/*!
* ApexCharts v3.27.3
* (c) 2018-2021 Juned Chhipa
* Released under the MIT License.
*/
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() :
typeof define === 'function' && define.amd ? define(factory) :
(global = typeof globalThis !== 'undefined' ? globalThis : global || self, global.ApexCharts = factory());
}(this, (function () { 'use strict';
function _typeof(obj) {
"@babel/helpers - typeof";
if (typeof Symbol === "function" && typeof Symbol.iterator === "symbol") {
_typeof = function (obj) {
return typeof obj;
};
} else {
_typeof = function (obj) {
return obj && typeof Symbol === "function" && obj.constructor === Symbol && obj !== Symbol.prototype ? "symbol" : typeof obj;
};
}
return _typeof(obj);
}
function _classCallCheck(instance, Constructor) {
if (!(instance instanceof Constructor)) {
throw new TypeError("Cannot call a class as a function");
}
}
function _defineProperties(target, props) {
for (var i = 0; i < props.length; i++) {
var descriptor = props[i];
descriptor.enumerable = descriptor.enumerable || false;
descriptor.configurable = true;
if ("value" in descriptor) descriptor.writable = true;
Object.defineProperty(target, descriptor.key, descriptor);
}
}
function _createClass(Constructor, protoProps, staticProps) {
if (protoProps) _defineProperties(Constructor.prototype, protoProps);
if (staticProps) _defineProperties(Constructor, staticProps);
return Constructor;
}
function _defineProperty(obj, key, value) {
if (key in obj) {
Object.defineProperty(obj, key, {
value: value,
enumerable: true,
configurable: true,
writable: true
});
} else {
obj[key] = value;
}
return obj;
}
function ownKeys(object, enumerableOnly) {
var keys = Object.keys(object);
if (Object.getOwnPropertySymbols) {
var symbols = Object.getOwnPropertySymbols(object);
if (enumerableOnly) symbols = symbols.filter(function (sym) {
return Object.getOwnPropertyDescriptor(object, sym).enumerable;
});
keys.push.apply(keys, symbols);
}
return keys;
}
function _objectSpread2(target) {
for (var i = 1; i < arguments.length; i++) {
var source = arguments[i] != null ? arguments[i] : {};
if (i % 2) {
ownKeys(Object(source), true).forEach(function (key) {
_defineProperty(target, key, source[key]);
});
} else if (Object.getOwnPropertyDescriptors) {
Object.defineProperties(target, Object.getOwnPropertyDescriptors(source));
} else {
ownKeys(Object(source)).forEach(function (key) {
Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key));
});
}
}
return target;
}
function _inherits(subClass, superClass) {
if (typeof superClass !== "function" && superClass !== null) {
throw new TypeError("Super expression must either be null or a function");
}
subClass.prototype = Object.create(superClass && superClass.prototype, {
constructor: {
value: subClass,
writable: true,
configurable: true
}
});
if (superClass) _setPrototypeOf(subClass, superClass);
}
function _getPrototypeOf(o) {
_getPrototypeOf = Object.setPrototypeOf ? Object.getPrototypeOf : function _getPrototypeOf(o) {
return o.__proto__ || Object.getPrototypeOf(o);
};
return _getPrototypeOf(o);
}
function _setPrototypeOf(o, p) {
_setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) {
o.__proto__ = p;
return o;
};
return _setPrototypeOf(o, p);
}
function _isNativeReflectConstruct() {
if (typeof Reflect === "undefined" || !Reflect.construct) return false;
if (Reflect.construct.sham) return false;
if (typeof Proxy === "function") return true;
try {
Date.prototype.toString.call(Reflect.construct(Date, [], function () {}));
return true;
} catch (e) {
return false;
}
}
function _assertThisInitialized(self) {
if (self === void 0) {
throw new ReferenceError("this hasn't been initialised - super() hasn't been called");
}
return self;
}
function _possibleConstructorReturn(self, call) {
if (call && (typeof call === "object" || typeof call === "function")) {
return call;
}
return _assertThisInitialized(self);
}
function _createSuper(Derived) {
var hasNativeReflectConstruct = _isNativeReflectConstruct();
return function _createSuperInternal() {
var Super = _getPrototypeOf(Derived),
result;
if (hasNativeReflectConstruct) {
var NewTarget = _getPrototypeOf(this).constructor;
result = Reflect.construct(Super, arguments, NewTarget);
} else {
result = Super.apply(this, arguments);
}
return _possibleConstructorReturn(this, result);
};
}
function _toConsumableArray(arr) {
return _arrayWithoutHoles(arr) || _iterableToArray(arr) || _unsupportedIterableToArray(arr) || _nonIterableSpread();
}
function _arrayWithoutHoles(arr) {
if (Array.isArray(arr)) return _arrayLikeToArray(arr);
}
function _iterableToArray(iter) {
if (typeof Symbol !== "undefined" && Symbol.iterator in Object(iter)) return Array.from(iter);
}
function _unsupportedIterableToArray(o, minLen) {
if (!o) return;
if (typeof o === "string") return _arrayLikeToArray(o, minLen);
var n = Object.prototype.toString.call(o).slice(8, -1);
if (n === "Object" && o.constructor) n = o.constructor.name;
if (n === "Map" || n === "Set") return Array.from(o);
if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen);
}
function _arrayLikeToArray(arr, len) {
if (len == null || len > arr.length) len = arr.length;
for (var i = 0, arr2 = new Array(len); i < len; i++) arr2[i] = arr[i];
return arr2;
}
function _nonIterableSpread() {
throw new TypeError("Invalid attempt to spread non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
/*
** Generic functions which are not dependent on ApexCharts
*/
var Utils = /*#__PURE__*/function () {
function Utils() {
_classCallCheck(this, Utils);
}
_createClass(Utils, [{
key: "shadeRGBColor",
value: function shadeRGBColor(percent, color) {
var f = color.split(','),
t = percent < 0 ? 0 : 255,
p = percent < 0 ? percent * -1 : percent,
R = parseInt(f[0].slice(4), 10),
G = parseInt(f[1], 10),
B = parseInt(f[2], 10);
return 'rgb(' + (Math.round((t - R) * p) + R) + ',' + (Math.round((t - G) * p) + G) + ',' + (Math.round((t - B) * p) + B) + ')';
}
}, {
key: "shadeHexColor",
value: function shadeHexColor(percent, color) {
var f = parseInt(color.slice(1), 16),
t = percent < 0 ? 0 : 255,
p = percent < 0 ? percent * -1 : percent,
R = f >> 16,
G = f >> 8 & 0x00ff,
B = f & 0x0000ff;
return '#' + (0x1000000 + (Math.round((t - R) * p) + R) * 0x10000 + (Math.round((t - G) * p) + G) * 0x100 + (Math.round((t - B) * p) + B)).toString(16).slice(1);
} // beautiful color shading blending code
// http://stackoverflow.com/questions/5560248/programmatically-lighten-or-darken-a-hex-color-or-rgb-and-blend-colors
}, {
key: "shadeColor",
value: function shadeColor(p, color) {
if (Utils.isColorHex(color)) {
return this.shadeHexColor(p, color);
} else {
return this.shadeRGBColor(p, color);
}
}
}], [{
key: "bind",
value: function bind(fn, me) {
return function () {
return fn.apply(me, arguments);
};
}
}, {
key: "isObject",
value: function isObject(item) {
return item && _typeof(item) === 'object' && !Array.isArray(item) && item != null;
}
}, {
key: "listToArray",
value: function listToArray(list) {
var i,
array = [];
for (i = 0; i < list.length; i++) {
array[i] = list[i];
}
return array;
} // to extend defaults with user options
// credit: http://stackoverflow.com/questions/27936772/deep-object-merging-in-es6-es7#answer-34749873
}, {
key: "extend",
value: function extend(target, source) {
var _this = this;
if (typeof Object.assign !== 'function') {
(function () {
Object.assign = function (target) {
if (target === undefined || target === null) {
throw new TypeError('Cannot convert undefined or null to object');
}
var output = Object(target);
for (var index = 1; index < arguments.length; index++) {
var _source = arguments[index];
if (_source !== undefined && _source !== null) {
for (var nextKey in _source) {
if (_source.hasOwnProperty(nextKey)) {
output[nextKey] = _source[nextKey];
}
}
}
}
return output;
};
})();
}
var output = Object.assign({}, target);
