharts.Chart#subtitle * @type {Highcharts.SubtitleObject} */ this[name] = elem; } } /** * Internal function to lay out the chart title, subtitle and caption, and * cache the full offset height for use in `getMargins`. The result is * stored in `this.titleOffset`. * * @private * @function Highcharts.Chart#layOutTitles * * @param {boolean} [redraw=true] * @emits Highcharts.Chart#event:afterLayOutTitles */ layOutTitles(redraw = true) { const titleOffset = [0, 0, 0], renderer = this.renderer, spacingBox = this.spacingBox; // Lay out the title and the subtitle respectively ['title', 'subtitle', 'caption'].forEach(function (key) { const title = this[key], titleOptions = (this.options[key]), verticalAlign = titleOptions.verticalAlign || 'top', offset = key === 'title' ? verticalAlign === 'top' ? -3 : 0 : // Floating subtitle (#6574) verticalAlign === 'top' ? titleOffset[0] + 2 : 0; if (title) { title .css({ width: (titleOptions.width || spacingBox.width + (titleOptions.widthAdjust || 0)) + 'px' }); const baseline = renderer.fontMetrics(title).b, // Skip the cache for HTML (#3481, #11666) height = Math.round(title.getBBox(titleOptions.useHTML).height); title.align(extend({ y: verticalAlign === 'bottom' ? baseline : offset + baseline, height }, titleOptions), false, 'spacingBox'); if (!titleOptions.floating) { if (verticalAlign === 'top') { titleOffset[0] = Math.ceil(titleOffset[0] + height); } else if (verticalAlign === 'bottom') { titleOffset[2] = Math.ceil(titleOffset[2] + height); } } } }, this); // Handle title.margin and caption.margin if (titleOffset[0] && (this.options.title.verticalAlign || 'top') === 'top') { titleOffset[0] += this.options.title.margin; } if (titleOffset[2] && this.options.caption.verticalAlign === 'bottom') { titleOffset[2] += this.options.caption.margin; } const requiresDirtyBox = (!this.titleOffset || this.titleOffset.join(',') !== titleOffset.join(',')); // Used in getMargins this.titleOffset = titleOffset; fireEvent(this, 'afterLayOutTitles'); if (!this.isDirtyBox && requiresDirtyBox) { this.isDirtyBox = this.isDirtyLegend = requiresDirtyBox; // Redraw if necessary (#2719, #2744) if (this.hasRendered && redraw && this.isDirtyBox) { this.redraw(); } } } /** * Internal function to get the available size of the container element * * @private * @function Highcharts.Chart#getContainerBox */ getContainerBox() { return { width: getStyle(this.renderTo, 'width', true) || 0, height: getStyle(this.renderTo, 'height', true) || 0 }; } /** * Internal function to get the chart width and height according to options * and container size. Sets {@link Chart.chartWidth} and * {@link Chart.chartHeight}. * * @private * @function Highcharts.Chart#getChartSize */ getChartSize() { const chart = this, optionsChart = chart.options.chart, widthOption = optionsChart.width, heightOption = optionsChart.height, containerBox = chart.getContainerBox(); /** * The current pixel width of the chart. * * @name Highcharts.Chart#chartWidth * @type {number} */ chart.chartWidth = Math.max(// #1393 0, widthOption || containerBox.width || 600 // #1460 ); /** * The current pixel height of the chart. * * @name Highcharts.Chart#chartHeight * @type {number} */ chart.chartHeight = Math.max(0, relativeLength(heightOption, chart.chartWidth) || (containerBox.height > 1 ? containerBox.height : 400)); chart.containerBox = containerBox; } /** * If the renderTo element has no offsetWidth, most likely one or more of * its parents are hidden. Loop up the DOM tree to temporarily display the * parents, then save the original display properties, and when the true * size is retrieved, reset them. Used on first render and on redraws. * * @private * @function Highcharts.Chart#temporaryDisplay * * @param {boolean} [revert] * Revert to the saved original styles. */ temporaryDisplay(revert) { let node = this.renderTo, tempStyle; if (!revert) { while (node && node.style) { // When rendering to a detached node, it needs to be temporarily // attached in order to read styling and bounding boxes (#5783, // #7024). if (!doc.body.contains(node) && !node.parentNode) { node.hcOrigDetached = true; doc.body.appendChild(node); } if (getStyle(node, 'display', false) === 'none' || node.hcOricDetached) { node.hcOrigStyle = { display: node.style.display, height: node.style.height, overflow: node.style.overflow }; tempStyle = { display: 'block', overflow: 'hidden' }; if (node !== this.renderTo) { tempStyle.height = 0; } css(node, tempStyle); // If it still doesn't have an offset width after setting // display to block, it probably has an !important priority // #2631, 6803 if (!node.offsetWidth) { node.style.setProperty('display', 'block', 'important'); } } node = node.parentNode; if (node === doc.body) { break; } } } else { while (node && node.style) { if (node.hcOrigStyle) { css(node, node.hcOrigStyle); delete node.hcOrigStyle; } if (node.hcOrigDetached) { doc.body.removeChild(node); node.hcOrigDetached = false; } node = node.parentNode; } } } /** * Set the {@link Chart.container|chart container's} class name, in * addition to `highcharts-container`. * * @function Highcharts.Chart#setClassName * * @param {string} [className] * The additional class name. */ setClassName(className) { this.container.className = 'highcharts-container ' + (className || ''); } /** * Get the containing element, determine the size and create the inner * container div to hold the chart. * * @private * @function Highcharts.Chart#afterGetContainer * @emits Highcharts.Chart#event:afterGetContainer */ getContainer() { const chart = this, options = chart.options, optionsChart = options.chart, indexAttrName = 'data-highcharts-chart', containerId = uniqueKey(); let containerStyle, renderTo = chart.renderTo; if (!renderTo) { chart.renderTo = renderTo = optionsChart.renderTo; } if (isString(renderTo)) { chart.renderTo = renderTo = doc.getElementById(renderTo); } // Display an error if the renderTo is wrong if (!renderTo) { error(13, true, chart); } // If the container already holds a chart, destroy it. The check for // hasRendered is there because web pages that are saved to disk from // the browser, will preserve the data-highcharts-chart attribute and // the SVG contents, but not an interactive chart. So in this case, // charts[oldChartIndex] will point to the wrong chart if any (#2609). const oldChartIndex = pInt(attr(renderTo, indexAttrName)); if (isNumber(oldChartIndex) && charts[oldChartIndex] && charts[oldChartIndex].hasRendered) { charts[oldChartIndex].destroy(); } // Make a reference to the chart from the div attr(renderTo, indexAttrName, chart.index); // Remove previous chart renderTo.innerHTML = AST.emptyHTML; // If the container doesn't have an offsetWidth, it has or is a child of // a node that has display:none. We need to temporarily move it out to a // visible state to determine the size, else the legend and tooltips // won't render properly. The skipClone option is used in sparklines as // a micro optimization, saving about 1-2 ms each chart. if (!optionsChart.skipClone && !renderTo.offsetWidth) { chart.temporaryDisplay(); } // Get the width and height chart.getChartSize(); const chartHeight = chart.chartHeight; let chartWidth = chart.chartWidth; // Allow table cells and flex-boxes to shrink without the chart blocking // them out (#6427) css(renderTo, { overflow: 'hidden' }); // Create the inner container if (!chart.styledMode) { containerStyle = extend({ position: 'relative', // Needed for context menu (avoidscrollbars) and content // overflow in IE overflow: 'hidden', width: chartWidth + 'px', height: chartHeight + 'px', textAlign: 'left', lineHeight: 'normal', zIndex: 0, '-webkit-tap-highlight-color': 'rgba(0,0,0,0)', userSelect: 'none', 'touch-action': 'manipulation', outline: 'none' }, optionsChart.style || {}); } /** * The containing HTML element of the chart. The container is * dynamically inserted into the element given as the `renderTo` * parameter in the {@link Highcharts#chart} constructor. * * @name Highcharts.Chart#container * @type {Highcharts.HTMLDOMElement} */ const container = createElement('div', { id: containerId }, containerStyle, renderTo); chart.container = container; // Adjust width if setting height affected it (#20334) chart.getChartSize(); if (chartWidth !== chart.chartWidth) { chartWidth = chart.chartWidth; if (!chart.styledMode) { css(container, { width: pick(optionsChart.style?.width, chartWidth + 'px') }); } } chart.containerBox = chart.getContainerBox(); // Cache the cursor (#1650) chart._cursor = container.style.cursor; // Initialize the renderer const Renderer = optionsChart.renderer || !svg ? RendererRegistry.getRendererType(optionsChart.renderer) : SVGRenderer; /** * The renderer instance of the chart. Each chart instance has only one * associated renderer. * * @name Highcharts.Chart#renderer * @type {Highcharts.SVGRenderer} */ chart.renderer = new Renderer(container, chartWidth, chartHeight, void 0, optionsChart.forExport, options.exporting && options.exporting.allowHTML, chart.styledMode); // Set the initial animation from the options setAnimation(void 0, chart); chart.setClassName(optionsChart.className); if (!chart.styledMode) { chart.renderer.setStyle(optionsChart.style); } else { // Initialize definitions for (const key in options.defs) { // eslint-disable-line guard-for-in this.renderer.definition(options.defs[key]); } } // Add a reference to the charts index chart.renderer.chartIndex = chart.index; fireEvent(this, 'afterGetContainer'); } /** * 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. * * @private * @function Highcharts.Chart#getMargins * @emits Highcharts.Chart#event:getMargins */ getMargins(skipAxes) { const { spacing, margin, titleOffset } = this; this.resetMargins(); // Adjust for title and subtitle if (titleOffset[0] && !defined(margin[0])) { this.plotTop = Math.max(this.plotTop, titleOffset[0] + spacing[0]); } if (titleOffset[2] && !defined(margin[2])) { this.marginBottom = Math.max(this.marginBottom, titleOffset[2] + spacing[2]); } // Adjust for legend if (this.legend && this.legend.display) { this.legend.adjustMargins(margin, spacing); } fireEvent(this, 'getMargins'); if (!skipAxes) { this.getAxisMargins(); } } /** * @private * @function Highcharts.Chart#getAxisMargins */ getAxisMargins() { const chart = this, // [top, right, bottom, left] axisOffset = chart.axisOffset = [0, 0, 0, 0], colorAxis = chart.colorAxis, margin = chart.margin, getOffset = function (axes) { axes.forEach(function (axis) { if (axis.visible) { axis.getOffset(); } }); }; // Pre-render axes to get labels offset width if (chart.hasCartesianSeries) { getOffset(chart.axes); } else if (colorAxis && colorAxis.length) { getOffset(colorAxis); } // Add the axis offsets marginNames.forEach(function (m, side) { if (!defined(margin[side])) { chart[m] += axisOffset[side]; } }); chart.setChartSize(); } /** * Return the current options of the chart, but only those that differ from * default options. Items that can be either an object or an array of * objects, like `series`, `xAxis` and `yAxis`, are always returned as * array. * * @sample highcharts/members/chart-getoptions * * @function Highcharts.Chart#getOptions * * @since 11.1.0 */ getOptions() { return diffObjects(this.userOptions, defaultOptions); } /** * Reflows the chart to its container. By default, the Resize Observer is * attached to the chart's div which allows to reflows the chart * automatically to its container, as per the * [chart.reflow](https://api.highcharts.com/highcharts/chart.reflow) * option. * * @sample highcharts/chart/events-container/ * Pop up and reflow * * @function Highcharts.Chart#reflow * * @param {global.Event} [e] * Event arguments. Used primarily when the function is called * internally as a response to window resize. */ reflow(e) { const chart = this, oldBox = chart.containerBox, containerBox = chart.getContainerBox(); delete chart.pointer?.chartPosition; // Width and height checks for display:none. Target is doc in Opera // and win in Firefox, Chrome and IE9. if (!chart.isPrinting && !chart.isResizing && oldBox && // When fired by resize observer inside hidden container containerBox.width) { if (containerBox.width !== oldBox.width || containerBox.height !== oldBox.height) { U.clearTimeout(chart.reflowTimeout); // When called from window.resize, e is set, else it's called // directly (#2224) chart.reflowTimeout = syncTimeout(function () { // Set size, it may have been destroyed in the meantime // (#1257) if (chart.container) { chart.setSize(void 0, void 0, false); } }, e ? 100 : 0); } chart.containerBox = containerBox; } } /** * Toggle the event handlers necessary for auto resizing, depending on the * `chart.reflow` option. * * @private * @function Highcharts.Chart#setReflow */ setReflow() { const chart = this; const runReflow = (e) => { if (chart.options?.chart.reflow && chart.hasLoaded) { chart.reflow(e); } }; if (typeof ResizeObserver === 'function') { (new ResizeObserver(runReflow)).observe(chart.renderTo); // Fallback for more legacy browser versions. } else { const unbind = addEvent(win, 'resize', runReflow); addEvent(this, 'destroy', unbind); } } /** * Resize the chart to a given width and height. In order to set the width * only, the height argument may be skipped. To set the height only, pass * `undefined` for the width. * * @sample highcharts/members/chart-setsize-button/ * Test resizing from buttons * @sample highcharts/members/chart-setsize-jquery-resizable/ * Add a jQuery UI resizable * @sample stock/members/chart-setsize/ * Highcharts Stock with UI resizable * * @function Highcharts.Chart#setSize * * @param {number|null} [width] * The new pixel width of the chart. Since v4.2.6, the argument can * be `undefined` in order to preserve the current value (when * setting height only), or `null` to adapt to the width of the * containing element. * * @param {number|null} [height] * The new pixel height of the chart. Since v4.2.6, the argument can * be `undefined` in order to preserve the current value, or `null` * in order to adapt to the height of the containing element. * * @param {boolean|Partial} [animation] * Whether and how to apply animation. When `undefined`, it applies * the animation that is set in the `chart.animation` option. * * * @emits Highcharts.Chart#event:endResize * @emits Highcharts.Chart#event:resize */ setSize(width, height, animation) { const chart = this, renderer = chart.renderer; // Handle the isResizing counter chart.isResizing += 1; // Set the animation for the current process setAnimation(animation, chart); const globalAnimation = renderer.globalAnimation; chart.oldChartHeight = chart.chartHeight; chart.oldChartWidth = chart.chartWidth; if (typeof width !== 'undefined') { chart.options.chart.width = width; } if (typeof height !== 'undefined') { chart.options.chart.height = height; } chart.getChartSize(); const { chartWidth, chartHeight, scrollablePixelsX = 0, scrollablePixelsY = 0 } = chart; // Avoid expensive redrawing if the computed size didn't change if (chart.isDirtyBox || chartWidth !== chart.oldChartWidth || chartHeight !== chart.oldChartHeight) { // Resize the container with the global animation applied if enabled // (#2503) if (!chart.styledMode) { (globalAnimation ? animate : css)(chart.container, { width: `${chartWidth + scrollablePixelsX}px`, height: `${chartHeight + scrollablePixelsY}px` }, globalAnimation); } chart.setChartSize(true); renderer.setSize(chartWidth, chartHeight, globalAnimation); // Handle axes chart.axes.forEach(function (axis) { axis.isDirty = true; axis.setScale(); }); chart.isDirtyLegend = true; // Force legend redraw chart.isDirtyBox = true; // Force redraw of plot and chart border chart.layOutTitles(); // #2857 chart.getMargins(); chart.redraw(globalAnimation); chart.oldChartHeight = void 0; fireEvent(chart, 'resize'); // Fire endResize and set isResizing back. If animation is disabled, // fire without delay, but in a new thread to avoid triggering the // resize observer (#19027). setTimeout(() => { if (chart) { fireEvent(chart, 'endResize'); } }, animObject(globalAnimation).duration); } // Handle resizing counter even if we've re-rendered or not (#20548). chart.isResizing -= 1; } /** * Set the public chart properties. This is done before and after the * pre-render to determine margin sizes. * * @private * @function Highcharts.Chart#setChartSize * @emits Highcharts.Chart#event:afterSetChartSize */ setChartSize(skipAxes) { const chart = this, inverted = chart.inverted, renderer = chart.renderer, chartWidth = chart.chartWidth, chartHeight = chart.chartHeight, optionsChart = chart.options.chart, spacing = chart.spacing, clipOffset = chart.clipOffset; let plotLeft, plotTop, plotWidth, plotHeight; /** * The current left position of the plot area in pixels. * * @name Highcharts.Chart#plotLeft * @type {number} */ chart.plotLeft = plotLeft = Math.round(chart.plotLeft); /** * The current top position of the plot area in pixels. * * @name Highcharts.Chart#plotTop * @type {number} */ chart.plotTop = plotTop = Math.round(chart.plotTop); /** * The current width of the plot area in pixels. * * @name Highcharts.Chart#plotWidth * @type {number} */ chart.plotWidth = plotWidth = Math.max(0, Math.round(chartWidth - plotLeft - chart.marginRight)); /** * The current height of the plot area in pixels. * * @name Highcharts.Chart#plotHeight * @type {number} */ chart.plotHeight = plotHeight = Math.max(0, Math.round(chartHeight - plotTop - chart.marginBottom)); chart.plotSizeX = inverted ? plotHeight : plotWidth; chart.plotSizeY = inverted ? plotWidth : plotHeight; chart.plotBorderWidth = optionsChart.plotBorderWidth || 0; // Set boxes used for alignment chart.spacingBox = renderer.spacingBox = { x: spacing[3], y: spacing[0], width: chartWidth - spacing[3] - spacing[1], height: chartHeight - spacing[0] - spacing[2] }; chart.plotBox = renderer.plotBox = { x: plotLeft, y: plotTop, width: plotWidth, height: plotHeight }; const plotBorderWidth = 2 * Math.floor(chart.plotBorderWidth / 2), clipX = Math.ceil(Math.max(plotBorderWidth, clipOffset[3]) / 2), clipY = Math.ceil(Math.max(plotBorderWidth, clipOffset[0]) / 2); chart.clipBox = { x: clipX, y: clipY, width: Math.floor(chart.plotSizeX - Math.max(plotBorderWidth, clipOffset[1]) / 2 - clipX), height: Math.max(0, Math.floor(chart.plotSizeY - Math.max(plotBorderWidth, clipOffset[2]) / 2 - clipY)) }; if (!skipAxes) { chart.axes.forEach(function (axis) { axis.setAxisSize(); axis.setAxisTranslation(); }); renderer.alignElements(); } fireEvent(chart, 'afterSetChartSize', { skipAxes: skipAxes }); } /** * Initial margins before auto size margins are applied. * * @private * @function Highcharts.Chart#resetMargins */ resetMargins() { fireEvent(this, 'resetMargins'); const chart = this, chartOptions = chart.options.chart; // Create margin and spacing array ['margin', 'spacing'].forEach(function splashArrays(target) { const value = chartOptions[target], values = isObject(value) ? value : [value, value, value, value]; [ 'Top', 'Right', 'Bottom', 'Left' ].forEach(function (sideName, side) { chart[target][side] = pick(chartOptions[target + sideName], values[side]); }); }); // Set margin names like chart.plotTop, chart.plotLeft, // chart.marginRight, chart.marginBottom. marginNames.forEach(function (m, side) { chart[m] = pick(chart.margin[side], chart.spacing[side]); }); chart.axisOffset = [0, 0, 0, 0]; // Top, right, bottom, left chart.clipOffset = [0, 0, 0, 0]; } /** * Internal function to draw or redraw the borders and backgrounds for chart * and plot area. * * @private * @function Highcharts.Chart#drawChartBox * @emits Highcharts.Chart#event:afterDrawChartBox */ drawChartBox() { const chart = this, optionsChart = chart.options.chart, renderer = chart.renderer, chartWidth = chart.chartWidth, chartHeight = chart.chartHeight, styledMode = chart.styledMode, plotBGImage = chart.plotBGImage, chartBackgroundColor = optionsChart.backgroundColor, plotBackgroundColor = optionsChart.plotBackgroundColor, plotBackgroundImage = optionsChart.plotBackgroundImage, plotLeft = chart.plotLeft, plotTop = chart.plotTop, plotWidth = chart.plotWidth, plotHeight = chart.plotHeight, plotBox = chart.plotBox, clipRect = chart.clipRect, clipBox = chart.clipBox; let chartBackground = chart.chartBackground, plotBackground = chart.plotBackground, plotBorder = chart.plotBorder, chartBorderWidth, mgn, bgAttr, verb = 'animate'; // Chart area if (!chartBackground) { chart.chartBackground = chartBackground = renderer.rect() .addClass('highcharts-background') .add(); verb = 'attr'; } if (!styledMode) { // Presentational chartBorderWidth = optionsChart.borderWidth || 0; mgn = chartBorderWidth + (optionsChart.shadow ? 8 : 0); bgAttr = { fill: chartBackgroundColor || 'none' }; if (chartBorderWidth || chartBackground['stroke-width']) { // #980 bgAttr.stroke = optionsChart.borderColor; bgAttr['stroke-width'] = chartBorderWidth; } chartBackground .attr(bgAttr) .shadow(optionsChart.shadow); } else { chartBorderWidth = mgn = chartBackground.strokeWidth(); } chartBackground[verb]({ x: mgn / 2, y: mgn / 2, width: chartWidth - mgn - chartBorderWidth % 2, height: chartHeight - mgn - chartBorderWidth % 2, r: optionsChart.borderRadius }); // Plot background verb = 'animate'; if (!plotBackground) { verb = 'attr'; chart.plotBackground = plotBackground = renderer.rect() .addClass('highcharts-plot-background') .add(); } plotBackground[verb](plotBox); if (!styledMode) { // Presentational attributes for the background plotBackground .attr({ fill: plotBackgroundColor || 'none' }) .shadow(optionsChart.plotShadow); // Create the background image if (plotBackgroundImage) { if (!plotBGImage) { chart.plotBGImage = renderer.image(plotBackgroundImage, plotLeft, plotTop, plotWidth, plotHeight).add(); } else { if (plotBackgroundImage !== plotBGImage.attr('href')) { plotBGImage.attr('href', plotBackgroundImage); } plotBGImage.animate(plotBox); } } } // Plot clip if (!clipRect) { chart.clipRect = renderer.clipRect(clipBox); } else { clipRect.animate({ width: clipBox.width, height: clipBox.height }); } // Plot area border verb = 'animate'; if (!plotBorder) { verb = 'attr'; chart.plotBorder = plotBorder = renderer.rect() .addClass('highcharts-plot-border') .attr({ zIndex: 1 // Above the grid }) .add(); } if (!styledMode) { // Presentational plotBorder.attr({ stroke: optionsChart.plotBorderColor, 'stroke-width': optionsChart.plotBorderWidth || 0, fill: 'none' }); } plotBorder[verb](plotBorder.crisp({ x: plotLeft, y: plotTop, width: plotWidth, height: plotHeight }, -plotBorder.strokeWidth())); // #3282 plotBorder should be negative; // reset chart.isDirtyBox = false; fireEvent(this, 'afterDrawChartBox'); } /** * Detect whether a certain chart property is needed based on inspecting its * options and series. This mainly applies to the chart.inverted property, * and in extensions to the chart.angular and chart.polar properties. * * @private * @function Highcharts.Chart#propFromSeries */ propFromSeries() { const chart = this, optionsChart = chart.options.chart, seriesOptions = chart.options.series; let i, klass, value; /** * The flag is set to `true` if a series of the chart is inverted. * * @name Highcharts.Chart#inverted * @type {boolean|undefined} */ ['inverted', 'angular', 'polar'].forEach(function (key) { // The default series type's class klass = seriesTypes[optionsChart.type]; // Get the value from available chart-wide properties value = // It is set in the options: optionsChart[key] || // The default series class: (klass && klass.prototype[key]); // Requires it // 4. Check if any the chart's series require it i = seriesOptions && seriesOptions.length; while (!value && i--) { klass = seriesTypes[seriesOptions[i].type]; if (klass && klass.prototype[key]) { value = true; } } // Set the chart property chart[key] = value; }); } /** * Internal function to link two or more series together, based on the * `linkedTo` option. This is done from `Chart.render`, and after * `Chart.addSeries` and `Series.remove`. * * @private * @function Highcharts.Chart#linkSeries * @emits Highcharts.Chart#event:afterLinkSeries */ linkSeries(isUpdating) { const chart = this, chartSeries = chart.series; // Reset links chartSeries.forEach(function (series) { series.linkedSeries.length = 0; }); // Apply new links chartSeries.forEach(function (series) { const { linkedTo } = series.options; if (isString(linkedTo)) { let linkedParent; if (linkedTo === ':previous') { linkedParent = chart.series[series.index - 1]; } else { linkedParent = chart.get(linkedTo); } // #3341 avoid mutual linking if (linkedParent && linkedParent.linkedParent !== series) { linkedParent.linkedSeries.push(series); /** * The parent series of the current series, if the current * series has a [linkedTo](https://api.highcharts.com/highcharts/series.line.linkedTo) * setting. * * @name Highcharts.Series#linkedParent * @type {Highcharts.Series} * @readonly */ series.linkedParent = linkedParent; if (linkedParent.enabledDataSorting) { series.setDataSortingOptions(); } series.visible = pick(series.options.visible, linkedParent.options.visible, series.visible); // #3879 } } }); fireEvent(this, 'afterLinkSeries', { isUpdating }); } /** * Render series for the chart. * * @private * @function Highcharts.Chart#renderSeries */ renderSeries() { this.series.forEach(function (serie) { serie.translate(); serie.render(); }); } /** * Render all graphics for the chart. Runs internally on initialization. * * @private * @function Highcharts.Chart#render */ render() { const chart = this, axes = chart.axes, colorAxis = chart.colorAxis, renderer = chart.renderer, axisLayoutRuns = chart.options.chart.axisLayoutRuns || 2, renderAxes = (axes) => { axes.forEach((axis) => { if (axis.visible) { axis.render(); } }); }; let expectedSpace = 0, // Correction for X axis labels // If the plot area size has changed significantly, calculate tick // positions again redoHorizontal = true, redoVertical, run = 0; // Title chart.setTitle(); // Fire an event before the margins are computed. This is where the // legend is assigned. fireEvent(chart, 'beforeMargins'); // Get stacks chart.getStacks?.(); // Get chart margins chart.getMargins(true); chart.setChartSize(); for (const axis of axes) { const { options } = axis, { labels } = options; if (axis.horiz && axis.visible && labels.enabled && axis.series.length && axis.coll !== 'colorAxis' && !chart.polar) { expectedSpace = options.tickLength; axis.createGroups(); // Calculate expected space based on dummy tick const mockTick = new Tick(axis, 0, '', true), label = mockTick.createLabel('x', labels); mockTick.destroy(); if (label && pick(labels.reserveSpace, !isNumber(options.crossing))) { expectedSpace = label.getBBox().height + labels.distance + Math.max(options.offset || 0, 0); } if (expectedSpace) { label?.destroy(); break; } } } // Use Math.max to prevent negative plotHeight chart.plotHeight = Math.max(chart.plotHeight - expectedSpace, 0); while ((redoHorizontal || redoVertical || axisLayoutRuns > 1) && run < axisLayoutRuns // #19794 ) { const tempWidth = chart.plotWidth, tempHeight = chart.plotHeight; for (const axis of axes) { if (run === 0) { // Get margins by pre-rendering axes axis.setScale(); } else if ((axis.horiz && redoHorizontal) || (!axis.horiz && redoVertical)) { // Update to reflect the new margins axis.setTickInterval(true); } } if (run === 0) { chart.getAxisMargins(); } else { // Check again for new, rotated or moved labels chart.getMargins(); } redoHorizontal = (tempWidth / chart.plotWidth) > (run ? 1 : 1.1); redoVertical = (tempHeight / chart.plotHeight) > (run ? 1 : 1.05); run++; } // Draw the borders and backgrounds chart.drawChartBox(); // Axes if (chart.hasCartesianSeries) { renderAxes(axes); } else if (colorAxis && colorAxis.length) { renderAxes(colorAxis); } // The series if (!chart.seriesGroup) { chart.seriesGroup = renderer.g('series-group') .attr({ zIndex: 3 }) .shadow(chart.options.chart.seriesGroupShadow) .add(); } chart.renderSeries(); // Credits chart.addCredits(); // Handle responsiveness if (chart.setResponsive) { chart.setResponsive(); } // Set flag chart.hasRendered = true; } /** * Set a new credits label for the chart. * * @sample highcharts/credits/credits-update/ * Add and update credits * * @function Highcharts.Chart#addCredits * * @param {Highcharts.CreditsOptions} [credits] * A configuration object for the new credits. */ addCredits(credits) { const chart = this, creds = merge(true, this.options.credits, credits); if (creds.enabled && !this.credits) { /** * The chart's credits label. The label has an `update` method that * allows setting new options as per the * [credits options set](https://api.highcharts.com/highcharts/credits). * * @name Highcharts.Chart#credits * @type {Highcharts.SVGElement} */ this.credits = this.renderer.text(creds.text + (this.mapCredits || ''), 0, 0) .addClass('highcharts-credits') .on('click', function () { if (creds.href) { win.location.href = creds.href; } }) .attr({ align: creds.position.align, zIndex: 8 }); if (!chart.styledMode) { this.credits.css(creds.style); } this.credits .add() .align(creds.position); // Dynamically update this.credits.update = function (options) { chart.credits = chart.credits.destroy(); chart.addCredits(options); }; } } /** * Remove the chart and purge memory. This method is called internally * before adding a second chart into the same container, as well as on * window unload to prevent leaks. * * @sample highcharts/members/chart-destroy/ * Destroy the chart from a button * @sample stock/members/chart-destroy/ * Destroy with Highcharts Stock * * @function Highcharts.Chart#destroy * * @emits Highcharts.Chart#event:destroy */ destroy() { const chart = this, axes = chart.axes, series = chart.series, container = chart.container, parentNode = container && container.parentNode; let i; // Fire the chart.destroy event fireEvent(chart, 'destroy'); // Delete the chart from charts lookup array if (chart.renderer.forExport) { erase(charts, chart); // #6569 } else { charts[chart.index] = void 0; } H.chartCount--; chart.renderTo.removeAttribute('data-highcharts-chart'); // Remove events removeEvent(chart); // ==== Destroy collections: // Destroy axes i = axes.length; while (i--) { axes[i] = axes[i].destroy(); } // Destroy scroller & scroller series before destroying base series if (this.scroller && this.scroller.destroy) { this.scroller.destroy(); } // Destroy each series i = series.length; while (i--) { series[i] = series[i].destroy(); } // ==== Destroy chart properties: [ 'title', 'subtitle', 'chartBackground', 'plotBackground', 'plotBGImage', 'plotBorder', 'seriesGroup', 'clipRect', 'credits', 'pointer', 'rangeSelector', 'legend', 'resetZoomButton', 'tooltip', 'renderer' ].forEach(function (name) { const prop = chart[name]; if (prop && prop.destroy) { chart[name] = prop.destroy(); } }); // Remove container and all SVG, check container as it can break in IE // when destroyed before finished loading if (container) { container.innerHTML = AST.emptyHTML; removeEvent(container); if (parentNode) { discardElement(container); } } // Clean it all up objectEach(chart, function (val, key) { delete chart[key]; }); } /** * Prepare for first rendering after all data are loaded. * * @private * @function Highcharts.Chart#firstRender * @emits Highcharts.Chart#event:beforeRender */ firstRender() { const chart = this, options = chart.options; // Create the container chart.getContainer(); chart.resetMargins(); chart.setChartSize(); // Set the common chart properties (mainly invert) from the given series chart.propFromSeries(); // Get axes chart.getAxes(); // Initialize the series const series = isArray(options.series) ? options.series : []; options.series = []; // Avoid mutation series.forEach( // #9680 function (serieOptions) { chart.initSeries(serieOptions); }); chart.linkSeries(); chart.setSortedData(); // Run an event after axes and series are initialized, but before // render. At this stage, the series data is indexed and cached in the // xData and yData arrays, so we can access those before rendering. Used // in Highcharts Stock. fireEvent(chart, 'beforeRender'); chart.render(); chart.pointer?.getChartPosition(); // #14973 // Fire the load event if there are no external images if (!chart.renderer.imgCount && !chart.hasLoaded) { chart.onload(); } // If the chart was rendered outside the top container, put it back in // (#3679) chart.temporaryDisplay(true); } /** * Internal function that runs on chart load, async if any images are loaded * in the chart. Runs the callbacks and triggers the `load` and `render` * events. * * @private * @function Highcharts.Chart#onload * @emits Highcharts.Chart#event:load * @emits Highcharts.Chart#event:render */ onload() { // Run callbacks, first the ones registered by modules, then user's one this.callbacks.concat([this.callback]).forEach(function (fn) { // Chart destroyed in its own callback (#3600) if (fn && typeof this.index !== 'undefined') { fn.apply(this, [this]); } }, this); fireEvent(this, 'load'); fireEvent(this, 'render'); // Set up auto resize, check for not destroyed (#6068) if (defined(this.index)) { this.setReflow(); } this.warnIfA11yModuleNotLoaded(); // Don't run again this.hasLoaded = true; } /** * Emit console warning if the a11y module is not loaded. * @private */ warnIfA11yModuleNotLoaded() { const { options, title } = this; if (options && !this.accessibility) { // Make chart behave as an image with the title as alt text this.renderer.boxWrapper.attr({ role: 'img', 'aria-label': ((title && title.element.textContent) || '' // #17753, < is not allowed in SVG attributes ).replace(/} [animation] * Whether to apply animation, and optionally animation * configuration. When `undefined`, it applies the animation that is * set in the `chart.animation` option. * * @return {Highcharts.Series} * The newly created series object. * * @emits Highcharts.Chart#event:addSeries * @emits Highcharts.Chart#event:afterAddSeries */ addSeries(options, redraw, animation) { const chart = this; let series; if (options) { // <- not necessary redraw = pick(redraw, true); // Defaults to true fireEvent(chart, 'addSeries', { options: options }, function () { series = chart.initSeries(options); chart.isDirtyLegend = true; chart.linkSeries(); if (series.enabledDataSorting) { // We need to call `setData` after `linkSeries` series.setData(options.data, false); } fireEvent(chart, 'afterAddSeries', { series: series }); if (redraw) { chart.redraw(animation); } }); } return series; } /** * Add an axis to the chart after render time. Note that this method should * never be used when adding data synchronously at chart render time, as it * adds expense to the calculations and rendering. When adding data at the * same time as the chart is initialized, add the axis as a configuration * option instead. * * @sample highcharts/members/chart-addaxis/ * Add and remove axes * * @function Highcharts.Chart#addAxis * * @param {Highcharts.AxisOptions} options * The axis options. * * @param {boolean} [isX=false] * Whether it is an X axis or a value axis. * * @param {boolean} [redraw=true] * Whether to redraw the chart after adding. * * @param {boolean|Partial} [animation] * Whether and how to apply animation in the redraw. When * `undefined`, it applies the animation that is set in the * `chart.animation` option. * * @return {Highcharts.Axis} * The newly generated Axis object. */ addAxis(options, isX, redraw, animation) { return this.createAxis(isX ? 'xAxis' : 'yAxis', { axis: options, redraw: redraw, animation: animation }); } /** * Add a color axis to the chart after render time. Note that this method * should never be used when adding data synchronously at chart render time, * as it adds expense to the calculations and rendering. When adding data at * the same time as the chart is initialized, add the axis as a * configuration option instead. * * @sample highcharts/members/chart-addaxis/ * Add and remove axes * * @function Highcharts.Chart#addColorAxis * * @param {Highcharts.ColorAxisOptions} options * The axis options. * * @param {boolean} [redraw=true] * Whether to redraw the chart after adding. * * @param {boolean|Partial} [animation] * Whether and how to apply animation in the redraw. When * `undefined`, it applies the animation that is set in the * `chart.animation` option. * * @return {Highcharts.Axis} * The newly generated Axis object. */ addColorAxis(options, redraw, animation) { return this.createAxis('colorAxis', { axis: options, redraw: redraw, animation: animation }); } /** * Factory for creating different axis types. * * @private * @function Highcharts.Chart#createAxis * * @param {string} coll * An axis type. * * @param {...Array<*>} arguments * All arguments for the constructor. * * @return {Highcharts.Axis} * The newly generated Axis object. */ createAxis(coll, options) { const axis = new Axis(this, options.axis, coll); if (pick(options.redraw, true)) { this.redraw(options.animation); } return axis; } /** * Dim the chart and show a loading text or symbol. Options for the loading * screen are defined in {@link * https://api.highcharts.com/highcharts/loading|the loading options}. * * @sample highcharts/members/chart-hideloading/ * Show and hide loading from a button * @sample highcharts/members/chart-showloading/ * Apply different text labels * @sample stock/members/chart-show-hide-loading/ * Toggle loading in Highcharts Stock * * @function Highcharts.Chart#showLoading * * @param {string} [str] * An optional text to show in the loading label instead of the * default one. The default text is set in * [lang.loading](https://api.highcharts.com/highcharts/lang.loading). */ showLoading(str) { const chart = this, options = chart.options, loadingOptions = options.loading, setLoadingSize = function () { if (loadingDiv) { css(loadingDiv, { left: chart.plotLeft + 'px', top: chart.plotTop + 'px', width: chart.plotWidth + 'px', height: chart.plotHeight + 'px' }); } }; let loadingDiv = chart.loadingDiv, loadingSpan = chart.loadingSpan; // Create the layer at the first call if (!loadingDiv) { chart.loadingDiv = loadingDiv = createElement('div', { className: 'highcharts-loading highcharts-loading-hidden' }, null, chart.container); } if (!loadingSpan) { chart.loadingSpan = loadingSpan = createElement('span', { className: 'highcharts-loading-inner' }, null, loadingDiv); addEvent(chart, 'redraw', setLoadingSize); // #1080 } loadingDiv.className = 'highcharts-loading'; // Update text AST.setElementHTML(loadingSpan, pick(str, options.lang.loading, '')); if (!chart.styledMode) { // Update visuals css(loadingDiv, extend(loadingOptions.style, { zIndex: 10 })); css(loadingSpan, loadingOptions.labelStyle); // Show it if (!chart.loadingShown) { css(loadingDiv, { opacity: 0, display: '' }); animate(loadingDiv, { opacity: loadingOptions.style.opacity || 0.5 }, { duration: loadingOptions.showDuration || 0 }); } } chart.loadingShown = true; setLoadingSize(); } /** * Hide the loading layer. * * @see Highcharts.Chart#showLoading * * @sample highcharts/members/chart-hideloading/ * Show and hide loading from a button * @sample stock/members/chart-show-hide-loading/ * Toggle loading in Highcharts Stock * * @function Highcharts.Chart#hideLoading */ hideLoading() { const options = this.options, loadingDiv = this.loadingDiv; if (loadingDiv) { loadingDiv.className = 'highcharts-loading highcharts-loading-hidden'; if (!this.styledMode) { animate(loadingDiv, { opacity: 0 }, { duration: options.loading.hideDuration || 100, complete: function () { css(loadingDiv, { display: 'none' }); } }); } } this.loadingShown = false; } /** * A generic function to update any element of the chart. Elements can be * enabled and disabled, moved, re-styled, re-formatted etc. * * A special case is configuration objects that take arrays, for example * [xAxis](https://api.highcharts.com/highcharts/xAxis), * [yAxis](https://api.highcharts.com/highcharts/yAxis) or * [series](https://api.highcharts.com/highcharts/series). For these * collections, an `id` option is used to map the new option set to an * existing object. If an existing object of the same id is not found, the * corresponding item is updated. So for example, running `chart.update` * with a series item without an id, will cause the existing chart's series * with the same index in the series array to be updated. When the * `oneToOne` parameter is true, `chart.update` will also take care of * adding and removing items from the collection. Read more under the * parameter description below. * * Note that when changing series data, `chart.update` may mutate the passed * data options. * * See also the * [responsive option set](https://api.highcharts.com/highcharts/responsive). * Switching between `responsive.rules` basically runs `chart.update` under * the hood. * * @sample highcharts/members/chart-update/ * Update chart geometry * * @function Highcharts.Chart#update * * @param {Highcharts.Options} options * A configuration object for the new chart options. * * @param {boolean} [redraw=true] * Whether to redraw the chart. * * @param {boolean} [oneToOne=false] * When `true`, the `series`, `xAxis`, `yAxis` and `annotations` * collections will be updated one to one, and items will be either * added or removed to match the new updated options. For example, * if the chart has two series and we call `chart.update` with a * configuration containing three series, one will be added. If we * call `chart.update` with one series, one will be removed. Setting * an empty `series` array will remove all series, but leaving out * the`series` property will leave all series untouched. If the * series have id's, the new series options will be matched by id, * and the remaining ones removed. * * @param {boolean|Partial} [animation] * Whether to apply animation, and optionally animation * configuration. When `undefined`, it applies the animation that is * set in the `chart.animation` option. * * @emits Highcharts.Chart#event:update * @emits Highcharts.Chart#event:afterUpdate */ update(options, redraw, oneToOne, animation) { const chart = this, adders = { credits: 'addCredits', title: 'setTitle', subtitle: 'setSubtitle', caption: 'setCaption' }, isResponsiveOptions = options.isResponsiveOptions, itemsForRemoval = []; let updateAllAxes, updateAllSeries, runSetSize; fireEvent(chart, 'update', { options: options }); // If there are responsive rules in action, undo the responsive rules // before we apply the updated options and replay the responsive rules // on top from the chart.redraw function (#9617). if (!isResponsiveOptions) { chart.setResponsive(false, true); } options = diffObjects(options, chart.options); chart.userOptions = merge(chart.userOptions, options); // If the top-level chart option is present, some special updates are // required const optionsChart = options.chart; if (optionsChart) { merge(true, chart.options.chart, optionsChart); // Add support for deprecated zooming options like zoomType, #17861 this.setZoomOptions(); // Setter function if ('className' in optionsChart) { chart.setClassName(optionsChart.className); } if ('inverted' in optionsChart || 'polar' in optionsChart || 'type' in optionsChart) { // Parse options.chart.inverted and options.chart.polar together // with the available series. chart.propFromSeries(); updateAllAxes = true; } if ('alignTicks' in optionsChart) { // #6452 updateAllAxes = true; } if ('events' in optionsChart) { // Chart event handlers registerEventOptions(this, optionsChart); } objectEach(optionsChart, function (val, key) { if (chart.propsRequireUpdateSeries.indexOf('chart.' + key) !== -1) { updateAllSeries = true; } // Only dirty box if (chart.propsRequireDirtyBox.indexOf(key) !== -1) { chart.isDirtyBox = true; } // Chart setSize if (chart.propsRequireReflow.indexOf(key) !== -1) { chart.isDirtyBox = true; if (!isResponsiveOptions) { runSetSize = true; } } }); if (!chart.styledMode && optionsChart.style) { chart.renderer.setStyle(chart.options.chart.style || {}); } } // Moved up, because tooltip needs updated plotOptions (#6218) if (!chart.styledMode && options.colors) { this.options.colors = options.colors; } if (options.time) { // Maintaining legacy global time. If the chart is instantiated // first with global time, then updated with time options, we need // to create a new Time instance to avoid mutating the global time // (#10536). if (this.time === defaultTime) { this.time = new Time(options.time); } // If we're updating, the time class is different from other chart // classes (chart.legend, chart.tooltip etc) in that it doesn't know // about the chart. The other chart[something].update functions also // set the chart.options[something]. For the time class however we // need to update the chart options separately. #14230. merge(true, chart.options.time, options.time); } // Some option structures correspond one-to-one to chart objects that // have update methods, for example // options.credits => chart.credits // options.legend => chart.legend // options.title => chart.title // options.tooltip => chart.tooltip // options.subtitle => chart.subtitle // options.mapNavigation => chart.mapNavigation // options.navigator => chart.navigator // options.scrollbar => chart.scrollbar objectEach(options, function (val, key) { if (chart[key] && typeof chart[key].update === 'function') { chart[key].update(val, false); // If a one-to-one object does not exist, look for an adder function } else if (typeof chart[adders[key]] === 'function') { chart[adders[key]](val); // Else, just merge the options. For nodes like loading, noData, // plotOptions } else if (key !== 'colors' && chart.collectionsWithUpdate.indexOf(key) === -1) { merge(true, chart.options[key], options[key]); } if (key !== 'chart' && chart.propsRequireUpdateSeries.indexOf(key) !== -1) { updateAllSeries = true; } }); // Setters for collections. For axes and series, each item is referred // by an id. If the id is not found, it defaults to the corresponding // item in the collection, so setting one series without an id, will // update the first series in the chart. Setting two series without // an id will update the first and the second respectively (#6019) // chart.update and responsive. this.collectionsWithUpdate.forEach(function (coll) { if (options[coll]) { splat(options[coll]).forEach(function (newOptions, i) { const hasId = defined(newOptions.id); let item; // Match by id if (hasId) { item = chart.get(newOptions.id); } // No match by id found, match by index instead if (!item && chart[coll]) { item = chart[coll][pick(newOptions.index, i)]; // Check if we grabbed an item with an existing but // different id (#13541). Check that the item in this // position is not internal (navigator). if (item && ((hasId && defined(item.options.id)) || item.options.isInternal)) { item = void 0; } } if (item && item.coll === coll) { item.update(newOptions, false); if (oneToOne) { item.touched = true; } } // If oneToOne and no matching item is found, add one if (!item && oneToOne && chart.collectionsWithInit[coll]) { chart.collectionsWithInit[coll][0].apply(chart, // [newOptions, ...extraArguments, redraw=false] [ newOptions ].concat( // Not all initializers require extra args chart.collectionsWithInit[coll][1] || []).concat([ false ])).touched = true; } }); // Add items for removal if (oneToOne) { chart[coll].forEach(function (item) { if (!item.touched && !item.options.isInternal) { itemsForRemoval.push(item); } else { delete item.touched; } }); } } }); itemsForRemoval.forEach(function (item) { if (item.chart && item.remove) { // #9097, avoid removing twice item.remove(false); } }); if (updateAllAxes) { chart.axes.forEach(function (axis) { axis.update({}, false); }); } // Certain options require the whole series structure to be thrown away // and rebuilt if (updateAllSeries) { chart.getSeriesOrderByLinks().forEach(function (series) { // Avoid removed navigator series if (series.chart) { series.update({}, false); } }, this); } // Update size. Redraw is forced. const newWidth = optionsChart && optionsChart.width; const newHeight = optionsChart && (isString(optionsChart.height) ? relativeLength(optionsChart.height, newWidth || chart.chartWidth) : optionsChart.height); if ( // In this case, run chart.setSize with newWidth and newHeight which // are undefined, only for reflowing chart elements because margin // or spacing has been set (#8190) runSetSize || // In this case, the size is actually set (isNumber(newWidth) && newWidth !== chart.chartWidth) || (isNumber(newHeight) && newHeight !== chart.chartHeight)) { chart.setSize(newWidth, newHeight, animation); } else if (pick(redraw, true)) { chart.redraw(animation); } fireEvent(chart, 'afterUpdate', { options: options, redraw: redraw, animation: animation }); } /** * Shortcut to set the subtitle options. This can also be done from {@link * Chart#update} or {@link Chart#setTitle}. * * @function Highcharts.Chart#setSubtitle * * @param {Highcharts.SubtitleOptions} options * New subtitle options. The subtitle text itself is set by the * `options.text` property. */ setSubtitle(options, redraw) { this.applyDescription('subtitle', options); this.layOutTitles(redraw); } /** * Set the caption options. This can also be done from {@link * Chart#update}. * * @function Highcharts.Chart#setCaption * * @param {Highcharts.CaptionOptions} options * New caption options. The caption text itself is set by the * `options.text` property. */ setCaption(options, redraw) { this.applyDescription('caption', options); this.layOutTitles(redraw); } /** * Display the zoom button, so users can reset zoom to the default view * settings. * * @function Highcharts.Chart#showResetZoom * * @emits Highcharts.Chart#event:afterShowResetZoom * @emits Highcharts.Chart#event:beforeShowResetZoom */ showResetZoom() { const chart = this, lang = defaultOptions.lang, btnOptions = chart.zooming.resetButton, theme = btnOptions.theme, alignTo = (btnOptions.relativeTo === 'chart' || btnOptions.relativeTo === 'spacingBox' ? null : 'plotBox'); /** * @private */ function zoomOut() { chart.zoomOut(); } fireEvent(this, 'beforeShowResetZoom', null, function () { chart.resetZoomButton = chart.renderer .button(lang.resetZoom, null, null, zoomOut, theme) .attr({ align: btnOptions.position.align, title: lang.resetZoomTitle }) .addClass('highcharts-reset-zoom') .add() .align(btnOptions.position, false, alignTo); }); fireEvent(this, 'afterShowResetZoom'); } /** * Zoom the chart out after a user has zoomed in. See also * [Axis.setExtremes](/class-reference/Highcharts.Axis#setExtremes). * * @function Highcharts.Chart#zoomOut * * @emits Highcharts.Chart#event:selection */ zoomOut() { fireEvent(this, 'selection', { resetSelection: true }, () => this.transform({ reset: true, trigger: 'zoom' })); } /** * 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. * * @private * @function Highcharts.Chart#pan * @param {Highcharts.PointerEventObject} event * @param {string} panning */ pan(event, panning) { const chart = this, panningOptions = (typeof panning === 'object' ? panning : { enabled: panning, type: 'x' }), type = panningOptions.type, axes = type && chart[{ x: 'xAxis', xy: 'axes', y: 'yAxis' }[type]] .filter((axis) => axis.options.panningEnabled && !axis.options.isInternal), chartOptions = chart.options.chart; if (chartOptions?.panning) { chartOptions.panning = panningOptions; } fireEvent(this, 'pan', { originalEvent: event }, () => { chart.transform({ axes, event, to: { x: event.chartX - (chart.mouseDownX || 0), y: event.chartY - (chart.mouseDownY || 0) }, trigger: 'pan' }); css(chart.container, { cursor: 'move' }); }); } /** * Pan and scale the chart. Used internally by mouse-pan, touch-pan, * touch-zoom, and mousewheel zoom. * * The main positioning logic is created around two imaginary boxes. What is * currently within the `from` rectangle, should be transformed to fill up * the `to` rectangle. * - In a mouse zoom, the `from` rectangle is the selection, while the `to` * rectangle is the full plot area. * - In a touch zoom, the `from` rectangle is made up of the last two-finger * touch, while the `to`` rectangle is the current touch. * - In a mousewheel zoom, the `to` rectangle is a 10x10 px square, * while the `to` rectangle reflects the scale around that. * * @private * @function Highcharts.Chart#transform */ transform(params) { const { axes = this.axes, event, from = {}, reset, selection, to = {}, trigger } = params, { inverted } = this; let hasZoomed = false, displayButton; // Remove active points for shared tooltip this.hoverPoints?.forEach((point) => point.setState()); for (const axis of axes) { const { horiz, len, minPointOffset = 0, options, reversed } = axis, wh = horiz ? 'width' : 'height', xy = horiz ? 'x' : 'y', toLength = to[wh] || axis.len, fromLength = from[wh] || axis.len, // If fingers pinched very close on this axis, treat as pan scale = Math.abs(toLength) < 10 ? 1 : toLength / fromLength, fromCenter = (from[xy] || 0) + fromLength / 2 - axis.pos, toCenter = (to[xy] ?? axis.pos) + toLength / 2 - axis.pos, move = fromCenter - toCenter / scale, pointRangeDirection = (reversed && !inverted) || (!reversed && inverted) ? -1 : 1, minPx = move; // Zooming in multiple panes, zoom only in the pane that receives // the input if (!reset && (fromCenter < 0 || fromCenter > axis.len)) { continue; } let newMin = axis.toValue(minPx, true) + // Don't apply offset for selection (#20784) (selection ? 0 : minPointOffset * pointRangeDirection), newMax = axis.toValue(minPx + len / scale, true) - (selection ? // Don't apply offset for selection (#20784) 0 : ((minPointOffset * pointRangeDirection) || // Polar zoom tests failed when this was not // commented: // (axis.isXAxis && axis.pointRangePadding) || 0)), allExtremes = axis.allExtremes; if (newMin > newMax) { [newMin, newMax] = [newMax, newMin]; } // General calculations of the full data extremes. It is calculated // on the first call to transform, then reused for subsequent // touch/pan calls. (#11315). if (scale === 1 && !reset && axis.coll === 'yAxis' && !allExtremes) { for (const series of axis.series) { const seriesExtremes = series.getExtremes(series.getProcessedData(true).yData, true); allExtremes ?? (allExtremes = { dataMin: Number.MAX_VALUE, dataMax: -Number.MAX_VALUE }); if (isNumber(seriesExtremes.dataMin) && isNumber(seriesExtremes.dataMax)) { allExtremes.dataMin = Math.min(seriesExtremes.dataMin, allExtremes.dataMin); allExtremes.dataMax = Math.max(seriesExtremes.dataMax, allExtremes.dataMax); } } axis.allExtremes = allExtremes; } const { dataMin, dataMax, min, max } = extend(axis.getExtremes(), allExtremes || {}), // For boosted chart where data extremes are skipped safeDataMin = dataMin ?? options.min, safeDataMax = dataMax ?? options.max, range = newMax - newMin, padRange = axis.categories ? 0 : Math.min(range, safeDataMax - safeDataMin), paddedMin = safeDataMin - padRange * (defined(options.min) ? 0 : options.minPadding), paddedMax = safeDataMax + padRange * (defined(options.max) ? 0 : options.maxPadding), // We're allowed to zoom outside the data extremes if we're // dealing with a bubble chart, if we're panning, or if we're // pinching or mousewheeling in. allowZoomOutside = axis.allowZoomOutside || scale === 1 || (trigger !== 'zoom' && scale > 1), // Calculate the floor and the ceiling floor = Math.min(options.min ?? paddedMin, paddedMin, allowZoomOutside ? min : paddedMin), ceiling = Math.max(options.max ?? paddedMax, paddedMax, allowZoomOutside ? max : paddedMax); // It is not necessary to calculate extremes on ordinal axis, // because they are already calculated, so we don't want to override // them. if (!axis.isOrdinal || scale !== 1 || reset) { // If the new range spills over, either to the min or max, // adjust it. if (newMin < floor) { newMin = floor; if (scale >= 1) { newMax = newMin + range; } } if (newMax > ceiling) { newMax = ceiling; if (scale >= 1) { newMin = newMax - range; } } // Set new extremes if they are actually new if (reset || (axis.series.length && (newMin !== min || newMax !== max) && newMin >= floor && newMax <= ceiling)) { if (selection) { selection[axis.coll].push({ axis, min: newMin, max: newMax }); } else { // Temporarily flag the axis as `isPanning` in order to // disallow certain axis padding options that would make // panning/zooming hard. Reset and redraw after the // operation has finished. axis.isPanning = trigger !== 'zoom'; axis.setExtremes(reset ? void 0 : newMin, reset ? void 0 : newMax, false, false, { move, trigger, scale }); if (!reset && (newMin > floor || newMax < ceiling) && trigger !== 'mousewheel') { displayButton = true; } } hasZoomed = true; } if (event) { this[horiz ? 'mouseDownX' : 'mouseDownY'] = event[horiz ? 'chartX' : 'chartY']; } } } if (hasZoomed) { if (selection) { fireEvent(this, 'selection', selection, // Run transform again, this time without the selection data // so that the transform is applied. () => { delete params.selection; params.trigger = 'zoom'; this.transform(params); }); } else { // Show or hide the Reset zoom button if (displayButton && !this.resetZoomButton) { this.showResetZoom(); } else if (!displayButton && this.resetZoomButton) { this.resetZoomButton = this.resetZoomButton.destroy(); } this.redraw(trigger === 'zoom' && (this.options.chart.animation ?? this.pointCount < 100)); } } return hasZoomed; } } extend(Chart.prototype, { // Hook for adding callbacks in modules callbacks: [], /** * These collections (arrays) implement `Chart.addSomething` method used in * chart.update() to create new object in the collection. Equivalent for * deleting is resolved by simple `Something.remove()`. * * Note: We need to define these references after initializers are bound to * chart's prototype. * * @private */ collectionsWithInit: { // CollectionName: [ initializingMethod, [extraArguments] ] xAxis: [Chart.prototype.addAxis, [true]], yAxis: [Chart.prototype.addAxis, [false]], series: [Chart.prototype.addSeries] }, /** * These collections (arrays) implement update() methods with support for * one-to-one option. * @private */ collectionsWithUpdate: [ 'xAxis', 'yAxis', 'series' ], /** * These properties cause isDirtyBox to be set to true when updating. Can be * extended from plugins. * @private */ propsRequireDirtyBox: [ 'backgroundColor', 'borderColor', 'borderWidth', 'borderRadius', 'plotBackgroundColor', 'plotBackgroundImage', 'plotBorderColor', 'plotBorderWidth', 'plotShadow', 'shadow' ], /** * These properties require a full reflow of chart elements, best * implemented through running `Chart.setSize` internally (#8190). * @private */ propsRequireReflow: [ 'margin', 'marginTop', 'marginRight', 'marginBottom', 'marginLeft', 'spacing', 'spacingTop', 'spacingRight', 'spacingBottom', 'spacingLeft' ], /** * These properties cause all series to be updated when updating. Can be * extended from plugins. * @private */ propsRequireUpdateSeries: [ 'chart.inverted', 'chart.polar', 'chart.ignoreHiddenSeries', 'chart.type', 'colors', 'plotOptions', 'time', 'tooltip' ] }); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Callback for chart constructors. * * @callback Highcharts.ChartCallbackFunction * * @param {Highcharts.Chart} chart * Created chart. */ /** * Format a number and return a string based on input settings. * * @callback Highcharts.NumberFormatterCallbackFunction * * @param {number} number * The input number to format. * * @param {number} decimals * The amount of decimals. A value of -1 preserves the amount in the * input number. * * @param {string} [decimalPoint] * The decimal point, defaults to the one given in the lang options, or * a dot. * * @param {string} [thousandsSep] * The thousands separator, defaults to the one given in the lang * options, or a space character. * * @return {string} The formatted number. */ /** * The chart title. The title has an `update` method that allows modifying the * options directly or indirectly via `chart.update`. * * @interface Highcharts.TitleObject * @extends Highcharts.SVGElement */ /** * Modify options for the title. * * @function Highcharts.TitleObject#update * * @param {Highcharts.TitleOptions} titleOptions * Options to modify. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the title is altered. If doing more * operations on the chart, it is a good idea to set redraw to false and * call {@link Chart#redraw} after. */ /** * The chart subtitle. The subtitle has an `update` method that * allows modifying the options directly or indirectly via * `chart.update`. * * @interface Highcharts.SubtitleObject * @extends Highcharts.SVGElement */ /** * Modify options for the subtitle. * * @function Highcharts.SubtitleObject#update * * @param {Highcharts.SubtitleOptions} subtitleOptions * Options to modify. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the subtitle is altered. If doing * more operations on the chart, it is a good idea to set redraw to false * and call {@link Chart#redraw} after. */ /** * The chart caption. The caption has an `update` method that * allows modifying the options directly or indirectly via * `chart.update`. * * @interface Highcharts.CaptionObject * @extends Highcharts.SVGElement */ /** * Modify options for the caption. * * @function Highcharts.CaptionObject#update * * @param {Highcharts.CaptionOptions} captionOptions * Options to modify. * * @param {boolean} [redraw=true] * Whether to redraw the chart after the caption is altered. If doing * more operations on the chart, it is a good idea to set redraw to false * and call {@link Chart#redraw} after. */ /** * @interface Highcharts.ChartIsInsideOptionsObject */ /** * @name Highcharts.ChartIsInsideOptionsObject#axis * @type {Highcharts.Axis|undefined} */ /** * @name Highcharts.ChartIsInsideOptionsObject#ignoreX * @type {boolean|undefined} */ /** * @name Highcharts.ChartIsInsideOptionsObject#ignoreY * @type {boolean|undefined} */ /** * @name Highcharts.ChartIsInsideOptionsObject#inverted * @type {boolean|undefined} */ /** * @name Highcharts.ChartIsInsideOptionsObject#paneCoordinates * @type {boolean|undefined} */ /** * @name Highcharts.ChartIsInsideOptionsObject#series * @type {Highcharts.Series|undefined} */ /** * @name Highcharts.ChartIsInsideOptionsObject#visiblePlotOnly * @type {boolean|undefined} */ ''; // Keeps doclets above in JS file return Chart; }); _registerModule(_modules, 'Extensions/ScrollablePlotArea.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Globals.js'], _modules['Core/Renderer/RendererRegistry.js'], _modules['Core/Utilities.js']], function (A, H, RendererRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * Highcharts feature to make the Y axis stay fixed when scrolling the chart * horizontally on mobile devices. Supports left and right side axes. */ const { stop } = A; const { composed } = H; const { addEvent, createElement, css, defined, merge, pushUnique } = U; /* * * * Functions * * */ /** @private */ function onChartRender() { let scrollablePlotArea = this.scrollablePlotArea; if ((this.scrollablePixelsX || this.scrollablePixelsY) && !scrollablePlotArea) { this.scrollablePlotArea = scrollablePlotArea = new ScrollablePlotArea(this); } scrollablePlotArea?.applyFixed(); } /** @private */ function markDirty() { if (this.chart.scrollablePlotArea) { this.chart.scrollablePlotArea.isDirty = true; } } class ScrollablePlotArea { static compose(AxisClass, ChartClass, SeriesClass) { if (pushUnique(composed, this.compose)) { addEvent(AxisClass, 'afterInit', markDirty); addEvent(ChartClass, 'afterSetChartSize', (e) => this.afterSetSize(e.target, e)); addEvent(ChartClass, 'render', onChartRender); addEvent(SeriesClass, 'show', markDirty); } } static afterSetSize(chart, e) { const { minWidth, minHeight } = chart.options.chart.scrollablePlotArea || {}, { clipBox, plotBox, inverted, renderer } = chart; let scrollablePixelsX, scrollablePixelsY, recalculateHoriz; if (!renderer.forExport) { // The amount of pixels to scroll, the difference between chart // width and scrollable width if (minWidth) { chart.scrollablePixelsX = scrollablePixelsX = Math.max(0, minWidth - chart.chartWidth); if (scrollablePixelsX) { chart.scrollablePlotBox = merge(chart.plotBox); plotBox.width = chart.plotWidth += scrollablePixelsX; clipBox[inverted ? 'height' : 'width'] += scrollablePixelsX; recalculateHoriz = true; } // Currently we can only do either X or Y } else if (minHeight) { chart.scrollablePixelsY = scrollablePixelsY = Math.max(0, minHeight - chart.chartHeight); if (defined(scrollablePixelsY)) { chart.scrollablePlotBox = merge(chart.plotBox); plotBox.height = chart.plotHeight += scrollablePixelsY; clipBox[inverted ? 'width' : 'height'] += scrollablePixelsY; recalculateHoriz = false; } } if (defined(recalculateHoriz) && !e.skipAxes) { for (const axis of chart.axes) { // Apply the corrected plot size to the axes of the other // orientation than the scrolling direction if (axis.horiz === recalculateHoriz) { axis.setAxisSize(); axis.setAxisTranslation(); } } } } } constructor(chart) { const chartOptions = chart.options.chart, Renderer = RendererRegistry.getRendererType(), scrollableOptions = chartOptions.scrollablePlotArea || {}, moveFixedElements = this.moveFixedElements.bind(this), styles = { WebkitOverflowScrolling: 'touch', overflowX: 'hidden', overflowY: 'hidden' }; if (chart.scrollablePixelsX) { styles.overflowX = 'auto'; } if (chart.scrollablePixelsY) { styles.overflowY = 'auto'; } this.chart = chart; // Insert a container with relative position that scrolling and fixed // container renders to (#10555) const parentDiv = this.parentDiv = createElement('div', { className: 'highcharts-scrolling-parent' }, { position: 'relative' }, chart.renderTo), // Add the necessary divs to provide scrolling scrollingContainer = this.scrollingContainer = createElement('div', { 'className': 'highcharts-scrolling' }, styles, parentDiv), innerContainer = this.innerContainer = createElement('div', { 'className': 'highcharts-inner-container' }, void 0, scrollingContainer), fixedDiv = this.fixedDiv = createElement('div', { className: 'highcharts-fixed' }, { position: 'absolute', overflow: 'hidden', pointerEvents: 'none', zIndex: (chartOptions.style?.zIndex || 0) + 2, top: 0 }, void 0, true), fixedRenderer = this.fixedRenderer = new Renderer(fixedDiv, chart.chartWidth, chart.chartHeight, chartOptions.style); // Mask this.mask = fixedRenderer .path() .attr({ fill: chartOptions.backgroundColor || '#fff', 'fill-opacity': scrollableOptions.opacity ?? 0.85, zIndex: -1 }) .addClass('highcharts-scrollable-mask') .add(); scrollingContainer.parentNode.insertBefore(fixedDiv, scrollingContainer); css(chart.renderTo, { overflow: 'visible' }); addEvent(chart, 'afterShowResetZoom', moveFixedElements); addEvent(chart, 'afterApplyDrilldown', moveFixedElements); addEvent(chart, 'afterLayOutTitles', moveFixedElements); // On scroll, reset the chart position because it applies to the // scrolled container let lastHoverPoint; addEvent(scrollingContainer, 'scroll', () => { const { pointer, hoverPoint } = chart; if (pointer) { delete pointer.chartPosition; if (hoverPoint) { lastHoverPoint = hoverPoint; } pointer.runPointActions(void 0, lastHoverPoint, true); } }); // Now move the container inside innerContainer.appendChild(chart.container); } applyFixed() { const { chart, fixedRenderer, isDirty, scrollingContainer } = this, { axisOffset, chartWidth, chartHeight, container, plotHeight, plotLeft, plotTop, plotWidth, scrollablePixelsX = 0, scrollablePixelsY = 0 } = chart, chartOptions = chart.options.chart, scrollableOptions = chartOptions.scrollablePlotArea || {}, { scrollPositionX = 0, scrollPositionY = 0 } = scrollableOptions, scrollableWidth = chartWidth + scrollablePixelsX, scrollableHeight = chartHeight + scrollablePixelsY; // Set the size of the fixed renderer to the visible width fixedRenderer.setSize(chartWidth, chartHeight); if (isDirty ?? true) { this.isDirty = false; this.moveFixedElements(); } // Increase the size of the scrollable renderer and background stop(chart.container); css(container, { width: `${scrollableWidth}px`, height: `${scrollableHeight}px` }); chart.renderer.boxWrapper.attr({ width: scrollableWidth, height: scrollableHeight, viewBox: [0, 0, scrollableWidth, scrollableHeight].join(' ') }); chart.chartBackground?.attr({ width: scrollableWidth, height: scrollableHeight }); css(scrollingContainer, { width: `${chartWidth}px`, height: `${chartHeight}px` }); // Set scroll position the first time (this.isDirty was undefined at // the top of this function) if (!defined(isDirty)) { scrollingContainer.scrollLeft = scrollablePixelsX * scrollPositionX; scrollingContainer.scrollTop = scrollablePixelsY * scrollPositionY; } // Mask behind the left and right side const maskTop = plotTop - axisOffset[0] - 1, maskLeft = plotLeft - axisOffset[3] - 1, maskBottom = plotTop + plotHeight + axisOffset[2] + 1, maskRight = plotLeft + plotWidth + axisOffset[1] + 1, maskPlotRight = plotLeft + plotWidth - scrollablePixelsX, maskPlotBottom = plotTop + plotHeight - scrollablePixelsY; let d = [['M', 0, 0]]; if (scrollablePixelsX) { d = [ // Left side ['M', 0, maskTop], ['L', plotLeft - 1, maskTop], ['L', plotLeft - 1, maskBottom], ['L', 0, maskBottom], ['Z'], // Right side ['M', maskPlotRight, maskTop], ['L', chartWidth, maskTop], ['L', chartWidth, maskBottom], ['L', maskPlotRight, maskBottom], ['Z'] ]; } else if (scrollablePixelsY) { d = [ // Top side ['M', maskLeft, 0], ['L', maskLeft, plotTop - 1], ['L', maskRight, plotTop - 1], ['L', maskRight, 0], ['Z'], // Bottom side ['M', maskLeft, maskPlotBottom], ['L', maskLeft, chartHeight], ['L', maskRight, chartHeight], ['L', maskRight, maskPlotBottom], ['Z'] ]; } if (chart.redrawTrigger !== 'adjustHeight') { this.mask.attr({ d }); } } /** * These elements are moved over to the fixed renderer and stay fixed when * the user scrolls the chart * @private */ moveFixedElements() { const { container, inverted, scrollablePixelsX, scrollablePixelsY } = this.chart, fixedRenderer = this.fixedRenderer, fixedSelectors = [ '.highcharts-breadcrumbs-group', '.highcharts-contextbutton', '.highcharts-caption', '.highcharts-credits', '.highcharts-legend', '.highcharts-legend-checkbox', '.highcharts-navigator-series', '.highcharts-navigator-xaxis', '.highcharts-navigator-yaxis', '.highcharts-navigator', '.highcharts-reset-zoom', '.highcharts-drillup-button', '.highcharts-scrollbar', '.highcharts-subtitle', '.highcharts-title' ]; let axisClass; if (scrollablePixelsX && !inverted) { axisClass = '.highcharts-yaxis'; } else if (scrollablePixelsX && inverted) { axisClass = '.highcharts-xaxis'; } else if (scrollablePixelsY && !inverted) { axisClass = '.highcharts-xaxis'; } else if (scrollablePixelsY && inverted) { axisClass = '.highcharts-yaxis'; } if (axisClass) { fixedSelectors.push(`${axisClass}:not(.highcharts-radial-axis)`, `${axisClass}-labels:not(.highcharts-radial-axis-labels)`); } for (const className of fixedSelectors) { [].forEach.call(container.querySelectorAll(className), (elem) => { (elem.namespaceURI === fixedRenderer.SVG_NS ? fixedRenderer.box : fixedRenderer.box.parentNode).appendChild(elem); elem.style.pointerEvents = 'auto'; }); } } } /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Options for a scrollable plot area. This feature provides a minimum size for * the plot area of the chart. If the size gets smaller than this, typically * on mobile devices, a native browser scrollbar is presented. This scrollbar * provides smooth scrolling for the contents of the plot area, whereas the * title, legend and unaffected axes are fixed. * * Since v7.1.2, a scrollable plot area can be defined for either horizontal or * vertical scrolling, depending on whether the `minWidth` or `minHeight` * option is set. * * @sample highcharts/chart/scrollable-plotarea * Scrollable plot area * @sample highcharts/chart/scrollable-plotarea-vertical * Vertically scrollable plot area * @sample {gantt} gantt/chart/scrollable-plotarea-vertical * Gantt chart with vertically scrollable plot area * * @since 6.1.0 * @product highcharts gantt * @apioption chart.scrollablePlotArea */ /** * The minimum height for the plot area. If it gets smaller than this, the plot * area will become scrollable. * * @type {number} * @since 7.1.2 * @apioption chart.scrollablePlotArea.minHeight */ /** * The minimum width for the plot area. If it gets smaller than this, the plot * area will become scrollable. * * @type {number} * @since 6.1.0 * @apioption chart.scrollablePlotArea.minWidth */ /** * The initial scrolling position of the scrollable plot area. Ranges from 0 to * 1, where 0 aligns the plot area to the left and 1 aligns it to the right. * Typically we would use 1 if the chart has right aligned Y axes. * * @type {number} * @since 6.1.0 * @apioption chart.scrollablePlotArea.scrollPositionX */ /** * The initial scrolling position of the scrollable plot area. Ranges from 0 to * 1, where 0 aligns the plot area to the top and 1 aligns it to the bottom. * * @type {number} * @since 7.1.2 * @apioption chart.scrollablePlotArea.scrollPositionY */ /** * The opacity of mask applied on one of the sides of the plot * area. * * @sample {highcharts} highcharts/chart/scrollable-plotarea-opacity * Disabled opacity for the mask * * @type {number} * @default 0.85 * @since 7.1.1 * @apioption chart.scrollablePlotArea.opacity */ (''); // Keep doclets above in transpiled file return ScrollablePlotArea; }); _registerModule(_modules, 'Core/Axis/Stacking/StackItem.js', [_modules['Core/Templating.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (T, SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { format } = T; const { series: Series } = SeriesRegistry; const { destroyObjectProperties, fireEvent, isNumber, pick } = U; /* * * * Class * * */ /** * The class for stacks. Each stack, on a specific X value and either negative * or positive, has its own stack item. * @private */ class StackItem { /* * * * Constructor * * */ constructor(axis, options, negativeValue, x, stackOption) { const inverted = axis.chart.inverted, reversed = axis.reversed; this.axis = axis; // The stack goes to the left either if the stack has negative value // or when axis is reversed. XOR operator. const isNegative = (this.isNegative = !!negativeValue !== !!reversed); // Save the options to be able to style the label this.options = options = options || {}; // Save the x value to be able to position the label later this.x = x; // Initialize total value this.total = null; this.cumulative = null; // This will keep each points' extremes stored by series.index and point // index this.points = {}; this.hasValidPoints = false; // Save the stack option on the series configuration object, // and whether to treat it as percent this.stack = stackOption; this.leftCliff = 0; this.rightCliff = 0; // The align options and text align varies on whether the stack is // negative and if the chart is inverted or not. // First test the user supplied value, then use the dynamic. this.alignOptions = { align: options.align || (inverted ? (isNegative ? 'left' : 'right') : 'center'), verticalAlign: options.verticalAlign || (inverted ? 'middle' : isNegative ? 'bottom' : 'top'), y: options.y, x: options.x }; this.textAlign = options.textAlign || (inverted ? (!isNegative ? 