if (this.isObject(target) && this.isObject(source)) {
Object.keys(source).forEach(function (key) {
if (_this.isObject(source[key])) {
if (!(key in target)) {
Object.assign(output, _defineProperty({}, key, source[key]));
} else {
output[key] = _this.extend(target[key], source[key]);
}
} else {
Object.assign(output, _defineProperty({}, key, source[key]));
}
});
}
return output;
}
}, {
key: "extendArray",
value: function extendArray(arrToExtend, resultArr) {
var extendedArr = [];
arrToExtend.map(function (item) {
extendedArr.push(Utils.extend(resultArr, item));
});
arrToExtend = extendedArr;
return arrToExtend;
} // If month counter exceeds 12, it starts again from 1
}, {
key: "monthMod",
value: function monthMod(month) {
return month % 12;
}
}, {
key: "clone",
value: function clone(source) {
if (Object.prototype.toString.call(source) === '[object Array]') {
var cloneResult = [];
for (var i = 0; i < source.length; i++) {
cloneResult[i] = this.clone(source[i]);
}
return cloneResult;
} else if (Object.prototype.toString.call(source) === '[object Null]') {
// fixes an issue where null values were converted to {}
return null;
} else if (Object.prototype.toString.call(source) === '[object Date]') {
return source;
} else if (_typeof(source) === 'object') {
var _cloneResult = {};
for (var prop in source) {
if (source.hasOwnProperty(prop)) {
_cloneResult[prop] = this.clone(source[prop]);
}
}
return _cloneResult;
} else {
return source;
}
}
}, {
key: "log10",
value: function log10(x) {
return Math.log(x) / Math.LN10;
}
}, {
key: "roundToBase10",
value: function roundToBase10(x) {
return Math.pow(10, Math.floor(Math.log10(x)));
}
}, {
key: "roundToBase",
value: function roundToBase(x, base) {
return Math.pow(base, Math.floor(Math.log(x) / Math.log(base)));
}
}, {
key: "parseNumber",
value: function parseNumber(val) {
if (val === null) return val;
return parseFloat(val);
}
}, {
key: "randomId",
value: function randomId() {
return (Math.random() + 1).toString(36).substring(4);
}
}, {
key: "noExponents",
value: function noExponents(val) {
var data = String(val).split(/[eE]/);
if (data.length === 1) return data[0];
var z = '',
sign = val < 0 ? '-' : '',
str = data[0].replace('.', ''),
mag = Number(data[1]) + 1;
if (mag < 0) {
z = sign + '0.';
while (mag++) {
z += '0';
}
return z + str.replace(/^-/, '');
}
mag -= str.length;
while (mag--) {
z += '0';
}
return str + z;
}
}, {
key: "getDimensions",
value: function getDimensions(el) {
var computedStyle = getComputedStyle(el, null);
var elementHeight = el.clientHeight;
var elementWidth = el.clientWidth;
elementHeight -= parseFloat(computedStyle.paddingTop) + parseFloat(computedStyle.paddingBottom);
elementWidth -= parseFloat(computedStyle.paddingLeft) + parseFloat(computedStyle.paddingRight);
return [elementWidth, elementHeight];
}
}, {
key: "getBoundingClientRect",
value: function getBoundingClientRect(element) {
var rect = element.getBoundingClientRect();
return {
top: rect.top,
right: rect.right,
bottom: rect.bottom,
left: rect.left,
width: element.clientWidth,
height: element.clientHeight,
x: rect.left,
y: rect.top
};
}
}, {
key: "getLargestStringFromArr",
value: function getLargestStringFromArr(arr) {
return arr.reduce(function (a, b) {
if (Array.isArray(b)) {
b = b.reduce(function (aa, bb) {
return aa.length > bb.length ? aa : bb;
});
}
return a.length > b.length ? a : b;
}, 0);
} // http://stackoverflow.com/questions/5623838/rgb-to-hex-and-hex-to-rgb#answer-12342275
}, {
key: "hexToRgba",
value: function hexToRgba() {
var hex = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : '#999999';
var opacity = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0.6;
if (hex.substring(0, 1) !== '#') {
hex = '#999999';
}
var h = hex.replace('#', '');
h = h.match(new RegExp('(.{' + h.length / 3 + '})', 'g'));
for (var i = 0; i < h.length; i++) {
h[i] = parseInt(h[i].length === 1 ? h[i] + h[i] : h[i], 16);
}
if (typeof opacity !== 'undefined') h.push(opacity);
return 'rgba(' + h.join(',') + ')';
}
}, {
key: "getOpacityFromRGBA",
value: function getOpacityFromRGBA(rgba) {
return parseFloat(rgba.replace(/^.*,(.+)\)/, '$1'));
}
}, {
key: "rgb2hex",
value: function rgb2hex(rgb) {
rgb = rgb.match(/^rgba?[\s+]?\([\s+]?(\d+)[\s+]?,[\s+]?(\d+)[\s+]?,[\s+]?(\d+)[\s+]?/i);
return rgb && rgb.length === 4 ? '#' + ('0' + parseInt(rgb[1], 10).toString(16)).slice(-2) + ('0' + parseInt(rgb[2], 10).toString(16)).slice(-2) + ('0' + parseInt(rgb[3], 10).toString(16)).slice(-2) : '';
}
}, {
key: "isColorHex",
value: function isColorHex(color) {
return /(^#[0-9A-F]{6}$)|(^#[0-9A-F]{3}$)|(^#[0-9A-F]{8}$)/i.test(color);
}
}, {
key: "getPolygonPos",
value: function getPolygonPos(size, dataPointsLen) {
var dotsArray = [];
var angle = Math.PI * 2 / dataPointsLen;
for (var i = 0; i < dataPointsLen; i++) {
var curPos = {};
curPos.x = size * Math.sin(i * angle);
curPos.y = -size * Math.cos(i * angle);
dotsArray.push(curPos);
}
return dotsArray;
}
}, {
key: "polarToCartesian",
value: function polarToCartesian(centerX, centerY, radius, angleInDegrees) {
var angleInRadians = (angleInDegrees - 90) * Math.PI / 180.0;
return {
x: centerX + radius * Math.cos(angleInRadians),
y: centerY + radius * Math.sin(angleInRadians)
};
}
}, {
key: "escapeString",
value: function escapeString(str) {
var escapeWith = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'x';
var newStr = str.toString().slice();
newStr = newStr.replace(/[` ~!@#$%^&*()_|+\-=?;:'",.<>{}[\]\\/]/gi, escapeWith);
return newStr;
}
}, {
key: "negToZero",
value: function negToZero(val) {
return val < 0 ? 0 : val;
}
}, {
key: "moveIndexInArray",
value: function moveIndexInArray(arr, old_index, new_index) {
if (new_index >= arr.length) {
var k = new_index - arr.length + 1;
while (k--) {
arr.push(undefined);
}
}
arr.splice(new_index, 0, arr.splice(old_index, 1)[0]);
return arr;
}
}, {
key: "extractNumber",
value: function extractNumber(s) {
return parseFloat(s.replace(/[^\d.]*/g, ''));
}
}, {
key: "findAncestor",
value: function findAncestor(el, cls) {
while ((el = el.parentElement) && !el.classList.contains(cls)) {
}
return el;
}
}, {
key: "setELstyles",
value: function setELstyles(el, styles) {
for (var key in styles) {
if (styles.hasOwnProperty(key)) {
el.style.key = styles[key];
}
}
}
}, {
key: "isNumber",
value: function isNumber(value) {
return !isNaN(value) && parseFloat(Number(value)) === value && !isNaN(parseInt(value, 10));
}
}, {
key: "isFloat",
value: function isFloat(n) {
return Number(n) === n && n % 1 !== 0;
}
}, {
key: "isSafari",
value: function isSafari() {
return /^((?!chrome|android).)*safari/i.test(navigator.userAgent);
}
}, {
key: "isFirefox",
value: function isFirefox() {
return navigator.userAgent.toLowerCase().indexOf('firefox') > -1;
}
}, {
key: "isIE11",
value: function isIE11() {
if (window.navigator.userAgent.indexOf('MSIE') !== -1 || window.navigator.appVersion.indexOf('Trident/') > -1) {
return true;
}
}
}, {
key: "isIE",
value: function isIE() {
var ua = window.navigator.userAgent;
var msie = ua.indexOf('MSIE ');
if (msie > 0) {
// IE 10 or older => return version number
return parseInt(ua.substring(msie + 5, ua.indexOf('.', msie)), 10);
}
var trident = ua.indexOf('Trident/');
if (trident > 0) {
// IE 11 => return version number
var rv = ua.indexOf('rv:');
return parseInt(ua.substring(rv + 3, ua.indexOf('.', rv)), 10);
}
var edge = ua.indexOf('Edge/');
if (edge > 0) {
// Edge (IE 12+) => return version number
return parseInt(ua.substring(edge + 5, ua.indexOf('.', edge)), 10);
} // other browser
return false;
}
/**
* Sanitize dangerous characters in the string to prevent Cross-Site Scripting
* @param {string}
* string - String to sanitize
*/
}, {
key: "sanitizeDom",
value: function sanitizeDom(string) {
return string.replace(/\&/g, '&').replace(/\/g, '>').replace(/\"/g, '"');
}
}]);
return Utils;
}();
/**
* ApexCharts Animation Class.
*
* @module Animations
**/
var Animations = /*#__PURE__*/function () {
function Animations(ctx) {
_classCallCheck(this, Animations);
this.ctx = ctx;
this.w = ctx.w;
this.setEasingFunctions();
}
_createClass(Animations, [{
key: "setEasingFunctions",
value: function setEasingFunctions() {
var easing;
if (this.w.globals.easing) return;
var userDefinedEasing = this.w.config.chart.animations.easing;
switch (userDefinedEasing) {
case 'linear':
{
easing = '-';
break;
}
case 'easein':
{
easing = '<';
break;
}
case 'easeout':
{
easing = '>';
break;
}
case 'easeinout':
{
easing = '<>';
break;
}
case 'swing':
{
easing = function easing(pos) {
var s = 1.70158;
var ret = (pos -= 1) * pos * ((s + 1) * pos + s) + 1;
return ret;
};
break;
}
case 'bounce':
{
easing = function easing(pos) {
var ret = '';
if (pos < 1 / 2.75) {
ret = 7.5625 * pos * pos;
} else if (pos < 2 / 2.75) {
ret = 7.5625 * (pos -= 1.5 / 2.75) * pos + 0.75;
} else if (pos < 2.5 / 2.75) {
ret = 7.5625 * (pos -= 2.25 / 2.75) * pos + 0.9375;
} else {
ret = 7.5625 * (pos -= 2.625 / 2.75) * pos + 0.984375;
}
return ret;
};
break;
}
case 'elastic':
{
easing = function easing(pos) {
if (pos === !!pos) return pos;
return Math.pow(2, -10 * pos) * Math.sin((pos - 0.075) * (2 * Math.PI) / 0.3) + 1;
};
break;
}
default:
{
easing = '<>';
}
}
this.w.globals.easing = easing;
}
}, {
key: "animateLine",
value: function animateLine(el, from, to, speed) {
el.attr(from).animate(speed).attr(to);
}
/*
** Animate radius of a circle element
*/
}, {
key: "animateMarker",
value: function animateMarker(el, from, to, speed, easing, cb) {
if (!from) from = 0;
el.attr({
r: from,
width: from,
height: from
}).animate(speed, easing).attr({
r: to,
width: to.width,
height: to.height
}).afterAll(function () {
cb();
});
}
/*
** Animate radius and position of a circle element
*/
}, {
key: "animateCircle",
value: function animateCircle(el, from, to, speed, easing) {
el.attr({
r: from.r,
cx: from.cx,
cy: from.cy
}).animate(speed, easing).attr({
r: to.r,
cx: to.cx,
cy: to.cy
});
}
/*
** Animate rect properties
*/
}, {
key: "animateRect",
value: function animateRect(el, from, to, speed, fn) {
el.attr(from).animate(speed).attr(to).afterAll(function () {
return fn();
});
}
}, {
key: "animatePathsGradually",
value: function animatePathsGradually(params) {
var el = params.el,
realIndex = params.realIndex,
j = params.j,
fill = params.fill,
pathFrom = params.pathFrom,
pathTo = params.pathTo,
speed = params.speed,
delay = params.delay;
var me = this;
var w = this.w;
var delayFactor = 0;
if (w.config.chart.animations.animateGradually.enabled) {
delayFactor = w.config.chart.animations.animateGradually.delay;
}
if (w.config.chart.animations.dynamicAnimation.enabled && w.globals.dataChanged && w.config.chart.type !== 'bar') {
// disabled due to this bug - https://github.com/apexcharts/vue-apexcharts/issues/75
delayFactor = 0;
}
me.morphSVG(el, realIndex, j, w.config.chart.type === 'line' && !w.globals.comboCharts ? 'stroke' : fill, pathFrom, pathTo, speed, delay * delayFactor);
}
}, {
key: "showDelayedElements",
value: function showDelayedElements() {
this.w.globals.delayedElements.forEach(function (d) {
var ele = d.el;
ele.classList.remove('apexcharts-element-hidden');
});
}
}, {
key: "animationCompleted",
value: function animationCompleted(el) {
var w = this.w;
if (w.globals.animationEnded) return;
w.globals.animationEnded = true;
this.showDelayedElements();
if (typeof w.config.chart.events.animationEnd === 'function') {
w.config.chart.events.animationEnd(this.ctx, {
el: el,
w: w
});
}
} // SVG.js animation for morphing one path to another
}, {
key: "morphSVG",
value: function morphSVG(el, realIndex, j, fill, pathFrom, pathTo, speed, delay) {
var _this = this;
var w = this.w;
if (!pathFrom) {
pathFrom = el.attr('pathFrom');
}
if (!pathTo) {
pathTo = el.attr('pathTo');
}
var disableAnimationForCorrupPath = function disableAnimationForCorrupPath(path) {
if (w.config.chart.type === 'radar') {
// radar chart drops the path to bottom and hence a corrup path looks ugly
// therefore, disable animation for such a case
speed = 1;
}
return "M 0 ".concat(w.globals.gridHeight);
};
if (!pathFrom || pathFrom.indexOf('undefined') > -1 || pathFrom.indexOf('NaN') > -1) {
pathFrom = disableAnimationForCorrupPath();
}
if (!pathTo || pathTo.indexOf('undefined') > -1 || pathTo.indexOf('NaN') > -1) {
pathTo = disableAnimationForCorrupPath();
}
if (!w.globals.shouldAnimate) {
speed = 1;
}
el.plot(pathFrom).animate(1, w.globals.easing, delay).plot(pathFrom).animate(speed, w.globals.easing, delay).plot(pathTo).afterAll(function () {
// a flag to indicate that the original mount function can return true now as animation finished here
if (Utils.isNumber(j)) {
if (j === w.globals.series[w.globals.maxValsInArrayIndex].length - 2 && w.globals.shouldAnimate) {
_this.animationCompleted(el);
}
} else if (fill !== 'none' && w.globals.shouldAnimate) {
if (!w.globals.comboCharts && realIndex === w.globals.series.length - 1 || w.globals.comboCharts) {
_this.animationCompleted(el);
}
}
_this.showDelayedElements();
});
}
}]);
return Animations;
}();
/**
* ApexCharts Filters Class for setting hover/active states on the paths.
*
* @module Formatters
**/
var Filters = /*#__PURE__*/function () {
function Filters(ctx) {
_classCallCheck(this, Filters);
this.ctx = ctx;
this.w = ctx.w;
} // create a re-usable filter which can be appended other filter effects and applied to multiple elements
_createClass(Filters, [{
key: "getDefaultFilter",
value: function getDefaultFilter(el, i) {
var w = this.w;
el.unfilter(true);
var filter = new window.SVG.Filter();
filter.size('120%', '180%', '-5%', '-40%');
if (w.config.states.normal.filter !== 'none') {
this.applyFilter(el, i, w.config.states.normal.filter.type, w.config.states.normal.filter.value);
} else {
if (w.config.chart.dropShadow.enabled) {
this.dropShadow(el, w.config.chart.dropShadow, i);
}
}
}
}, {
key: "addNormalFilter",
value: function addNormalFilter(el, i) {
var w = this.w; // revert shadow if it was there
// but, ignore marker as marker don't have dropshadow yet
if (w.config.chart.dropShadow.enabled && !el.node.classList.contains('apexcharts-marker')) {
this.dropShadow(el, w.config.chart.dropShadow, i);
}
} // appends dropShadow to the filter object which can be chained with other filter effects
}, {
key: "addLightenFilter",
value: function addLightenFilter(el, i, attrs) {
var _this = this;
var w = this.w;
var intensity = attrs.intensity;
el.unfilter(true);
var filter = new window.SVG.Filter();
el.filter(function (add) {
var shadowAttr = w.config.chart.dropShadow;
if (shadowAttr.enabled) {
filter = _this.addShadow(add, i, shadowAttr);
} else {
filter = add;
}
filter.componentTransfer({
rgb: {
type: 'linear',
slope: 1.5,
intercept: intensity
}
});
});
el.filterer.node.setAttribute('filterUnits', 'userSpaceOnUse');
this._scaleFilterSize(el.filterer.node);
} // appends dropShadow to the filter object which can be chained with other filter effects
}, {
key: "addDarkenFilter",
value: function addDarkenFilter(el, i, attrs) {
var _this2 = this;
var w = this.w;
var intensity = attrs.intensity;
el.unfilter(true);
var filter = new window.SVG.Filter();
el.filter(function (add) {
var shadowAttr = w.config.chart.dropShadow;
if (shadowAttr.enabled) {
filter = _this2.addShadow(add, i, shadowAttr);
} else {
filter = add;
}
filter.componentTransfer({
rgb: {
type: 'linear',
slope: intensity
}
});
});
el.filterer.node.setAttribute('filterUnits', 'userSpaceOnUse');
this._scaleFilterSize(el.filterer.node);
}
}, {
key: "applyFilter",
value: function applyFilter(el, i, filter) {
var intensity = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : 0.5;
switch (filter) {
case 'none':
{
this.addNormalFilter(el, i);
break;
}
case 'lighten':
{
this.addLightenFilter(el, i, {
intensity: intensity
});
break;
}
case 'darken':
{
this.addDarkenFilter(el, i, {
intensity: intensity
});
break;
}
}
} // appends dropShadow to the filter object which can be chained with other filter effects
}, {
key: "addShadow",
value: function addShadow(add, i, attrs) {
var blur = attrs.blur,
top = attrs.top,
left = attrs.left,
color = attrs.color,
opacity = attrs.opacity;
var shadowBlur = add.flood(Array.isArray(color) ? color[i] : color, opacity).composite(add.sourceAlpha, 'in').offset(left, top).gaussianBlur(blur).merge(add.source);
return add.blend(add.source, shadowBlur);
} // directly adds dropShadow to the element and returns the same element.
// the only way it is different from the addShadow() function is that addShadow is chainable to other filters, while this function discards all filters and add dropShadow
}, {
key: "dropShadow",
value: function dropShadow(el, attrs) {
var i = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 0;
var top = attrs.top,
left = attrs.left,
blur = attrs.blur,
color = attrs.color,
opacity = attrs.opacity,
noUserSpaceOnUse = attrs.noUserSpaceOnUse;
var w = this.w;
el.unfilter(true);
if (Utils.isIE() && w.config.chart.type === 'radialBar') {
// in radialbar charts, dropshadow is clipping actual drawing in IE
return el;
}
color = Array.isArray(color) ? color[i] : color;
el.filter(function (add) {
var shadowBlur = null;
if (Utils.isSafari() || Utils.isFirefox() || Utils.isIE()) {
// safari/firefox/IE have some alternative way to use this filter
shadowBlur = add.flood(color, opacity).composite(add.sourceAlpha, 'in').offset(left, top).gaussianBlur(blur);
} else {
shadowBlur = add.flood(color, opacity).composite(add.sourceAlpha, 'in').offset(left, top).gaussianBlur(blur).merge(add.source);
}
add.blend(add.source, shadowBlur);
});
if (!noUserSpaceOnUse) {
el.filterer.node.setAttribute('filterUnits', 'userSpaceOnUse');
}
this._scaleFilterSize(el.filterer.node);
return el;
}
}, {
key: "setSelectionFilter",
value: function setSelectionFilter(el, realIndex, dataPointIndex) {
var w = this.w;
if (typeof w.globals.selectedDataPoints[realIndex] !== 'undefined') {
if (w.globals.selectedDataPoints[realIndex].indexOf(dataPointIndex) > -1) {
el.node.setAttribute('selected', true);
var activeFilter = w.config.states.active.filter;
if (activeFilter !== 'none') {
this.applyFilter(el, realIndex, activeFilter.type, activeFilter.value);
}
}
}
}
}, {
key: "_scaleFilterSize",
value: function _scaleFilterSize(el) {
var setAttributes = function setAttributes(attrs) {
for (var key in attrs) {
if (attrs.hasOwnProperty(key)) {
el.setAttribute(key, attrs[key]);
}
}
};
setAttributes({
width: '200%',
height: '200%',
x: '-50%',
y: '-50%'
});
}
}]);
return Filters;
}();
/**
* ApexCharts Graphics Class for all drawing operations.