'left' : 'right') : 'center'); } /* * * * Functions * * */ /** * @private */ destroy() { destroyObjectProperties(this, this.axis); } /** * Renders the stack total label and adds it to the stack label group. * @private */ render(group) { const chart = this.axis.chart, options = this.options, formatOption = options.format, // Format the text in the label. str = formatOption ? format(formatOption, this, chart) : options.formatter.call(this); // Change the text to reflect the new total and set visibility to hidden // in case the series is hidden if (this.label) { this.label.attr({ text: str, visibility: 'hidden' }); } else { // Create new label this.label = chart.renderer.label(str, null, void 0, options.shape, void 0, void 0, options.useHTML, false, 'stack-labels'); const attr = { r: options.borderRadius || 0, text: str, // Set default padding to 5 as it is in datalabels #12308 padding: pick(options.padding, 5), visibility: 'hidden' // Hidden until setOffset is called }; if (!chart.styledMode) { attr.fill = options.backgroundColor; attr.stroke = options.borderColor; attr['stroke-width'] = options.borderWidth; this.label.css(options.style || {}); } this.label.attr(attr); if (!this.label.added) { this.label.add(group); // Add to the labels-group } } // Rank it higher than data labels (#8742) this.label.labelrank = chart.plotSizeY; fireEvent(this, 'afterRender'); } /** * Sets the offset that the stack has from the x value and repositions the * label. * @private */ setOffset(xOffset, width, boxBottom, boxTop, defaultX, xAxis) { const { alignOptions, axis, label, options, textAlign } = this, chart = axis.chart, stackBox = this.getStackBox({ xOffset, width, boxBottom, boxTop, defaultX, xAxis }), { verticalAlign } = alignOptions; if (label && stackBox) { const labelBox = label.getBBox(void 0, 0), padding = label.padding; let isJustify = pick(options.overflow, 'justify') === 'justify', visible; // Reset alignOptions property after justify #12337 alignOptions.x = options.x || 0; alignOptions.y = options.y || 0; // Calculate the adjusted Stack position, to take into consideration // The size if the labelBox and vertical alignment as // well as the text alignment. It's need to be done to work with // default SVGLabel.align/justify methods. const { x, y } = this.adjustStackPosition({ labelBox, verticalAlign, textAlign }); stackBox.x -= x; stackBox.y -= y; // Align the label to the adjusted box. label.align(alignOptions, false, stackBox); // Check if label is inside the plotArea #12294 visible = chart.isInsidePlot(label.alignAttr.x + alignOptions.x + x, label.alignAttr.y + alignOptions.y + y); if (!visible) { isJustify = false; } if (isJustify) { // Justify stackLabel into the alignBox Series.prototype.justifyDataLabel.call(axis, label, alignOptions, label.alignAttr, labelBox, stackBox); } // Add attr to avoid the default animation of justifyDataLabel. // Also add correct rotation with its rotation origin. #15129 label.attr({ x: label.alignAttr.x, y: label.alignAttr.y, rotation: options.rotation, rotationOriginX: labelBox.width * { left: 0, center: 0.5, right: 1 }[options.textAlign || 'center'], rotationOriginY: labelBox.height / 2 }); // Check if the dataLabel should be visible. if (pick(!isJustify && options.crop, true)) { visible = isNumber(label.x) && isNumber(label.y) && chart.isInsidePlot(label.x - padding + (label.width || 0), label.y) && chart.isInsidePlot(label.x + padding, label.y); } label[visible ? 'show' : 'hide'](); } fireEvent(this, 'afterSetOffset', { xOffset, width }); } /** * Adjust the stack BBox position, to take into consideration the alignment * of the dataLabel. This is necessary to make the stackDataLabel work with * core methods like `SVGLabel.adjust` and `Series.justifyDataLabel`. * @param AdjustStackPositionProps * @return {{x: number, y: number}} Adjusted BBox position of the stack. */ adjustStackPosition({ labelBox, verticalAlign, textAlign }) { const factorMap = { bottom: 0, middle: 1, top: 2, right: 1, center: 0, left: -1 }, verticalAlignFactor = factorMap[verticalAlign], textAlignFactor = factorMap[textAlign]; return { x: labelBox.width / 2 + (labelBox.width / 2) * textAlignFactor, y: (labelBox.height / 2) * verticalAlignFactor }; } /** * Get the bbox of the stack. * @private * @function Highcharts.StackItem#getStackBox * @return {BBoxObject} The x, y, height, width of the stack. */ getStackBox(stackBoxProps) { const stackItem = this, axis = this.axis, chart = axis.chart, { boxTop, defaultX, xOffset, width, boxBottom } = stackBoxProps, totalStackValue = axis.stacking.usePercentage ? 100 : pick(boxTop, this.total, 0), y = axis.toPixels(totalStackValue), xAxis = stackBoxProps.xAxis || chart.xAxis[0], x = pick(defaultX, xAxis.translate(this.x)) + xOffset, yZero = axis.toPixels(boxBottom || (isNumber(axis.min) && axis.logarithmic && axis.logarithmic.lin2log(axis.min)) || 0), height = Math.abs(y - yZero), inverted = chart.inverted, neg = stackItem.isNegative; return inverted ? { x: (neg ? y : y - height) - chart.plotLeft, y: xAxis.height - x - width, width: height, height: width } : { x: x + xAxis.transB - chart.plotLeft, y: (neg ? y - height : y) - chart.plotTop, width: width, height: height }; } } /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Stack of data points * * @product highcharts * * @interface Highcharts.StackItemObject */ /** * Alignment settings * @name Highcharts.StackItemObject#alignOptions * @type {Highcharts.AlignObject} */ /** * Related axis * @name Highcharts.StackItemObject#axis * @type {Highcharts.Axis} */ /** * Cumulative value of the stacked data points * @name Highcharts.StackItemObject#cumulative * @type {number} */ /** * True if on the negative side * @name Highcharts.StackItemObject#isNegative * @type {boolean} */ /** * Related SVG element * @name Highcharts.StackItemObject#label * @type {Highcharts.SVGElement} */ /** * Related stack options * @name Highcharts.StackItemObject#options * @type {Highcharts.YAxisStackLabelsOptions} */ /** * Total value of the stacked data points * @name Highcharts.StackItemObject#total * @type {number} */ /** * Shared x value of the stack * @name Highcharts.StackItemObject#x * @type {number} */ ''; // Keeps doclets above in JS file return StackItem; }); _registerModule(_modules, 'Core/Axis/Stacking/StackingAxis.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Axis/Axis.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Axis/Stacking/StackItem.js'], _modules['Core/Utilities.js']], function (A, Axis, SeriesRegistry, StackItem, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { getDeferredAnimation } = A; const { series: { prototype: seriesProto } } = SeriesRegistry; const { addEvent, correctFloat, defined, destroyObjectProperties, fireEvent, isArray, isNumber, objectEach, pick } = U; /* * * * Functions * * */ /** * Generate stacks for each series and calculate stacks total values * * @private * @function Highcharts.Chart#getStacks */ function chartGetStacks() { const chart = this, inverted = chart.inverted; // Reset stacks for each axis chart.axes.forEach((axis) => { if (axis.stacking && axis.stacking.stacks && axis.hasVisibleSeries) { axis.stacking.oldStacks = axis.stacking.stacks; } }); chart.series.forEach((series) => { const xAxisOptions = series.xAxis && series.xAxis.options || {}; if (series.options.stacking && series.reserveSpace()) { series.stackKey = [ series.type, pick(series.options.stack, ''), inverted ? xAxisOptions.top : xAxisOptions.left, inverted ? xAxisOptions.height : xAxisOptions.width ].join(','); } }); } /** * @private */ function onAxisDestroy() { const stacking = this.stacking; if (stacking) { const stacks = stacking.stacks; // Destroy each stack total objectEach(stacks, (stack, stackKey) => { destroyObjectProperties(stack); delete stacks[stackKey]; }); stacking.stackTotalGroup?.destroy(); } } /** * @private */ function onAxisInit() { if (!this.stacking) { this.stacking = new AxisAdditions(this); } } /** * Get stack indicator, according to it's x-value, to determine points with the * same x-value * * @private * @function Highcharts.Series#getStackIndicator */ function seriesGetStackIndicator(stackIndicator, x, index, key) { // Update stack indicator, when: // first point in a stack || x changed || stack type (negative vs positive) // changed: if (!defined(stackIndicator) || stackIndicator.x !== x || (key && stackIndicator.stackKey !== key)) { stackIndicator = { x: x, index: 0, key, stackKey: key }; } else { stackIndicator.index++; } stackIndicator.key = [index, x, stackIndicator.index].join(','); return stackIndicator; } /** * Iterate over all stacks and compute the absolute values to percent * * @private * @function Highcharts.Series#modifyStacks */ function seriesModifyStacks() { const series = this, yAxis = series.yAxis, stackKey = series.stackKey || '', stacks = yAxis.stacking.stacks, processedXData = series.processedXData, stacking = series.options.stacking, stacker = series[stacking + 'Stacker']; let stackIndicator; if (stacker) { // Modifier function exists (Series.percentStacker etc.) [stackKey, '-' + stackKey].forEach((key) => { let i = processedXData.length, x, stackItem, pointExtremes; while (i--) { x = processedXData[i]; stackIndicator = series.getStackIndicator(stackIndicator, x, series.index, key); stackItem = stacks[key]?.[x]; pointExtremes = stackItem?.points[stackIndicator.key || '']; if (pointExtremes) { stacker.call(series, pointExtremes, stackItem, i); } } }); } } /** * Modifier function for percent stacks. Blows up the stack to 100%. * * @private * @function Highcharts.Series#percentStacker */ function seriesPercentStacker(pointExtremes, stack, i) { const totalFactor = stack.total ? 100 / stack.total : 0; // Y bottom value pointExtremes[0] = correctFloat(pointExtremes[0] * totalFactor); // Y value pointExtremes[1] = correctFloat(pointExtremes[1] * totalFactor); this.stackedYData[i] = pointExtremes[1]; } /** * Set grouped points in a stack-like object. When `centerInCategory` is true, * and `stacking` is not enabled, we need a pseudo (horizontal) stack in order * to handle grouping of points within the same category. * * @private * @function Highcharts.Series#setGroupedPoints * @return {void} */ function seriesSetGroupedPoints(axis) { // Only series types supporting centerInCategory need to do this. That also // applies to resetting (#20221). if (this.is('column') || this.is('columnrange')) { if (this.options.centerInCategory && // With stacking enabled, we already have stacks that we can compute // from !this.options.stacking && // With only one series, we don't need to consider centerInCategory this.chart.series.length > 1) { seriesProto.setStackedPoints.call(this, axis, 'group'); // After updating, if we now have proper stacks, we must delete the // group pseudo stacks (#14980) } else { axis.stacking.resetStacks(); } } } /** * Adds series' points value to corresponding stack * * @private * @function Highcharts.Series#setStackedPoints */ function seriesSetStackedPoints(axis, stackingParam) { const type = stackingParam || this.options.stacking; if (!type || !this.reserveSpace() || // Group stacks (centerInCategory) belong on the x-axis, other stacks on // the y-axis. ({ group: 'xAxis' }[type] || 'yAxis') !== axis.coll) { return; } const series = this, xData = series.processedXData, yData = series.processedYData, stackedYData = [], yDataLength = yData.length, seriesOptions = series.options, threshold = seriesOptions.threshold || 0, stackThreshold = seriesOptions.startFromThreshold ? threshold : 0, stackOption = seriesOptions.stack, stackKey = stackingParam ? `${series.type},${type}` : (series.stackKey || ''), negKey = '-' + stackKey, negStacks = series.negStacks, stacking = axis.stacking, stacks = stacking.stacks, oldStacks = stacking.oldStacks; let stackIndicator, isNegative, stack, other, key, pointKey, i, x, y; stacking.stacksTouched += 1; // Loop over the non-null y values and read them into a local array for (i = 0; i < yDataLength; i++) { x = xData[i]; y = yData[i]; stackIndicator = series.getStackIndicator(stackIndicator, x, series.index); pointKey = stackIndicator.key || ''; // Read stacked values into a stack based on the x value, // the sign of y and the stack key. Stacking is also handled for null // values (#739) isNegative = negStacks && y < (stackThreshold ? 0 : threshold); key = isNegative ? negKey : stackKey; // Create empty object for this stack if it doesn't exist yet if (!stacks[key]) { stacks[key] = {}; } // Initialize StackItem for this x if (!stacks[key][x]) { if (oldStacks[key]?.[x]) { stacks[key][x] = oldStacks[key][x]; stacks[key][x].total = null; } else { stacks[key][x] = new StackItem(axis, axis.options.stackLabels, !!isNegative, x, stackOption); } } // If the StackItem doesn't exist, create it first stack = stacks[key][x]; if (y !== null) { stack.points[pointKey] = stack.points[series.index] = [ pick(stack.cumulative, stackThreshold) ]; // Record the base of the stack if (!defined(stack.cumulative)) { stack.base = pointKey; } stack.touched = stacking.stacksTouched; // In area charts, if there are multiple points on the same X value, // let the area fill the full span of those points if (stackIndicator.index > 0 && series.singleStacks === false) { stack.points[pointKey][0] = stack.points[series.index + ',' + x + ',0'][0]; } // When updating to null, reset the point stack (#7493) } else { delete stack.points[pointKey]; delete stack.points[series.index]; } // Add value to the stack total let total = stack.total || 0; if (type === 'percent') { // Percent stacked column, totals are the same for the positive and // negative stacks other = isNegative ? stackKey : negKey; if (negStacks && stacks[other]?.[x]) { other = stacks[other][x]; total = other.total = Math.max(other.total || 0, total) + Math.abs(y) || 0; // Percent stacked areas } else { total = correctFloat(total + (Math.abs(y) || 0)); } } else if (type === 'group') { if (isArray(y)) { y = y[0]; } // In this stack, the total is the number of valid points if (y !== null) { total++; } } else { total = correctFloat(total + (y || 0)); } if (type === 'group') { // This point's index within the stack, pushed to stack.points[1] stack.cumulative = (total || 1) - 1; } else { stack.cumulative = correctFloat(pick(stack.cumulative, stackThreshold) + (y || 0)); } stack.total = total; if (y !== null) { stack.points[pointKey].push(stack.cumulative); stackedYData[i] = stack.cumulative; stack.hasValidPoints = true; } } if (type === 'percent') { stacking.usePercentage = true; } if (type !== 'group') { this.stackedYData = stackedYData; // To be used in getExtremes } // Reset old stacks stacking.oldStacks = {}; } /* * * * Classes * * */ /** * Adds stacking support to axes. * @private * @class */ class AxisAdditions { /* * * * Constructors * * */ constructor(axis) { this.oldStacks = {}; this.stacks = {}; this.stacksTouched = 0; this.axis = axis; } /* * * * Functions * * */ /** * Build the stacks from top down * @private */ buildStacks() { const stacking = this, axis = stacking.axis, axisSeries = axis.series, isXAxis = axis.coll === 'xAxis', reversedStacks = axis.options.reversedStacks, len = axisSeries.length; let actualSeries, i; this.resetStacks(); stacking.usePercentage = false; i = len; while (i--) { actualSeries = axisSeries[reversedStacks ? i : len - i - 1]; if (isXAxis) { actualSeries.setGroupedPoints(axis); } actualSeries.setStackedPoints(axis); } // Loop up again to compute percent and stream stack if (!isXAxis) { for (i = 0; i < len; i++) { axisSeries[i].modifyStacks(); } } fireEvent(axis, 'afterBuildStacks'); } /** * @private */ cleanStacks() { if (this.oldStacks) { this.stacks = this.oldStacks; // Reset stacks objectEach(this.stacks, (type) => { objectEach(type, (stack) => { stack.cumulative = stack.total; }); }); } } /** * Set all the stacks to initial states and destroy unused ones. * @private */ resetStacks() { objectEach(this.stacks, (type) => { objectEach(type, (stack, x) => { // Clean up memory after point deletion (#1044, #4320) if (isNumber(stack.touched) && stack.touched < this.stacksTouched) { stack.destroy(); delete type[x]; // Reset stacks } else { stack.total = null; stack.cumulative = null; } }); }); } /** * @private */ renderStackTotals() { const stacking = this, axis = stacking.axis, chart = axis.chart, renderer = chart.renderer, stacks = stacking.stacks, stackLabelsAnim = axis.options.stackLabels?.animation, animationConfig = getDeferredAnimation(chart, stackLabelsAnim || false), stackTotalGroup = stacking.stackTotalGroup = (stacking.stackTotalGroup || renderer .g('stack-labels') .attr({ zIndex: 6, opacity: 0 }) .add()); // The plotLeft/Top will change when y axis gets wider so we need to // translate the stackTotalGroup at every render call. See bug #506 // and #516 stackTotalGroup.translate(chart.plotLeft, chart.plotTop); // Render each stack total objectEach(stacks, (type) => { objectEach(type, (stack) => { stack.render(stackTotalGroup); }); }); stackTotalGroup.animate({ opacity: 1 }, animationConfig); } } /* * * * Composition * * */ var StackingAxis; (function (StackingAxis) { /* * * * Functions * * */ /** * Extends axis with stacking support. * @private */ function compose(AxisClass, ChartClass, SeriesClass) { const chartProto = ChartClass.prototype, seriesProto = SeriesClass.prototype; if (!chartProto.getStacks) { addEvent(AxisClass, 'init', onAxisInit); addEvent(AxisClass, 'destroy', onAxisDestroy); chartProto.getStacks = chartGetStacks; seriesProto.getStackIndicator = seriesGetStackIndicator; seriesProto.modifyStacks = seriesModifyStacks; seriesProto.percentStacker = seriesPercentStacker; seriesProto.setGroupedPoints = seriesSetGroupedPoints; seriesProto.setStackedPoints = seriesSetStackedPoints; } } StackingAxis.compose = compose; })(StackingAxis || (StackingAxis = {})); /* * * * Default Export * * */ return StackingAxis; }); _registerModule(_modules, 'Series/Line/LineSeries.js', [_modules['Core/Series/Series.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (Series, SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defined, merge, isObject } = U; /* * * * Class * * */ /** * The line series is the base type and is therefor the series base prototype. * * @private */ class LineSeries extends Series { /* * * * Functions * * */ /** * Draw the graph. Called internally when rendering line-like series * types. The first time it generates the `series.graph` item and * optionally other series-wide items like `series.area` for area * charts. On subsequent calls these items are updated with new * positions and attributes. * * @function Highcharts.Series#drawGraph */ drawGraph() { const options = this.options, graphPath = (this.gappedPath || this.getGraphPath).call(this), styledMode = this.chart.styledMode; // Draw the graph [this, ...this.zones].forEach((owner, i) => { let attribs, graph = owner.graph; const verb = graph ? 'animate' : 'attr', dashStyle = owner.dashStyle || options.dashStyle; if (graph) { graph.endX = this.preventGraphAnimation ? null : graphPath.xMap; graph.animate({ d: graphPath }); } else if (graphPath.length) { // #1487 /** * SVG element of line-based charts. Can be used for styling * purposes. If zones are configured, this element will be * hidden and replaced by multiple zone lines, accessible * via `series.zones[i].graph`. * * @name Highcharts.Series#graph * @type {Highcharts.SVGElement|undefined} */ owner.graph = graph = this.chart.renderer .path(graphPath) .addClass('highcharts-graph' + (i ? ` highcharts-zone-graph-${i - 1} ` : ' ') + ((i && owner.className) || '')) .attr({ zIndex: 1 }) // #1069 .add(this.group); } if (graph && !styledMode) { attribs = { 'stroke': ((!i && options.lineColor) || // Series only owner.color || this.color || "#cccccc" /* Palette.neutralColor20 */), 'stroke-width': options.lineWidth || 0, // Polygon series use filled graph 'fill': (this.fillGraph && this.color) || 'none' }; // Apply dash style if (dashStyle) { attribs.dashstyle = dashStyle; // The reason for the `else if` is that linecaps don't mix well // with dashstyle. The gaps get partially filled by the // linecap. } else if (options.linecap !== 'square') { attribs['stroke-linecap'] = attribs['stroke-linejoin'] = 'round'; } graph[verb](attribs) // Add shadow to normal series (0) or to first // zone (1) #3932 .shadow((i < 2) && options.shadow && // If shadow is defined, call function with // `filterUnits: 'userSpaceOnUse'` to avoid known // SVG filter bug (#19093) merge({ filterUnits: 'userSpaceOnUse' }, isObject(options.shadow) ? options.shadow : {})); } // Helpers for animation if (graph) { graph.startX = graphPath.xMap; graph.isArea = graphPath.isArea; // For arearange animation } }); } // eslint-disable-next-line valid-jsdoc /** * Get the graph path. * * @private */ getGraphPath(points, nullsAsZeroes, connectCliffs) { const series = this, options = series.options, graphPath = [], xMap = []; let gap, step = options.step; points = points || series.points; // Bottom of a stack is reversed const reversed = points.reversed; if (reversed) { points.reverse(); } // Reverse the steps (#5004) step = { right: 1, center: 2 }[step] || (step && 3); if (step && reversed) { step = 4 - step; } // Remove invalid points, especially in spline (#5015) points = this.getValidPoints(points, false, !(options.connectNulls && !nullsAsZeroes && !connectCliffs)); // Build the line points.forEach(function (point, i) { const plotX = point.plotX, plotY = point.plotY, lastPoint = points[i - 1], isNull = point.isNull || typeof plotY !== 'number'; // The path to this point from the previous let pathToPoint; if ((point.leftCliff || (lastPoint && lastPoint.rightCliff)) && !connectCliffs) { gap = true; // ... and continue } // Line series, nullsAsZeroes is not handled if (isNull && !defined(nullsAsZeroes) && i > 0) { gap = !options.connectNulls; // Area series, nullsAsZeroes is set } else if (isNull && !nullsAsZeroes) { gap = true; } else { if (i === 0 || gap) { pathToPoint = [[ 'M', point.plotX, point.plotY ]]; // Generate the spline as defined in the SplineSeries object } else if (series.getPointSpline) { pathToPoint = [series.getPointSpline(points, point, i)]; } else if (step) { if (step === 1) { // Right pathToPoint = [[ 'L', lastPoint.plotX, plotY ]]; } else if (step === 2) { // Center pathToPoint = [[ 'L', (lastPoint.plotX + plotX) / 2, lastPoint.plotY ], [ 'L', (lastPoint.plotX + plotX) / 2, plotY ]]; } else { pathToPoint = [[ 'L', plotX, lastPoint.plotY ]]; } pathToPoint.push([ 'L', plotX, plotY ]); } else { // Normal line to next point pathToPoint = [[ 'L', plotX, plotY ]]; } // Prepare for animation. When step is enabled, there are // two path nodes for each x value. xMap.push(point.x); if (step) { xMap.push(point.x); if (step === 2) { // Step = center (#8073) xMap.push(point.x); } } graphPath.push.apply(graphPath, pathToPoint); gap = false; } }); graphPath.xMap = xMap; series.graphPath = graphPath; return graphPath; } } /* * * * Static Functions * * */ LineSeries.defaultOptions = merge(Series.defaultOptions, /** * General options for all series types. * * @optionparent plotOptions.series */ { legendSymbol: 'lineMarker' }); SeriesRegistry.registerSeriesType('line', LineSeries); /* * * * Default Export * * */ /* * * * API Options * * */ /** * A line series displays information as a series of data points connected by * straight line segments. * * @sample {highcharts} highcharts/demo/line-chart/ * Line chart * @sample {highstock} stock/demo/basic-line/ * Line chart * * @extends plotOptions.series * @product highcharts highstock * @apioption plotOptions.line */ /** * The SVG value used for the `stroke-linecap` and `stroke-linejoin` * of a line graph. Round means that lines are rounded in the ends and * bends. * * @type {Highcharts.SeriesLinecapValue} * @default round * @since 3.0.7 * @apioption plotOptions.line.linecap */ /** * A `line` series. If the [type](#series.line.type) option is not * specified, it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.line * @excluding dataParser,dataURL * @product highcharts highstock * @apioption series.line */ /** * An array of data points for the series. For the `line` series type, * points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values will be * interpreted as `y` options. The `x` values will be automatically * calculated, either starting at 0 and incremented by 1, or from * `pointStart` and `pointInterval` given in the series options. If the axis * has categories, these will be used. Example: * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of arrays with 2 values. In this case, the values correspond to * `x,y`. If the first value is a string, it is applied as the name of the * point, and the `x` value is inferred. * ```js * data: [ * [0, 1], * [1, 2], * [2, 8] * ] * ``` * * 3. An array of objects with named values. The following snippet shows only a * few settings, see the complete options set below. If the total number of * data points exceeds the series' * [turboThreshold](#series.line.turboThreshold), * this option is not available. * ```js * data: [{ * x: 1, * y: 9, * name: "Point2", * color: "#00FF00" * }, { * x: 1, * y: 6, * name: "Point1", * color: "#FF00FF" * }] * ``` * * **Note:** In TypeScript you have to extend `PointOptionsObject` with an * additional declaration to allow custom data types: * ```ts * declare module `highcharts` { * interface PointOptionsObject { * custom: Record; * } * } * ``` * * @sample {highcharts} highcharts/chart/reflow-true/ * Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ * Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ * Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ * Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @declare Highcharts.PointOptionsObject * @type {Array|null|*>} * @apioption series.line.data */ /** * An additional, individual class name for the data point's graphic * representation. Changes to a point's color will also be reflected in a * chart's legend and tooltip. * * @sample {highcharts} highcharts/css/point-series-classname * Series and point class name * * @type {string} * @since 5.0.0 * @product highcharts gantt * @apioption series.line.data.className */ /** * Individual color for the point. By default the color is pulled from * the global `colors` array. * * In styled mode, the `color` option doesn't take effect. Instead, use * `colorIndex`. * * @sample {highcharts} highcharts/point/color/ * Mark the highest point * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @product highcharts highstock gantt * @apioption series.line.data.color */ /** * A specific color index to use for the point, so its graphic representations * are given the class name `highcharts-color-{n}`. In styled mode this will * change the color of the graphic. In non-styled mode, the color is set by the * `fill` attribute, so the change in class name won't have a visual effect by * default. * * Since v11, CSS variables on the form `--highcharts-color-{n}` make changing * the color scheme very convenient. * * @sample {highcharts} highcharts/css/colorindex/ * Series and point color index * * @type {number} * @since 5.0.0 * @product highcharts gantt * @apioption series.line.data.colorIndex */ /** * A reserved subspace to store options and values for customized functionality. * Here you can add additional data for your own event callbacks and formatter * callbacks. * * @sample {highcharts} highcharts/point/custom/ * Point and series with custom data * * @type {Highcharts.Dictionary<*>} * @apioption series.line.data.custom */ /** * Individual data label for each point. The options are the same as * the ones for [plotOptions.series.dataLabels]( * #plotOptions.series.dataLabels). * * @sample highcharts/point/datalabels/ * Show a label for the last value * * @type {*|Array<*>} * @declare Highcharts.DataLabelsOptions * @extends plotOptions.line.dataLabels * @product highcharts highstock gantt * @apioption series.line.data.dataLabels */ /** * A description of the point to add to the screen reader information * about the point. * * @type {string} * @since 5.0.0 * @requires modules/accessibility * @apioption series.line.data.description */ /** * An id for the point. This can be used after render time to get a * pointer to the point object through `chart.get()`. * * @sample {highcharts} highcharts/point/id/ * Remove an id'd point * * @type {string} * @since 1.2.0 * @product highcharts highstock gantt * @apioption series.line.data.id */ /** * The rank for this point's data label in case of collision. If two * data labels are about to overlap, only the one with the highest `labelrank` * will be drawn. * * @type {number} * @apioption series.line.data.labelrank */ /** * The name of the point as shown in the legend, tooltip, dataLabels, etc. * * @see [xAxis.uniqueNames](#xAxis.uniqueNames) * * @sample {highcharts} highcharts/series/data-array-of-objects/ * Point names * * @type {string} * @apioption series.line.data.name */ /** * Whether the data point is selected initially. * * @type {boolean} * @default false * @product highcharts highstock gantt * @apioption series.line.data.selected */ /** * The x value of the point. For datetime axes, the X value is the timestamp * in milliseconds since 1970. * * @type {number} * @product highcharts highstock * @apioption series.line.data.x */ /** * The y value of the point. * * @type {number|null} * @product highcharts highstock * @apioption series.line.data.y */ /** * The individual point events. * * @extends plotOptions.series.point.events * @product highcharts highstock gantt * @apioption series.line.data.events */ /** * Options for the point markers of line-like series. * * @declare Highcharts.PointMarkerOptionsObject * @extends plotOptions.series.marker * @product highcharts highstock * @apioption series.line.data.marker */ ''; // Include precedent doclets in transpiled return LineSeries; }); _registerModule(_modules, 'Series/Area/AreaSeries.js', [_modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { seriesTypes: { line: LineSeries } } = SeriesRegistry; const { extend, merge, objectEach, pick } = U; /* * * * Class * * */ /** * Area series type. * * @private * @class * @name AreaSeries * * @augments LineSeries */ class AreaSeries extends LineSeries { /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * Draw the graph and the underlying area. This method calls the Series * base function and adds the area. The areaPath is calculated in the * getSegmentPath method called from Series.prototype.drawGraph. * @private */ drawGraph() { // Define or reset areaPath this.areaPath = []; // Call the base method super.drawGraph.apply(this); // Define local variables const { areaPath, options } = this; [this, ...this.zones].forEach((owner, i) => { const attribs = {}, fillColor = owner.fillColor || options.fillColor; let area = owner.area; const verb = area ? 'animate' : 'attr'; // Create or update the area if (area) { // Update area.endX = this.preventGraphAnimation ? null : areaPath.xMap; area.animate({ d: areaPath }); } else { // Create attribs.zIndex = 0; // #1069 /** * SVG element of area-based charts. Can be used for styling * purposes. If zones are configured, this element will be * hidden and replaced by multiple zone areas, accessible * via `series.zones[i].area`. * * @name Highcharts.Series#area * @type {Highcharts.SVGElement|undefined} */ area = owner.area = this.chart.renderer .path(areaPath) .addClass('highcharts-area' + (i ? ` highcharts-zone-area-${i - 1} ` : ' ') + ((i && owner.className) || '')) .add(this.group); area.isArea = true; } if (!this.chart.styledMode) { // If there is fillColor defined for the area, set it. // Otherwise, we set it to the zone/series color and add // fill-opacity (#18939). attribs.fill = fillColor || owner.color || this.color; attribs['fill-opacity'] = fillColor ? 1 : (options.fillOpacity ?? 0.75); // Allow clicking through the area if sticky tracking is true // (#18744) area.css({ pointerEvents: this.stickyTracking ? 'none' : 'auto' }); } area[verb](attribs); area.startX = areaPath.xMap; area.shiftUnit = options.step ? 2 : 1; }); } /** * @private */ getGraphPath(points) { const getGraphPath = LineSeries.prototype.getGraphPath, options = this.options, stacking = options.stacking, yAxis = this.yAxis, bottomPoints = [], graphPoints = [], seriesIndex = this.index, stacks = yAxis.stacking.stacks[this.stackKey], threshold = options.threshold, translatedThreshold = Math.round(// #10909 yAxis.getThreshold(options.threshold)), connectNulls = pick(// #10574 options.connectNulls, stacking === 'percent'), // To display null points in underlying stacked series, this // series graph must be broken, and the area also fall down to // fill the gap left by the null point. #2069 addDummyPoints = function (i, otherI, side) { const point = points[i], stackedValues = stacking && stacks[point.x].points[seriesIndex], nullVal = point[side + 'Null'] || 0, cliffVal = point[side + 'Cliff'] || 0; let top, bottom, isNull = true; if (cliffVal || nullVal) { top = (nullVal ? stackedValues[0] : stackedValues[1]) + cliffVal; bottom = stackedValues[0] + cliffVal; isNull = !!nullVal; } else if (!stacking && points[otherI] && points[otherI].isNull) { top = bottom = threshold; } // Add to the top and bottom line of the area if (typeof top !== 'undefined') { graphPoints.push({ plotX: plotX, plotY: top === null ? translatedThreshold : yAxis.getThreshold(top), isNull: isNull, isCliff: true }); bottomPoints.push({ plotX: plotX, plotY: bottom === null ? translatedThreshold : yAxis.getThreshold(bottom), doCurve: false // #1041, gaps in areaspline areas }); } }; let plotX, isNull, yBottom; // Find what points to use points = points || this.points; // Fill in missing points if (stacking) { points = this.getStackPoints(points); } for (let i = 0, iEnd = points.length; i < iEnd; ++i) { // Reset after series.update of stacking property (#12033) if (!stacking) { points[i].leftCliff = points[i].rightCliff = points[i].leftNull = points[i].rightNull = void 0; } isNull = points[i].isNull; plotX = pick(points[i].rectPlotX, points[i].plotX); yBottom = stacking ? pick(points[i].yBottom, translatedThreshold) : translatedThreshold; if (!isNull || connectNulls) { if (!connectNulls) { addDummyPoints(i, i - 1, 'left'); } // Skip null point when stacking is false and connectNulls // true if (!(isNull && !stacking && connectNulls)) { graphPoints.push(points[i]); bottomPoints.push({ x: i, plotX: plotX, plotY: yBottom }); } if (!connectNulls) { addDummyPoints(i, i + 1, 'right'); } } } const topPath = getGraphPath.call(this, graphPoints, true, true); bottomPoints.reversed = true; const bottomPath = getGraphPath.call(this, bottomPoints, true, true); const firstBottomPoint = bottomPath[0]; if (firstBottomPoint && firstBottomPoint[0] === 'M') { bottomPath[0] = ['L', firstBottomPoint[1], firstBottomPoint[2]]; } const areaPath = topPath.concat(bottomPath); if (areaPath.length) { areaPath.push(['Z']); } // TODO: don't set leftCliff and rightCliff when connectNulls? const graphPath = getGraphPath .call(this, graphPoints, false, connectNulls); areaPath.xMap = topPath.xMap; this.areaPath = areaPath; return graphPath; } /** * Return an array of stacked points, where null and missing points are * replaced by dummy points in order for gaps to be drawn correctly in * stacks. * @private */ getStackPoints(points) { const series = this, segment = [], keys = [], xAxis = this.xAxis, yAxis = this.yAxis, stack = yAxis.stacking.stacks[this.stackKey], pointMap = {}, yAxisSeries = yAxis.series, seriesLength = yAxisSeries.length, upOrDown = yAxis.options.reversedStacks ? 1 : -1, seriesIndex = yAxisSeries.indexOf(series); points = points || this.points; if (this.options.stacking) { for (let i = 0; i < points.length; i++) { // Reset after point update (#7326) points[i].leftNull = points[i].rightNull = void 0; // Create a map where we can quickly look up the points by // their X values. pointMap[points[i].x] = points[i]; } // Sort the keys (#1651) objectEach(stack, function (stackX, x) { // Nulled after switching between // grouping and not (#1651, #2336) if (stackX.total !== null) { keys.push(x); } }); keys.sort(function (a, b) { return a - b; }); const visibleSeries = yAxisSeries.map((s) => s.visible); keys.forEach(function (x, idx) { let y = 0, stackPoint, stackedValues; if (pointMap[x] && !pointMap[x].isNull) { segment.push(pointMap[x]); // Find left and right cliff. -1 goes left, 1 goes // right. [-1, 1].forEach(function (direction) { const nullName = direction === 1 ? 'rightNull' : 'leftNull', cliffName = direction === 1 ? 'rightCliff' : 'leftCliff', otherStack = stack[keys[idx + direction]]; let cliff = 0; // If there is a stack next to this one, // to the left or to the right... if (otherStack) { let i = seriesIndex; // Can go either up or down, // depending on reversedStacks while (i >= 0 && i < seriesLength) { const si = yAxisSeries[i].index; stackPoint = otherStack.points[si]; if (!stackPoint) { // If the next point in this series is // missing, mark the point with // point.leftNull or point.rightNull = true. if (si === series.index) { pointMap[x][nullName] = true; // If there are missing points in the next // stack in any of the series below this // one, we need to subtract the missing // values and add a hiatus to the left or // right. } else if (visibleSeries[i]) { stackedValues = stack[x].points[si]; if (stackedValues) { cliff -= (stackedValues[1] - stackedValues[0]); } } } // When reversedStacks is true, loop up, // else loop down i += upOrDown; } } pointMap[x][cliffName] = cliff; }); // There is no point for this X value in this series, so we // insert a dummy point in order for the areas to be drawn // correctly. } else { // Loop down the stack to find the series below this // one that has a value (#1991) let i = seriesIndex; while (i >= 0 && i < seriesLength) { const si = yAxisSeries[i].index; stackPoint = stack[x].points[si]; if (stackPoint) { y = stackPoint[1]; break; } // When reversedStacks is true, loop up, else loop // down i += upOrDown; } y = pick(y, 0); y = yAxis.translate(// #6272 y, 0, 1, 0, 1); segment.push({ isNull: true, plotX: xAxis.translate(// #6272 x, 0, 0, 0, 1), x: x, plotY: y, yBottom: y }); } }); } return segment; } } /* * * * Static Properties * * */ /** * The area series type. * * @sample {highcharts} highcharts/demo/area-basic/ * Area chart * @sample {highstock} stock/demo/area/ * Area chart * * @extends plotOptions.line * @excluding useOhlcData * @product highcharts highstock * @optionparent plotOptions.area */ AreaSeries.defaultOptions = merge(LineSeries.defaultOptions, { /** * @see [fillColor](#plotOptions.area.fillColor) * @see [fillOpacity](#plotOptions.area.fillOpacity) * * @apioption plotOptions.area.color */ /** * Fill color or gradient for the area. When `undefined`, the series' * `color` is used with the series' `fillOpacity`. * * In styled mode, the fill color can be set with the `.highcharts-area` * class name. * * @see [color](#plotOptions.area.color) * @see [fillOpacity](#plotOptions.area.fillOpacity) * * @sample {highcharts} highcharts/plotoptions/area-fillcolor-default/ * Undefined by default * @sample {highcharts} highcharts/plotoptions/area-fillcolor-gradient/ * Gradient * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @product highcharts highstock * @apioption plotOptions.area.fillColor */ /** * Fill opacity for the area. When you set an explicit `fillColor`, * the `fillOpacity` is not applied. Instead, you should define the * opacity in the `fillColor` with an rgba color definition. The * `fillOpacity` setting, also the default setting, overrides the alpha * component of the `color` setting. * * In styled mode, the fill opacity can be set with the * `.highcharts-area` class name. * * @see [color](#plotOptions.area.color) * @see [fillColor](#plotOptions.area.fillColor) * * @sample {highcharts} highcharts/plotoptions/area-fillopacity/ * Automatic fill color and fill opacity of 0.1 * * @type {number} * @default {highcharts} 0.75 * @default {highstock} 0.75 * @product highcharts highstock * @apioption plotOptions.area.fillOpacity */ /** * A separate color for the graph line. By default the line takes the * `color` of the series, but the lineColor setting allows setting a * separate color for the line without altering the `fillColor`. * * In styled mode, the line stroke can be set with the * `.highcharts-graph` class name. * * @sample {highcharts} highcharts/plotoptions/area-linecolor/ * Dark gray line * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @product highcharts highstock * @apioption plotOptions.area.lineColor */ /** * A separate color for the negative part of the area. * * In styled mode, a negative color is set with the * `.highcharts-negative` class name. * * @see [negativeColor](#plotOptions.area.negativeColor) * * @sample {highcharts} highcharts/css/series-negative-color/ * Negative color in styled mode * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 3.0 * @product highcharts * @apioption plotOptions.area.negativeFillColor */ /** * Whether the whole area or just the line should respond to mouseover * tooltips and other mouse or touch events. * * @sample {highcharts|highstock} highcharts/plotoptions/area-trackbyarea/ * Display the tooltip when the area is hovered * * @type {boolean} * @default false * @since 1.1.6 * @product highcharts highstock * @apioption plotOptions.area.trackByArea */ /** * The Y axis value to serve as the base for the area, for * distinguishing between values above and below a threshold. The area * between the graph and the threshold is filled. * * * If a number is given, the Y axis will scale to the threshold. * * If `null`, the scaling behaves like a line series with fill between * the graph and the Y axis minimum. * * If `Infinity` or `-Infinity`, the area between the graph and the * corresponding Y axis extreme is filled (since v6.1.0). * * @sample {highcharts} highcharts/plotoptions/area-threshold/ * A threshold of 100 * @sample {highcharts} highcharts/plotoptions/area-threshold-infinity/ * A threshold of Infinity * * @type {number|null} * @since 2.0 * @product highcharts highstock */ threshold: 0, legendSymbol: 'areaMarker' }); extend(AreaSeries.prototype, { singleStacks: false }); SeriesRegistry.registerSeriesType('area', AreaSeries); /* * * * Default Export * * */ /* * * * API Options * * */ /** * A `area` series. If the [type](#series.area.type) option is not * specified, it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.area * @excluding dataParser, dataURL, useOhlcData * @product highcharts highstock * @apioption series.area */ /** * @see [fillColor](#series.area.fillColor) * @see [fillOpacity](#series.area.fillOpacity) * * @apioption series.area.color */ /** * An array of data points for the series. For the `area` series type, * points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values will be * interpreted as `y` options. The `x` values will be automatically * calculated, either starting at 0 and incremented by 1, or from * `pointStart` * and `pointInterval` given in the series options. If the * axis has categories, these will be used. Example: * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of arrays with 2 values. In this case, the values correspond to * `x,y`. If the first value is a string, it is applied as the name of the * point, and the `x` value is inferred. * ```js * data: [ * [0, 9], * [1, 7], * [2, 6] * ] * ``` * * 3. An array of objects with named values. The following snippet shows only a * few settings, see the complete options set below. If the total number of * data points exceeds the series' * [turboThreshold](#series.area.turboThreshold), this option is not * available. * ```js * data: [{ * x: 1, * y: 9, * name: "Point2", * color: "#00FF00" * }, { * x: 1, * y: 6, * name: "Point1", * color: "#FF00FF" * }] * ``` * * @sample {highcharts} highcharts/chart/reflow-true/ * Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ * Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ * Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ * Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @type {Array|null|*>} * @extends series.line.data * @product highcharts highstock * @apioption series.area.data */ /** * @see [color](#series.area.color) * @see [fillOpacity](#series.area.fillOpacity) * * @apioption series.area.fillColor */ /** * @see [color](#series.area.color) * @see [fillColor](#series.area.fillColor) * * @default {highcharts} 0.75 * @default {highstock} 0.75 * @apioption series.area.fillOpacity */ ''; // Adds doclets above to transpiled return AreaSeries; }); _registerModule(_modules, 'Series/Spline/SplineSeries.js', [_modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { line: LineSeries } = SeriesRegistry.seriesTypes; const { merge, pick } = U; /* * * * Class * * */ /** * Spline series type. * * @private */ class SplineSeries extends LineSeries { /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * Get the spline segment from a given point's previous neighbour to the * given point. * * @private * @function Highcharts.seriesTypes.spline#getPointSpline */ getPointSpline(points, point, i) { const // 1 means control points midway between points, 2 means 1/3 // from the point, 3 is 1/4 etc smoothing = 1.5, denom = smoothing + 1, plotX = point.plotX || 0, plotY = point.plotY || 0, lastPoint = points[i - 1], nextPoint = points[i + 1]; let leftContX, leftContY, rightContX, rightContY; /** * @private */ function doCurve(otherPoint) { return otherPoint && !otherPoint.isNull && otherPoint.doCurve !== false && // #6387, area splines next to null: !point.isCliff; } // Find control points if (doCurve(lastPoint) && doCurve(nextPoint)) { const lastX = lastPoint.plotX || 0, lastY = lastPoint.plotY || 0, nextX = nextPoint.plotX || 0, nextY = nextPoint.plotY || 0; let correction = 0; 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 if (rightContX !== leftContX) { // #5016, division by zero 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 = Math.max(lastY, plotY); // Mirror of left control point rightContY = 2 * plotY - leftContY; } else if (leftContY < lastY && leftContY < plotY) { leftContY = Math.min(lastY, plotY); rightContY = 2 * plotY - leftContY; } if (rightContY > nextY && rightContY > plotY) { rightContY = Math.max(nextY, plotY); leftContY = 2 * plotY - rightContY; } else if (rightContY < nextY && rightContY < plotY) { rightContY = Math.min(nextY, plotY); leftContY = 2 * plotY - rightContY; } // Record for drawing in next point point.rightContX = rightContX; point.rightContY = rightContY; // Visualize control points for debugging /* if (leftContX) { this.chart.renderer .circle( leftContX + this.chart.plotLeft, leftContY + this.chart.plotTop, 2 ) .attr({ stroke: 'red', 'stroke-width': 2, fill: 'none', zIndex: 9 }) .add(); this.chart.renderer .path([['M', leftContX + this.chart.plotLeft, leftContY + this.chart.plotTop ], ['L', plotX + this.chart.plotLeft, plotY + this.chart.plotTop ]]) .attr({ stroke: 'red', 'stroke-width': 2, zIndex: 9 }) .add(); } if (rightContX) { this.chart.renderer .circle( rightContX + this.chart.plotLeft, rightContY + this.chart.plotTop, 2 ) .attr({ stroke: 'green', 'stroke-width': 2, fill: 'none', zIndex: 9 }) .add(); this.chart.renderer .path([[ 'M', rightContX + this.chart.plotLeft, rightContY + this.chart.plotTop ], [ 'L', plotX + this.chart.plotLeft, plotY + this.chart.plotTop ]]) .attr({ stroke: 'green', 'stroke-width': 2, zIndex: 9 }) .add(); } // */ point.controlPoints = { low: [leftContX, leftContY], high: [rightContX, rightContY] }; } const ret = [ 'C', pick(lastPoint.rightContX, lastPoint.plotX, 0), pick(lastPoint.rightContY, lastPoint.plotY, 0), pick(leftContX, plotX, 0), pick(leftContY, plotY, 0), plotX, plotY ]; // Reset for updating series later lastPoint.rightContX = lastPoint.rightContY = void 0; return ret; } } /* * * * Static Properties * * */ /** * A spline series is a special type of line series, where the segments * between the data points are smoothed. * * @sample {highcharts} highcharts/demo/spline-irregular-time/ * Spline chart * @sample {highstock} stock/demo/spline/ * Spline chart * * @extends plotOptions.series * @excluding step, boostThreshold, boostBlending * @product highcharts highstock * @optionparent plotOptions.spline */ SplineSeries.defaultOptions = merge(LineSeries.defaultOptions); SeriesRegistry.registerSeriesType('spline', SplineSeries); /* * * * Default Export * * */ /* * * * API Options * * */ /** * A `spline` series. If the [type](#series.spline.type) option is * not specified, it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.spline * @excluding dataParser, dataURL, step, boostThreshold, boostBlending * @product highcharts highstock * @apioption series.spline */ /** * An array of data points for the series. For the `spline` series type, * points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values will be * interpreted as `y` options. The `x` values will be automatically * calculated, either starting at 0 and incremented by 1, or from * `pointStart` and `pointInterval` given in the series options. If the axis * has categories, these will be used. Example: * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of arrays with 2 values. In this case, the values correspond to * `x,y`. If the first value is a string, it is applied as the name of the * point, and the `x` value is inferred. * ```js * data: [ * [0, 9], * [1, 2], * [2, 8] * ] * ``` * * 3. An array of objects with named values. The following snippet shows only a * few settings, see the complete options set below. If the total number of * data points exceeds the series' * [turboThreshold](#series.spline.turboThreshold), * this option is not available. * ```js * data: [{ * x: 1, * y: 9, * name: "Point2", * color: "#00FF00" * }, { * x: 1, * y: 0, * name: "Point1", * color: "#FF00FF" * }] * ``` * * @sample {highcharts} highcharts/chart/reflow-true/ * Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ * Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ * Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ * Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @type {Array|null|*>} * @extends series.line.data * @product highcharts highstock * @apioption series.spline.data */ ''; // Adds doclets above intro transpiled return SplineSeries; }); _registerModule(_modules, 'Series/AreaSpline/AreaSplineSeries.js', [_modules['Series/Spline/SplineSeries.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (SplineSeries, SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { area: AreaSeries, area: { prototype: areaProto } } = SeriesRegistry.seriesTypes; const { extend, merge } = U; /* * * * Class * * */ /** * AreaSpline series type. * * @private * @class * @name Highcharts.seriesTypes.areaspline * * @augments Highcharts.Series */ class AreaSplineSeries extends SplineSeries { } /* * * * Static Properties * * */ AreaSplineSeries.defaultOptions = merge(SplineSeries.defaultOptions, AreaSeries.defaultOptions); extend(AreaSplineSeries.prototype, { getGraphPath: areaProto.getGraphPath, getStackPoints: areaProto.getStackPoints, drawGraph: areaProto.drawGraph }); SeriesRegistry.registerSeriesType('areaspline', AreaSplineSeries); /* * * * Default Export * * */ /* * * * API Options * * */ /** * The area spline series is an area series where the graph between the * points is smoothed into a spline. * * @sample {highcharts} highcharts/demo/areaspline/ * Area spline chart * @sample {highstock} stock/demo/areaspline/ * Area spline chart * * @extends plotOptions.area * @excluding step, boostThreshold, boostBlending * @product highcharts highstock * @apioption plotOptions.areaspline */ /** * @see [fillColor](#plotOptions.areaspline.fillColor) * @see [fillOpacity](#plotOptions.areaspline.fillOpacity) * * @apioption plotOptions.areaspline.color */ /** * @see [color](#plotOptions.areaspline.color) * @see [fillOpacity](#plotOptions.areaspline.fillOpacity) * * @apioption plotOptions.areaspline.fillColor */ /** * @see [color](#plotOptions.areaspline.color) * @see [fillColor](#plotOptions.areaspline.fillColor) * * @default 0.75 * @apioption plotOptions.areaspline.fillOpacity */ /** * A `areaspline` series. If the [type](#series.areaspline.type) option * is not specified, it is inherited from [chart.type](#chart.type). * * * @extends series,plotOptions.areaspline * @excluding dataParser, dataURL, step, boostThreshold, boostBlending * @product highcharts highstock * @apioption series.areaspline */ /** * @see [fillColor](#series.areaspline.fillColor) * @see [fillOpacity](#series.areaspline.fillOpacity) * * @apioption series.areaspline.color */ /** * An array of data points for the series. For the `areaspline` series * type, points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values will be * interpreted as `y` options. The `x` values will be automatically * calculated, either starting at 0 and incremented by 1, or from * `pointStart` and `pointInterval` given in the series options. If the axis * has categories, these will be used. Example: * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of arrays with 2 values. In this case, the values correspond to * `x,y`. If the first value is a string, it is applied as the name of the * point, and the `x` value is inferred. * ```js * data: [ * [0, 10], * [1, 9], * [2, 3] * ] * ``` * * 3. An array of objects with named values. The following snippet shows only a * few settings, see the complete options set below. If the total number of * data points exceeds the series' * [turboThreshold](#series.areaspline.turboThreshold), this option is not * available. * ```js * data: [{ * x: 1, * y: 4, * name: "Point2", * color: "#00FF00" * }, { * x: 1, * y: 4, * name: "Point1", * color: "#FF00FF" * }] * ``` * * @sample {highcharts} highcharts/chart/reflow-true/ * Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ * Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ * Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ * Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @type {Array|null|*>} * @extends series.line.data * @product highcharts highstock * @apioption series.areaspline.data */ /** * @see [color](#series.areaspline.color) * @see [fillOpacity](#series.areaspline.fillOpacity) * * @apioption series.areaspline.fillColor */ /** * @see [color](#series.areaspline.color) * @see [fillColor](#series.areaspline.fillColor) * * @default 0.75 * @apioption series.areaspline.fillOpacity */ ''; // Adds doclets above into transpiled return AreaSplineSeries; }); _registerModule(_modules, 'Series/Column/ColumnSeriesDefaults.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * API Options * * */ /** * Column series display one column per value along an X axis. * * @sample {highcharts} highcharts/demo/column-basic/ * Column chart * @sample {highstock} stock/demo/column/ * Column chart * * @extends plotOptions.line * @excluding connectEnds, connectNulls, gapSize, gapUnit, linecap, * lineWidth, marker, step, useOhlcData * @product highcharts highstock * @optionparent plotOptions.column */ const ColumnSeriesDefaults = { /** * The corner radius of the border surrounding each column or bar. A number * signifies pixels. A percentage string, like for example `50%`, signifies * a relative size. For columns this is relative to the column width, for * pies it is relative to the radius and the inner radius. * * @sample {highcharts} highcharts/plotoptions/column-borderradius/ * Rounded columns * @sample highcharts/plotoptions/series-border-radius * Column and pie with rounded border * * @type {number|string|Highcharts.BorderRadiusOptionsObject} * @product highcharts highstock gantt */ borderRadius: 3, /** * When using automatic point colors pulled from the global * [colors](colors) or series-specific * [plotOptions.column.colors](series.colors) collections, this option * determines whether the chart should receive one color per series or * one color per point. * * In styled mode, the `colors` or `series.colors` arrays are not * supported, and instead this option gives the points individual color * class names on the form `highcharts-color-{n}`. * * @see [series colors](#plotOptions.column.colors) * * @sample {highcharts} highcharts/plotoptions/column-colorbypoint-false/ * False by default * @sample {highcharts} highcharts/plotoptions/column-colorbypoint-true/ * True * * @type {boolean} * @default false * @since 2.0 * @product highcharts highstock gantt * @apioption plotOptions.column.colorByPoint */ /** * A series specific or series type specific color set to apply instead * of the global [colors](#colors) when [colorByPoint]( * #plotOptions.column.colorByPoint) is true. * * @type {Array} * @since 3.0 * @product highcharts highstock gantt * @apioption plotOptions.column.colors */ /** * When `true`, the columns will center in the category, ignoring null * or missing points. When `false`, space will be reserved for null or * missing points. * * @sample {highcharts} highcharts/series-column/centerincategory/ * Center in category * * @since 8.0.1 * @product highcharts highstock gantt */ centerInCategory: false, /** * Padding between each value groups, in x axis units. * * @sample {highcharts} highcharts/plotoptions/column-grouppadding-default/ * 0.2 by default * @sample {highcharts} highcharts/plotoptions/column-grouppadding-none/ * No group padding - all columns are evenly spaced * * @product highcharts highstock gantt */ groupPadding: 0.2, /** * Whether to group non-stacked columns or to let them render * independent of each other. Non-grouped columns will be laid out * individually and overlap each other. * * @sample {highcharts} highcharts/plotoptions/column-grouping-false/ * Grouping disabled * @sample {highstock} highcharts/plotoptions/column-grouping-false/ * Grouping disabled * * @type {boolean} * @default true * @since 2.3.0 * @product highcharts highstock gantt * @apioption plotOptions.column.grouping */ /** @ignore-option */ marker: null, /** * The maximum allowed pixel width for a column, translated to the * height of a bar in a bar chart. This prevents the columns from * becoming too wide when there is a small number of points in the * chart. * * @see [pointWidth](#plotOptions.column.pointWidth) * * @sample {highcharts} highcharts/plotoptions/column-maxpointwidth-20/ * Limited to 50 * @sample {highstock} highcharts/plotoptions/column-maxpointwidth-20/ * Limited to 50 * * @type {number} * @since 4.1.8 * @product highcharts highstock gantt * @apioption plotOptions.column.maxPointWidth */ /** * Padding between each column or bar, in x axis units. * * @sample {highcharts} highcharts/plotoptions/column-pointpadding-default/ * 0.1 by default * @sample {highcharts} highcharts/plotoptions/column-pointpadding-025/ * 0.25 * @sample {highcharts} highcharts/plotoptions/column-pointpadding-none/ * 0 for tightly packed columns * * @product highcharts highstock gantt */ pointPadding: 0.1, /** * A pixel value specifying a fixed width for each column or bar point. * When set to `undefined`, the width is calculated from the * `pointPadding` and `groupPadding`. The width effects the dimension * that is not based on the point value. For column series it is the * horizontal length and for bar series it is the vertical length. * * @see [maxPointWidth](#plotOptions.column.maxPointWidth) * * @sample {highcharts} highcharts/plotoptions/column-pointwidth-20/ * 20px wide columns regardless of chart width or the amount of * data points * * @type {number} * @since 1.2.5 * @product highcharts highstock gantt * @apioption plotOptions.column.pointWidth */ /** * A pixel value specifying a fixed width for the column or bar. * Overrides pointWidth on the series. * * @see [series.pointWidth](#plotOptions.column.pointWidth) * * @type {number} * @default undefined * @since 7.0.0 * @product highcharts highstock gantt * @apioption series.column.data.pointWidth */ /** * The minimal height for a column or width for a bar. By default, * 0 values are not shown. To visualize a 0 (or close to zero) point, * set the minimal point length to a pixel value like 3\. In stacked * column charts, minPointLength might not be respected for tightly * packed values. * * @sample {highcharts} highcharts/plotoptions/column-minpointlength/ * Zero base value * @sample {highcharts} highcharts/plotoptions/column-minpointlength-pos-and-neg/ * Positive and negative close to zero values * * @product highcharts highstock gantt */ minPointLength: 0, /** * When the series contains less points than the crop threshold, all * points are drawn, event if the points fall outside the visible plot * area at the current zoom. The advantage of drawing all points * (including markers and columns), is that animation is performed on * updates. On the other hand, when the series contains more points than * the crop threshold, the series data is cropped to only contain points * that fall within the plot area. The advantage of cropping away * invisible points is to increase performance on large series. * * @product highcharts highstock gantt */ cropThreshold: 50, /** * The X axis range that each point is valid for. This determines the * width of the column. On a categorized axis, the range will be 1 * by default (one category unit). On linear and datetime axes, the * range will be computed as the distance between the two closest data * points. * * The default `null` means it is computed automatically, but this * option can be used to override the automatic value. * * This option is set by default to 1 if data sorting is enabled. * * @sample {highcharts} highcharts/plotoptions/column-pointrange/ * Set the point range to one day on a data set with one week * between the points * * @type {number|null} * @since 2.3 * @product highcharts highstock gantt */ pointRange: null, states: { /** * Options for the hovered point. These settings override the normal * state options when a point is moused over or touched. * * @extends plotOptions.series.states.hover * @excluding halo, lineWidth, lineWidthPlus, marker * @product highcharts highstock gantt */ hover: { /** @ignore-option */ halo: false, /** * A specific border color for the hovered point. Defaults to * inherit the normal state border color. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @product highcharts gantt * @apioption plotOptions.column.states.hover.borderColor */ /** * A specific color for the hovered point. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @product highcharts gantt * @apioption plotOptions.column.states.hover.color */ /** * How much to brighten the point on interaction. Requires the * main color to be defined in hex or rgb(a) format. * * In styled mode, the hover brightening is by default replaced * with a fill-opacity set in the `.highcharts-point:hover` * rule. * * @sample {highcharts} highcharts/plotoptions/column-states-hover-brightness/ * Brighten by 0.5 * * @product highcharts highstock gantt */ brightness: 0.1 }, /** * Options for the selected point. These settings override the * normal state options when a point is selected. * * @extends plotOptions.series.states.select * @excluding halo, lineWidth, lineWidthPlus, marker * @product highcharts highstock gantt */ select: { /** * A specific color for the selected point. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default #cccccc * @product highcharts highstock gantt */ color: "#cccccc" /* Palette.neutralColor20 */, /** * A specific border color for the selected point. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default #000000 * @product highcharts highstock gantt */ borderColor: "#000000" /* Palette.neutralColor100 */ } }, dataLabels: { align: void 0, verticalAlign: void 0, /** * The y position offset of the label relative to the point in * pixels. * * @type {number} */ y: void 0 }, // False doesn't work well: https://jsfiddle.net/highcharts/hz8fopan/14/ /** @ignore-option */ startFromThreshold: true, stickyTracking: false, tooltip: { distance: 6 }, /** * The Y axis value to serve as the base for the columns, for * distinguishing between values above and below a threshold. If `null`, * the columns extend from the padding Y axis minimum. * * @type {number|null} * @since 2.0 * @product highcharts */ threshold: 0, /** * The width of the border surrounding each column or bar. Defaults to * `1` when there is room for a border, but to `0` when the columns are * so dense that a border would cover the next column. * * In styled mode, the stroke width can be set with the * `.highcharts-point` rule. * * @sample {highcharts} highcharts/plotoptions/column-borderwidth/ * 2px black border * * @type {number} * @default undefined * @product highcharts highstock gantt * @apioption plotOptions.column.borderWidth */ /** * The color of the border surrounding each column or bar. * * In styled mode, the border stroke can be set with the * `.highcharts-point` rule. * * @sample {highcharts} highcharts/plotoptions/column-bordercolor/ * Dark gray border * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default #ffffff * @product highcharts highstock gantt */ borderColor: "#ffffff" /* Palette.backgroundColor */ }; /** * A `column` series. If the [type](#series.column.type) option is * not specified, it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.column * @excluding connectNulls, dataParser, dataURL, gapSize, gapUnit, linecap, * lineWidth, marker, connectEnds, step * @product highcharts highstock * @apioption series.column */ /** * An array of data points for the series. For the `column` series type, * points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values will be * interpreted as `y` options. The `x` values will be automatically * calculated, either starting at 0 and incremented by 1, or from * `pointStart` and `pointInterval` given in the series options. If the axis * has categories, these will be used. Example: * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of arrays with 2 values. In this case, the values correspond to * `x,y`. If the first value is a string, it is applied as the name of the * point, and the `x` value is inferred. * ```js * data: [ * [0, 6], * [1, 2], * [2, 6] * ] * ``` * * 3. An array of objects with named values. The following snippet shows only a * few settings, see the complete options set below. If the total number of * data points exceeds the series' * [turboThreshold](#series.column.turboThreshold), this option is not * available. * ```js * data: [{ * x: 1, * y: 9, * name: "Point2", * color: "#00FF00" * }, { * x: 1, * y: 6, * name: "Point1", * color: "#FF00FF" * }] * ``` * * @sample {highcharts} highcharts/chart/reflow-true/ * Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ * Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ * Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ * Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @type {Array|null|*>} * @extends series.line.data * @excluding marker * @product highcharts highstock * @apioption series.column.data */ /** * The color of the border surrounding the column or bar. * * In styled mode, the border stroke can be set with the `.highcharts-point` * rule. * * @sample {highcharts} highcharts/plotoptions/column-bordercolor/ * Dark gray border * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @product highcharts highstock * @apioption series.column.data.borderColor */ /** * The width of the border surrounding the column or bar. * * In styled mode, the stroke width can be set with the `.highcharts-point` * rule. * * @sample {highcharts} highcharts/plotoptions/column-borderwidth/ * 2px black border * * @type {number} * @product highcharts highstock * @apioption series.column.data.borderWidth */ /** * A name for the dash style to use for the column or bar. Overrides * dashStyle on the series. * * In styled mode, the stroke dash-array can be set with the same classes as * listed under [data.color](#series.column.data.color). * * @see [series.pointWidth](#plotOptions.column.dashStyle) * * @type {Highcharts.DashStyleValue} * @apioption series.column.data.dashStyle */ /** * A pixel value specifying a fixed width for the column or bar. Overrides * pointWidth on the series. The width effects the dimension that is not based * on the point value. * * @see [series.pointWidth](#plotOptions.column.pointWidth) * * @type {number} * @apioption series.column.data.pointWidth */ /** * @excluding halo, lineWidth, lineWidthPlus, marker * @product highcharts highstock * @apioption series.column.states.hover */ /** * @excluding halo, lineWidth, lineWidthPlus, marker * @product highcharts highstock * @apioption series.column.states.select */ ''; // Keeps doclets above in JS file /* * * * Default Export * * */ return ColumnSeriesDefaults; }); _registerModule(_modules, 'Series/Column/ColumnSeries.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Color/Color.js'], _modules['Series/Column/ColumnSeriesDefaults.js'], _modules['Core/Globals.js'], _modules['Core/Series/Series.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (A, Color, ColumnSeriesDefaults, H, Series, SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { animObject } = A; const { parse: color } = Color; const { noop } = H; const { clamp, defined, extend, fireEvent, isArray, isNumber, merge, pick, objectEach } = U; /* * * * Class * * */ /** * The column series type. * * @private * @class * @name Highcharts.seriesTypes.column * * @augments Highcharts.Series */ class ColumnSeries extends Series { /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * Animate the column heights one by one from zero. * * @private * @function Highcharts.seriesTypes.column#animate * * @param {boolean} init * Whether to initialize the animation or run it */ animate(init) { const series = this, yAxis = this.yAxis, yAxisPos = yAxis.pos, options = series.options, inverted = this.chart.inverted, attr = {}, translateProp = inverted ? 'translateX' : 'translateY'; let translateStart, translatedThreshold; if (init) { attr.scaleY = 0.001; translatedThreshold = clamp(yAxis.toPixels(options.threshold), yAxisPos, yAxisPos + yAxis.len); if (inverted) { attr.translateX = translatedThreshold - yAxis.len; } else { attr.translateY = translatedThreshold; } // Apply final clipping (used in Highcharts Stock) (#7083) // animation is done by scaleY, so clipping is for panes if (series.clipBox) { series.setClip(); } series.group.attr(attr); } else { // Run the animation translateStart = Number(series.group.attr(translateProp)); series.group.animate({ scaleY: 1 }, extend(animObject(series.options.animation), { // Do the scale synchronously to ensure smooth // updating (#5030, #7228) step: function (val, fx) { if (series.group) { attr[translateProp] = translateStart + fx.pos * (yAxisPos - translateStart); series.group.attr(attr); } } })); } } /** * Initialize the series. Extends the basic Series.init method by * marking other series of the same type as dirty. * * @private * @function Highcharts.seriesTypes.column#init */ init(chart, // eslint-disable-next-line @typescript-eslint/no-unused-vars options) { super.init.apply(this, arguments); const series = this; chart = series.chart; // If the series is added dynamically, force redraw of other // series affected by a new column if (chart.hasRendered) { chart.series.forEach(function (otherSeries) { if (otherSeries.type === series.type) { otherSeries.isDirty = true; } }); } } /** * Return the width and x offset of the columns adjusted for grouping, * groupPadding, pointPadding, pointWidth etc. * * @private * @function Highcharts.seriesTypes.column#getColumnMetrics */ getColumnMetrics() { const series = this, options = series.options, xAxis = series.xAxis, yAxis = series.yAxis, reversedStacks = xAxis.options.reversedStacks, // Keep backward compatibility: reversed xAxis had reversed // stacks reverseStacks = (xAxis.reversed && !reversedStacks) || (!xAxis.reversed && reversedStacks), stackGroups = {}; let stackKey, columnCount = 0; // Get the total number of column type series. This is called on // every series. Consider moving this logic to a chart.orderStacks() // function and call it on init, addSeries and removeSeries if (options.grouping === false) { columnCount = 1; } else { series.chart.series.forEach(function (otherSeries) { const otherYAxis = otherSeries.yAxis, otherOptions = otherSeries.options; let columnIndex; if (otherSeries.type === series.type && otherSeries.reserveSpace() && yAxis.len === otherYAxis.len && yAxis.pos === otherYAxis.pos) { // #642, #2086 if (otherOptions.stacking && otherOptions.stacking !== 'group') { stackKey = otherSeries.stackKey; if (typeof stackGroups[stackKey] === 'undefined') { stackGroups[stackKey] = columnCount++; } columnIndex = stackGroups[stackKey]; } else if (otherOptions.grouping !== false) { // #1162 columnIndex = columnCount++; } otherSeries.columnIndex = columnIndex; } }); } const categoryWidth = Math.min(Math.abs(xAxis.transA) * ((!xAxis.brokenAxis?.hasBreaks && xAxis.ordinal?.slope) || options.pointRange || xAxis.closestPointRange || xAxis.tickInterval || 1), // #2610 xAxis.len // #1535 ), groupPadding = categoryWidth * options.groupPadding, groupWidth = categoryWidth - 2 * groupPadding, pointOffsetWidth = groupWidth / (columnCount || 1), pointWidth = Math.min(options.maxPointWidth || xAxis.len, pick(options.pointWidth, pointOffsetWidth * (1 - 2 * options.pointPadding))), pointPadding = (pointOffsetWidth - pointWidth) / 2, // #1251, #3737 colIndex = (series.columnIndex || 0) + (reverseStacks ? 1 : 0), pointXOffset = pointPadding + (groupPadding + colIndex * pointOffsetWidth - (categoryWidth / 2)) * (reverseStacks ? -1 : 1); // Save it for reading in linked series (Error bars particularly) series.columnMetrics = { width: pointWidth, offset: pointXOffset, paddedWidth: pointOffsetWidth, columnCount }; return series.columnMetrics; } /** * Make the columns crisp. The edges are rounded to the nearest full * pixel. * * @private * @function Highcharts.seriesTypes.column#crispCol */ crispCol(x, y, w, h) { const borderWidth = this.borderWidth, xCrisp = -(borderWidth % 2 ? 0.5 : 0), yCrisp = borderWidth % 2 ? 0.5 : 1; let right; // Horizontal. We need to first compute the exact right edge, then // round it and compute the width from there. if (this.options.crisp) { right = Math.round(x + w) + xCrisp; x = Math.round(x) + xCrisp; w = right - x; } // Vertical const bottom = Math.round(y + h) + yCrisp, fromTop = Math.abs(y) <= 0.5 && bottom > 0.5; // #4504, #4656 y = Math.round(y) + yCrisp; h = bottom - y; // Top edges are exceptions if (fromTop && h) { // #5146 y -= 1; h += 1; } return { x: x, y: y, width: w, height: h }; } /** * Adjust for missing columns, according to the `centerInCategory` * option. Missing columns are either single points or stacks where the * point or points are either missing or null. * * @private * @function Highcharts.seriesTypes.column#adjustForMissingColumns * @param {number} x * The x coordinate of the column, left side * * @param {number} pointWidth * The pointWidth, already computed upstream * * @param {Highcharts.ColumnPoint} point * The point instance * * @param {Highcharts.ColumnMetricsObject} metrics * The series-wide column metrics * * @return {number} * The adjusted x position, or the original if not adjusted */ adjustForMissingColumns(x, pointWidth, point, metrics) { if (!point.isNull && metrics.columnCount > 1) { const visibleSeries = this.xAxis.series .filter((s) => s.visible) .map((s) => s.index); let indexInCategory = 0, totalInCategory = 0; // Loop over all the stacks on the Y axis. When stacking is enabled, // these are real point stacks. When stacking is not enabled, but // `centerInCategory` is true, there is one stack handling the // grouping of points in each category. This is done in the // `setGroupedPoints` function. objectEach(this.xAxis.stacking?.stacks, (stack) => { if (typeof point.x === 'number') { const stackItem = stack[point.x.toString()]; if (stackItem) { const pointValues = stackItem.points[this.index]; // Look for the index if (isArray(pointValues)) { // If there are multiple points with the same X // then gather all series in category, and // assign index const seriesIndexes = Object .keys(stackItem.points) .filter((pointKey) => // Filter out duplicate X's !pointKey.match(',') && // Filter out null points stackItem.points[pointKey] && stackItem.points[pointKey].length > 1) .map(parseFloat) .filter((index) => visibleSeries.indexOf(index) !== -1) .sort((a, b) => b - a); indexInCategory = seriesIndexes.indexOf(this.index); totalInCategory = seriesIndexes.length; } } } }); indexInCategory = this.xAxis.reversed ? totalInCategory - 1 - indexInCategory : indexInCategory; // Compute the adjusted x position const boxWidth = (totalInCategory - 1) * metrics.paddedWidth + pointWidth; x = (point.plotX || 0) + boxWidth / 2 - pointWidth - indexInCategory * metrics.paddedWidth; } return x; } /** * Translate each point to the plot area coordinate system and find * shape positions * * @private * @function Highcharts.seriesTypes.column#translate */ translate() { const series = this, chart = series.chart, options = series.options, dense = series.dense = series.closestPointRange * series.xAxis.transA < 2, borderWidth = series.borderWidth = pick(options.borderWidth, dense ? 