*
* @module Graphics
**/
var Graphics = /*#__PURE__*/function () {
function Graphics(ctx) {
_classCallCheck(this, Graphics);
this.ctx = ctx;
this.w = ctx.w;
}
_createClass(Graphics, [{
key: "drawLine",
value: function drawLine(x1, y1, x2, y2) {
var lineColor = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : '#a8a8a8';
var dashArray = arguments.length > 5 && arguments[5] !== undefined ? arguments[5] : 0;
var strokeWidth = arguments.length > 6 && arguments[6] !== undefined ? arguments[6] : null;
var w = this.w;
var line = w.globals.dom.Paper.line().attr({
x1: x1,
y1: y1,
x2: x2,
y2: y2,
stroke: lineColor,
'stroke-dasharray': dashArray,
'stroke-width': strokeWidth
});
return line;
}
}, {
key: "drawRect",
value: function drawRect() {
var x1 = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 0;
var y1 = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0;
var x2 = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 0;
var y2 = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : 0;
var radius = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : 0;
var color = arguments.length > 5 && arguments[5] !== undefined ? arguments[5] : '#fefefe';
var opacity = arguments.length > 6 && arguments[6] !== undefined ? arguments[6] : 1;
var strokeWidth = arguments.length > 7 && arguments[7] !== undefined ? arguments[7] : null;
var strokeColor = arguments.length > 8 && arguments[8] !== undefined ? arguments[8] : null;
var strokeDashArray = arguments.length > 9 && arguments[9] !== undefined ? arguments[9] : 0;
var w = this.w;
var rect = w.globals.dom.Paper.rect();
rect.attr({
x: x1,
y: y1,
width: x2 > 0 ? x2 : 0,
height: y2 > 0 ? y2 : 0,
rx: radius,
ry: radius,
opacity: opacity,
'stroke-width': strokeWidth !== null ? strokeWidth : 0,
stroke: strokeColor !== null ? strokeColor : 'none',
'stroke-dasharray': strokeDashArray
}); // fix apexcharts.js#1410
rect.node.setAttribute('fill', color);
return rect;
}
}, {
key: "drawPolygon",
value: function drawPolygon(polygonString) {
var stroke = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : '#e1e1e1';
var strokeWidth = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 1;
var fill = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : 'none';
var w = this.w;
var polygon = w.globals.dom.Paper.polygon(polygonString).attr({
fill: fill,
stroke: stroke,
'stroke-width': strokeWidth
});
return polygon;
}
}, {
key: "drawCircle",
value: function drawCircle(radius) {
var attrs = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null;
var w = this.w;
if (radius < 0) radius = 0;
var c = w.globals.dom.Paper.circle(radius * 2);
if (attrs !== null) {
c.attr(attrs);
}
return c;
}
}, {
key: "drawPath",
value: function drawPath(_ref) {
var _ref$d = _ref.d,
d = _ref$d === void 0 ? '' : _ref$d,
_ref$stroke = _ref.stroke,
stroke = _ref$stroke === void 0 ? '#a8a8a8' : _ref$stroke,
_ref$strokeWidth = _ref.strokeWidth,
strokeWidth = _ref$strokeWidth === void 0 ? 1 : _ref$strokeWidth,
fill = _ref.fill,
_ref$fillOpacity = _ref.fillOpacity,
fillOpacity = _ref$fillOpacity === void 0 ? 1 : _ref$fillOpacity,
_ref$strokeOpacity = _ref.strokeOpacity,
strokeOpacity = _ref$strokeOpacity === void 0 ? 1 : _ref$strokeOpacity,
classes = _ref.classes,
_ref$strokeLinecap = _ref.strokeLinecap,
strokeLinecap = _ref$strokeLinecap === void 0 ? null : _ref$strokeLinecap,
_ref$strokeDashArray = _ref.strokeDashArray,
strokeDashArray = _ref$strokeDashArray === void 0 ? 0 : _ref$strokeDashArray;
var w = this.w;
if (strokeLinecap === null) {
strokeLinecap = w.config.stroke.lineCap;
}
if (d.indexOf('undefined') > -1 || d.indexOf('NaN') > -1) {
d = "M 0 ".concat(w.globals.gridHeight);
}
var p = w.globals.dom.Paper.path(d).attr({
fill: fill,
'fill-opacity': fillOpacity,
stroke: stroke,
'stroke-opacity': strokeOpacity,
'stroke-linecap': strokeLinecap,
'stroke-width': strokeWidth,
'stroke-dasharray': strokeDashArray,
class: classes
});
return p;
}
}, {
key: "group",
value: function group() {
var attrs = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : null;
var w = this.w;
var g = w.globals.dom.Paper.group();
if (attrs !== null) {
g.attr(attrs);
}
return g;
}
}, {
key: "move",
value: function move(x, y) {
var move = ['M', x, y].join(' ');
return move;
}
}, {
key: "line",
value: function line(x, y) {
var hORv = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : null;
var line = null;
if (hORv === null) {
line = ['L', x, y].join(' ');
} else if (hORv === 'H') {
line = ['H', x].join(' ');
} else if (hORv === 'V') {
line = ['V', y].join(' ');
}
return line;
}
}, {
key: "curve",
value: function curve(x1, y1, x2, y2, x, y) {
var curve = ['C', x1, y1, x2, y2, x, y].join(' ');
return curve;
}
}, {
key: "quadraticCurve",
value: function quadraticCurve(x1, y1, x, y) {
var curve = ['Q', x1, y1, x, y].join(' ');
return curve;
}
}, {
key: "arc",
value: function arc(rx, ry, axisRotation, largeArcFlag, sweepFlag, x, y) {
var relative = arguments.length > 7 && arguments[7] !== undefined ? arguments[7] : false;
var coord = 'A';
if (relative) coord = 'a';
var arc = [coord, rx, ry, axisRotation, largeArcFlag, sweepFlag, x, y].join(' ');
return arc;
}
/**
* @memberof Graphics
* @param {object}
* i = series's index
* realIndex = realIndex is series's actual index when it was drawn time. After several redraws, the iterating "i" may change in loops, but realIndex doesn't
* pathFrom = existing pathFrom to animateTo
* pathTo = new Path to which d attr will be animated from pathFrom to pathTo
* stroke = line Color
* strokeWidth = width of path Line
* fill = it can be gradient, single color, pattern or image
* animationDelay = how much to delay when starting animation (in milliseconds)
* dataChangeSpeed = for dynamic animations, when data changes
* className = class attribute to add
* @return {object} svg.js path object
**/
}, {
key: "renderPaths",
value: function renderPaths(_ref2) {
var j = _ref2.j,
realIndex = _ref2.realIndex,
pathFrom = _ref2.pathFrom,
pathTo = _ref2.pathTo,
stroke = _ref2.stroke,
strokeWidth = _ref2.strokeWidth,
strokeLinecap = _ref2.strokeLinecap,
fill = _ref2.fill,
animationDelay = _ref2.animationDelay,
initialSpeed = _ref2.initialSpeed,
dataChangeSpeed = _ref2.dataChangeSpeed,
className = _ref2.className,
_ref2$shouldClipToGri = _ref2.shouldClipToGrid,
shouldClipToGrid = _ref2$shouldClipToGri === void 0 ? true : _ref2$shouldClipToGri,
_ref2$bindEventsOnPat = _ref2.bindEventsOnPaths,
bindEventsOnPaths = _ref2$bindEventsOnPat === void 0 ? true : _ref2$bindEventsOnPat,
_ref2$drawShadow = _ref2.drawShadow,
drawShadow = _ref2$drawShadow === void 0 ? true : _ref2$drawShadow;
var w = this.w;
var filters = new Filters(this.ctx);
var anim = new Animations(this.ctx);
var initialAnim = this.w.config.chart.animations.enabled;
var dynamicAnim = initialAnim && this.w.config.chart.animations.dynamicAnimation.enabled;
var d;
var shouldAnimate = !!(initialAnim && !w.globals.resized || dynamicAnim && w.globals.dataChanged && w.globals.shouldAnimate);
if (shouldAnimate) {
d = pathFrom;
} else {
d = pathTo;
w.globals.animationEnded = true;
}
var strokeDashArrayOpt = w.config.stroke.dashArray;
var strokeDashArray = 0;
if (Array.isArray(strokeDashArrayOpt)) {
strokeDashArray = strokeDashArrayOpt[realIndex];
} else {
strokeDashArray = w.config.stroke.dashArray;
}
var el = this.drawPath({
d: d,
stroke: stroke,
strokeWidth: strokeWidth,
fill: fill,
fillOpacity: 1,
classes: className,
strokeLinecap: strokeLinecap,
strokeDashArray: strokeDashArray
});
el.attr('index', realIndex);
if (shouldClipToGrid) {
el.attr({
'clip-path': "url(#gridRectMask".concat(w.globals.cuid, ")")
});
} // const defaultFilter = el.filterer
if (w.config.states.normal.filter.type !== 'none') {
filters.getDefaultFilter(el, realIndex);
} else {
if (w.config.chart.dropShadow.enabled && drawShadow) {
if (!w.config.chart.dropShadow.enabledOnSeries || w.config.chart.dropShadow.enabledOnSeries && w.config.chart.dropShadow.enabledOnSeries.indexOf(realIndex) !== -1) {
var shadow = w.config.chart.dropShadow;
filters.dropShadow(el, shadow, realIndex);
}
}
}
if (bindEventsOnPaths) {
el.node.addEventListener('mouseenter', this.pathMouseEnter.bind(this, el));
el.node.addEventListener('mouseleave', this.pathMouseLeave.bind(this, el));
el.node.addEventListener('mousedown', this.pathMouseDown.bind(this, el));
}
el.attr({
pathTo: pathTo,
pathFrom: pathFrom
});