0 : 1 // #3635 ), xAxis = series.xAxis, yAxis = series.yAxis, threshold = options.threshold, minPointLength = pick(options.minPointLength, 5), metrics = series.getColumnMetrics(), seriesPointWidth = metrics.width, seriesXOffset = series.pointXOffset = metrics.offset, dataMin = series.dataMin, dataMax = series.dataMax; // Postprocessed for border width let seriesBarW = series.barW = Math.max(seriesPointWidth, 1 + 2 * borderWidth), translatedThreshold = series.translatedThreshold = yAxis.getThreshold(threshold); if (chart.inverted) { translatedThreshold -= 0.5; // #3355 } // When the pointPadding is 0, we want the columns to be packed // tightly, so we allow individual columns to have individual sizes. // When pointPadding is greater, we strive for equal-width columns // (#2694). if (options.pointPadding) { seriesBarW = Math.ceil(seriesBarW); } Series.prototype.translate.apply(series); // Record the new values series.points.forEach(function (point) { const yBottom = pick(point.yBottom, translatedThreshold), safeDistance = 999 + Math.abs(yBottom), plotX = point.plotX || 0, // Don't draw too far outside plot area (#1303, #2241, // #4264) plotY = clamp(point.plotY, -safeDistance, yAxis.len + safeDistance); let up, barY = Math.min(plotY, yBottom), barH = Math.max(plotY, yBottom) - barY, pointWidth = seriesPointWidth, barX = plotX + seriesXOffset, barW = seriesBarW; // Handle options.minPointLength if (minPointLength && Math.abs(barH) < minPointLength) { barH = minPointLength; up = (!yAxis.reversed && !point.negative) || (yAxis.reversed && point.negative); // Reverse zeros if there's no positive value in the series // in visible range (#7046) if (isNumber(threshold) && isNumber(dataMax) && point.y === threshold && dataMax <= threshold && // And if there's room for it (#7311) (yAxis.min || 0) < threshold && // If all points are the same value (i.e zero) not draw // as negative points (#10646), but only if there's room // for it (#14876) (dataMin !== dataMax || (yAxis.max || 0) <= threshold)) { up = !up; point.negative = !point.negative; } // If stacked... barY = (Math.abs(barY - translatedThreshold) > minPointLength ? // ...keep position yBottom - minPointLength : // #1485, #4051 translatedThreshold - (up ? minPointLength : 0)); } // Handle point.options.pointWidth // @todo Handle grouping/stacking too. Calculate offset properly if (defined(point.options.pointWidth)) { pointWidth = barW = Math.ceil(point.options.pointWidth); barX -= Math.round((pointWidth - seriesPointWidth) / 2); } // Adjust for null or missing points if (options.centerInCategory && !options.stacking) { barX = series.adjustForMissingColumns(barX, pointWidth, point, metrics); } // Cache for access in polar point.barX = barX; point.pointWidth = pointWidth; // Fix the tooltip on center of grouped columns (#1216, #424, // #3648) point.tooltipPos = chart.inverted ? [ clamp(yAxis.len + yAxis.pos - chart.plotLeft - plotY, yAxis.pos - chart.plotLeft, yAxis.len + yAxis.pos - chart.plotLeft), xAxis.len + xAxis.pos - chart.plotTop - barX - barW / 2, barH ] : [ xAxis.left - chart.plotLeft + barX + barW / 2, clamp(plotY + yAxis.pos - chart.plotTop, yAxis.pos - chart.plotTop, yAxis.len + yAxis.pos - chart.plotTop), barH ]; // Register shape type and arguments to be used in drawPoints. Allow // `shapeType` defined on `pointClass` level. point.shapeType = series.pointClass.prototype.shapeType || 'roundedRect'; point.shapeArgs = series.crispCol(barX, // #3169, drilldown from null must have a position to work from. // #6585, dataLabel should be placed on xAxis, not floating in // the middle of the chart. point.isNull ? translatedThreshold : barY, barW, point.isNull ? 0 : barH); }); // Fire a specific event after column translate. We could instead apply // all the column logic in an `afterTranslate` event handler, but there // are so many other series types that use the column translation, that // it is more convenient to have a specific event for it. fireEvent(this, 'afterColumnTranslate'); } /** * Columns have no graph * * @private * @function Highcharts.seriesTypes.column#drawGraph */ drawGraph() { this.group[this.dense ? 'addClass' : 'removeClass']('highcharts-dense-data'); } /** * Get presentational attributes * * @private * @function Highcharts.seriesTypes.column#pointAttribs */ pointAttribs(point, state) { const options = this.options, p2o = this.pointAttrToOptions || {}, strokeOption = p2o.stroke || 'borderColor', strokeWidthOption = p2o['stroke-width'] || 'borderWidth'; let stateOptions, zone, brightness, fill = (point && point.color) || this.color, // Set to fill when borderColor null: stroke = ((point && point[strokeOption]) || options[strokeOption] || fill), dashstyle = (point && point.options.dashStyle) || options.dashStyle, strokeWidth = (point && point[strokeWidthOption]) || options[strokeWidthOption] || this[strokeWidthOption] || 0, opacity = pick(point && point.opacity, options.opacity, 1); // Handle zone colors if (point && this.zones.length) { zone = point.getZone(); // When zones are present, don't use point.color (#4267). // Changed order (#6527), added support for colorAxis (#10670) fill = (point.options.color || (zone && (zone.color || point.nonZonedColor)) || this.color); if (zone) { stroke = zone.borderColor || stroke; dashstyle = zone.dashStyle || dashstyle; strokeWidth = zone.borderWidth || strokeWidth; } } // Select or hover states if (state && point) { stateOptions = merge(options.states[state], // #6401 point.options.states && point.options.states[state] || {}); brightness = stateOptions.brightness; fill = stateOptions.color || (typeof brightness !== 'undefined' && color(fill) .brighten(stateOptions.brightness) .get()) || fill; stroke = stateOptions[strokeOption] || stroke; strokeWidth = stateOptions[strokeWidthOption] || strokeWidth; dashstyle = stateOptions.dashStyle || dashstyle; opacity = pick(stateOptions.opacity, opacity); } const ret = { fill: fill, stroke: stroke, 'stroke-width': strokeWidth, opacity: opacity }; if (dashstyle) { ret.dashstyle = dashstyle; } return ret; } /** * 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. * * @private * @function Highcharts.seriesTypes.column#drawPoints */ drawPoints(points = this.points) { const series = this, chart = this.chart, options = series.options, renderer = chart.renderer, animationLimit = options.animationLimit || 250; let shapeArgs; // Draw the columns points.forEach(function (point) { const plotY = point.plotY; let graphic = point.graphic, hasGraphic = !!graphic, verb = graphic && chart.pointCount < animationLimit ? 'animate' : 'attr'; if (isNumber(plotY) && point.y !== null) { shapeArgs = point.shapeArgs; // When updating a series between 2d and 3d or cartesian and // polar, the shape type changes. if (graphic && point.hasNewShapeType()) { graphic = graphic.destroy(); } // Set starting position for point sliding animation. if (series.enabledDataSorting) { point.startXPos = series.xAxis.reversed ? -(shapeArgs ? (shapeArgs.width || 0) : 0) : series.xAxis.width; } if (!graphic) { point.graphic = graphic = renderer[point.shapeType](shapeArgs) .add(point.group || series.group); if (graphic && series.enabledDataSorting && chart.hasRendered && chart.pointCount < animationLimit) { graphic.attr({ x: point.startXPos }); hasGraphic = true; verb = 'animate'; } } if (graphic && hasGraphic) { // Update graphic[verb](merge(shapeArgs)); } // Presentational if (!chart.styledMode) { graphic[verb](series.pointAttribs(point, (point.selected && 'select'))) .shadow(point.allowShadow !== false && options.shadow); } if (graphic) { graphic.addClass(point.getClassName(), true); graphic.attr({ visibility: point.visible ? 'inherit' : 'hidden' }); } } else if (graphic) { point.graphic = graphic.destroy(); // #1269 } }); } /** * Draw the tracker for a point. * @private */ drawTracker(points = this.points) { const series = this, chart = series.chart, pointer = chart.pointer, onMouseOver = function (e) { const point = pointer?.getPointFromEvent(e); // Undefined on graph in scatterchart if (pointer && point && series.options.enableMouseTracking) { pointer.isDirectTouch = true; point.onMouseOver(e); } }; let dataLabels; // Add reference to the point points.forEach(function (point) { dataLabels = (isArray(point.dataLabels) ? point.dataLabels : (point.dataLabel ? [point.dataLabel] : [])); if (point.graphic) { point.graphic.element.point = point; } dataLabels.forEach(function (dataLabel) { (dataLabel.div || dataLabel.element).point = point; }); }); // Add the event listeners, we need to do this only once if (!series._hasTracking) { series.trackerGroups.forEach(function (key) { if (series[key]) { // We don't always have dataLabelsGroup series[key] .addClass('highcharts-tracker') .on('mouseover', onMouseOver) .on('mouseout', function (e) { pointer?.onTrackerMouseOut(e); }) .on('touchstart', onMouseOver); if (!chart.styledMode && series.options.cursor) { series[key] .css({ cursor: series.options.cursor }); } } }); series._hasTracking = true; } fireEvent(this, 'afterDrawTracker'); } /** * Remove this series from the chart * * @private * @function Highcharts.seriesTypes.column#remove */ remove() { const 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) { chart.series.forEach(function (otherSeries) { if (otherSeries.type === series.type) { otherSeries.isDirty = true; } }); } Series.prototype.remove.apply(series, arguments); } } /* * * * Static Properties * * */ ColumnSeries.defaultOptions = merge(Series.defaultOptions, ColumnSeriesDefaults); extend(ColumnSeries.prototype, { // When tooltip is not shared, this series (and derivatives) requires // direct touch/hover. KD-tree does not apply. directTouch: true, getSymbol: noop, // Use separate negative stacks, unlike area stacks where a negative // point is subtracted from previous (#1910) negStacks: true, trackerGroups: ['group', 'dataLabelsGroup'] }); SeriesRegistry.registerSeriesType('column', ColumnSeries); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Adjusted width and x offset of the columns for grouping. * * @private * @interface Highcharts.ColumnMetricsObject */ /** * Width of the columns. * @name Highcharts.ColumnMetricsObject#width * @type {number} */ /** * Offset of the columns. * @name Highcharts.ColumnMetricsObject#offset * @type {number} */ ''; // Detach doclets above return ColumnSeries; }); _registerModule(_modules, 'Core/Series/DataLabel.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Templating.js'], _modules['Core/Utilities.js']], function (A, F, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { getDeferredAnimation } = A; const { format } = F; const { defined, extend, fireEvent, isArray, isString, merge, objectEach, pick, pInt, splat } = U; /* * * * Composition * * */ var DataLabel; (function (DataLabel) { /* * * * Declarations * * */ /* * * * Functions * * */ /** * Check if this series has data labels, either a series-level setting, or * individual. In case of individual point labels, this method is overridden * to always return true. * @private */ function hasDataLabels() { return mergedDataLabelOptions(this) .some((o) => o?.enabled); } /** * Align each individual data label. * @private */ function alignDataLabel(point, dataLabel, options, alignTo, isNew) { const series = this, chart = this.chart, inverted = this.isCartesian && chart.inverted, enabledDataSorting = this.enabledDataSorting, plotX = point.plotX, plotY = point.plotY, rotation = options.rotation || 0, isInsidePlot = defined(plotX) && defined(plotY) && chart.isInsidePlot(plotX, Math.round(plotY), { inverted, paneCoordinates: true, series }), setStartPos = (alignOptions) => { if (enabledDataSorting && series.xAxis && !justify) { series.setDataLabelStartPos(point, dataLabel, isNew, isInsidePlot, alignOptions); } }, justify = rotation === 0 ? pick(options.overflow, (enabledDataSorting ? 'none' : 'justify')) === 'justify' : false; // Math.round for rounding errors (#2683), alignTo to allow column // labels (#2700) let visible = this.visible && point.visible !== false && defined(plotX) && (point.series.forceDL || (enabledDataSorting && !justify) || isInsidePlot || ( // If the data label is inside the align box, it is // enough that parts of the align box is inside the // plot area (#12370). When stacking, it is always // inside regardless of the option (#15148). pick(options.inside, !!this.options.stacking) && alignTo && chart.isInsidePlot(plotX, inverted ? alignTo.x + 1 : alignTo.y + alignTo.height - 1, { inverted, paneCoordinates: true, series }))); const pos = point.pos(); if (visible && pos) { const bBox = dataLabel.getBBox(), unrotatedbBox = dataLabel.getBBox(void 0, 0), alignFactor = { 'right': 1, 'center': 0.5 }[options.align || 0] || 0, verticalAlignFactor = { 'bottom': 1, 'middle': 0.5 }[options.verticalAlign || 0] || 0; // The alignment box is a singular point alignTo = extend({ x: pos[0], y: Math.round(pos[1]), width: 0, height: 0 }, alignTo || {}); // Add the text size for alignment calculation extend(options, { width: bBox.width, height: bBox.height }); setStartPos(alignTo); // Data sorting // Align the label to the adjusted box with for unrotated bBox due // to rotationOrigin, which is based on unrotated label dataLabel.align(merge(options, { width: unrotatedbBox.width, height: unrotatedbBox.height }), false, alignTo, false); dataLabel.alignAttr.x += alignFactor * (unrotatedbBox.width - bBox.width); dataLabel.alignAttr.y += verticalAlignFactor * (unrotatedbBox.height - bBox.height); dataLabel[dataLabel.placed ? 'animate' : 'attr']({ x: dataLabel.alignAttr.x + (bBox.width - unrotatedbBox.width) / 2, y: dataLabel.alignAttr.y + (bBox.height - unrotatedbBox.height) / 2, rotationOriginX: (dataLabel.width || 0) / 2, rotationOriginY: (dataLabel.height || 0) / 2 }); // Uncomment this block to visualize the bounding boxes used for // determining visibility // chart.renderer.rect( // (dataLabel.alignAttr.x || 0) + chart.plotLeft, // (dataLabel.alignAttr.y || 0) + chart.plotTop, // bBox.width, // bBox.height // ).attr({ // stroke: 'rgba(0, 0, 0, 0.3)', // 'stroke-width': 1, // zIndex: 20 // }).add(); // chart.renderer.circle( // chart.plotLeft + pick(dataLabel.alignAttr.x, 0), // chart.plotTop + pick(dataLabel.alignAttr.y, 0), // 2 // ).attr({ // fill: 'red', // zIndex: 20 // }).add(); if (justify && alignTo.height >= 0) { // #8830 this.justifyDataLabel(dataLabel, options, dataLabel.alignAttr, bBox, alignTo, isNew); } else if (pick(options.crop, true)) { const { x, y } = dataLabel.alignAttr, correction = 1; // Check if the dataLabel should be visible. visible = chart.isInsidePlot(x, y, { paneCoordinates: true, series }) && chart.isInsidePlot(x + bBox.width - correction, y + bBox.height - correction, { paneCoordinates: true, series }); } // When we're using a shape, make it possible with a connector or an // arrow pointing to this point if (options.shape && !rotation) { dataLabel[isNew ? 'attr' : 'animate']({ anchorX: pos[0], anchorY: pos[1] }); } } // To use alignAttr property in hideOverlappingLabels if (isNew && enabledDataSorting) { dataLabel.placed = false; } // Show or hide based on the final aligned position if (!visible && (!enabledDataSorting || justify)) { dataLabel.hide(); dataLabel.placed = false; // Don't animate back in } else { dataLabel.show(); dataLabel.placed = true; // Flag for overlapping logic } } /** * Handle the dataLabels.filter option. * @private */ function applyFilter(point, options) { const filter = options.filter; if (filter) { const op = filter.operator, prop = point[filter.property], val = filter.value; if ((op === '>' && prop > val) || (op === '<' && prop < val) || (op === '>=' && prop >= val) || (op === '<=' && prop <= val) || (op === '==' && prop == val) || // eslint-disable-line eqeqeq (op === '===' && prop === val) || (op === '!=' && prop != val) || // eslint-disable-line eqeqeq (op === '!==' && prop !== val)) { return true; } return false; } return true; } /** * @private */ function compose(SeriesClass) { const seriesProto = SeriesClass.prototype; if (!seriesProto.initDataLabels) { seriesProto.initDataLabels = initDataLabels; seriesProto.initDataLabelsGroup = initDataLabelsGroup; seriesProto.alignDataLabel = alignDataLabel; seriesProto.drawDataLabels = drawDataLabels; seriesProto.justifyDataLabel = justifyDataLabel; seriesProto.setDataLabelStartPos = setDataLabelStartPos; seriesProto.hasDataLabels = hasDataLabels; } } DataLabel.compose = compose; /** * Create the SVGElement group for dataLabels * @private */ function initDataLabelsGroup() { return this.plotGroup('dataLabelsGroup', 'data-labels', this.hasRendered ? 'inherit' : 'hidden', // #5133, #10220 this.options.dataLabels.zIndex || 6); } /** * Init the data labels with the correct animation * @private */ function initDataLabels(animationConfig) { const series = this, hasRendered = series.hasRendered || 0; // Create a separate group for the data labels to avoid rotation const dataLabelsGroup = this.initDataLabelsGroup() .attr({ opacity: +hasRendered }); // #3300 if (!hasRendered && dataLabelsGroup) { if (series.visible) { // #2597, #3023, #3024 dataLabelsGroup.show(); } if (series.options.animation) { dataLabelsGroup.animate({ opacity: 1 }, animationConfig); } else { dataLabelsGroup.attr({ opacity: 1 }); } } return dataLabelsGroup; } /** * Draw the data labels * @private */ function drawDataLabels(points) { points = points || this.points; const series = this, chart = series.chart, seriesOptions = series.options, renderer = chart.renderer, { backgroundColor, plotBackgroundColor } = chart.options.chart, contrastColor = renderer.getContrast((isString(plotBackgroundColor) && plotBackgroundColor) || (isString(backgroundColor) && backgroundColor) || "#000000" /* Palette.neutralColor100 */), seriesDlOptions = mergedDataLabelOptions(series); let pointOptions, dataLabelsGroup; // Resolve the animation const { animation, defer } = seriesDlOptions[0], animationConfig = defer ? getDeferredAnimation(chart, animation, series) : { defer: 0, duration: 0 }; fireEvent(this, 'drawDataLabels'); if (series.hasDataLabels?.()) { dataLabelsGroup = this.initDataLabels(animationConfig); // Make the labels for each point points.forEach((point) => { const dataLabels = point.dataLabels || []; // Merge in series options for the point. // @note dataLabelAttribs (like pointAttribs) would eradicate // the need for dlOptions, and simplify the section below. pointOptions = splat(mergeArrays(seriesDlOptions, // The dlOptions prop is used in treemaps point.dlOptions || point.options?.dataLabels)); // Handle each individual data label for this point pointOptions.forEach((labelOptions, i) => { // Options for one datalabel const labelEnabled = (labelOptions.enabled && (point.visible || point.dataLabelOnHidden) && // #2282, #4641, #7112, #10049 (!point.isNull || point.dataLabelOnNull) && applyFilter(point, labelOptions)), { backgroundColor, borderColor, distance, style = {} } = labelOptions; let labelConfig, formatString, labelText, rotation, attr = {}, dataLabel = dataLabels[i], isNew = !dataLabel, labelBgColor; if (labelEnabled) { // Create individual options structure that can be // extended without affecting others formatString = pick(labelOptions[point.formatPrefix + 'Format'], labelOptions.format); labelConfig = point.getLabelConfig(); labelText = defined(formatString) ? format(formatString, labelConfig, chart) : (labelOptions[point.formatPrefix + 'Formatter'] || labelOptions.formatter).call(labelConfig, labelOptions); rotation = labelOptions.rotation; if (!chart.styledMode) { // Determine the color style.color = pick(labelOptions.color, style.color, isString(series.color) ? series.color : void 0, "#000000" /* Palette.neutralColor100 */); // Get automated contrast color if (style.color === 'contrast') { if (backgroundColor !== 'none') { labelBgColor = backgroundColor; } point.contrastColor = renderer.getContrast(labelBgColor !== 'auto' && labelBgColor || (point.color || series.color)); style.color = (labelBgColor || // #20007 (!defined(distance) && labelOptions.inside) || pInt(distance || 0) < 0 || seriesOptions.stacking) ? point.contrastColor : contrastColor; } else { delete point.contrastColor; } if (seriesOptions.cursor) { style.cursor = seriesOptions.cursor; } } attr = { r: labelOptions.borderRadius || 0, rotation, padding: labelOptions.padding, zIndex: 1 }; if (!chart.styledMode) { attr.fill = backgroundColor === 'auto' ? point.color : backgroundColor; attr.stroke = borderColor === 'auto' ? point.color : borderColor; attr['stroke-width'] = labelOptions.borderWidth; } // Remove unused attributes (#947) objectEach(attr, (val, name) => { if (typeof val === 'undefined') { delete attr[name]; } }); } // If the point is outside the plot area, or the label // changes properties that we cannot change, destroy it and // build a new one below. #678, #820. if (dataLabel && (!labelEnabled || !defined(labelText) || !!dataLabel.div !== !!labelOptions.useHTML || ( // Change from no rotation to rotation and // vice versa. Don't use defined() because // rotation = 0 means also rotation = undefined (!dataLabel.rotation || !labelOptions.rotation) && dataLabel.rotation !== labelOptions.rotation))) { dataLabel = void 0; isNew = true; } // Individual labels are disabled if the are explicitly // disabled in the point options, or if they fall outside // the plot area. if (labelEnabled && defined(labelText)) { if (!dataLabel) { // Create new label element dataLabel = renderer.label(labelText, 0, 0, labelOptions.shape, void 0, void 0, labelOptions.useHTML, void 0, 'data-label'); dataLabel.addClass(' highcharts-data-label-color-' + point.colorIndex + ' ' + (labelOptions.className || '') + ( // #3398 labelOptions.useHTML ? ' highcharts-tracker' : '')); } else { // Use old element and just update text attr.text = labelText; } // Store data label options for later access if (dataLabel) { dataLabel.options = labelOptions; dataLabel.attr(attr); if (!chart.styledMode) { // Styles must be applied before add in order to // read text bounding box dataLabel.css(style).shadow(labelOptions.shadow); } const textPathOptions = labelOptions[point.formatPrefix + 'TextPath'] || labelOptions.textPath; if (textPathOptions && !labelOptions.useHTML) { dataLabel.setTextPath(point.getDataLabelPath?.(dataLabel) || point.graphic, textPathOptions); if (point.dataLabelPath && !textPathOptions.enabled) { // Clean the DOM point.dataLabelPath = (point.dataLabelPath.destroy()); } } if (!dataLabel.added) { dataLabel.add(dataLabelsGroup); } // Now the data label is created and placed at 0,0, // so we need to align it series.alignDataLabel(point, dataLabel, labelOptions, void 0, isNew); dataLabel.isActive = true; if (dataLabels[i] && dataLabels[i] !== dataLabel) { dataLabels[i].destroy(); } dataLabels[i] = dataLabel; } } }); // Destroy and remove the inactive ones let j = dataLabels.length; while (j--) { // The item can be undefined if a disabled data label is // succeeded by an enabled one (#19457) if (!dataLabels[j] || !dataLabels[j].isActive) { dataLabels[j]?.destroy(); dataLabels.splice(j, 1); } else { dataLabels[j].isActive = false; } } // Write back point.dataLabel = dataLabels[0]; point.dataLabels = dataLabels; }); } fireEvent(this, 'afterDrawDataLabels'); } /** * If data labels fall partly outside the plot area, align them back in, in * a way that doesn't hide the point. * @private */ function justifyDataLabel(dataLabel, options, alignAttr, bBox, alignTo, isNew) { const chart = this.chart, align = options.align, verticalAlign = options.verticalAlign, padding = dataLabel.box ? 0 : (dataLabel.padding || 0); let { x = 0, y = 0 } = options, off, justified; // Off left off = (alignAttr.x || 0) + padding; if (off < 0) { if (align === 'right' && x >= 0) { options.align = 'left'; options.inside = true; } else { x -= off; } justified = true; } // Off right off = (alignAttr.x || 0) + bBox.width - padding; if (off > chart.plotWidth) { if (align === 'left' && x <= 0) { options.align = 'right'; options.inside = true; } else { x += chart.plotWidth - off; } justified = true; } // Off top off = alignAttr.y + padding; if (off < 0) { if (verticalAlign === 'bottom' && y >= 0) { options.verticalAlign = 'top'; options.inside = true; } else { y -= off; } justified = true; } // Off bottom off = (alignAttr.y || 0) + bBox.height - padding; if (off > chart.plotHeight) { if (verticalAlign === 'top' && y <= 0) { options.verticalAlign = 'bottom'; options.inside = true; } else { y += chart.plotHeight - off; } justified = true; } if (justified) { options.x = x; options.y = y; dataLabel.placed = !isNew; dataLabel.align(options, void 0, alignTo); } return justified; } /** * Merge two objects that can be arrays. If one of them is an array, the * other is merged into each element. If both are arrays, each element is * merged by index. If neither are arrays, we use normal merge. * @private */ function mergeArrays(one, two) { let res = [], i; if (isArray(one) && !isArray(two)) { res = one.map(function (el) { return merge(el, two); }); } else if (isArray(two) && !isArray(one)) { res = two.map(function (el) { return merge(one, el); }); } else if (!isArray(one) && !isArray(two)) { res = merge(one, two); } else if (isArray(one) && isArray(two)) { i = Math.max(one.length, two.length); while (i--) { res[i] = merge(one[i], two[i]); } } return res; } /** * Merge plotOptions and series options for dataLabels. * @private */ function mergedDataLabelOptions(series) { const plotOptions = series.chart.options.plotOptions; return splat(mergeArrays(mergeArrays(plotOptions?.series?.dataLabels, plotOptions?.[series.type]?.dataLabels), series.options.dataLabels)); } /** * Set starting position for data label sorting animation. * @private */ function setDataLabelStartPos(point, dataLabel, isNew, isInside, alignOptions) { const chart = this.chart, inverted = chart.inverted, xAxis = this.xAxis, reversed = xAxis.reversed, labelCenter = ((inverted ? dataLabel.height : dataLabel.width) || 0) / 2, pointWidth = point.pointWidth, halfWidth = pointWidth ? pointWidth / 2 : 0; dataLabel.startXPos = inverted ? alignOptions.x : (reversed ? -labelCenter - halfWidth : xAxis.width - labelCenter + halfWidth); dataLabel.startYPos = inverted ? (reversed ? this.yAxis.height - labelCenter + halfWidth : -labelCenter - halfWidth) : alignOptions.y; // We need to handle visibility in case of sorting point outside plot // area if (!isInside) { dataLabel .attr({ opacity: 1 }) .animate({ opacity: 0 }, void 0, dataLabel.hide); } else if (dataLabel.visibility === 'hidden') { dataLabel.show(); dataLabel .attr({ opacity: 0 }) .animate({ opacity: 1 }); } // Save start position on first render, but do not change position if (!chart.hasRendered) { return; } // Set start position if (isNew) { dataLabel.attr({ x: dataLabel.startXPos, y: dataLabel.startYPos }); } dataLabel.placed = true; } })(DataLabel || (DataLabel = {})); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * Callback JavaScript function to format the data label as a string. Note that * if a `format` is defined, the format takes precedence and the formatter is * ignored. * * @callback Highcharts.DataLabelsFormatterCallbackFunction * * @param {Highcharts.PointLabelObject} this * Data label context to format * * @param {Highcharts.DataLabelsOptions} options * [API options](/highcharts/plotOptions.series.dataLabels) of the data label * * @return {number|string|null|undefined} * Formatted data label text */ /** * Values for handling data labels that flow outside the plot area. * * @typedef {"allow"|"justify"} Highcharts.DataLabelsOverflowValue */ ''; // Keeps doclets above in JS file return DataLabel; }); _registerModule(_modules, 'Series/Column/ColumnDataLabel.js', [_modules['Core/Series/DataLabel.js'], _modules['Core/Globals.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (DataLabel, H, SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { composed } = H; const { series: Series } = SeriesRegistry; const { merge, pick, pushUnique } = U; /* * * * Composition * * */ var ColumnDataLabel; (function (ColumnDataLabel) { /* * * * Functions * * */ /** * Override the basic data label alignment by adjusting for the position of * the column. * @private */ function alignDataLabel(point, dataLabel, options, alignTo, isNew) { const inverted = this.chart.inverted, series = point.series, xLen = (series.xAxis ? series.xAxis.len : this.chart.plotSizeX) || 0, yLen = (series.yAxis ? series.yAxis.len : this.chart.plotSizeY) || 0, // Data label box for alignment dlBox = point.dlBox || point.shapeArgs, below = pick(point.below, // Range series point.plotY > pick(this.translatedThreshold, yLen)), // Draw it inside the box? inside = pick(options.inside, !!this.options.stacking); // Align to the column itself, or the top of it if (dlBox) { // Area range uses this method but not alignTo alignTo = merge(dlBox); // Check for specific overflow and crop conditions (#13240) if (!(options.overflow === 'allow' && options.crop === false)) { if (alignTo.y < 0) { alignTo.height += alignTo.y; alignTo.y = 0; } // If parts of the box overshoots outside the plot area, modify // the box to center the label inside const overshoot = alignTo.y + alignTo.height - yLen; if (overshoot > 0 && overshoot < alignTo.height) { alignTo.height -= overshoot; } } if (inverted) { alignTo = { x: yLen - alignTo.y - alignTo.height, y: xLen - alignTo.x - alignTo.width, width: alignTo.height, height: alignTo.width }; } // Compute the alignment box if (!inside) { if (inverted) { alignTo.x += below ? 0 : alignTo.width; alignTo.width = 0; } else { alignTo.y += below ? alignTo.height : 0; alignTo.height = 0; } } } // When alignment is undefined (typically columns and bars), display the // individual point below or above the point depending on the threshold options.align = pick(options.align, !inverted || inside ? 'center' : below ? 'right' : 'left'); options.verticalAlign = pick(options.verticalAlign, inverted || inside ? 'middle' : below ? 'top' : 'bottom'); // Call the parent method Series.prototype.alignDataLabel.call(this, point, dataLabel, options, alignTo, isNew); // If label was justified and we have contrast, set it: if (options.inside && point.contrastColor) { dataLabel.css({ color: point.contrastColor }); } } /** @private */ function compose(ColumnSeriesClass) { DataLabel.compose(Series); if (pushUnique(composed, 'ColumnDataLabel')) { ColumnSeriesClass.prototype.alignDataLabel = alignDataLabel; } } ColumnDataLabel.compose = compose; })(ColumnDataLabel || (ColumnDataLabel = {})); /* * * * Default Export * * */ return ColumnDataLabel; }); _registerModule(_modules, 'Series/Bar/BarSeries.js', [_modules['Series/Column/ColumnSeries.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (ColumnSeries, SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { extend, merge } = U; /* * * * Class * * */ /** * Bar series type. * * @private * @class * @name Highcharts.seriesTypes.bar * * @augments Highcharts.Series */ class BarSeries extends ColumnSeries { } /* * * * Static Properties * * */ /** * A bar series is a special type of column series where the columns are * horizontal. * * @sample highcharts/demo/bar-basic/ * Bar chart * * @extends plotOptions.column * @product highcharts * @optionparent plotOptions.bar */ BarSeries.defaultOptions = merge(ColumnSeries.defaultOptions, { // Nothing here yet }); extend(BarSeries.prototype, { inverted: true }); SeriesRegistry.registerSeriesType('bar', BarSeries); /* * * * Default Export * * */ /* * * * API Options * * */ /** * A `bar` series. If the [type](#series.bar.type) option is not specified, * it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.bar * @excluding connectNulls, dashStyle, dataParser, dataURL, gapSize, gapUnit, * linecap, lineWidth, marker, connectEnds, step * @product highcharts * @apioption series.bar */ /** * An array of data points for the series. For the `bar` series type, * points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values will be * interpreted as `y` options. The `x` values will be automatically * calculated, either starting at 0 and incremented by 1, or from * `pointStart` and `pointInterval` given in the series options. If the axis * has categories, these will be used. Example: * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of arrays with 2 values. In this case, the values correspond to * `x,y`. If the first value is a string, it is applied as the name of the * point, and the `x` value is inferred. * ```js * data: [ * [0, 5], * [1, 10], * [2, 3] * ] * ``` * * 3. An array of objects with named values. The following snippet shows only a * few settings, see the complete options set below. If the total number of * data points exceeds the series' * [turboThreshold](#series.bar.turboThreshold), this option is not * available. * ```js * data: [{ * x: 1, * y: 1, * name: "Point2", * color: "#00FF00" * }, { * x: 1, * y: 10, * name: "Point1", * color: "#FF00FF" * }] * ``` * * @sample {highcharts} highcharts/chart/reflow-true/ * Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ * Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ * Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ * Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @type {Array|null|*>} * @extends series.column.data * @product highcharts * @apioption series.bar.data */ /** * @excluding halo,lineWidth,lineWidthPlus,marker * @product highcharts highstock * @apioption series.bar.states.hover */ /** * @excluding halo,lineWidth,lineWidthPlus,marker * @product highcharts highstock * @apioption series.bar.states.select */ ''; // Gets doclets above into transpiled return BarSeries; }); _registerModule(_modules, 'Series/Scatter/ScatterSeriesDefaults.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * API Options * * */ /** * A scatter plot uses cartesian coordinates to display values for two * variables for a set of data. * * @sample {highcharts} highcharts/demo/scatter/ * Scatter plot * * @extends plotOptions.line * @excluding cropThreshold, pointPlacement, shadow, useOhlcData * @product highcharts highstock * @optionparent plotOptions.scatter */ const ScatterSeriesDefaults = { /** * The width of the line connecting the data points. * * @sample {highcharts} highcharts/plotoptions/scatter-linewidth-none/ * 0 by default * @sample {highcharts} highcharts/plotoptions/scatter-linewidth-1/ * 1px * * @product highcharts highstock */ lineWidth: 0, findNearestPointBy: 'xy', /** * Apply a jitter effect for the rendered markers. When plotting * discrete values, a little random noise may help telling the points * apart. The jitter setting applies a random displacement of up to `n` * axis units in either direction. So for example on a horizontal X * axis, setting the `jitter.x` to 0.24 will render the point in a * random position between 0.24 units to the left and 0.24 units to the * right of the true axis position. On a category axis, setting it to * 0.5 will fill up the bin and make the data appear continuous. * * When rendered on top of a box plot or a column series, a jitter value * of 0.24 will correspond to the underlying series' default * [groupPadding]( * https://api.highcharts.com/highcharts/plotOptions.column.groupPadding) * and [pointPadding]( * https://api.highcharts.com/highcharts/plotOptions.column.pointPadding) * settings. * * **Note:** With boost mode enabled, the jitter effect is not supported. * * @sample {highcharts} highcharts/demo/scatter-jitter * Jitter on a scatter plot * * @sample {highcharts} highcharts/series-scatter/jitter-boxplot * Jittered scatter plot on top of a box plot * * @product highcharts highstock * @since 7.0.2 */ jitter: { /** * The maximal X offset for the random jitter effect. */ x: 0, /** * The maximal Y offset for the random jitter effect. */ y: 0 }, marker: { enabled: true // Overrides auto-enabling in line series (#3647) }, /** * Sticky tracking of mouse events. When true, the `mouseOut` event * on a series isn't triggered until the mouse moves over another * series, or out of the plot area. When false, the `mouseOut` event on * a series is triggered when the mouse leaves the area around the * series' graph or markers. This also implies the tooltip. When * `stickyTracking` is false and `tooltip.shared` is false, the tooltip * will be hidden when moving the mouse between series. * * @type {boolean} * @default false * @product highcharts highstock highmaps * @apioption plotOptions.scatter.stickyTracking */ /** * A configuration object for the tooltip rendering of each single * series. Properties are inherited from [tooltip](#tooltip). * Overridable properties are `headerFormat`, `pointFormat`, * `yDecimals`, `xDateFormat`, `yPrefix` and `ySuffix`. Unlike other * series, in a scatter plot the series.name by default shows in the * headerFormat and point.x and point.y in the pointFormat. * * @product highcharts highstock highmaps */ tooltip: { /** * @product highcharts highstock */ headerFormat: '\u25CF ' + ' {series.name}
', pointFormat: 'x: {point.x}
y: {point.y}
' } }; /** * A `scatter` series. If the [type](#series.scatter.type) option is * not specified, it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.scatter * @excluding cropThreshold, dataParser, dataURL, useOhlcData * @product highcharts highstock * @apioption series.scatter */ /** * An array of data points for the series. For the `scatter` series * type, points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values will be * interpreted as `y` options. The `x` values will be automatically * calculated, either starting at 0 and incremented by 1, or from * `pointStart` and `pointInterval` given in the series options. If the axis * has categories, these will be used. Example: * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of arrays with 2 values. In this case, the values correspond to * `x,y`. If the first value is a string, it is applied as the name of the * point, and the `x` value is inferred. * ```js * data: [ * [0, 0], * [1, 8], * [2, 9] * ] * ``` * * 3. An array of objects with named values. The following snippet shows only a * few settings, see the complete options set below. If the total number of * data points exceeds the series' * [turboThreshold](#series.scatter.turboThreshold), this option is not * available. * ```js * data: [{ * x: 1, * y: 2, * name: "Point2", * color: "#00FF00" * }, { * x: 1, * y: 4, * name: "Point1", * color: "#FF00FF" * }] * ``` * * @sample {highcharts} highcharts/chart/reflow-true/ * Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ * Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ * Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ * Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @type {Array|null|*>} * @extends series.line.data * @product highcharts highstock * @apioption series.scatter.data */ ''; // Keeps doclets above in JS file /* * * * Default Export * * */ return ScatterSeriesDefaults; }); _registerModule(_modules, 'Series/Scatter/ScatterSeries.js', [_modules['Series/Scatter/ScatterSeriesDefaults.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (ScatterSeriesDefaults, SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { column: ColumnSeries, line: LineSeries } = SeriesRegistry.seriesTypes; const { addEvent, extend, merge } = U; /* * * * Class * * */ /** * Scatter series type. * * @private */ class ScatterSeries extends LineSeries { /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * Optionally add the jitter effect. * @private */ applyJitter() { const series = this, jitter = this.options.jitter, len = this.points.length; /** * Return a repeatable, pseudo-random number based on an integer * seed. * @private */ function unrandom(seed) { const rand = Math.sin(seed) * 10000; return rand - Math.floor(rand); } if (jitter) { this.points.forEach(function (point, i) { ['x', 'y'].forEach(function (dim, j) { if (jitter[dim] && !point.isNull) { const plotProp = `plot${dim.toUpperCase()}`, axis = series[`${dim}Axis`], translatedJitter = jitter[dim] * axis.transA; if (axis && !axis.logarithmic) { // Identify the outer bounds of the jitter range const min = Math.max(0, (point[plotProp] || 0) - translatedJitter), max = Math.min(axis.len, (point[plotProp] || 0) + translatedJitter); // Find a random position within this range point[plotProp] = min + (max - min) * unrandom(i + j * len); // Update clientX for the tooltip k-d-tree if (dim === 'x') { point.clientX = point.plotX; } } } }); }); } } /** * @private */ drawGraph() { if (this.options.lineWidth) { super.drawGraph(); } else if (this.graph) { this.graph = this.graph.destroy(); } } } /* * * * Static Properties * * */ ScatterSeries.defaultOptions = merge(LineSeries.defaultOptions, ScatterSeriesDefaults); extend(ScatterSeries.prototype, { drawTracker: ColumnSeries.prototype.drawTracker, sorted: false, requireSorting: false, noSharedTooltip: true, trackerGroups: ['group', 'markerGroup', 'dataLabelsGroup'] }); /* * * * Events * * */ /* eslint-disable no-invalid-this */ addEvent(ScatterSeries, 'afterTranslate', function () { this.applyJitter(); }); SeriesRegistry.registerSeriesType('scatter', ScatterSeries); /* * * * Default Export * * */ return ScatterSeries; }); _registerModule(_modules, 'Series/CenteredUtilities.js', [_modules['Core/Globals.js'], _modules['Core/Series/Series.js'], _modules['Core/Utilities.js']], function (H, Series, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { deg2rad } = H; const { fireEvent, isNumber, pick, relativeLength } = U; /** * @private */ var CenteredUtilities; (function (CenteredUtilities) { /* * * * Declarations * * */ /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * Get the center of the pie based on the size and center options relative * to the plot area. Borrowed by the polar and gauge series types. * * @private * @function Highcharts.CenteredSeriesMixin.getCenter */ function getCenter() { const options = this.options, chart = this.chart, slicingRoom = 2 * (options.slicedOffset || 0), plotWidth = chart.plotWidth - 2 * slicingRoom, plotHeight = chart.plotHeight - 2 * slicingRoom, centerOption = options.center, smallestSize = Math.min(plotWidth, plotHeight), thickness = options.thickness; let handleSlicingRoom, size = options.size, innerSize = options.innerSize || 0, i, value; if (typeof size === 'string') { size = parseFloat(size); } if (typeof innerSize === 'string') { innerSize = parseFloat(innerSize); } const positions = [ pick(centerOption[0], '50%'), pick(centerOption[1], '50%'), // Prevent from negative values pick(size && size < 0 ? void 0 : options.size, '100%'), pick(innerSize && innerSize < 0 ? void 0 : options.innerSize || 0, '0%') ]; // No need for inner size in angular (gauges) series but still required // for pie series if (chart.angular && !(this instanceof Series)) { positions[3] = 0; } for (i = 0; i < 4; ++i) { value = positions[i]; handleSlicingRoom = i < 2 || (i === 2 && /%$/.test(value)); // I == 0: centerX, relative to width // i == 1: centerY, relative to height // i == 2: size, relative to smallestSize // i == 3: innerSize, relative to size positions[i] = relativeLength(value, [plotWidth, plotHeight, smallestSize, positions[2]][i]) + (handleSlicingRoom ? slicingRoom : 0); } // Inner size cannot be larger than size (#3632) if (positions[3] > positions[2]) { positions[3] = positions[2]; } // Thickness overrides innerSize, need to be less than pie size (#6647) if (isNumber(thickness) && thickness * 2 < positions[2] && thickness > 0) { positions[3] = positions[2] - thickness * 2; } fireEvent(this, 'afterGetCenter', { positions }); return positions; } CenteredUtilities.getCenter = getCenter; /** * GetStartAndEndRadians - Calculates start and end angles in radians. * Used in series types such as pie and sunburst. * * @private * @function Highcharts.CenteredSeriesMixin.getStartAndEndRadians * * @param {number} [start] * Start angle in degrees. * * @param {number} [end] * Start angle in degrees. * * @return {Highcharts.RadianAngles} * Returns an object containing start and end angles as radians. */ function getStartAndEndRadians(start, end) { const startAngle = isNumber(start) ? start : 0, // Must be a number endAngle = ((isNumber(end) && // Must be a number end > startAngle && // Must be larger than the start angle // difference must be less than 360 degrees (end - startAngle) < 360) ? end : startAngle + 360), correction = -90; return { start: deg2rad * (startAngle + correction), end: deg2rad * (endAngle + correction) }; } CenteredUtilities.getStartAndEndRadians = getStartAndEndRadians; })(CenteredUtilities || (CenteredUtilities = {})); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * @private * @interface Highcharts.RadianAngles */ /** * @name Highcharts.RadianAngles#end * @type {number} */ /** * @name Highcharts.RadianAngles#start * @type {number} */ ''; // Keeps doclets above in JS file return CenteredUtilities; }); _registerModule(_modules, 'Series/Pie/PiePoint.js', [_modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Series/Point.js'], _modules['Core/Utilities.js']], function (A, Point, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { setAnimation } = A; const { addEvent, defined, extend, isNumber, pick, relativeLength } = U; /* * * * Class * * */ class PiePoint extends Point { /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * Extendable method for getting the path of the connector between the * data label and the pie slice. * @private */ getConnectorPath(dataLabel) { const labelPosition = dataLabel.dataLabelPosition, options = (dataLabel.options || {}), connectorShape = options.connectorShape, shapeFunc = (this.connectorShapes[connectorShape] || connectorShape); return labelPosition && shapeFunc.call(this, { // Pass simplified label position object for user's convenience ...labelPosition.computed, alignment: labelPosition.alignment }, labelPosition.connectorPosition, options) || []; } /** * @private */ getTranslate() { return this.sliced && this.slicedTranslation || { translateX: 0, translateY: 0 }; } /** * @private */ haloPath(size) { const shapeArgs = this.shapeArgs; return this.sliced || !this.visible ? [] : this.series.chart.renderer.symbols.arc(shapeArgs.x, shapeArgs.y, shapeArgs.r + size, shapeArgs.r + size, { // Substract 1px to ensure the background is not bleeding // through between the halo and the slice (#7495). innerR: shapeArgs.r - 1, start: shapeArgs.start, end: shapeArgs.end, borderRadius: shapeArgs.borderRadius }); } /** * Initialize the pie slice. * @private */ constructor(series, options, x) { super(series, options, x); this.half = 0; this.name ?? (this.name = 'Slice'); // Add event listener for select const toggleSlice = (e) => { this.slice(e.type === 'select'); }; addEvent(this, 'select', toggleSlice); addEvent(this, 'unselect', toggleSlice); } /** * Negative points are not valid (#1530, #3623, #5322) * @private */ isValid() { return isNumber(this.y) && this.y >= 0; } /** * Toggle the visibility of a pie slice or other data point. Note that this * method is available only for some series, like pie, treemap and sunburst. * * @function Highcharts.Point#setVisible * * @param {boolean} [vis] * True to show the pie slice or other data point, false to hide. If * undefined, the visibility is toggled. * * @param {boolean} [redraw] Whether to redraw the chart after the point is * altered. If doing more operations on the chart, it is a good idea to set * redraw to false and call {@link Chart#redraw|chart.redraw()} after. * */ setVisible(vis, redraw = true) { if (vis !== this.visible) { // If called without an argument, toggle visibility this.update({ visible: vis ?? !this.visible }, redraw, void 0, false); } } /** * Set or toggle whether the slice is cut out from the pie. * @private * * @param {boolean} sliced * When undefined, the slice state is toggled. * * @param {boolean} [redraw] * Whether to redraw the chart. True by default. * * @param {boolean|Partial} [animation] * Animation options. */ slice(sliced, redraw, animation) { const series = this.series, chart = series.chart; setAnimation(animation, chart); // Redraw is true by default redraw = pick(redraw, true); /** * Pie series only. Whether to display a slice offset from the * center. * @name Highcharts.Point#sliced * @type {boolean|undefined} */ // if called without an argument, toggle this.sliced = this.options.sliced = sliced = defined(sliced) ? sliced : !this.sliced; // Update userOptions.data series.options.data[series.data.indexOf(this)] = this.options; if (this.graphic) { this.graphic.animate(this.getTranslate()); } } } extend(PiePoint.prototype, { connectorShapes: { // Only one available before v7.0.0 fixedOffset: function (labelPosition, connectorPosition, options) { const breakAt = connectorPosition.breakAt, touchingSliceAt = connectorPosition.touchingSliceAt, lineSegment = options.softConnector ? [ 'C', // 1st control point (of the curve) labelPosition.x + // 5 gives the connector a little horizontal bend (labelPosition.alignment === 'left' ? -5 : 5), labelPosition.y, 2 * breakAt.x - touchingSliceAt.x, 2 * breakAt.y - touchingSliceAt.y, breakAt.x, breakAt.y // ] : [ 'L', breakAt.x, breakAt.y ]; // Assemble the path return ([ ['M', labelPosition.x, labelPosition.y], lineSegment, ['L', touchingSliceAt.x, touchingSliceAt.y] ]); }, straight: function (labelPosition, connectorPosition) { const touchingSliceAt = connectorPosition.touchingSliceAt; // Direct line to the slice return [ ['M', labelPosition.x, labelPosition.y], ['L', touchingSliceAt.x, touchingSliceAt.y] ]; }, crookedLine: function (labelPosition, connectorPosition, options) { const { breakAt, touchingSliceAt } = connectorPosition, { series } = this, [cx, cy, diameter] = series.center, r = diameter / 2, { plotLeft, plotWidth } = series.chart, leftAligned = labelPosition.alignment === 'left', { x, y } = labelPosition; let crookX = breakAt.x; if (options.crookDistance) { const crookDistance = relativeLength(// % to fraction options.crookDistance, 1); crookX = leftAligned ? cx + r + (plotWidth + plotLeft - cx - r) * (1 - crookDistance) : plotLeft + (cx - r) * crookDistance; // When the crookDistance option is undefined, make the bend in the // intersection between the radial line in the middle of the slice, // and the extension of the label position. } else { crookX = cx + (cy - y) * Math.tan((this.angle || 0) - Math.PI / 2); } const path = [['M', x, y]]; // The crookedLine formula doesn't make sense if the path overlaps // the label - use straight line instead in that case if (leftAligned ? (crookX <= x && crookX >= breakAt.x) : (crookX >= x && crookX <= breakAt.x)) { path.push(['L', crookX, y]); } path.push(['L', breakAt.x, breakAt.y], ['L', touchingSliceAt.x, touchingSliceAt.y]); return path; } } }); /* * * * Default Export * * */ return PiePoint; }); _registerModule(_modules, 'Series/Pie/PieSeriesDefaults.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * API Options * * */ /** * A pie chart is a circular graphic which is divided into slices to * illustrate numerical proportion. * * @sample highcharts/demo/pie-chart/ * Pie chart * * @extends plotOptions.line * @excluding animationLimit, boostThreshold, connectEnds, connectNulls, * cropThreshold, dashStyle, dataSorting, dragDrop, * findNearestPointBy, getExtremesFromAll, label, lineWidth, * linkedTo, marker, negativeColor, pointInterval, * pointIntervalUnit, pointPlacement, pointStart, * softThreshold, stacking, step, threshold, turboThreshold, * zoneAxis, zones, dataSorting, boostBlending * @product highcharts highmaps * @optionparent plotOptions.pie * * @private */ const PieSeriesDefaults = { /** * The corner radius of the border surrounding each slice. A number * signifies pixels. A percentage string, like for example `50%`, signifies * a size relative to the radius and the inner radius. * * @sample highcharts/plotoptions/series-border-radius * Column and pie with rounded border * * @since 11.0.0 * * @type {number|string|Highcharts.BorderRadiusOptionsObject} */ borderRadius: 3, /** * @excluding legendItemClick * @apioption plotOptions.pie.events */ /** * Fires when the checkbox next to the point name in the legend is * clicked. One parameter, event, is passed to the function. The state * of the checkbox is found by event.checked. The checked item is found * by event.item. Return false to prevent the default action which is to * toggle the select state of the series. * * @sample {highcharts} highcharts/plotoptions/series-events-checkboxclick/ * Alert checkbox status * * @type {Function} * @since 1.2.0 * @product highcharts highmaps * @context Highcharts.Point * @apioption plotOptions.pie.events.checkboxClick */ /** * Fires when the legend item belonging to the pie point (slice) is * clicked. The `this` keyword refers to the point itself. One * parameter, `event`, is passed to the function, containing common * event information. The default action is to toggle the visibility of * the point. This can be prevented by calling `event.preventDefault()`. * * @sample {highcharts} highcharts/plotoptions/pie-point-events-legenditemclick/ * Confirm toggle visibility * * @type {Highcharts.PointLegendItemClickCallbackFunction} * @since 1.2.0 * @product highcharts highmaps * @apioption plotOptions.pie.point.events.legendItemClick */ /** * The center of the pie chart relative to the plot area. Can be * percentages or pixel values. The default behaviour (as of 3.0) is to * center the pie so that all slices and data labels are within the plot * area. As a consequence, the pie may actually jump around in a chart * with dynamic values, as the data labels move. In that case, the * center should be explicitly set, for example to `["50%", "50%"]`. * * @sample {highcharts} highcharts/plotoptions/pie-center/ * Centered at 100, 100 * * @type {Array<(number|string|null),(number|string|null)>} * @default [null, null] * @product highcharts highmaps * * @private */ center: [null, null], /** * The color of the pie series. A pie series is represented as an empty * circle if the total sum of its values is 0. Use this property to * define the color of its border. * * In styled mode, the color can be defined by the * [colorIndex](#plotOptions.series.colorIndex) option. Also, the series * color can be set with the `.highcharts-series`, * `.highcharts-color-{n}`, `.highcharts-{type}-series` or * `.highcharts-series-{n}` class, or individual classes given by the * `className` option. * * @sample {highcharts} highcharts/plotoptions/pie-emptyseries/ * Empty pie series * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default #cccccc * @apioption plotOptions.pie.color */ /** * @product highcharts * * @private */ clip: false, /** * @ignore-option * * @private */ colorByPoint: true, /** * A series specific or series type specific color set to use instead * of the global [colors](#colors). * * @sample {highcharts} highcharts/demo/pie-monochrome/ * Set default colors for all pies * * @type {Array} * @since 3.0 * @product highcharts highmaps * @apioption plotOptions.pie.colors */ /** * @declare Highcharts.SeriesPieDataLabelsOptionsObject * @extends plotOptions.series.dataLabels * @excluding align, allowOverlap, inside, staggerLines, step * @private */ dataLabels: { /** * Alignment method for data labels. Possible values are: * * - `plotEdges`: Each label touches the nearest vertical edge of * the plot area. * * - `connectors`: Connectors have the same x position and the * widest label of each half (left & right) touches the nearest * vertical edge of the plot area. * * @sample {highcharts} highcharts/plotoptions/pie-datalabels-alignto-connectors/ * alignTo: connectors * @sample {highcharts} highcharts/plotoptions/pie-datalabels-alignto-plotedges/ * alignTo: plotEdges * * @type {string} * @since 7.0.0 * @product highcharts highmaps * @apioption plotOptions.pie.dataLabels.alignTo */ /** * The color of the line connecting the data label to the pie slice. * The default color is the same as the point's color. * * In styled mode, the connector stroke is given in the * `.highcharts-data-label-connector` class. * * @sample {highcharts} highcharts/plotoptions/pie-datalabels-connectorcolor/ * Blue connectors * @sample {highcharts} highcharts/css/pie-point/ * Styled connectors * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 2.1 * @product highcharts highmaps * @apioption plotOptions.pie.dataLabels.connectorColor */ /** * The distance from the data label to the connector. Note that * data labels also have a default `padding`, so in order for the * connector to touch the text, the `padding` must also be 0. * * @sample {highcharts} highcharts/plotoptions/pie-datalabels-connectorpadding/ * No padding * * @since 2.1 * @product highcharts highmaps */ connectorPadding: 5, /** * Specifies the method that is used to generate the connector path. * Highcharts provides 3 built-in connector shapes: `'crookedLine'` * (default since v11), `'fixedOffset'` and `'straight'`. * * Users can provide their own method by passing a function instead of a * string. Three arguments are passed to the callback: * * - An object that holds the information about the coordinates of the * label (`x` & `y` properties) and how the label is located in * relation to the pie (`alignment` property). `alignment` can by one * of the following: `'left'` (pie on the left side of the data * label), `'right'` (pie on the right side of the data label) or * `'center'` (data label overlaps the pie). * * - An object that holds the information about the position of the * connector. Its `touchingSliceAt` porperty tells the position of * the place where the connector touches the slice. * * - Data label options * * The function has to return an SVG path definition in array form (see * the example). * * @sample {highcharts} * highcharts/plotoptions/pie-datalabels-connectorshape-string/ * connectorShape is a String * @sample {highcharts} * highcharts/plotoptions/pie-datalabels-connectorshape-function/ * connectorShape is a function * * @type {string|Function} * @since 7.0.0 * @product highcharts highmaps */ connectorShape: 'crookedLine', /** * The width of the line connecting the data label to the pie slice. * * In styled mode, the connector stroke width is given in the * `.highcharts-data-label-connector` class. * * @sample {highcharts} highcharts/plotoptions/pie-datalabels-connectorwidth-disabled/ * Disable the connector * @sample {highcharts} highcharts/css/pie-point/ * Styled connectors * * @type {number} * @default 1 * @since 2.1 * @product highcharts highmaps * @apioption plotOptions.pie.dataLabels.connectorWidth */ /** * Works only if `connectorShape` is `'crookedLine'`. It defines how * far from the vertical plot edge the coonnector path should be * crooked. With the default, `undefined`, the crook is placed so that * the horizontal line from the label intersects with the radial line * extending through the center of the pie slice. * * @sample {highcharts} highcharts/plotoptions/pie-datalabels-crookdistance/ * crookDistance set to 90% * * @since 7.0.0 * @product highcharts highmaps */ crookDistance: void 0, /** * The distance of the data label from the pie's edge. Negative * numbers put the data label on top of the pie slices. Can also be * defined as a percentage of pie's radius. Connectors are only * shown for data labels outside the pie. * * @sample {highcharts} highcharts/plotoptions/pie-datalabels-distance/ * Data labels on top of the pie * * @type {number|string} * @since 2.1 * @product highcharts highmaps */ distance: 30, enabled: true, /** * A * [format string](https://www.highcharts.com/docs/chart-concepts/labels-and-string-formatting) * for the data label. Available variables are the same as for * `formatter`. * * @sample {highcharts} highcharts/plotoptions/series-datalabels-format/ * Add a unit * * @type {string} * @default undefined * @since 3.0 * @apioption plotOptions.pie.dataLabels.format */ // eslint-disable-next-line valid-jsdoc /** * Callback JavaScript function to format the data label. Note that * if a `format` is defined, the format takes precedence and the * formatter is ignored. * * @type {Highcharts.DataLabelsFormatterCallbackFunction} * @default function () { return this.point.isNull ? void 0 : this.point.name; } */ formatter: function () { return this.point.isNull ? void 0 : this.point.name; }, /** * Whether to render the connector as a soft arc or a line with a sharp * break. Works only if `connectorShape` equals to `fixedOffset`. * * @sample {highcharts} * highcharts/plotoptions/pie-datalabels-softconnector-true/ * Soft * @sample {highcharts} * highcharts/plotoptions/pie-datalabels-softconnector-false/ * Non soft * * @since 2.1.7 * @product highcharts highmaps */ softConnector: true, /** * @sample {highcharts} highcharts/plotoptions/pie-datalabels-overflow * Long labels truncated with an ellipsis * @sample {highcharts} highcharts/plotoptions/pie-datalabels-overflow-wrap * Long labels are wrapped * * @type {Highcharts.CSSObject} * @apioption plotOptions.pie.dataLabels.style */ x: 0 }, /** * If the total sum of the pie's values is 0, the series is represented * as an empty circle . The `fillColor` option defines the color of that * circle. Use [pie.borderWidth](#plotOptions.pie.borderWidth) to set * the border thickness. * * @sample {highcharts} highcharts/plotoptions/pie-emptyseries/ * Empty pie series * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @private */ fillColor: void 0, /** * The end angle of the pie in degrees where 0 is top and 90 is right. * Defaults to `startAngle` plus 360. * * @sample {highcharts} highcharts/demo/pie-semi-circle/ * Semi-circle donut * * @type {number} * @since 1.3.6 * @product highcharts highmaps * @apioption plotOptions.pie.endAngle */ /** * Thickness describing the ring size for a donut type chart, * overriding [innerSize](#plotOptions.pie.innerSize). * * @type {number} * @default undefined * @product highcharts * @since 10.1.0 * @apioption plotOptions.pie.thickness * @private */ /** * Equivalent to [chart.ignoreHiddenSeries](#chart.ignoreHiddenSeries), * this option tells whether the series shall be redrawn as if the * hidden point were `null`. * * The default value changed from `false` to `true` with Highcharts * 3.0. * * @sample {highcharts} highcharts/plotoptions/pie-ignorehiddenpoint/ * True, the hiddden point is ignored * * @since 2.3.0 * @product highcharts highmaps * * @private */ ignoreHiddenPoint: true, /** * @default true * @extends plotOptions.series.inactiveOtherPoints * @private */ inactiveOtherPoints: true, /** * The size of the inner diameter for the pie. A size greater than 0 * renders a donut chart. Can be a percentage or pixel value. * Percentages are relative to the pie size. Pixel values are given as * integers. Setting overridden by thickness. * * * Note: in Highcharts < 4.1.2, the percentage was relative to the plot * area, not the pie size. * * @sample {highcharts} highcharts/plotoptions/pie-innersize-80px/ * 80px inner size * @sample {highcharts} highcharts/plotoptions/pie-innersize-50percent/ * 50% of the plot area * @sample {highcharts} highcharts/demo/3d-pie-donut/ * 3D donut * * @type {number|string} * @default 0 * @since 2.0 * @product highcharts highmaps * @apioption plotOptions.pie.innerSize */ /** * @ignore-option * * @private */ legendType: 'point', /** * @ignore-option * * @private */ marker: null, /** * The minimum size for a pie in response to auto margins. The pie will * try to shrink to make room for data labels in side the plot area, * but only to this size. * * @type {number|string} * @default 80 * @since 3.0 * @product highcharts highmaps * @apioption plotOptions.pie.minSize */ /** * The diameter of the pie relative to the plot area. Can be a * percentage or pixel value. Pixel values are given as integers. The * default behaviour (as of 3.0) is to scale to the plot area and give * room for data labels within the plot area. * [slicedOffset](#plotOptions.pie.slicedOffset) is also included in the * default size calculation. As a consequence, the size of the pie may * vary when points are updated and data labels more around. In that * case it is best to set a fixed value, for example `"75%"`. * * @sample {highcharts} highcharts/plotoptions/pie-size/ * Smaller pie * * @type {number|string|null} * @product highcharts highmaps * * @private */ size: null, /** * Whether to display this particular series or series type in the * legend. Since 2.1, pies are not shown in the legend by default. * * @sample {highcharts} highcharts/plotoptions/series-showinlegend/ * One series in the legend, one hidden * * @product highcharts highmaps * * @private */ showInLegend: false, /** * If a point is sliced, moved out from the center, how many pixels * should it be moved?. * * @sample {highcharts} highcharts/plotoptions/pie-slicedoffset-20/ * 20px offset * * @product highcharts highmaps * * @private */ slicedOffset: 10, /** * The start angle of the pie slices in degrees where 0 is top and 90 * right. * * @sample {highcharts} highcharts/plotoptions/pie-startangle-90/ * Start from right * * @type {number} * @default 0 * @since 2.3.4 * @product highcharts highmaps * @apioption plotOptions.pie.startAngle */ /** * Sticky tracking of mouse events. When true, the `mouseOut` event * on a series isn't triggered until the mouse moves over another * series, or out of the plot area. When false, the `mouseOut` event on * a series is triggered when the mouse leaves the area around the * series' graph or markers. This also implies the tooltip. When * `stickyTracking` is false and `tooltip.shared` is false, the tooltip * will be hidden when moving the mouse between series. * * @product highcharts highmaps * * @private */ stickyTracking: false, tooltip: { followPointer: true }, /** * The color of the border surrounding each slice. When `null`, the * border takes the same color as the slice fill. This can be used * together with a `borderWidth` to fill drawing gaps created by * antialiazing artefacts in borderless pies. * * In styled mode, the border stroke is given in the `.highcharts-point` * class. * * @sample {highcharts} highcharts/plotoptions/pie-bordercolor-black/ * Black border * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default #ffffff * @product highcharts highmaps * * @private */ borderColor: "#ffffff" /* Palette.backgroundColor */, /** * The width of the border surrounding each slice. * * When setting the border width to 0, there may be small gaps between * the slices due to SVG antialiasing artefacts. To work around this, * keep the border width at 0.5 or 1, but set the `borderColor` to * `null` instead. * * In styled mode, the border stroke width is given in the * `.highcharts-point` class. * * @sample {highcharts} highcharts/plotoptions/pie-borderwidth/ * 3px border * * @product highcharts highmaps * * @private */ borderWidth: 1, /** * @ignore-option * @private */ lineWidth: void 0, states: { /** * @extends plotOptions.series.states.hover * @excluding marker, lineWidth, lineWidthPlus * @product highcharts highmaps */ hover: { /** * How much to brighten the point on interaction. Requires the * main color to be defined in hex or rgb(a) format. * * In styled mode, the hover brightness is by default replaced * by a fill-opacity given in the `.highcharts-point-hover` * class. * * @sample {highcharts} highcharts/plotoptions/pie-states-hover-brightness/ * Brightened by 0.5 * * @product highcharts highmaps */ brightness: 0.1 } } }; /** * A `pie` series. If the [type](#series.pie.type) option is not specified, * it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.pie * @excluding cropThreshold, dataParser, dataURL, linkedTo, stack, xAxis, yAxis, * dataSorting, step, boostThreshold, boostBlending * @product highcharts highmaps * @apioption series.pie */ /** * An array of data points for the series. For the `pie` series type, * points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values will be * interpreted as `y` options. Example: * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of objects with named values. The following snippet shows only a * few settings, see the complete options set below. If the total number of * data points exceeds the series' * [turboThreshold](#series.pie.turboThreshold), * this option is not available. * ```js * data: [{ * y: 1, * name: "Point2", * color: "#00FF00" * }, { * y: 7, * name: "Point1", * color: "#FF00FF" * }] * ``` * * @sample {highcharts} highcharts/chart/reflow-true/ * Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ * Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ * Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ * Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @type {Array|null|*>} * @extends series.line.data * @excluding marker, x * @product highcharts highmaps * @apioption series.pie.data */ /** * @type {Highcharts.SeriesPieDataLabelsOptionsObject} * @product highcharts highmaps * @apioption series.pie.data.dataLabels */ /** * The sequential index of the data point in the legend. * * @type {number} * @product highcharts highmaps * @apioption series.pie.data.legendIndex */ /** * Whether to display a slice offset from the center. * * @sample {highcharts} highcharts/point/sliced/ * One sliced point * * @type {boolean} * @product highcharts highmaps * @apioption series.pie.data.sliced */ /** * @extends plotOptions.pie.dataLabels * @excluding align, allowOverlap, inside, staggerLines, step * @product highcharts highmaps * @apioption series.pie.dataLabels */ /** * @excluding legendItemClick * @product highcharts highmaps * @apioption series.pie.events */ ''; // Placeholder for transpiled doclets above /* * * * Default Export * * */ return PieSeriesDefaults; }); _registerModule(_modules, 'Series/Pie/PieSeries.js', [_modules['Series/CenteredUtilities.js'], _modules['Series/Column/ColumnSeries.js'], _modules['Core/Globals.js'], _modules['Series/Pie/PiePoint.js'], _modules['Series/Pie/PieSeriesDefaults.js'], _modules['Core/Series/Series.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Renderer/SVG/Symbols.js'], _modules['Core/Utilities.js']], function (CU, ColumnSeries, H, PiePoint, PieSeriesDefaults, Series, SeriesRegistry, Symbols, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { getStartAndEndRadians } = CU; const { noop } = H; const { clamp, extend, fireEvent, merge, pick } = U; /* * * * Class * * */ /** * Pie series type. * * @private * @class * @name Highcharts.seriesTypes.pie * * @augments Highcharts.Series */ class PieSeries extends Series { /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * Animates the pies in. * @private */ animate(init) { const series = this, points = series.points, startAngleRad = series.startAngleRad; if (!init) { points.forEach(function (point) { const graphic = point.graphic, args = point.shapeArgs; if (graphic && args) { // Start values graphic.attr({ // Animate from inner radius (#779) r: pick(point.startR, (series.center && series.center[3] / 2)), start: startAngleRad, end: startAngleRad }); // Animate graphic.animate({ r: args.r, start: args.start, end: args.end }, series.options.animation); } }); } } /** * Called internally to draw auxiliary graph in pie-like series in * situtation when the default graph is not sufficient enough to present * the data well. Auxiliary graph is saved in the same object as * regular graph. * @private */ drawEmpty() { const start = this.startAngleRad, end = this.endAngleRad, options = this.options; let centerX, centerY; // Draw auxiliary graph if there're no visible points. if (this.total === 0 && this.center) { centerX = this.center[0]; centerY = this.center[1]; if (!this.graph) { this.graph = this.chart.renderer .arc(centerX, centerY, this.center[1] / 2, 0, start, end) .addClass('highcharts-empty-series') .add(this.group); } this.graph.attr({ d: Symbols.arc(centerX, centerY, this.center[2] / 2, 0, { start, end, innerR: this.center[3] / 2 }) }); if (!this.chart.styledMode) { this.graph.attr({ 'stroke-width': options.borderWidth, fill: options.fillColor || 'none', stroke: options.color || "#cccccc" /* Palette.neutralColor20 */ }); } } else if (this.graph) { // Destroy the graph object. this.graph = this.graph.destroy(); } } /** * Slices in pie chart are initialized in DOM, but it's shapes and * animations are normally run in `drawPoints()`. * @private */ drawPoints() { const renderer = this.chart.renderer; this.points.forEach(function (point) { // When updating a series between 2d and 3d or cartesian and // polar, the shape type changes. if (point.graphic && point.hasNewShapeType()) { point.graphic = point.graphic.destroy(); } if (!point.graphic) { point.graphic = renderer[point.shapeType](point.shapeArgs) .add(point.series.group); point.delayedRendering = true; } }); } /** * Extend the generatePoints method by adding total and percentage * properties to each point * @private */ generatePoints() { super.generatePoints(); this.updateTotals(); } /** * Utility for getting the x value from a given y, used for anticollision * logic in data labels. * @private */ getX(y, left, point, dataLabel) { const center = this.center, // Variable pie has individual radius radius = this.radii ? this.radii[point.index] || 0 : center[2] / 2, labelPosition = dataLabel.dataLabelPosition, distance = labelPosition?.distance || 0; const angle = Math.asin(clamp((y - center[1]) / (radius + distance), -1, 1)); const x = center[0] + (left ? -1 : 1) * (Math.cos(angle) * (radius + distance)) + (distance > 0 ? (left ? -1 : 1) * (dataLabel.padding || 0) : 0); return x; } /** * Define hasData function for non-cartesian series. Returns true if the * series has points at all. * @private */ hasData() { return !!this.processedXData.length; // != 0 } /** * Draw the data points * @private */ redrawPoints() { const series = this, chart = series.chart; let groupTranslation, graphic, pointAttr, shapeArgs; this.drawEmpty(); // Apply the drop-shadow to the group because otherwise each element // would cast a shadow on others if (series.group && !chart.styledMode) { series.group.shadow(series.options.shadow); } // Draw the slices series.points.forEach(function (point) { const animateTo = {}; graphic = point.graphic; if (!point.isNull && graphic) { shapeArgs = point.shapeArgs; // If the point is sliced, use special translation, else use // plot area translation groupTranslation = point.getTranslate(); if (!chart.styledMode) { pointAttr = series.pointAttribs(point, (point.selected && 'select')); } // Draw the slice if (!point.delayedRendering) { graphic .setRadialReference(series.center); if (!chart.styledMode) { merge(true, animateTo, pointAttr); } merge(true, animateTo, shapeArgs, groupTranslation); graphic.animate(animateTo); } else { graphic .setRadialReference(series.center) .attr(shapeArgs) .attr(groupTranslation); if (!chart.styledMode) { graphic .attr(pointAttr) .attr({ 'stroke-linejoin': 'round' }); } point.delayedRendering = false; } graphic .attr({ visibility: point.visible ? 'inherit' : 'hidden' }); graphic.addClass(point.getClassName(), true); } else if (graphic) { point.graphic = graphic.destroy(); } }); } /** * Utility for sorting data labels. * @private */ sortByAngle(points, sign) { points.sort(function (a, b) { return ((typeof a.angle !== 'undefined') && (b.angle - a.angle) * sign); }); } /** * Do translation for pie slices * @private */ translate(positions) { fireEvent(this, 'translate'); this.generatePoints(); const series = this, precision = 1000, // Issue #172 options = series.options, slicedOffset = options.slicedOffset, radians = getStartAndEndRadians(options.startAngle, options.endAngle), startAngleRad = series.startAngleRad = radians.start, endAngleRad = series.endAngleRad = radians.end, circ = endAngleRad - startAngleRad, // 2 * Math.PI, points = series.points, ignoreHiddenPoint = options.ignoreHiddenPoint, len = points.length; let start, end, angle, // The x component of the radius vector for a given point radiusX, radiusY, i, point, cumulative = 0; // Get positions - either an integer or a percentage string must be // given. If positions are passed as a parameter, we're in a // recursive loop for adjusting space for data labels. if (!positions) { /** * The series center position, read only. This applies only to * circular chart types like pie and sunburst. It is an array of * `[centerX, centerY, diameter, innerDiameter]`. * * @name Highcharts.Series#center * @type {Array} */ series.center = positions = series.getCenter(); } // Calculate the geometry for each point for (i = 0; i < len; i++) { point = points[i]; // Set start and end angle start = startAngleRad + (cumulative * circ); if (point.isValid() && (!ignoreHiddenPoint || point.visible)) { cumulative += point.percentage / 100; } end = startAngleRad + (cumulative * circ); // Set the shape const shapeArgs = { x: positions[0], y: positions[1], r: positions[2] / 2, innerR: positions[3] / 2, start: Math.round(start * precision) / precision, end: Math.round(end * precision) / precision }; point.shapeType = 'arc'; point.shapeArgs = shapeArgs; // The angle must stay within -90 and 270 (#2645) angle = (end + start) / 2; if (angle > 1.5 * Math.PI) { angle -= 2 * Math.PI; } else if (angle < -Math.PI / 2) { angle += 2 * Math.PI; } // Center for the sliced out slice point.slicedTranslation = { translateX: Math.round(Math.cos(angle) * slicedOffset), translateY: Math.round(Math.sin(angle) * slicedOffset) }; // Set the anchor point for tooltips radiusX = Math.cos(angle) * positions[2] / 2; radiusY = Math.sin(angle) * positions[2] / 2; point.tooltipPos = [ positions[0] + radiusX * 0.7, positions[1] + radiusY * 0.7 ]; point.half = angle < -Math.PI / 2 || angle > Math.PI / 2 ? 