var defaultAnimateOpts = {
el: el,
j: j,
realIndex: realIndex,
pathFrom: pathFrom,
pathTo: pathTo,
fill: fill,
strokeWidth: strokeWidth,
delay: animationDelay
};
if (initialAnim && !w.globals.resized && !w.globals.dataChanged) {
anim.animatePathsGradually(_objectSpread2(_objectSpread2({}, defaultAnimateOpts), {}, {
speed: initialSpeed
}));
} else {
if (w.globals.resized || !w.globals.dataChanged) {
anim.showDelayedElements();
}
}
if (w.globals.dataChanged && dynamicAnim && shouldAnimate) {
anim.animatePathsGradually(_objectSpread2(_objectSpread2({}, defaultAnimateOpts), {}, {
speed: dataChangeSpeed
}));
}
return el;
}
}, {
key: "drawPattern",
value: function drawPattern(style, width, height) {
var stroke = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : '#a8a8a8';
var strokeWidth = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : 0;
var w = this.w;
var p = w.globals.dom.Paper.pattern(width, height, function (add) {
if (style === 'horizontalLines') {
add.line(0, 0, height, 0).stroke({
color: stroke,
width: strokeWidth + 1
});
} else if (style === 'verticalLines') {
add.line(0, 0, 0, width).stroke({
color: stroke,
width: strokeWidth + 1
});
} else if (style === 'slantedLines') {
add.line(0, 0, width, height).stroke({
color: stroke,
width: strokeWidth
});
} else if (style === 'squares') {
add.rect(width, height).fill('none').stroke({
color: stroke,
width: strokeWidth
});
} else if (style === 'circles') {
add.circle(width).fill('none').stroke({
color: stroke,
width: strokeWidth
});
}
});
return p;
}
}, {
key: "drawGradient",
value: function drawGradient(style, gfrom, gto, opacityFrom, opacityTo) {
var size = arguments.length > 5 && arguments[5] !== undefined ? arguments[5] : null;
var stops = arguments.length > 6 && arguments[6] !== undefined ? arguments[6] : null;
var colorStops = arguments.length > 7 && arguments[7] !== undefined ? arguments[7] : null;
var i = arguments.length > 8 && arguments[8] !== undefined ? arguments[8] : 0;
var w = this.w;
var g;
if (gfrom.length < 9 && gfrom.indexOf('#') === 0) {
// if the hex contains alpha and is of 9 digit, skip the opacity
gfrom = Utils.hexToRgba(gfrom, opacityFrom);
}
if (gto.length < 9 && gto.indexOf('#') === 0) {
gto = Utils.hexToRgba(gto, opacityTo);
}
var stop1 = 0;
var stop2 = 1;
var stop3 = 1;
var stop4 = null;
if (stops !== null) {
stop1 = typeof stops[0] !== 'undefined' ? stops[0] / 100 : 0;
stop2 = typeof stops[1] !== 'undefined' ? stops[1] / 100 : 1;
stop3 = typeof stops[2] !== 'undefined' ? stops[2] / 100 : 1;
stop4 = typeof stops[3] !== 'undefined' ? stops[3] / 100 : null;
}
var radial = !!(w.config.chart.type === 'donut' || w.config.chart.type === 'pie' || w.config.chart.type === 'polarArea' || w.config.chart.type === 'bubble');
if (colorStops === null || colorStops.length === 0) {
g = w.globals.dom.Paper.gradient(radial ? 'radial' : 'linear', function (stop) {
stop.at(stop1, gfrom, opacityFrom);
stop.at(stop2, gto, opacityTo);
stop.at(stop3, gto, opacityTo);
if (stop4 !== null) {
stop.at(stop4, gfrom, opacityFrom);
}
});
} else {
g = w.globals.dom.Paper.gradient(radial ? 'radial' : 'linear', function (stop) {
var gradientStops = Array.isArray(colorStops[i]) ? colorStops[i] : colorStops;
gradientStops.forEach(function (s) {
stop.at(s.offset / 100, s.color, s.opacity);
});
});
}
if (!radial) {
if (style === 'vertical') {
g.from(0, 0).to(0, 1);
} else if (style === 'diagonal') {
g.from(0, 0).to(1, 1);
} else if (style === 'horizontal') {
g.from(0, 1).to(1, 1);
} else if (style === 'diagonal2') {
g.from(1, 0).to(0, 1);
}
} else {
var offx = w.globals.gridWidth / 2;
var offy = w.globals.gridHeight / 2;
if (w.config.chart.type !== 'bubble') {
g.attr({
gradientUnits: 'userSpaceOnUse',
cx: offx,
cy: offy,
r: size
});
} else {
g.attr({
cx: 0.5,
cy: 0.5,
r: 0.8,
fx: 0.2,
fy: 0.2
});
}
}
return g;
}
}, {
key: "drawText",
value: function drawText(_ref3) {
var x = _ref3.x,
y = _ref3.y,
text = _ref3.text,
textAnchor = _ref3.textAnchor,
fontSize = _ref3.fontSize,
fontFamily = _ref3.fontFamily,
fontWeight = _ref3.fontWeight,
foreColor = _ref3.foreColor,
opacity = _ref3.opacity,
_ref3$cssClass = _ref3.cssClass,
cssClass = _ref3$cssClass === void 0 ? '' : _ref3$cssClass,
_ref3$isPlainText = _ref3.isPlainText,
isPlainText = _ref3$isPlainText === void 0 ? true : _ref3$isPlainText;
var w = this.w;
if (typeof text === 'undefined') text = '';
if (!textAnchor) {
textAnchor = 'start';
}
if (!foreColor || !foreColor.length) {
foreColor = w.config.chart.foreColor;
}
fontFamily = fontFamily || w.config.chart.fontFamily;
fontWeight = fontWeight || 'regular';
var elText;
if (Array.isArray(text)) {
elText = w.globals.dom.Paper.text(function (add) {
for (var i = 0; i < text.length; i++) {
i === 0 ? add.tspan(text[i]) : add.tspan(text[i]).newLine();
}
});
} else {
elText = isPlainText ? w.globals.dom.Paper.plain(text) : w.globals.dom.Paper.text(function (add) {
return add.tspan(text);
});
}
elText.attr({
x: x,
y: y,
'text-anchor': textAnchor,
'dominant-baseline': 'auto',
'font-size': fontSize,
'font-family': fontFamily,
'font-weight': fontWeight,
fill: foreColor,
class: 'apexcharts-text ' + cssClass
});
elText.node.style.fontFamily = fontFamily;
elText.node.style.opacity = opacity;
return elText;
}
}, {
key: "drawMarker",
value: function drawMarker(x, y, opts) {
x = x || 0;
var size = opts.pSize || 0;
var elPoint = null;
if (opts.shape === 'square' || opts.shape === 'rect') {
var radius = opts.pRadius === undefined ? size / 2 : opts.pRadius;
if (y === null || !size) {
size = 0;
radius = 0;
}
var nSize = size * 1.2 + radius;
var p = this.drawRect(nSize, nSize, nSize, nSize, radius);
p.attr({
x: x - nSize / 2,
y: y - nSize / 2,
cx: x,
cy: y,
class: opts.class ? opts.class : '',
fill: opts.pointFillColor,
'fill-opacity': opts.pointFillOpacity ? opts.pointFillOpacity : 1,
stroke: opts.pointStrokeColor,
'stroke-width': opts.pointStrokeWidth ? opts.pointStrokeWidth : 0,
'stroke-opacity': opts.pointStrokeOpacity ? opts.pointStrokeOpacity : 1
});
elPoint = p;
} else if (opts.shape === 'circle' || !opts.shape) {
if (!Utils.isNumber(y)) {
size = 0;
y = 0;
} // let nSize = size - opts.pRadius / 2 < 0 ? 0 : size - opts.pRadius / 2
elPoint = this.drawCircle(size, {
cx: x,
cy: y,
class: opts.class ? opts.class : '',
stroke: opts.pointStrokeColor,
fill: opts.pointFillColor,
'fill-opacity': opts.pointFillOpacity ? opts.pointFillOpacity : 1,
'stroke-width': opts.pointStrokeWidth ? opts.pointStrokeWidth : 0,
'stroke-opacity': opts.pointStrokeOpacity ? opts.pointStrokeOpacity : 1
});
}
return elPoint;
}
}, {
key: "pathMouseEnter",
value: function pathMouseEnter(path, e) {
var w = this.w;
var filters = new Filters(this.ctx);
var i = parseInt(path.node.getAttribute('index'), 10);
var j = parseInt(path.node.getAttribute('j'), 10);
if (typeof w.config.chart.events.dataPointMouseEnter === 'function') {
w.config.chart.events.dataPointMouseEnter(e, this.ctx, {
seriesIndex: i,
dataPointIndex: j,
w: w
});
}
this.ctx.events.fireEvent('dataPointMouseEnter', [e, this.ctx, {
seriesIndex: i,
dataPointIndex: j,
w: w
}]);
if (w.config.states.active.filter.type !== 'none') {
if (path.node.getAttribute('selected') === 'true') {
return;
}
}
if (w.config.states.hover.filter.type !== 'none') {
if (w.config.states.active.filter.type !== 'none' && !w.globals.isTouchDevice) {
var hoverFilter = w.config.states.hover.filter;
filters.applyFilter(path, i, hoverFilter.type, hoverFilter.value);
}
}
}
}, {
key: "pathMouseLeave",
value: function pathMouseLeave(path, e) {
var w = this.w;
var filters = new Filters(this.ctx);
var i = parseInt(path.node.getAttribute('index'), 10);
var j = parseInt(path.node.getAttribute('j'), 10);
if (typeof w.config.chart.events.dataPointMouseLeave === 'function') {
w.config.chart.events.dataPointMouseLeave(e, this.ctx, {
seriesIndex: i,
dataPointIndex: j,
w: w
});
}
this.ctx.events.fireEvent('dataPointMouseLeave', [e, this.ctx, {
seriesIndex: i,
dataPointIndex: j,
w: w
}]);
if (w.config.states.active.filter.type !== 'none') {
if (path.node.getAttribute('selected') === 'true') {
return;
}
}
if (w.config.states.hover.filter.type !== 'none') {
filters.getDefaultFilter(path, i);
}
}
}, {
key: "pathMouseDown",
value: function pathMouseDown(path, e) {
var w = this.w;
var filters = new Filters(this.ctx);
var i = parseInt(path.node.getAttribute('index'), 10);