1 : 0; point.angle = angle; } fireEvent(series, 'afterTranslate'); } /** * Recompute total chart sum and update percentages of points. * @private */ updateTotals() { const points = this.points, len = points.length, ignoreHiddenPoint = this.options.ignoreHiddenPoint; let i, point, total = 0; // Get the total sum for (i = 0; i < len; i++) { point = points[i]; if (point.isValid() && (!ignoreHiddenPoint || point.visible)) { total += point.y; } } this.total = total; // Set each point's properties for (i = 0; i < len; i++) { point = points[i]; point.percentage = (total > 0 && (point.visible || !ignoreHiddenPoint)) ? point.y / total * 100 : 0; point.total = total; } } } /* * * * Static Properties * * */ PieSeries.defaultOptions = merge(Series.defaultOptions, PieSeriesDefaults); extend(PieSeries.prototype, { axisTypes: [], directTouch: true, drawGraph: void 0, drawTracker: ColumnSeries.prototype.drawTracker, getCenter: CU.getCenter, getSymbol: noop, invertible: false, isCartesian: false, noSharedTooltip: true, pointAttribs: ColumnSeries.prototype.pointAttribs, pointClass: PiePoint, requireSorting: false, searchPoint: noop, trackerGroups: ['group', 'dataLabelsGroup'] }); SeriesRegistry.registerSeriesType('pie', PieSeries); /* * * * Default Export * * */ return PieSeries; }); _registerModule(_modules, 'Series/Pie/PieDataLabel.js', [_modules['Core/Series/DataLabel.js'], _modules['Core/Globals.js'], _modules['Core/Renderer/RendererUtilities.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (DataLabel, H, R, SeriesRegistry, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { composed, noop } = H; const { distribute } = R; const { series: Series } = SeriesRegistry; const { arrayMax, clamp, defined, pick, pushUnique, relativeLength } = U; /* * * * Composition * * */ var ColumnDataLabel; (function (ColumnDataLabel) { /* * * * Constants * * */ const dataLabelPositioners = { // Based on the value computed in Highcharts' distribute algorithm. radialDistributionY: function (point, dataLabel) { return (dataLabel.dataLabelPosition?.top || 0) + point.distributeBox.pos; }, // Get the x - use the natural x position for labels near the top and // bottom, to prevent the top and botton slice connectors from touching // each other on either side. Based on the value computed in Highcharts' // distribute algorithm. radialDistributionX: function (series, point, y, naturalY, dataLabel) { const pos = dataLabel.dataLabelPosition; return series.getX(y < (pos?.top || 0) + 2 || y > (pos?.bottom || 0) - 2 ? naturalY : y, point.half, point, dataLabel); }, // The dataLabels.distance determines the x position of the label justify: function (point, dataLabel, radius, seriesCenter) { return seriesCenter[0] + (point.half ? -1 : 1) * (radius + (dataLabel.dataLabelPosition?.distance || 0)); }, // Left edges of the left-half labels touch the left edge of the plot // area. Right edges of the right-half labels touch the right edge of // the plot area. alignToPlotEdges: function (dataLabel, half, plotWidth, plotLeft) { const dataLabelWidth = dataLabel.getBBox().width; return half ? dataLabelWidth + plotLeft : plotWidth - dataLabelWidth - plotLeft; }, // Connectors of each side end in the same x position. Labels are // aligned to them. Left edge of the widest left-half label touches the // left edge of the plot area. Right edge of the widest right-half label // touches the right edge of the plot area. alignToConnectors: function (points, half, plotWidth, plotLeft) { let maxDataLabelWidth = 0, dataLabelWidth; // Find widest data label points.forEach(function (point) { dataLabelWidth = point.dataLabel.getBBox().width; if (dataLabelWidth > maxDataLabelWidth) { maxDataLabelWidth = dataLabelWidth; } }); return half ? maxDataLabelWidth + plotLeft : plotWidth - maxDataLabelWidth - plotLeft; } }; /* * * * Functions * * */ /** @private */ function compose(PieSeriesClass) { DataLabel.compose(Series); if (pushUnique(composed, 'PieDataLabel')) { const pieProto = PieSeriesClass.prototype; pieProto.dataLabelPositioners = dataLabelPositioners; pieProto.alignDataLabel = noop; pieProto.drawDataLabels = drawDataLabels; pieProto.getDataLabelPosition = getDataLabelPosition; pieProto.placeDataLabels = placeDataLabels; pieProto.verifyDataLabelOverflow = verifyDataLabelOverflow; } } ColumnDataLabel.compose = compose; /** @private */ function getDataLabelPosition(point, distance) { const { center, options } = this, r = center[2] / 2, angle = point.angle || 0, cosAngle = Math.cos(angle), sinAngle = Math.sin(angle), x = center[0] + cosAngle * r, y = center[1] + sinAngle * r, finalConnectorOffset = Math.min((options.slicedOffset || 0) + (options.borderWidth || 0), distance / 5); // #1678 return { natural: { // Initial position of the data label - it's utilized for // finding the final position for the label x: x + cosAngle * distance, y: y + sinAngle * distance }, computed: { // Used for generating connector path - initialized later in // drawDataLabels function x: undefined, y: undefined }, // Left - pie on the left side of the data label // Right - pie on the right side of the data label // Center - data label overlaps the pie alignment: distance < 0 ? 'center' : point.half ? 'right' : 'left', connectorPosition: { breakAt: { x: x + cosAngle * finalConnectorOffset, y: y + sinAngle * finalConnectorOffset }, touchingSliceAt: { x, y } }, distance }; } /** * Override the base drawDataLabels method by pie specific functionality * @private */ function drawDataLabels() { const series = this, points = series.points, chart = series.chart, plotWidth = chart.plotWidth, plotHeight = chart.plotHeight, plotLeft = chart.plotLeft, maxWidth = Math.round(chart.chartWidth / 3), seriesCenter = series.center, radius = seriesCenter[2] / 2, centerY = seriesCenter[1], halves = [ [], [] // Left ], overflow = [0, 0, 0, 0], // Top, right, bottom, left dataLabelPositioners = series.dataLabelPositioners; let connector, dataLabelWidth, labelHeight, maxLabelDistance = 0; // Get out if not enabled if (!series.visible || !series.hasDataLabels?.()) { return; } // Reset all labels that have been shortened points.forEach((point) => { (point.dataLabels || []).forEach((dataLabel) => { if (dataLabel.shortened) { dataLabel .attr({ width: 'auto' }).css({ width: 'auto', textOverflow: 'clip' }); dataLabel.shortened = false; } }); }); // Run parent method Series.prototype.drawDataLabels.apply(series); points.forEach((point) => { (point.dataLabels || []).forEach((dataLabel, i) => { const r = seriesCenter[2] / 2, dataLabelOptions = dataLabel.options, distance = relativeLength(dataLabelOptions?.distance || 0, r); // Arrange points for collision detection if (i === 0) { halves[point.half].push(point); } // Avoid long labels squeezing the pie size too far down if (!defined(dataLabelOptions?.style?.width)) { if (dataLabel.getBBox().width > maxWidth) { dataLabel.css({ // Use a fraction of the maxWidth to avoid wrapping // close to the end of the string. width: Math.round(maxWidth * 0.7) + 'px' }); dataLabel.shortened = true; } } dataLabel.dataLabelPosition = this.getDataLabelPosition(point, distance); maxLabelDistance = Math.max(maxLabelDistance, distance); }); }); /* Loop over the points in each half, starting from the top and bottom * of the pie to detect overlapping labels. */ halves.forEach((points, halfIdx) => { const length = points.length, positions = []; let top, bottom, size = 0, distributionLength; if (!length) { return; } // Sort by angle series.sortByAngle(points, halfIdx - 0.5); // Only do anti-collision when we have dataLabels outside the pie // and have connectors. (#856) if (maxLabelDistance > 0) { top = Math.max(0, centerY - radius - maxLabelDistance); bottom = Math.min(centerY + radius + maxLabelDistance, chart.plotHeight); points.forEach((point) => { // Check if specific points' label is outside the pie (point.dataLabels || []).forEach((dataLabel) => { const labelPosition = dataLabel.dataLabelPosition; if (labelPosition && labelPosition.distance > 0) { // The point.top depends on point.labelDistance // value. Used for calculation of y value in getX // method labelPosition.top = Math.max(0, centerY - radius - labelPosition.distance); labelPosition.bottom = Math.min(centerY + radius + labelPosition.distance, chart.plotHeight); size = dataLabel.getBBox().height || 21; point.distributeBox = { target: ((dataLabel.dataLabelPosition ?.natural.y || 0) - labelPosition.top + size / 2), size, rank: point.y }; positions.push(point.distributeBox); } }); }); distributionLength = bottom + size - top; distribute(positions, distributionLength, distributionLength / 5); } // Now the used slots are sorted, fill them up sequentially points.forEach((point) => { (point.dataLabels || []).forEach((dataLabel) => { const dataLabelOptions = (dataLabel.options || {}), distributeBox = point.distributeBox, labelPosition = dataLabel.dataLabelPosition, naturalY = labelPosition?.natural.y || 0, connectorPadding = dataLabelOptions .connectorPadding || 0; let x = 0, y = naturalY, visibility = 'inherit'; if (labelPosition) { if (positions && defined(distributeBox) && labelPosition.distance > 0) { if (typeof distributeBox.pos === 'undefined') { visibility = 'hidden'; } else { labelHeight = distributeBox.size; // Find label's y position y = dataLabelPositioners .radialDistributionY(point, dataLabel); } } // Find label's x position. The justify option is // undocumented in the API - preserve support for it if (dataLabelOptions.justify) { x = dataLabelPositioners.justify(point, dataLabel, radius, seriesCenter); } else { switch (dataLabelOptions.alignTo) { case 'connectors': x = dataLabelPositioners.alignToConnectors(points, halfIdx, plotWidth, plotLeft); break; case 'plotEdges': x = dataLabelPositioners.alignToPlotEdges(dataLabel, halfIdx, plotWidth, plotLeft); break; default: x = dataLabelPositioners.radialDistributionX(series, point, y, naturalY, dataLabel); } } // Record the placement and visibility labelPosition.attribs = { visibility, align: labelPosition.alignment }; labelPosition.posAttribs = { x: x + (dataLabelOptions.x || 0) + // (#12985) ({ left: connectorPadding, right: -connectorPadding }[labelPosition.alignment] || 0), y: y + (dataLabelOptions.y || 0) - // (#12985) // Vertically center dataLabel.getBBox().height / 2 }; labelPosition.computed.x = x; labelPosition.computed.y = y; // Detect overflowing data labels if (pick(dataLabelOptions.crop, true)) { dataLabelWidth = dataLabel.getBBox().width; let sideOverflow; // Overflow left if (x - dataLabelWidth < connectorPadding && halfIdx === 1 // Left half ) { sideOverflow = Math.round(dataLabelWidth - x + connectorPadding); overflow[3] = Math.max(sideOverflow, overflow[3]); // Overflow right } else if (x + dataLabelWidth > plotWidth - connectorPadding && halfIdx === 0 // Right half ) { sideOverflow = Math.round(x + dataLabelWidth - plotWidth + connectorPadding); overflow[1] = Math.max(sideOverflow, overflow[1]); } // Overflow top if (y - labelHeight / 2 < 0) { overflow[0] = Math.max(Math.round(-y + labelHeight / 2), overflow[0]); // Overflow left } else if (y + labelHeight / 2 > plotHeight) { overflow[2] = Math.max(Math.round(y + labelHeight / 2 - plotHeight), overflow[2]); } labelPosition.sideOverflow = sideOverflow; } } }); // For each data label of the point }); // For each point }); // For each half // Do not apply the final placement and draw the connectors until we // have verified that labels are not spilling over. if (arrayMax(overflow) === 0 || this.verifyDataLabelOverflow(overflow)) { // Place the labels in the final position this.placeDataLabels(); this.points.forEach((point) => { (point.dataLabels || []).forEach((dataLabel) => { // #8864: every connector can have individual options const { connectorColor, connectorWidth = 1 } = (dataLabel.options || {}), labelPosition = dataLabel.dataLabelPosition; // Draw the connector if (connectorWidth) { let isNew; connector = dataLabel.connector; if (labelPosition && labelPosition.distance > 0) { isNew = !connector; if (!connector) { dataLabel.connector = connector = chart.renderer .path() .addClass('highcharts-data-label-connector ' + ' highcharts-color-' + point.colorIndex + (point.className ? ' ' + point.className : '')) .add(series.dataLabelsGroup); } if (!chart.styledMode) { connector.attr({ 'stroke-width': connectorWidth, 'stroke': (connectorColor || point.color || "#666666" /* Palette.neutralColor60 */) }); } connector[isNew ? 'attr' : 'animate']({ d: point.getConnectorPath(dataLabel) }); connector.attr({ visibility: labelPosition.attribs?.visibility }); } else if (connector) { dataLabel.connector = connector.destroy(); } } }); }); } } /** * Perform the final placement of the data labels after we have verified * that they fall within the plot area. * @private */ function placeDataLabels() { this.points.forEach((point) => { (point.dataLabels || []).forEach((dataLabel) => { const labelPosition = dataLabel.dataLabelPosition; if (labelPosition) { // Shorten data labels with ellipsis if they still overflow // after the pie has reached minSize (#223). if (labelPosition.sideOverflow) { dataLabel.css({ width: (Math.max(dataLabel.getBBox().width - labelPosition.sideOverflow, 0)) + 'px', textOverflow: ((dataLabel.options?.style || {}) .textOverflow || 'ellipsis') }); dataLabel.shortened = true; } dataLabel.attr(labelPosition.attribs); dataLabel[dataLabel.moved ? 'animate' : 'attr'](labelPosition.posAttribs); dataLabel.moved = true; } else if (dataLabel) { dataLabel.attr({ y: -9999 }); } }); // Clear for update delete point.distributeBox; }, this); } /** * Verify whether the data labels are allowed to draw, or we should run more * translation and data label positioning to keep them inside the plot area. * Returns true when data labels are ready to draw. * @private */ function verifyDataLabelOverflow(overflow) { const center = this.center, options = this.options, centerOption = options.center, minSize = options.minSize || 80; let newSize = minSize, // If a size is set, return true and don't try to shrink the pie // to fit the labels. ret = options.size !== null; if (!ret) { // Handle horizontal size and center if (centerOption[0] !== null) { // Fixed center newSize = Math.max(center[2] - Math.max(overflow[1], overflow[3]), minSize); } else { // Auto center newSize = Math.max( // Horizontal overflow center[2] - overflow[1] - overflow[3], minSize); // Horizontal center center[0] += (overflow[3] - overflow[1]) / 2; } // Handle vertical size and center if (centerOption[1] !== null) { // Fixed center newSize = clamp(newSize, minSize, center[2] - Math.max(overflow[0], overflow[2])); } else { // Auto center newSize = clamp(newSize, minSize, // Vertical overflow center[2] - overflow[0] - overflow[2]); // Vertical center center[1] += (overflow[0] - overflow[2]) / 2; } // If the size must be decreased, we need to run translate and // drawDataLabels again if (newSize < center[2]) { center[2] = newSize; center[3] = Math.min(// #3632 options.thickness ? Math.max(0, newSize - options.thickness * 2) : Math.max(0, relativeLength(options.innerSize || 0, newSize)), newSize); // #6647 this.translate(center); if (this.drawDataLabels) { this.drawDataLabels(); } // Else, return true to indicate that the pie and its labels is // within the plot area } else { ret = true; } } return ret; } })(ColumnDataLabel || (ColumnDataLabel = {})); /* * * * Default Export * * */ return ColumnDataLabel; }); _registerModule(_modules, 'Extensions/OverlappingDataLabels.js', [_modules['Core/Utilities.js']], function (U) { /* * * * Highcharts module to hide overlapping data labels. * This module is included in Highcharts. * * (c) 2009-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { addEvent, fireEvent, objectEach, pick } = U; /* * * * Functions * * */ /** * Hide overlapping labels. Labels are moved and faded in and out on zoom to * provide a smooth visual impression. * * @requires modules/overlapping-datalabels * * @private * @function Highcharts.Chart#hideOverlappingLabels * @param {Array} labels * Rendered data labels */ function chartHideOverlappingLabels(labels) { const chart = this, len = labels.length, isIntersectRect = (box1, box2) => !(box2.x >= box1.x + box1.width || box2.x + box2.width <= box1.x || box2.y >= box1.y + box1.height || box2.y + box2.height <= box1.y); /** * Get the box with its position inside the chart, as opposed to getBBox * that only reports the position relative to the parent. */ function getAbsoluteBox(label) { if (label && (!label.alignAttr || label.placed)) { const padding = label.box ? 0 : (label.padding || 0), pos = label.alignAttr || { x: label.attr('x'), y: label.attr('y') }, bBox = label.getBBox(); label.width = bBox.width; label.height = bBox.height; return { x: pos.x + (label.parentGroup?.translateX || 0) + padding, y: pos.y + (label.parentGroup?.translateY || 0) + padding, width: (label.width || 0) - 2 * padding, height: (label.height || 0) - 2 * padding }; } } let label, label1, label2, box1, box2, isLabelAffected = false; for (let i = 0; i < len; i++) { label = labels[i]; if (label) { // Mark with initial opacity label.oldOpacity = label.opacity; label.newOpacity = 1; label.absoluteBox = getAbsoluteBox(label); } } // Prevent a situation in a gradually rising slope, that each label will // hide the previous one because the previous one always has lower rank. labels.sort((a, b) => (b.labelrank || 0) - (a.labelrank || 0)); // Detect overlapping labels for (let i = 0; i < len; ++i) { label1 = labels[i]; box1 = label1 && label1.absoluteBox; for (let j = i + 1; j < len; ++j) { label2 = labels[j]; box2 = label2 && label2.absoluteBox; if (box1 && box2 && label1 !== label2 && // #6465, polar chart with connectEnds label1.newOpacity !== 0 && label2.newOpacity !== 0 && // #15863 dataLabels are no longer hidden by translation label1.visibility !== 'hidden' && label2.visibility !== 'hidden') { if (isIntersectRect(box1, box2)) { (label1.labelrank < label2.labelrank ? label1 : label2) .newOpacity = 0; } } } } // Hide or show for (const label of labels) { if (hideOrShow(label, chart)) { isLabelAffected = true; } } if (isLabelAffected) { fireEvent(chart, 'afterHideAllOverlappingLabels'); } } /** @private */ function compose(ChartClass) { const chartProto = ChartClass.prototype; if (!chartProto.hideOverlappingLabels) { chartProto.hideOverlappingLabels = chartHideOverlappingLabels; addEvent(ChartClass, 'render', onChartRender); } } /** * Hide or show labels based on opacity. * * @private * @function hideOrShow * @param {Highcharts.SVGElement} label * The label. * @param {Highcharts.Chart} chart * The chart that contains the label. * @return {boolean} * Whether label is affected */ function hideOrShow(label, chart) { let complete, newOpacity, isLabelAffected = false; if (label) { newOpacity = label.newOpacity; if (label.oldOpacity !== newOpacity) { // Toggle data labels if (label.hasClass('highcharts-data-label')) { // Make sure the label is completely hidden to avoid catching // clicks (#4362) label[newOpacity ? 'removeClass' : 'addClass']('highcharts-data-label-hidden'); complete = function () { if (!chart.styledMode) { label.css({ pointerEvents: newOpacity ? 'auto' : 'none' }); } }; isLabelAffected = true; // Animate or set the opacity label[label.isOld ? 'animate' : 'attr']({ opacity: newOpacity }, void 0, complete); fireEvent(chart, 'afterHideOverlappingLabel'); // Toggle other labels, tick labels } else { label.attr({ opacity: newOpacity }); } } label.isOld = true; } return isLabelAffected; } /** * Collect potential overlapping data labels. Stack labels probably don't need * to be considered because they are usually accompanied by data labels that lie * inside the columns. * @private */ function onChartRender() { const chart = this; let labels = []; // Consider external label collectors for (const collector of (chart.labelCollectors || [])) { labels = labels.concat(collector()); } for (const yAxis of (chart.yAxis || [])) { if (yAxis.stacking && yAxis.options.stackLabels && !yAxis.options.stackLabels.allowOverlap) { objectEach(yAxis.stacking.stacks, (stack) => { objectEach(stack, (stackItem) => { if (stackItem.label) { labels.push(stackItem.label); } }); }); } } for (const series of (chart.series || [])) { if (series.visible && series.hasDataLabels?.()) { // #3866 const push = (points) => { for (const point of points) { if (point.visible) { (point.dataLabels || []).forEach((label) => { const options = label.options || {}; label.labelrank = pick(options.labelrank, point.labelrank, point.shapeArgs?.height); // #4118 // Allow overlap if the option is explicitly true if ( // #13449 options.allowOverlap ?? // Pie labels outside have a separate placement // logic, skip the overlap logic Number(options.distance) > 0) { label.oldOpacity = label.opacity; label.newOpacity = 1; hideOrShow(label, chart); // Do not allow overlap } else { labels.push(label); } }); } } }; push(series.nodes || []); push(series.points); } } this.hideOverlappingLabels(labels); } /* * * * Default Export * * */ const OverlappingDataLabels = { compose }; return OverlappingDataLabels; }); _registerModule(_modules, 'Extensions/BorderRadius.js', [_modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (D, H, U) { /* * * * Highcharts Border Radius module * * Author: Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defaultOptions } = D; const { noop } = H; const { addEvent, extend, isObject, merge, relativeLength } = U; /* * * * Constants * * */ const defaultBorderRadiusOptions = { radius: 0, scope: 'stack', where: void 0 }; /* * * * Variables * * */ let oldArc = noop; let oldRoundedRect = noop; /* * * * Functions * * */ /** * @private */ function applyBorderRadius(path, i, r) { const a = path[i]; let b = path[i + 1]; if (b[0] === 'Z') { b = path[0]; } let line, arc, fromLineToArc; // From straight line to arc if ((a[0] === 'M' || a[0] === 'L') && b[0] === 'A') { line = a; arc = b; fromLineToArc = true; // From arc to straight line } else if (a[0] === 'A' && (b[0] === 'M' || b[0] === 'L')) { line = b; arc = a; } if (line && arc && arc.params) { const bigR = arc[1], // In our use cases, outer pie slice arcs are clockwise and inner // arcs (donut/sunburst etc) are anti-clockwise clockwise = arc[5], params = arc.params, { start, end, cx, cy } = params; // Some geometric constants const relativeR = clockwise ? (bigR - r) : (bigR + r), // The angle, on the big arc, that the border radius arc takes up angleOfBorderRadius = relativeR ? Math.asin(r / relativeR) : 0, angleOffset = clockwise ? angleOfBorderRadius : -angleOfBorderRadius, // The distance along the radius of the big arc to the starting // point of the small border radius arc distanceBigCenterToStartArc = (Math.cos(angleOfBorderRadius) * relativeR); // From line to arc if (fromLineToArc) { // Update the cache params.start = start + angleOffset; // First move to the start position at the radial line. We want to // start one borderRadius closer to the center. line[1] = cx + distanceBigCenterToStartArc * Math.cos(start); line[2] = cy + distanceBigCenterToStartArc * Math.sin(start); // Now draw an arc towards the point where the small circle touches // the great circle. path.splice(i + 1, 0, [ 'A', r, r, 0, 0, 1, cx + bigR * Math.cos(params.start), cy + bigR * Math.sin(params.start) ]); // From arc to line } else { // Update the cache params.end = end - angleOffset; // End the big arc a bit earlier arc[6] = cx + bigR * Math.cos(params.end); arc[7] = cy + bigR * Math.sin(params.end); // Draw a small arc towards a point on the end angle, but one // borderRadius closer to the center relative to the perimeter. path.splice(i + 1, 0, [ 'A', r, r, 0, 0, 1, cx + distanceBigCenterToStartArc * Math.cos(end), cy + distanceBigCenterToStartArc * Math.sin(end) ]); } // Long or short arc must be reconsidered because we have modified the // start and end points arc[4] = Math.abs(params.end - params.start) < Math.PI ? 0 : 1; } } /** * Extend arc with borderRadius. * @private */ function arc(x, y, w, h, options = {}) { const path = oldArc(x, y, w, h, options), { innerR = 0, r = w, start = 0, end = 0 } = options; if (options.open || !options.borderRadius) { return path; } const alpha = end - start, sinHalfAlpha = Math.sin(alpha / 2), borderRadius = Math.max(Math.min(relativeLength(options.borderRadius || 0, r - innerR), // Cap to half the sector radius (r - innerR) / 2, // For smaller pie slices, cap to the largest small circle that // can be fitted within the sector (r * sinHalfAlpha) / (1 + sinHalfAlpha)), 0), // For the inner radius, we need an extra cap because the inner arc // is shorter than the outer arc innerBorderRadius = Math.min(borderRadius, 2 * (alpha / Math.PI) * innerR); // Apply turn-by-turn border radius. Start at the end since we're // splicing in arc segments. let i = path.length - 1; while (i--) { applyBorderRadius(path, i, i > 1 ? innerBorderRadius : borderRadius); } return path; } /** @private */ function seriesOnAfterColumnTranslate() { if (this.options.borderRadius && !(this.chart.is3d && this.chart.is3d())) { const { options, yAxis } = this, percent = options.stacking === 'percent', seriesDefault = defaultOptions.plotOptions?.[this.type] ?.borderRadius, borderRadius = optionsToObject(options.borderRadius, isObject(seriesDefault) ? seriesDefault : {}), reversed = yAxis.options.reversed; for (const point of this.points) { const { shapeArgs } = point; if (point.shapeType === 'roundedRect' && shapeArgs) { const { width = 0, height = 0, y = 0 } = shapeArgs; let brBoxY = y, brBoxHeight = height; // It would be nice to refactor StackItem.getStackBox/ // setOffset so that we could get a reliable box out of // it. Currently it is close if we remove the label // offset, but we still need to run crispCol and also // flip it if inverted, so atm it is simpler to do it // like the below. if (borderRadius.scope === 'stack' && point.stackTotal) { const stackEnd = yAxis.translate(percent ? 100 : point.stackTotal, false, true, false, true), stackThreshold = yAxis.translate(options.threshold || 0, false, true, false, true), box = this.crispCol(0, Math.min(stackEnd, stackThreshold), 0, Math.abs(stackEnd - stackThreshold)); brBoxY = box.y; brBoxHeight = box.height; } const flip = (point.negative ? -1 : 1) * (reversed ? -1 : 1) === -1; // Handle the where option let where = borderRadius.where; // Waterfall, hanging columns should have rounding on // all sides if (!where && this.is('waterfall') && Math.abs((point.yBottom || 0) - (this.translatedThreshold || 0)) > this.borderWidth) { where = 'all'; } if (!where) { where = 'end'; } // Get the radius const r = Math.min(relativeLength(borderRadius.radius, width), width / 2, // Cap to the height, but not if where is `end` where === 'all' ? height / 2 : Infinity) || 0; // If the `where` option is 'end', cut off the // rectangles by making the border-radius box one r // greater, so that the imaginary radius falls outside // the rectangle. if (where === 'end') { if (flip) { brBoxY -= r; brBoxHeight += r; } else { brBoxHeight += r; } } extend(shapeArgs, { brBoxHeight, brBoxY, r }); } } } } /** @private */ function compose(SeriesClass, SVGElementClass, SVGRendererClass) { const PieSeriesClass = SeriesClass.types.pie; if (!SVGElementClass.symbolCustomAttribs.includes('borderRadius')) { const symbols = SVGRendererClass.prototype.symbols; addEvent(SeriesClass, 'afterColumnTranslate', seriesOnAfterColumnTranslate, { // After columnrange and polar column modifications order: 9 }); addEvent(PieSeriesClass, 'afterTranslate', pieSeriesOnAfterTranslate); SVGElementClass.symbolCustomAttribs.push('borderRadius', 'brBoxHeight', 'brBoxY'); oldArc = symbols.arc; oldRoundedRect = symbols.roundedRect; symbols.arc = arc; symbols.roundedRect = roundedRect; } } /** @private */ function optionsToObject(options, seriesBROptions) { if (!isObject(options)) { options = { radius: options || 0 }; } return merge(defaultBorderRadiusOptions, seriesBROptions, options); } /** @private */ function pieSeriesOnAfterTranslate() { const borderRadius = optionsToObject(this.options.borderRadius); for (const point of this.points) { const shapeArgs = point.shapeArgs; if (shapeArgs) { shapeArgs.borderRadius = relativeLength(borderRadius.radius, (shapeArgs.r || 0) - ((shapeArgs.innerR) || 0)); } } } /** * Extend roundedRect with individual cutting through rOffset. * @private */ function roundedRect(x, y, width, height, options = {}) { const path = oldRoundedRect(x, y, width, height, options), { r = 0, brBoxHeight = height, brBoxY = y } = options, brOffsetTop = y - brBoxY, brOffsetBtm = (brBoxY + brBoxHeight) - (y + height), // When the distance to the border-radius box is greater than the r // itself, it means no border radius. The -0.1 accounts for float // rounding errors. rTop = (brOffsetTop - r) > -0.1 ? 0 : r, rBtm = (brOffsetBtm - r) > -0.1 ? 0 : r, cutTop = Math.max(rTop && brOffsetTop, 0), cutBtm = Math.max(rBtm && brOffsetBtm, 0); /* The naming of control points: / a -------- b \ / \ h c | | | | | | g d \ / \ f -------- e / */ const a = [x + rTop, y], b = [x + width - rTop, y], c = [x + width, y + rTop], d = [ x + width, y + height - rBtm ], e = [ x + width - rBtm, y + height ], f = [x + rBtm, y + height], g = [x, y + height - rBtm], h = [x, y + rTop]; const applyPythagoras = (r, altitude) => Math.sqrt(Math.pow(r, 2) - Math.pow(altitude, 2)); // Inside stacks, cut off part of the top if (cutTop) { const base = applyPythagoras(rTop, rTop - cutTop); a[0] -= base; b[0] += base; c[1] = h[1] = y + rTop - cutTop; } // Column is lower than the radius. Cut off bottom inside the top // radius. if (height < rTop - cutTop) { const base = applyPythagoras(rTop, rTop - cutTop - height); c[0] = d[0] = x + width - rTop + base; e[0] = Math.min(c[0], e[0]); f[0] = Math.max(d[0], f[0]); g[0] = h[0] = x + rTop - base; c[1] = h[1] = y + height; } // Inside stacks, cut off part of the bottom if (cutBtm) { const base = applyPythagoras(rBtm, rBtm - cutBtm); e[0] += base; f[0] -= base; d[1] = g[1] = y + height - rBtm + cutBtm; } // Cut off top inside the bottom radius if (height < rBtm - cutBtm) { const base = applyPythagoras(rBtm, rBtm - cutBtm - height); c[0] = d[0] = x + width - rBtm + base; b[0] = Math.min(c[0], b[0]); a[0] = Math.max(d[0], a[0]); g[0] = h[0] = x + rBtm - base; d[1] = g[1] = y; } // Preserve the box for data labels path.length = 0; path.push(['M', ...a], // Top side ['L', ...b], // Top right corner ['A', rTop, rTop, 0, 0, 1, ...c], // Right side ['L', ...d], // Bottom right corner ['A', rBtm, rBtm, 0, 0, 1, ...e], // Bottom side ['L', ...f], // Bottom left corner ['A', rBtm, rBtm, 0, 0, 1, ...g], // Left side ['L', ...h], // Top left corner ['A', rTop, rTop, 0, 0, 1, ...a], ['Z']); return path; } /* * * * Default Export * * */ const BorderRadius = { compose, optionsToObject }; /* * * * API Declarations * * */ /** * Detailed options for border radius. * * @sample {highcharts} highcharts/plotoptions/column-borderradius/ * Rounded columns * @sample highcharts/plotoptions/series-border-radius * Column and pie with rounded border * * @interface Highcharts.BorderRadiusOptionsObject */ /** * The border radius. A number signifies pixels. A percentage string, like for * example `50%`, signifies a relative size. For columns this is relative to the * column width, for pies it is relative to the radius and the inner radius. * * @name Highcharts.BorderRadiusOptionsObject#radius * @type {string|number} */ /** * The scope of the rounding for column charts. In a stacked column chart, the * value `point` means each single point will get rounded corners. The value * `stack` means the rounding will apply to the full stack, so that only points * close to the top or bottom will receive rounding. * * @name Highcharts.BorderRadiusOptionsObject#scope * @validvalue ["point", "stack"] * @type {string} */ /** * For column charts, where in the point or stack to apply rounding. The `end` * value means only those corners at the point value will be rounded, leaving * the corners at the base or threshold unrounded. This is the most intuitive * behaviour. The `all` value means also the base will be rounded. * * @name Highcharts.BorderRadiusOptionsObject#where * @validvalue ["all", "end"] * @type {string} * @default end */ (''); // Keeps doclets above in JS file return BorderRadius; }); _registerModule(_modules, 'Core/Responsive.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { diffObjects, extend, find, merge, pick, uniqueKey } = U; /* * * * Composition * * */ var Responsive; (function (Responsive) { /* * * * Declarations * * */ /* * * * Functions * * */ /** * @private */ function compose(ChartClass) { const chartProto = ChartClass.prototype; if (!chartProto.matchResponsiveRule) { extend(chartProto, { matchResponsiveRule, setResponsive }); } return ChartClass; } Responsive.compose = compose; /** * Handle a single responsiveness rule. * * @private * @function Highcharts.Chart#matchResponsiveRule * @param {Highcharts.ResponsiveRulesOptions} rule * @param {Array} matches */ function matchResponsiveRule(rule, matches) { const condition = rule.condition, fn = condition.callback || function () { return (this.chartWidth <= pick(condition.maxWidth, Number.MAX_VALUE) && this.chartHeight <= pick(condition.maxHeight, Number.MAX_VALUE) && this.chartWidth >= pick(condition.minWidth, 0) && this.chartHeight >= pick(condition.minHeight, 0)); }; if (fn.call(this)) { matches.push(rule._id); } } /** * Update the chart based on the current chart/document size and options * for responsiveness. * * @private * @function Highcharts.Chart#setResponsive * @param {boolean} [redraw=true] * @param {boolean} [reset=false] * Reset by un-applying all rules. Chart.update resets all rules before * applying updated options. */ function setResponsive(redraw, reset) { const options = this.options.responsive, currentResponsive = this.currentResponsive; let ruleIds = [], undoOptions; if (!reset && options && options.rules) { options.rules.forEach((rule) => { if (typeof rule._id === 'undefined') { rule._id = uniqueKey(); } this.matchResponsiveRule(rule, ruleIds /* , redraw */); }, this); } // Merge matching rules const mergedOptions = merge(...ruleIds .map((ruleId) => find((options || {}).rules || [], (rule) => (rule._id === ruleId))) .map((rule) => (rule && rule.chartOptions))); mergedOptions.isResponsiveOptions = true; // Stringified key for the rules that currently apply. ruleIds = (ruleIds.toString() || void 0); const currentRuleIds = (currentResponsive && currentResponsive.ruleIds); // Changes in what rules apply if (ruleIds !== currentRuleIds) { // Undo previous rules. Before we apply a new set of rules, we // need to roll back completely to base options (#6291). if (currentResponsive) { this.update(currentResponsive.undoOptions, redraw, true); } if (ruleIds) { // Get undo-options for matching rules. The `undoOptions`` // hold the current values before they are changed by the // `mergedOptions`. undoOptions = diffObjects(mergedOptions, this.options, true, this.collectionsWithUpdate); undoOptions.isResponsiveOptions = true; this.currentResponsive = { ruleIds: ruleIds, mergedOptions: mergedOptions, undoOptions: undoOptions }; this.update(mergedOptions, redraw, true); } else { this.currentResponsive = void 0; } } } })(Responsive || (Responsive = {})); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * A callback function to gain complete control on when the responsive rule * applies. * * @callback Highcharts.ResponsiveCallbackFunction * * @param {Highcharts.Chart} this * Chart context. * * @return {boolean} * Return `true` if it applies. */ (''); // Keeps doclets above in JS file /* * * * API Options * * */ /** * Allows setting a set of rules to apply for different screen or chart * sizes. Each rule specifies additional chart options. * * @sample {highstock} stock/demo/responsive/ * Stock chart * @sample highcharts/responsive/axis/ * Axis * @sample highcharts/responsive/legend/ * Legend * @sample highcharts/responsive/classname/ * Class name * * @since 5.0.0 * @apioption responsive */ /** * A set of rules for responsive settings. The rules are executed from * the top down. * * @sample {highcharts} highcharts/responsive/axis/ * Axis changes * @sample {highstock} highcharts/responsive/axis/ * Axis changes * @sample {highmaps} highcharts/responsive/axis/ * Axis changes * * @type {Array<*>} * @since 5.0.0 * @apioption responsive.rules */ /** * A full set of chart options to apply as overrides to the general * chart options. The chart options are applied when the given rule * is active. * * A special case is configuration objects that take arrays, for example * [xAxis](#xAxis), [yAxis](#yAxis) or [series](#series). For these * collections, an `id` option is used to map the new option set to * an existing object. If an existing object of the same id is not found, * the item of the same index updated. So for example, setting `chartOptions` * with two series items without an `id`, will cause the existing chart's * two series to be updated with respective options. * * @sample {highstock} stock/demo/responsive/ * Stock chart * @sample highcharts/responsive/axis/ * Axis * @sample highcharts/responsive/legend/ * Legend * @sample highcharts/responsive/classname/ * Class name * * @type {Highcharts.Options} * @since 5.0.0 * @apioption responsive.rules.chartOptions */ /** * Under which conditions the rule applies. * * @since 5.0.0 * @apioption responsive.rules.condition */ /** * A callback function to gain complete control on when the responsive * rule applies. Return `true` if it applies. This opens for checking * against other metrics than the chart size, for example the document * size or other elements. * * @type {Highcharts.ResponsiveCallbackFunction} * @since 5.0.0 * @context Highcharts.Chart * @apioption responsive.rules.condition.callback */ /** * The responsive rule applies if the chart height is less than this. * * @type {number} * @since 5.0.0 * @apioption responsive.rules.condition.maxHeight */ /** * The responsive rule applies if the chart width is less than this. * * @sample highcharts/responsive/axis/ * Max width is 500 * * @type {number} * @since 5.0.0 * @apioption responsive.rules.condition.maxWidth */ /** * The responsive rule applies if the chart height is greater than this. * * @type {number} * @default 0 * @since 5.0.0 * @apioption responsive.rules.condition.minHeight */ /** * The responsive rule applies if the chart width is greater than this. * * @type {number} * @default 0 * @since 5.0.0 * @apioption responsive.rules.condition.minWidth */ (''); // Keeps doclets above in JS file return Responsive; }); _registerModule(_modules, 'masters/highcharts.src.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js'], _modules['Core/Defaults.js'], _modules['Core/Animation/Fx.js'], _modules['Core/Animation/AnimationUtilities.js'], _modules['Core/Renderer/HTML/AST.js'], _modules['Core/Templating.js'], _modules['Core/Renderer/RendererRegistry.js'], _modules['Core/Renderer/RendererUtilities.js'], _modules['Core/Renderer/SVG/SVGElement.js'], _modules['Core/Renderer/SVG/SVGRenderer.js'], _modules['Core/Renderer/HTML/HTMLElement.js'], _modules['Core/Axis/Axis.js'], _modules['Core/Axis/DateTimeAxis.js'], _modules['Core/Axis/LogarithmicAxis.js'], _modules['Core/Axis/PlotLineOrBand/PlotLineOrBand.js'], _modules['Core/Axis/Tick.js'], _modules['Core/Tooltip.js'], _modules['Core/Series/Point.js'], _modules['Core/Pointer.js'], _modules['Core/Legend/Legend.js'], _modules['Core/Legend/LegendSymbol.js'], _modules['Core/Chart/Chart.js'], _modules['Extensions/ScrollablePlotArea.js'], _modules['Core/Axis/Stacking/StackingAxis.js'], _modules['Core/Axis/Stacking/StackItem.js'], _modules['Core/Series/Series.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Series/Column/ColumnDataLabel.js'], _modules['Series/Pie/PieDataLabel.js'], _modules['Core/Series/DataLabel.js'], _modules['Extensions/OverlappingDataLabels.js'], _modules['Extensions/BorderRadius.js'], _modules['Core/Responsive.js'], _modules['Core/Color/Color.js'], _modules['Core/Time.js']], function (Highcharts, Utilities, Defaults, Fx, Animation, AST, Templating, RendererRegistry, RendererUtilities, SVGElement, SVGRenderer, HTMLElement, Axis, DateTimeAxis, LogarithmicAxis, PlotLineOrBand, Tick, Tooltip, Point, Pointer, Legend, LegendSymbol, Chart, ScrollablePlotArea, StackingAxis, StackItem, Series, SeriesRegistry, ColumnDataLabel, PieDataLabel, DataLabel, OverlappingDataLabels, BorderRadius, Responsive, Color, Time) { const G = Highcharts; // Classes G.AST = AST; G.Axis = Axis; G.Chart = Chart; G.Color = Color; G.DataLabel = DataLabel; G.Fx = Fx; G.HTMLElement = HTMLElement; G.Legend = Legend; G.LegendSymbol = LegendSymbol; G.OverlappingDataLabels = G.OverlappingDataLabels || OverlappingDataLabels; G.PlotLineOrBand = PlotLineOrBand; G.Point = Point; G.Pointer = Pointer; G.RendererRegistry = RendererRegistry; G.Series = Series; G.SeriesRegistry = SeriesRegistry; G.StackItem = StackItem; G.SVGElement = SVGElement; G.SVGRenderer = SVGRenderer; G.Templating = Templating; G.Tick = Tick; G.Time = Time; G.Tooltip = Tooltip; // Utilities G.animate = Animation.animate; G.animObject = Animation.animObject; G.chart = Chart.chart; G.color = Color.parse; G.dateFormat = Templating.dateFormat; G.defaultOptions = Defaults.defaultOptions; G.distribute = RendererUtilities.distribute; G.format = Templating.format; G.getDeferredAnimation = Animation.getDeferredAnimation; G.getOptions = Defaults.getOptions; G.numberFormat = Templating.numberFormat; G.seriesType = SeriesRegistry.seriesType; G.setAnimation = Animation.setAnimation; G.setOptions = Defaults.setOptions; G.stop = Animation.stop; G.time = Defaults.defaultTime; G.timers = Fx.timers; // Compositions BorderRadius.compose(G.Series, G.SVGElement, G.SVGRenderer); ColumnDataLabel.compose(G.Series.types.column); DataLabel.compose(G.Series); DateTimeAxis.compose(G.Axis); HTMLElement.compose(G.SVGRenderer); Legend.compose(G.Chart); LogarithmicAxis.compose(G.Axis); OverlappingDataLabels.compose(G.Chart); PieDataLabel.compose(G.Series.types.pie); PlotLineOrBand.compose(G.Axis); Pointer.compose(G.Chart); Responsive.compose(G.Chart); ScrollablePlotArea.compose(G.Axis, G.Chart, G.Series); StackingAxis.compose(G.Axis, G.Chart, G.Series); Tooltip.compose(G.Pointer); Utilities.extend(G, Utilities); // Default Export return G; }); _registerModule(_modules, 'Extensions/ArrowSymbols.js', [], function () { /* * * * (c) 2017 Highsoft AS * Authors: Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Functions * * */ /** * Creates an arrow symbol. Like a triangle, except not filled. * ``` * o * o * o * o * o * o * o * ``` * * @private * @function * * @param {number} x * x position of the arrow * * @param {number} y * y position of the arrow * * @param {number} w * width of the arrow * * @param {number} h * height of the arrow * * @return {Highcharts.SVGPathArray} * Path array */ function arrow(x, y, w, h) { return [ ['M', x, y + h / 2], ['L', x + w, y], ['L', x, y + h / 2], ['L', x + w, y + h] ]; } /** * Creates a half-width arrow symbol. Like a triangle, except not filled. * ``` * o * o * o * o * o * ``` * * @private * @function * * @param {number} x * x position of the arrow * * @param {number} y * y position of the arrow * * @param {number} w * width of the arrow * * @param {number} h * height of the arrow * * @return {Highcharts.SVGPathArray} * Path array */ function arrowHalf(x, y, w, h) { return arrow(x, y, w / 2, h); } /** * @private */ function compose(SVGRendererClass) { const symbols = SVGRendererClass.prototype.symbols; symbols.arrow = arrow; symbols['arrow-filled'] = triangleLeft; symbols['arrow-filled-half'] = triangleLeftHalf; symbols['arrow-half'] = arrowHalf; symbols['triangle-left'] = triangleLeft; symbols['triangle-left-half'] = triangleLeftHalf; } /** * Creates a left-oriented triangle. * ``` * o * ooooooo * ooooooooooooo * ooooooo * o * ``` * * @private * @function * * @param {number} x * x position of the triangle * * @param {number} y * y position of the triangle * * @param {number} w * width of the triangle * * @param {number} h * height of the triangle * * @return {Highcharts.SVGPathArray} * Path array */ function triangleLeft(x, y, w, h) { return [ ['M', x + w, y], ['L', x, y + h / 2], ['L', x + w, y + h], ['Z'] ]; } /** * Creates a half-width, left-oriented triangle. * ``` * o * oooo * ooooooo * oooo * o * ``` * * @private * @function * * @param {number} x * x position of the triangle * * @param {number} y * y position of the triangle * * @param {number} w * width of the triangle * * @param {number} h * height of the triangle * * @return {Highcharts.SVGPathArray} * Path array */ function triangleLeftHalf(x, y, w, h) { return triangleLeft(x, y, w / 2, h); } /* * * * Default Export * * */ const ArrowSymbols = { compose }; return ArrowSymbols; }); _registerModule(_modules, 'Gantt/Connection.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) { /* * * * (c) 2016 Highsoft AS * Authors: Øystein Moseng, Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defined, error, merge, objectEach } = U; /* * * * Constants * * */ const deg2rad = H.deg2rad, max = Math.max, min = Math.min; /* * * * Class * * */ /** * The Connection class. Used internally to represent a connection between two * points. * * @private * @class * @name Highcharts.Connection * * @param {Highcharts.Point} from * Connection runs from this Point. * * @param {Highcharts.Point} to * Connection runs to this Point. * * @param {Highcharts.ConnectorsOptions} [options] * Connection options. */ class Connection { constructor(from, to, options) { this.init(from, to, options); } /** * Initialize the Connection object. Used as constructor only. * * @function Highcharts.Connection#init * * @param {Highcharts.Point} from * Connection runs from this Point. * * @param {Highcharts.Point} to * Connection runs to this Point. * * @param {Highcharts.ConnectorsOptions} [options] * Connection options. */ init(from, to, options) { this.fromPoint = from; this.toPoint = to; this.options = options; this.chart = from.series.chart; this.pathfinder = this.chart.pathfinder; } /** * Add (or update) this connection's path on chart. Stores reference to the * created element on this.graphics.path. * * @function Highcharts.Connection#renderPath * * @param {Highcharts.SVGPathArray} path * Path to render, in array format. E.g. ['M', 0, 0, 'L', 10, 10] * * @param {Highcharts.SVGAttributes} [attribs] * SVG attributes for the path. * * @param {Partial} [animation] * Animation options for the rendering. */ renderPath(path, attribs) { const connection = this, chart = this.chart, styledMode = chart.styledMode, pathfinder = this.pathfinder, anim = {}; let pathGraphic = connection.graphics && connection.graphics.path; // Add the SVG element of the pathfinder group if it doesn't exist if (!pathfinder.group) { pathfinder.group = chart.renderer.g() .addClass('highcharts-pathfinder-group') .attr({ zIndex: -1 }) .add(chart.seriesGroup); } // Shift the group to compensate for plot area. // Note: Do this always (even when redrawing a path) to avoid issues // when updating chart in a way that changes plot metrics. pathfinder.group.translate(chart.plotLeft, chart.plotTop); // Create path if does not exist if (!(pathGraphic && pathGraphic.renderer)) { pathGraphic = chart.renderer.path() .add(pathfinder.group); if (!styledMode) { pathGraphic.attr({ opacity: 0 }); } } // Set path attribs and animate to the new path pathGraphic.attr(attribs); anim.d = path; if (!styledMode) { anim.opacity = 1; } pathGraphic.animate(anim); // Store reference on connection this.graphics = this.graphics || {}; this.graphics.path = pathGraphic; } /** * Calculate and add marker graphics for connection to the chart. The * created/updated elements are stored on this.graphics.start and * this.graphics.end. * * @function Highcharts.Connection#addMarker * * @param {string} type * Marker type, either 'start' or 'end'. * * @param {Highcharts.ConnectorsMarkerOptions} options * All options for this marker. Not calculated or merged with other * options. * * @param {Highcharts.SVGPathArray} path * Connection path in array format. This is used to calculate the * rotation angle of the markers. */ addMarker(type, options, path) { const connection = this, chart = connection.fromPoint.series.chart, pathfinder = chart.pathfinder, renderer = chart.renderer, point = (type === 'start' ? connection.fromPoint : connection.toPoint), anchor = point.getPathfinderAnchorPoint(options); let markerVector, radians, rotation, box, width, height, pathVector, segment; if (!options.enabled) { return; } // Last vector before start/end of path, used to get angle if (type === 'start') { segment = path[1]; } else { // 'end' segment = path[path.length - 2]; } if (segment && segment[0] === 'M' || segment[0] === 'L') { pathVector = { x: segment[1], y: segment[2] }; // Get angle between pathVector and anchor point and use it to // create marker position. radians = point.getRadiansToVector(pathVector, anchor); markerVector = point.getMarkerVector(radians, options.radius, anchor); // Rotation of marker is calculated from angle between pathVector // and markerVector. // (Note: // Used to recalculate radians between markerVector and pathVector, // but this should be the same as between pathVector and anchor.) rotation = -radians / deg2rad; if (options.width && options.height) { width = options.width; height = options.height; } else { width = height = options.radius * 2; } // Add graphics object if it does not exist connection.graphics = connection.graphics || {}; box = { x: markerVector.x - (width / 2), y: markerVector.y - (height / 2), width: width, height: height, rotation: rotation, rotationOriginX: markerVector.x, rotationOriginY: markerVector.y }; if (!connection.graphics[type]) { // Create new marker element connection.graphics[type] = renderer .symbol(options.symbol) .addClass('highcharts-point-connecting-path-' + type + '-marker' + ' highcharts-color-' + this.fromPoint.colorIndex) .attr(box) .add(pathfinder.group); if (!renderer.styledMode) { connection.graphics[type].attr({ fill: options.color || connection.fromPoint.color, stroke: options.lineColor, 'stroke-width': options.lineWidth, opacity: 0 }) .animate({ opacity: 1 }, point.series.options.animation); } } else { connection.graphics[type].animate(box); } } } /** * Calculate and return connection path. * Note: Recalculates chart obstacles on demand if they aren't calculated. * * @function Highcharts.Connection#getPath * * @param {Highcharts.ConnectorsOptions} options * Connector options. Not calculated or merged with other options. * * @return {object|undefined} * Calculated SVG path data in array format. */ getPath(options) { const pathfinder = this.pathfinder, chart = this.chart, algorithm = pathfinder.algorithms[options.type]; let chartObstacles = pathfinder.chartObstacles; if (typeof algorithm !== 'function') { error('"' + options.type + '" is not a Pathfinder algorithm.'); return { path: [], obstacles: [] }; } // This function calculates obstacles on demand if they don't exist if (algorithm.requiresObstacles && !chartObstacles) { chartObstacles = pathfinder.chartObstacles = pathfinder.getChartObstacles(options); // If the algorithmMargin was computed, store the result in default // options. chart.options.connectors.algorithmMargin = options.algorithmMargin; // Cache some metrics too pathfinder.chartObstacleMetrics = pathfinder.getObstacleMetrics(chartObstacles); } // Get the SVG path return algorithm( // From this.fromPoint.getPathfinderAnchorPoint(options.startMarker), // To this.toPoint.getPathfinderAnchorPoint(options.endMarker), merge({ chartObstacles: chartObstacles, lineObstacles: pathfinder.lineObstacles || [], obstacleMetrics: pathfinder.chartObstacleMetrics, hardBounds: { xMin: 0, xMax: chart.plotWidth, yMin: 0, yMax: chart.plotHeight }, obstacleOptions: { margin: options.algorithmMargin }, startDirectionX: pathfinder.getAlgorithmStartDirection(options.startMarker) }, options)); } /** * (re)Calculate and (re)draw the connection. * * @function Highcharts.Connection#render */ render() { const connection = this, fromPoint = connection.fromPoint, series = fromPoint.series, chart = series.chart, pathfinder = chart.pathfinder, attribs = {}; let options = merge(chart.options.connectors, series.options.connectors, fromPoint.options.connectors, connection.options); // Set path attribs if (!chart.styledMode) { attribs.stroke = options.lineColor || fromPoint.color; attribs['stroke-width'] = options.lineWidth; if (options.dashStyle) { attribs.dashstyle = options.dashStyle; } } attribs['class'] = // eslint-disable-line dot-notation 'highcharts-point-connecting-path ' + 'highcharts-color-' + fromPoint.colorIndex; options = merge(attribs, options); // Set common marker options if (!defined(options.marker.radius)) { options.marker.radius = min(max(Math.ceil((options.algorithmMargin || 8) / 2) - 1, 1), 5); } // Get the path const pathResult = connection.getPath(options), path = pathResult.path; // Always update obstacle storage with obstacles from this path. // We don't know if future calls will need this for their algorithm. if (pathResult.obstacles) { pathfinder.lineObstacles = pathfinder.lineObstacles || []; pathfinder.lineObstacles = pathfinder.lineObstacles.concat(pathResult.obstacles); } // Add the calculated path to the pathfinder group connection.renderPath(path, attribs); // Render the markers connection.addMarker('start', merge(options.marker, options.startMarker), path); connection.addMarker('end', merge(options.marker, options.endMarker), path); } /** * Destroy connection by destroying the added graphics elements. * * @function Highcharts.Connection#destroy */ destroy() { if (this.graphics) { objectEach(this.graphics, function (val) { val.destroy(); }); delete this.graphics; } } } /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * The default pathfinder algorithm to use for a chart. It is possible to define * your own algorithms by adding them to the * `Highcharts.Pathfinder.prototype.algorithms` * object before the chart has been created. * * The default algorithms are as follows: * * `straight`: Draws a straight line between the connecting * points. Does not avoid other points when drawing. * * `simpleConnect`: Finds a path between the points using right angles * only. Takes only starting/ending points into * account, and will not avoid other points. * * `fastAvoid`: Finds a path between the points using right angles * only. Will attempt to avoid other points, but its * focus is performance over accuracy. Works well with * less dense datasets. * * @typedef {"fastAvoid"|"simpleConnect"|"straight"|string} Highcharts.PathfinderTypeValue */ ''; // Keeps doclets above in JS file return Connection; }); _registerModule(_modules, 'Extensions/CurrentDateIndication.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) { /* * * * (c) 2016-2024 Highsoft AS * * Author: Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { composed } = H; const { addEvent, merge, pushUnique, wrap } = U; /* * * * Constants * * */ /** * Show an indicator on the axis for the current date and time. Can be a * boolean or a configuration object similar to * [xAxis.plotLines](#xAxis.plotLines). * * @sample gantt/current-date-indicator/demo * Current date indicator enabled * @sample gantt/current-date-indicator/object-config * Current date indicator with custom options * * @declare Highcharts.CurrentDateIndicatorOptions * @type {boolean|CurrentDateIndicatorOptions} * @default true * @extends xAxis.plotLines * @excluding value * @product gantt * @apioption xAxis.currentDateIndicator */ const defaultOptions = { color: "#ccd3ff" /* Palette.highlightColor20 */, width: 2, /** * @declare Highcharts.AxisCurrentDateIndicatorLabelOptions */ label: { /** * Format of the label. This options is passed as the fist argument to * [dateFormat](/class-reference/Highcharts.Time#dateFormat) function. * * @type {string} * @default %a, %b %d %Y, %H:%M * @product gantt * @apioption xAxis.currentDateIndicator.label.format */ format: '%a, %b %d %Y, %H:%M', formatter: function (value, format) { return this.axis.chart.time.dateFormat(format || '', value); }, rotation: 0, /** * @type {Highcharts.CSSObject} */ style: { /** @internal */ fontSize: '0.7em' } } }; /* * * * Functions * * */ /** * @private */ function compose(AxisClass, PlotLineOrBandClass) { if (pushUnique(composed, 'CurrentDateIndication')) { addEvent(AxisClass, 'afterSetOptions', onAxisAfterSetOptions); addEvent(PlotLineOrBandClass, 'render', onPlotLineOrBandRender); wrap(PlotLineOrBandClass.prototype, 'getLabelText', wrapPlotLineOrBandGetLabelText); } } /** * @private */ function onAxisAfterSetOptions() { const options = this.options, cdiOptions = options.currentDateIndicator; if (cdiOptions) { const plotLineOptions = typeof cdiOptions === 'object' ? merge(defaultOptions, cdiOptions) : merge(defaultOptions); plotLineOptions.value = Date.now(); plotLineOptions.className = 'highcharts-current-date-indicator'; if (!options.plotLines) { options.plotLines = []; } options.plotLines.push(plotLineOptions); } } /** * @private */ function onPlotLineOrBandRender() { // If the label already exists, update its text if (this.label) { this.label.attr({ text: this.getLabelText(this.options.label) }); } } /** * @private */ function wrapPlotLineOrBandGetLabelText(defaultMethod, defaultLabelOptions) { const options = this.options; if (options && options.className && options.className.indexOf('highcharts-current-date-indicator') !== -1 && options.label && typeof options.label.formatter === 'function') { options.value = Date.now(); return options.label.formatter .call(this, options.value, options.label.format); } return defaultMethod.call(this, defaultLabelOptions); } /* * * * Default Export * * */ const CurrentDateIndication = { compose }; return CurrentDateIndication; }); _registerModule(_modules, 'Core/Chart/GanttChart.js', [_modules['Core/Chart/Chart.js'], _modules['Core/Defaults.js'], _modules['Core/Utilities.js']], function (Chart, D, U) { /* * * * (c) 2016-2024 Highsoft AS * * Author: Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defaultOptions } = D; const { isArray, merge, splat } = U; /* * * * Class * * */ /** * Gantt-optimized chart. Use {@link Highcharts.Chart|Chart} for common charts. * * @requires modules/gantt * * @class * @name Highcharts.GanttChart * @extends Highcharts.Chart */ class GanttChart extends Chart { /* * * * Functions * * */ /** * Initializes the chart. The constructor's arguments are passed on * directly. * * @function Highcharts.GanttChart#init * * @param {Highcharts.Options} userOptions * Custom options. * * @param {Function} [callback] * Function to run when the chart has loaded and all external * images are loaded. * * * @emits Highcharts.GanttChart#event:init * @emits Highcharts.GanttChart#event:afterInit */ init(userOptions, callback) { const xAxisOptions = userOptions.xAxis, yAxisOptions = userOptions.yAxis; let defaultLinkedTo; // Avoid doing these twice userOptions.xAxis = userOptions.yAxis = void 0; const options = merge(true, { chart: { type: 'gantt' }, title: { text: '' }, legend: { enabled: false }, navigator: { series: { type: 'gantt' }, // Bars were clipped, #14060. yAxis: { type: 'category' } } }, userOptions, // User's options // forced options { isGantt: true }); userOptions.xAxis = xAxisOptions; userOptions.yAxis = yAxisOptions; // Apply X axis options to both single and multi x axes If user hasn't // defined axes as array, make it into an array and add a second axis by // default. options.xAxis = (!isArray(userOptions.xAxis) ? [userOptions.xAxis || {}, {}] : userOptions.xAxis).map((xAxisOptions, i) => { if (i === 1) { // Second xAxis defaultLinkedTo = 0; } return merge( // Defaults { grid: { borderColor: "#cccccc" /* Palette.neutralColor20 */, enabled: true }, opposite: defaultOptions.xAxis?.opposite ?? xAxisOptions.opposite ?? true, linkedTo: defaultLinkedTo }, // User options xAxisOptions, // Forced options { type: 'datetime' }); }); // Apply Y axis options to both single and multi y axes options.yAxis = (splat(userOptions.yAxis || {})).map((yAxisOptions) => merge( // Defaults { grid: { borderColor: "#cccccc" /* Palette.neutralColor20 */, enabled: true }, staticScale: 50, reversed: true, // Set default type treegrid, but only if 'categories' is // undefined type: yAxisOptions.categories ? yAxisOptions.type : 'treegrid' }, // User options yAxisOptions)); super.init(options, callback); } } /* * * * Class Namespace * * */ (function (GanttChart) { /* * * * Functions * * */ /* eslint-disable jsdoc/check-param-names */ /** * The factory function for creating new gantt charts. Creates a new {@link * Highcharts.GanttChart|GanttChart} object with different default options * than the basic Chart. * * @example * // Render a chart in to div#container * let chart = Highcharts.ganttChart('container', { * title: { * text: 'My chart' * }, * series: [{ * data: ... * }] * }); * * @function Highcharts.ganttChart * * @param {string|Highcharts.HTMLDOMElement} renderTo * The DOM element to render to, or its id. * * @param {Highcharts.Options} options * The chart options structure. * * @param {Highcharts.ChartCallbackFunction} [callback] * Function to run when the chart has loaded and all external * images are loaded. Defining a * [chart.events.load](https://api.highcharts.com/highcharts/chart.events.load) * handler is equivalent. * * @return {Highcharts.GanttChart} * Returns the Chart object. */ function ganttChart(a, b, c) { return new GanttChart(a, b, c); } GanttChart.ganttChart = ganttChart; /* eslint-enable jsdoc/check-param-names */ })(GanttChart || (GanttChart = {})); /* * * * Default Export * * */ return GanttChart; }); _registerModule(_modules, 'Stock/Navigator/ChartNavigatorComposition.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { isTouchDevice } = H; const { addEvent, merge, pick } = U; /* * * * Constants * * */ const composedMembers = []; /* * * * Variables * * */ let NavigatorConstructor; /* * * * Functions * * */ /** * @private */ function compose(ChartClass, NavigatorClass) { if (U.pushUnique(composedMembers, ChartClass)) { const chartProto = ChartClass.prototype; NavigatorConstructor = NavigatorClass; chartProto.callbacks.push(onChartCallback); addEvent(ChartClass, 'afterAddSeries', onChartAfterAddSeries); addEvent(ChartClass, 'afterSetChartSize', onChartAfterSetChartSize); addEvent(ChartClass, 'afterUpdate', onChartAfterUpdate); addEvent(ChartClass, 'beforeRender', onChartBeforeRender); addEvent(ChartClass, 'beforeShowResetZoom', onChartBeforeShowResetZoom); addEvent(ChartClass, 'update', onChartUpdate); } } /** * Handle adding new series. * @private */ function onChartAfterAddSeries() { if (this.navigator) { // Recompute which series should be shown in navigator, and add them this.navigator.setBaseSeries(null, false); } } /** * For stock charts, extend the Chart.setChartSize method so that we can set the * final top position of the navigator once the height of the chart, including * the legend, is determined. #367. We can't use Chart.getMargins, because * labels offsets are not calculated yet. * @private */ function onChartAfterSetChartSize() { const legend = this.legend, navigator = this.navigator; let legendOptions, xAxis, yAxis; if (navigator) { legendOptions = legend && legend.options; xAxis = navigator.xAxis; yAxis = navigator.yAxis; const { scrollbarHeight, scrollButtonSize } = navigator; // Compute the top position if (this.inverted) { navigator.left = navigator.opposite ? this.chartWidth - scrollbarHeight - navigator.height : this.spacing[3] + scrollbarHeight; navigator.top = this.plotTop + scrollButtonSize; } else { navigator.left = pick(xAxis.left, this.plotLeft + scrollButtonSize); navigator.top = navigator.navigatorOptions.top || this.chartHeight - navigator.height - scrollbarHeight - (this.scrollbar?.options.margin || 0) - this.spacing[2] - (this.rangeSelector && this.extraBottomMargin ? this.rangeSelector.getHeight() : 0) - ((legendOptions && legendOptions.verticalAlign === 'bottom' && legendOptions.layout !== 'proximate' && // #13392 legendOptions.enabled && !legendOptions.floating) ? legend.legendHeight + pick(legendOptions.margin, 10) : 0) - (this.titleOffset ? this.titleOffset[2] : 0); } if (xAxis && yAxis) { // False if navigator is disabled (#904) if (this.inverted) { xAxis.options.left = yAxis.options.left = navigator.left; } else { xAxis.options.top = yAxis.options.top = navigator.top; } xAxis.setAxisSize(); yAxis.setAxisSize(); } } } /** * Initialize navigator, if no scrolling exists yet. * @private */ function onChartAfterUpdate(event) { if (!this.navigator && !this.scroller && (this.options.navigator.enabled || this.options.scrollbar.enabled)) { this.scroller = this.navigator = new NavigatorConstructor(this); if (pick(event.redraw, true)) { this.redraw(event.animation); // #7067 } } } /** * Initialize navigator for stock charts * @private */ function onChartBeforeRender() { const options = this.options; if (options.navigator.enabled || options.scrollbar.enabled) { this.scroller = this.navigator = new NavigatorConstructor(this); } } /** * For Stock charts. For x only zooming, do not to create the zoom button * because X axis zooming is already allowed by the Navigator and Range * selector. (#9285) * @private */ function onChartBeforeShowResetZoom() { const chartOptions = this.options, navigator = chartOptions.navigator, rangeSelector = chartOptions.rangeSelector; if (((navigator && navigator.enabled) || (rangeSelector && rangeSelector.enabled)) && ((!isTouchDevice && this.zooming.type === 'x') || (isTouchDevice && this.zooming.pinchType === 'x'))) { return false; } } /** * @private */ function onChartCallback(chart) { const navigator = chart.navigator; // Initialize the navigator if (navigator && chart.xAxis[0]) { const extremes = chart.xAxis[0].getExtremes(); navigator.render(extremes.min, extremes.max); } } /** * Merge options, if no scrolling exists yet * @private */ function onChartUpdate(e) { const navigatorOptions = (e.options.navigator || {}), scrollbarOptions = (e.options.scrollbar || {}); if (!this.navigator && !this.scroller && (navigatorOptions.enabled || scrollbarOptions.enabled)) { merge(true, this.options.navigator, navigatorOptions); merge(true, this.options.scrollbar, scrollbarOptions); delete e.options.navigator; delete e.options.scrollbar; } } /* * * * Default Export * * */ const ChartNavigatorComposition = { compose }; return ChartNavigatorComposition; }); _registerModule(_modules, 'Core/Axis/NavigatorAxisComposition.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { isTouchDevice } = H; const { addEvent, correctFloat, defined, isNumber, pick } = U; /* * * * Functions * * */ /** * @private */ function onAxisInit() { const axis = this; if (!axis.navigatorAxis) { axis.navigatorAxis = new NavigatorAxisAdditions(axis); } } /** * For Stock charts, override selection zooming with some special features * because X axis zooming is already allowed by the Navigator and Range * selector. * @private */ function onAxisSetExtremes(e) { const axis = this, chart = axis.chart, chartOptions = chart.options, navigator = chartOptions.navigator, navigatorAxis = axis.navigatorAxis, pinchType = chart.zooming.pinchType, rangeSelector = chartOptions.rangeSelector, zoomType = chart.zooming.type; let zoomed; if (axis.isXAxis && (navigator?.enabled || rangeSelector?.enabled)) { // For y only zooming, ignore the X axis completely if (zoomType === 'y' && e.trigger === 'zoom') { zoomed = false; // For xy zooming, record the state of the zoom before zoom selection, // then when the reset button is pressed, revert to this state. This // should apply only if the chart is initialized with a range (#6612), // otherwise zoom all the way out. } else if (((e.trigger === 'zoom' && zoomType === 'xy') || (isTouchDevice && pinchType === 'xy')) && axis.options.range) { const previousZoom = navigatorAxis.previousZoom; // Minimum defined, zooming in if (defined(e.min)) { navigatorAxis.previousZoom = [axis.min, axis.max]; // Minimum undefined, resetting zoom } else if (previousZoom) { e.min = previousZoom[0]; e.max = previousZoom[1]; navigatorAxis.previousZoom = void 0; } } } if (typeof zoomed !== 'undefined') { e.preventDefault(); } } /* * * * Class * * */ /** * @private * @class */ class NavigatorAxisAdditions { /* * * * Static Functions * * */ /** * @private */ static compose(AxisClass) { if (!AxisClass.keepProps.includes('navigatorAxis')) { AxisClass.keepProps.push('navigatorAxis'); addEvent(AxisClass, 'init', onAxisInit); addEvent(AxisClass, 'setExtremes', onAxisSetExtremes); } } /* * * * Constructors * * */ constructor(axis) { this.axis = axis; } /* * * * Functions * * */ /** * @private */ destroy() { this.axis = void 0; } /** * Add logic to normalize the zoomed range in order to preserve the pressed * state of range selector buttons * * @private * @function Highcharts.Axis#toFixedRange */ toFixedRange(pxMin, pxMax, fixedMin, fixedMax) { const axis = this.axis, halfPointRange = (axis.pointRange || 0) / 2; let newMin = pick(fixedMin, axis.translate(pxMin, true, !axis.horiz)), newMax = pick(fixedMax, axis.translate(pxMax, true, !axis.horiz)); // Add/remove half point range to/from the extremes (#1172) if (!defined(fixedMin)) { newMin = correctFloat(newMin + halfPointRange); } if (!defined(fixedMax)) { newMax = correctFloat(newMax - halfPointRange); } if (!isNumber(newMin) || !isNumber(newMax)) { // #1195, #7411 newMin = newMax = void 0; } return { min: newMin, max: newMax }; } } /* * * * Default Export * * */ return NavigatorAxisAdditions; }); _registerModule(_modules, 'Stock/Navigator/NavigatorDefaults.js', [_modules['Core/Color/Color.js'], _modules['Core/Series/SeriesRegistry.js']], function (Color, SeriesRegistry) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { parse: color } = Color; const { seriesTypes } = SeriesRegistry; /* * * * Constants * * */ /** * The navigator is a small series below the main series, displaying * a view of the entire data set. It provides tools to zoom in and * out on parts of the data as well as panning across the dataset. * * @product highstock gantt * @optionparent navigator */ const NavigatorDefaults = { /** * Whether the navigator and scrollbar should adapt to updated data * in the base X axis. When loading data async, as in the demo below, * this should be `false`. Otherwise new data will trigger navigator * redraw, which will cause unwanted looping. In the demo below, the * data in the navigator is set only once. On navigating, only the main * chart content is updated. * * @sample {highstock} stock/demo/lazy-loading/ * Set to false with async data loading * * @type {boolean} * @default true * @apioption navigator.adaptToUpdatedData */ /** * An integer identifying the index to use for the base series, or a * string representing the id of the series. * * **Note**: As of Highcharts 5.0, this is now a deprecated option. * Prefer [series.showInNavigator](#plotOptions.series.showInNavigator). * * @see [series.showInNavigator](#plotOptions.series.showInNavigator) * * @deprecated * @type {number|string} * @default 0 * @apioption navigator.baseSeries */ /** * Enable or disable the navigator. * * @sample {highstock} stock/navigator/enabled/ * Disable the navigator * * @type {boolean} * @default true * @apioption navigator.enabled */ /** * When the chart is inverted, whether to draw the navigator on the * opposite side. * * @type {boolean} * @default false * @since 5.0.8 * @apioption navigator.opposite */ /** * The height of the navigator. * * @sample {highstock} stock/navigator/height/ * A higher navigator */ height: 40, /** * The distance from the nearest element, the X axis or X axis labels. * * @sample {highstock} stock/navigator/margin/ * A margin of 2 draws the navigator closer to the X axis labels */ margin: 25, /** * Whether the mask should be inside the range marking the zoomed * range, or outside. In Highcharts Stock 1.x it was always `false`. * * @sample {highstock} stock/demo/maskinside-false/ * False, mask outside * * @since 2.0 */ maskInside: true, /** * Options for the handles for dragging the zoomed area. * * @sample {highstock} stock/navigator/handles/ * Colored handles */ handles: { /** * Width for handles. * * @sample {highstock} stock/navigator/styled-handles/ * Styled handles * * @since 6.0.0 */ width: 7, /** * Height for handles. * * @sample {highstock} stock/navigator/styled-handles/ * Styled handles * * @since 6.0.0 */ height: 15, /** * Array to define shapes of handles. 0-index for left, 1-index for * right. * * Additionally, the URL to a graphic can be given on this form: * `url(graphic.png)`. Note that for the image to be applied to * exported charts, its URL needs to be accessible by the export * server. * * Custom callbacks for symbol path generation can also be added to * `Highcharts.SVGRenderer.prototype.symbols`. The callback is then * used by its method name, as shown in the demo. * * @sample {highstock} stock/navigator/styled-handles/ * Styled handles * * @type {Array} * @default ["navigator-handle", "navigator-handle"] * @since 6.0.0 */ symbols: ['navigator-handle', 'navigator-handle'], /** * Allows to enable/disable handles. * * @since 6.0.0 */ enabled: true, /** * The width for the handle border and the stripes inside. * * @sample {highstock} stock/navigator/styled-handles/ * Styled handles * * @since 6.0.0 * @apioption navigator.handles.lineWidth */ lineWidth: 1, /** * The fill for the handle. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ backgroundColor: "#f2f2f2" /* Palette.neutralColor5 */, /** * The stroke for the handle border and the stripes inside. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ borderColor: "#999999" /* Palette.neutralColor40 */ }, /** * The color of the mask covering the areas of the navigator series * that are currently not visible in the main series. The default * color is bluish with an opacity of 0.3 to see the series below. * * @see In styled mode, the mask is styled with the * `.highcharts-navigator-mask` and * `.highcharts-navigator-mask-inside` classes. * * @sample {highstock} stock/navigator/maskfill/ * Blue, semi transparent mask * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default rgba(102,133,194,0.3) */ maskFill: color("#667aff" /* Palette.highlightColor60 */).setOpacity(0.3).get(), /** * The color of the line marking the currently zoomed area in the * navigator. * * @sample {highstock} stock/navigator/outline/ * 2px blue outline * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @default #cccccc */ outlineColor: "#999999" /* Palette.neutralColor40 */, /** * The width of the line marking the currently zoomed area in the * navigator. * * @see In styled mode, the outline stroke width is set with the * `.highcharts-navigator-outline` class. * * @sample {highstock} stock/navigator/outline/ * 2px blue outline * * @type {number} */ outlineWidth: 1, /** * Options for the navigator series. Available options are the same * as any series, documented at [plotOptions](#plotOptions.series) * and [series](#series). * * Unless data is explicitly defined on navigator.series, the data * is borrowed from the first series in the chart. * * Default series options for the navigator series are: * ```js * series: { * type: 'areaspline', * fillOpacity: 0.05, * dataGrouping: { * smoothed: true * }, * lineWidth: 1, * marker: { * enabled: false * } * } * ``` * * @see In styled mode, the navigator series is styled with the * `.highcharts-navigator-series` class. * * @sample {highstock} stock/navigator/series-data/ * Using a separate data set for the navigator * @sample {highstock} stock/navigator/series/ * A green navigator series * * @type {*|Array<*>|Highcharts.SeriesOptionsType|Array} */ series: { /** * The type of the navigator series. * * Heads up: * In column-type navigator, zooming is limited to at least one * point with its `pointRange`. * * @sample {highstock} stock/navigator/column/ * Column type navigator * * @type {string} * @default {highstock} `areaspline` if defined, otherwise `line` * @default {gantt} gantt */ type: (typeof seriesTypes.areaspline === 'undefined' ? 