var j = parseInt(path.node.getAttribute('j'), 10);
var selected = 'false';
if (path.node.getAttribute('selected') === 'true') {
path.node.setAttribute('selected', 'false');
if (w.globals.selectedDataPoints[i].indexOf(j) > -1) {
var index = w.globals.selectedDataPoints[i].indexOf(j);
w.globals.selectedDataPoints[i].splice(index, 1);
}
} else {
if (!w.config.states.active.allowMultipleDataPointsSelection && w.globals.selectedDataPoints.length > 0) {
w.globals.selectedDataPoints = [];
var elPaths = w.globals.dom.Paper.select('.apexcharts-series path').members;
var elCircles = w.globals.dom.Paper.select('.apexcharts-series circle, .apexcharts-series rect').members;
var deSelect = function deSelect(els) {
Array.prototype.forEach.call(els, function (el) {
el.node.setAttribute('selected', 'false');
filters.getDefaultFilter(el, i);
});
};
deSelect(elPaths);
deSelect(elCircles);
}
path.node.setAttribute('selected', 'true');
selected = 'true';
if (typeof w.globals.selectedDataPoints[i] === 'undefined') {
w.globals.selectedDataPoints[i] = [];
}
w.globals.selectedDataPoints[i].push(j);
}
if (selected === 'true') {
var activeFilter = w.config.states.active.filter;
if (activeFilter !== 'none') {
filters.applyFilter(path, i, activeFilter.type, activeFilter.value);
}
} else {
if (w.config.states.active.filter.type !== 'none') {
filters.getDefaultFilter(path, i);
}
}
if (typeof w.config.chart.events.dataPointSelection === 'function') {
w.config.chart.events.dataPointSelection(e, this.ctx, {
selectedDataPoints: w.globals.selectedDataPoints,
seriesIndex: i,
dataPointIndex: j,
w: w
});
}
if (e) {
this.ctx.events.fireEvent('dataPointSelection', [e, this.ctx, {
selectedDataPoints: w.globals.selectedDataPoints,
seriesIndex: i,
dataPointIndex: j,
w: w
}]);
}
}
}, {
key: "rotateAroundCenter",
value: function rotateAroundCenter(el) {
var coord = el.getBBox();
var x = coord.x + coord.width / 2;
var y = coord.y + coord.height / 2;
return {
x: x,
y: y
};
}
}, {
key: "getTextRects",
value: function getTextRects(text, fontSize, fontFamily, transform) {
var useBBox = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : true;
var w = this.w;
var virtualText = this.drawText({
x: -200,
y: -200,
text: text,
textAnchor: 'start',
fontSize: fontSize,
fontFamily: fontFamily,
foreColor: '#fff',
opacity: 0
});
if (transform) {
virtualText.attr('transform', transform);
}
w.globals.dom.Paper.add(virtualText);
var rect = virtualText.bbox();
if (!useBBox) {
rect = virtualText.node.getBoundingClientRect();
}
virtualText.remove();
return {
width: rect.width,
height: rect.height
};
}
/**
* append ... to long text
* http://stackoverflow.com/questions/9241315/trimming-text-to-a-given-pixel-width-in-svg
* @memberof Graphics
**/
}, {
key: "placeTextWithEllipsis",
value: function placeTextWithEllipsis(textObj, textString, width) {
if (typeof textObj.getComputedTextLength !== 'function') return;
textObj.textContent = textString;
if (textString.length > 0) {
// ellipsis is needed
if (textObj.getComputedTextLength() >= width / 1.1) {
for (var x = textString.length - 3; x > 0; x -= 3) {
if (textObj.getSubStringLength(0, x) <= width / 1.1) {
textObj.textContent = textString.substring(0, x) + '...';
return;
}
}
textObj.textContent = '.'; // can't place at all
}
}
}
}], [{
key: "setAttrs",
value: function setAttrs(el, attrs) {
for (var key in attrs) {
if (attrs.hasOwnProperty(key)) {
el.setAttribute(key, attrs[key]);
}
}
}
}]);
return Graphics;
}();
var Helpers = /*#__PURE__*/function () {
function Helpers(annoCtx) {
_classCallCheck(this, Helpers);
this.w = annoCtx.w;
this.annoCtx = annoCtx;
}
_createClass(Helpers, [{
key: "setOrientations",
value: function setOrientations(anno) {
var annoIndex = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null;
var w = this.w;
if (anno.label.orientation === 'vertical') {
var i = annoIndex !== null ? annoIndex : 0;
var xAnno = w.globals.dom.baseEl.querySelector(".apexcharts-xaxis-annotations .apexcharts-xaxis-annotation-label[rel='".concat(i, "']"));
if (xAnno !== null) {
var xAnnoCoord = xAnno.getBoundingClientRect();
xAnno.setAttribute('x', parseFloat(xAnno.getAttribute('x')) - xAnnoCoord.height + 4);
if (anno.label.position === 'top') {
xAnno.setAttribute('y', parseFloat(xAnno.getAttribute('y')) + xAnnoCoord.width);
} else {
xAnno.setAttribute('y', parseFloat(xAnno.getAttribute('y')) - xAnnoCoord.width);
}
var annoRotatingCenter = this.annoCtx.graphics.rotateAroundCenter(xAnno);
var x = annoRotatingCenter.x;
var y = annoRotatingCenter.y;
xAnno.setAttribute('transform', "rotate(-90 ".concat(x, " ").concat(y, ")"));
}
}
}
}, {
key: "addBackgroundToAnno",
value: function addBackgroundToAnno(annoEl, anno) {
var w = this.w;
if (!annoEl || !anno.label.text || anno.label.text && !anno.label.text.trim()) return null;
var elGridRect = w.globals.dom.baseEl.querySelector('.apexcharts-grid').getBoundingClientRect();
var coords = annoEl.getBoundingClientRect();
var pleft = anno.label.style.padding.left;
var pright = anno.label.style.padding.right;
var ptop = anno.label.style.padding.top;
var pbottom = anno.label.style.padding.bottom;
if (anno.label.orientation === 'vertical') {
ptop = anno.label.style.padding.left;
pbottom = anno.label.style.padding.right;
pleft = anno.label.style.padding.top;
pright = anno.label.style.padding.bottom;
}
var x1 = coords.left - elGridRect.left - pleft;
var y1 = coords.top - elGridRect.top - ptop;
var elRect = this.annoCtx.graphics.drawRect(x1 - w.globals.barPadForNumericAxis, y1, coords.width + pleft + pright, coords.height + ptop + pbottom, anno.label.borderRadius, anno.label.style.background, 1, anno.label.borderWidth, anno.label.borderColor, 0);
if (anno.id) {
elRect.node.classList.add(anno.id);
}
return elRect;
}
}, {
key: "annotationsBackground",
value: function annotationsBackground() {
var _this = this;
var w = this.w;
var add = function add(anno, i, type) {
var annoLabel = w.globals.dom.baseEl.querySelector(".apexcharts-".concat(type, "-annotations .apexcharts-").concat(type, "-annotation-label[rel='").concat(i, "']"));
if (annoLabel) {
var parent = annoLabel.parentNode;
var elRect = _this.addBackgroundToAnno(annoLabel, anno);
if (elRect) {
parent.insertBefore(elRect.node, annoLabel);
}
}
};
w.config.annotations.xaxis.map(function (anno, i) {
add(anno, i, 'xaxis');
});
w.config.annotations.yaxis.map(function (anno, i) {
add(anno, i, 'yaxis');
});
w.config.annotations.points.map(function (anno, i) {
add(anno, i, 'point');
});
}
}, {
key: "getStringX",
value: function getStringX(x) {
var w = this.w;
var rX = x;
if (w.config.xaxis.convertedCatToNumeric && w.globals.categoryLabels.length) {
x = w.globals.categoryLabels.indexOf(x) + 1;
}
var catIndex = w.globals.labels.indexOf(x);
var xLabel = w.globals.dom.baseEl.querySelector('.apexcharts-xaxis-texts-g text:nth-child(' + (catIndex + 1) + ')');
if (xLabel) {
rX = parseFloat(xLabel.getAttribute('x'));
}
return rX;
}
}]);
return Helpers;
}();
var XAnnotations = /*#__PURE__*/function () {
function XAnnotations(annoCtx) {
_classCallCheck(this, XAnnotations);
this.w = annoCtx.w;
this.annoCtx = annoCtx;
this.invertAxis = this.annoCtx.invertAxis;
}
_createClass(XAnnotations, [{
key: "addXaxisAnnotation",
value: function addXaxisAnnotation(anno, parent, index) {
var w = this.w;
var min = this.invertAxis ? w.globals.minY : w.globals.minX;
var max = this.invertAxis ? w.globals.maxY : w.globals.maxX;
var range = this.invertAxis ? w.globals.yRange[0] : w.globals.xRange;
var x1 = (anno.x - min) / (range / w.globals.gridWidth);
if (this.annoCtx.inversedReversedAxis) {
x1 = (max - anno.x) / (range / w.globals.gridWidth);
}
var text = anno.label.text;
if ((w.config.xaxis.type === 'category' || w.config.xaxis.convertedCatToNumeric) && !this.invertAxis && !w.globals.dataFormatXNumeric) {
x1 = this.annoCtx.helpers.getStringX(anno.x);
}
var strokeDashArray = anno.strokeDashArray;
if (!Utils.isNumber(x1)) return;
if (anno.x2 === null || typeof anno.x2 === 'undefined') {
var line = this.annoCtx.graphics.drawLine(x1 + anno.offsetX, // x1
0 + anno.offsetY, // y1
x1 + anno.offsetX, // x2
w.globals.gridHeight + anno.offsetY, // y2
anno.borderColor, // lineColor
strokeDashArray, //dashArray
anno.borderWidth);
parent.appendChild(line.node);
if (anno.id) {
line.node.classList.add(anno.id);
}
} else {
var x2 = (anno.x2 - min) / (range / w.globals.gridWidth);