'line' : 'areaspline'), /** * The fill opacity of the navigator series. */ fillOpacity: 0.05, /** * The pixel line width of the navigator series. */ lineWidth: 1, /** * @ignore-option */ compare: null, /** * @ignore-option */ sonification: { enabled: false }, /** * Unless data is explicitly defined, the data is borrowed from the * first series in the chart. * * @type {Array|object|null>} * @product highstock * @apioption navigator.series.data */ /** * Data grouping options for the navigator series. * * @extends plotOptions.series.dataGrouping */ dataGrouping: { approximation: 'average', enabled: true, groupPixelWidth: 2, // Replace smoothed property by anchors, #12455. firstAnchor: 'firstPoint', anchor: 'middle', lastAnchor: 'lastPoint', // Day and week differs from plotOptions.series.dataGrouping units: [ ['millisecond', [1, 2, 5, 10, 20, 25, 50, 100, 200, 500]], ['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, 3, 4]], ['week', [1, 2, 3]], ['month', [1, 3, 6]], ['year', null] ] }, /** * Data label options for the navigator series. Data labels are * disabled by default on the navigator series. * * @extends plotOptions.series.dataLabels */ dataLabels: { enabled: false, zIndex: 2 // #1839 }, id: 'highcharts-navigator-series', className: 'highcharts-navigator-series', /** * Sets the fill color of the navigator series. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption navigator.series.color */ /** * Line color for the navigator series. Allows setting the color * while disallowing the default candlestick setting. * * @type {Highcharts.ColorString|null} */ lineColor: null, marker: { enabled: false }, /** * Since Highcharts Stock v8, default value is the same as default * `pointRange` defined for a specific type (e.g. `null` for * column type). * * In Highcharts Stock version < 8, defaults to 0. * * @extends plotOptions.series.pointRange * @type {number|null} * @apioption navigator.series.pointRange */ /** * The threshold option. Setting it to 0 will make the default * navigator area series draw its area from the 0 value and up. * * @type {number|null} */ threshold: null }, /** * Enable or disable navigator sticking to right, while adding new * points. If `undefined`, the navigator sticks to the axis maximum only * if it was already at the maximum prior to adding points. * * @type {boolean} * @default undefined * @since 10.2.1 * @sample {highstock} stock/navigator/sticktomax-false/ * stickToMax set to false * @apioption navigator.stickToMax */ /** * Options for the navigator X axis. Default series options for the * navigator xAxis are: * ```js * xAxis: { * tickWidth: 0, * lineWidth: 0, * gridLineWidth: 1, * tickPixelInterval: 200, * labels: { * align: 'left', * style: { * color: '#888' * }, * x: 3, * y: -4 * } * } * ``` * * @extends xAxis * @excluding linkedTo, maxZoom, minRange, opposite, range, scrollbar, * showEmpty, maxRange */ xAxis: { /** * Additional range on the right side of the xAxis. Works similar to * `xAxis.maxPadding`, but the value is set in terms of axis values, * percentage or pixels. * * If it's a number, it is interpreted as axis values, which in a * datetime axis equals milliseconds. * * If it's a percentage string, is interpreted as percentages of the * axis length. An overscroll of 50% will make a 100px axis 50px longer. * * If it's a pixel string, it is interpreted as a fixed pixel value, but * limited to 90% of the axis length. * * If it's undefined, the value is inherited from `xAxis.overscroll`. * * Can be set for both, main xAxis and navigator's xAxis. * * @type {number | string | undefined} * @since 6.0.0 * @apioption navigator.xAxis.overscroll */ className: 'highcharts-navigator-xaxis', tickLength: 0, lineWidth: 0, gridLineColor: "#e6e6e6" /* Palette.neutralColor10 */, gridLineWidth: 1, tickPixelInterval: 200, labels: { align: 'left', /** * @type {Highcharts.CSSObject} */ style: { /** @ignore */ color: "#000000" /* Palette.neutralColor100 */, /** @ignore */ fontSize: '0.7em', /** @ignore */ opacity: 0.6, /** @ignore */ textOutline: '2px contrast' }, x: 3, y: -4 }, crosshair: false }, /** * Options for the navigator Y axis. Default series options for the * navigator yAxis are: * ```js * yAxis: { * gridLineWidth: 0, * startOnTick: false, * endOnTick: false, * minPadding: 0.1, * maxPadding: 0.1, * labels: { * enabled: false * }, * title: { * text: null * }, * tickWidth: 0 * } * ``` * * @extends yAxis * @excluding height, linkedTo, maxZoom, minRange, ordinal, range, * showEmpty, scrollbar, top, units, maxRange, minLength, * maxLength, resize */ yAxis: { className: 'highcharts-navigator-yaxis', gridLineWidth: 0, startOnTick: false, endOnTick: false, minPadding: 0.1, maxPadding: 0.1, labels: { enabled: false }, crosshair: false, title: { text: null }, tickLength: 0, tickWidth: 0 } }; /* * * * Default Export * * */ /* * * * API Options * * */ /** * Maximum range which can be set using the navigator's handles. * Opposite of [xAxis.minRange](#xAxis.minRange). * * @sample {highstock} stock/navigator/maxrange/ * Defined max and min range * * @type {number} * @since 6.0.0 * @product highstock gantt * @apioption xAxis.maxRange */ (''); // Keeps doclets above in JS file return NavigatorDefaults; }); _registerModule(_modules, 'Stock/Navigator/NavigatorSymbols.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Constants * * */ /** * Draw one of the handles on the side of the zoomed range in the navigator. * @private */ function navigatorHandle(_x, _y, width, height, options = {}) { const halfWidth = options.width ? options.width / 2 : width, markerPosition = Math.round(halfWidth / 3) + 0.5; height = options.height || height; return [ ['M', -halfWidth - 1, 0.5], ['L', halfWidth, 0.5], ['L', halfWidth, height + 0.5], ['L', -halfWidth - 1, height + 0.5], ['L', -halfWidth - 1, 0.5], ['M', -markerPosition, 4], ['L', -markerPosition, height - 3], ['M', markerPosition - 1, 4], ['L', markerPosition - 1, height - 3] ]; } /* * * * Default Export * * */ const NavigatorSymbols = { 'navigator-handle': navigatorHandle }; return NavigatorSymbols; }); _registerModule(_modules, 'Stock/Utilities/StockUtilities.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defined } = U; /* * * * Functions * * */ /** * Sets the chart.fixedRange to the specified value. If the value is larger * than actual range, sets it to the maximum possible range. (#20327) * * @private * @function Highcharts.StockChart#setFixedRange * @param {number|undefined} range * Range to set in axis units. */ function setFixedRange(range) { const xAxis = this.xAxis[0]; if (defined(xAxis.dataMax) && defined(xAxis.dataMin) && range) { this.fixedRange = Math.min(range, xAxis.dataMax - xAxis.dataMin); } else { this.fixedRange = range; } } const StockUtilities = { setFixedRange }; return StockUtilities; }); _registerModule(_modules, 'Stock/Navigator/NavigatorComposition.js', [_modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Core/Axis/NavigatorAxisComposition.js'], _modules['Stock/Navigator/NavigatorDefaults.js'], _modules['Stock/Navigator/NavigatorSymbols.js'], _modules['Core/Renderer/RendererRegistry.js'], _modules['Stock/Utilities/StockUtilities.js'], _modules['Core/Utilities.js']], function (D, H, NavigatorAxisAdditions, NavigatorDefaults, NavigatorSymbols, RendererRegistry, StockUtilities, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { setOptions } = D; const { composed } = H; const { getRendererType } = RendererRegistry; const { setFixedRange } = StockUtilities; const { addEvent, extend, pushUnique } = U; /* * * * Variables * * */ /* * * * Functions * * */ /** * @private */ function compose(ChartClass, AxisClass, SeriesClass) { NavigatorAxisAdditions.compose(AxisClass); if (pushUnique(composed, 'Navigator')) { ChartClass.prototype.setFixedRange = setFixedRange; extend(getRendererType().prototype.symbols, NavigatorSymbols); addEvent(SeriesClass, 'afterUpdate', onSeriesAfterUpdate); setOptions({ navigator: NavigatorDefaults }); } } /** * Handle updating series * @private */ function onSeriesAfterUpdate() { if (this.chart.navigator && !this.options.isInternal) { this.chart.navigator.setBaseSeries(null, false); } } /* * * * Default Export * * */ const NavigatorComposition = { compose }; return NavigatorComposition; }); _registerModule(_modules, 'Core/Axis/ScrollbarAxis.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { composed } = H; const { addEvent, defined, pick, pushUnique } = U; /* * * * Composition * * */ var ScrollbarAxis; (function (ScrollbarAxis) { /* * * * Variables * * */ let Scrollbar; /* * * * Functions * * */ /** * Attaches to axis events to create scrollbars if enabled. * * @private * * @param {Highcharts.Axis} AxisClass * Axis class to extend. * * @param {Highcharts.Scrollbar} ScrollbarClass * Scrollbar class to use. */ function compose(AxisClass, ScrollbarClass) { if (pushUnique(composed, 'Axis.Scrollbar')) { Scrollbar = ScrollbarClass; addEvent(AxisClass, 'afterGetOffset', onAxisAfterGetOffset); addEvent(AxisClass, 'afterInit', onAxisAfterInit); addEvent(AxisClass, 'afterRender', onAxisAfterRender); } } ScrollbarAxis.compose = compose; /** @private */ function getExtremes(axis) { const axisMin = pick(axis.options && axis.options.min, axis.min); const axisMax = pick(axis.options && axis.options.max, axis.max); return { axisMin, axisMax, scrollMin: defined(axis.dataMin) ? Math.min(axisMin, axis.min, axis.dataMin, pick(axis.threshold, Infinity)) : axisMin, scrollMax: defined(axis.dataMax) ? Math.max(axisMax, axis.max, axis.dataMax, pick(axis.threshold, -Infinity)) : axisMax }; } /** * Make space for a scrollbar. * @private */ function onAxisAfterGetOffset() { const axis = this, scrollbar = axis.scrollbar, opposite = scrollbar && !scrollbar.options.opposite, index = axis.horiz ? 2 : opposite ? 3 : 1; if (scrollbar) { // Reset scrollbars offsets axis.chart.scrollbarsOffsets = [0, 0]; axis.chart.axisOffset[index] += scrollbar.size + (scrollbar.options.margin || 0); } } /** * Wrap axis initialization and create scrollbar if enabled. * @private */ function onAxisAfterInit() { const axis = this; if (axis.options && axis.options.scrollbar && axis.options.scrollbar.enabled) { // Predefined options: axis.options.scrollbar.vertical = !axis.horiz; axis.options.startOnTick = axis.options.endOnTick = false; axis.scrollbar = new Scrollbar(axis.chart.renderer, axis.options.scrollbar, axis.chart); addEvent(axis.scrollbar, 'changed', function (e) { const { axisMin, axisMax, scrollMin: unitedMin, scrollMax: unitedMax } = getExtremes(axis), range = unitedMax - unitedMin; let to, from; // #12834, scroll when show/hide series, wrong extremes if (!defined(axisMin) || !defined(axisMax)) { return; } if ((axis.horiz && !axis.reversed) || (!axis.horiz && axis.reversed)) { to = unitedMin + range * this.to; from = unitedMin + range * this.from; } else { // Y-values in browser are reversed, but this also // applies for reversed horizontal axis: to = unitedMin + range * (1 - this.from); from = unitedMin + range * (1 - this.to); } if (this.shouldUpdateExtremes(e.DOMType)) { // #17977, set animation to undefined instead of true const animate = e.DOMType === 'mousemove' || e.DOMType === 'touchmove' ? false : void 0; axis.setExtremes(from, to, true, animate, e); } else { // When live redraw is disabled, don't change extremes // Only change the position of the scrollbar thumb this.setRange(this.from, this.to); } }); } } /** * Wrap rendering axis, and update scrollbar if one is created. * @private */ function onAxisAfterRender() { const axis = this, { scrollMin, scrollMax } = getExtremes(axis), scrollbar = axis.scrollbar, offset = (axis.axisTitleMargin + (axis.titleOffset || 0)), scrollbarsOffsets = axis.chart.scrollbarsOffsets, axisMargin = axis.options.margin || 0; let offsetsIndex, from, to; if (scrollbar && scrollbarsOffsets) { if (axis.horiz) { // Reserve space for labels/title if (!axis.opposite) { scrollbarsOffsets[1] += offset; } scrollbar.position(axis.left, (axis.top + axis.height + 2 + scrollbarsOffsets[1] - (axis.opposite ? axisMargin : 0)), axis.width, axis.height); // Next scrollbar should reserve space for margin (if set) if (!axis.opposite) { scrollbarsOffsets[1] += axisMargin; } offsetsIndex = 1; } else { // Reserve space for labels/title if (axis.opposite) { scrollbarsOffsets[0] += offset; } let xPosition; if (!scrollbar.options.opposite) { xPosition = axis.opposite ? 0 : axisMargin; } else { xPosition = axis.left + axis.width + 2 + scrollbarsOffsets[0] - (axis.opposite ? 0 : axisMargin); } scrollbar.position(xPosition, axis.top, axis.width, axis.height); // Next scrollbar should reserve space for margin (if set) if (axis.opposite) { scrollbarsOffsets[0] += axisMargin; } offsetsIndex = 0; } scrollbarsOffsets[offsetsIndex] += scrollbar.size + (scrollbar.options.margin || 0); if (isNaN(scrollMin) || isNaN(scrollMax) || !defined(axis.min) || !defined(axis.max) || axis.min === axis.max // #10733 ) { // Default action: when extremes are the same or there is // not extremes on the axis, but scrollbar exists, make it // full size scrollbar.setRange(0, 1); } else { from = ((axis.min - scrollMin) / (scrollMax - scrollMin)); to = ((axis.max - scrollMin) / (scrollMax - scrollMin)); if ((axis.horiz && !axis.reversed) || (!axis.horiz && axis.reversed)) { scrollbar.setRange(from, to); } else { // Inverse vertical axis scrollbar.setRange(1 - to, 1 - from); } } } } })(ScrollbarAxis || (ScrollbarAxis = {})); /* * * * Default Export * * */ return ScrollbarAxis; }); _registerModule(_modules, 'Stock/Scrollbar/ScrollbarDefaults.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Constant * * */ /** * * The scrollbar is a means of panning over the X axis of a stock chart. * Scrollbars can also be applied to other types of axes. * * Another approach to scrollable charts is the [chart.scrollablePlotArea]( * https://api.highcharts.com/highcharts/chart.scrollablePlotArea) option that * is especially suitable for simpler cartesian charts on mobile. * * In styled mode, all the presentational options for the * scrollbar are replaced by the classes `.highcharts-scrollbar-thumb`, * `.highcharts-scrollbar-arrow`, `.highcharts-scrollbar-button`, * `.highcharts-scrollbar-rifles` and `.highcharts-scrollbar-track`. * * @sample stock/yaxis/inverted-bar-scrollbar/ * A scrollbar on a simple bar chart * * @product highstock gantt * @optionparent scrollbar * * @private */ const ScrollbarDefaults = { /** * The height of the scrollbar. If `buttonsEnabled` is true , the height * also applies to the width of the scroll arrows so that they are always * squares. * * @sample stock/scrollbar/style/ * Non-default height * * @type {number} */ height: 10, /** * The border rounding radius of the bar. * * @sample stock/scrollbar/style/ * Scrollbar styling */ barBorderRadius: 5, /** * The corner radius of the scrollbar buttons. * * @sample stock/scrollbar/style/ * Scrollbar styling */ buttonBorderRadius: 0, /** * Enable or disable the buttons at the end of the scrollbar. * * @since 11.0.0 */ buttonsEnabled: false, /** * Enable or disable the scrollbar. * * @sample stock/scrollbar/enabled/ * Disable the scrollbar, only use navigator * * @type {boolean} * @default true * @apioption scrollbar.enabled */ /** * Whether to redraw the main chart as the scrollbar or the navigator * zoomed window is moved. Defaults to `true` for modern browsers and * `false` for legacy IE browsers as well as mobile devices. * * @sample stock/scrollbar/liveredraw * Setting live redraw to false * * @type {boolean} * @since 1.3 */ liveRedraw: void 0, /** * The margin between the scrollbar and its axis when the scrollbar is * applied directly to an axis, or the navigator in case that is enabled. * Defaults to 10 for axis, 0 for navigator. * * @type {number|undefined} */ margin: void 0, /** * The minimum width of the scrollbar. * * @since 1.2.5 */ minWidth: 6, /** @ignore-option */ opposite: true, /** * Whether to show or hide the scrollbar when the scrolled content is * zoomed out to it full extent. * * @type {boolean} * @default true * @apioption scrollbar.showFull */ step: 0.2, /** * The z index of the scrollbar group. */ zIndex: 3, /** * The background color of the scrollbar itself. * * @sample stock/scrollbar/style/ * Scrollbar styling * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ barBackgroundColor: "#cccccc" /* Palette.neutralColor20 */, /** * The width of the bar's border. * * @sample stock/scrollbar/style/ * Scrollbar styling */ barBorderWidth: 0, /** * The color of the scrollbar's border. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ barBorderColor: "#cccccc" /* Palette.neutralColor20 */, /** * The color of the small arrow inside the scrollbar buttons. * * @sample stock/scrollbar/style/ * Scrollbar styling * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ buttonArrowColor: "#333333" /* Palette.neutralColor80 */, /** * The color of scrollbar buttons. * * @sample stock/scrollbar/style/ * Scrollbar styling * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ buttonBackgroundColor: "#e6e6e6" /* Palette.neutralColor10 */, /** * The color of the border of the scrollbar buttons. * * @sample stock/scrollbar/style/ * Scrollbar styling * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ buttonBorderColor: "#cccccc" /* Palette.neutralColor20 */, /** * The border width of the scrollbar buttons. * * @sample stock/scrollbar/style/ * Scrollbar styling */ buttonBorderWidth: 1, /** * The color of the small rifles in the middle of the scrollbar. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ rifleColor: 'none', /** * The color of the track background. * * @sample stock/scrollbar/style/ * Scrollbar styling * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ trackBackgroundColor: 'rgba(255, 255, 255, 0.001)', /** * The color of the border of the scrollbar track. * * @sample stock/scrollbar/style/ * Scrollbar styling * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} */ trackBorderColor: "#cccccc" /* Palette.neutralColor20 */, /** * The corner radius of the border of the scrollbar track. * * @sample stock/scrollbar/style/ * Scrollbar styling */ trackBorderRadius: 5, /** * The width of the border of the scrollbar track. * * @sample stock/scrollbar/style/ * Scrollbar styling */ trackBorderWidth: 1 }; /* * * * Default Export * * */ return ScrollbarDefaults; }); _registerModule(_modules, 'Stock/Scrollbar/Scrollbar.js', [_modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Core/Axis/ScrollbarAxis.js'], _modules['Stock/Scrollbar/ScrollbarDefaults.js'], _modules['Core/Utilities.js']], function (D, H, ScrollbarAxis, ScrollbarDefaults, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defaultOptions } = D; const { addEvent, correctFloat, defined, destroyObjectProperties, fireEvent, merge, pick, removeEvent } = U; /* * * * Constants * * */ /* eslint-disable no-invalid-this, valid-jsdoc */ /** * A reusable scrollbar, internally used in Highcharts Stock's * navigator and optionally on individual axes. * * @private * @class * @name Highcharts.Scrollbar * @param {Highcharts.SVGRenderer} renderer * @param {Highcharts.ScrollbarOptions} options * @param {Highcharts.Chart} chart */ class Scrollbar { /* * * * Static Functions * * */ static compose(AxisClass) { ScrollbarAxis.compose(AxisClass, Scrollbar); } /** * When we have vertical scrollbar, rifles and arrow in buttons should be * rotated. The same method is used in Navigator's handles, to rotate them. * * @function Highcharts.swapXY * * @param {Highcharts.SVGPathArray} path * Path to be rotated. * * @param {boolean} [vertical] * If vertical scrollbar, swap x-y values. * * @return {Highcharts.SVGPathArray} * Rotated path. * * @requires modules/stock */ static swapXY(path, vertical) { if (vertical) { path.forEach((seg) => { const len = seg.length; let temp; for (let i = 0; i < len; i += 2) { temp = seg[i + 1]; if (typeof temp === 'number') { seg[i + 1] = seg[i + 2]; seg[i + 2] = temp; } } }); } return path; } /* * * * Constructors * * */ constructor(renderer, options, chart) { /* * * * Properties * * */ this._events = []; this.chartX = 0; this.chartY = 0; this.from = 0; this.scrollbarButtons = []; this.scrollbarLeft = 0; this.scrollbarStrokeWidth = 1; this.scrollbarTop = 0; this.size = 0; this.to = 0; this.trackBorderWidth = 1; this.x = 0; this.y = 0; this.init(renderer, options, chart); } /* * * * Functions * * */ /** * Set up the mouse and touch events for the Scrollbar * * @private * @function Highcharts.Scrollbar#addEvents */ addEvents() { const buttonsOrder = this.options.inverted ? [1, 0] : [0, 1], buttons = this.scrollbarButtons, bar = this.scrollbarGroup.element, track = this.track.element, mouseDownHandler = this.mouseDownHandler.bind(this), mouseMoveHandler = this.mouseMoveHandler.bind(this), mouseUpHandler = this.mouseUpHandler.bind(this); const _events = [ // Mouse events [ buttons[buttonsOrder[0]].element, 'click', this.buttonToMinClick.bind(this) ], [ buttons[buttonsOrder[1]].element, 'click', this.buttonToMaxClick.bind(this) ], [track, 'click', this.trackClick.bind(this)], [bar, 'mousedown', mouseDownHandler], [bar.ownerDocument, 'mousemove', mouseMoveHandler], [bar.ownerDocument, 'mouseup', mouseUpHandler], // Touch events [bar, 'touchstart', mouseDownHandler], [bar.ownerDocument, 'touchmove', mouseMoveHandler], [bar.ownerDocument, 'touchend', mouseUpHandler] ]; // Add them all _events.forEach(function (args) { addEvent.apply(null, args); }); this._events = _events; } buttonToMaxClick(e) { const scroller = this; const range = ((scroller.to - scroller.from) * pick(scroller.options.step, 0.2)); scroller.updatePosition(scroller.from + range, scroller.to + range); fireEvent(scroller, 'changed', { from: scroller.from, to: scroller.to, trigger: 'scrollbar', DOMEvent: e }); } buttonToMinClick(e) { const scroller = this; const range = correctFloat(scroller.to - scroller.from) * pick(scroller.options.step, 0.2); scroller.updatePosition(correctFloat(scroller.from - range), correctFloat(scroller.to - range)); fireEvent(scroller, 'changed', { from: scroller.from, to: scroller.to, trigger: 'scrollbar', DOMEvent: e }); } /** * Get normalized (0-1) cursor position over the scrollbar * * @private * @function Highcharts.Scrollbar#cursorToScrollbarPosition * * @param {*} normalizedEvent * normalized event, with chartX and chartY values * * @return {Highcharts.Dictionary} * Local position {chartX, chartY} */ cursorToScrollbarPosition(normalizedEvent) { const scroller = this, options = scroller.options, minWidthDifference = options.minWidth > scroller.calculatedWidth ? options.minWidth : 0; // `minWidth` distorts translation return { chartX: (normalizedEvent.chartX - scroller.x - scroller.xOffset) / (scroller.barWidth - minWidthDifference), chartY: (normalizedEvent.chartY - scroller.y - scroller.yOffset) / (scroller.barWidth - minWidthDifference) }; } /** * Destroys allocated elements. * * @private * @function Highcharts.Scrollbar#destroy */ destroy() { const scroller = this, navigator = scroller.chart.scroller; // Disconnect events added in addEvents scroller.removeEvents(); // Destroy properties [ 'track', 'scrollbarRifles', 'scrollbar', 'scrollbarGroup', 'group' ].forEach(function (prop) { if (scroller[prop] && scroller[prop].destroy) { scroller[prop] = scroller[prop].destroy(); } }); // #6421, chart may have more scrollbars if (navigator && scroller === navigator.scrollbar) { navigator.scrollbar = null; // Destroy elements in collection destroyObjectProperties(navigator.scrollbarButtons); } } /** * Draw the scrollbar buttons with arrows * * @private * @function Highcharts.Scrollbar#drawScrollbarButton * @param {number} index * 0 is left, 1 is right */ drawScrollbarButton(index) { const scroller = this, renderer = scroller.renderer, scrollbarButtons = scroller.scrollbarButtons, options = scroller.options, size = scroller.size, group = renderer.g().add(scroller.group); scrollbarButtons.push(group); if (options.buttonsEnabled) { // Create a rectangle for the scrollbar button const rect = renderer.rect() .addClass('highcharts-scrollbar-button') .add(group); // Presentational attributes if (!scroller.chart.styledMode) { rect.attr({ stroke: options.buttonBorderColor, 'stroke-width': options.buttonBorderWidth, fill: options.buttonBackgroundColor }); } // Place the rectangle based on the rendered stroke width rect.attr(rect.crisp({ x: -0.5, y: -0.5, // +1 to compensate for crispifying in rect method width: size + 1, height: size + 1, r: options.buttonBorderRadius }, rect.strokeWidth())); // Button arrow const arrow = renderer .path(Scrollbar.swapXY([[ 'M', size / 2 + (index ? -1 : 1), size / 2 - 3 ], [ 'L', size / 2 + (index ? -1 : 1), size / 2 + 3 ], [ 'L', size / 2 + (index ? 2 : -2), size / 2 ]], options.vertical)) .addClass('highcharts-scrollbar-arrow') .add(scrollbarButtons[index]); if (!scroller.chart.styledMode) { arrow.attr({ fill: options.buttonArrowColor }); } } } /** * @private * @function Highcharts.Scrollbar#init * @param {Highcharts.SVGRenderer} renderer * @param {Highcharts.ScrollbarOptions} options * @param {Highcharts.Chart} chart */ init(renderer, options, chart) { const scroller = this; scroller.scrollbarButtons = []; scroller.renderer = renderer; scroller.userOptions = options; scroller.options = merge(ScrollbarDefaults, defaultOptions.scrollbar, options); scroller.options.margin = pick(scroller.options.margin, 10); scroller.chart = chart; // Backward compatibility scroller.size = pick(scroller.options.size, scroller.options.height); // Init if (options.enabled) { scroller.render(); scroller.addEvents(); } } mouseDownHandler(e) { const scroller = this, normalizedEvent = scroller.chart.pointer?.normalize(e) || e, mousePosition = scroller.cursorToScrollbarPosition(normalizedEvent); scroller.chartX = mousePosition.chartX; scroller.chartY = mousePosition.chartY; scroller.initPositions = [scroller.from, scroller.to]; scroller.grabbedCenter = true; } /** * Event handler for the mouse move event. * @private */ mouseMoveHandler(e) { const scroller = this, normalizedEvent = scroller.chart.pointer?.normalize(e) || e, options = scroller.options, direction = options.vertical ? 'chartY' : 'chartX', initPositions = scroller.initPositions || []; let scrollPosition, chartPosition, change; // In iOS, a mousemove event with e.pageX === 0 is fired when // holding the finger down in the center of the scrollbar. This // should be ignored. if (scroller.grabbedCenter && // #4696, scrollbar failed on Android (!e.touches || e.touches[0][direction] !== 0)) { chartPosition = scroller.cursorToScrollbarPosition(normalizedEvent)[direction]; scrollPosition = scroller[direction]; change = chartPosition - scrollPosition; scroller.hasDragged = true; scroller.updatePosition(initPositions[0] + change, initPositions[1] + change); if (scroller.hasDragged) { fireEvent(scroller, 'changed', { from: scroller.from, to: scroller.to, trigger: 'scrollbar', DOMType: e.type, DOMEvent: e }); } } } /** * Event handler for the mouse up event. * @private */ mouseUpHandler(e) { const scroller = this; if (scroller.hasDragged) { fireEvent(scroller, 'changed', { from: scroller.from, to: scroller.to, trigger: 'scrollbar', DOMType: e.type, DOMEvent: e }); } scroller.grabbedCenter = scroller.hasDragged = scroller.chartX = scroller.chartY = null; } /** * Position the scrollbar, method called from a parent with defined * dimensions. * * @private * @function Highcharts.Scrollbar#position * @param {number} x * x-position on the chart * @param {number} y * y-position on the chart * @param {number} width * width of the scrollbar * @param {number} height * height of the scrollbar */ position(x, y, width, height) { const scroller = this, options = scroller.options, { buttonsEnabled, margin = 0, vertical } = options, method = scroller.rendered ? 'animate' : 'attr'; let xOffset = height, yOffset = 0; // Make the scrollbar visible when it is repositioned, #15763. scroller.group.show(); scroller.x = x; scroller.y = y + this.trackBorderWidth; scroller.width = width; // Width with buttons scroller.height = height; scroller.xOffset = xOffset; scroller.yOffset = yOffset; // If Scrollbar is a vertical type, swap options: if (vertical) { scroller.width = scroller.yOffset = width = yOffset = scroller.size; scroller.xOffset = xOffset = 0; scroller.yOffset = yOffset = buttonsEnabled ? scroller.size : 0; // Width without buttons scroller.barWidth = height - (buttonsEnabled ? width * 2 : 0); scroller.x = x = x + margin; } else { scroller.height = height = scroller.size; scroller.xOffset = xOffset = buttonsEnabled ? scroller.size : 0; // Width without buttons scroller.barWidth = width - (buttonsEnabled ? height * 2 : 0); scroller.y = scroller.y + margin; } // Set general position for a group: scroller.group[method]({ translateX: x, translateY: scroller.y }); // Resize background/track: scroller.track[method]({ width: width, height: height }); // Move right/bottom button to its place: scroller.scrollbarButtons[1][method]({ translateX: vertical ? 0 : width - xOffset, translateY: vertical ? height - yOffset : 0 }); } /** * Removes the event handlers attached previously with addEvents. * * @private * @function Highcharts.Scrollbar#removeEvents */ removeEvents() { this._events.forEach(function (args) { removeEvent.apply(null, args); }); this._events.length = 0; } /** * Render scrollbar with all required items. * * @private * @function Highcharts.Scrollbar#render */ render() { const scroller = this, renderer = scroller.renderer, options = scroller.options, size = scroller.size, styledMode = scroller.chart.styledMode, group = renderer.g('scrollbar') .attr({ zIndex: options.zIndex }) .hide() // Initially hide the scrollbar #15863 .add(); // Draw the scrollbar group scroller.group = group; // Draw the scrollbar track: scroller.track = renderer.rect() .addClass('highcharts-scrollbar-track') .attr({ r: options.trackBorderRadius || 0, height: size, width: size }).add(group); if (!styledMode) { scroller.track.attr({ fill: options.trackBackgroundColor, stroke: options.trackBorderColor, 'stroke-width': options.trackBorderWidth }); } const trackBorderWidth = scroller.trackBorderWidth = scroller.track.strokeWidth(); scroller.track.attr({ x: -trackBorderWidth % 2 / 2, y: -trackBorderWidth % 2 / 2 }); // Draw the scrollbar itself scroller.scrollbarGroup = renderer.g().add(group); scroller.scrollbar = renderer.rect() .addClass('highcharts-scrollbar-thumb') .attr({ height: size - trackBorderWidth, width: size - trackBorderWidth, r: options.barBorderRadius || 0 }).add(scroller.scrollbarGroup); scroller.scrollbarRifles = renderer .path(Scrollbar.swapXY([ ['M', -3, size / 4], ['L', -3, 2 * size / 3], ['M', 0, size / 4], ['L', 0, 2 * size / 3], ['M', 3, size / 4], ['L', 3, 2 * size / 3] ], options.vertical)) .addClass('highcharts-scrollbar-rifles') .add(scroller.scrollbarGroup); if (!styledMode) { scroller.scrollbar.attr({ fill: options.barBackgroundColor, stroke: options.barBorderColor, 'stroke-width': options.barBorderWidth }); scroller.scrollbarRifles.attr({ stroke: options.rifleColor, 'stroke-width': 1 }); } scroller.scrollbarStrokeWidth = scroller.scrollbar.strokeWidth(); scroller.scrollbarGroup.translate(-scroller.scrollbarStrokeWidth % 2 / 2, -scroller.scrollbarStrokeWidth % 2 / 2); // Draw the buttons: scroller.drawScrollbarButton(0); scroller.drawScrollbarButton(1); } /** * Set scrollbar size, with a given scale. * * @private * @function Highcharts.Scrollbar#setRange * @param {number} from * scale (0-1) where bar should start * @param {number} to * scale (0-1) where bar should end */ setRange(from, to) { const scroller = this, options = scroller.options, vertical = options.vertical, minWidth = options.minWidth, fullWidth = scroller.barWidth, method = (this.rendered && !this.hasDragged && !(this.chart.navigator && this.chart.navigator.hasDragged)) ? 'animate' : 'attr'; if (!defined(fullWidth)) { return; } const toPX = fullWidth * Math.min(to, 1); let fromPX, newSize; from = Math.max(from, 0); fromPX = Math.ceil(fullWidth * from); scroller.calculatedWidth = newSize = correctFloat(toPX - fromPX); // We need to recalculate position, if minWidth is used if (newSize < minWidth) { fromPX = (fullWidth - minWidth + newSize) * from; newSize = minWidth; } const newPos = Math.floor(fromPX + scroller.xOffset + scroller.yOffset); const newRiflesPos = newSize / 2 - 0.5; // -0.5 -> rifle line width / 2 // Store current position: scroller.from = from; scroller.to = to; if (!vertical) { scroller.scrollbarGroup[method]({ translateX: newPos }); scroller.scrollbar[method]({ width: newSize }); scroller.scrollbarRifles[method]({ translateX: newRiflesPos }); scroller.scrollbarLeft = newPos; scroller.scrollbarTop = 0; } else { scroller.scrollbarGroup[method]({ translateY: newPos }); scroller.scrollbar[method]({ height: newSize }); scroller.scrollbarRifles[method]({ translateY: newRiflesPos }); scroller.scrollbarTop = newPos; scroller.scrollbarLeft = 0; } if (newSize <= 12) { scroller.scrollbarRifles.hide(); } else { scroller.scrollbarRifles.show(); } // Show or hide the scrollbar based on the showFull setting if (options.showFull === false) { if (from <= 0 && to >= 1) { scroller.group.hide(); } else { scroller.group.show(); } } scroller.rendered = true; } /** * Checks if the extremes should be updated in response to a scrollbar * change event. * * @private * @function Highcharts.Scrollbar#shouldUpdateExtremes */ shouldUpdateExtremes(eventType) { return (pick(this.options.liveRedraw, H.svg && !H.isTouchDevice && !this.chart.boosted) || // Mouseup always should change extremes eventType === 'mouseup' || eventType === 'touchend' || // Internal events !defined(eventType)); } trackClick(e) { const scroller = this; const normalizedEvent = scroller.chart.pointer?.normalize(e) || e, range = scroller.to - scroller.from, top = scroller.y + scroller.scrollbarTop, left = scroller.x + scroller.scrollbarLeft; if ((scroller.options.vertical && normalizedEvent.chartY > top) || (!scroller.options.vertical && normalizedEvent.chartX > left)) { // On the top or on the left side of the track: scroller.updatePosition(scroller.from + range, scroller.to + range); } else { // On the bottom or the right side of the track: scroller.updatePosition(scroller.from - range, scroller.to - range); } fireEvent(scroller, 'changed', { from: scroller.from, to: scroller.to, trigger: 'scrollbar', DOMEvent: e }); } /** * Update the scrollbar with new options * * @private * @function Highcharts.Scrollbar#update * @param {Highcharts.ScrollbarOptions} options */ update(options) { this.destroy(); this.init(this.chart.renderer, merge(true, this.options, options), this.chart); } /** * Update position option in the Scrollbar, with normalized 0-1 scale * * @private * @function Highcharts.Scrollbar#updatePosition * @param {number} from * @param {number} to */ updatePosition(from, to) { if (to > 1) { from = correctFloat(1 - correctFloat(to - from)); to = 1; } if (from < 0) { to = correctFloat(to - from); from = 0; } this.from = from; this.to = to; } } /* * * * Static Properties * * */ Scrollbar.defaultOptions = ScrollbarDefaults; /* * * * Registry * * */ defaultOptions.scrollbar = merge(true, Scrollbar.defaultOptions, defaultOptions.scrollbar); /* * * * Default Export * * */ return Scrollbar; }); _registerModule(_modules, 'Stock/Navigator/Navigator.js', [_modules['Core/Axis/Axis.js'], _modules['Stock/Navigator/ChartNavigatorComposition.js'], _modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Core/Axis/NavigatorAxisComposition.js'], _modules['Stock/Navigator/NavigatorComposition.js'], _modules['Stock/Scrollbar/Scrollbar.js'], _modules['Core/Utilities.js']], function (Axis, ChartNavigatorComposition, D, H, NavigatorAxisAdditions, NavigatorComposition, Scrollbar, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defaultOptions } = D; const { isTouchDevice } = H; const { addEvent, clamp, correctFloat, defined, destroyObjectProperties, erase, extend, find, fireEvent, isArray, isNumber, merge, pick, removeEvent, splat } = U; /* * * * Functions * * */ /** * Finding the min or max of a set of variables where we don't know if they are * defined, is a pattern that is repeated several places in Highcharts. Consider * making this a global utility method. * @private */ function numExt(extreme, ...args) { const numbers = [].filter.call(args, isNumber); if (numbers.length) { return Math[extreme].apply(0, numbers); } } /* * * * Class * * */ /** * The Navigator class * * @private * @class * @name Highcharts.Navigator * * @param {Highcharts.Chart} chart * Chart object */ class Navigator { /* * * * Static Properties * * */ static compose(ChartClass, AxisClass, SeriesClass) { ChartNavigatorComposition.compose(ChartClass, Navigator); NavigatorComposition.compose(ChartClass, AxisClass, SeriesClass); } /* * * * Constructor * * */ constructor(chart) { this.scrollbarHeight = 0; this.init(chart); } /* * * * Functions * * */ /** * Draw one of the handles on the side of the zoomed range in the navigator. * * @private * @function Highcharts.Navigator#drawHandle * * @param {number} x * The x center for the handle * * @param {number} index * 0 for left and 1 for right * * @param {boolean|undefined} inverted * Flag for chart.inverted * * @param {string} verb * Use 'animate' or 'attr' */ drawHandle(x, index, inverted, verb) { const navigator = this, height = navigator.navigatorOptions.handles.height; // Place it navigator.handles[index][verb](inverted ? { translateX: Math.round(navigator.left + navigator.height / 2), translateY: Math.round(navigator.top + parseInt(x, 10) + 0.5 - height) } : { translateX: Math.round(navigator.left + parseInt(x, 10)), translateY: Math.round(navigator.top + navigator.height / 2 - height / 2 - 1) }); } /** * Render outline around the zoomed range * * @private * @function Highcharts.Navigator#drawOutline * * @param {number} zoomedMin * in pixels position where zoomed range starts * * @param {number} zoomedMax * in pixels position where zoomed range ends * * @param {boolean|undefined} inverted * flag if chart is inverted * * @param {string} verb * use 'animate' or 'attr' */ drawOutline(zoomedMin, zoomedMax, inverted, verb) { const navigator = this, maskInside = navigator.navigatorOptions.maskInside, outlineWidth = navigator.outline.strokeWidth(), halfOutline = outlineWidth / 2, outlineCorrection = (outlineWidth % 2) / 2, // #5800 scrollButtonSize = navigator.scrollButtonSize, navigatorSize = navigator.size, navigatorTop = navigator.top, height = navigator.height, lineTop = navigatorTop - halfOutline, lineBtm = navigatorTop + height; let left = navigator.left, verticalMin, path; if (inverted) { verticalMin = navigatorTop + zoomedMax + outlineCorrection; zoomedMax = navigatorTop + zoomedMin + outlineCorrection; path = [ [ 'M', left + height, navigatorTop - scrollButtonSize - outlineCorrection ], // Top right of zoomed range ['L', left + height, verticalMin], ['L', left, verticalMin], ['M', left, zoomedMax], ['L', left + height, zoomedMax], [ 'L', left + height, navigatorTop + navigatorSize + scrollButtonSize ] ]; if (maskInside) { path.push( // Upper left of zoomed range ['M', left + height, verticalMin - halfOutline], // Upper right of z.r. [ 'L', left + height, zoomedMax + halfOutline ]); } } else { left -= scrollButtonSize; zoomedMin += left + scrollButtonSize - outlineCorrection; zoomedMax += left + scrollButtonSize - outlineCorrection; path = [ // Left ['M', left, lineTop], // Upper left of zoomed range ['L', zoomedMin, lineTop], // Lower left of z.r. ['L', zoomedMin, lineBtm], // Lower right of z.r. ['M', zoomedMax, lineBtm], // Upper right of z.r. ['L', zoomedMax, lineTop], // Right [ 'L', left + navigatorSize + scrollButtonSize * 2, navigatorTop + halfOutline ] ]; if (maskInside) { path.push( // Upper left of zoomed range ['M', zoomedMin - halfOutline, lineTop], // Upper right of z.r. ['L', zoomedMax + halfOutline, lineTop]); } } navigator.outline[verb]({ d: path }); } /** * Render outline around the zoomed range * * @private * @function Highcharts.Navigator#drawMasks * * @param {number} zoomedMin * in pixels position where zoomed range starts * * @param {number} zoomedMax * in pixels position where zoomed range ends * * @param {boolean|undefined} inverted * flag if chart is inverted * * @param {string} verb * use 'animate' or 'attr' */ drawMasks(zoomedMin, zoomedMax, inverted, verb) { const navigator = this, left = navigator.left, top = navigator.top, navigatorHeight = navigator.height; let height, width, x, y; // Determine rectangle position & size // According to (non)inverted position: if (inverted) { x = [left, left, left]; y = [top, top + zoomedMin, top + zoomedMax]; width = [navigatorHeight, navigatorHeight, navigatorHeight]; height = [ zoomedMin, zoomedMax - zoomedMin, navigator.size - zoomedMax ]; } else { x = [left, left + zoomedMin, left + zoomedMax]; y = [top, top, top]; width = [ zoomedMin, zoomedMax - zoomedMin, navigator.size - zoomedMax ]; height = [navigatorHeight, navigatorHeight, navigatorHeight]; } navigator.shades.forEach((shade, i) => { shade[verb]({ x: x[i], y: y[i], width: width[i], height: height[i] }); }); } /** * Generate DOM elements for a navigator: * * - main navigator group * * - all shades * * - outline * * - handles * * @private * @function Highcharts.Navigator#renderElements */ renderElements() { const navigator = this, navigatorOptions = navigator.navigatorOptions, maskInside = navigatorOptions.maskInside, chart = navigator.chart, inverted = chart.inverted, renderer = chart.renderer, mouseCursor = { cursor: inverted ? 'ns-resize' : 'ew-resize' }, // Create the main navigator group navigatorGroup = navigator.navigatorGroup = renderer .g('navigator') .attr({ zIndex: 8, visibility: 'hidden' }) .add(); // Create masks, each mask will get events and fill: [ !maskInside, maskInside, !maskInside ].forEach((hasMask, index) => { const shade = renderer.rect() .addClass('highcharts-navigator-mask' + (index === 1 ? '-inside' : '-outside')) .add(navigatorGroup); if (!chart.styledMode) { shade.attr({ fill: hasMask ? navigatorOptions.maskFill : 'rgba(0,0,0,0)' }); if (index === 1) { shade.css(mouseCursor); } } navigator.shades[index] = shade; }); // Create the outline: navigator.outline = renderer.path() .addClass('highcharts-navigator-outline') .add(navigatorGroup); if (!chart.styledMode) { navigator.outline.attr({ 'stroke-width': navigatorOptions.outlineWidth, stroke: navigatorOptions.outlineColor }); } // Create the handlers: if (navigatorOptions.handles && navigatorOptions.handles.enabled) { const handlesOptions = navigatorOptions.handles, { height, width } = handlesOptions; [0, 1].forEach((index) => { navigator.handles[index] = renderer.symbol(handlesOptions.symbols[index], -width / 2 - 1, 0, width, height, handlesOptions); if (chart.inverted) { navigator.handles[index].attr({ rotation: 90, rotationOriginX: Math.floor(-width / 2), rotationOriginY: (height + width) / 2 }); } // Z index is 6 for right handle, 7 for left. Can't be 10, // because of the tooltip in inverted chart (#2908). navigator.handles[index].attr({ zIndex: 7 - index }) .addClass('highcharts-navigator-handle ' + 'highcharts-navigator-handle-' + ['left', 'right'][index]).add(navigatorGroup); if (!chart.styledMode) { navigator.handles[index] .attr({ fill: handlesOptions.backgroundColor, stroke: handlesOptions.borderColor, 'stroke-width': handlesOptions.lineWidth }) .css(mouseCursor); } }); } } /** * Update navigator * * @private * @function Highcharts.Navigator#update * * @param {Highcharts.NavigatorOptions} options * Options to merge in when updating navigator */ update(options) { // Remove references to old navigator series in base series (this.series || []).forEach((series) => { if (series.baseSeries) { delete series.baseSeries.navigatorSeries; } }); // Destroy and rebuild navigator this.destroy(); const chartOptions = this.chart.options; merge(true, chartOptions.navigator, options); this.init(this.chart); } /** * Render the navigator * * @private * @function Highcharts.Navigator#render * @param {number} min * X axis value minimum * @param {number} max * X axis value maximum * @param {number} [pxMin] * Pixel value minimum * @param {number} [pxMax] * Pixel value maximum */ render(min, max, pxMin, pxMax) { const navigator = this, chart = navigator.chart, xAxis = navigator.xAxis, pointRange = xAxis.pointRange || 0, scrollbarXAxis = xAxis.navigatorAxis.fake ? chart.xAxis[0] : xAxis, navigatorEnabled = navigator.navigatorEnabled, rendered = navigator.rendered, inverted = chart.inverted, minRange = chart.xAxis[0].minRange, maxRange = chart.xAxis[0].options.maxRange, scrollButtonSize = navigator.scrollButtonSize; let navigatorWidth, scrollbarLeft, scrollbarTop, scrollbarHeight = navigator.scrollbarHeight, navigatorSize, verb; // Don't redraw while moving the handles (#4703). if (this.hasDragged && !defined(pxMin)) { return; } min = correctFloat(min - pointRange / 2); max = correctFloat(max + pointRange / 2); // Don't render the navigator until we have data (#486, #4202, #5172). if (!isNumber(min) || !isNumber(max)) { // However, if navigator was already rendered, we may need to resize // it. For example hidden series, but visible navigator (#6022). if (rendered) { pxMin = 0; pxMax = pick(xAxis.width, scrollbarXAxis.width); } else { return; } } navigator.left = pick(xAxis.left, // In case of scrollbar only, without navigator chart.plotLeft + scrollButtonSize + (inverted ? chart.plotWidth : 0)); let zoomedMax = navigator.size = navigatorSize = pick(xAxis.len, (inverted ? chart.plotHeight : chart.plotWidth) - 2 * scrollButtonSize); if (inverted) { navigatorWidth = scrollbarHeight; } else { navigatorWidth = navigatorSize + 2 * scrollButtonSize; } // Get the pixel position of the handles pxMin = pick(pxMin, xAxis.toPixels(min, true)); pxMax = pick(pxMax, xAxis.toPixels(max, true)); // Verify (#1851, #2238) if (!isNumber(pxMin) || Math.abs(pxMin) === Infinity) { pxMin = 0; pxMax = navigatorWidth; } // Are we below the minRange? (#2618, #6191) const newMin = xAxis.toValue(pxMin, true), newMax = xAxis.toValue(pxMax, true), currentRange = Math.abs(correctFloat(newMax - newMin)); if (currentRange < minRange) { if (this.grabbedLeft) { pxMin = xAxis.toPixels(newMax - minRange - pointRange, true); } else if (this.grabbedRight) { pxMax = xAxis.toPixels(newMin + minRange + pointRange, true); } } else if (defined(maxRange) && correctFloat(currentRange - pointRange) > maxRange) { if (this.grabbedLeft) { pxMin = xAxis.toPixels(newMax - maxRange - pointRange, true); } else if (this.grabbedRight) { pxMax = xAxis.toPixels(newMin + maxRange + pointRange, true); } } // Handles are allowed to cross, but never exceed the plot area navigator.zoomedMax = clamp(Math.max(pxMin, pxMax), 0, zoomedMax); navigator.zoomedMin = clamp(navigator.fixedWidth ? navigator.zoomedMax - navigator.fixedWidth : Math.min(pxMin, pxMax), 0, zoomedMax); navigator.range = navigator.zoomedMax - navigator.zoomedMin; zoomedMax = Math.round(navigator.zoomedMax); const zoomedMin = Math.round(navigator.zoomedMin); if (navigatorEnabled) { navigator.navigatorGroup.attr({ visibility: 'inherit' }); // Place elements verb = rendered && !navigator.hasDragged ? 'animate' : 'attr'; navigator.drawMasks(zoomedMin, zoomedMax, inverted, verb); navigator.drawOutline(zoomedMin, zoomedMax, inverted, verb); if (navigator.navigatorOptions.handles.enabled) { navigator.drawHandle(zoomedMin, 0, inverted, verb); navigator.drawHandle(zoomedMax, 1, inverted, verb); } } if (navigator.scrollbar) { if (inverted) { scrollbarTop = navigator.top - scrollButtonSize; scrollbarLeft = navigator.left - scrollbarHeight + (navigatorEnabled || !scrollbarXAxis.opposite ? 0 : // Multiple axes has offsets: (scrollbarXAxis.titleOffset || 0) + // Self margin from the axis.title scrollbarXAxis.axisTitleMargin); scrollbarHeight = navigatorSize + 2 * scrollButtonSize; } else { scrollbarTop = navigator.top + (navigatorEnabled ? navigator.height : -scrollbarHeight); scrollbarLeft = navigator.left - scrollButtonSize; } // Reposition scrollbar navigator.scrollbar.position(scrollbarLeft, scrollbarTop, navigatorWidth, scrollbarHeight); // Keep scale 0-1 navigator.scrollbar.setRange( // Use real value, not rounded because range can be very small // (#1716) navigator.zoomedMin / (navigatorSize || 1), navigator.zoomedMax / (navigatorSize || 1)); } navigator.rendered = true; fireEvent(this, 'afterRender'); } /** * Set up the mouse and touch events for the navigator * * @private * @function Highcharts.Navigator#addMouseEvents */ addMouseEvents() { const navigator = this, chart = navigator.chart, container = chart.container; let eventsToUnbind = [], mouseMoveHandler, mouseUpHandler; /** * Create mouse events' handlers. * Make them as separate functions to enable wrapping them: */ navigator.mouseMoveHandler = mouseMoveHandler = function (e) { navigator.onMouseMove(e); }; navigator.mouseUpHandler = mouseUpHandler = function (e) { navigator.onMouseUp(e); }; // Add shades and handles mousedown events eventsToUnbind = navigator.getPartsEvents('mousedown'); eventsToUnbind.push( // Add mouse move and mouseup events. These are bind to doc/div, // because Navigator.grabbedSomething flags are stored in mousedown // events addEvent(chart.renderTo, 'mousemove', mouseMoveHandler), addEvent(container.ownerDocument, 'mouseup', mouseUpHandler), // Touch events addEvent(chart.renderTo, 'touchmove', mouseMoveHandler), addEvent(container.ownerDocument, 'touchend', mouseUpHandler)); eventsToUnbind.concat(navigator.getPartsEvents('touchstart')); navigator.eventsToUnbind = eventsToUnbind; // Data events if (navigator.series && navigator.series[0]) { eventsToUnbind.push(addEvent(navigator.series[0].xAxis, 'foundExtremes', function () { chart.navigator.modifyNavigatorAxisExtremes(); })); } } /** * Generate events for handles and masks * * @private * @function Highcharts.Navigator#getPartsEvents * * @param {string} eventName * Event name handler, 'mousedown' or 'touchstart' * * @return {Array} * An array of functions to remove navigator functions from the * events again. */ getPartsEvents(eventName) { const navigator = this, events = []; ['shades', 'handles'].forEach(function (name) { navigator[name].forEach(function (navigatorItem, index) { events.push(addEvent(navigatorItem.element, eventName, function (e) { navigator[name + 'Mousedown'](e, index); })); }); }); return events; } /** * Mousedown on a shaded mask, either: * * - will be stored for future drag&drop * * - will directly shift to a new range * * @private * @function Highcharts.Navigator#shadesMousedown * * @param {Highcharts.PointerEventObject} e * Mouse event * * @param {number} index * Index of a mask in Navigator.shades array */ shadesMousedown(e, index) { e = this.chart.pointer?.normalize(e) || e; const navigator = this, chart = navigator.chart, xAxis = navigator.xAxis, zoomedMin = navigator.zoomedMin, navigatorSize = navigator.size, range = navigator.range; let navigatorPosition = navigator.left, chartX = e.chartX, fixedMax, fixedMin, ext, left; // For inverted chart, swap some options: if (chart.inverted) { chartX = e.chartY; navigatorPosition = navigator.top; } if (index === 1) { // Store information for drag&drop navigator.grabbedCenter = chartX; navigator.fixedWidth = range; navigator.dragOffset = chartX - zoomedMin; } else { // Shift the range by clicking on shaded areas left = chartX - navigatorPosition - range / 2; if (index === 0) { left = Math.max(0, left); } else if (index === 2 && left + range >= navigatorSize) { left = navigatorSize - range; if (navigator.reversedExtremes) { // #7713 left -= range; fixedMin = navigator.getUnionExtremes().dataMin; } else { // #2293, #3543 fixedMax = navigator.getUnionExtremes().dataMax; } } if (left !== zoomedMin) { // It has actually moved navigator.fixedWidth = range; // #1370 ext = xAxis.navigatorAxis.toFixedRange(left, left + range, fixedMin, fixedMax); if (defined(ext.min)) { // #7411 fireEvent(this, 'setRange', { min: Math.min(ext.min, ext.max), max: Math.max(ext.min, ext.max), redraw: true, eventArguments: { trigger: 'navigator' } }); } } } } /** * Mousedown on a handle mask. * Will store necessary information for drag&drop. * * @private * @function Highcharts.Navigator#handlesMousedown * @param {Highcharts.PointerEventObject} e * Mouse event * @param {number} index * Index of a handle in Navigator.handles array */ handlesMousedown(e, index) { e = this.chart.pointer?.normalize(e) || e; const navigator = this, chart = navigator.chart, baseXAxis = chart.xAxis[0], // For reversed axes, min and max are changed, // so the other extreme should be stored reverse = navigator.reversedExtremes; if (index === 0) { // Grab the left handle navigator.grabbedLeft = true; navigator.otherHandlePos = navigator.zoomedMax; navigator.fixedExtreme = reverse ? baseXAxis.min : baseXAxis.max; } else { // Grab the right handle navigator.grabbedRight = true; navigator.otherHandlePos = navigator.zoomedMin; navigator.fixedExtreme = reverse ? baseXAxis.max : baseXAxis.min; } chart.setFixedRange(void 0); } /** * Mouse move event based on x/y mouse position. * * @private * @function Highcharts.Navigator#onMouseMove * * @param {Highcharts.PointerEventObject} e * Mouse event */ onMouseMove(e) { const navigator = this, chart = navigator.chart, navigatorSize = navigator.navigatorSize, range = navigator.range, dragOffset = navigator.dragOffset, inverted = chart.inverted; let left = navigator.left, chartX; // In iOS, a mousemove event with e.pageX === 0 is fired when holding // the finger down in the center of the scrollbar. This should be // ignored. if (!e.touches || e.touches[0].pageX !== 0) { // #4696 e = chart.pointer?.normalize(e) || e; chartX = e.chartX; // Swap some options for inverted chart if (inverted) { left = navigator.top; chartX = e.chartY; } // Drag left handle or top handle if (navigator.grabbedLeft) { navigator.hasDragged = true; navigator.render(0, 0, chartX - left, navigator.otherHandlePos); // Drag right handle or bottom handle } else if (navigator.grabbedRight) { navigator.hasDragged = true; navigator.render(0, 0, navigator.otherHandlePos, chartX - left); // Drag scrollbar or open area in navigator } else if (navigator.grabbedCenter) { navigator.hasDragged = true; if (chartX < dragOffset) { // Outside left chartX = dragOffset; // Outside right } else if (chartX > navigatorSize + dragOffset - range) { chartX = navigatorSize + dragOffset - range; } navigator.render(0, 0, chartX - dragOffset, chartX - dragOffset + range); } if (navigator.hasDragged && navigator.scrollbar && pick(navigator.scrollbar.options.liveRedraw, // By default, don't run live redraw on touch // devices or if the chart is in boost. !isTouchDevice && !this.chart.boosted)) { e.DOMType = e.type; setTimeout(function () { navigator.onMouseUp(e); }, 0); } } } /** * Mouse up event based on x/y mouse position. * * @private * @function Highcharts.Navigator#onMouseUp * @param {Highcharts.PointerEventObject} e * Mouse event */ onMouseUp(e) { const navigator = this, chart = navigator.chart, xAxis = navigator.xAxis, scrollbar = navigator.scrollbar, DOMEvent = e.DOMEvent || e, inverted = chart.inverted, verb = navigator.rendered && !navigator.hasDragged ? 'animate' : 'attr'; let zoomedMax, zoomedMin, unionExtremes, fixedMin, fixedMax, ext; if ( // MouseUp is called for both, navigator and scrollbar (that order), // which causes calling afterSetExtremes twice. Prevent first call // by checking if scrollbar is going to set new extremes (#6334) (navigator.hasDragged && (!scrollbar || !scrollbar.hasDragged)) || e.trigger === 'scrollbar') { unionExtremes = navigator.getUnionExtremes(); // When dragging one handle, make sure the other one doesn't change if (navigator.zoomedMin === navigator.otherHandlePos) { fixedMin = navigator.fixedExtreme; } else if (navigator.zoomedMax === navigator.otherHandlePos) { fixedMax = navigator.fixedExtreme; } // Snap to right edge (#4076) if (navigator.zoomedMax === navigator.size) { fixedMax = navigator.reversedExtremes ? unionExtremes.dataMin : unionExtremes.dataMax; } // Snap to left edge (#7576) if (navigator.zoomedMin === 0) { fixedMin = navigator.reversedExtremes ? unionExtremes.dataMax : unionExtremes.dataMin; } ext = xAxis.navigatorAxis.toFixedRange(navigator.zoomedMin, navigator.zoomedMax, fixedMin, fixedMax); if (defined(ext.min)) { fireEvent(this, 'setRange', { min: Math.min(ext.min, ext.max), max: Math.max(ext.min, ext.max), redraw: true, animation: navigator.hasDragged ? false : null, eventArguments: { trigger: 'navigator', triggerOp: 'navigator-drag', DOMEvent: DOMEvent // #1838 } }); } } if (e.DOMType !== 'mousemove' && e.DOMType !== 'touchmove') { navigator.grabbedLeft = navigator.grabbedRight = navigator.grabbedCenter = navigator.fixedWidth = navigator.fixedExtreme = navigator.otherHandlePos = navigator.hasDragged = navigator.dragOffset = null; } // Update position of navigator shades, outline and handles (#12573) if (navigator.navigatorEnabled && isNumber(navigator.zoomedMin) && isNumber(navigator.zoomedMax)) { zoomedMin = Math.round(navigator.zoomedMin); zoomedMax = Math.round(navigator.zoomedMax); if (navigator.shades) { navigator.drawMasks(zoomedMin, zoomedMax, inverted, verb); } if (navigator.outline) { navigator.drawOutline(zoomedMin, zoomedMax, inverted, verb); } if (navigator.navigatorOptions.handles.enabled && Object.keys(navigator.handles).length === navigator.handles.length) { navigator.drawHandle(zoomedMin, 0, inverted, verb); navigator.drawHandle(zoomedMax, 1, inverted, verb); } } } /** * Removes the event handlers attached previously with addEvents. * * @private * @function Highcharts.Navigator#removeEvents */ removeEvents() { if (this.eventsToUnbind) { this.eventsToUnbind.forEach(function (unbind) { unbind(); }); this.eventsToUnbind = void 0; } this.removeBaseSeriesEvents(); } /** * Remove data events. * * @private * @function Highcharts.Navigator#removeBaseSeriesEvents */ removeBaseSeriesEvents() { const baseSeries = this.baseSeries || []; if (this.navigatorEnabled && baseSeries[0]) { if (this.navigatorOptions.adaptToUpdatedData !== false) { baseSeries.forEach(function (series) { removeEvent(series, 'updatedData', this.updatedDataHandler); }, this); } // We only listen for extremes-events on the first baseSeries if (baseSeries[0].xAxis) { removeEvent(baseSeries[0].xAxis, 'foundExtremes', this.modifyBaseAxisExtremes); } } } /** * Initialize the Navigator object * * @private * @function Highcharts.Navigator#init */ init(chart) { const chartOptions = chart.options, navigatorOptions = chartOptions.navigator || {}, navigatorEnabled = navigatorOptions.enabled, scrollbarOptions = chartOptions.scrollbar || {}, scrollbarEnabled = scrollbarOptions.enabled, height = navigatorEnabled && navigatorOptions.height || 0, scrollbarHeight = scrollbarEnabled && scrollbarOptions.height || 0, scrollButtonSize = scrollbarOptions.buttonsEnabled && scrollbarHeight || 0; this.handles = []; this.shades = []; this.chart = chart; this.setBaseSeries(); this.height = height; this.scrollbarHeight = scrollbarHeight; this.scrollButtonSize = scrollButtonSize; this.scrollbarEnabled = scrollbarEnabled; this.navigatorEnabled = navigatorEnabled; this.navigatorOptions = navigatorOptions; this.scrollbarOptions = scrollbarOptions; this.opposite = pick(navigatorOptions.opposite, Boolean(!navigatorEnabled && chart.inverted)); // #6262 const navigator = this, baseSeries = navigator.baseSeries, xAxisIndex = chart.xAxis.length, yAxisIndex = chart.yAxis.length, baseXaxis = baseSeries && baseSeries[0] && baseSeries[0].xAxis || chart.xAxis[0] || { options: {} }; chart.isDirtyBox = true; if (navigator.navigatorEnabled) { // An x axis is required for scrollbar also navigator.xAxis = new Axis(chart, merge({ // Inherit base xAxis' break, ordinal options and overscroll breaks: baseXaxis.options.breaks, ordinal: baseXaxis.options.ordinal, overscroll: baseXaxis.options.overscroll }, navigatorOptions.xAxis, { id: 'navigator-x-axis', yAxis: 'navigator-y-axis', type: 'datetime', index: xAxisIndex, isInternal: true, offset: 0, keepOrdinalPadding: true, startOnTick: false, endOnTick: false, minPadding: 0, maxPadding: 0, zoomEnabled: false }, chart.inverted ? { offsets: [scrollButtonSize, 0, -scrollButtonSize, 0], width: height } : { offsets: [0, -scrollButtonSize, 0, scrollButtonSize], height: height }), 'xAxis'); navigator.yAxis = new Axis(chart, merge(navigatorOptions.yAxis, { id: 'navigator-y-axis', alignTicks: false, offset: 0, index: yAxisIndex, isInternal: true, reversed: pick((navigatorOptions.yAxis && navigatorOptions.yAxis.reversed), (chart.yAxis[0] && chart.yAxis[0].reversed), false), zoomEnabled: false }, chart.inverted ? { width: height } : { height: height }), 'yAxis'); // If we have a base series, initialize the navigator series if (baseSeries || navigatorOptions.series.data) { navigator.updateNavigatorSeries(false); // If not, set up an event to listen for added series } else if (chart.series.length === 0) { navigator.unbindRedraw = addEvent(chart, 'beforeRedraw', function () { // We've got one, now add it as base if (chart.series.length > 0 && !navigator.series) { navigator.setBaseSeries(); navigator.unbindRedraw(); // Reset } }); } navigator.reversedExtremes = (chart.inverted && !navigator.xAxis.reversed) || (!chart.inverted && navigator.xAxis.reversed); // Render items, so we can bind events to them: navigator.renderElements(); // Add mouse events navigator.addMouseEvents(); // In case of scrollbar only, fake an x axis to get translation } else { navigator.xAxis = { chart, navigatorAxis: { fake: true }, translate: function (value, reverse) { const axis = chart.xAxis[0], ext = axis.getExtremes(), scrollTrackWidth = axis.len - 2 * scrollButtonSize, min = numExt('min', axis.options.min, ext.dataMin), valueRange = numExt('max', axis.options.max, ext.dataMax) - min; return reverse ? // From pixel to value (value * valueRange / scrollTrackWidth) + min : // From value to pixel scrollTrackWidth * (value - min) / valueRange; }, toPixels: function (value) { return this.translate(value); }, toValue: function (value) { return this.translate(value, true); } }; navigator.xAxis.navigatorAxis.axis = navigator.xAxis; navigator.xAxis.navigatorAxis.toFixedRange = (NavigatorAxisAdditions.prototype.toFixedRange.bind(navigator.xAxis.navigatorAxis)); } // Initialize the scrollbar if (chart.options.scrollbar.enabled) { const options = merge(chart.options.scrollbar, { vertical: chart.inverted }); if (!isNumber(options.margin) && navigator.navigatorEnabled) { options.margin = chart.inverted ? -3 : 3; } chart.scrollbar = navigator.scrollbar = new Scrollbar(chart.renderer, options, chart); addEvent(navigator.scrollbar, 'changed', function (e) { const range = navigator.size, to = range * this.to, from = range * this.from; navigator.hasDragged = navigator.scrollbar.hasDragged; navigator.render(0, 0, from, to); if (this.shouldUpdateExtremes(e.DOMType)) { setTimeout(function () { navigator.onMouseUp(e); }); } }); } // Add data events navigator.addBaseSeriesEvents(); // Add redraw events navigator.addChartEvents(); } /** * Get the union data extremes of the chart - the outer data extremes of the * base X axis and the navigator axis. * * @private * @function Highcharts.Navigator#getUnionExtremes */ getUnionExtremes(returnFalseOnNoBaseSeries) { const baseAxis = this.chart.xAxis[0], navAxis = this.xAxis, navAxisOptions = navAxis.options, baseAxisOptions = baseAxis.options; let ret; if (!returnFalseOnNoBaseSeries || baseAxis.dataMin !== null) { ret = { dataMin: pick(// #4053 navAxisOptions && navAxisOptions.min, numExt('min', baseAxisOptions.min, baseAxis.dataMin, navAxis.dataMin, navAxis.min)), dataMax: pick(navAxisOptions && navAxisOptions.max, numExt('max', baseAxisOptions.max, baseAxis.dataMax, navAxis.dataMax, navAxis.max)) }; } return ret; } /** * Set the base series and update the navigator series from this. With a bit * of modification we should be able to make this an API method to be called * from the outside * * @private * @function Highcharts.Navigator#setBaseSeries * @param {Highcharts.SeriesOptionsType} [baseSeriesOptions] * Additional series options for a navigator * @param {boolean} [redraw] * Whether to redraw after update. */ setBaseSeries(baseSeriesOptions, redraw) { const chart = this.chart, baseSeries = this.baseSeries = []; baseSeriesOptions = (baseSeriesOptions || chart.options && chart.options.navigator.baseSeries || (chart.series.length ? // Find the first non-navigator series (#8430) find(chart.series, (s) => (!s.options.isInternal)).index : 0)); // Iterate through series and add the ones that should be shown in // navigator. (chart.series || []).forEach((series, i) => { if ( // Don't include existing nav series !series.options.isInternal && (series.options.showInNavigator || (i === baseSeriesOptions || series.options.id === baseSeriesOptions) && series.options.showInNavigator !== false)) { baseSeries.push(series); } }); // When run after render, this.xAxis already exists if (this.xAxis && !this.xAxis.navigatorAxis.fake) { this.updateNavigatorSeries(true, redraw); } } /** * Update series in the navigator from baseSeries, adding new if does not * exist. * * @private * @function Highcharts.Navigator.updateNavigatorSeries */ updateNavigatorSeries(addEvents, redraw) { const navigator = this, chart = navigator.chart, baseSeries = navigator.baseSeries, navSeriesMixin = { enableMouseTracking: false, index: null, linkedTo: null, group: 'nav', padXAxis: false, xAxis: 'navigator-x-axis', yAxis: 'navigator-y-axis', showInLegend: false, stacking: void 0, isInternal: true, states: { inactive: { opacity: 1 } } }, // Remove navigator series that are no longer in the baseSeries navigatorSeries = navigator.series = (navigator.series || []).filter((navSeries) => { const base = navSeries.baseSeries; if (baseSeries.indexOf(base) < 0) { // Not in array // If there is still a base series connected to this // series, remove event handler and reference. if (base) { removeEvent(base, 'updatedData', navigator.updatedDataHandler); delete base.navigatorSeries; } // Kill the nav series. It may already have been // destroyed (#8715). if (navSeries.chart) { navSeries.destroy(); } return false; } return true; }); let baseOptions, mergedNavSeriesOptions, chartNavigatorSeriesOptions = navigator.navigatorOptions.series, baseNavigatorOptions; // Go through each base series and merge the options to create new // series if (baseSeries && baseSeries.length) { baseSeries.forEach((base) => { const linkedNavSeries = base.navigatorSeries, userNavOptions = extend( // Grab color and visibility from base as default { color: base.color, visible: base.visible }, !isArray(chartNavigatorSeriesOptions) ? chartNavigatorSeriesOptions : defaultOptions.navigator.series); // Don't update if the series exists in nav and we have disabled // adaptToUpdatedData. if (linkedNavSeries && navigator.navigatorOptions.adaptToUpdatedData === false) { return; } navSeriesMixin.name = 'Navigator ' + baseSeries.length; baseOptions = base.options || {}; baseNavigatorOptions = baseOptions.navigatorOptions || {}; // The dataLabels options are not merged correctly // if the settings are an array, #13847. userNavOptions.dataLabels = splat(userNavOptions.dataLabels); mergedNavSeriesOptions = merge(baseOptions, navSeriesMixin, userNavOptions, baseNavigatorOptions); // Once nav series type is resolved, pick correct pointRange mergedNavSeriesOptions.pointRange = pick( // Stricte set pointRange in options userNavOptions.pointRange, baseNavigatorOptions.pointRange, // Fallback to default values, e.g. `null` for column defaultOptions.plotOptions[mergedNavSeriesOptions.type || 'line'].pointRange); // Merge data separately. Do a slice to avoid mutating the // navigator options from base series (#4923). const navigatorSeriesData = baseNavigatorOptions.data || userNavOptions.data; navigator.hasNavigatorData = navigator.hasNavigatorData || !!navigatorSeriesData; mergedNavSeriesOptions.data = navigatorSeriesData || baseOptions.data && baseOptions.data.slice(0); // Update or add the series if (linkedNavSeries && linkedNavSeries.options) { linkedNavSeries.update(mergedNavSeriesOptions, redraw); } else { base.navigatorSeries = chart.initSeries(mergedNavSeriesOptions); // Set data on initial run with dataSorting enabled (#20318) chart.setSortedData(); base.navigatorSeries.baseSeries = base; // Store ref navigatorSeries.push(base.navigatorSeries); } }); } // If user has defined data (and no base series) or explicitly defined // navigator.series as an array, we create these series on top of any // base series. if (chartNavigatorSeriesOptions.data && !(baseSeries && baseSeries.length) || isArray(chartNavigatorSeriesOptions)) { navigator.hasNavigatorData = false; // Allow navigator.series to be an array chartNavigatorSeriesOptions = splat(chartNavigatorSeriesOptions); chartNavigatorSeriesOptions.forEach((userSeriesOptions, i) => { navSeriesMixin.name = 'Navigator ' + (navigatorSeries.length + 1); mergedNavSeriesOptions = merge(defaultOptions.navigator.series, { // Since we don't have a base series to pull color from, // try to fake it by using color from series with same // index. Otherwise pull from the colors array. We need // an explicit color as otherwise updates will increment // color counter and we'll get a new color for each // update of the nav series. color: chart.series[i] && !chart.series[i].options.isInternal && chart.series[i].color || chart.options.colors[i] || chart.options.colors[0] }, navSeriesMixin, userSeriesOptions); mergedNavSeriesOptions.data = userSeriesOptions.data; if (mergedNavSeriesOptions.data) { navigator.hasNavigatorData = true; navigatorSeries.push(chart.initSeries(mergedNavSeriesOptions)); } }); } if (addEvents) { this.addBaseSeriesEvents(); } } /** * Add data events. * For example when main series is updated we need to recalculate extremes * * @private * @function Highcharts.Navigator#addBaseSeriesEvent */ addBaseSeriesEvents() { const navigator = this, baseSeries = navigator.baseSeries || []; // Bind modified extremes event to first base's xAxis only. // In event of > 1 base-xAxes, the navigator will ignore those. // Adding this multiple times to the same axis is no problem, as // duplicates should be discarded by the browser. if (baseSeries[0] && baseSeries[0].xAxis) { baseSeries[0].eventsToUnbind.push(addEvent(baseSeries[0].xAxis, 'foundExtremes', this.modifyBaseAxisExtremes)); } baseSeries.forEach((base) => { // Link base series show/hide to navigator series visibility base.eventsToUnbind.push(addEvent(base, 'show', function () { if (this.navigatorSeries) { this.navigatorSeries.setVisible(true, false); } })); base.eventsToUnbind.push(addEvent(base, 'hide', function () { if (this.navigatorSeries) { this.navigatorSeries.setVisible(false, false); } })); // Respond to updated data in the base series, unless explicitly // not adapting to data changes. if (this.navigatorOptions.adaptToUpdatedData !== false) { if (base.xAxis) { base.eventsToUnbind.push(addEvent(base, 'updatedData', this.updatedDataHandler)); } } // Handle series removal base.eventsToUnbind.push(addEvent(base, 'remove', function () { if (this.navigatorSeries) { erase(navigator.series, this.navigatorSeries); if (defined(this.navigatorSeries.options)) { this.navigatorSeries.remove(false); } delete this.navigatorSeries; } })); }); } /** * Get minimum from all base series connected to the navigator * @private * @param {number} currentSeriesMin * Minium from the current series * @return {number} * Minimum from all series */ getBaseSeriesMin(currentSeriesMin) { return this.baseSeries.reduce(function (min, series) { // (#10193) return Math.min(min, series.xData && series.xData.length ? series.xData[0] : min); }, currentSeriesMin); } /** * Set the navigator x axis extremes to reflect the total. The navigator * extremes should always be the extremes of the union of all series in the * chart as well as the navigator series. * * @private * @function Highcharts.Navigator#modifyNavigatorAxisExtremes */ modifyNavigatorAxisExtremes() { const xAxis = this.xAxis; if (typeof xAxis.getExtremes !== 'undefined') { const unionExtremes = this.getUnionExtremes(true); if (unionExtremes && (unionExtremes.dataMin !== xAxis.min || unionExtremes.dataMax !== xAxis.max)) { xAxis.min = unionExtremes.dataMin; xAxis.max = unionExtremes.dataMax; } } } /** * Hook to modify the base axis extremes with information from the Navigator * * @private * @function Highcharts.Navigator#modifyBaseAxisExtremes */ modifyBaseAxisExtremes() { const baseXAxis = this, navigator = baseXAxis.chart.navigator, baseExtremes = baseXAxis.getExtremes(), baseMin = baseExtremes.min, baseMax = baseExtremes.max, baseDataMin = baseExtremes.dataMin, baseDataMax = baseExtremes.dataMax, range = baseMax - baseMin, stickToMin = navigator.stickToMin, stickToMax = navigator.stickToMax, overscroll = pick(baseXAxis.ordinal?.convertOverscroll(baseXAxis.options.overscroll), 0), navigatorSeries = navigator.series && navigator.series[0], hasSetExtremes = !!baseXAxis.setExtremes, // When the extremes have been set by range selector button, don't // stick to min or max. The range selector buttons will handle the // extremes. (#5489) unmutable = baseXAxis.eventArgs && baseXAxis.eventArgs.trigger === 'rangeSelectorButton'; let newMax, newMin; if (!unmutable) { // If the zoomed range is already at the min, move it to the right // as new data comes in if (stickToMin) { newMin = baseDataMin; newMax = newMin + range; } // If the zoomed range is already at the max, move it to the right // as new data comes in if (stickToMax) { newMax = baseDataMax + overscroll; // If stickToMin is true, the new min value is set above if (!stickToMin) { newMin = Math.max(baseDataMin, // Don't go below data extremes (#13184) newMax - range, navigator.getBaseSeriesMin(navigatorSeries && navigatorSeries.xData ? navigatorSeries.xData[0] : -Number.MAX_VALUE)); } } // Update the extremes if (hasSetExtremes && (stickToMin || stickToMax)) { if (isNumber(newMin)) { baseXAxis.min = baseXAxis.userMin = newMin; baseXAxis.max = baseXAxis.userMax = newMax; } } } // Reset navigator.stickToMin = navigator.stickToMax = null; } /** * Handler for updated data on the base series. When data is modified, the * navigator series must reflect it. This is called from the Chart.redraw * function before axis and series extremes are computed. * * @private * @function Highcharts.Navigator#updateDataHandler */ updatedDataHandler() { const navigator = this.chart.navigator, baseSeries = this, navigatorSeries = this.navigatorSeries, shouldStickToMax = navigator.reversedExtremes ? Math.round(navigator.zoomedMin) === 0 : Math.round(navigator.zoomedMax) >= Math.round(navigator.size); // If the scrollbar is scrolled all the way to the right, keep right as // new data comes in, unless user set navigator.stickToMax to false. navigator.stickToMax = pick(this.chart.options.navigator && this.chart.options.navigator.stickToMax, shouldStickToMax); navigator.stickToMin = navigator.shouldStickToMin(baseSeries, navigator); // Set the navigator series data to the new data of the base series if (navigatorSeries && !navigator.hasNavigatorData) { navigatorSeries.options.pointStart = baseSeries.xData[0]; navigatorSeries.setData(baseSeries.options.data, false, null, false); // #5414 } } /** * Detect if the zoomed area should stick to the minimum, #14742. * * @private * @function Highcharts.Navigator#shouldStickToMin */ shouldStickToMin(baseSeries, navigator) { const xDataMin = navigator.getBaseSeriesMin(baseSeries.xData[0]), xAxis = baseSeries.xAxis, max = xAxis.max, min = xAxis.min, range = xAxis.options.range; let stickToMin = true; if (isNumber(max) && isNumber(min)) { // If range declared, stick to the minimum only if the range // is smaller than the data set range. if (range && max - xDataMin > 0) { stickToMin = max - xDataMin < range; } else { // If the current axis minimum falls outside the new // updated dataset, we must adjust. stickToMin = min <= xDataMin; } } else { stickToMin = false; // #15864 } return stickToMin; } /** * Add chart events, like redrawing navigator, when chart requires that. * * @private * @function Highcharts.Navigator#addChartEvents */ addChartEvents() { if (!this.eventsToUnbind) { this.eventsToUnbind = []; } this.eventsToUnbind.push( // Move the scrollbar after redraw, like after data updata even if // axes don't redraw addEvent(this.chart, 'redraw', function () { const navigator = this.navigator, xAxis = navigator && (navigator.baseSeries && navigator.baseSeries[0] && navigator.baseSeries[0].xAxis || this.xAxis[0]); // #5709, #13114 if (xAxis) { navigator.render(xAxis.min, xAxis.max); } }), // Make room for the navigator, can be placed around the chart: addEvent(this.chart, 'getMargins', function () { const chart = this, navigator = chart.navigator; let marginName = navigator.opposite ? 'plotTop' : 'marginBottom'; if (chart.inverted) { marginName = navigator.opposite ? 'marginRight' : 'plotLeft'; } chart[marginName] = (chart[marginName] || 0) + (navigator.navigatorEnabled || !chart.inverted ? navigator.height + navigator.scrollbarHeight : 0) + navigator.navigatorOptions.margin; }), addEvent(Navigator, 'setRange', function (e) { this.chart.xAxis[0].setExtremes(e.min, e.max, e.redraw, e.animation, e.eventArguments); })); } /** * Destroys allocated elements. * * @private * @function Highcharts.Navigator#destroy */ destroy() { // Disconnect events added in addEvents this.removeEvents(); if (this.xAxis) { erase(this.chart.xAxis, this.xAxis); erase(this.chart.axes, this.xAxis); } if (this.yAxis) { erase(this.chart.yAxis, this.yAxis); erase(this.chart.axes, this.yAxis); } // Destroy series (this.series || []).forEach((s) => { if (s.destroy) { s.destroy(); } }); // Destroy properties [ 'series', 'xAxis', 'yAxis', 'shades', 'outline', 'scrollbarTrack', 'scrollbarRifles', 'scrollbarGroup', 'scrollbar', 'navigatorGroup', 'rendered' ].forEach((prop) => { if (this[prop] && this[prop].destroy) { this[prop].destroy(); } this[prop] = null; }); // Destroy elements in collection [this.handles].forEach((coll) => { destroyObjectProperties(coll); }); } } /* * * * Default Export * * */ return Navigator; }); _registerModule(_modules, 'Stock/RangeSelector/RangeSelectorDefaults.js', [], function () { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Declarations * * */ /** * Language object. The language object is global and it can't be set * on each chart initialization. Instead, use `Highcharts.setOptions` to * set it before any chart is initialized. * * ```js * Highcharts.setOptions({ * lang: { * months: [ * 'Janvier', 'Février', 'Mars', 'Avril', * 'Mai', 'Juin', 'Juillet', 'Août', * 'Septembre', 'Octobre', 'Novembre', 'Décembre' * ], * weekdays: [ * 'Dimanche', 'Lundi', 'Mardi', 'Mercredi', * 'Jeudi', 'Vendredi', 'Samedi' * ] * } * }); * ``` * * @optionparent lang */ const lang = { /** * The text for the label for the range selector buttons. * * @product highstock gantt */ rangeSelectorZoom: 'Zoom', /** * The text for the label for the "from" input box in the range * selector. Since v9.0, this string is empty as the label is not * rendered by default. * * @product highstock gantt */ rangeSelectorFrom: '', /** * The text for the label for the "to" input box in the range selector. * * @product highstock gantt */ rangeSelectorTo: '→' }; /** * The range selector is a tool for selecting ranges to display within * the chart. It provides buttons to select preconfigured ranges in * the chart, like 1 day, 1 week, 1 month etc. It also provides input * boxes where min and max dates can be manually input. * * @product highstock gantt * @optionparent rangeSelector */ const rangeSelector = { /** * Whether to enable all buttons from the start. By default buttons are * only enabled if the corresponding time range exists on the X axis, * but enabling all buttons allows for dynamically loading different * time ranges. * * @sample {highstock} stock/rangeselector/allbuttonsenabled-true/ * All buttons enabled * * @since 2.0.3 */ allButtonsEnabled: false, /** * An array of configuration objects for the buttons. * * Defaults to: * ```js * buttons: [{ * type: 'month', * count: 1, * text: '1m', * title: 'View 1 month' * }, { * type: 'month', * count: 3, * text: '3m', * title: 'View 3 months' * }, { * type: 'month', * count: 6, * text: '6m', * title: 'View 6 months' * }, { * type: 'ytd', * text: 'YTD', * title: 'View year to date' * }, { * type: 'year', * count: 1, * text: '1y', * title: 'View 1 year' * }, { * type: 'all', * text: 'All', * title: 'View all' * }] * ``` * * @sample {highstock} stock/demo/rangeselector-datagrouping/ * Data grouping by buttons * * @type {Array<*>} */ buttons: void 0, /** * How many units of the defined type the button should span. If `type` * is "month" and `count` is 3, the button spans three months. * * @type {number} * @default 1 * @apioption rangeSelector.buttons.count */ /** * Fires when clicking on the rangeSelector button. One parameter, * event, is passed to the function, containing common event * information. * * ```js * click: function(e) { * console.log(this); * } * ``` * * Return false to stop default button's click action. * * @sample {highstock} stock/rangeselector/button-click/ * Click event on the button * * @type {Highcharts.RangeSelectorClickCallbackFunction} * @apioption rangeSelector.buttons.events.click */ /** * Additional range (in milliseconds) added to the end of the calculated * time span. * * @sample {highstock} stock/rangeselector/min-max-offsets/ * Button offsets * * @type {number} * @default 0 * @since 6.0.0 * @apioption rangeSelector.buttons.offsetMax */ /** * Additional range (in milliseconds) added to the start of the * calculated time span. * * @sample {highstock} stock/rangeselector/min-max-offsets/ * Button offsets * * @type {number} * @default 0 * @since 6.0.0 * @apioption rangeSelector.buttons.offsetMin */ /** * When buttons apply dataGrouping on a series, by default zooming * in/out will deselect buttons and unset dataGrouping. Enable this * option to keep buttons selected when extremes change. * * @sample {highstock} stock/rangeselector/preserve-datagrouping/ * Different preserveDataGrouping settings * * @type {boolean} * @default false * @since 6.1.2 * @apioption rangeSelector.buttons.preserveDataGrouping */ /** * A custom data grouping object for each button. * * @see [series.dataGrouping](#plotOptions.series.dataGrouping) * * @sample {highstock} stock/demo/rangeselector-datagrouping/ * Data grouping by range selector buttons * * @type {*} * @extends plotOptions.series.dataGrouping * @apioption rangeSelector.buttons.dataGrouping */ /** * The text for the button itself. * * @type {string} * @apioption rangeSelector.buttons.text */ /** * Explanation for the button, shown as a tooltip on hover, and used by * assistive technology. * * @type {string} * @apioption rangeSelector.buttons.title */ /** * Defined the time span for the button. Can be one of `millisecond`, * `second`, `minute`, `hour`, `day`, `week`, `month`, `year`, `ytd`, * and `all`. * * @type {Highcharts.RangeSelectorButtonTypeValue} * @apioption rangeSelector.buttons.type */ /** * The space in pixels between the buttons in the range selector. */ buttonSpacing: 5, /** * Whether to collapse the range selector buttons into a dropdown when * there is not enough room to show everything in a single row, instead * of dividing the range selector into multiple rows. * Can be one of the following: * - `always`: Always collapse * - `responsive`: Only collapse when there is not enough room * - `never`: Never collapse * * @sample {highstock} stock/rangeselector/dropdown/ * Dropdown option * * @validvalue ["always", "responsive", "never"] * @since 9.0.0 */ dropdown: 'responsive', /** * Enable or disable the range selector. Default to `true` for stock * charts, using the `stockChart` factory. * * @sample {highstock} stock/rangeselector/enabled/ * Disable the range selector * * @type {boolean|undefined} * @default {highstock} true */ enabled: void 0, /** * The vertical alignment of the rangeselector box. Allowed properties * are `top`, `middle`, `bottom`. * * @sample {highstock} stock/rangeselector/vertical-align-middle/ * Middle * @sample {highstock} stock/rangeselector/vertical-align-bottom/ * Bottom * * @type {Highcharts.VerticalAlignValue} * @since 6.0.0 */ verticalAlign: 'top', /** * A collection of attributes for the buttons. The object takes SVG * attributes like `fill`, `stroke`, `stroke-width`, as well as `style`, * a collection of CSS properties for the text. * * The object can also be extended with states, so you can set * presentational options for `hover`, `select` or `disabled` button * states. * * CSS styles for the text label. * * In styled mode, the buttons are styled by the * `.highcharts-range-selector-buttons .highcharts-button` rule with its * different states. * * @sample {highstock} stock/rangeselector/styling/ * Styling the buttons and inputs * * @type {Highcharts.SVGAttributes} */ buttonTheme: { /** @ignore */ width: 28, /** @ignore */ height: 18, /** @ignore */ padding: 2, /** @ignore */ zIndex: 7 // #484, #852 }, /** * When the rangeselector is floating, the plot area does not reserve * space for it. This opens for positioning anywhere on the chart. * * @sample {highstock} stock/rangeselector/floating/ * Placing the range selector between the plot area and the * navigator * * @since 6.0.0 */ floating: false, /** * The x offset of the range selector relative to its horizontal * alignment within `chart.spacingLeft` and `chart.spacingRight`. * * @since 6.0.0 */ x: 0, /** * The y offset of the range selector relative to its horizontal * alignment within `chart.spacingLeft` and `chart.spacingRight`. * * @since 6.0.0 */ y: 0, /** * Deprecated. The height of the range selector. Currently it is * calculated dynamically. * * @deprecated * @type {number|undefined} * @since 2.1.9 */ height: void 0, /** * The border color of the date input boxes. * * @sample {highstock} stock/rangeselector/styling/ * Styling the buttons and inputs * * @type {Highcharts.ColorString} * @since 1.3.7 */ inputBoxBorderColor: 'none', /** * The pixel height of the date input boxes. * * @sample {highstock} stock/rangeselector/styling/ * Styling the buttons and inputs * * @since 1.3.7 */ inputBoxHeight: 17, /** * The pixel width of the date input boxes. When `undefined`, the width * is fitted to the rendered content. * * @sample {highstock} stock/rangeselector/styling/ * Styling the buttons and inputs * * @type {number|undefined} * @since 1.3.7 */ inputBoxWidth: void 0, /** * The date format in the input boxes when not selected for editing. * Defaults to `%e %b %Y`. * * This is used to determine which type of input to show, * `datetime-local`, `date` or `time` and falling back to `text` when * the browser does not support the input type or the format contains * milliseconds. * * @sample {highstock} stock/rangeselector/input-type/ * Input types * @sample {highstock} stock/rangeselector/input-format/ * Milliseconds in the range selector * */ inputDateFormat: '%e %b %Y', /** * A custom callback function to parse values entered in the input boxes * and return a valid JavaScript time as milliseconds since 1970. * The first argument passed is a value to parse, * second is a boolean indicating use of the UTC time. * * This will only get called for inputs of type `text`. Since v8.2.3, * the input type is dynamically determined based on the granularity * of the `inputDateFormat` and the browser support. * * @sample {highstock} stock/rangeselector/input-format/ * Milliseconds in the range selector * * @type {Highcharts.RangeSelectorParseCallbackFunction} * @since 1.3.3 */ inputDateParser: void 0, /** * The date format in the input boxes when they are selected for * editing. This must be a format that is recognized by JavaScript * Date.parse. * * This will only be used for inputs of type `text`. Since v8.2.3, * the input type is dynamically determined based on the granularity * of the `inputDateFormat` and the browser support. * * @sample {highstock} stock/rangeselector/input-format/ * Milliseconds in the range selector * */ inputEditDateFormat: '%Y-%m-%d', /** * Enable or disable the date input boxes. */ inputEnabled: true, /** * Positioning for the input boxes. Allowed properties are `align`, * `x` and `y`. * * @since 1.2.4 */ inputPosition: { /** * The alignment of the input box. Allowed properties are `left`, * `center`, `right`. * * @sample {highstock} stock/rangeselector/input-button-position/ * Alignment * * @type {Highcharts.AlignValue} * @since 6.0.0 */ align: 'right', /** * X offset of the input row. */ x: 0, /** * Y offset of the input row. */ y: 0 }, /** * The space in pixels between the labels and the date input boxes in * the range selector. * * @since 9.0.0 */ inputSpacing: 5, /** * The index of the button to appear pre-selected. If the selected range * exceeds the total data range and the 'all' option is available, * the 'all' option, showing the full range, is automatically selected. * * @type {number} */ selected: void 0, /** * Positioning for the button row. * * @since 1.2.4 */ buttonPosition: { /** * The alignment of the input box. Allowed properties are `left`, * `center`, `right`. * * @sample {highstock} stock/rangeselector/input-button-position/ * Alignment * * @type {Highcharts.AlignValue} * @since 6.0.0 */ align: 'left', /** * X offset of the button row. */ x: 0, /** * Y offset of the button row. */ y: 0 }, /** * CSS for the HTML inputs in the range selector. * * In styled mode, the inputs are styled by the * `.highcharts-range-input text` rule in SVG mode, and * `input.highcharts-range-selector` when active. * * @sample {highstock} stock/rangeselector/styling/ * Styling the buttons and inputs * * @type {Highcharts.CSSObject} * @apioption rangeSelector.inputStyle */ inputStyle: { /** @ignore */ color: "#334eff" /* Palette.highlightColor80 */, /** @ignore */ cursor: 'pointer', /** @ignore */ fontSize: '0.8em' }, /** * CSS styles for the labels - the Zoom, From and To texts. * * In styled mode, the labels are styled by the * `.highcharts-range-label` class. * * @sample {highstock} stock/rangeselector/styling/ * Styling the buttons and inputs * * @type {Highcharts.CSSObject} */ labelStyle: { /** @ignore */ color: "#666666" /* Palette.neutralColor60 */, /** @ignore */ fontSize: '0.8em' } }; /* * * * Default Export * * */ const RangeSelectorDefaults = { lang, rangeSelector }; return RangeSelectorDefaults; }); _registerModule(_modules, 'Stock/RangeSelector/RangeSelectorComposition.js', [_modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Stock/RangeSelector/RangeSelectorDefaults.js'], _modules['Core/Utilities.js']], function (D, H, RangeSelectorDefaults, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defaultOptions } = D; const { composed } = H; const { addEvent, defined, extend, find, isNumber, merge, pick, pushUnique } = U; /* * * * Constants * * */ const chartDestroyEvents = []; /* * * * Variables * * */ let RangeSelectorConstructor; /* * * * Functions * * */ /** * Get the axis min value based on the range option and the current max. For * stock charts this is extended via the {@link RangeSelector} so that if the * selected range is a multiple of months or years, it is compensated for * various month lengths. * * @private * @function Highcharts.Axis#minFromRange * @return {number|undefined} * The new minimum value. */ function axisMinFromRange() { const rangeOptions = this.range, type = rangeOptions.type, max = this.max, time = this.chart.time, // Get the true range from a start date getTrueRange = function (base, count) { const timeName = type === 'year' ? 'FullYear' : 'Month'; const date = new time.Date(base); const basePeriod = time.get(timeName, date); time.set(timeName, date, basePeriod + count); if (basePeriod === time.get(timeName, date)) { time.set('Date', date, 0); // #6537 } return date.getTime() - base; }; let min, range; if (isNumber(rangeOptions)) { min = max - rangeOptions; range = rangeOptions; } else if (rangeOptions) { min = max + getTrueRange(max, -(rangeOptions.count || 1)); // Let the fixedRange reflect initial settings (#5930) if (this.chart) { this.chart.setFixedRange(max - min); } } const dataMin = pick(this.dataMin, Number.MIN_VALUE); if (!isNumber(min)) { min = dataMin; } if (min <= dataMin) { min = dataMin; if (typeof range === 'undefined') { // #4501 range = getTrueRange(min, rangeOptions.count); } this.newMax = Math.min(min + range, pick(this.dataMax, Number.MAX_VALUE)); } if (!isNumber(max)) { min = void 0; } else if (!isNumber(rangeOptions) && rangeOptions && rangeOptions._offsetMin) { min += rangeOptions._offsetMin; } return min; } /** * @private */ function compose(AxisClass, ChartClass, RangeSelectorClass) { RangeSelectorConstructor = RangeSelectorClass; if (pushUnique(composed, 'RangeSelector')) { const chartProto = ChartClass.prototype; AxisClass.prototype.minFromRange = axisMinFromRange; addEvent(ChartClass, 'afterGetContainer', onChartAfterGetContainer); addEvent(ChartClass, 'beforeRender', onChartBeforeRender); addEvent(ChartClass, 'destroy', onChartDestroy); addEvent(ChartClass, 'getMargins', onChartGetMargins); addEvent(ChartClass, 'render', onChartRender); addEvent(ChartClass, 'update', onChartUpdate); chartProto.callbacks.push(onChartCallback); extend(defaultOptions, { rangeSelector: RangeSelectorDefaults.rangeSelector }); extend(defaultOptions.lang, RangeSelectorDefaults.lang); } } /** * Initialize rangeselector for stock charts * @private */ function onChartAfterGetContainer() { if (this.options.rangeSelector && this.options.rangeSelector.enabled) { this.rangeSelector = new RangeSelectorConstructor(this); } } /** * @private */ function onChartBeforeRender() { const chart = this, axes = chart.axes, rangeSelector = chart.rangeSelector; if (rangeSelector) { if (isNumber(rangeSelector.deferredYTDClick)) { rangeSelector.clickButton(rangeSelector.deferredYTDClick); delete rangeSelector.deferredYTDClick; } axes.forEach((axis) => { axis.updateNames(); axis.setScale(); }); chart.getAxisMargins(); rangeSelector.render(); const verticalAlign = rangeSelector.options.verticalAlign; if (!rangeSelector.options.floating) { if (verticalAlign === 'bottom') { this.extraBottomMargin = true; } else if (verticalAlign !== 'middle') { this.extraTopMargin = true; } } } } /** * @private */ function onChartCallback(chart) { let extremes, legend, alignTo, verticalAlign; const rangeSelector = chart.rangeSelector, redraw = () => { if (rangeSelector) { extremes = chart.xAxis[0].getExtremes(); legend = chart.legend; verticalAlign = (rangeSelector && rangeSelector.options.verticalAlign); if (isNumber(extremes.min)) { rangeSelector.render(extremes.min, extremes.max); } // Re-align the legend so that it's below the rangeselector if (legend.display && verticalAlign === 'top' && verticalAlign === legend.options.verticalAlign) { // Create a new alignment box for the legend. alignTo = merge(chart.spacingBox); if (legend.options.layout === 'vertical') { alignTo.y = chart.plotTop; } else { alignTo.y += rangeSelector.getHeight(); } legend.group.placed = false; // Don't animate the alignment. legend.align(alignTo); } } }; if (rangeSelector) { const events = find(chartDestroyEvents, (e) => e[0] === chart); if (!events) { chartDestroyEvents.push([chart, [ // Redraw the scroller on setExtremes addEvent(chart.xAxis[0], 'afterSetExtremes', function (e) { if (rangeSelector) { rangeSelector.render(e.min, e.max); } }), // Redraw the scroller chart resize addEvent(chart, 'redraw', redraw) ]]); } // Do it now redraw(); } } /** * Remove resize/afterSetExtremes at chart destroy. * @private */ function onChartDestroy() { for (let i = 0, iEnd = chartDestroyEvents.length; i < iEnd; ++i) { const events = chartDestroyEvents[i]; if (events[0] === this) { events[1].forEach((unbind) => unbind()); chartDestroyEvents.splice(i, 1); return; } } } /** * */ function onChartGetMargins() { const rangeSelector = this.rangeSelector; if (rangeSelector) { const rangeSelectorHeight = rangeSelector.getHeight(); if (this.extraTopMargin) { this.plotTop += rangeSelectorHeight; } if (this.extraBottomMargin) { this.marginBottom += rangeSelectorHeight; } } } /** * @private */ function onChartRender() { const chart = this, rangeSelector = chart.rangeSelector; if (rangeSelector && !rangeSelector.options.floating) { rangeSelector.render(); const verticalAlign = rangeSelector.options.verticalAlign; if (verticalAlign === 'bottom') { this.extraBottomMargin = true; } else if (verticalAlign !== 'middle') { this.extraTopMargin = true; } } } /** * @private */ function onChartUpdate(e) { const chart = this, options = e.options, optionsRangeSelector = options.rangeSelector, extraBottomMarginWas = this.extraBottomMargin, extraTopMarginWas = this.extraTopMargin; let rangeSelector = chart.rangeSelector; if (optionsRangeSelector && optionsRangeSelector.enabled && !defined(rangeSelector) && this.options.rangeSelector) { this.options.rangeSelector.enabled = true; this.rangeSelector = rangeSelector = new RangeSelectorConstructor(this); } this.extraBottomMargin = false; this.extraTopMargin = false; if (rangeSelector) { onChartCallback(this); const verticalAlign = (optionsRangeSelector && optionsRangeSelector.verticalAlign) || (rangeSelector.options && rangeSelector.options.verticalAlign); if (!rangeSelector.options.floating) { if (verticalAlign === 'bottom') { this.extraBottomMargin = true; } else if (verticalAlign !== 'middle') { this.extraTopMargin = true; } } if (this.extraBottomMargin !== extraBottomMarginWas || this.extraTopMargin !== extraTopMarginWas) { this.isDirtyBox = true; } } } /* * * * Default Export * * */ const RangeSelectorComposition = { compose }; return RangeSelectorComposition; }); _registerModule(_modules, 'Stock/RangeSelector/RangeSelector.js', [_modules['Core/Axis/Axis.js'], _modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Stock/RangeSelector/RangeSelectorComposition.js'], _modules['Core/Renderer/SVG/SVGElement.js'], _modules['Core/Utilities.js']], function (Axis, D, H, RangeSelectorComposition, SVGElement, U) { /* * * * (c) 2010-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { defaultOptions } = D; const { addEvent, createElement, css, defined, destroyObjectProperties, discardElement, extend, fireEvent, isNumber, merge, objectEach, pad, pick, pInt, splat } = U; /* * * * Functions * * */ /** * Get the preferred input type based on a date format string. * * @private * @function preferredInputType */ function preferredInputType(format) { const ms = format.indexOf('%L') !== -1; if (ms) { return 'text'; } const date = ['a', 'A', 'd', 'e', 'w', 'b', 'B', 'm', 'o', 'y', 'Y'] .some((char) => format.indexOf('%' + char) !== -1); const time = ['H', 'k', 'I', 'l', 'M', 'S'] .some((char) => format.indexOf('%' + char) !== -1); if (date && time) { return 'datetime-local'; } if (date) { return 'date'; } if (time) { return 'time'; } return 'text'; } /* * * * Class * * */ /** * The range selector. * * @private * @class * @name Highcharts.RangeSelector * @param {Highcharts.Chart} chart */ class RangeSelector { /* * * * Static Functions * * */ /** * @private */ static compose(AxisClass, ChartClass) { RangeSelectorComposition.compose(AxisClass, ChartClass, RangeSelector); } /* * * * Constructor * * */ constructor(chart) { this.buttonOptions = RangeSelector.prototype.defaultButtons; this.initialButtonGroupWidth = 0; this.chart = chart; this.init(chart); } /* * * * Functions * * */ /** * The method to run when one of the buttons in the range selectors is * clicked * * @private * @function Highcharts.RangeSelector#clickButton * @param {number} i * The index of the button * @param {boolean} [redraw] */ clickButton(i, redraw) { const rangeSelector = this, chart = rangeSelector.chart, rangeOptions = rangeSelector.buttonOptions[i], baseAxis = chart.xAxis[0], unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || baseAxis || {}, type = rangeOptions.type, dataGrouping = rangeOptions.dataGrouping; let dataMin = unionExtremes.dataMin, dataMax = unionExtremes.dataMax, newMin, newMax = baseAxis && Math.round(Math.min(baseAxis.max, pick(dataMax, baseAxis.max))), // #1568 baseXAxisOptions, range = rangeOptions._range, rangeMin, minSetting, rangeSetting, ctx, ytdExtremes, addOffsetMin = true; // Chart has no data, base series is removed if (dataMin === null || dataMax === null) { return; } rangeSelector.setSelected(i); // Apply dataGrouping associated to button if (dataGrouping) { this.forcedDataGrouping = true; Axis.prototype.setDataGrouping.call(baseAxis || { chart: this.chart }, dataGrouping, false); this.frozenStates = rangeOptions.preserveDataGrouping; } // Apply range if (type === 'month' || type === 'year') { if (!baseAxis) { // This is set to the user options and picked up later when the // axis is instantiated so that we know the min and max. range = rangeOptions; } else { ctx = { range: rangeOptions, max: newMax, chart: chart, dataMin: dataMin, dataMax: dataMax }; newMin = baseAxis.minFromRange.call(ctx); if (isNumber(ctx.newMax)) { newMax = ctx.newMax; } // #15799: offsetMin is added in minFromRange so that it works // with pre-selected buttons as well addOffsetMin = false; } // Fixed times like minutes, hours, days } else if (range) { newMin = Math.max(newMax - range, dataMin); newMax = Math.min(newMin + range, dataMax); addOffsetMin = false; } else if (type === 'ytd') { // On user clicks on the buttons, or a delayed action running from // the beforeRender event (below), the baseAxis is defined. if (baseAxis) { // When "ytd" is the pre-selected button for the initial view, // its calculation is delayed and rerun in the beforeRender // event (below). When the series are initialized, but before // the chart is rendered, we have access to the xData array // (#942). if (typeof dataMax === 'undefined' || typeof dataMin === 'undefined') { dataMin = Number.MAX_VALUE; dataMax = Number.MIN_VALUE; chart.series.forEach((series) => { // Reassign it to the last item const xData = series.xData; if (xData) { dataMin = Math.min(xData[0], dataMin); dataMax = Math.max(xData[xData.length - 1], dataMax); } }); redraw = false; } ytdExtremes = rangeSelector.getYTDExtremes(dataMax, dataMin, chart.time.useUTC); newMin = rangeMin = ytdExtremes.min; newMax = ytdExtremes.max; // "ytd" is pre-selected. We don't yet have access to processed // point and extremes data (things like pointStart and pointInterval // are missing), so we delay the process (#942) } else { rangeSelector.deferredYTDClick = i; return; } } else if (type === 'all' && baseAxis) { // If the navigator exist and the axis range is declared reset that // range and from now on only use the range set by a user, #14742. if (chart.navigator && chart.navigator.baseSeries[0]) { chart.navigator.baseSeries[0].xAxis.options.range = void 0; } newMin = dataMin; newMax = dataMax; } if (addOffsetMin && rangeOptions._offsetMin && defined(newMin)) { newMin += rangeOptions._offsetMin; } if (rangeOptions._offsetMax && defined(newMax)) { newMax += rangeOptions._offsetMax; } if (this.dropdown) { this.dropdown.selectedIndex = i + 1; } // Update the chart if (!baseAxis) { // Axis not yet instantiated. Temporarily set min and range // options and remove them on chart load (#4317). baseXAxisOptions = splat(chart.options.xAxis)[0]; rangeSetting = baseXAxisOptions.range; baseXAxisOptions.range = range; minSetting = baseXAxisOptions.min; baseXAxisOptions.min = rangeMin; addEvent(chart, 'load', function resetMinAndRange() { chart.setFixedRange(rangeOptions._range); baseXAxisOptions.range = rangeSetting; baseXAxisOptions.min = minSetting; }); } else { // Existing axis object. Set extremes after render time. baseAxis.setExtremes(newMin, newMax, pick(redraw, true), void 0, // Auto animation { trigger: 'rangeSelectorButton', rangeSelectorButton: rangeOptions }); chart.setFixedRange(rangeOptions._range); } fireEvent(this, 'afterBtnClick'); } /** * Set the selected option. This method only sets the internal flag, it * doesn't update the buttons or the actual zoomed range. * * @private * @function Highcharts.RangeSelector#setSelected * @param {number} [selected] */ setSelected(selected) { this.selected = this.options.selected = selected; } /** * Initialize the range selector * * @private * @function Highcharts.RangeSelector#init * @param {Highcharts.Chart} chart */ init(chart) { const rangeSelector = this, options = chart.options.rangeSelector, buttonOptions = (options.buttons || rangeSelector.defaultButtons.slice()), selectedOption = options.selected, blurInputs = function () { const minInput = rangeSelector.minInput, maxInput = rangeSelector.maxInput; // #3274 in some case blur is not defined if (minInput && !!minInput.blur) { fireEvent(minInput, 'blur'); } if (maxInput && !!maxInput.blur) { fireEvent(maxInput, 'blur'); } }; rangeSelector.chart = chart; rangeSelector.options = options; rangeSelector.buttons = []; rangeSelector.buttonOptions = buttonOptions; this.eventsToUnbind = []; this.eventsToUnbind.push(addEvent(chart.container, 'mousedown', blurInputs)); this.eventsToUnbind.push(addEvent(chart, 'resize', blurInputs)); // Extend the buttonOptions with actual range buttonOptions.forEach(rangeSelector.computeButtonRange); // Zoomed range based on a pre-selected button index if (typeof selectedOption !== 'undefined' && buttonOptions[selectedOption]) { this.clickButton(selectedOption, false); } this.eventsToUnbind.push(addEvent(chart, 'load', function () { // If a data grouping is applied to the current button, release it // when extremes change if (chart.xAxis && chart.xAxis[0]) { addEvent(chart.xAxis[0], 'setExtremes', function (e) { if (isNumber(this.max) && isNumber(this.min) && this.max - this.min !== chart.fixedRange && e.trigger !== 'rangeSelectorButton' && e.trigger !== 'updatedData' && rangeSelector.forcedDataGrouping && !rangeSelector.frozenStates) { this.setDataGrouping(false, false); } }); } })); } /** * Dynamically update the range selector buttons after a new range has been * set * * @private * @function Highcharts.RangeSelector#updateButtonStates */ updateButtonStates() { const rangeSelector = this, chart = this.chart, dropdown = this.dropdown, baseAxis = chart.xAxis[0], actualRange = Math.round(baseAxis.max - baseAxis.min), hasNoData = !baseAxis.hasVisibleSeries, day = 24 * 36e5, // A single day in milliseconds unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || baseAxis, dataMin = unionExtremes.dataMin, dataMax = unionExtremes.dataMax, ytdExtremes = rangeSelector.getYTDExtremes(dataMax, dataMin, chart.time.useUTC), ytdMin = ytdExtremes.min, ytdMax = ytdExtremes.max, selected = rangeSelector.selected, allButtonsEnabled = rangeSelector.options.allButtonsEnabled, buttons = rangeSelector.buttons; let selectedExists = isNumber(selected), isSelectedTooGreat = false; rangeSelector.buttonOptions.forEach((rangeOptions, i) => { const range = rangeOptions._range, type = rangeOptions.type, count = rangeOptions.count || 1, button = buttons[i], offsetRange = rangeOptions._offsetMax - rangeOptions._offsetMin, isSelected = i === selected, // Disable buttons where the range exceeds what is allowed in // the current view isTooGreatRange = range > dataMax - dataMin, // Disable buttons where the range is smaller than the minimum // range isTooSmallRange = range < baseAxis.minRange; let state = 0, // Do not select the YTD button if not explicitly told so isYTDButNotSelected = false, // Disable the All button if we're already showing all isAllButAlreadyShowingAll = false, isSameRange = range === actualRange; if (isSelected && isTooGreatRange) { isSelectedTooGreat = true; } if (baseAxis.isOrdinal && baseAxis.ordinal?.positions && range && actualRange < range) { // Handle ordinal ranges const positions = baseAxis.ordinal.positions; if (positions[positions.length - 1] - positions[0] > range) { isSameRange = true; } } else if ( // Months and years have variable range so we check the extremes (type === 'month' || type === 'year') && (actualRange + 36e5 >= { month: 28, year: 365 }[type] * day * count - offsetRange) && (actualRange - 36e5 <= { month: 31, year: 366 }[type] * day * count + offsetRange)) { isSameRange = true; } else if (type === 'ytd') { isSameRange = (ytdMax - ytdMin + offsetRange) === actualRange; isYTDButNotSelected = !isSelected; } else if (type === 'all') { isSameRange = (baseAxis.max - baseAxis.min >= dataMax - dataMin); isAllButAlreadyShowingAll = (!isSelected && selectedExists && isSameRange); } // The new zoom area happens to match the range for a button - mark // it selected. This happens when scrolling across an ordinal gap. // It can be seen in the intraday demos when selecting 1h and scroll // across the night gap. const disable = (!allButtonsEnabled && !(isSelectedTooGreat && type === 'all') && (isTooGreatRange || isTooSmallRange || isAllButAlreadyShowingAll || hasNoData)); const select = ((isSelectedTooGreat && type === 'all') || (isSelected && isSameRange) || (isSameRange && !selectedExists && !isYTDButNotSelected) || (isSelected && rangeSelector.frozenStates)); if (disable) { state = 3; } else if (select) { selectedExists = true; // Only one button can be selected state = 2; } // If state has changed, update the button if (button.state !== state) { button.setState(state); if (dropdown) { dropdown.options[i + 1].disabled = disable; if (state === 2) { dropdown.selectedIndex = i + 1; } } // Reset (#9209) if (state === 0 && selected === i) { rangeSelector.setSelected(); } else if ((state === 2 && !defined(selected)) || isSelectedTooGreat) { rangeSelector.setSelected(i); } } }); } /** * Compute and cache the range for an individual button * * @private * @function Highcharts.RangeSelector#computeButtonRange * @param {Highcharts.RangeSelectorButtonsOptions} rangeOptions */ computeButtonRange(rangeOptions) { const type = rangeOptions.type, count = rangeOptions.count || 1, // These time intervals have a fixed number of milliseconds, as // opposed to month, ytd and year fixedTimes = { millisecond: 1, second: 1000, minute: 60 * 1000, hour: 3600 * 1000, day: 24 * 3600 * 1000, week: 7 * 24 * 3600 * 1000 }; // Store the range on the button object if (fixedTimes[type]) { rangeOptions._range = fixedTimes[type] * count; } else if (type === 'month' || type === 'year') { rangeOptions._range = { month: 30, year: 365 }[type] * 24 * 36e5 * count; } rangeOptions._offsetMin = pick(rangeOptions.offsetMin, 0); rangeOptions._offsetMax = pick(rangeOptions.offsetMax, 0); rangeOptions._range += rangeOptions._offsetMax - rangeOptions._offsetMin; } /** * Get the unix timestamp of a HTML input for the dates * * @private * @function Highcharts.RangeSelector#getInputValue */ getInputValue(name) { const input = name === 'min' ? this.minInput : this.maxInput; const options = this.chart.options .rangeSelector; const time = this.chart.time; if (input) { return ((input.type === 'text' && options.inputDateParser) || this.defaultInputDateParser)(input.value, time.useUTC, time); } return 0; } /** * Set the internal and displayed value of a HTML input for the dates * * @private * @function Highcharts.RangeSelector#setInputValue */ setInputValue(name, inputTime) { const options = this.options, time = this.chart.time, input = name === 'min' ? this.minInput : this.maxInput, dateBox = name === 'min' ? this.minDateBox : this.maxDateBox; if (input) { const hcTimeAttr = input.getAttribute('data-hc-time'); let updatedTime = defined(hcTimeAttr) ? Number(hcTimeAttr) : void 0; if (defined(inputTime)) { const previousTime = updatedTime; if (defined(previousTime)) { input.setAttribute('data-hc-time-previous', previousTime); } input.setAttribute('data-hc-time', inputTime); updatedTime = inputTime; } input.value = time.dateFormat((this.inputTypeFormats[input.type] || options.inputEditDateFormat), updatedTime); if (dateBox) { dateBox.attr({ text: time.dateFormat(options.inputDateFormat, updatedTime) }); } } } /** * Set the min and max value of a HTML input for the dates * * @private * @function Highcharts.RangeSelector#setInputExtremes */ setInputExtremes(name, min, max) { const input = name === 'min' ? this.minInput : this.maxInput; if (input) { const format = this.inputTypeFormats[input.type]; const time = this.chart.time; if (format) { const newMin = time.dateFormat(format, min); if (input.min !== newMin) { input.min = newMin; } const newMax = time.dateFormat(format, max); if (input.max !== newMax) { input.max = newMax; } } } } /** * @private * @function Highcharts.RangeSelector#showInput * @param {string} name */ showInput(name) { const dateBox = name === 'min' ? this.minDateBox : this.maxDateBox, input = name === 'min' ? this.minInput : this.maxInput; if (input && dateBox && this.inputGroup) { const isTextInput = input.type === 'text', { translateX = 0, translateY = 0 } = this.inputGroup, { x = 0, width = 0, height = 0 } = dateBox, { inputBoxWidth } = this.options; css(input, { width: isTextInput ? ((width + (inputBoxWidth ? -2 : 20)) + 'px') : 'auto', height: (height - 2) + 'px', border: '2px solid silver' }); if (isTextInput && inputBoxWidth) { css(input, { left: (translateX + x) + 'px', top: translateY + 'px' }); // Inputs of types date, time or datetime-local should be centered // on top of the dateBox } else { css(input, { left: Math.min(Math.round(x + translateX - (input.offsetWidth - width) / 2), this.chart.chartWidth - input.offsetWidth) + 'px', top: (translateY - (input.offsetHeight - height) / 2) + 'px' }); } } } /** * @private * @function Highcharts.RangeSelector#hideInput * @param {string} name */ hideInput(name) { const input = name === 'min' ? this.minInput : this.maxInput; if (input) { css(input, { top: '-9999em', border: 0, width: '1px', height: '1px' }); } } /** * @private * @function Highcharts.RangeSelector#defaultInputDateParser */ defaultInputDateParser(inputDate, useUTC, time) { const hasTimezone = (str) => str.length > 6 && (str.lastIndexOf('-') === str.length - 6 || str.lastIndexOf('+') === str.length - 6); let input = inputDate.split('/').join('-').split(' ').join('T'); if (input.indexOf('T') === -1) { input += 'T00:00'; } if (useUTC) { input += 'Z'; } else if (H.isSafari && !hasTimezone(input)) { const offset = new Date(input).getTimezoneOffset() / 60; input += offset <= 0 ? `+${pad(-offset)}:00` : `-${pad(offset)}:00`; } let date = Date.parse(input); // If the value isn't parsed directly to a value by the // browser's Date.parse method, try // parsing it a different way if (!isNumber(date)) { const parts = inputDate.split('-'); date = Date.UTC(pInt(parts[0]), pInt(parts[1]) - 1, pInt(parts[2])); } if (time && useUTC && isNumber(date)) { date += time.getTimezoneOffset(date); } return date; } /** * Draw either the 'from' or the 'to' HTML input box of the range selector * * @private * @function Highcharts.RangeSelector#drawInput */ drawInput(name) { const { chart, div, inputGroup } = this; const rangeSelector = this, chartStyle = chart.renderer.style || {}, renderer = chart.renderer, options = chart.options.rangeSelector, lang = defaultOptions.lang, isMin = name === 'min'; /** * @private */ function updateExtremes() { const { maxInput, minInput } = rangeSelector, chartAxis = chart.xAxis[0], unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || chartAxis, dataMin = unionExtremes.dataMin, dataMax = unionExtremes.dataMax; let value = rangeSelector.getInputValue(name); if (value !== Number(input.getAttribute('data-hc-time-previous')) && isNumber(value)) { input.setAttribute('data-hc-time-previous', value); // Validate the extremes. If it goes beyond the data min or // max, use the actual data extreme (#2438). if (isMin && maxInput && isNumber(dataMin)) { if (value > Number(maxInput.getAttribute('data-hc-time'))) { value = void 0; } else if (value < dataMin) { value = dataMin; } } else if (minInput && isNumber(dataMax)) { if (value < Number(minInput.getAttribute('data-hc-time'))) { value = void 0; } else if (value > dataMax) { value = dataMax; } } // Set the extremes if (typeof value !== 'undefined') { // @todo typeof undefined chartAxis.setExtremes(isMin ? value : chartAxis.min, isMin ? chartAxis.max : value, void 0, void 0, { trigger: 'rangeSelectorInput' }); } } } // Create the text label const text = lang[isMin ? 'rangeSelectorFrom' : 'rangeSelectorTo'] || ''; const label = renderer .label(text, 0) .addClass('highcharts-range-label') .attr({ padding: text ? 2 : 0, height: text ? options.inputBoxHeight : 0 }) .add(inputGroup); // Create an SVG label that shows updated date ranges and records click // events that bring in the HTML input. const dateBox = renderer .label('', 0) .addClass('highcharts-range-input') .attr({ padding: 2, width: options.inputBoxWidth, height: options.inputBoxHeight, 'text-align': 'center' }) .on('click', function () { // If it is already focused, the onfocus event doesn't fire // (#3713) rangeSelector.showInput(name); rangeSelector[name + 'Input'].focus(); }); if (!chart.styledMode) { dateBox.attr({ stroke: options.inputBoxBorderColor, 'stroke-width': 1 }); } dateBox.add(inputGroup); // Create the HTML input element. This is rendered as 1x1 pixel then set // to the right size when focused. const input = createElement('input', { name: name, className: 'highcharts-range-selector' }, void 0, div); // #14788: Setting input.type to an unsupported type throws in IE, so // we need to use setAttribute instead input.setAttribute('type', preferredInputType(options.inputDateFormat || '%e %b %Y')); if (!chart.styledMode) { // Styles label.css(merge(chartStyle, options.labelStyle)); dateBox.css(merge({ color: "#333333" /* Palette.neutralColor80 */ }, chartStyle, options.inputStyle)); css(input, extend({ position: 'absolute', border: 0, boxShadow: '0 0 15px rgba(0,0,0,0.3)', width: '1px', height: '1px', padding: 0, textAlign: 'center', fontSize: chartStyle.fontSize, fontFamily: chartStyle.fontFamily, top: '-9999em' // #4798 }, options.inputStyle)); } // Blow up the input box input.onfocus = () => { rangeSelector.showInput(name); }; // Hide away the input box input.onblur = () => { // Update extremes only when inputs are active if (input === H.doc.activeElement) { // Only when focused // Update also when no `change` event is triggered, like when // clicking inside the SVG (#4710) updateExtremes(); } // #10404 - move hide and blur outside focus rangeSelector.hideInput(name); rangeSelector.setInputValue(name); input.blur(); // #4606 }; let keyDown = false; // Handle changes in the input boxes input.onchange = () => { // Update extremes and blur input when clicking date input calendar if (!keyDown) { updateExtremes(); rangeSelector.hideInput(name); input.blur(); } }; input.onkeypress = (event) => { // IE does not fire onchange on enter if (event.keyCode === 13) { updateExtremes(); } }; input.onkeydown = (event) => { keyDown = true; // Arrow keys if (event.keyCode === 38 || event.keyCode === 40) { updateExtremes(); } }; input.onkeyup = () => { keyDown = false; }; return { dateBox, input, label }; } /** * Get the position of the range selector buttons and inputs. This can be * overridden from outside for custom positioning. * * @private * @function Highcharts.RangeSelector#getPosition */ getPosition() { const chart = this.chart, options = chart.options.rangeSelector, top = options.verticalAlign === 'top' ? chart.plotTop - chart.axisOffset[0] : 0; // Set offset only for verticalAlign top return { buttonTop: top + options.buttonPosition.y, inputTop: top + options.inputPosition.y - 10 }; } /** * Get the extremes of YTD. Will choose dataMax if its value is lower than * the current timestamp. Will choose dataMin if its value is higher than * the timestamp for the start of current year. * * @private * @function Highcharts.RangeSelector#getYTDExtremes * @return {*} * Returns min and max for the YTD */ getYTDExtremes(dataMax, dataMin, useUTC) { const time = this.chart.time, now = new time.Date(dataMax), year = time.get('FullYear', now), startOfYear = useUTC ? time.Date.UTC(year, 0, 1) : // eslint-disable-line new-cap +new time.Date(year, 0, 1), min = Math.max(dataMin, startOfYear), ts = now.getTime(); return { max: Math.min(dataMax || ts, ts), min }; } /** * Render the range selector including the buttons and the inputs. The first * time render is called, the elements are created and positioned. On * subsequent calls, they are moved and updated. * * @private * @function Highcharts.RangeSelector#render * @param {number} [min] * X axis minimum * @param {number} [max] * X axis maximum */ render(min, max) { const chart = this.chart, renderer = chart.renderer, container = chart.container, chartOptions = chart.options, options = chartOptions.rangeSelector, // Place inputs above the container inputsZIndex = pick(chartOptions.chart.style && chartOptions.chart.style.zIndex, 0) + 1, inputEnabled = options.inputEnabled, rendered = this.rendered; if (options.enabled === false) { return; } // Create the elements if (!rendered) { this.group = renderer.g('range-selector-group') .attr({ zIndex: 7 }) .add(); this.div = createElement('div', void 0, { position: 'relative', height: 0, zIndex: inputsZIndex }); if (this.buttonOptions.length) { this.renderButtons(); } // First create a wrapper outside the container in order to make // the inputs work and make export correct if (container.parentNode) { container.parentNode.insertBefore(this.div, container); } if (inputEnabled) { // Create the group to keep the inputs this.inputGroup = renderer.g('input-group').add(this.group); const minElems = this.drawInput('min'); this.minDateBox = minElems.dateBox; this.minLabel = minElems.label; this.minInput = minElems.input; const maxElems = this.drawInput('max'); this.maxDateBox = maxElems.dateBox; this.maxLabel = maxElems.label; this.maxInput = maxElems.input; } } if (inputEnabled) { // Set or reset the input values this.setInputValue('min', min); this.setInputValue('max', max); const unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || chart.xAxis[0] || {}; if (defined(unionExtremes.dataMin) && defined(unionExtremes.dataMax)) { const minRange = chart.xAxis[0].minRange || 0; this.setInputExtremes('min', unionExtremes.dataMin, Math.min(unionExtremes.dataMax, this.getInputValue('max')) - minRange); this.setInputExtremes('max', Math.max(unionExtremes.dataMin, this.getInputValue('min')) + minRange, unionExtremes.dataMax); } // Reflow if (this.inputGroup) { let x = 0; [ this.minLabel, this.minDateBox, this.maxLabel, this.maxDateBox ].forEach((label) => { if (label) { const { width } = label.getBBox(); if (width) { label.attr({ x }); x += width + options.inputSpacing; } } }); } } this.alignElements(); this.rendered = true; } /** * Render the range buttons. This only runs the first time, later the * positioning is laid out in alignElements. * * @private * @function Highcharts.RangeSelector#renderButtons */ renderButtons() { const { buttons, chart, options } = this; const lang = defaultOptions.lang; const renderer = chart.renderer; const buttonTheme = merge(options.buttonTheme); const states = buttonTheme && buttonTheme.states; // Prevent the button from resetting the width when the button state // changes since we need more control over the width when collapsing // the buttons const width = buttonTheme.width || 28; delete buttonTheme.width; delete buttonTheme.states; this.buttonGroup = renderer.g('range-selector-buttons').add(this.group); const dropdown = this.dropdown = createElement('select', void 0, { position: 'absolute', width: '1px', height: '1px', padding: 0, border: 0, top: '-9999em', cursor: 'pointer', opacity: 0.0001 }, this.div); // Prevent page zoom on iPhone addEvent(dropdown, 'touchstart', () => { dropdown.style.fontSize = '16px'; }); // Forward events from select to button [ [H.isMS ? 'mouseover' : 'mouseenter'], [H.isMS ? 'mouseout' : 'mouseleave'], ['change', 'click'] ].forEach(([from, to]) => { addEvent(dropdown, from, () => { const button = buttons[this.currentButtonIndex()]; if (button) { fireEvent(button.element, to || from); } }); }); this.zoomText = renderer .label((lang && lang.rangeSelectorZoom) || '', 0) .attr({ padding: options.buttonTheme.padding, height: options.buttonTheme.height, paddingLeft: 0, paddingRight: 0 }) .add(this.buttonGroup); if (!this.chart.styledMode) { this.zoomText.css(options.labelStyle); buttonTheme['stroke-width'] = pick(buttonTheme['stroke-width'], 0); } createElement('option', { textContent: this.zoomText.textStr, disabled: true }, void 0, dropdown); this.buttonOptions.forEach((rangeOptions, i) => { createElement('option', { textContent: rangeOptions.title || rangeOptions.text }, void 0, dropdown); buttons[i] = renderer .button(rangeOptions.text, 0, 0, (e) => { // Extract events from button object and call const buttonEvents = (rangeOptions.events && rangeOptions.events.click); let callDefaultEvent; if (buttonEvents) { callDefaultEvent = buttonEvents.call(rangeOptions, e); } if (callDefaultEvent !== false) { this.clickButton(i); } this.isActive = true; }, buttonTheme, states && states.hover, states && states.select, states && states.disabled) .attr({ 'text-align': 'center', width }) .add(this.buttonGroup); if (rangeOptions.title) { buttons[i].attr('title', rangeOptions.title); } }); } /** * Align the elements horizontally and vertically. * * @private * @function Highcharts.RangeSelector#alignElements */ alignElements() { const { buttonGroup, buttons, chart, group, inputGroup, options, zoomText } = this; const chartOptions = chart.options; const navButtonOptions = (chartOptions.exporting && chartOptions.exporting.enabled !== false && chartOptions.navigation && chartOptions.navigation.buttonOptions); const { buttonPosition, inputPosition, verticalAlign } = options; // Get the X offset required to avoid overlapping with the exporting // button. This is used both by the buttonGroup and the inputGroup. const getXOffsetForExportButton = (group, position) => { if (navButtonOptions && this.titleCollision(chart) && verticalAlign === 'top' && position.align === 'right' && ((position.y - group.getBBox().height - 12) < ((navButtonOptions.y || 0) + (navButtonOptions.height || 0) + chart.spacing[0]))) { return -40; } return 0; }; let plotLeft = chart.plotLeft; if (group && buttonPosition && inputPosition) { let translateX = buttonPosition.x - chart.spacing[3]; if (buttonGroup) { this.positionButtons(); if (!this.initialButtonGroupWidth) { let width = 0; if (zoomText) { width += zoomText.getBBox().width + 5; } buttons.forEach((button, i) => { width += button.width || 0; if (i !== buttons.length - 1) { width += options.buttonSpacing; } }); this.initialButtonGroupWidth = width; } plotLeft -= chart.spacing[3]; this.updateButtonStates(); // Detect collision between button group and exporting const xOffsetForExportButton = getXOffsetForExportButton(buttonGroup, buttonPosition); this.alignButtonGroup(xOffsetForExportButton); // Skip animation group.placed = buttonGroup.placed = chart.hasLoaded; } let xOffsetForExportButton = 0; if (inputGroup) { // Detect collision between the input group and exporting button xOffsetForExportButton = getXOffsetForExportButton(inputGroup, inputPosition); if (inputPosition.align === 'left') { translateX = plotLeft; } else if (inputPosition.align === 'right') { translateX = -Math.max(chart.axisOffset[1], -xOffsetForExportButton); } // Update the alignment to the updated spacing box inputGroup.align({ y: inputPosition.y, width: inputGroup.getBBox().width, align: inputPosition.align, // Fix wrong getBBox() value on right align x: inputPosition.x + translateX - 2 }, true, chart.spacingBox); // Skip animation inputGroup.placed = chart.hasLoaded; } this.handleCollision(xOffsetForExportButton); // Vertical align group.align({ verticalAlign }, true, chart.spacingBox); const alignTranslateY = group.alignAttr.translateY; // Set position let groupHeight = group.getBBox().height + 20; // # 20 padding let translateY = 0; // Calculate bottom position if (verticalAlign === 'bottom') { const legendOptions = chart.legend && chart.legend.options; const legendHeight = (legendOptions && legendOptions.verticalAlign === 'bottom' && legendOptions.enabled && !legendOptions.floating ? (chart.legend.legendHeight + pick(legendOptions.margin, 10)) : 0); groupHeight = groupHeight + legendHeight - 20; translateY = (alignTranslateY - groupHeight - (options.floating ? 0 : options.y) - (chart.titleOffset ? chart.titleOffset[2] : 0) - 10 // 10 spacing ); } if (verticalAlign === 'top') { if (options.floating) { translateY = 0; } if (chart.titleOffset && chart.titleOffset[0]) { translateY = chart.titleOffset[0]; } translateY += ((chart.margin[0] - chart.spacing[0]) || 0); } else if (verticalAlign === 'middle') { if (inputPosition.y === buttonPosition.y) { translateY = alignTranslateY; } else if (inputPosition.y || buttonPosition.y) { if (inputPosition.y < 0 || buttonPosition.y < 0) { translateY -= Math.min(inputPosition.y, buttonPosition.y); } else { translateY = alignTranslateY - groupHeight; } } } group.translate(options.x, options.y + Math.floor(translateY)); // Translate HTML inputs const { minInput, maxInput, dropdown } = this; if (options.inputEnabled && minInput && maxInput) { minInput.style.marginTop = group.translateY + 'px'; maxInput.style.marginTop = group.translateY + 'px'; } if (dropdown) { dropdown.style.marginTop = group.translateY + 'px'; } } } /** * Align the button group horizontally and vertically. * * @private * @function Highcharts.RangeSelector#alignButtonGroup * @param {number} xOffsetForExportButton * @param {number} [width] */ alignButtonGroup(xOffsetForExportButton, width) { const { chart, options, buttonGroup } = this; const { buttonPosition } = options; const plotLeft = chart.plotLeft - chart.spacing[3]; let translateX = buttonPosition.x - chart.spacing[3]; if (buttonPosition.align === 'right') { translateX += xOffsetForExportButton - plotLeft; // #13014 } else if (buttonPosition.align === 'center') { translateX -= plotLeft / 2; } if (buttonGroup) { // Align button group buttonGroup.align({ y: buttonPosition.y, width: pick(width, this.initialButtonGroupWidth), align: buttonPosition.align, x: translateX }, true, chart.spacingBox); } } /** * @private * @function Highcharts.RangeSelector#positionButtons */ positionButtons() { const { buttons, chart, options, zoomText } = this; const verb = chart.hasLoaded ? 'animate' : 'attr'; const { buttonPosition } = options; const plotLeft = chart.plotLeft; let buttonLeft = plotLeft; if (zoomText && zoomText.visibility !== 'hidden') { // #8769, allow dynamically updating margins zoomText[verb]({ x: pick(plotLeft + buttonPosition.x, plotLeft) }); // Button start position buttonLeft += buttonPosition.x + zoomText.getBBox().width + 5; } for (let i = 0, iEnd = this.buttonOptions.length; i < iEnd; ++i) { if (buttons[i].visibility !== 'hidden') { buttons[i][verb]({ x: buttonLeft }); // Increase the button position for the next button buttonLeft += (buttons[i].width || 0) + options.buttonSpacing; } else { buttons[i][verb]({ x: plotLeft }); } } } /** * Handle collision between the button group and the input group * * @private * @function Highcharts.RangeSelector#handleCollision * * @param {number} xOffsetForExportButton * The X offset of the group required to make room for the * exporting button */ handleCollision(xOffsetForExportButton) { const { chart, buttonGroup, inputGroup } = this; const { buttonPosition, dropdown, inputPosition } = this.options; const maxButtonWidth = () => { let buttonWidth = 0; this.buttons.forEach((button) => { const bBox = button.getBBox(); if (bBox.width > buttonWidth) { buttonWidth = bBox.width; } }); return buttonWidth; }; const groupsOverlap = (buttonGroupWidth) => { if (inputGroup && buttonGroup) { const inputGroupX = (inputGroup.alignAttr.translateX + inputGroup.alignOptions.x - xOffsetForExportButton + // `getBBox` for detecing left margin inputGroup.getBBox().x + // 2px padding to not overlap input and label 2); const inputGroupWidth = inputGroup.alignOptions.width; const buttonGroupX = buttonGroup.alignAttr.translateX + buttonGroup.getBBox().x; return (buttonGroupX + buttonGroupWidth > inputGroupX) && (inputGroupX + inputGroupWidth > buttonGroupX) && (buttonPosition.y < (inputPosition.y + inputGroup.getBBox().height)); } return false; }; const moveInputsDown = () => { if (inputGroup && buttonGroup) { inputGroup.attr({ translateX: inputGroup.alignAttr.translateX + (chart.axisOffset[1] >= -xOffsetForExportButton ? 0 : -xOffsetForExportButton), translateY: inputGroup.alignAttr.translateY + buttonGroup.getBBox().height + 10 }); } }; if (buttonGroup) { if (dropdown === 'always') { this.collapseButtons(xOffsetForExportButton); if (groupsOverlap(maxButtonWidth())) { // Move the inputs down if there is still a collision // after collapsing the buttons moveInputsDown(); } return; } if (dropdown === 'never') { this.expandButtons(); } } // Detect collision if (inputGroup && buttonGroup) { if ((inputPosition.align === buttonPosition.align) || // 20 is minimal spacing between elements groupsOverlap(this.initialButtonGroupWidth + 20)) { if (dropdown === 'responsive') { this.collapseButtons(xOffsetForExportButton); if (groupsOverlap(maxButtonWidth())) { moveInputsDown(); } } else { moveInputsDown(); } } else if (dropdown === 'responsive') { this.expandButtons(); } } else if (buttonGroup && dropdown === 'responsive') { if (this.initialButtonGroupWidth > chart.plotWidth) { this.collapseButtons(xOffsetForExportButton); } else { this.expandButtons(); } } } /** * Collapse the buttons and put the select element on top. * * @private * @function Highcharts.RangeSelector#collapseButtons * @param {number} xOffsetForExportButton */ collapseButtons(xOffsetForExportButton) { const { buttons, buttonOptions, chart, dropdown, options, zoomText } = this; // If the buttons are already collapsed do nothing. if (this.isCollapsed === true) { return; } this.isCollapsed = true; const userButtonTheme = (chart.userOptions.rangeSelector && chart.userOptions.rangeSelector.buttonTheme) || {}; const getAttribs = (text) => ({ text: text ? `${text} ▾` : '▾', width: 'auto', paddingLeft: pick(options.buttonTheme.paddingLeft, userButtonTheme.padding, 8), paddingRight: pick(options.buttonTheme.paddingRight, userButtonTheme.padding, 8) }); if (zoomText) { zoomText.hide(); } let hasActiveButton = false; buttonOptions.forEach((rangeOptions, i) => { const button = buttons[i]; if (button.state !== 2) { button.hide(); } else { button.show(); button.attr(getAttribs(rangeOptions.text)); hasActiveButton = true; } }); if (!hasActiveButton) { if (dropdown) { dropdown.selectedIndex = 0; } buttons[0].show(); buttons[0].attr(getAttribs(this.zoomText && this.zoomText.textStr)); } const { align } = options.buttonPosition; this.positionButtons(); if (align === 'right' || align === 'center') { this.alignButtonGroup(xOffsetForExportButton, buttons[this.currentButtonIndex()].getBBox().width); } this.showDropdown(); } /** * Show all the buttons and hide the select element. * * @private * @function Highcharts.RangeSelector#expandButtons */ expandButtons() { const { buttons, buttonOptions, options, zoomText } = this; this.hideDropdown(); // If buttons are already not collapsed, do nothing. if (this.isCollapsed === false) { return; } this.isCollapsed = false; if (zoomText) { zoomText.show(); } buttonOptions.forEach((rangeOptions, i) => { const button = buttons[i]; button.show(); button.attr({ text: rangeOptions.text, width: options.buttonTheme.width || 28, paddingLeft: pick(options.buttonTheme.paddingLeft, 'unset'), paddingRight: pick(options.buttonTheme.paddingRight, 'unset') }); if (button.state < 2) { button.setState(0); } }); this.positionButtons(); } /** * Get the index of the visible button when the buttons are collapsed. * * @private * @function Highcharts.RangeSelector#currentButtonIndex */ currentButtonIndex() { const { dropdown } = this; if (dropdown && dropdown.selectedIndex > 0) { return dropdown.selectedIndex - 1; } return 0; } /** * Position the select element on top of the button. * * @private * @function Highcharts.RangeSelector#showDropdown */ showDropdown() { const { buttonGroup, buttons, chart, dropdown } = this; if (buttonGroup && dropdown) { const { translateX = 0, translateY = 0 } = buttonGroup, bBox = buttons[this.currentButtonIndex()].getBBox(); css(dropdown, { left: (chart.plotLeft + translateX) + 'px', top: (translateY + 0.5) + 'px', width: bBox.width + 'px', height: bBox.height + 'px' }); this.hasVisibleDropdown = true; } } /** * @private * @function Highcharts.RangeSelector#hideDropdown */ hideDropdown() { const { dropdown } = this; if (dropdown) { css(dropdown, { top: '-9999em', width: '1px', height: '1px' }); this.hasVisibleDropdown = false; } } /** * Extracts height of range selector * * @private * @function Highcharts.RangeSelector#getHeight * @return {number} * Returns rangeSelector height */ getHeight() { const rangeSelector = this, options = rangeSelector.options, rangeSelectorGroup = rangeSelector.group, inputPosition = options.inputPosition, buttonPosition = options.buttonPosition, yPosition = options.y, buttonPositionY = buttonPosition.y, inputPositionY = inputPosition.y; let rangeSelectorHeight = 0; if (options.height) { return options.height; } // Align the elements before we read the height in case we're switching // between wrapped and non-wrapped layout this.alignElements(); rangeSelectorHeight = rangeSelectorGroup ? // 13px to keep back compatibility (rangeSelectorGroup.getBBox(true).height) + 13 + yPosition : 0; const minPosition = Math.min(inputPositionY, buttonPositionY); if ((inputPositionY < 0 && buttonPositionY < 0) || (inputPositionY > 0 && buttonPositionY > 0)) { rangeSelectorHeight += Math.abs(minPosition); } return rangeSelectorHeight; } /** * Detect collision with title or subtitle * * @private * @function Highcharts.RangeSelector#titleCollision * @return {boolean} * Returns collision status */ titleCollision(chart) { return !(chart.options.title.text || chart.options.subtitle.text); } /** * Update the range selector with new options * * @private * @function Highcharts.RangeSelector#update * @param {Highcharts.RangeSelectorOptions} options */ update(options) { const chart = this.chart; merge(true, chart.options.rangeSelector, options); this.destroy(); this.init(chart); this.render(); } /** * Destroys allocated elements. * * @private * @function Highcharts.RangeSelector#destroy */ destroy() { const rSelector = this, minInput = rSelector.minInput, maxInput = rSelector.maxInput; if (rSelector.eventsToUnbind) { rSelector.eventsToUnbind.forEach((unbind) => unbind()); rSelector.eventsToUnbind = void 0; } // Destroy elements in collections destroyObjectProperties(rSelector.buttons); // Clear input element events if (minInput) { minInput.onfocus = minInput.onblur = minInput.onchange = null; } if (maxInput) { maxInput.onfocus = maxInput.onblur = maxInput.onchange = null; } // Destroy HTML and SVG elements objectEach(rSelector, function (val, key) { if (val && key !== 'chart') { if (val instanceof SVGElement) { // SVGElement val.destroy(); } else if (val instanceof window.HTMLElement) { // HTML element discardElement(val); } } if (val !== RangeSelector.prototype[key]) { rSelector[key] = null; } }, this); } } extend(RangeSelector.prototype, { /** * The default buttons for pre-selecting time frames. * @private */ defaultButtons: [{ type: 'month', count: 1, text: '1m', title: 'View 1 month' }, { type: 'month', count: 3, text: '3m', title: 'View 3 months' }, { type: 'month', count: 6, text: '6m', title: 'View 6 months' }, { type: 'ytd', text: 'YTD', title: 'View year to date' }, { type: 'year', count: 1, text: '1y', title: 'View 1 year' }, { type: 'all', text: 'All', title: 'View all' }], /** * The date formats to use when setting min, max and value on date inputs. * @private */ inputTypeFormats: { 'datetime-local': '%Y-%m-%dT%H:%M:%S', 'date': '%Y-%m-%d', 'time': '%H:%M:%S' } }); /* * * * Default Export * * */ /* * * * API Options * * */ /** * Define the time span for the button * * @typedef {"all"|"day"|"hour"|"millisecond"|"minute"|"month"|"second"|"week"|"year"|"ytd"} Highcharts.RangeSelectorButtonTypeValue */ /** * Callback function to react on button clicks. * * @callback Highcharts.RangeSelectorClickCallbackFunction * * @param {global.Event} e * Event arguments. * * @param {boolean|undefined} * Return false to cancel the default button event. */ /** * Callback function to parse values entered in the input boxes and return a * valid JavaScript time as milliseconds since 1970. * * @callback Highcharts.RangeSelectorParseCallbackFunction * * @param {string} value * Input value to parse. * * @return {number} * Parsed JavaScript time value. */ (''); // Keeps doclets above in JS file return RangeSelector; }); _registerModule(_modules, 'Series/PathUtilities.js', [], function () { /* * * * (c) 2010-2024 Pawel Lysy * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const getLinkPath = { 'default': getDefaultPath, straight: getStraightPath, curved: getCurvedPath }; /** * */ function getDefaultPath(pathParams) { const { x1, y1, x2, y2, width = 0, inverted = false, radius, parentVisible } = pathParams; const path = [ ['M', x1, y1], ['L', x1, y1], ['C', x1, y1, x1, y2, x1, y2], ['L', x1, y2], ['C', x1, y1, x1, y2, x1, y2], ['L', x1, y2] ]; return parentVisible ? applyRadius([ ['M', x1, y1], ['L', x1 + width * (inverted ? -0.5 : 0.5), y1], ['L', x1 + width * (inverted ? -0.5 : 0.5), y2], ['L', x2, y2] ], radius) : path; } /** * */ function getStraightPath(pathParams) { const { x1, y1, x2, y2, width = 0, inverted = false, parentVisible } = pathParams; return parentVisible ? [ ['M', x1, y1], ['L', x1 + width * (inverted ? -1 : 1), y2], ['L', x2, y2] ] : [ ['M', x1, y1], ['L', x1, y2], ['L', x1, y2] ]; } /** * */ function getCurvedPath(pathParams) { const { x1, y1, x2, y2, offset = 0, width = 0, inverted = false, parentVisible } = pathParams; return parentVisible ? [ ['M', x1, y1], [ 'C', x1 + offset, y1, x1 - offset + width * (inverted ? -1 : 1), y2, x1 + width * (inverted ? -1 : 1), y2 ], ['L', x2, y2] ] : [ ['M', x1, y1], ['C', x1, y1, x1, y2, x1, y2], ['L', x2, y2] ]; } /** * General function to apply corner radius to a path * @private */ function applyRadius(path, r) { const d = []; for (let i = 0; i < path.length; i++) { const x = path[i][1]; const y = path[i][2]; if (typeof x === 'number' && typeof y === 'number') { // MoveTo if (i === 0) { d.push(['M', x, y]); } else if (i === path.length - 1) { d.push(['L', x, y]); // CurveTo } else if (r) { const prevSeg = path[i - 1]; const nextSeg = path[i + 1]; if (prevSeg && nextSeg) { const x1 = prevSeg[1], y1 = prevSeg[2], x2 = nextSeg[1], y2 = nextSeg[2]; // Only apply to breaks if (typeof x1 === 'number' && typeof x2 === 'number' && typeof y1 === 'number' && typeof y2 === 'number' && x1 !== x2 && y1 !== y2) { const directionX = x1 < x2 ? 1 : -1, directionY = y1 < y2 ? 1 : -1; d.push([ 'L', x - directionX * Math.min(Math.abs(x - x1), r), y - directionY * Math.min(Math.abs(y - y1), r) ], [ 'C', x, y, x, y, x + directionX * Math.min(Math.abs(x - x2), r), y + directionY * Math.min(Math.abs(y - y2), r) ]); } } // LineTo } else { d.push(['L', x, y]); } } } return d; } const PathUtilities = { applyRadius, getLinkPath }; return PathUtilities; }); _registerModule(_modules, 'Gantt/PathfinderAlgorithms.js', [_modules['Series/PathUtilities.js'], _modules['Core/Utilities.js']], function (PathUtilities, U) { /* * * * (c) 2016 Highsoft AS * Author: Øystein Moseng * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { pick } = U; /* * * * Constants * * */ const { min, max, abs } = Math; /* * * * Functions * * */ /** * Get index of last obstacle before xMin. Employs a type of binary search, and * thus requires that obstacles are sorted by xMin value. * * @private * @function findLastObstacleBefore * * @param {Array} obstacles * Array of obstacles to search in. * * @param {number} xMin * The xMin threshold. * * @param {number} [startIx] * Starting index to search from. Must be within array range. * * @return {number} * The index of the last obstacle element before xMin. */ function findLastObstacleBefore(obstacles, xMin, startIx) { const min = xMin - 0.0000001; // Make sure we include all obstacles at xMin let left = startIx || 0, // Left limit right = obstacles.length - 1, // Right limit cursor, cmp; while (left <= right) { cursor = (right + left) >> 1; cmp = min - obstacles[cursor].xMin; if (cmp > 0) { left = cursor + 1; } else if (cmp < 0) { right = cursor - 1; } else { return cursor; } } return left > 0 ? left - 1 : 0; } /** * Test if a point lays within an obstacle. * * @private * @function pointWithinObstacle * * @param {Object} obstacle * Obstacle to test. * * @param {Highcharts.Point} point * Point with x/y props. * * @return {boolean} * Whether point is within the obstacle or not. */ function pointWithinObstacle(obstacle, point) { return (point.x <= obstacle.xMax && point.x >= obstacle.xMin && point.y <= obstacle.yMax && point.y >= obstacle.yMin); } /** * Find the index of an obstacle that wraps around a point. * Returns -1 if not found. * * @private * @function findObstacleFromPoint * * @param {Array} obstacles * Obstacles to test. * * @param {Highcharts.Point} point * Point with x/y props. * * @return {number} * Ix of the obstacle in the array, or -1 if not found. */ function findObstacleFromPoint(obstacles, point) { let i = findLastObstacleBefore(obstacles, point.x + 1) + 1; while (i--) { if (obstacles[i].xMax >= point.x && // Optimization using lazy evaluation pointWithinObstacle(obstacles[i], point)) { return i; } } return -1; } /** * Get SVG path array from array of line segments. * * @private * @function pathFromSegments * * @param {Array} segments * The segments to build the path from. * * @return {Highcharts.SVGPathArray} * SVG path array as accepted by the SVG Renderer. */ function pathFromSegments(segments) { const path = []; if (segments.length) { path.push(['M', segments[0].start.x, segments[0].start.y]); for (let i = 0; i < segments.length; ++i) { path.push(['L', segments[i].end.x, segments[i].end.y]); } } return path; } /** * Limits obstacle max/mins in all directions to bounds. Modifies input * obstacle. * * @private * @function limitObstacleToBounds * * @param {Object} obstacle * Obstacle to limit. * * @param {Object} bounds * Bounds to use as limit. * * @return {void} */ function limitObstacleToBounds(obstacle, bounds) { obstacle.yMin = max(obstacle.yMin, bounds.yMin); obstacle.yMax = min(obstacle.yMax, bounds.yMax); obstacle.xMin = max(obstacle.xMin, bounds.xMin); obstacle.xMax = min(obstacle.xMax, bounds.xMax); } /** * Get an SVG path from a starting coordinate to an ending coordinate. * Draws a straight line. * * @function Highcharts.Pathfinder.algorithms.straight * * @param {Highcharts.PositionObject} start * Starting coordinate, object with x/y props. * * @param {Highcharts.PositionObject} end * Ending coordinate, object with x/y props. * * @return {Object} * An object with the SVG path in Array form as accepted by the SVG * renderer, as well as an array of new obstacles making up this * path. */ function straight(start, end) { return { path: [ ['M', start.x, start.y], ['L', end.x, end.y] ], obstacles: [{ start: start, end: end }] }; } /** * Find a path from a starting coordinate to an ending coordinate, using * right angles only, and taking only starting/ending obstacle into * consideration. * * @function Highcharts.Pathfinder.algorithms.simpleConnect * * @param {Highcharts.PositionObject} start * Starting coordinate, object with x/y props. * * @param {Highcharts.PositionObject} end * Ending coordinate, object with x/y props. * * @param {Object} options * Options for the algorithm: * - chartObstacles: Array of chart obstacles to avoid * - startDirectionX: Optional. True if starting in the X direction. * If not provided, the algorithm starts in the direction that is * the furthest between start/end. * * @return {Object} * An object with the SVG path in Array form as accepted by the SVG * renderer, as well as an array of new obstacles making up this * path. */ const simpleConnect = function (start, end, options) { const segments = [], chartObstacles = options.chartObstacles, startObstacleIx = findObstacleFromPoint(chartObstacles, start), endObstacleIx = findObstacleFromPoint(chartObstacles, end); let endSegment, dir = pick(options.startDirectionX, abs(end.x - start.x) > abs(end.y - start.y)) ? 'x' : 'y', startObstacle, endObstacle, waypoint, useMax, endPoint; // eslint-disable-next-line valid-jsdoc /** * Return a clone of a point with a property set from a target object, * optionally with an offset * @private */ function copyFromPoint(from, fromKey, to, toKey, offset) { const point = { x: from.x, y: from.y }; point[fromKey] = to[toKey || fromKey] + (offset || 0); return point; } // eslint-disable-next-line valid-jsdoc /** * Return waypoint outside obstacle. * @private */ function getMeOut(obstacle, point, direction) { const useMax = abs(point[direction] - obstacle[direction + 'Min']) > abs(point[direction] - obstacle[direction + 'Max']); return copyFromPoint(point, direction, obstacle, direction + (useMax ? 'Max' : 'Min'), useMax ? 1 : -1); } // Pull out end point if (endObstacleIx > -1) { endObstacle = chartObstacles[endObstacleIx]; waypoint = getMeOut(endObstacle, end, dir); endSegment = { start: waypoint, end: end }; endPoint = waypoint; } else { endPoint = end; } // If an obstacle envelops the start point, add a segment to get out, // and around it. if (startObstacleIx > -1) { startObstacle = chartObstacles[startObstacleIx]; waypoint = getMeOut(startObstacle, start, dir); segments.push({ start: start, end: waypoint }); // If we are going back again, switch direction to get around start // obstacle. if ( // Going towards max from start: waypoint[dir] >= start[dir] === // Going towards min to end: waypoint[dir] >= endPoint[dir]) { dir = dir === 'y' ? 'x' : 'y'; useMax = start[dir] < end[dir]; segments.push({ start: waypoint, end: copyFromPoint(waypoint, dir, startObstacle, dir + (useMax ? 'Max' : 'Min'), useMax ? 1 : -1) }); // Switch direction again dir = dir === 'y' ? 'x' : 'y'; } } // We are around the start obstacle. Go towards the end in one // direction. const prevWaypoint = segments.length ? segments[segments.length - 1].end : start; waypoint = copyFromPoint(prevWaypoint, dir, endPoint); segments.push({ start: prevWaypoint, end: waypoint }); // Final run to end point in the other direction dir = dir === 'y' ? 