if (this.annoCtx.inversedReversedAxis) {
x2 = (max - anno.x2) / (range / w.globals.gridWidth);
}
if ((w.config.xaxis.type === 'category' || w.config.xaxis.convertedCatToNumeric) && !this.invertAxis && !w.globals.dataFormatXNumeric) {
x2 = this.annoCtx.helpers.getStringX(anno.x2);
}
if (x2 < x1) {
var temp = x1;
x1 = x2;
x2 = temp;
}
var rect = this.annoCtx.graphics.drawRect(x1 + anno.offsetX, // x1
0 + anno.offsetY, // y1
x2 - x1, // x2
w.globals.gridHeight + anno.offsetY, // y2
0, // radius
anno.fillColor, // color
anno.opacity, // opacity,
1, // strokeWidth
anno.borderColor, // strokeColor
strokeDashArray // stokeDashArray
);
rect.node.classList.add('apexcharts-annotation-rect');
rect.attr('clip-path', "url(#gridRectMask".concat(w.globals.cuid, ")"));
parent.appendChild(rect.node);
if (anno.id) {
rect.node.classList.add(anno.id);
}
}
var textY = anno.label.position === 'top' ? 4 : w.globals.gridHeight;
var textRects = this.annoCtx.graphics.getTextRects(text, parseFloat(anno.label.style.fontSize));
var elText = this.annoCtx.graphics.drawText({
x: x1 + anno.label.offsetX,
y: textY + anno.label.offsetY - (anno.label.orientation === 'vertical' ? anno.label.position === 'top' ? textRects.width / 2 - 12 : -textRects.width / 2 : 0),
text: text,
textAnchor: anno.label.textAnchor,
fontSize: anno.label.style.fontSize,
fontFamily: anno.label.style.fontFamily,
fontWeight: anno.label.style.fontWeight,
foreColor: anno.label.style.color,
cssClass: "apexcharts-xaxis-annotation-label ".concat(anno.label.style.cssClass, " ").concat(anno.id ? anno.id : '')
});
elText.attr({
rel: index
});
parent.appendChild(elText.node); // after placing the annotations on svg, set any vertically placed annotations
this.annoCtx.helpers.setOrientations(anno, index);
}
}, {
key: "drawXAxisAnnotations",
value: function drawXAxisAnnotations() {
var _this = this;
var w = this.w;
var elg = this.annoCtx.graphics.group({
class: 'apexcharts-xaxis-annotations'
});
w.config.annotations.xaxis.map(function (anno, index) {
_this.addXaxisAnnotation(anno, elg.node, index);
});
return elg;
}
}]);
return XAnnotations;
}();
/*
** Util functions which are dependent on ApexCharts instance
*/
var CoreUtils = /*#__PURE__*/function () {
function CoreUtils(ctx) {
_classCallCheck(this, CoreUtils);
this.ctx = ctx;
this.w = ctx.w;
}
_createClass(CoreUtils, [{
key: "getStackedSeriesTotals",
/**
* @memberof CoreUtils
* returns the sum of all individual values in a multiple stacked series
* Eg. w.globals.series = [[32,33,43,12], [2,3,5,1]]
* @return [34,36,48,13]
**/
value: function getStackedSeriesTotals() {
var w = this.w;
var total = [];
if (w.globals.series.length === 0) return total;
for (var i = 0; i < w.globals.series[w.globals.maxValsInArrayIndex].length; i++) {
var t = 0;
for (var j = 0; j < w.globals.series.length; j++) {
if (typeof w.globals.series[j][i] !== 'undefined') {
t += w.globals.series[j][i];
}
}
total.push(t);
}
w.globals.stackedSeriesTotals = total;
return total;
} // get total of the all values inside all series
}, {
key: "getSeriesTotalByIndex",
value: function getSeriesTotalByIndex() {
var index = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : null;
if (index === null) {
// non-plot chart types - pie / donut / circle
return this.w.config.series.reduce(function (acc, cur) {
return acc + cur;
}, 0);
} else {
// axis charts - supporting multiple series
return this.w.globals.series[index].reduce(function (acc, cur) {
return acc + cur;
}, 0);
}
}
}, {
key: "isSeriesNull",
value: function isSeriesNull() {
var index = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : null;
var r = [];
if (index === null) {
// non-plot chart types - pie / donut / circle
r = this.w.config.series.filter(function (d) {
return d !== null;
});
} else {
// axis charts - supporting multiple series
r = this.w.config.series[index].data.filter(function (d) {
return d !== null;
});
}
return r.length === 0;
}
}, {
key: "seriesHaveSameValues",
value: function seriesHaveSameValues(index) {
return this.w.globals.series[index].every(function (val, i, arr) {
return val === arr[0];
});
}
}, {
key: "getCategoryLabels",
value: function getCategoryLabels(labels) {
var w = this.w;
var catLabels = labels.slice();
if (w.config.xaxis.convertedCatToNumeric) {
catLabels = labels.map(function (i, li) {
return w.config.xaxis.labels.formatter(i - w.globals.minX + 1);
});
}
return catLabels;
} // maxValsInArrayIndex is the index of series[] which has the largest number of items
}, {
key: "getLargestSeries",
value: function getLargestSeries() {
var w = this.w;
w.globals.maxValsInArrayIndex = w.globals.series.map(function (a) {
return a.length;
}).indexOf(Math.max.apply(Math, w.globals.series.map(function (a) {
return a.length;
})));
}
}, {
key: "getLargestMarkerSize",
value: function getLargestMarkerSize() {
var w = this.w;
var size = 0;
w.globals.markers.size.forEach(function (m) {
size = Math.max(size, m);
});
w.globals.markers.largestSize = size;
return size;
}
/**
* @memberof Core
* returns the sum of all values in a series
* Eg. w.globals.series = [[32,33,43,12], [2,3,5,1]]
* @return [120, 11]
**/
}, {
key: "getSeriesTotals",
value: function getSeriesTotals() {
var w = this.w;
w.globals.seriesTotals = w.globals.series.map(function (ser, index) {
var total = 0;
if (Array.isArray(ser)) {
for (var j = 0; j < ser.length; j++) {
total += ser[j];
}
} else {
// for pie/donuts/gauges
total += ser;
}
return total;
});
}
}, {
key: "getSeriesTotalsXRange",
value: function getSeriesTotalsXRange(minX, maxX) {
var w = this.w;
var seriesTotalsXRange = w.globals.series.map(function (ser, index) {
var total = 0;
for (var j = 0; j < ser.length; j++) {
if (w.globals.seriesX[index][j] > minX && w.globals.seriesX[index][j] < maxX) {
total += ser[j];
}
}
return total;
});
return seriesTotalsXRange;
}
/**
* @memberof CoreUtils
* returns the percentage value of all individual values which can be used in a 100% stacked series
* Eg. w.globals.series = [[32, 33, 43, 12], [2, 3, 5, 1]]
* @return [[94.11, 91.66, 89.58, 92.30], [5.88, 8.33, 10.41, 7.7]]
**/
}, {
key: "getPercentSeries",
value: function getPercentSeries() {
var w = this.w;
w.globals.seriesPercent = w.globals.series.map(function (ser, index) {
var seriesPercent = [];
if (Array.isArray(ser)) {
for (var j = 0; j < ser.length; j++) {
var total = w.globals.stackedSeriesTotals[j];
var percent = 0;
if (total) {
percent = 100 * ser[j] / total;
}
seriesPercent.push(percent);
}
} else {
var _total = w.globals.seriesTotals.reduce(function (acc, val) {
return acc + val;
}, 0);
var _percent = 100 * ser / _total;
seriesPercent.push(_percent);
}
return seriesPercent;
});
}
}, {
key: "getCalculatedRatios",
value: function getCalculatedRatios() {
var gl = this.w.globals;
var yRatio = [];
var invertedYRatio = 0;
var xRatio = 0;
var initialXRatio = 0;
var invertedXRatio = 0;
var zRatio = 0;
var baseLineY = [];
var baseLineInvertedY = 0.1;
var baseLineX = 0;
gl.yRange = [];
if (gl.isMultipleYAxis) {
for (var i = 0; i < gl.minYArr.length; i++) {
gl.yRange.push(Math.abs(gl.minYArr[i] - gl.maxYArr[i]));
baseLineY.push(0);
}
} else {
gl.yRange.push(Math.abs(gl.minY - gl.maxY));
}
gl.xRange = Math.abs(gl.maxX - gl.minX);
gl.zRange = Math.abs(gl.maxZ - gl.minZ); // multiple y axis
for (var _i = 0; _i < gl.yRange.length; _i++) {
yRatio.push(gl.yRange[_i] / gl.gridHeight);
}
xRatio = gl.xRange / gl.gridWidth;
initialXRatio = Math.abs(gl.initialMaxX - gl.initialMinX) / gl.gridWidth;
invertedYRatio = gl.yRange / gl.gridWidth;
invertedXRatio = gl.xRange / gl.gridHeight;
zRatio = gl.zRange / gl.gridHeight * 16;
if (!zRatio) {
zRatio = 1;
}
if (gl.minY !== Number.MIN_VALUE && Math.abs(gl.minY) !== 0) {
// Negative numbers present in series
gl.hasNegs = true;
}
if (gl.isMultipleYAxis) {
baseLineY = []; // baseline variables is the 0 of the yaxis which will be needed when there are negatives
for (var _i2 = 0; _i2 < yRatio.length; _i2++) {
baseLineY.push(-gl.minYArr[_i2] / yRatio[_i2]);
}
} else {
baseLineY.push(-gl.minY / yRatio[0]);
if (gl.minY !== Number.MIN_VALUE && Math.abs(gl.minY) !== 0) {
baseLineInvertedY = -gl.minY / invertedYRatio; // this is for bar chart
baseLineX = gl.minX / xRatio;
}
}
return {
yRatio: yRatio,
invertedYRatio: invertedYRatio,
zRatio: zRatio,
xRatio: xRatio,
initialXRatio: initialXRatio,
invertedXRatio: invertedXRatio,
baseLineInvertedY: baseLineInvertedY,