'x' : 'y'; const waypoint2 = copyFromPoint(waypoint, dir, endPoint); segments.push({ start: waypoint, end: waypoint2 }); // Finally add the endSegment segments.push(endSegment); const path = PathUtilities.applyRadius(pathFromSegments(segments), options.radius); return { path, obstacles: segments }; }; simpleConnect.requiresObstacles = true; /** * Find a path from a starting coordinate to an ending coordinate, taking * obstacles into consideration. Might not always find the optimal path, * but is fast, and usually good enough. * * @function Highcharts.Pathfinder.algorithms.fastAvoid * * @param {Highcharts.PositionObject} start * Starting coordinate, object with x/y props. * * @param {Highcharts.PositionObject} end * Ending coordinate, object with x/y props. * * @param {Object} options * Options for the algorithm. * - chartObstacles: Array of chart obstacles to avoid * - lineObstacles: Array of line obstacles to jump over * - obstacleMetrics: Object with metrics of chartObstacles cached * - hardBounds: Hard boundaries to not cross * - obstacleOptions: Options for the obstacles, including margin * - startDirectionX: Optional. True if starting in the X direction. * If not provided, the algorithm starts in the * direction that is the furthest between * start/end. * * @return {Object} * An object with the SVG path in Array form as accepted by the SVG * renderer, as well as an array of new obstacles making up this * path. */ function fastAvoid(start, end, options) { /* Algorithm rules/description - Find initial direction - Determine soft/hard max for each direction. - Move along initial direction until obstacle. - Change direction. - If hitting obstacle, first try to change length of previous line before changing direction again. Soft min/max x = start/destination x +/- widest obstacle + margin Soft min/max y = start/destination y +/- tallest obstacle + margin @todo: - Make retrospective, try changing prev segment to reduce corners - Fix logic for breaking out of end-points - not always picking the best direction currently - When going around the end obstacle we should not always go the shortest route, rather pick the one closer to the end point */ const dirIsX = pick(options.startDirectionX, abs(end.x - start.x) > abs(end.y - start.y)), dir = dirIsX ? 'x' : 'y', endSegments = [], // Boundaries to stay within. If beyond soft boundary, prefer to // change direction ASAP. If at hard max, always change immediately. metrics = options.obstacleMetrics, softMinX = min(start.x, end.x) - metrics.maxWidth - 10, softMaxX = max(start.x, end.x) + metrics.maxWidth + 10, softMinY = min(start.y, end.y) - metrics.maxHeight - 10, softMaxY = max(start.y, end.y) + metrics.maxHeight + 10; let segments, useMax, extractedEndPoint, forceObstacleBreak = false, // Used in clearPathTo to keep track of // when to force break through an obstacle. // Obstacles chartObstacles = options.chartObstacles, endObstacleIx = findLastObstacleBefore(chartObstacles, softMaxX); const startObstacleIx = findLastObstacleBefore(chartObstacles, softMinX); // eslint-disable-next-line valid-jsdoc /** * How far can you go between two points before hitting an obstacle? * Does not work for diagonal lines (because it doesn't have to). * @private */ function pivotPoint(fromPoint, toPoint, directionIsX) { const searchDirection = fromPoint.x < toPoint.x ? 1 : -1; let firstPoint, lastPoint, highestPoint, lowestPoint; if (fromPoint.x < toPoint.x) { firstPoint = fromPoint; lastPoint = toPoint; } else { firstPoint = toPoint; lastPoint = fromPoint; } if (fromPoint.y < toPoint.y) { lowestPoint = fromPoint; highestPoint = toPoint; } else { lowestPoint = toPoint; highestPoint = fromPoint; } // Go through obstacle range in reverse if toPoint is before // fromPoint in the X-dimension. let i = searchDirection < 0 ? // Searching backwards, start at last obstacle before last point min(findLastObstacleBefore(chartObstacles, lastPoint.x), chartObstacles.length - 1) : // Forwards. Since we're not sorted by xMax, we have to look // at all obstacles. 0; // Go through obstacles in this X range while (chartObstacles[i] && (searchDirection > 0 && chartObstacles[i].xMin <= lastPoint.x || searchDirection < 0 && chartObstacles[i].xMax >= firstPoint.x)) { // If this obstacle is between from and to points in a straight // line, pivot at the intersection. if (chartObstacles[i].xMin <= lastPoint.x && chartObstacles[i].xMax >= firstPoint.x && chartObstacles[i].yMin <= highestPoint.y && chartObstacles[i].yMax >= lowestPoint.y) { if (directionIsX) { return { y: fromPoint.y, x: fromPoint.x < toPoint.x ? chartObstacles[i].xMin - 1 : chartObstacles[i].xMax + 1, obstacle: chartObstacles[i] }; } // Else ... return { x: fromPoint.x, y: fromPoint.y < toPoint.y ? chartObstacles[i].yMin - 1 : chartObstacles[i].yMax + 1, obstacle: chartObstacles[i] }; } i += searchDirection; } return toPoint; } /** * Decide in which direction to dodge or get out of an obstacle. * Considers desired direction, which way is shortest, soft and hard * bounds. * * (? Returns a string, either xMin, xMax, yMin or yMax.) * * @private * @function * * @param {Object} obstacle * Obstacle to dodge/escape. * * @param {Object} fromPoint * Point with x/y props that's dodging/escaping. * * @param {Object} toPoint * Goal point. * * @param {boolean} dirIsX * Dodge in X dimension. * * @param {Object} bounds * Hard and soft boundaries. * * @return {boolean} * Use max or not. */ function getDodgeDirection(obstacle, fromPoint, toPoint, dirIsX, bounds) { const softBounds = bounds.soft, hardBounds = bounds.hard, dir = dirIsX ? 'x' : 'y', toPointMax = { x: fromPoint.x, y: fromPoint.y }, toPointMin = { x: fromPoint.x, y: fromPoint.y }, maxOutOfSoftBounds = obstacle[dir + 'Max'] >= softBounds[dir + 'Max'], minOutOfSoftBounds = obstacle[dir + 'Min'] <= softBounds[dir + 'Min'], maxOutOfHardBounds = obstacle[dir + 'Max'] >= hardBounds[dir + 'Max'], minOutOfHardBounds = obstacle[dir + 'Min'] <= hardBounds[dir + 'Min'], // Find out if we should prefer one direction over the other if // we can choose freely minDistance = abs(obstacle[dir + 'Min'] - fromPoint[dir]), maxDistance = abs(obstacle[dir + 'Max'] - fromPoint[dir]); let // If it's a small difference, pick the one leading towards dest // point. Otherwise pick the shortest distance useMax = abs(minDistance - maxDistance) < 10 ? fromPoint[dir] < toPoint[dir] : maxDistance < minDistance; // Check if we hit any obstacles trying to go around in either // direction. toPointMin[dir] = obstacle[dir + 'Min']; toPointMax[dir] = obstacle[dir + 'Max']; const minPivot = pivotPoint(fromPoint, toPointMin, dirIsX)[dir] !== toPointMin[dir], maxPivot = pivotPoint(fromPoint, toPointMax, dirIsX)[dir] !== toPointMax[dir]; useMax = minPivot ? (maxPivot ? useMax : true) : (maxPivot ? false : useMax); // `useMax` now contains our preferred choice, bounds not taken into // account. If both or neither direction is out of bounds we want to // use this. // Deal with soft bounds useMax = minOutOfSoftBounds ? (maxOutOfSoftBounds ? useMax : true) : // Out on min (maxOutOfSoftBounds ? false : useMax); // Not out on min // Deal with hard bounds useMax = minOutOfHardBounds ? (maxOutOfHardBounds ? useMax : true) : // Out on min (maxOutOfHardBounds ? false : useMax); // Not out on min return useMax; } // eslint-disable-next-line valid-jsdoc /** * Find a clear path between point. * @private */ function clearPathTo(fromPoint, toPoint, dirIsX) { // Don't waste time if we've hit goal if (fromPoint.x === toPoint.x && fromPoint.y === toPoint.y) { return []; } const dir = dirIsX ? 'x' : 'y', obstacleMargin = options.obstacleOptions.margin, bounds = { soft: { xMin: softMinX, xMax: softMaxX, yMin: softMinY, yMax: softMaxY }, hard: options.hardBounds }; let pivot, segments, waypoint, waypointUseMax, envelopingObstacle, secondEnvelopingObstacle, envelopWaypoint; // If fromPoint is inside an obstacle we have a problem. Break out // by just going to the outside of this obstacle. We prefer to go to // the nearest edge in the chosen direction. envelopingObstacle = findObstacleFromPoint(chartObstacles, fromPoint); if (envelopingObstacle > -1) { envelopingObstacle = chartObstacles[envelopingObstacle]; waypointUseMax = getDodgeDirection(envelopingObstacle, fromPoint, toPoint, dirIsX, bounds); // Cut obstacle to hard bounds to make sure we stay within limitObstacleToBounds(envelopingObstacle, options.hardBounds); envelopWaypoint = dirIsX ? { y: fromPoint.y, x: envelopingObstacle[waypointUseMax ? 'xMax' : 'xMin'] + (waypointUseMax ? 1 : -1) } : { x: fromPoint.x, y: envelopingObstacle[waypointUseMax ? 'yMax' : 'yMin'] + (waypointUseMax ? 1 : -1) }; // If we crashed into another obstacle doing this, we put the // waypoint between them instead secondEnvelopingObstacle = findObstacleFromPoint(chartObstacles, envelopWaypoint); if (secondEnvelopingObstacle > -1) { secondEnvelopingObstacle = chartObstacles[secondEnvelopingObstacle]; // Cut obstacle to hard bounds limitObstacleToBounds(secondEnvelopingObstacle, options.hardBounds); // Modify waypoint to lay between obstacles envelopWaypoint[dir] = waypointUseMax ? max(envelopingObstacle[dir + 'Max'] - obstacleMargin + 1, (secondEnvelopingObstacle[dir + 'Min'] + envelopingObstacle[dir + 'Max']) / 2) : min((envelopingObstacle[dir + 'Min'] + obstacleMargin - 1), ((secondEnvelopingObstacle[dir + 'Max'] + envelopingObstacle[dir + 'Min']) / 2)); // We are not going anywhere. If this happens for the first // time, do nothing. Otherwise, try to go to the extreme of // the obstacle pair in the current direction. if (fromPoint.x === envelopWaypoint.x && fromPoint.y === envelopWaypoint.y) { if (forceObstacleBreak) { envelopWaypoint[dir] = waypointUseMax ? max(envelopingObstacle[dir + 'Max'], secondEnvelopingObstacle[dir + 'Max']) + 1 : min(envelopingObstacle[dir + 'Min'], secondEnvelopingObstacle[dir + 'Min']) - 1; } // Toggle on if off, and the opposite forceObstacleBreak = !forceObstacleBreak; } else { // This point is not identical to previous. // Clear break trigger. forceObstacleBreak = false; } } segments = [{ start: fromPoint, end: envelopWaypoint }]; } else { // If not enveloping, use standard pivot calculation pivot = pivotPoint(fromPoint, { x: dirIsX ? toPoint.x : fromPoint.x, y: dirIsX ? fromPoint.y : toPoint.y }, dirIsX); segments = [{ start: fromPoint, end: { x: pivot.x, y: pivot.y } }]; // Pivot before goal, use a waypoint to dodge obstacle if (pivot[dirIsX ? 'x' : 'y'] !== toPoint[dirIsX ? 'x' : 'y']) { // Find direction of waypoint waypointUseMax = getDodgeDirection(pivot.obstacle, pivot, toPoint, !dirIsX, bounds); // Cut waypoint to hard bounds limitObstacleToBounds(pivot.obstacle, options.hardBounds); waypoint = { x: dirIsX ? pivot.x : pivot.obstacle[waypointUseMax ? 'xMax' : 'xMin'] + (waypointUseMax ? 1 : -1), y: dirIsX ? pivot.obstacle[waypointUseMax ? 'yMax' : 'yMin'] + (waypointUseMax ? 1 : -1) : pivot.y }; // We're changing direction here, store that to make sure we // also change direction when adding the last segment array // after handling waypoint. dirIsX = !dirIsX; segments = segments.concat(clearPathTo({ x: pivot.x, y: pivot.y }, waypoint, dirIsX)); } } // Get segments for the other direction too // Recursion is our friend segments = segments.concat(clearPathTo(segments[segments.length - 1].end, toPoint, !dirIsX)); return segments; } // eslint-disable-next-line valid-jsdoc /** * Extract point to outside of obstacle in whichever direction is * closest. Returns new point outside obstacle. * @private */ function extractFromObstacle(obstacle, point, goalPoint) { const dirIsX = min(obstacle.xMax - point.x, point.x - obstacle.xMin) < min(obstacle.yMax - point.y, point.y - obstacle.yMin), bounds = { soft: options.hardBounds, hard: options.hardBounds }, useMax = getDodgeDirection(obstacle, point, goalPoint, dirIsX, bounds); return dirIsX ? { y: point.y, x: obstacle[useMax ? 'xMax' : 'xMin'] + (useMax ? 1 : -1) } : { x: point.x, y: obstacle[useMax ? 'yMax' : 'yMin'] + (useMax ? 1 : -1) }; } // Cut the obstacle array to soft bounds for optimization in large // datasets. chartObstacles = chartObstacles.slice(startObstacleIx, endObstacleIx + 1); // If an obstacle envelops the end point, move it out of there and add // a little segment to where it was. if ((endObstacleIx = findObstacleFromPoint(chartObstacles, end)) > -1) { extractedEndPoint = extractFromObstacle(chartObstacles[endObstacleIx], end, start); endSegments.push({ end: end, start: extractedEndPoint }); end = extractedEndPoint; } // If it's still inside one or more obstacles, get out of there by // force-moving towards the start point. while ((endObstacleIx = findObstacleFromPoint(chartObstacles, end)) > -1) { useMax = end[dir] - start[dir] < 0; extractedEndPoint = { x: end.x, y: end.y }; extractedEndPoint[dir] = chartObstacles[endObstacleIx][useMax ? dir + 'Max' : dir + 'Min'] + (useMax ? 1 : -1); endSegments.push({ end: end, start: extractedEndPoint }); end = extractedEndPoint; } // Find the path segments = clearPathTo(start, end, dirIsX); // Add the end-point segments segments = segments.concat(endSegments.reverse()); return { path: pathFromSegments(segments), obstacles: segments }; } fastAvoid.requiresObstacles = true; /* * * * Default Export * * */ // Define the available pathfinding algorithms. // Algorithms take up to 3 arguments: starting point, ending point, and an // options object. const algorithms = { fastAvoid, straight, simpleConnect }; return algorithms; }); _registerModule(_modules, 'Gantt/ConnectorsDefaults.js', [], function () { /* * * * (c) 2016 Highsoft AS * Authors: Øystein Moseng, Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * API Defaults * * */ /* @todo: - Document how to write your own algorithms - Consider adding a Point.pathTo method that wraps creating a connection and rendering it */ const connectorsDefaults = { /** * The Pathfinder module allows you to define connections between any two * points, represented as lines - optionally with markers for the start * and/or end points. Multiple algorithms are available for calculating how * the connecting lines are drawn. * * Connector functionality requires Highcharts Gantt to be loaded. In Gantt * charts, the connectors are used to draw dependencies between tasks. * * @see [dependency](series.gantt.data.dependency) * * @sample gantt/pathfinder/demo * Pathfinder connections * * @declare Highcharts.ConnectorsOptions * @product gantt * @optionparent connectors */ connectors: { /** * Enable connectors for this chart. Requires Highcharts Gantt. * * @type {boolean} * @default true * @since 6.2.0 * @apioption connectors.enabled */ /** * Set the default dash style for this chart's connecting lines. * * @type {string} * @default solid * @since 6.2.0 * @apioption connectors.dashStyle */ /** * Set the default color for this chart's Pathfinder connecting lines. * Defaults to the color of the point being connected. * * @type {Highcharts.ColorString} * @since 6.2.0 * @apioption connectors.lineColor */ /** * Set the default pathfinder margin to use, in pixels. Some Pathfinder * algorithms attempt to avoid obstacles, such as other points in the * chart. These algorithms use this margin to determine how close lines * can be to an obstacle. The default is to compute this automatically * from the size of the obstacles in the chart. * * To draw connecting lines close to existing points, set this to a low * number. For more space around existing points, set this number * higher. * * @sample gantt/pathfinder/algorithm-margin * Small algorithmMargin * * @type {number} * @since 6.2.0 * @apioption connectors.algorithmMargin */ /** * Set the default pathfinder algorithm to use for this chart. It is * possible to define your own algorithms by adding them to the * Highcharts.Pathfinder.prototype.algorithms object before the chart * has been created. * * The default algorithms are as follows: * * `straight`: Draws a straight line between the connecting * points. Does not avoid other points when drawing. * * `simpleConnect`: Finds a path between the points using right angles * only. Takes only starting/ending points into * account, and will not avoid other points. * * `fastAvoid`: Finds a path between the points using right angles * only. Will attempt to avoid other points, but its * focus is performance over accuracy. Works well with * less dense datasets. * * Default value: `straight` is used as default for most series types, * while `simpleConnect` is used as default for Gantt series, to show * dependencies between points. * * @sample gantt/pathfinder/demo * Different types used * * @type {Highcharts.PathfinderTypeValue} * @default undefined * @since 6.2.0 */ type: 'straight', /** * The corner radius for the connector line. * * @since 11.2.0 */ radius: 0, /** * Set the default pixel width for this chart's Pathfinder connecting * lines. * * @since 6.2.0 */ lineWidth: 1, /** * Marker options for this chart's Pathfinder connectors. Note that * this option is overridden by the `startMarker` and `endMarker` * options. * * @declare Highcharts.ConnectorsMarkerOptions * @since 6.2.0 */ marker: { /** * Set the radius of the connector markers. The default is * automatically computed based on the algorithmMargin setting. * * Setting marker.width and marker.height will override this * setting. * * @type {number} * @since 6.2.0 * @apioption connectors.marker.radius */ /** * Set the width of the connector markers. If not supplied, this * is inferred from the marker radius. * * @type {number} * @since 6.2.0 * @apioption connectors.marker.width */ /** * Set the height of the connector markers. If not supplied, this * is inferred from the marker radius. * * @type {number} * @since 6.2.0 * @apioption connectors.marker.height */ /** * Set the color of the connector markers. By default this is the * same as the connector color. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @since 6.2.0 * @apioption connectors.marker.color */ /** * Set the line/border color of the connector markers. By default * this is the same as the marker color. * * @type {Highcharts.ColorString} * @since 6.2.0 * @apioption connectors.marker.lineColor */ /** * Enable markers for the connectors. */ enabled: false, /** * Horizontal alignment of the markers relative to the points. * * @type {Highcharts.AlignValue} */ align: 'center', /** * Vertical alignment of the markers relative to the points. * * @type {Highcharts.VerticalAlignValue} */ verticalAlign: 'middle', /** * Whether or not to draw the markers inside the points. */ inside: false, /** * Set the line/border width of the pathfinder markers. */ lineWidth: 1 }, /** * Marker options specific to the start markers for this chart's * Pathfinder connectors. Overrides the generic marker options. * * @declare Highcharts.ConnectorsStartMarkerOptions * @extends connectors.marker * @since 6.2.0 */ startMarker: { /** * Set the symbol of the connector start markers. */ symbol: 'diamond' }, /** * Marker options specific to the end markers for this chart's * Pathfinder connectors. Overrides the generic marker options. * * @declare Highcharts.ConnectorsEndMarkerOptions * @extends connectors.marker * @since 6.2.0 */ endMarker: { /** * Set the symbol of the connector end markers. */ symbol: 'arrow-filled' } } }; /* * * * Default Export * * */ /* * * * API Options * * */ /** * Override Pathfinder connector options for a series. Requires Highcharts Gantt * to be loaded. * * @declare Highcharts.SeriesConnectorsOptionsObject * @extends connectors * @since 6.2.0 * @excluding enabled, algorithmMargin * @product gantt * @apioption plotOptions.series.connectors */ /** * Connect to a point. This option can be either a string, referring to the ID * of another point, or an object, or an array of either. If the option is an * array, each element defines a connection. * * @sample gantt/pathfinder/demo * Different connection types * * @declare Highcharts.XrangePointConnectorsOptionsObject * @type {string|Array|*} * @extends plotOptions.series.connectors * @since 6.2.0 * @excluding enabled * @product gantt * @requires highcharts-gantt * @apioption series.xrange.data.connect */ /** * The ID of the point to connect to. * * @type {string} * @since 6.2.0 * @product gantt * @apioption series.xrange.data.connect.to */ ''; // Keeps doclets above in JS file return connectorsDefaults; }); _registerModule(_modules, 'Gantt/PathfinderComposition.js', [_modules['Gantt/ConnectorsDefaults.js'], _modules['Core/Defaults.js'], _modules['Core/Utilities.js']], function (ConnectorsDefaults, D, U) { /* * * * (c) 2016 Highsoft AS * Authors: Øystein Moseng, Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { setOptions } = D; const { defined, error, merge } = U; /* * * * Functions * * */ /** * Get point bounding box using plotX/plotY and shapeArgs. If using * graphic.getBBox() directly, the bbox will be affected by animation. * * @private * @function * * @param {Highcharts.Point} point * The point to get BB of. * * @return {Highcharts.Dictionary|null} * Result xMax, xMin, yMax, yMin. */ function getPointBB(point) { const shapeArgs = point.shapeArgs; // Prefer using shapeArgs (columns) if (shapeArgs) { return { xMin: shapeArgs.x || 0, xMax: (shapeArgs.x || 0) + (shapeArgs.width || 0), yMin: shapeArgs.y || 0, yMax: (shapeArgs.y || 0) + (shapeArgs.height || 0) }; } // Otherwise use plotX/plotY and bb const bb = point.graphic && point.graphic.getBBox(); return bb ? { xMin: point.plotX - bb.width / 2, xMax: point.plotX + bb.width / 2, yMin: point.plotY - bb.height / 2, yMax: point.plotY + bb.height / 2 } : null; } /** * Warn if using legacy options. Copy the options over. Note that this will * still break if using the legacy options in chart.update, addSeries etc. * @private */ function warnLegacy(chart) { if (chart.options.pathfinder || chart.series.reduce(function (acc, series) { if (series.options) { merge(true, (series.options.connectors = series.options.connectors || {}), series.options.pathfinder); } return acc || series.options && series.options.pathfinder; }, false)) { merge(true, (chart.options.connectors = chart.options.connectors || {}), chart.options.pathfinder); error('WARNING: Pathfinder options have been renamed. ' + 'Use "chart.connectors" or "series.connectors" instead.'); } } /* * * * Composition * * */ var ConnectionComposition; (function (ConnectionComposition) { /* * * * Functions * * */ /** @private */ function compose(ChartClass, PathfinderClass, PointClass) { const pointProto = PointClass.prototype; if (!pointProto.getPathfinderAnchorPoint) { // Initialize Pathfinder for charts ChartClass.prototype.callbacks.push(function (chart) { const options = chart.options; if (options.connectors.enabled !== false) { warnLegacy(chart); this.pathfinder = new PathfinderClass(this); this.pathfinder.update(true); // First draw, defer render } }); pointProto.getMarkerVector = pointGetMarkerVector; pointProto.getPathfinderAnchorPoint = pointGetPathfinderAnchorPoint; pointProto.getRadiansToVector = pointGetRadiansToVector; // Set default Pathfinder options setOptions(ConnectorsDefaults); } } ConnectionComposition.compose = compose; /** * Get coordinates of anchor point for pathfinder connection. * * @private * @function Highcharts.Point#getPathfinderAnchorPoint * * @param {Highcharts.ConnectorsMarkerOptions} markerOptions * Connection options for position on point. * * @return {Highcharts.PositionObject} * An object with x/y properties for the position. Coordinates are * in plot values, not relative to point. */ function pointGetPathfinderAnchorPoint(markerOptions) { const bb = getPointBB(this); let x, y; switch (markerOptions.align) { // eslint-disable-line default-case case 'right': x = 'xMax'; break; case 'left': x = 'xMin'; } switch (markerOptions.verticalAlign) { // eslint-disable-line default-case case 'top': y = 'yMin'; break; case 'bottom': y = 'yMax'; } return { x: x ? bb[x] : (bb.xMin + bb.xMax) / 2, y: y ? bb[y] : (bb.yMin + bb.yMax) / 2 }; } /** * Utility to get the angle from one point to another. * * @private * @function Highcharts.Point#getRadiansToVector * * @param {Highcharts.PositionObject} v1 * The first vector, as an object with x/y properties. * * @param {Highcharts.PositionObject} v2 * The second vector, as an object with x/y properties. * * @return {number} * The angle in degrees */ function pointGetRadiansToVector(v1, v2) { let box; if (!defined(v2)) { box = getPointBB(this); if (box) { v2 = { x: (box.xMin + box.xMax) / 2, y: (box.yMin + box.yMax) / 2 }; } } return Math.atan2(v2.y - v1.y, v1.x - v2.x); } /** * Utility to get the position of the marker, based on the path angle and * the marker's radius. * * @private * @function Highcharts.Point#getMarkerVector * * @param {number} radians * The angle in radians from the point center to another vector. * * @param {number} markerRadius * The radius of the marker, to calculate the additional distance to * the center of the marker. * * @param {Object} anchor * The anchor point of the path and marker as an object with x/y * properties. * * @return {Object} * The marker vector as an object with x/y properties. */ function pointGetMarkerVector(radians, markerRadius, anchor) { const twoPI = Math.PI * 2.0, bb = getPointBB(this), rectWidth = bb.xMax - bb.xMin, rectHeight = bb.yMax - bb.yMin, rAtan = Math.atan2(rectHeight, rectWidth), rectHalfWidth = rectWidth / 2.0, rectHalfHeight = rectHeight / 2.0, rectHorizontalCenter = bb.xMin + rectHalfWidth, rectVerticalCenter = bb.yMin + rectHalfHeight, edgePoint = { x: rectHorizontalCenter, y: rectVerticalCenter }; let theta = radians, tanTheta = 1, leftOrRightRegion = false, xFactor = 1, yFactor = 1; while (theta < -Math.PI) { theta += twoPI; } while (theta > Math.PI) { theta -= twoPI; } tanTheta = Math.tan(theta); if ((theta > -rAtan) && (theta <= rAtan)) { // Right side yFactor = -1; leftOrRightRegion = true; } else if (theta > rAtan && theta <= (Math.PI - rAtan)) { // Top side yFactor = -1; } else if (theta > (Math.PI - rAtan) || theta <= -(Math.PI - rAtan)) { // Left side xFactor = -1; leftOrRightRegion = true; } else { // Bottom side xFactor = -1; } // Correct the edgePoint according to the placement of the marker if (leftOrRightRegion) { edgePoint.x += xFactor * (rectHalfWidth); edgePoint.y += yFactor * (rectHalfWidth) * tanTheta; } else { edgePoint.x += xFactor * (rectHeight / (2.0 * tanTheta)); edgePoint.y += yFactor * (rectHalfHeight); } if (anchor.x !== rectHorizontalCenter) { edgePoint.x = anchor.x; } if (anchor.y !== rectVerticalCenter) { edgePoint.y = anchor.y; } return { x: edgePoint.x + (markerRadius * Math.cos(theta)), y: edgePoint.y - (markerRadius * Math.sin(theta)) }; } })(ConnectionComposition || (ConnectionComposition = {})); /* * * * Default Export * * */ return ConnectionComposition; }); _registerModule(_modules, 'Gantt/Pathfinder.js', [_modules['Gantt/Connection.js'], _modules['Gantt/PathfinderAlgorithms.js'], _modules['Gantt/PathfinderComposition.js'], _modules['Core/Series/Point.js'], _modules['Core/Utilities.js']], function (Connection, PathfinderAlgorithms, PathfinderComposition, Point, U) { /* * * * (c) 2016 Highsoft AS * Authors: Øystein Moseng, Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { addEvent, defined, pick, splat } = U; /* * * * Constants * * */ const max = Math.max, min = Math.min; /* * * * Functions * * */ /** * Get point bounding box using plotX/plotY and shapeArgs. If using * graphic.getBBox() directly, the bbox will be affected by animation. * * @private * @function * * @param {Highcharts.Point} point * The point to get BB of. * * @return {Highcharts.Dictionary|null} * Result xMax, xMin, yMax, yMin. */ function getPointBB(point) { const shapeArgs = point.shapeArgs; // Prefer using shapeArgs (columns) if (shapeArgs) { return { xMin: shapeArgs.x || 0, xMax: (shapeArgs.x || 0) + (shapeArgs.width || 0), yMin: shapeArgs.y || 0, yMax: (shapeArgs.y || 0) + (shapeArgs.height || 0) }; } // Otherwise use plotX/plotY and bb const bb = point.graphic && point.graphic.getBBox(); return bb ? { xMin: point.plotX - bb.width / 2, xMax: point.plotX + bb.width / 2, yMin: point.plotY - bb.height / 2, yMax: point.plotY + bb.height / 2 } : null; } /** * Compute smallest distance between two rectangles. * @private */ function calculateObstacleDistance(a, b, bbMargin) { // Count the distance even if we are slightly off const margin = pick(bbMargin, 10), yOverlap = a.yMax + margin > b.yMin - margin && a.yMin - margin < b.yMax + margin, xOverlap = a.xMax + margin > b.xMin - margin && a.xMin - margin < b.xMax + margin, xDistance = yOverlap ? (a.xMin > b.xMax ? a.xMin - b.xMax : b.xMin - a.xMax) : Infinity, yDistance = xOverlap ? (a.yMin > b.yMax ? a.yMin - b.yMax : b.yMin - a.yMax) : Infinity; // If the rectangles collide, try recomputing with smaller margin. // If they collide anyway, discard the obstacle. if (xOverlap && yOverlap) { return (margin ? calculateObstacleDistance(a, b, Math.floor(margin / 2)) : Infinity); } return min(xDistance, yDistance); } /** * Calculate margin to place around obstacles for the pathfinder in pixels. * Returns a minimum of 1 pixel margin. * * @private * @function * * @param {Array} obstacles * Obstacles to calculate margin from. * * @return {number} * The calculated margin in pixels. At least 1. */ function calculateObstacleMargin(obstacles) { const len = obstacles.length, distances = []; let onstacleDistance; // Go over all obstacles and compare them to the others. for (let i = 0; i < len; ++i) { // Compare to all obstacles ahead. We will already have compared this // obstacle to the ones before. for (let j = i + 1; j < len; ++j) { onstacleDistance = calculateObstacleDistance(obstacles[i], obstacles[j]); // TODO: Magic number 80 if (onstacleDistance < 80) { // Ignore large distances distances.push(onstacleDistance); } } } // Ensure we always have at least one value, even in very spacious charts distances.push(80); return max(Math.floor(distances.sort(function (a, b) { return (a - b); })[ // Discard first 10% of the relevant distances, and then grab // the smallest one. Math.floor(distances.length / 10)] / 2 - 1 // Divide the distance by 2 and subtract 1. ), 1 // 1 is the minimum margin ); } /* * * * Class * * */ /** * The Pathfinder class. * * @private * @class * @name Highcharts.Pathfinder * * @param {Highcharts.Chart} chart * The chart to operate on. */ class Pathfinder { /* * * * Static Functions * * */ static compose(ChartClass, PointClass) { PathfinderComposition.compose(ChartClass, Pathfinder, PointClass); } /* * * * Constructor * * */ constructor(chart) { this.init(chart); } /* * * * Functions * * */ /** * Initialize the Pathfinder object. * * @function Highcharts.Pathfinder#init * * @param {Highcharts.Chart} chart * The chart context. */ init(chart) { // Initialize pathfinder with chart context this.chart = chart; // Init connection reference list this.connections = []; // Recalculate paths/obstacles on chart redraw addEvent(chart, 'redraw', function () { this.pathfinder.update(); }); } /** * Update Pathfinder connections from scratch. * * @function Highcharts.Pathfinder#update * * @param {boolean} [deferRender] * Whether or not to defer rendering of connections until * series.afterAnimate event has fired. Used on first render. */ update(deferRender) { const chart = this.chart, pathfinder = this, oldConnections = pathfinder.connections; // Rebuild pathfinder connections from options pathfinder.connections = []; chart.series.forEach(function (series) { if (series.visible && !series.options.isInternal) { series.points.forEach(function (point) { const ganttPointOptions = point.options; // For Gantt series the connect could be // defined as a dependency if (ganttPointOptions && ganttPointOptions.dependency) { ganttPointOptions.connect = ganttPointOptions .dependency; } const connects = (point.options?.connect && splat(point.options.connect)); let to; if (point.visible && point.isInside !== false && connects) { connects.forEach(function (connect) { to = chart.get(typeof connect === 'string' ? connect : connect.to); if (to instanceof Point && to.series.visible && to.visible && to.isInside !== false) { // Add new connection pathfinder.connections.push(new Connection(point, // From to, typeof connect === 'string' ? {} : connect)); } }); } }); } }); // Clear connections that should not be updated, and move old info over // to new connections. for (let j = 0, k, found, lenOld = oldConnections.length, lenNew = pathfinder.connections.length; j < lenOld; ++j) { found = false; const oldCon = oldConnections[j]; for (k = 0; k < lenNew; ++k) { const newCon = pathfinder.connections[k]; if ((oldCon.options && oldCon.options.type) === (newCon.options && newCon.options.type) && oldCon.fromPoint === newCon.fromPoint && oldCon.toPoint === newCon.toPoint) { newCon.graphics = oldCon.graphics; found = true; break; } } if (!found) { oldCon.destroy(); } } // Clear obstacles to force recalculation. This must be done on every // redraw in case positions have changed. Recalculation is handled in // Connection.getPath on demand. delete this.chartObstacles; delete this.lineObstacles; // Draw the pending connections pathfinder.renderConnections(deferRender); } /** * Draw the chart's connecting paths. * * @function Highcharts.Pathfinder#renderConnections * * @param {boolean} [deferRender] * Whether or not to defer render until series animation is finished. * Used on first render. */ renderConnections(deferRender) { if (deferRender) { // Render after series are done animating this.chart.series.forEach(function (series) { const render = function () { // Find pathfinder connections belonging to this series // that haven't rendered, and render them now. const pathfinder = series.chart.pathfinder, conns = pathfinder && pathfinder.connections || []; conns.forEach(function (connection) { if (connection.fromPoint && connection.fromPoint.series === series) { connection.render(); } }); if (series.pathfinderRemoveRenderEvent) { series.pathfinderRemoveRenderEvent(); delete series.pathfinderRemoveRenderEvent; } }; if (series.options.animation === false) { render(); } else { series.pathfinderRemoveRenderEvent = addEvent(series, 'afterAnimate', render); } }); } else { // Go through connections and render them this.connections.forEach(function (connection) { connection.render(); }); } } /** * Get obstacles for the points in the chart. Does not include connecting * lines from Pathfinder. Applies algorithmMargin to the obstacles. * * @function Highcharts.Pathfinder#getChartObstacles * * @param {Object} options * Options for the calculation. Currently only * `options.algorithmMargin`. * * @param {number} options.algorithmMargin * The algorithm margin to use for the obstacles. * @return {Array} * An array of calculated obstacles. Each obstacle is defined as an * object with xMin, xMax, yMin and yMax properties. */ getChartObstacles(options) { const series = this.chart.series, margin = pick(options.algorithmMargin, 0); let obstacles = [], calculatedMargin; for (let i = 0, sLen = series.length; i < sLen; ++i) { if (series[i].visible && !series[i].options.isInternal) { for (let j = 0, pLen = series[i].points.length, bb, point; j < pLen; ++j) { point = series[i].points[j]; if (point.visible) { bb = getPointBB(point); if (bb) { obstacles.push({ xMin: bb.xMin - margin, xMax: bb.xMax + margin, yMin: bb.yMin - margin, yMax: bb.yMax + margin }); } } } } } // Sort obstacles by xMin for optimization obstacles = obstacles.sort(function (a, b) { return a.xMin - b.xMin; }); // Add auto-calculated margin if the option is not defined if (!defined(options.algorithmMargin)) { calculatedMargin = options.algorithmMargin = calculateObstacleMargin(obstacles); obstacles.forEach(function (obstacle) { obstacle.xMin -= calculatedMargin; obstacle.xMax += calculatedMargin; obstacle.yMin -= calculatedMargin; obstacle.yMax += calculatedMargin; }); } return obstacles; } /** * Utility function to get metrics for obstacles: * - Widest obstacle width * - Tallest obstacle height * * @function Highcharts.Pathfinder#getObstacleMetrics * * @param {Array} obstacles * An array of obstacles to inspect. * * @return {Object} * The calculated metrics, as an object with maxHeight and maxWidth * properties. */ getObstacleMetrics(obstacles) { let maxWidth = 0, maxHeight = 0, width, height, i = obstacles.length; while (i--) { width = obstacles[i].xMax - obstacles[i].xMin; height = obstacles[i].yMax - obstacles[i].yMin; if (maxWidth < width) { maxWidth = width; } if (maxHeight < height) { maxHeight = height; } } return { maxHeight: maxHeight, maxWidth: maxWidth }; } /** * Utility to get which direction to start the pathfinding algorithm * (X vs Y), calculated from a set of marker options. * * @function Highcharts.Pathfinder#getAlgorithmStartDirection * * @param {Highcharts.ConnectorsMarkerOptions} markerOptions * Marker options to calculate from. * * @return {boolean} * Returns true for X, false for Y, and undefined for autocalculate. */ getAlgorithmStartDirection(markerOptions) { const xCenter = markerOptions.align !== 'left' && markerOptions.align !== 'right', yCenter = markerOptions.verticalAlign !== 'top' && markerOptions.verticalAlign !== 'bottom'; return xCenter ? (yCenter ? void 0 : false) : // When x is centered (yCenter ? true : void 0); // When x is off-center } } /** * @name Highcharts.Pathfinder#algorithms * @type {Highcharts.Dictionary} */ Pathfinder.prototype.algorithms = PathfinderAlgorithms; /* * * * Default Export * * */ /* * * * API Options * * */ /** * The default pathfinder algorithm to use for a chart. It is possible to define * your own algorithms by adding them to the * `Highcharts.Pathfinder.prototype.algorithms` * object before the chart has been created. * * The default algorithms are as follows: * * `straight`: Draws a straight line between the connecting * points. Does not avoid other points when drawing. * * `simpleConnect`: Finds a path between the points using right angles * only. Takes only starting/ending points into * account, and will not avoid other points. * * `fastAvoid`: Finds a path between the points using right angles * only. Will attempt to avoid other points, but its * focus is performance over accuracy. Works well with * less dense datasets. * * @typedef {"fastAvoid"|"simpleConnect"|"straight"|string} Highcharts.PathfinderTypeValue */ ''; // Keeps doclets above in JS file return Pathfinder; }); _registerModule(_modules, 'masters/modules/pathfinder.src.js', [_modules['Core/Globals.js'], _modules['Gantt/Pathfinder.js'], _modules['Extensions/ArrowSymbols.js']], function (Highcharts, Pathfinder, ArrowSymbols) { const G = Highcharts; G.Pathfinder = G.Pathfinder || Pathfinder; ArrowSymbols.compose(G.SVGRenderer); G.Pathfinder.compose(G.Chart, G.Point); return Highcharts; }); _registerModule(_modules, 'Extensions/StaticScale.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2016-2024 Torstein Honsi, Lars Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { addEvent, defined, isNumber, pick } = U; /* * * * Composition * * */ /** @private */ function compose(AxisClass, ChartClass) { const chartProto = ChartClass.prototype; if (!chartProto.adjustHeight) { addEvent(AxisClass, 'afterSetOptions', onAxisAfterSetOptions); chartProto.adjustHeight = chartAdjustHeight; addEvent(ChartClass, 'render', chartProto.adjustHeight); } } /** @private */ function onAxisAfterSetOptions() { const chartOptions = this.chart.options.chart; if (!this.horiz && isNumber(this.options.staticScale) && (!chartOptions.height || (chartOptions.scrollablePlotArea && chartOptions.scrollablePlotArea.minHeight))) { this.staticScale = this.options.staticScale; } } /** @private */ function chartAdjustHeight() { const chart = this; if (chart.redrawTrigger !== 'adjustHeight') { for (const axis of (chart.axes || [])) { const chart = axis.chart, animate = !!chart.initiatedScale && chart.options.animation, staticScale = axis.options.staticScale; if (axis.staticScale && defined(axis.min)) { let height = pick(axis.brokenAxis && axis.brokenAxis.unitLength, axis.max + axis.tickInterval - axis.min) * staticScale; // Minimum height is 1 x staticScale. height = Math.max(height, staticScale); const diff = height - chart.plotHeight; if (!chart.scrollablePixelsY && Math.abs(diff) >= 1) { chart.plotHeight = height; chart.redrawTrigger = 'adjustHeight'; chart.setSize(void 0, chart.chartHeight + diff, animate); } // Make sure clip rects have the right height before initial // animation. axis.series.forEach(function (series) { const clipRect = series.sharedClipKey && chart.sharedClips[series.sharedClipKey]; if (clipRect) { clipRect.attr(chart.inverted ? { width: chart.plotHeight } : { height: chart.plotHeight }); } }); } } this.initiatedScale = true; } this.redrawTrigger = null; } /* * * * Default Export * * */ const StaticScale = { compose }; /* * * * API Options * * */ /** * For vertical axes only. Setting the static scale ensures that each tick unit * is translated into a fixed pixel height. For example, setting the static * scale to 24 results in each Y axis category taking up 24 pixels, and the * height of the chart adjusts. Adding or removing items will make the chart * resize. * * @sample gantt/xrange-series/demo/ * X-range series with static scale * * @type {number} * @default 50 * @since 6.2.0 * @product gantt * @apioption yAxis.staticScale */ ''; // Keeps doclets above in JS file return StaticScale; }); _registerModule(_modules, 'masters/modules/static-scale.src.js', [_modules['Core/Globals.js'], _modules['Extensions/StaticScale.js']], function (Highcharts, StaticScale) { const G = Highcharts; StaticScale.compose(G.Axis, G.Chart); return Highcharts; }); _registerModule(_modules, 'Series/XRange/XRangeSeriesDefaults.js', [_modules['Core/Utilities.js']], function (U) { /* * * * X-range series module * * (c) 2010-2024 Torstein Honsi, Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { correctFloat, isNumber, isObject } = U; /* * * * Constants * * */ /** * The X-range series displays ranges on the X axis, typically time * intervals with a start and end date. * * @sample {highcharts} highcharts/demo/x-range/ * X-range * @sample {highcharts} highcharts/css/x-range/ * Styled mode X-range * @sample {highcharts} highcharts/chart/inverted-xrange/ * Inverted X-range * * @extends plotOptions.column * @since 6.0.0 * @product highcharts highstock gantt * @excluding boostThreshold, crisp, cropThreshold, depth, edgeColor, * edgeWidth, findNearestPointBy, getExtremesFromAll, * negativeColor, pointInterval, pointIntervalUnit, * pointPlacement, pointRange, pointStart, softThreshold, * stacking, threshold, data, dataSorting, boostBlending * @requires modules/xrange * @optionparent plotOptions.xrange */ const XRangeSeriesDefaults = { /** * A partial fill for each point, typically used to visualize how much * of a task is performed. The partial fill object can be set either on * series or point level. * * @sample {highcharts} highcharts/demo/x-range * X-range with partial fill * * @product highcharts highstock gantt * @apioption plotOptions.xrange.partialFill */ /** * The fill color to be used for partial fills. Defaults to a darker * shade of the point color. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @product highcharts highstock gantt * @apioption plotOptions.xrange.partialFill.fill */ /** * A partial fill for each point, typically used to visualize how much * of a task is performed. See [completed](series.gantt.data.completed). * * @sample gantt/demo/progress-indicator * Gantt with progress indicator * * @product gantt * @apioption plotOptions.gantt.partialFill */ /** * In an X-range series, this option makes all points of the same Y-axis * category the same color. */ colorByPoint: true, dataLabels: { formatter: function () { let amount = this.point.partialFill; if (isObject(amount)) { amount = amount.amount; } if (isNumber(amount) && amount > 0) { return correctFloat(amount * 100) + '%'; } }, inside: true, verticalAlign: 'middle', style: { whiteSpace: 'nowrap' } }, tooltip: { headerFormat: '{point.x} - {point.x2}
', pointFormat: '\u25CF {series.name}: {point.yCategory}
' }, borderRadius: 3, pointRange: 0 }; /* * * * Export Default * * */ /* * * * API Options * * */ /** * An `xrange` series. If the [type](#series.xrange.type) option is not * specified, it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.xrange * @excluding boostThreshold, crisp, cropThreshold, depth, edgeColor, edgeWidth, * findNearestPointBy, getExtremesFromAll, negativeColor, * pointInterval, pointIntervalUnit, pointPlacement, pointRange, * pointStart, softThreshold, stacking, threshold, dataSorting, * boostBlending * @product highcharts highstock gantt * @requires modules/xrange * @apioption series.xrange */ /** * An array of data points for the series. For the `xrange` series type, * points can be given in the following ways: * * 1. An array of objects with named values. The objects are point configuration * objects as seen below. * ```js * data: [{ * x: Date.UTC(2017, 0, 1), * x2: Date.UTC(2017, 0, 3), * name: "Test", * y: 0, * color: "#00FF00" * }, { * x: Date.UTC(2017, 0, 4), * x2: Date.UTC(2017, 0, 5), * name: "Deploy", * y: 1, * color: "#FF0000" * }] * ``` * * @sample {highcharts} highcharts/series/data-array-of-objects/ * Config objects * * @declare Highcharts.XrangePointOptionsObject * @type {Array<*>} * @extends series.line.data * @product highcharts highstock gantt * @apioption series.xrange.data */ /** * The starting X value of the range point. * * @sample {highcharts} highcharts/demo/x-range * X-range * * @type {number} * @product highcharts highstock gantt * @apioption series.xrange.data.x */ /** * The ending X value of the range point. * * @sample {highcharts} highcharts/demo/x-range * X-range * * @type {number} * @product highcharts highstock gantt * @apioption series.xrange.data.x2 */ /** * The Y value of the range point. * * @sample {highcharts} highcharts/demo/x-range * X-range * * @type {number} * @product highcharts highstock gantt * @apioption series.xrange.data.y */ /** * A partial fill for each point, typically used to visualize how much of * a task is performed. The partial fill object can be set either on series * or point level. * * @sample {highcharts} highcharts/demo/x-range * X-range with partial fill * * @declare Highcharts.XrangePointPartialFillOptionsObject * @product highcharts highstock gantt * @apioption series.xrange.data.partialFill */ /** * The amount of the X-range point to be filled. Values can be 0-1 and are * converted to percentages in the default data label formatter. * * @type {number} * @product highcharts highstock gantt * @apioption series.xrange.data.partialFill.amount */ /** * The fill color to be used for partial fills. Defaults to a darker shade * of the point color. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @product highcharts highstock gantt * @apioption series.xrange.data.partialFill.fill */ (''); // Adds doclets above to transpiled file return XRangeSeriesDefaults; }); _registerModule(_modules, 'Series/XRange/XRangePoint.js', [_modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (SeriesRegistry, U) { /* * * * X-range series module * * (c) 2010-2024 Torstein Honsi, Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { column: { prototype: { pointClass: ColumnPoint } } } = SeriesRegistry.seriesTypes; const { extend } = U; /* * * * Class * * */ class XRangePoint extends ColumnPoint { /* * * * Static Functions * * */ /** * Return color of a point based on its category. * * @private * @function getColorByCategory * * @param {object} series * The series which the point belongs to. * * @param {object} point * The point to calculate its color for. * * @return {object} * Returns an object containing the properties color and colorIndex. */ static getColorByCategory(series, point) { const colors = series.options.colors || series.chart.options.colors, colorCount = colors ? colors.length : series.chart.options.chart.colorCount, colorIndex = point.y % colorCount, color = colors && colors[colorIndex]; return { colorIndex: colorIndex, color: color }; } /* * * * Functions * * */ /** * @private */ resolveColor() { const series = this.series; if (series.options.colorByPoint && !this.options.color) { const colorByPoint = XRangePoint.getColorByCategory(series, this); if (!series.chart.styledMode) { this.color = colorByPoint.color; } if (!this.options.colorIndex) { this.colorIndex = colorByPoint.colorIndex; } } else { this.color = this.options.color || series.color; } } /** * Extend init to have y default to 0. * * @private */ constructor(series, options) { super(series, options); if (!this.y) { this.y = 0; } } /** * @private */ setState() { super.setState.apply(this, arguments); this.series.drawPoint(this, this.series.getAnimationVerb()); } /** * Add x2 and yCategory to the available properties for tooltip formats. * * @private */ getLabelConfig() { const cfg = super.getLabelConfig.call(this), yCats = this.series.yAxis.categories; cfg.x2 = this.x2; cfg.yCategory = this.yCategory = yCats && yCats[this.y]; // Use 'category' as 'key' to ensure tooltip datetime formatting. // Use 'name' only when 'category' is undefined. cfg.key = this.category || this.name; return cfg; } /** * @private */ isValid() { return typeof this.x === 'number' && typeof this.x2 === 'number'; } } extend(XRangePoint.prototype, { ttBelow: false, tooltipDateKeys: ['x', 'x2'] }); /* * * * Default Export * * */ /* * * * API Declarations * * */ /** * The ending X value of the range point. * @name Highcharts.Point#x2 * @type {number|undefined} * @requires modules/xrange */ /** * Extend applyOptions so that `colorByPoint` for x-range means that one * color is applied per Y axis category. * * @private * @function Highcharts.Point#applyOptions * * @return {Highcharts.Series} */ /** * @interface Highcharts.PointOptionsObject in parts/Point.ts */ /** * The ending X value of the range point. * @name Highcharts.PointOptionsObject#x2 * @type {number|undefined} * @requires modules/xrange */ (''); // Keeps doclets above in JS file return XRangePoint; }); _registerModule(_modules, 'Series/XRange/XRangeSeries.js', [_modules['Core/Globals.js'], _modules['Core/Color/Color.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js'], _modules['Series/XRange/XRangeSeriesDefaults.js'], _modules['Series/XRange/XRangePoint.js']], function (H, Color, SeriesRegistry, U, XRangeSeriesDefaults, XRangePoint) { /* * * * X-range series module * * (c) 2010-2024 Torstein Honsi, Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { composed, noop } = H; const { parse: color } = Color; const { column: ColumnSeries } = SeriesRegistry.seriesTypes; const { addEvent, clamp, defined, extend, find, isNumber, isObject, merge, pick, pushUnique, relativeLength } = U; /* * * * Functions * * */ /** * Max x2 should be considered in xAxis extremes * @private */ function onAxisAfterGetSeriesExtremes() { let dataMax, modMax; if (this.isXAxis) { dataMax = pick(this.dataMax, -Number.MAX_VALUE); for (const series of this.series) { if (series.x2Data) { for (const val of series.x2Data) { if (val && val > dataMax) { dataMax = val; modMax = true; } } } } if (modMax) { this.dataMax = dataMax; } } } /* * * * Class * * */ /** * @private * @class * @name Highcharts.seriesTypes.xrange * * @augments Highcharts.Series */ class XRangeSeries extends ColumnSeries { /* * * * Static Functions * * */ static compose(AxisClass) { if (pushUnique(composed, 'Series.XRange')) { addEvent(AxisClass, 'afterGetSeriesExtremes', onAxisAfterGetSeriesExtremes); } } /* * * * Functions * * */ /** * @private */ init() { super.init.apply(this, arguments); this.options.stacking = void 0; // #13161 } /** * Borrow the column series metrics, but with swapped axes. This gives * free access to features like groupPadding, grouping, pointWidth etc. * @private */ getColumnMetrics() { const swapAxes = () => { for (const series of this.chart.series) { const xAxis = series.xAxis; series.xAxis = series.yAxis; series.yAxis = xAxis; } }; swapAxes(); const metrics = super.getColumnMetrics(); swapAxes(); return metrics; } /** * Override cropData to show a point where x or x2 is outside visible range, * but one of them is inside. * @private */ cropData(xData, yData, min, max) { // Replace xData with x2Data to find the appropriate cropStart const crop = super.cropData(this.x2Data, yData, min, max); // Re-insert the cropped xData crop.xData = xData.slice(crop.start, crop.end); return crop; } /** * Finds the index of an existing point that matches the given point * options. * * @private * * @param {Highcharts.XRangePointOptions} options * The options of the point. * * @return {number|undefined} * Returns index of a matching point, or undefined if no match is * found. */ findPointIndex(options) { const { cropStart, points } = this; const { id } = options; let pointIndex; if (id) { const point = find(points, (point) => point.id === id); pointIndex = point ? point.index : void 0; } if (typeof pointIndex === 'undefined') { const point = find(points, (point) => (point.x === options.x && point.x2 === options.x2 && !point.touched)); pointIndex = point ? point.index : void 0; } // Reduce pointIndex if data is cropped if (this.cropped && isNumber(pointIndex) && isNumber(cropStart) && pointIndex >= cropStart) { pointIndex -= cropStart; } return pointIndex; } alignDataLabel(point) { const oldPlotX = point.plotX; point.plotX = pick(point.dlBox && point.dlBox.centerX, point.plotX); if (point.dataLabel && point.shapeArgs?.width) { point.dataLabel.css({ width: `${point.shapeArgs.width}px` }); } super.alignDataLabel.apply(this, arguments); point.plotX = oldPlotX; } /** * @private */ translatePoint(point) { const xAxis = this.xAxis, yAxis = this.yAxis, metrics = this.columnMetrics, options = this.options, minPointLength = options.minPointLength || 0, oldColWidth = (point.shapeArgs && point.shapeArgs.width || 0) / 2, seriesXOffset = this.pointXOffset = metrics.offset, posX = pick(point.x2, point.x + (point.len || 0)), borderRadius = options.borderRadius, plotTop = this.chart.plotTop, plotLeft = this.chart.plotLeft; let plotX = point.plotX, plotX2 = xAxis.translate(posX, 0, 0, 0, 1); const length = Math.abs(plotX2 - plotX), inverted = this.chart.inverted, borderWidth = pick(options.borderWidth, 1), crisper = borderWidth % 2 / 2; let widthDifference, partialFill, yOffset = metrics.offset, pointHeight = Math.round(metrics.width), dlLeft, dlRight, dlWidth, clipRectWidth; if (minPointLength) { widthDifference = minPointLength - length; if (widthDifference < 0) { widthDifference = 0; } plotX -= widthDifference / 2; plotX2 += widthDifference / 2; } plotX = Math.max(plotX, -10); plotX2 = clamp(plotX2, -10, xAxis.len + 10); // Handle individual pointWidth if (defined(point.options.pointWidth)) { yOffset -= ((Math.ceil(point.options.pointWidth) - pointHeight) / 2); pointHeight = Math.ceil(point.options.pointWidth); } // Apply pointPlacement to the Y axis if (options.pointPlacement && isNumber(point.plotY) && yAxis.categories) { point.plotY = yAxis.translate(point.y, 0, 1, 0, 1, options.pointPlacement); } const x = Math.floor(Math.min(plotX, plotX2)) + crisper, x2 = Math.floor(Math.max(plotX, plotX2)) + crisper, width = x2 - x; const r = Math.min(relativeLength((typeof borderRadius === 'object' ? borderRadius.radius : borderRadius || 0), pointHeight), Math.min(width, pointHeight) / 2); const shapeArgs = { x, y: Math.floor(point.plotY + yOffset) + crisper, width, height: pointHeight, r }; point.shapeArgs = shapeArgs; // Move tooltip to default position if (!inverted) { point.tooltipPos[0] -= oldColWidth + seriesXOffset - shapeArgs.width / 2; } else { point.tooltipPos[1] += seriesXOffset + oldColWidth; } // Align data labels inside the shape and inside the plot area dlLeft = shapeArgs.x; dlRight = dlLeft + shapeArgs.width; if (dlLeft < 0 || dlRight > xAxis.len) { dlLeft = clamp(dlLeft, 0, xAxis.len); dlRight = clamp(dlRight, 0, xAxis.len); dlWidth = dlRight - dlLeft; point.dlBox = merge(shapeArgs, { x: dlLeft, width: dlRight - dlLeft, centerX: dlWidth ? dlWidth / 2 : null }); } else { point.dlBox = null; } // Tooltip position const tooltipPos = point.tooltipPos; const xIndex = !inverted ? 0 : 1; const yIndex = !inverted ? 1 : 0; const tooltipYOffset = (this.columnMetrics ? this.columnMetrics.offset : -metrics.width / 2); // Centering tooltip position (#14147) if (inverted) { tooltipPos[xIndex] += shapeArgs.width / 2; } else { tooltipPos[xIndex] = clamp(tooltipPos[xIndex] + (xAxis.reversed ? -1 : 0) * shapeArgs.width, xAxis.left - plotLeft, xAxis.left + xAxis.len - plotLeft - 1); } tooltipPos[yIndex] = clamp(tooltipPos[yIndex] + ((inverted ? -1 : 1) * tooltipYOffset), yAxis.top - plotTop, yAxis.top + yAxis.len - plotTop - 1); // Add a partShapeArgs to the point, based on the shapeArgs property partialFill = point.partialFill; if (partialFill) { // Get the partial fill amount if (isObject(partialFill)) { partialFill = partialFill.amount; } // If it was not a number, assume 0 if (!isNumber(partialFill)) { partialFill = 0; } point.partShapeArgs = merge(shapeArgs); clipRectWidth = Math.max(Math.round(length * partialFill + point.plotX - plotX), 0); point.clipRectArgs = { x: xAxis.reversed ? // #10717 shapeArgs.x + length - clipRectWidth : shapeArgs.x, y: shapeArgs.y, width: clipRectWidth, height: shapeArgs.height }; } } /** * @private */ translate() { super.translate.apply(this, arguments); for (const point of this.points) { this.translatePoint(point); } } /** * Draws a single point in the series. Needed for partial fill. * * This override turns point.graphic into a group containing the * original graphic and an overlay displaying the partial fill. * * @private * * @param {Highcharts.Point} point * An instance of Point in the series. * * @param {"animate"|"attr"} verb * 'animate' (animates changes) or 'attr' (sets options) */ drawPoint(point, verb) { const seriesOpts = this.options, renderer = this.chart.renderer, type = point.shapeType, shapeArgs = point.shapeArgs, partShapeArgs = point.partShapeArgs, clipRectArgs = point.clipRectArgs, pointState = point.state, stateOpts = (seriesOpts.states[pointState || 'normal'] || {}), pointStateVerb = typeof pointState === 'undefined' ? 'attr' : verb, pointAttr = this.pointAttribs(point, pointState), animation = pick(this.chart.options.chart.animation, stateOpts.animation); let graphic = point.graphic, pfOptions = point.partialFill; if (!point.isNull && point.visible !== false) { // Original graphic if (graphic) { // Update graphic.rect[verb](shapeArgs); } else { point.graphic = graphic = renderer.g('point') .addClass(point.getClassName()) .add(point.group || this.group); graphic.rect = renderer[type](merge(shapeArgs)) .addClass(point.getClassName()) .addClass('highcharts-partfill-original') .add(graphic); } // Partial fill graphic if (partShapeArgs) { if (graphic.partRect) { graphic.partRect[verb](merge(partShapeArgs)); graphic.partialClipRect[verb](merge(clipRectArgs)); } else { graphic.partialClipRect = renderer.clipRect(clipRectArgs.x, clipRectArgs.y, clipRectArgs.width, clipRectArgs.height); graphic.partRect = renderer[type](partShapeArgs) .addClass('highcharts-partfill-overlay') .add(graphic) .clip(graphic.partialClipRect); } } // Presentational if (!this.chart.styledMode) { graphic .rect[verb](pointAttr, animation) .shadow(seriesOpts.shadow); if (partShapeArgs) { // Ensure pfOptions is an object if (!isObject(pfOptions)) { pfOptions = {}; } if (isObject(seriesOpts.partialFill)) { pfOptions = merge(seriesOpts.partialFill, pfOptions); } const fill = (pfOptions.fill || color(pointAttr.fill).brighten(-0.3).get() || color(point.color || this.color) .brighten(-0.3).get()); pointAttr.fill = fill; graphic .partRect[pointStateVerb](pointAttr, animation) .shadow(seriesOpts.shadow); } } } else if (graphic) { point.graphic = graphic.destroy(); // #1269 } } /** * @private */ drawPoints() { const verb = this.getAnimationVerb(); // Draw the columns for (const point of this.points) { this.drawPoint(point, verb); } } /** * Returns "animate", or "attr" if the number of points is above the * animation limit. * * @private */ getAnimationVerb() { return (this.chart.pointCount < (this.options.animationLimit || 250) ? 'animate' : 'attr'); } /** * @private */ isPointInside(point) { const shapeArgs = point.shapeArgs, plotX = point.plotX, plotY = point.plotY; if (!shapeArgs) { return super.isPointInside.apply(this, arguments); } const isInside = typeof plotX !== 'undefined' && typeof plotY !== 'undefined' && plotY >= 0 && plotY <= this.yAxis.len && (shapeArgs.x || 0) + (shapeArgs.width || 0) >= 0 && plotX <= this.xAxis.len; return isInside; } } /* * * * Static Properties * * */ XRangeSeries.defaultOptions = merge(ColumnSeries.defaultOptions, XRangeSeriesDefaults); extend(XRangeSeries.prototype, { pointClass: XRangePoint, pointArrayMap: ['x2', 'y'], getExtremesFromAll: true, parallelArrays: ['x', 'x2', 'y'], requireSorting: false, type: 'xrange', animate: SeriesRegistry.series.prototype.animate, autoIncrement: noop, buildKDTree: noop }); SeriesRegistry.registerSeriesType('xrange', XRangeSeries); /* * * * Default Export * * */ return XRangeSeries; }); _registerModule(_modules, 'masters/modules/xrange.src.js', [_modules['Core/Globals.js'], _modules['Series/XRange/XRangeSeries.js']], function (Highcharts, XRangeSeries) { const G = Highcharts; XRangeSeries.compose(G.Axis); return Highcharts; }); _registerModule(_modules, 'Series/Gantt/GanttPoint.js', [_modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (SeriesRegistry, U) { /* * * * (c) 2016-2024 Highsoft AS * * Author: Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { xrange: { prototype: { pointClass: XRangePoint } } } = SeriesRegistry.seriesTypes; const { pick } = U; /* * * * Class * * */ class GanttPoint extends XRangePoint { /* * * * Static Functions * * */ /** * @private */ static setGanttPointAliases(options) { /** * Add a value to options if the value exists. * @private */ function addIfExists(prop, val) { if (typeof val !== 'undefined') { options[prop] = val; } } addIfExists('x', pick(options.start, options.x)); addIfExists('x2', pick(options.end, options.x2)); addIfExists('partialFill', pick(options.completed, options.partialFill)); } /* * * * Functions * * */ /** * Applies the options containing the x and y data and possible some * extra properties. This is called on point init or from point.update. * * @private * @function Highcharts.Point#applyOptions * * @param {Object} options * The point options * * @param {number} x * The x value * * @return {Highcharts.Point} * The Point instance */ applyOptions(options, x) { const ganttPoint = super.applyOptions(options, x); GanttPoint.setGanttPointAliases(ganttPoint); return ganttPoint; } isValid() { return ((typeof this.start === 'number' || typeof this.x === 'number') && (typeof this.end === 'number' || typeof this.x2 === 'number' || this.milestone)); } } /* * * * Default Export * * */ return GanttPoint; }); _registerModule(_modules, 'Series/Gantt/GanttSeriesDefaults.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2016-2024 Highsoft AS * * Author: Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { isNumber } = U; /* * * * API Options * * */ /** * A `gantt` series. If the [type](#series.gantt.type) option is not specified, * it is inherited from [chart.type](#chart.type). * * @extends plotOptions.xrange * @product gantt * @requires highcharts-gantt * @optionparent plotOptions.gantt */ const GanttSeriesDefaults = { // Options - default options merged with parent grouping: false, dataLabels: { enabled: true }, tooltip: { headerFormat: '{series.name}
', pointFormat: null, pointFormatter: function () { const point = this, series = point.series, xAxis = series.xAxis, formats = series.tooltipOptions.dateTimeLabelFormats, startOfWeek = xAxis.options.startOfWeek, ttOptions = series.tooltipOptions, milestone = point.options.milestone; let format = ttOptions.xDateFormat, retVal = '' + (point.name || point.yCategory) + ''; if (ttOptions.pointFormat) { return point.tooltipFormatter(ttOptions.pointFormat); } if (!format && isNumber(point.start)) { format = series.chart.time.getDateFormat(xAxis.closestPointRange, point.start, startOfWeek, formats || {}); } const start = series.chart.time.dateFormat(format, point.start), end = series.chart.time.dateFormat(format, point.end); retVal += '
'; if (!milestone) { retVal += 'Start: ' + start + '
'; retVal += 'End: ' + end + '
'; } else { retVal += start + '
'; } return retVal; } }, connectors: { type: 'simpleConnect', /** * @declare Highcharts.ConnectorsAnimationOptionsObject */ animation: { reversed: true // Dependencies go from child to parent }, radius: 0, startMarker: { enabled: true, symbol: 'arrow-filled', radius: 4, fill: '#fa0', align: 'left' }, endMarker: { enabled: false, align: 'right' } } }; /** * A `gantt` series. * * @extends series,plotOptions.gantt * @excluding boostThreshold, dashStyle, findNearestPointBy, * getExtremesFromAll, marker, negativeColor, pointInterval, * pointIntervalUnit, pointPlacement, pointStart * @product gantt * @requires highcharts-gantt * @apioption series.gantt */ /** * Data for a Gantt series. * * @declare Highcharts.GanttPointOptionsObject * @type {Array<*>} * @extends series.xrange.data * @excluding className, connect, dataLabels, events, * partialFill, selected, x, x2 * @product gantt * @apioption series.gantt.data */ /** * Whether the grid node belonging to this point should start as collapsed. Used * in axes of type treegrid. * * @sample {gantt} gantt/treegrid-axis/collapsed/ * Start as collapsed * * @type {boolean} * @default false * @product gantt * @apioption series.gantt.data.collapsed */ /** * The start time of a task. * * @type {number} * @product gantt * @apioption series.gantt.data.start */ /** * The end time of a task. * * @type {number} * @product gantt * @apioption series.gantt.data.end */ /** * The Y value of a task. * * @type {number} * @product gantt * @apioption series.gantt.data.y */ /** * The name of a task. If a `treegrid` y-axis is used (default in Gantt charts), * this will be picked up automatically, and used to calculate the y-value. * * @type {string} * @product gantt * @apioption series.gantt.data.name */ /** * Progress indicator, how much of the task completed. If it is a number, the * `fill` will be applied automatically. * * @sample {gantt} gantt/demo/progress-indicator * Progress indicator * * @type {number|*} * @extends series.xrange.data.partialFill * @product gantt * @apioption series.gantt.data.completed */ /** * The amount of the progress indicator, ranging from 0 (not started) to 1 * (finished). * * @type {number} * @default 0 * @apioption series.gantt.data.completed.amount */ /** * The fill of the progress indicator. Defaults to a darkened variety of the * main color. * * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject} * @apioption series.gantt.data.completed.fill */ /** * The ID of the point (task) that this point depends on in Gantt charts. * Aliases [connect](series.xrange.data.connect). Can also be an object, * specifying further connecting [options](series.gantt.connectors) between the * points. Multiple connections can be specified by providing an array. * * @sample gantt/demo/project-management * Dependencies * @sample gantt/pathfinder/demo * Different connection types * * @type {string|Array|*} * @extends series.xrange.data.connect * @since 6.2.0 * @product gantt * @apioption series.gantt.data.dependency */ /** * Whether this point is a milestone. If so, only the `start` option is handled, * while `end` is ignored. * * @sample gantt/gantt/milestones * Milestones * * @type {boolean} * @since 6.2.0 * @product gantt * @apioption series.gantt.data.milestone */ /** * The ID of the parent point (task) of this point in Gantt charts. * * @sample gantt/demo/subtasks * Gantt chart with subtasks * * @type {string} * @since 6.2.0 * @product gantt * @apioption series.gantt.data.parent */ /** * @excluding afterAnimate * @apioption series.gantt.events */ ''; // Detachs doclets above /* * * * Default Export * * */ return GanttSeriesDefaults; }); _registerModule(_modules, 'Core/Axis/BrokenAxis.js', [_modules['Core/Axis/Stacking/StackItem.js'], _modules['Core/Utilities.js']], function (StackItem, U) { /* * * * (c) 2009-2024 Torstein Honsi * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { addEvent, find, fireEvent, isArray, isNumber, pick } = U; /* * * * Composition * * */ /** * Axis with support of broken data rows. * @private */ var BrokenAxis; (function (BrokenAxis) { /* * * * Declarations * * */ /* * * * Functions * * */ /** * Adds support for broken axes. * @private */ function compose(AxisClass, SeriesClass) { if (!AxisClass.keepProps.includes('brokenAxis')) { AxisClass.keepProps.push('brokenAxis'); addEvent(AxisClass, 'init', onAxisInit); addEvent(AxisClass, 'afterInit', onAxisAfterInit); addEvent(AxisClass, 'afterSetTickPositions', onAxisAfterSetTickPositions); addEvent(AxisClass, 'afterSetOptions', onAxisAfterSetOptions); const seriesProto = SeriesClass.prototype; seriesProto.drawBreaks = seriesDrawBreaks; seriesProto.gappedPath = seriesGappedPath; addEvent(SeriesClass, 'afterGeneratePoints', onSeriesAfterGeneratePoints); addEvent(SeriesClass, 'afterRender', onSeriesAfterRender); } return AxisClass; } BrokenAxis.compose = compose; /** * @private */ function onAxisAfterInit() { if (typeof this.brokenAxis !== 'undefined') { this.brokenAxis.setBreaks(this.options.breaks, false); } } /** * Force Axis to be not-ordinal when breaks are defined. * @private */ function onAxisAfterSetOptions() { const axis = this; if (axis.brokenAxis?.hasBreaks) { axis.options.ordinal = false; } } /** * @private */ function onAxisAfterSetTickPositions() { const axis = this, brokenAxis = axis.brokenAxis; if (brokenAxis?.hasBreaks) { const tickPositions = axis.tickPositions, info = axis.tickPositions.info, newPositions = []; for (let i = 0; i < tickPositions.length; i++) { if (!brokenAxis.isInAnyBreak(tickPositions[i])) { newPositions.push(tickPositions[i]); } } axis.tickPositions = newPositions; axis.tickPositions.info = info; } } /** * @private */ function onAxisInit() { const axis = this; if (!axis.brokenAxis) { axis.brokenAxis = new Additions(axis); } } /** * @private */ function onSeriesAfterGeneratePoints() { const { isDirty, options: { connectNulls }, points, xAxis, yAxis } = this; // Set, or reset visibility of the points. Axis.setBreaks marks // the series as isDirty if (isDirty) { let i = points.length; while (i--) { const point = points[i]; // Respect nulls inside the break (#4275) const nullGap = point.y === null && connectNulls === false; const isPointInBreak = (!nullGap && (xAxis?.brokenAxis?.isInAnyBreak(point.x, true) || yAxis?.brokenAxis?.isInAnyBreak(point.y, true))); // Set point.visible if in any break. // If not in break, reset visible to original value. point.visible = isPointInBreak ? false : point.options.visible !== false; } } } /** * @private */ function onSeriesAfterRender() { this.drawBreaks(this.xAxis, ['x']); this.drawBreaks(this.yAxis, pick(this.pointArrayMap, ['y'])); } /** * @private */ function seriesDrawBreaks(axis, keys) { const series = this, points = series.points; let breaks, threshold, y; if (axis?.brokenAxis?.hasBreaks) { const brokenAxis = axis.brokenAxis; keys.forEach(function (key) { breaks = brokenAxis?.breakArray || []; threshold = axis.isXAxis ? axis.min : pick(series.options.threshold, axis.min); // Array of breaks that have been "zoomed-out" which means that // they were shown previously, but now after zoom, they are not // (#19885). const breaksOutOfRange = axis?.options?.breaks?.filter(function (brk) { let isOut = true; // Iterate to see if "brk" is in axis range for (let i = 0; i < breaks.length; i++) { const otherBreak = breaks[i]; if (otherBreak.from === brk.from && otherBreak.to === brk.to) { isOut = false; break; } } return isOut; }); points.forEach(function (point) { y = pick(point['stack' + key.toUpperCase()], point[key]); breaks.forEach(function (brk) { if (isNumber(threshold) && isNumber(y)) { let eventName = ''; if ((threshold < brk.from && y > brk.to) || (threshold > brk.from && y < brk.from)) { eventName = 'pointBreak'; } else if ((threshold < brk.from && y > brk.from && y < brk.to) || (threshold > brk.from && y > brk.to && y < brk.from)) { eventName = 'pointInBreak'; } if (eventName) { fireEvent(axis, eventName, { point, brk }); } } }); breaksOutOfRange?.forEach(function (brk) { fireEvent(axis, 'pointOutsideOfBreak', { point, brk }); }); }); }); } } /** * Extend getGraphPath by identifying gaps in the data so that we * can draw a gap in the line or area. This was moved from ordinal * axis module to broken axis module as of #5045. * * @private * @function Highcharts.Series#gappedPath * * @return {Highcharts.SVGPathArray} * Gapped path */ function seriesGappedPath() { const currentDataGrouping = this.currentDataGrouping, groupingSize = currentDataGrouping?.gapSize, points = this.points.slice(), yAxis = this.yAxis; let gapSize = this.options.gapSize, i = points.length - 1, stack; /** * Defines when to display a gap in the graph, together with the * [gapUnit](plotOptions.series.gapUnit) option. * * In case when `dataGrouping` is enabled, points can be grouped * into a larger time span. This can make the grouped points to * have a greater distance than the absolute value of `gapSize` * property, which will result in disappearing graph completely. * To prevent this situation the mentioned distance between * grouped points is used instead of previously defined * `gapSize`. * * In practice, this option is most often used to visualize gaps * in time series. In a stock chart, intraday data is available * for daytime hours, while gaps will appear in nights and * weekends. * * @see [gapUnit](plotOptions.series.gapUnit) * @see [xAxis.breaks](#xAxis.breaks) * * @sample {highstock} stock/plotoptions/series-gapsize/ * Setting the gap size to 2 introduces gaps for weekends in * daily datasets. * * @type {number} * @default 0 * @product highstock * @requires modules/broken-axis * @apioption plotOptions.series.gapSize */ /** * Together with [gapSize](plotOptions.series.gapSize), this * option defines where to draw gaps in the graph. * * When the `gapUnit` is `"relative"` (default), a gap size of 5 * means that if the distance between two points is greater than * 5 times that of the two closest points, the graph will be * broken. * * When the `gapUnit` is `"value"`, the gap is based on absolute * axis values, which on a datetime axis is milliseconds. This * also applies to the navigator series that inherits gap * options from the base series. * * @see [gapSize](plotOptions.series.gapSize) * * @type {string} * @default relative * @since 5.0.13 * @product highstock * @validvalue ["relative", "value"] * @requires modules/broken-axis * @apioption plotOptions.series.gapUnit */ if (gapSize && i > 0) { // #5008 // Gap unit is relative if (this.options.gapUnit !== 'value') { gapSize *= this.basePointRange; } // Setting a new gapSize in case dataGrouping is enabled // (#7686) if (groupingSize && groupingSize > gapSize && // Except when DG is forced (e.g. from other series) // and has lower granularity than actual points (#11351) groupingSize >= this.basePointRange) { gapSize = groupingSize; } // Extension for ordinal breaks let current, next; while (i--) { // Reassign next if it is not visible if (!(next && next.visible !== false)) { next = points[i + 1]; } current = points[i]; // Skip iteration if one of the points is not visible if (next.visible === false || current.visible === false) { continue; } if (next.x - current.x > gapSize) { const xRange = (current.x + next.x) / 2; points.splice(// Insert after this one i + 1, 0, { isNull: true, x: xRange }); // For stacked chart generate empty stack items, #6546 if (yAxis.stacking && this.options.stacking) { stack = yAxis.stacking.stacks[this.stackKey][xRange] = new StackItem(yAxis, yAxis.options.stackLabels, false, xRange, this.stack); stack.total = 0; } } // Assign current to next for the upcoming iteration next = current; } } // Call base method return this.getGraphPath(points); } /* * * * Class * * */ /** * Provides support for broken axes. * @private * @class */ class Additions { /* * * * Static Functions * * */ /** * @private */ static isInBreak(brk, val) { const repeat = brk.repeat || Infinity, from = brk.from, length = brk.to - brk.from, test = (val >= from ? (val - from) % repeat : repeat - ((from - val) % repeat)); let ret; if (!brk.inclusive) { ret = test < length && test !== 0; } else { ret = test <= length; } return ret; } /** * @private */ static lin2Val(val) { const axis = this; const brokenAxis = axis.brokenAxis; const breakArray = brokenAxis && brokenAxis.breakArray; if (!breakArray || !isNumber(val)) { return val; } let nval = val, brk, i; for (i = 0; i < breakArray.length; i++) { brk = breakArray[i]; if (brk.from >= nval) { break; } else if (brk.to < nval) { nval += brk.len; } else if (Additions.isInBreak(brk, nval)) { nval += brk.len; } } return nval; } /** * @private */ static val2Lin(val) { const axis = this; const brokenAxis = axis.brokenAxis; const breakArray = brokenAxis && brokenAxis.breakArray; if (!breakArray || !isNumber(val)) { return val; } let nval = val, brk, i; for (i = 0; i < breakArray.length; i++) { brk = breakArray[i]; if (brk.to <= val) { nval -= brk.len; } else if (brk.from >= val) { break; } else if (Additions.isInBreak(brk, val)) { nval -= (val - brk.from); break; } } return nval; } /* * * * Constructors * * */ constructor(axis) { this.hasBreaks = false; this.axis = axis; } /* * * * Functions * * */ /** * Returns the first break found where the x is larger then break.from * and smaller then break.to. * * @param {number} x * The number which should be within a break. * * @param {Array} breaks * The array of breaks to search within. * * @return {Highcharts.XAxisBreaksOptions|undefined} * Returns the first break found that matches, returns false if no break * is found. */ findBreakAt(x, breaks) { return find(breaks, function (b) { return b.from < x && x < b.to; }); } /** * @private */ isInAnyBreak(val, testKeep) { const brokenAxis = this, axis = brokenAxis.axis, breaks = axis.options.breaks || []; let i = breaks.length, inbrk, keep, ret; if (i && isNumber(val)) { while (i--) { if (Additions.isInBreak(breaks[i], val)) { inbrk = true; if (!keep) { keep = pick(breaks[i].showPoints, !axis.isXAxis); } } } if (inbrk && testKeep) { ret = inbrk && !keep; } else { ret = inbrk; } } return ret; } /** * Dynamically set or unset breaks in an axis. This function in lighter * than using Axis.update, and it also preserves animation. * * @private * @function Highcharts.Axis#setBreaks * * @param {Array} [breaks] * The breaks to add. When `undefined` it removes existing breaks. * * @param {boolean} [redraw=true] * Whether to redraw the chart immediately. */ setBreaks(breaks, redraw) { const brokenAxis = this; const axis = brokenAxis.axis; const hasBreaks = isArray(breaks) && !!breaks.length && !!Object.keys(breaks[0]).length; // Check for [{}], #16368. axis.isDirty = brokenAxis.hasBreaks !== hasBreaks; brokenAxis.hasBreaks = hasBreaks; if (breaks !== axis.options.breaks) { axis.options.breaks = axis.userOptions.breaks = breaks; } axis.forceRedraw = true; // Force recalculation in setScale // Recalculate series related to the axis. axis.series.forEach(function (series) { series.isDirty = true; }); if (!hasBreaks && axis.val2lin === Additions.val2Lin) { // Revert to prototype functions delete axis.val2lin; delete axis.lin2val; } if (hasBreaks) { axis.userOptions.ordinal = false; axis.lin2val = Additions.lin2Val; axis.val2lin = Additions.val2Lin; axis.setExtremes = function (newMin, newMax, redraw, animation, eventArguments) { // If trying to set extremes inside a break, extend min to // after, and max to before the break ( #3857 ) if (brokenAxis.hasBreaks) { const breaks = (this.options.breaks || []); let axisBreak; while ((axisBreak = brokenAxis.findBreakAt(newMin, breaks))) { newMin = axisBreak.to; } while ((axisBreak = brokenAxis.findBreakAt(newMax, breaks))) { newMax = axisBreak.from; } // If both min and max is within the same break. if (newMax < newMin) { newMax = newMin; } } axis.constructor.prototype.setExtremes.call(this, newMin, newMax, redraw, animation, eventArguments); }; axis.setAxisTranslation = function () { axis.constructor.prototype.setAxisTranslation.call(this); brokenAxis.unitLength = void 0; if (brokenAxis.hasBreaks) { const breaks = axis.options.breaks || [], // Temporary one: breakArrayT = [], breakArray = [], pointRangePadding = pick(axis.pointRangePadding, 0); let length = 0, inBrk, repeat, min = axis.userMin || axis.min, max = axis.userMax || axis.max, start, i; // Min & max check (#4247) breaks.forEach(function (brk) { repeat = brk.repeat || Infinity; if (isNumber(min) && isNumber(max)) { if (Additions.isInBreak(brk, min)) { min += ((brk.to % repeat) - (min % repeat)); } if (Additions.isInBreak(brk, max)) { max -= ((max % repeat) - (brk.from % repeat)); } } }); // Construct an array holding all breaks in the axis breaks.forEach(function (brk) { start = brk.from; repeat = brk.repeat || Infinity; if (isNumber(min) && isNumber(max)) { while (start - repeat > min) { start -= repeat; } while (start < min) { start += repeat; } for (i = start; i < max; i += repeat) { breakArrayT.push({ value: i, move: 'in' }); breakArrayT.push({ value: i + brk.to - brk.from, move: 'out', size: brk.breakSize }); } } }); breakArrayT.sort(function (a, b) { return ((a.value === b.value) ? ((a.move === 'in' ? 0 : 1) - (b.move === 'in' ? 0 : 1)) : a.value - b.value); }); // Simplify the breaks inBrk = 0; start = min; breakArrayT.forEach(function (brk) { inBrk += (brk.move === 'in' ? 1 : -1); if (inBrk === 1 && brk.move === 'in') { start = brk.value; } if (inBrk === 0 && isNumber(start)) { breakArray.push({ from: start, to: brk.value, len: brk.value - start - (brk.size || 0) }); length += (brk.value - start - (brk.size || 0)); } }); brokenAxis.breakArray = breakArray; // Used with staticScale, and below the actual axis // length, when breaks are subtracted. if (isNumber(min) && isNumber(max) && isNumber(axis.min)) { brokenAxis.unitLength = max - min - length + pointRangePadding; fireEvent(axis, 'afterBreaks'); if (axis.staticScale) { axis.transA = axis.staticScale; } else if (brokenAxis.unitLength) { axis.transA *= (max - axis.min + pointRangePadding) / brokenAxis.unitLength; } if (pointRangePadding) { axis.minPixelPadding = axis.transA * (axis.minPointOffset || 0); } axis.min = min; axis.max = max; } } }; } if (pick(redraw, true)) { axis.chart.redraw(); } } } BrokenAxis.Additions = Additions; })(BrokenAxis || (BrokenAxis = {})); /* * * * Default Export * * */ return BrokenAxis; }); _registerModule(_modules, 'Core/Axis/GridAxis.js', [_modules['Core/Axis/Axis.js'], _modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (Axis, H, U) { /* * * * (c) 2016 Highsoft AS * Authors: Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { dateFormats } = H; const { addEvent, defined, erase, find, isArray, isNumber, merge, pick, timeUnits, wrap } = U; /* * * * Enums * * */ /** * Enum for which side the axis is on. Maps to axis.side. * @private */ var GridAxisSide; (function (GridAxisSide) { GridAxisSide[GridAxisSide["top"] = 0] = "top"; GridAxisSide[GridAxisSide["right"] = 1] = "right"; GridAxisSide[GridAxisSide["bottom"] = 2] = "bottom"; GridAxisSide[GridAxisSide["left"] = 3] = "left"; })(GridAxisSide || (GridAxisSide = {})); /* * * * Functions * * */ /** * @private */ function argsToArray(args) { return Array.prototype.slice.call(args, 1); } /** * @private */ function isObject(x) { // Always use strict mode return U.isObject(x, true); } /** * @private */ function applyGridOptions(axis) { const options = axis.options; // Center-align by default /* if (!options.labels) { options.labels = {}; } */ options.labels.align = pick(options.labels.align, 'center'); // @todo: Check against tickLabelPlacement between/on etc /* Prevents adding the last tick label if the axis is not a category axis. Since numeric labels are normally placed at starts and ends of a range of value, and this module makes the label point at the value, an "extra" label would appear. */ if (!axis.categories) { options.showLastLabel = false; } // Prevents rotation of labels when squished, as rotating them would not // help. axis.labelRotation = 0; options.labels.rotation = 0; // Allow putting ticks closer than their data points. options.minTickInterval = 1; } /** * Extends axis class with grid support. * @private */ function compose(AxisClass, ChartClass, TickClass) { if (!AxisClass.keepProps.includes('grid')) { AxisClass.keepProps.push('grid'); AxisClass.prototype.getMaxLabelDimensions = getMaxLabelDimensions; wrap(AxisClass.prototype, 'unsquish', wrapUnsquish); wrap(AxisClass.prototype, 'getOffset', wrapGetOffset); // Add event handlers addEvent(AxisClass, 'init', onInit); addEvent(AxisClass, 'afterGetTitlePosition', onAfterGetTitlePosition); addEvent(AxisClass, 'afterInit', onAfterInit); addEvent(AxisClass, 'afterRender', onAfterRender); addEvent(AxisClass, 'afterSetAxisTranslation', onAfterSetAxisTranslation); addEvent(AxisClass, 'afterSetOptions', onAfterSetOptions); addEvent(AxisClass, 'afterSetOptions', onAfterSetOptions2); addEvent(AxisClass, 'afterSetScale', onAfterSetScale); addEvent(AxisClass, 'afterTickSize', onAfterTickSize); addEvent(AxisClass, 'trimTicks', onTrimTicks); addEvent(AxisClass, 'destroy', onDestroy); addEvent(ChartClass, 'afterSetChartSize', onChartAfterSetChartSize); addEvent(TickClass, 'afterGetLabelPosition', onTickAfterGetLabelPosition); addEvent(TickClass, 'labelFormat', onTickLabelFormat); } return AxisClass; } /** * Get the largest label width and height. * * @private * @function Highcharts.Axis#getMaxLabelDimensions * * @param {Highcharts.Dictionary} ticks * All the ticks on one axis. * * @param {Array} tickPositions * All the tick positions on one axis. * * @return {Highcharts.SizeObject} * Object containing the properties height and width. * * @todo Move this to the generic axis implementation, as it is used there. */ function getMaxLabelDimensions(ticks, tickPositions) { const dimensions = { width: 0, height: 0 }; tickPositions.forEach(function (pos) { const tick = ticks[pos]; let labelHeight = 0, labelWidth = 0, label; if (isObject(tick)) { label = isObject(tick.label) ? tick.label : {}; // Find width and height of label labelHeight = label.getBBox ? label.getBBox().height : 0; if (label.textStr && !isNumber(label.textPxLength)) { label.textPxLength = label.getBBox().width; } labelWidth = isNumber(label.textPxLength) ? // Math.round ensures crisp lines Math.round(label.textPxLength) : 0; if (label.textStr) { // Set the tickWidth same as the label width after ellipsis // applied #10281 labelWidth = Math.round(label.getBBox().width); } // Update the result if width and/or height are larger dimensions.height = Math.max(labelHeight, dimensions.height); dimensions.width = Math.max(labelWidth, dimensions.width); } }); // For tree grid, add indentation if (this.options.type === 'treegrid' && this.treeGrid && this.treeGrid.mapOfPosToGridNode) { const treeDepth = this.treeGrid.mapOfPosToGridNode[-1].height || 0; dimensions.width += (this.options.labels.indentation * (treeDepth - 1)); } return dimensions; } /** * Handle columns and getOffset. * @private */ function wrapGetOffset(proceed) { const { grid } = this, // On the left side we handle the columns first because the offset is // calculated from the plot area and out columnsFirst = this.side === 3; if (!columnsFirst) { proceed.apply(this); } if (!grid?.isColumn) { let columns = grid?.columns || []; if (columnsFirst) { columns = columns.slice().reverse(); } columns .forEach((column) => { column.getOffset(); }); } if (columnsFirst) { proceed.apply(this); } } /** * @private */ function onAfterGetTitlePosition(e) { const axis = this; const options = axis.options; const gridOptions = options.grid || {}; if (gridOptions.enabled === true) { // Compute anchor points for each of the title align options const { axisTitle, height: axisHeight, horiz, left: axisLeft, offset, opposite, options, top: axisTop, width: axisWidth } = axis; const tickSize = axis.tickSize(); const titleWidth = axisTitle && axisTitle.getBBox().width; const xOption = options.title.x; const yOption = options.title.y; const titleMargin = pick(options.title.margin, horiz ? 5 : 10); const titleFontSize = axisTitle ? axis.chart.renderer.fontMetrics(axisTitle).f : 0; const crispCorr = tickSize ? tickSize[0] / 2 : 0; // TODO account for alignment // the position in the perpendicular direction of the axis const offAxis = ((horiz ? axisTop + axisHeight : axisLeft) + (horiz ? 1 : -1) * // Horizontal axis reverses the margin (opposite ? -1 : 1) * // So does opposite axes crispCorr + (axis.side === GridAxisSide.bottom ? titleFontSize : 0)); e.titlePosition.x = horiz ? axisLeft - (titleWidth || 0) / 2 - titleMargin + xOption : offAxis + (opposite ? axisWidth : 0) + offset + xOption; e.titlePosition.y = horiz ? (offAxis - (opposite ? axisHeight : 0) + (opposite ? titleFontSize : -titleFontSize) / 2 + offset + yOption) : axisTop - titleMargin + yOption; } } /** * @private */ function onAfterInit() { const axis = this; const { chart, options: { grid: gridOptions = {} }, userOptions } = axis; if (gridOptions.enabled) { applyGridOptions(axis); } if (gridOptions.columns) { const columns = axis.grid.columns = []; let columnIndex = axis.grid.columnIndex = 0; // Handle columns, each column is a grid axis while (++columnIndex < gridOptions.columns.length) { const columnOptions = merge(userOptions, gridOptions.columns[columnIndex], { isInternal: true, linkedTo: 0, // Disable by default the scrollbar on the grid axis scrollbar: { enabled: false } }, // Avoid recursion { grid: { columns: void 0 } }); const column = new Axis(axis.chart, columnOptions, 'yAxis'); column.grid.isColumn = true; column.grid.columnIndex = columnIndex; // Remove column axis from chart axes array, and place it // in the columns array. erase(chart.axes, column); erase(chart[axis.coll] || [], column); columns.push(column); } } } /** * Draw an extra line on the far side of the outermost axis, * creating floor/roof/wall of a grid. And some padding. * ``` * Make this: * (axis.min) __________________________ (axis.max) * | | | | | * Into this: * (axis.min) __________________________ (axis.max) * ___|____|____|____|____|__ * ``` * @private */ function onAfterRender() { const axis = this, { axisTitle, grid, options } = axis, gridOptions = options.grid || {}; if (gridOptions.enabled === true) { const min = axis.min || 0, max = axis.max || 0, firstTick = axis.ticks[axis.tickPositions[0]]; // Adjust the title max width to the column width (#19657) if (axisTitle && !axis.chart.styledMode && firstTick?.slotWidth && !axis.options.title.style.width) { axisTitle.css({ width: `${firstTick.slotWidth}px` }); } // @todo actual label padding (top, bottom, left, right) axis.maxLabelDimensions = axis.getMaxLabelDimensions(axis.ticks, axis.tickPositions); // Remove right wall before rendering if updating if (axis.rightWall) { axis.rightWall.destroy(); } /* Draw an extra axis line on outer axes > Make this: |______|______|______|___ > _________________________ Into this: |______|______|______|__| */ if (axis.grid && axis.grid.isOuterAxis() && axis.axisLine) { const lineWidth = options.lineWidth; if (lineWidth) { const linePath = axis.getLinePath(lineWidth), startPoint = linePath[0], endPoint = linePath[1], // Negate distance if top or left axis // Subtract 1px to draw the line at the end of the tick tickLength = (axis.tickSize('tick') || [1])[0], distance = (tickLength - 1) * ((axis.side === GridAxisSide.top || axis.side === GridAxisSide.left) ? -1 : 1); // If axis is horizontal, reposition line path vertically if (startPoint[0] === 'M' && endPoint[0] === 'L') { if (axis.horiz) { startPoint[2] += distance; endPoint[2] += distance; } else { startPoint[1] += distance; endPoint[1] += distance; } } // If it doesn't exist, add an upper and lower border // for the vertical grid axis. if (!axis.horiz && axis.chart.marginRight) { const upperBorderStartPoint = startPoint, upperBorderEndPoint = [ 'L', axis.left, startPoint[2] || 0 ], upperBorderPath = [ upperBorderStartPoint, upperBorderEndPoint ], lowerBorderEndPoint = [ 'L', axis.chart.chartWidth - axis.chart.marginRight, axis.toPixels(max + axis.tickmarkOffset) ], lowerBorderStartPoint = [ 'M', endPoint[1] || 0, axis.toPixels(max + axis.tickmarkOffset) ], lowerBorderPath = [ lowerBorderStartPoint, lowerBorderEndPoint ]; if (!axis.grid.upperBorder && min % 1 !== 0) { axis.grid.upperBorder = axis.grid.renderBorder(upperBorderPath); } if (axis.grid.upperBorder) { axis.grid.upperBorder.attr({ stroke: options.lineColor, 'stroke-width': options.lineWidth }); axis.grid.upperBorder.animate({ d: upperBorderPath }); } if (!axis.grid.lowerBorder && max % 1 !== 0) { axis.grid.lowerBorder = axis.grid.renderBorder(lowerBorderPath); } if (axis.grid.lowerBorder) { axis.grid.lowerBorder.attr({ stroke: options.lineColor, 'stroke-width': options.lineWidth }); axis.grid.lowerBorder.animate({ d: lowerBorderPath }); } } // Render an extra line parallel to the existing axes, to // close the grid. if (!axis.grid.axisLineExtra) { axis.grid.axisLineExtra = axis.grid.renderBorder(linePath); } else { axis.grid.axisLineExtra.attr({ stroke: options.lineColor, 'stroke-width': options.lineWidth }); axis.grid.axisLineExtra.animate({ d: linePath }); } // Show or hide the line depending on options.showEmpty axis.axisLine[axis.showAxis ? 'show' : 'hide'](); } } (grid && grid.columns || []).forEach((column) => column.render()); // Manipulate the tick mark visibility // based on the axis.max- allows smooth scrolling. if (!axis.horiz && axis.chart.hasRendered && (axis.scrollbar || (axis.linkedParent && axis.linkedParent.scrollbar)) && axis.tickPositions.length) { const tickmarkOffset = axis.tickmarkOffset, lastTick = axis.tickPositions[axis.tickPositions.length - 1], firstTick = axis.tickPositions[0]; let label, tickMark; while ((label = axis.hiddenLabels.pop()) && label.element) { label.show(); // #15453 } while ((tickMark = axis.hiddenMarks.pop()) && tickMark.element) { tickMark.show(); // #16439 } // Hide/show first tick label. label = axis.ticks[firstTick].label; if (label) { if (min - firstTick > tickmarkOffset) { axis.hiddenLabels.push(label.hide()); } else { label.show(); } } // Hide/show last tick mark/label. label = axis.ticks[lastTick].label; if (label) { if (lastTick - max > tickmarkOffset) { axis.hiddenLabels.push(label.hide()); } else { label.show(); } } const mark = axis.ticks[lastTick].mark; if (mark && lastTick - max < tickmarkOffset && lastTick - max > 0 && axis.ticks[lastTick].isLast) { axis.hiddenMarks.push(mark.hide()); } } } } /** * @private */ function onAfterSetAxisTranslation() { const axis = this; const tickInfo = axis.tickPositions && axis.tickPositions.info; const options = axis.options; const gridOptions = options.grid || {}; const userLabels = axis.userOptions.labels || {}; // Fire this only for the Gantt type chart, #14868. if (gridOptions.enabled) { if (axis.horiz) { axis.series.forEach((series) => { series.options.pointRange = 0; }); // Lower level time ticks, like hours or minutes, represent // points in time and not ranges. These should be aligned // left in the grid cell by default. The same applies to // years of higher order. if (tickInfo && options.dateTimeLabelFormats && options.labels && !defined(userLabels.align) && (options.dateTimeLabelFormats[tickInfo.unitName] .range === false || tickInfo.count > 1 // Years )) { options.labels.align = 'left'; if (!defined(userLabels.x)) { options.labels.x = 3; } } } else { // Don't trim ticks which not in min/max range but // they are still in the min/max plus tickInterval. if (this.options.type !== 'treegrid' && axis.grid && axis.grid.columns) { this.minPointOffset = this.tickInterval; } } } } /** * Creates a left and right wall on horizontal axes: * - Places leftmost tick at the start of the axis, to create a left * wall * - Ensures that the rightmost tick is at the end of the axis, to * create a right wall. * @private */ function onAfterSetOptions(e) { const options = this.options, userOptions = e.userOptions, gridOptions = ((options && isObject(options.grid)) ? options.grid : {}); let gridAxisOptions; if (gridOptions.enabled === true) { // Merge the user options into default grid axis options so // that when a user option is set, it takes precedence. gridAxisOptions = merge(true, { className: ('highcharts-grid-axis ' + (userOptions.className || '')), dateTimeLabelFormats: { hour: { list: ['%H:%M', '%H'] }, day: { list: ['%A, %e. %B', '%a, %e. %b', '%E'] }, week: { list: ['Week %W', 'W%W'] }, month: { list: ['%B', '%b', '%o'] } }, grid: { borderWidth: 1 }, labels: { padding: 2, style: { fontSize: '0.9em' } }, margin: 0, title: { text: null, reserveSpace: false, rotation: 0, style: { textOverflow: 'ellipsis' } }, // In a grid axis, only allow one unit of certain types, // for example we shouldn't have one grid cell spanning // two days. units: [[ 'millisecond', [1, 10, 100] ], [ 'second', [1, 10] ], [ 'minute', [1, 5, 15] ], [ 'hour', [1, 6] ], [ 'day', [1] ], [ 'week', [1] ], [ 'month', [1] ], [ 'year', null ]] }, userOptions); // X-axis specific options if (this.coll === 'xAxis') { // For linked axes, tickPixelInterval is used only if // the tickPositioner below doesn't run or returns // undefined (like multiple years) if (defined(userOptions.linkedTo) && !defined(userOptions.tickPixelInterval)) { gridAxisOptions.tickPixelInterval = 350; } // For the secondary grid axis, use the primary axis' // tick intervals and return ticks one level higher. if ( // Check for tick pixel interval in options !defined(userOptions.tickPixelInterval) && // Only for linked axes defined(userOptions.linkedTo) && !defined(userOptions.tickPositioner) && !defined(userOptions.tickInterval) && !defined(userOptions.units)) { gridAxisOptions.tickPositioner = function (min, max) { const parentInfo = (this.linkedParent && this.linkedParent.tickPositions && this.linkedParent.tickPositions.info); if (parentInfo) { const units = (gridAxisOptions.units || []); let unitIdx, count = 1, unitName = 'year'; for (let i = 0; i < units.length; i++) { const unit = units[i]; if (unit && unit[0] === parentInfo.unitName) { unitIdx = i; break; } } // Get the first allowed count on the next unit. const unit = (isNumber(unitIdx) && units[unitIdx + 1]); if (unit) { unitName = unit[0] || 'year'; const counts = unit[1]; count = counts && counts[0] || 1; // In case the base X axis shows years, make the // secondary axis show ten times the years (#11427) } else if (parentInfo.unitName === 'year') { // `unitName` is 'year' count = parentInfo.count * 10; } const unitRange = timeUnits[unitName]; this.tickInterval = unitRange * count; return this.chart.time.getTimeTicks({ unitRange, count, unitName }, min, max, this.options.startOfWeek); } }; } } // Now merge the combined options into the axis options merge(true, this.options, gridAxisOptions); if (this.horiz) { /* _________________________ Make this: ___|_____|_____|_____|__| ^ ^ _________________________ Into this: |_____|_____|_____|_____| ^ ^ */ options.minPadding = pick(userOptions.minPadding, 0); options.maxPadding = pick(userOptions.maxPadding, 0); } // If borderWidth is set, then use its value for tick and // line width. if (isNumber(options.grid.borderWidth)) { options.tickWidth = options.lineWidth = gridOptions.borderWidth; } } } /** * @private */ function onAfterSetOptions2(e) { const axis = this; const userOptions = e.userOptions; const gridOptions = userOptions && userOptions.grid || {}; const columns = gridOptions.columns; // Add column options to the parent axis. Children has their column options // set on init in onGridAxisAfterInit. if (gridOptions.enabled && columns) { merge(true, axis.options, columns[0]); } } /** * Handle columns and setScale. * @private */ function onAfterSetScale() { const axis = this; (axis.grid.columns || []).forEach((column) => column.setScale()); } /** * Draw vertical axis ticks extra long to create cell floors and roofs. * Overrides the tickLength for vertical axes. * @private */ function onAfterTickSize(e) { const { horiz, maxLabelDimensions, options: { grid: gridOptions = {} } } = this; if (gridOptions.enabled && maxLabelDimensions) { const labelPadding = this.options.labels.distance * 2; const distance = horiz ? (gridOptions.cellHeight || labelPadding + maxLabelDimensions.height) : labelPadding + maxLabelDimensions.width; if (isArray(e.tickSize)) { e.tickSize[0] = distance; } else { e.tickSize = [distance, 0]; } } } /** * @private */ function onChartAfterSetChartSize() { this.axes.forEach((axis) => { (axis.grid && axis.grid.columns || []).forEach((column) => { column.setAxisSize(); column.setAxisTranslation(); }); }); } /** * @private */ function onDestroy(e) { const { grid } = this; (grid.columns || []).forEach((column) => column.destroy(e.keepEvents)); grid.columns = void 0; } /** * Wraps axis init to draw cell walls on vertical axes. * @private */ function onInit(e) { const axis = this; const userOptions = e.userOptions || {}; const gridOptions = userOptions.grid || {}; if (gridOptions.enabled && defined(gridOptions.borderColor)) { userOptions.tickColor = userOptions.lineColor = (gridOptions.borderColor); } if (!axis.grid) { axis.grid = new GridAxisAdditions(axis); } axis.hiddenLabels = []; axis.hiddenMarks = []; } /** * Center tick labels in cells. * @private */ function onTickAfterGetLabelPosition(e) { const tick = this, label = tick.label, axis = tick.axis, reversed = axis.reversed, chart = axis.chart, options = axis.options, gridOptions = options.grid || {}, labelOpts = axis.options.labels, align = labelOpts.align, // `verticalAlign` is currently not supported for axis.labels. verticalAlign = 'middle', // LabelOpts.verticalAlign, side = GridAxisSide[axis.side], tickmarkOffset = e.tickmarkOffset, tickPositions = axis.tickPositions, tickPos = tick.pos - tickmarkOffset, nextTickPos = (isNumber(tickPositions[e.index + 1]) ? tickPositions[e.index + 1] - tickmarkOffset : (axis.max || 0) + tickmarkOffset), tickSize = axis.tickSize('tick'), tickWidth = tickSize ? tickSize[0] : 0, crispCorr = tickSize ? tickSize[1] / 2 : 0; // Only center tick labels in grid axes if (gridOptions.enabled === true) { let bottom, top, left, right; // Calculate top and bottom positions of the cell. if (side === 'top') { bottom = axis.top + axis.offset; top = bottom - tickWidth; } else if (side === 'bottom') { top = chart.chartHeight - axis.bottom + axis.offset; bottom = top + tickWidth; } else { bottom = axis.top + axis.len - (axis.translate(reversed ? nextTickPos : tickPos) || 0); top = axis.top + axis.len - (axis.translate(reversed ? tickPos : nextTickPos) || 0); } // Calculate left and right positions of the cell. if (side === 'right') { left = chart.chartWidth - axis.right + axis.offset; right = left + tickWidth; } else if (side === 'left') { right = axis.left + axis.offset; left = right - tickWidth; } else { left = Math.round(axis.left + (axis.translate(reversed ? nextTickPos : tickPos) || 0)) - crispCorr; right = Math.min(// #15742 Math.round(axis.left + (axis.translate(reversed ? tickPos : nextTickPos) || 0)) - crispCorr, axis.left + axis.len); } tick.slotWidth = right - left; // Calculate the positioning of the label based on // alignment. e.pos.x = (align === 'left' ? left : align === 'right' ? right : left + ((right - left) / 2) // Default to center ); e.pos.y = (verticalAlign === 'top' ? top : verticalAlign === 'bottom' ? bottom : top + ((bottom - top) / 2) // Default to middle ); if (label) { const lblMetrics = chart.renderer.fontMetrics(label), labelHeight = label.getBBox().height; // Adjustment to y position to align the label correctly. // Would be better to have a setter or similar for this. if (!labelOpts.useHTML) { const lines = Math.round(labelHeight / lblMetrics.h); e.pos.y += ( // Center the label // TODO: why does this actually center the label? ((lblMetrics.b - (lblMetrics.h - lblMetrics.f)) / 2) + // Adjust for height of additional lines. -(((lines - 1) * lblMetrics.h) / 2)); } else { e.pos.y += ( // Readjust yCorr in htmlUpdateTransform lblMetrics.b + // Adjust for height of html label -(labelHeight / 2)); } } e.pos.x += (axis.horiz && labelOpts.x) || 0; } } /** * @private */ function onTickLabelFormat(ctx) { const { axis, value } = ctx; if (axis.options.grid && axis.options.grid.enabled) { const tickPos = axis.tickPositions; const series = (axis.linkedParent || axis).series[0]; const isFirst = value === tickPos[0]; const isLast = value === tickPos[tickPos.length - 1]; const point = series && find(series.options.data, function (p) { return p[axis.isXAxis ? 'x' : 'y'] === value; }); let pointCopy; if (point && series.is('gantt')) { // For the Gantt set point aliases to the pointCopy // to do not change the original point pointCopy = merge(point); H.seriesTypes.gantt.prototype.pointClass .setGanttPointAliases(pointCopy); } // Make additional properties available for the // formatter ctx.isFirst = isFirst; ctx.isLast = isLast; ctx.point = pointCopy; } } /** * Makes tick labels which are usually ignored in a linked axis * displayed if they are within range of linkedParent.min. * ``` * _____________________________ * | | | | | * Make this: | | 2 | 3 | 4 | * |___|_______|_______|_______| * ^ * _____________________________ * | | | | | * Into this: | 1 | 2 | 3 | 4 | * |___|_______|_______|_______| * ^ * ``` * @private * @todo Does this function do what the drawing says? Seems to affect * ticks and not the labels directly? */ function onTrimTicks() { const axis = this, options = axis.options, gridOptions = options.grid || {}, categoryAxis = axis.categories, tickPositions = axis.tickPositions, firstPos = tickPositions[0], secondPos = tickPositions[1], lastPos = tickPositions[tickPositions.length - 1], beforeLastPos = tickPositions[tickPositions.length - 2], linkedMin = axis.linkedParent && axis.linkedParent.min, linkedMax = axis.linkedParent && axis.linkedParent.max, min = linkedMin || axis.min, max = linkedMax || axis.max, tickInterval = axis.tickInterval, startLessThanMin = ( // #19845 isNumber(min) && min >= firstPos + tickInterval && min < secondPos), endMoreThanMin = (isNumber(min) && firstPos < min && firstPos + tickInterval > min), startLessThanMax = (isNumber(max) && lastPos > max && lastPos - tickInterval < max), endMoreThanMax = (isNumber(max) && max <= lastPos - tickInterval && max > beforeLastPos); if (gridOptions.enabled === true && !categoryAxis && (axis.isXAxis || axis.isLinked)) { if ((endMoreThanMin || startLessThanMin) && !options.startOnTick) { tickPositions[0] = min; } if ((startLessThanMax || endMoreThanMax) && !options.endOnTick) { tickPositions[tickPositions.length - 1] = max; } } } /** * Avoid altering tickInterval when reserving space. * @private */ function wrapUnsquish(proceed) { const axis = this; const { options: { grid: gridOptions = {} } } = axis; if (gridOptions.enabled === true && axis.categories) { return axis.tickInterval; } return proceed.apply(axis, argsToArray(arguments)); } /* * * * Class * * */ /** * Additions for grid axes. * @private * @class */ class GridAxisAdditions { /* * * * Constructors * * */ constructor(axis) { this.axis = axis; } /* * * * Functions * * */ /** * Checks if an axis is the outer axis in its dimension. Since * axes are placed outwards in order, the axis with the highest * index is the outermost axis. * * Example: If there are multiple x-axes at the top of the chart, * this function returns true if the axis supplied is the last * of the x-axes. * * @private * * @return {boolean} * True if the axis is the outermost axis in its dimension; false if * not. */ isOuterAxis() { const axis = this.axis; const chart = axis.chart; const columnIndex = axis.grid.columnIndex; const columns = (axis.linkedParent?.grid.columns || axis.grid.columns || []); const parentAxis = columnIndex ? axis.linkedParent : axis; let thisIndex = -1, lastIndex = 0; // On the left side, when we have columns (not only multiple axes), the // main axis is to the left if (axis.side === 3 && !chart.inverted && columns.length) { return !axis.linkedParent; } (chart[axis.coll] || []).forEach((otherAxis, index) => { if (otherAxis.side === axis.side && !otherAxis.options.isInternal) { lastIndex = index; if (otherAxis === parentAxis) { // Get the index of the axis in question thisIndex = index; } } }); return (lastIndex === thisIndex && (isNumber(columnIndex) ? columns.length === columnIndex : true)); } /** * Add extra border based on the provided path. * @private * @param {SVGPath} path * The path of the border. * @return {Highcharts.SVGElement} * Border */ renderBorder(path) { const axis = this.axis, renderer = axis.chart.renderer, options = axis.options, extraBorderLine = renderer.path(path) .addClass('highcharts-axis-line') .add(axis.axisGroup); if (!renderer.styledMode) { extraBorderLine.attr({ stroke: options.lineColor, 'stroke-width': options.lineWidth, zIndex: 7 }); } return extraBorderLine; } } /* * * * Registry * * */ // First letter of the day of the week, e.g. 'M' for 'Monday'. dateFormats.E = function (timestamp) { return this.dateFormat('%a', timestamp, true).charAt(0); }; // Adds week date format dateFormats.W = function (timestamp) { const time = this, d = new this.Date(timestamp), unitsToOmit = ['Hours', 'Milliseconds', 'Minutes', 'Seconds']; unitsToOmit.forEach(function (format) { time.set(format, d, 0); }); const firstDay = (this.get('Day', d) + 6) % 7; const thursday = new this.Date(d.valueOf()); this.set('Date', thursday, this.get('Date', d) - firstDay + 3); const firstThursday = new this.Date(this.get('FullYear', thursday), 0, 1); if (this.get('Day', firstThursday) !== 4) { this.set('Month', d, 0); this.set('Date', d, 1 + (11 - this.get('Day', firstThursday)) % 7); } return (1 + Math.floor((thursday.valueOf() - firstThursday.valueOf()) / 604800000)).toString(); }; /* * * * Default Export * * */ const GridAxis = { compose }; /* * * * API Options * * */ /** * @productdesc {gantt} * For grid axes (like in Gantt charts), * it is possible to declare as a list to provide different * formats depending on available space. * * Defaults to: * ```js * { * hour: { list: ['%H:%M', '%H'] }, * day: { list: ['%A, %e. %B', '%a, %e. %b', '%E'] }, * week: { list: ['Week %W', 'W%W'] }, * month: { list: ['%B', '%b', '%o'] } * } * ``` * * @sample {gantt} gantt/grid-axis/date-time-label-formats * Gantt chart with custom axis date format. * * @apioption xAxis.dateTimeLabelFormats */ /** * Set grid options for the axis labels. Requires Highcharts Gantt. * * @since 6.2.0 * @product gantt * @apioption xAxis.grid */ /** * Enable grid on the axis labels. Defaults to true for Gantt charts. * * @type {boolean} * @default true * @since 6.2.0 * @product gantt * @apioption xAxis.grid.enabled */ /** * Set specific options for each column (or row for horizontal axes) in the * grid. Each extra column/row is its own axis, and the axis options can be set * here. * * @sample gantt/demo/left-axis-table * Left axis as a table * @sample gantt/demo/treegrid-columns * Collapsible tree grid with columns * * @type {Array} * @apioption xAxis.grid.columns */ /** * Set border color for the label grid lines. * * @type {Highcharts.ColorString} * @default #e6e6e6 * @apioption xAxis.grid.borderColor */ /** * Set border width of the label grid lines. * * @type {number} * @default 1 * @apioption xAxis.grid.borderWidth */ /** * Set cell height for grid axis labels. By default this is calculated from font * size. This option only applies to horizontal axes. For vertical axes, check * the [#yAxis.staticScale](yAxis.staticScale) option. * * @sample gantt/grid-axis/cellheight * Gant chart with custom cell height * @type {number} * @apioption xAxis.grid.cellHeight */ ''; // Keeps doclets above in JS file return GridAxis; }); _registerModule(_modules, 'Gantt/Tree.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2016-2024 Highsoft AS * * Authors: Jon Arild Nygard * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ /* * * * Imports * * */ const { extend, isNumber, pick } = U; /* * * * Functions * * */ /** * Creates an object map from parent id to children's index. * * @private * @function Highcharts.Tree#getListOfParents * * @param {Array<*>} data * List of points set in options. `Array.parent` is parent id of point. * * @return {Highcharts.Dictionary>} * Map from parent id to children index in data */ function getListOfParents(data) { const root = '', ids = [], listOfParents = data.reduce((prev, curr) => { const { parent = '', id } = curr; if (typeof prev[parent] === 'undefined') { prev[parent] = []; } prev[parent].push(curr); if (id) { ids.push(id); } return prev; }, {}); Object.keys(listOfParents).forEach((node) => { if ((node !== root) && (ids.indexOf(node) === -1)) { const adoptedByRoot = listOfParents[node].map(function (orphan) { const { ...parentExcluded } = orphan; // #15196 return parentExcluded; }); listOfParents[root].push(...adoptedByRoot); delete listOfParents[node]; } }); return listOfParents; } /** @private */ function getNode(id, parent, level, data, mapOfIdToChildren, options) { const after = options && options.after, before = options && options.before, node = { data, depth: level - 1, id, level, parent: (parent || '') }; let descendants = 0, height = 0, start, end; // Allow custom logic before the children has been created. if (typeof before === 'function') { before(node, options); } // Call getNode recursively on the children. Calculate the height of the // node, and the number of descendants. const children = ((mapOfIdToChildren[id] || [])).map((child) => { const node = getNode(child.id, id, (level + 1), child, mapOfIdToChildren, options), childStart = child.start || NaN, childEnd = (child.milestone === true ? childStart : child.end || NaN); // Start should be the lowest child.start. start = ((!isNumber(start) || childStart < start) ? childStart : start); // End should be the largest child.end. // If child is milestone, then use start as end. end = ((!isNumber(end) || childEnd > end) ? childEnd : end); descendants = descendants + 1 + node.descendants; height = Math.max(node.height + 1, height); return node; }); // Calculate start and end for point if it is not already explicitly set. if (data) { data.start = pick(data.start, start); data.end = pick(data.end, end); } extend(node, { children: children, descendants: descendants, height: height }); // Allow custom logic after the children has been created. if (typeof after === 'function') { after(node, options); } return node; } /** @private */ function getTree(data, options) { return getNode('', null, 1, null, getListOfParents(data), options); } /* * * * Default Export * * */ const Tree = { getNode, getTree }; return Tree; }); _registerModule(_modules, 'Core/Axis/TreeGrid/TreeGridTick.js', [_modules['Core/Utilities.js']], function (U) { /* * * * (c) 2016 Highsoft AS * Authors: Jon Arild Nygard * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { addEvent, removeEvent, isObject, isNumber, pick, wrap } = U; /* * * * Functions * * */ /** * @private */ function onTickInit() { const tick = this; if (!tick.treeGrid) { tick.treeGrid = new TreeGridTickAdditions(tick); } } /** * @private */ function onTickHover(label) { label.addClass('highcharts-treegrid-node-active'); if (!label.renderer.styledMode) { label.css({ textDecoration: 'underline' }); } } /** * @private */ function onTickHoverExit(label, options) { const css = isObject(options.style) ? options.style : {}; label.removeClass('highcharts-treegrid-node-active'); if (!label.renderer.styledMode) { label.css({ textDecoration: (css.textDecoration || 'none') }); } } /** * @private */ function renderLabelIcon(tick, params) { const treeGrid = tick.treeGrid, isNew = !treeGrid.labelIcon, renderer = params.renderer, labelBox = params.xy, options = params.options, width = options.width || 0, height = options.height || 0, padding = options.padding ?? tick.axis.linkedParent ? 0 : 5, iconCenter = { x: labelBox.x - (width / 2) - padding, y: labelBox.y - (height / 2) }, rotation = params.collapsed ? 90 : 180, shouldRender = params.show && isNumber(iconCenter.y); let icon = treeGrid.labelIcon; if (!icon) { treeGrid.labelIcon = icon = renderer .path(renderer.symbols[options.type](options.x || 0, options.y || 0, width, height)) .addClass('highcharts-label-icon') .add(params.group); } // Set the new position, and show or hide icon[shouldRender ? 'show' : 'hide'](); // #14904, #1338 // Presentational attributes if (!renderer.styledMode) { icon .attr({ cursor: 'pointer', 'fill': pick(params.color, "#666666" /* Palette.neutralColor60 */), 'stroke-width': 1, stroke: options.lineColor, strokeWidth: options.lineWidth || 0 }); } // Update the icon positions icon[isNew ? 'attr' : 'animate']({ translateX: iconCenter.x, translateY: iconCenter.y, rotation: rotation }); } /** * @private */ function wrapGetLabelPosition(proceed, x, y, label, horiz, labelOptions, tickmarkOffset, index, step) { const tick = this, lbOptions = pick(tick.options && tick.options.labels, labelOptions), pos = tick.pos, axis = tick.axis, options = axis.options, isTreeGrid = options.type === 'treegrid', result = proceed.apply(tick, [x, y, label, horiz, lbOptions, tickmarkOffset, index, step]); let mapOfPosToGridNode, node, level; if (isTreeGrid) { const { width = 0, padding = axis.linkedParent ? 0 : 5 } = (lbOptions && isObject(lbOptions.symbol, true) ? lbOptions.symbol : {}), indentation = (lbOptions && isNumber(lbOptions.indentation) ? lbOptions.indentation : 0); mapOfPosToGridNode = axis.treeGrid.mapOfPosToGridNode; node = mapOfPosToGridNode && mapOfPosToGridNode[pos]; level = (node && node.depth) || 1; result.x += ( // Add space for symbols (width + (padding * 2)) + // Apply indentation ((level - 1) * indentation)); } return result; } /** * @private */ function wrapRenderLabel(proceed) { const tick = this, { pos, axis, label, treeGrid: tickGrid, options: tickOptions } = tick, icon = tickGrid?.labelIcon, labelElement = label?.element, { treeGrid: axisGrid, options: axisOptions, chart, tickPositions } = axis, mapOfPosToGridNode = axisGrid.mapOfPosToGridNode, labelOptions = pick(tickOptions?.labels, axisOptions?.labels), symbolOptions = (labelOptions && isObject(labelOptions.symbol, true) ? labelOptions.symbol : {}), node = mapOfPosToGridNode && mapOfPosToGridNode[pos], { descendants, depth } = node || {}, hasDescendants = node && descendants && descendants > 0, level = depth, isTreeGridElement = (axisOptions.type === 'treegrid') && labelElement, shouldRender = tickPositions.indexOf(pos) > -1, prefixClassName = 'highcharts-treegrid-node-', prefixLevelClass = prefixClassName + 'level-', styledMode = chart.styledMode; let collapsed, addClassName, removeClassName; if (isTreeGridElement && node) { // Add class name for hierarchical styling. label .removeClass(new RegExp(prefixLevelClass + '.*')) .addClass(prefixLevelClass + level); } proceed.apply(tick, Array.prototype.slice.call(arguments, 1)); if (isTreeGridElement && hasDescendants) { collapsed = axisGrid.isCollapsed(node); renderLabelIcon(tick, { color: (!styledMode && label.styles.color || ''), collapsed: collapsed, group: label.parentGroup, options: symbolOptions, renderer: label.renderer, show: shouldRender, xy: label.xy }); // Add class name for the node. addClassName = prefixClassName + (collapsed ? 'collapsed' : 'expanded'); removeClassName = prefixClassName + (collapsed ? 'expanded' : 'collapsed'); label .addClass(addClassName) .removeClass(removeClassName); if (!styledMode) { label.css({ cursor: 'pointer' }); } // Add events to both label text and icon [label, icon].forEach((object) => { if (object && !object.attachedTreeGridEvents) { // On hover addEvent(object.element, 'mouseover', function () { onTickHover(label); }); // On hover out addEvent(object.element, 'mouseout', function () { onTickHoverExit(label, labelOptions); }); addEvent(object.element, 'click', function () { tickGrid.toggleCollapse(); }); object.attachedTreeGridEvents = true; } }); } else if (icon) { removeEvent(labelElement); label?.css({ cursor: 'default' }); icon.destroy(); } } /* * * * Classes * * */ /** * @private * @class */ class TreeGridTickAdditions { /* * * * Static Functions * * */ /** * @private */ static compose(TickClass) { const tickProto = TickClass.prototype; if (!tickProto.toggleCollapse) { addEvent(TickClass, 'init', onTickInit); wrap(tickProto, 'getLabelPosition', wrapGetLabelPosition); wrap(tickProto, 'renderLabel', wrapRenderLabel); // Backwards compatibility tickProto.collapse = function (redraw) { this.treeGrid.collapse(redraw); }; tickProto.expand = function (redraw) { this.treeGrid.expand(redraw); }; tickProto.toggleCollapse = function (redraw) { this.treeGrid.toggleCollapse(redraw); }; } } /* * * * Constructors * * */ /** * @private */ constructor(tick) { this.tick = tick; } /* * * * Functions * * */ /** * Collapse the grid cell. Used when axis is of type treegrid. * * @see gantt/treegrid-axis/collapsed-dynamically/demo.js * * @private * @function Highcharts.Tick#collapse * * @param {boolean} [redraw=true] * Whether to redraw the chart or wait for an explicit call to * {@link Highcharts.Chart#redraw} */ collapse(redraw) { const tick = this.tick, axis = tick.axis, brokenAxis = axis.brokenAxis; if (brokenAxis && axis.treeGrid.mapOfPosToGridNode) { const pos = tick.pos, node = axis.treeGrid.mapOfPosToGridNode[pos], breaks = axis.treeGrid.collapse(node); brokenAxis.setBreaks(breaks, pick(redraw, true)); } } /** * Destroy remaining labelIcon if exist. * * @private * @function Highcharts.Tick#destroy */ destroy() { if (this.labelIcon) { this.labelIcon.destroy(); } } /** * Expand the grid cell. Used when axis is of type treegrid. * * @see gantt/treegrid-axis/collapsed-dynamically/demo.js * * @private * @function Highcharts.Tick#expand * * @param {boolean} [redraw=true] * Whether to redraw the chart or wait for an explicit call to * {@link Highcharts.Chart#redraw} */ expand(redraw) { const { pos, axis } = this.tick, { treeGrid, brokenAxis } = axis, posMappedNodes = treeGrid.mapOfPosToGridNode; if (brokenAxis && posMappedNodes) { const node = posMappedNodes[pos], breaks = treeGrid.expand(node); brokenAxis.setBreaks(breaks, pick(redraw, true)); } } /** * Toggle the collapse/expand state of the grid cell. Used when axis is * of type treegrid. * * @see gantt/treegrid-axis/collapsed-dynamically/demo.js * * @private * @function Highcharts.Tick#toggleCollapse * * @param {boolean} [redraw=true] * Whether to redraw the chart or wait for an explicit call to * {@link Highcharts.Chart#redraw} */ toggleCollapse(redraw) { const tick = this.tick, axis = tick.axis, brokenAxis = axis.brokenAxis; if (brokenAxis && axis.treeGrid.mapOfPosToGridNode) { const pos = tick.pos, node = axis.treeGrid.mapOfPosToGridNode[pos], breaks = axis.treeGrid.toggleCollapse(node); brokenAxis.setBreaks(breaks, pick(redraw, true)); } } } /* * * * Default Export * * */ return TreeGridTickAdditions; }); _registerModule(_modules, 'Series/TreeUtilities.js', [_modules['Core/Color/Color.js'], _modules['Core/Utilities.js']], function (Color, U) { /* * * * (c) 2014-2024 Highsoft AS * * Authors: Jon Arild Nygard / Oystein Moseng * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { extend, isArray, isNumber, isObject, merge, pick, relativeLength } = U; /* * * * Functions * * */ /* eslint-disable valid-jsdoc */ /** * @private */ function getColor(node, options) { const index = options.index, mapOptionsToLevel = options.mapOptionsToLevel, parentColor = options.parentColor, parentColorIndex = options.parentColorIndex, series = options.series, colors = options.colors, siblings = options.siblings, points = series.points, chartOptionsChart = series.chart.options.chart; let getColorByPoint, point, level, colorByPoint, colorIndexByPoint, color, colorIndex; /** * @private */ const variateColor = (color) => { const colorVariation = level && level.colorVariation; if (colorVariation && colorVariation.key === 'brightness' && index && siblings) { return Color.parse(color).brighten(colorVariation.to * (index / siblings)).get(); } return color; }; if (node) { point = points[node.i]; level = mapOptionsToLevel[node.level] || {}; getColorByPoint = point && level.colorByPoint; if (getColorByPoint) { colorIndexByPoint = point.index % (colors ? colors.length : chartOptionsChart.colorCount); colorByPoint = colors && colors[colorIndexByPoint]; } // Select either point color, level color or inherited color. if (!series.chart.styledMode) { color = pick(point && point.options.color, level && level.color, colorByPoint, parentColor && variateColor(parentColor), series.color); } colorIndex = pick(point && point.options.colorIndex, level && level.colorIndex, colorIndexByPoint, parentColorIndex, options.colorIndex); } return { color: color, colorIndex: colorIndex }; } /** * Creates a map from level number to its given options. * * @private * * @param {Object} params * Object containing parameters. * - `defaults` Object containing default options. The default options are * merged with the userOptions to get the final options for a specific * level. * - `from` The lowest level number. * - `levels` User options from series.levels. * - `to` The highest level number. * * @return {Highcharts.Dictionary|null} * Returns a map from level number to its given options. */ function getLevelOptions(params) { const result = {}; let defaults, converted, i, from, to, levels; if (isObject(params)) { from = isNumber(params.from) ? params.from : 1; levels = params.levels; converted = {}; defaults = isObject(params.defaults) ? params.defaults : {}; if (isArray(levels)) { converted = levels.reduce((obj, item) => { let level, levelIsConstant, options; if (isObject(item) && isNumber(item.level)) { options = merge({}, item); levelIsConstant = pick(options.levelIsConstant, defaults.levelIsConstant); // Delete redundant properties. delete options.levelIsConstant; delete options.level; // Calculate which level these options apply to. level = item.level + (levelIsConstant ? 0 : from - 1); if (isObject(obj[level])) { merge(true, obj[level], options); // #16329 } else { obj[level] = options; } } return obj; }, {}); } to = isNumber(params.to) ? params.to : 1; for (i = 0; i <= to; i++) { result[i] = merge({}, defaults, isObject(converted[i]) ? converted[i] : {}); } } return result; } /** * @private * @todo Combine buildTree and buildNode with setTreeValues * @todo Remove logic from Treemap and make it utilize this mixin. */ function setTreeValues(tree, options) { const before = options.before, idRoot = options.idRoot, mapIdToNode = options.mapIdToNode, nodeRoot = mapIdToNode[idRoot], levelIsConstant = (options.levelIsConstant !== false), points = options.points, point = points[tree.i], optionsPoint = point && point.options || {}, children = []; let childrenTotal = 0; tree.levelDynamic = tree.level - (levelIsConstant ? 0 : nodeRoot.level); tree.name = pick(point && point.name, ''); tree.visible = (idRoot === tree.id || options.visible === true); if (typeof before === 'function') { tree = before(tree, options); } // First give the children some values tree.children.forEach((child, i) => { const newOptions = extend({}, options); extend(newOptions, { index: i, siblings: tree.children.length, visible: tree.visible }); child = setTreeValues(child, newOptions); children.push(child); if (child.visible) { childrenTotal += child.val; } }); // Set the values const value = pick(optionsPoint.value, childrenTotal); tree.visible = value >= 0 && (childrenTotal > 0 || tree.visible); tree.children = children; tree.childrenTotal = childrenTotal; tree.isLeaf = tree.visible && !childrenTotal; tree.val = value; return tree; } /** * Update the rootId property on the series. Also makes sure that it is * accessible to exporting. * * @private * * @param {Object} series * The series to operate on. * * @return {string} * Returns the resulting rootId after update. */ function updateRootId(series) { let rootId, options; if (isObject(series)) { // Get the series options. options = isObject(series.options) ? series.options : {}; // Calculate the rootId. rootId = pick(series.rootNode, options.rootId, ''); // Set rootId on series.userOptions to pick it up in exporting. if (isObject(series.userOptions)) { series.userOptions.rootId = rootId; } // Set rootId on series to pick it up on next update. series.rootNode = rootId; } return rootId; } /** * Get the node width, which relies on the plot width and the nodeDistance * option. * * @private */ function getNodeWidth(series, columnCount) { const { chart, options } = series, { nodeDistance = 0, nodeWidth = 0 } = options, { plotSizeX = 1 } = chart; // Node width auto means they are evenly distributed along the width of // the plot area if (nodeWidth === 'auto') { if (typeof nodeDistance === 'string' && /%$/.test(nodeDistance)) { const fraction = parseFloat(nodeDistance) / 100, total = columnCount + fraction * (columnCount - 1); return plotSizeX / total; } const nDistance = Number(nodeDistance); return ((plotSizeX + nDistance) / (columnCount || 1)) - nDistance; } return relativeLength(nodeWidth, plotSizeX); } /* * * * Default Export * * */ const TreeUtilities = { getColor, getLevelOptions, getNodeWidth, setTreeValues, updateRootId }; return TreeUtilities; }); _registerModule(_modules, 'Core/Axis/TreeGrid/TreeGridAxis.js', [_modules['Core/Axis/BrokenAxis.js'], _modules['Core/Axis/GridAxis.js'], _modules['Gantt/Tree.js'], _modules['Core/Axis/TreeGrid/TreeGridTick.js'], _modules['Series/TreeUtilities.js'], _modules['Core/Utilities.js']], function (BrokenAxis, GridAxis, Tree, TreeGridTick, TU, U) { /* * * * (c) 2016 Highsoft AS * Authors: Jon Arild Nygard * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { getLevelOptions } = TU; const { addEvent, find, fireEvent, isArray, isObject, isString, merge, pick, removeEvent, wrap } = U; /* * * * Variables * * */ let TickConstructor; /* * * * Functions * * */ /** * @private */ function getBreakFromNode(node, max) { const to = node.collapseEnd || 0; let from = node.collapseStart || 0; // In broken-axis, the axis.max is minimized until it is not within a // break. Therefore, if break.to is larger than axis.max, the axis.to // should not add the 0.5 axis.tickMarkOffset, to avoid adding a break // larger than axis.max. // TODO consider simplifying broken-axis and this might solve itself if (to >= max) { from -= 0.5; } return { from: from, to: to, showPoints: false }; } /** * Creates a tree structure of the data, and the treegrid. Calculates * categories, and y-values of points based on the tree. * * @private * @function getTreeGridFromData * * @param {Array} data * All the data points to display in the axis. * * @param {boolean} uniqueNames * Whether or not the data node with the same name should share grid cell. If * true they do share cell. False by default. * * @param {number} numberOfSeries * * @return {Object} * Returns an object containing categories, mapOfIdToNode, * mapOfPosToGridNode, and tree. * * @todo There should be only one point per line. * @todo It should be optional to have one category per point, or merge * cells * @todo Add unit-tests. */ function getTreeGridFromData(data, uniqueNames, numberOfSeries) { const categories = [], collapsedNodes = [], mapOfIdToNode = {}, uniqueNamesEnabled = typeof uniqueNames === 'boolean' ? uniqueNames : false; let mapOfPosToGridNode = {}, posIterator = -1; // Build the tree from the series data. const treeParams = { // After the children has been created. after: function (node) { const gridNode = mapOfPosToGridNode[node.pos]; let height = 0, descendants = 0; gridNode.children.forEach(function (child) { descendants += (child.descendants || 0) + 1; height = Math.max((child.height || 0) + 1, height); }); gridNode.descendants = descendants; gridNode.height = height; if (gridNode.collapsed) { collapsedNodes.push(gridNode); } }, // Before the children has been created. before: function (node) { const data = isObject(node.data, true) ? node.data : {}, name = isString(data.name) ? data.name : '', parentNode = mapOfIdToNode[node.parent], parentGridNode = (isObject(parentNode, true) ? mapOfPosToGridNode[parentNode.pos] : null), hasSameName = function (x) { return x.name === name; }; let gridNode, pos; // If not unique names, look for sibling node with the same name if (uniqueNamesEnabled && isObject(parentGridNode, true) && !!(gridNode = find(parentGridNode.children, hasSameName))) { // If there is a gridNode with the same name, reuse position pos = gridNode.pos; // Add data node to list of nodes in the grid node. gridNode.nodes.push(node); } else { // If it is a new grid node, increment position. pos = posIterator++; } // Add new grid node to map. if (!mapOfPosToGridNode[pos]) { mapOfPosToGridNode[pos] = gridNode = { depth: parentGridNode ? parentGridNode.depth + 1 : 0, name: name, id: data.id, nodes: [node], children: [], pos: pos }; // If not root, then add name to categories. if (pos !== -1) { categories.push(name); } // Add name to list of children. if (isObject(parentGridNode, true)) { parentGridNode.children.push(gridNode); } } // Add data node to map if (isString(node.id)) { mapOfIdToNode[node.id] = node; } // If one of the points are collapsed, then start the grid node // in collapsed state. if (gridNode && data.collapsed === true) { gridNode.collapsed = true; } // Assign pos to data node node.pos = pos; } }; const updateYValuesAndTickPos = function (map, numberOfSeries) { const setValues = function (gridNode, start, result) { const nodes = gridNode.nodes, padding = 0.5; let end = start + (start === -1 ? 0 : numberOfSeries - 1); const diff = (end - start) / 2, pos = start + diff; nodes.forEach(function (node) { const data = node.data; if (isObject(data, true)) { // Update point data.y = start + (data.seriesIndex || 0); // Remove the property once used delete data.seriesIndex; } node.pos = pos; }); result[pos] = gridNode; gridNode.pos = pos; gridNode.tickmarkOffset = diff + padding; gridNode.collapseStart = end + padding; gridNode.children.forEach(function (child) { setValues(child, end + 1, result); end = (child.collapseEnd || 0) - padding; }); // Set collapseEnd to the end of the last child node. gridNode.collapseEnd = end + padding; return result; }; return setValues(map['-1'], -1, {}); }; // Create tree from data const tree = Tree.getTree(data, treeParams); // Update y values of data, and set calculate tick positions. mapOfPosToGridNode = updateYValuesAndTickPos(mapOfPosToGridNode, numberOfSeries); // Return the resulting data. return { categories: categories, mapOfIdToNode: mapOfIdToNode, mapOfPosToGridNode: mapOfPosToGridNode, collapsedNodes: collapsedNodes, tree: tree }; } /** * Builds the tree of categories and calculates its positions. * @private * @param {Object} e Event object * @param {Object} e.target The chart instance which the event was fired on. * @param {object[]} e.target.axes The axes of the chart. */ function onBeforeRender(e) { const chart = e.target, axes = chart.axes; axes.filter(function (axis) { return axis.options.type === 'treegrid'; }).forEach(function (axis) { const options = axis.options || {}, labelOptions = options.labels, uniqueNames = options.uniqueNames, max = options.max, // Check whether any of series is rendering for the first // time, visibility has changed, or its data is dirty, and // only then update. #10570, #10580. Also check if // mapOfPosToGridNode exists. #10887 isDirty = (!axis.treeGrid.mapOfPosToGridNode || axis.series.some(function (series) { return !series.hasRendered || series.isDirtyData || series.isDirty; })); let numberOfSeries = 0, data, treeGrid; if (isDirty) { // Concatenate data from all series assigned to this axis. data = axis.series.reduce(function (arr, s) { if (s.visible) { // Push all data to array (s.options.data || []).forEach(function (data) { // For using keys - rebuild the data structure if (s.options.keys && s.options.keys.length) { data = s.pointClass.prototype .optionsToObject .call({ series: s }, data); s.pointClass.setGanttPointAliases(data); } if (isObject(data, true)) { // Set series index on data. Removed again // after use. data.seriesIndex = (numberOfSeries); arr.push(data); } }); // Increment series index if (uniqueNames === true) { numberOfSeries++; } } return arr; }, []); // If max is higher than set data - add a // dummy data to render categories #10779 if (max && data.length < max) { for (let i = data.length; i <= max; i++) { data.push({ // Use the zero-width character // to avoid conflict with uniqueNames name: i + '\u200B' }); } } // `setScale` is fired after all the series is initialized, // which is an ideal time to update the axis.categories. treeGrid = getTreeGridFromData(data, uniqueNames || false, (uniqueNames === true) ? numberOfSeries : 1); // Assign values to the axis. axis.categories = treeGrid.categories; axis.treeGrid.mapOfPosToGridNode = (treeGrid.mapOfPosToGridNode); axis.hasNames = true; axis.treeGrid.tree = treeGrid.tree; // Update yData now that we have calculated the y values axis.series.forEach(function (series) { const axisData = (series.options.data || []).map(function (d) { if (isArray(d) && series.options.keys && series.options.keys.length) { // Get the axisData from the data array used to // build the treeGrid where has been modified data.forEach(function (point) { if (d.indexOf(point.x) >= 0 && d.indexOf(point.x2) >= 0) { d = point; } }); } return isObject(d, true) ? merge(d) : d; }); // Avoid destroying points when series is not visible if (series.visible) { series.setData(axisData, false); } }); // Calculate the label options for each level in the tree. axis.treeGrid.mapOptionsToLevel = getLevelOptions({ defaults: labelOptions, from: 1, levels: labelOptions && labelOptions.levels, to: axis.treeGrid.tree && axis.treeGrid.tree.height }); // Setting initial collapsed nodes if (e.type === 'beforeRender') { axis.treeGrid.collapsedNodes = treeGrid.collapsedNodes; } } }); } /** * Generates a tick for initial positioning. * * @private * @function Highcharts.GridAxis#generateTick * * @param {Function} proceed * The original generateTick function. * * @param {number} pos * The tick position in axis values. */ function wrapGenerateTick(proceed, pos) { const axis = this, mapOptionsToLevel = axis.treeGrid.mapOptionsToLevel || {}, isTreeGrid = axis.options.type === 'treegrid', ticks = axis.ticks; let tick = ticks[pos], levelOptions, options, gridNode; if (isTreeGrid && axis.treeGrid.mapOfPosToGridNode) { gridNode = axis.treeGrid.mapOfPosToGridNode[pos]; levelOptions = mapOptionsToLevel[gridNode.depth]; if (levelOptions) { options = { labels: levelOptions }; } if (!tick && TickConstructor) { ticks[pos] = tick = new TickConstructor(axis, pos, void 0, void 0, { category: gridNode.name, tickmarkOffset: gridNode.tickmarkOffset, options: options }); } else { // Update labels depending on tick interval tick.parameters.category = gridNode.name; tick.options = options; tick.addLabel(); } } else { proceed.apply(axis, Array.prototype.slice.call(arguments, 1)); } } /** * @private */ function wrapInit(proceed, chart, userOptions, coll) { const axis = this, isTreeGrid = userOptions.type === 'treegrid'; if (!axis.treeGrid) { axis.treeGrid = new TreeGridAxisAdditions(axis); } // Set default and forced options for TreeGrid if (isTreeGrid) { // Add event for updating the categories of a treegrid. // NOTE Preferably these events should be set on the axis. addEvent(chart, 'beforeRender', onBeforeRender); addEvent(chart, 'beforeRedraw', onBeforeRender); // Add new collapsed nodes on addseries addEvent(chart, 'addSeries', function (e) { if (e.options.data) { const treeGrid = getTreeGridFromData(e.options.data, userOptions.uniqueNames || false, 1); axis.treeGrid.collapsedNodes = (axis.treeGrid.collapsedNodes || []).concat(treeGrid.collapsedNodes); } }); // Collapse all nodes in axis.treegrid.collapsednodes // where collapsed equals true. addEvent(axis, 'foundExtremes', function () { if (axis.treeGrid.collapsedNodes) { axis.treeGrid.collapsedNodes.forEach(function (node) { const breaks = axis.treeGrid.collapse(node); if (axis.brokenAxis) { axis.brokenAxis.setBreaks(breaks, false); // Remove the node from the axis collapsedNodes if (axis.treeGrid.collapsedNodes) { axis.treeGrid.collapsedNodes = axis.treeGrid .collapsedNodes .filter((n) => ((node.collapseStart !== n.collapseStart) || node.collapseEnd !== n.collapseEnd)); } } }); } }); // If staticScale is not defined on the yAxis // and chart height is set, set axis.isDirty // to ensure collapsing works (#12012) addEvent(axis, 'afterBreaks', function () { if (axis.coll === 'yAxis' && !axis.staticScale && axis.chart.options.chart.height) { axis.isDirty = true; } }); userOptions = merge({ // Default options grid: { enabled: true }, // TODO: add support for align in treegrid. labels: { align: 'left', /** * Set options on specific levels in a tree grid axis. Takes * precedence over labels options. * * @sample {gantt} gantt/treegrid-axis/labels-levels * Levels on TreeGrid Labels * * @type {Array<*>} * @product gantt * @apioption yAxis.labels.levels * * @private */ levels: [{ /** * Specify the level which the options within this object * applies to. * * @type {number} * @product gantt * @apioption yAxis.labels.levels.level * * @private */ level: void 0 }, { level: 1, /** * @type {Highcharts.CSSObject} * @product gantt * @apioption yAxis.labels.levels.style * * @private */ style: { /** @ignore-option */ fontWeight: 'bold' } }], /** * The symbol for the collapse and expand icon in a * treegrid. * * @product gantt * @optionparent yAxis.labels.symbol * * @private */ symbol: { /** * The symbol type. Points to a definition function in * the `Highcharts.Renderer.symbols` collection. * * @type {Highcharts.SymbolKeyValue} * * @private */ type: 'triangle', x: -5, y: -5, height: 10, width: 10 } }, uniqueNames: false }, userOptions, { // Forced options reversed: true }); } // Now apply the original function with the original arguments, which are // sliced off this function's arguments proceed.apply(axis, [chart, userOptions, coll]); if (isTreeGrid) { axis.hasNames = true; axis.options.showLastLabel = true; } } /** * Set the tick positions, tickInterval, axis min and max. * * @private * @function Highcharts.GridAxis#setTickInterval * * @param {Function} proceed * The original setTickInterval function. */ function wrapSetTickInterval(proceed) { const axis = this, options = axis.options, linkedParent = typeof options.linkedTo === 'number' ? this.chart[axis.coll]?.[options.linkedTo] : void 0, isTreeGrid = options.type === 'treegrid'; if (isTreeGrid) { axis.min = pick(axis.userMin, options.min, axis.dataMin); axis.max = pick(axis.userMax, options.max, axis.dataMax); fireEvent(axis, 'foundExtremes'); // `setAxisTranslation` modifies the min and max according to axis // breaks. axis.setAxisTranslation(); axis.tickInterval = 1; axis.tickmarkOffset = 0.5; axis.tickPositions = axis.treeGrid.mapOfPosToGridNode ? axis.treeGrid.getTickPositions() : []; if (linkedParent) { const linkedParentExtremes = linkedParent.getExtremes(); axis.min = pick(linkedParentExtremes.min, linkedParentExtremes.dataMin); axis.max = pick(linkedParentExtremes.max, linkedParentExtremes.dataMax); axis.tickPositions = linkedParent.tickPositions; } axis.linkedParent = linkedParent; } else { proceed.apply(axis, Array.prototype.slice.call(arguments, 1)); } } /** * Wrap axis redraw to remove TreeGrid events from ticks * * @private * @function Highcharts.GridAxis#redraw * * @param {Function} proceed * The original setTickInterval function. */ function wrapRedraw(proceed) { const axis = this, options = axis.options, isTreeGrid = options.type === 'treegrid'; if (isTreeGrid && axis.visible) { axis.tickPositions.forEach(function (pos) { const tick = axis.ticks[pos]; if (tick.label && tick.label.attachedTreeGridEvents) { removeEvent(tick.label.element); tick.label.attachedTreeGridEvents = false; } }); } proceed.apply(axis, Array.prototype.slice.call(arguments, 1)); } /* * * * Classes * * */ /** * @private * @class */ class TreeGridAxisAdditions { /* * * * Static Functions * * */ /** * @private */ static compose(AxisClass, ChartClass, SeriesClass, TickClass) { if (!AxisClass.keepProps.includes('treeGrid')) { const axisProps = AxisClass.prototype; AxisClass.keepProps.push('treeGrid'); wrap(axisProps, 'generateTick', wrapGenerateTick); wrap(axisProps, 'init', wrapInit); wrap(axisProps, 'setTickInterval', wrapSetTickInterval); wrap(axisProps, 'redraw', wrapRedraw); // Make utility functions available for testing. axisProps.utils = { getNode: Tree.getNode }; if (!TickConstructor) { TickConstructor = TickClass; } } GridAxis.compose(AxisClass, ChartClass, TickClass); BrokenAxis.compose(AxisClass, SeriesClass); TreeGridTick.compose(TickClass); return AxisClass; } /* * * * Constructors * * */ /** * @private */ constructor(axis) { this.axis = axis; } /* * * * Functions * * */ /** * Set the collapse status. * * @private * * @param {Highcharts.Axis} axis * The axis to check against. * * @param {Highcharts.GridNode} node * The node to collapse. */ setCollapsedStatus(node) { const axis = this.axis, chart = axis.chart; axis.series.forEach(function (series) { const data = series.options.data; if (node.id && data) { const point = chart.get(node.id), dataPoint = data[series.data.indexOf(point)]; if (point && dataPoint) { point.collapsed = node.collapsed; dataPoint.collapsed = node.collapsed; } } }); } /** * Calculates the new axis breaks to collapse a node. * * @private * * @param {Highcharts.Axis} axis * The axis to check against. * * @param {Highcharts.GridNode} node * The node to collapse. * * @param {number} pos * The tick position to collapse. * * @return {Array} * Returns an array of the new breaks for the axis. */ collapse(node) { const axis = this.axis, breaks = (axis.options.breaks || []), obj = getBreakFromNode(node, axis.max); breaks.push(obj); // Change the collapsed flag #13838 node.collapsed = true; axis.treeGrid.setCollapsedStatus(node); return breaks; } /** * Calculates the new axis breaks to expand a node. * * @private * * @param {Highcharts.Axis} axis * The axis to check against. * * @param {Highcharts.GridNode} node * The node to expand. * * @param {number} pos * The tick position to expand. * * @return {Array} * Returns an array of the new breaks for the axis. */ expand(node) { const axis = this.axis, breaks = (axis.options.breaks || []), obj = getBreakFromNode(node, axis.max); // Change the collapsed flag #13838 node.collapsed = false; axis.treeGrid.setCollapsedStatus(node); // Remove the break from the axis breaks array. return breaks.reduce(function (arr, b) { if (b.to !== obj.to || b.from !== obj.from) { arr.push(b); } return arr; }, []); } /** * Creates a list of positions for the ticks on the axis. Filters out * positions that are outside min and max, or is inside an axis break. * * @private * * @return {Array} * List of positions. */ getTickPositions() { const axis = this.axis, roundedMin = Math.floor(axis.min / axis.tickInterval) * axis.tickInterval, roundedMax = Math.ceil(axis.max / axis.tickInterval) * axis.tickInterval; return Object.keys(axis.treeGrid.mapOfPosToGridNode || {}).reduce(function (arr, key) { const pos = +key; if (pos >= roundedMin && pos <= roundedMax && !(axis.brokenAxis && axis.brokenAxis.isInAnyBreak(pos))) { arr.push(pos); } return arr; }, []); } /** * Check if a node is collapsed. * * @private * * @param {Highcharts.Axis} axis * The axis to check against. * * @param {Object} node * The node to check if is collapsed. * * @param {number} pos * The tick position to collapse. * * @return {boolean} * Returns true if collapsed, false if expanded. */ isCollapsed(node) { const axis = this.axis, breaks = (axis.options.breaks || []), obj = getBreakFromNode(node, axis.max); return breaks.some(function (b) { return b.from === obj.from && b.to === obj.to; }); } /** * Calculates the new axis breaks after toggling the collapse/expand * state of a node. If it is collapsed it will be expanded, and if it is * expanded it will be collapsed. * * @private * * @param {Highcharts.Axis} axis * The axis to check against. * * @param {Highcharts.GridNode} node * The node to toggle. * * @return {Array} * Returns an array of the new breaks for the axis. */ toggleCollapse(node) { return (this.isCollapsed(node) ? this.expand(node) : this.collapse(node)); } } /* * * * Default Export * * */ return TreeGridAxisAdditions; }); _registerModule(_modules, 'Series/Gantt/GanttSeries.js', [_modules['Series/Gantt/GanttPoint.js'], _modules['Series/Gantt/GanttSeriesDefaults.js'], _modules['Gantt/Pathfinder.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Extensions/StaticScale.js'], _modules['Core/Axis/TreeGrid/TreeGridAxis.js'], _modules['Core/Utilities.js']], function (GanttPoint, GanttSeriesDefaults, Pathfinder, SeriesRegistry, StaticScale, TreeGridAxis, U) { /* * * * (c) 2016-2024 Highsoft AS * * Author: Lars A. V. Cabrera * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { series: Series, seriesTypes: { xrange: XRangeSeries } } = SeriesRegistry; const { extend, isNumber, merge } = U; /* * * * Class * * */ /** * @private * @class * @name Highcharts.seriesTypes.gantt * * @augments Highcharts.Series */ class GanttSeries extends XRangeSeries { /* * * * Static Functions * * */ static compose(AxisClass, ChartClass, SeriesClass, TickClass) { XRangeSeries.compose(AxisClass); if (!ChartClass) { return; } StaticScale.compose(AxisClass, ChartClass); if (!SeriesClass) { return; } Pathfinder.compose(ChartClass, SeriesClass.prototype.pointClass); if (!TickClass) { return; } TreeGridAxis.compose(AxisClass, ChartClass, SeriesClass, TickClass); } /* * * * Functions * * */ /** * Draws a single point in the series. * * This override draws the point as a diamond if point.options.milestone * is true, and uses the original drawPoint() if it is false or not set. * * @requires highcharts-gantt * * @private * @function Highcharts.seriesTypes.gantt#drawPoint * * @param {Highcharts.Point} point * An instance of Point in the series * * @param {"animate"|"attr"} verb * 'animate' (animates changes) or 'attr' (sets options) */ drawPoint(point, verb) { const series = this, seriesOpts = series.options, renderer = series.chart.renderer, shapeArgs = point.shapeArgs, plotY = point.plotY, state = point.selected && 'select', cutOff = seriesOpts.stacking && !seriesOpts.borderRadius; let graphic = point.graphic, diamondShape; if (point.options.milestone) { if (isNumber(plotY) && point.y !== null && point.visible !== false) { diamondShape = renderer.symbols.diamond(shapeArgs.x || 0, shapeArgs.y || 0, shapeArgs.width || 0, shapeArgs.height || 0); if (graphic) { graphic[verb]({ d: diamondShape }); } else { point.graphic = graphic = renderer.path(diamondShape) .addClass(point.getClassName(), true) .add(point.group || series.group); } // Presentational if (!series.chart.styledMode) { point.graphic .attr(series.pointAttribs(point, state)) .shadow(seriesOpts.shadow, null, cutOff); } } else if (graphic) { point.graphic = graphic.destroy(); // #1269 } } else { super.drawPoint(point, verb); } } /** * Handle milestones, as they have no x2. * @private */ translatePoint(point) { let shapeArgs, size; super.translatePoint(point); if (point.options.milestone) { shapeArgs = point.shapeArgs; size = shapeArgs.height || 0; point.shapeArgs = { x: (shapeArgs.x || 0) - (size / 2), y: shapeArgs.y, width: size, height: size }; } } } /* * * * Static Properties * * */ GanttSeries.defaultOptions = merge(XRangeSeries.defaultOptions, GanttSeriesDefaults); extend(GanttSeries.prototype, { pointArrayMap: ['start', 'end', 'y'], pointClass: GanttPoint, setData: Series.prototype.setData }); SeriesRegistry.registerSeriesType('gantt', GanttSeries); /* * * * Default Export * * */ return GanttSeries; }); _registerModule(_modules, 'masters/modules/gantt.src.js', [_modules['Core/Globals.js'], _modules['Extensions/ArrowSymbols.js'], _modules['Gantt/Connection.js'], _modules['Extensions/CurrentDateIndication.js'], _modules['Core/Chart/GanttChart.js'], _modules['Stock/Navigator/Navigator.js'], _modules['Stock/RangeSelector/RangeSelector.js'], _modules['Stock/Scrollbar/Scrollbar.js'], _modules['Series/Gantt/GanttSeries.js']], function (Highcharts, ArrowSymbols, Connection, CurrentDateIndication, GanttChart, Navigator, RangeSelector, Scrollbar, GanttSeries) { // Series const G = Highcharts; // Classes G.Connection = G.Connection || Connection; G.GanttChart = G.GanttChart || GanttChart; G.Navigator = G.Navigator || Navigator; G.RangeSelector = G.RangeSelector || RangeSelector; G.Scrollbar = G.Scrollbar || Scrollbar; // Functions G.ganttChart = G.GanttChart.ganttChart; // Compositions ArrowSymbols.compose(G.SVGRenderer); CurrentDateIndication.compose(G.Axis, G.PlotLineOrBand); GanttSeries.compose(G.Axis, G.Chart, G.Series, G.Tick); G.Navigator.compose(G.Chart, G.Axis, G.Series); G.RangeSelector.compose(G.Axis, G.Chart); G.Scrollbar.compose(G.Axis); return Highcharts; }); _registerModule(_modules, 'masters/highcharts-gantt.src.js', [_modules['masters/highcharts.src.js']], function (Highcharts) { Highcharts.product = 'Highcharts Gantt'; return Highcharts; }); _modules['masters/highcharts-gantt.src.js']._modules = _modules; return _modules['masters/highcharts-gantt.src.js']; }));