baseLineY: baseLineY,
baseLineX: baseLineX
};
}
}, {
key: "getLogSeries",
value: function getLogSeries(series) {
var _this = this;
var w = this.w;
w.globals.seriesLog = series.map(function (s, i) {
if (w.config.yaxis[i] && w.config.yaxis[i].logarithmic) {
return s.map(function (d) {
if (d === null) return null;
return _this.getLogVal(d, i);
});
} else {
return s;
}
});
return w.globals.invalidLogScale ? series : w.globals.seriesLog;
}
}, {
key: "getLogVal",
value: function getLogVal(d, yIndex) {
var w = this.w;
return (Math.log(d) - Math.log(w.globals.minYArr[yIndex])) / (Math.log(w.globals.maxYArr[yIndex]) - Math.log(w.globals.minYArr[yIndex]));
}
}, {
key: "getLogYRatios",
value: function getLogYRatios(yRatio) {
var _this2 = this;
var w = this.w;
var gl = this.w.globals;
gl.yLogRatio = yRatio.slice();
gl.logYRange = gl.yRange.map(function (yRange, i) {
if (w.config.yaxis[i] && _this2.w.config.yaxis[i].logarithmic) {
var maxY = -Number.MAX_VALUE;
var minY = Number.MIN_VALUE;
var range = 1;
gl.seriesLog.forEach(function (s, si) {
s.forEach(function (v) {
if (w.config.yaxis[si] && w.config.yaxis[si].logarithmic) {
maxY = Math.max(v, maxY);
minY = Math.min(v, minY);
}
});
});
range = Math.pow(gl.yRange[i], Math.abs(minY - maxY) / gl.yRange[i]);
gl.yLogRatio[i] = range / gl.gridHeight;
return range;
}
});
return gl.invalidLogScale ? yRatio.slice() : gl.yLogRatio;
} // Some config objects can be array - and we need to extend them correctly
}], [{
key: "checkComboSeries",
value: function checkComboSeries(series) {
var comboCharts = false;
var comboBarCount = 0;
var comboCount = 0; // if user specified a type in series too, turn on comboCharts flag
if (series.length && typeof series[0].type !== 'undefined') {
series.forEach(function (s) {
if (s.type === 'bar' || s.type === 'column' || s.type === 'candlestick' || s.type === 'boxPlot') {
comboBarCount++;
}
if (typeof s.type !== 'undefined') {
comboCount++;
}
});
}
if (comboCount > 1) {
comboCharts = true;
}
return {
comboBarCount: comboBarCount,
comboCharts: comboCharts
};
}
}, {
key: "extendArrayProps",
value: function extendArrayProps(configInstance, options, w) {
if (options.yaxis) {
options = configInstance.extendYAxis(options, w);
}
if (options.annotations) {
if (options.annotations.yaxis) {
options = configInstance.extendYAxisAnnotations(options);
}
if (options.annotations.xaxis) {
options = configInstance.extendXAxisAnnotations(options);
}
if (options.annotations.points) {
options = configInstance.extendPointAnnotations(options);
}
}
return options;
}
}]);
return CoreUtils;
}();
var YAnnotations = /*#__PURE__*/function () {
function YAnnotations(annoCtx) {
_classCallCheck(this, YAnnotations);
this.w = annoCtx.w;
this.annoCtx = annoCtx;
}
_createClass(YAnnotations, [{
key: "addYaxisAnnotation",
value: function addYaxisAnnotation(anno, parent, index) {
var w = this.w;
var strokeDashArray = anno.strokeDashArray;
var y1 = this._getY1Y2('y1', anno);
var y2;
var text = anno.label.text;
if (anno.y2 === null || typeof anno.y2 === 'undefined') {
var line = this.annoCtx.graphics.drawLine(0 + anno.offsetX, // x1
y1 + anno.offsetY, // y1
this._getYAxisAnnotationWidth(anno), // x2
y1 + anno.offsetY, // y2
anno.borderColor, // lineColor
strokeDashArray, // dashArray
anno.borderWidth);
parent.appendChild(line.node);
if (anno.id) {
line.node.classList.add(anno.id);
}
} else {
y2 = this._getY1Y2('y2', anno);
if (y2 > y1) {
var temp = y1;
y1 = y2;
y2 = temp;
}
var rect = this.annoCtx.graphics.drawRect(0 + anno.offsetX, // x1
y2 + anno.offsetY, // y1
this._getYAxisAnnotationWidth(anno), // x2
y1 - y2, // y2
0, // radius
anno.fillColor, // color
anno.opacity, // opacity,
1, // strokeWidth
anno.borderColor, // strokeColor
strokeDashArray // stokeDashArray
);
rect.node.classList.add('apexcharts-annotation-rect');
rect.attr('clip-path', "url(#gridRectMask".concat(w.globals.cuid, ")"));
parent.appendChild(rect.node);
if (anno.id) {
rect.node.classList.add(anno.id);
}
}
var textX = anno.label.position === 'right' ? w.globals.gridWidth : 0;
var elText = this.annoCtx.graphics.drawText({
x: textX + anno.label.offsetX,
y: (y2 || y1) + anno.label.offsetY - 3,
text: text,
textAnchor: anno.label.textAnchor,
fontSize: anno.label.style.fontSize,
fontFamily: anno.label.style.fontFamily,
fontWeight: anno.label.style.fontWeight,
foreColor: anno.label.style.color,
cssClass: "apexcharts-yaxis-annotation-label ".concat(anno.label.style.cssClass, " ").concat(anno.id ? anno.id : '')
});
elText.attr({
rel: index
});
parent.appendChild(elText.node);
}
}, {
key: "_getY1Y2",
value: function _getY1Y2(type, anno) {
var y = type === 'y1' ? anno.y : anno.y2;
var yP;
var w = this.w;
if (this.annoCtx.invertAxis) {
var catIndex = w.globals.labels.indexOf(y);
if (w.config.xaxis.convertedCatToNumeric) {
catIndex = w.globals.categoryLabels.indexOf(y);
}
var xLabel = w.globals.dom.baseEl.querySelector('.apexcharts-yaxis-texts-g text:nth-child(' + (catIndex + 1) + ')');
if (xLabel) {
yP = parseFloat(xLabel.getAttribute('y'));
}
} else {
var yPos;
if (w.config.yaxis[anno.yAxisIndex].logarithmic) {
var coreUtils = new CoreUtils(this.annoCtx.ctx);
y = coreUtils.getLogVal(y, anno.yAxisIndex);
yPos = y / w.globals.yLogRatio[anno.yAxisIndex];
} else {
yPos = (y - w.globals.minYArr[anno.yAxisIndex]) / (w.globals.yRange[anno.yAxisIndex] / w.globals.gridHeight);
}
yP = w.globals.gridHeight - yPos;
if (w.config.yaxis[anno.yAxisIndex] && w.config.yaxis[anno.yAxisIndex].reversed) {
yP = yPos;
}
}
return yP;
}
}, {
key: "_getYAxisAnnotationWidth",
value: function _getYAxisAnnotationWidth(anno) {
// issue apexcharts.js#2009
var w = this.w;
var width = w.globals.gridWidth;
if (anno.width.indexOf('%') > -1) {
width = w.globals.gridWidth * parseInt(anno.width, 10) / 100;
} else {
width = parseInt(anno.width, 10);
}
return width + anno.offsetX;
}
}, {
key: "drawYAxisAnnotations",
value: function drawYAxisAnnotations() {
var _this = this;
var w = this.w;
var elg = this.annoCtx.graphics.group({
class: 'apexcharts-yaxis-annotations'
});
w.config.annotations.yaxis.map(function (anno, index) {
_this.addYaxisAnnotation(anno, elg.node, index);
});
return elg;
}
}]);
return YAnnotations;
}();
var PointAnnotations = /*#__PURE__*/function () {
function PointAnnotations(annoCtx) {
_classCallCheck(this, PointAnnotations);
this.w = annoCtx.w;
this.annoCtx = annoCtx;
}
_createClass(PointAnnotations, [{
key: "addPointAnnotation",
value: function addPointAnnotation(anno, parent, index) {
var w = this.w;
var x = 0;
var y = 0;
var pointY = 0;
if (this.annoCtx.invertAxis) {
console.warn('Point annotation is not supported in horizontal bar charts.');
}
var annoY = parseFloat(anno.y);
if (typeof anno.x === 'string') {
var catIndex = w.globals.labels.indexOf(anno.x);
if (w.config.xaxis.convertedCatToNumeric) {
catIndex = w.globals.categoryLabels.indexOf(anno.x);
}
x = this.annoCtx.helpers.getStringX(anno.x);
if (anno.y === null) {
annoY = w.globals.series[anno.seriesIndex][catIndex];
}
} else {
x = (anno.x - w.globals.minX) / (w.globals.xRange / w.globals.gridWidth);
} // count series assign to the same axis
var duplicateSeriesName = [];
var countDuplicateSeriesName = 0;
for (var i = 0; i <= anno.seriesIndex; i++) {
var serieName = w.config.yaxis[i].seriesName;
if (serieName) for (var j = i + 1; j <= anno.seriesIndex; j++) {
if (w.config.yaxis[j].seriesName === serieName && duplicateSeriesName.indexOf(serieName) === -1) {
countDuplicateSeriesName++;
duplicateSeriesName.push(serieName);
}
}
}
var yPos;
if (w.config.yaxis[anno.yAxisIndex].logarithmic) {
var coreUtils = new CoreUtils(this.annoCtx.ctx);
annoY = coreUtils.getLogVal(annoY, anno.yAxisIndex);
yPos = annoY / w.globals.yLogRatio[anno.yAxisIndex];
} else {
// calculate the right position in array for this yAxisIndex
var actualSerieIndex = anno.yAxisIndex + countDuplicateSeriesName;
yPos = (annoY - w.globals.minYArr[actualSerieIndex]) / (w.globals.yRange[actualSerieIndex] / w.globals.gridHeight);
}
y = w.globals.gridHeight - yPos - parseFloat(anno.label.style.fontSize) - anno.marker.size;
pointY = w.globals.gridHeight - yPos;
if (w.config.yaxis[anno.yAxisIndex] && w.config.yaxis[anno.yAxisIndex].reversed) {
y = yPos + parseFloat(anno.label.style.fontSize) + anno.marker.size;
pointY = yPos;
}
if (!Utils.isNumber(x)) return;
var optsPoints = {
pSize: anno.marker.size,
pointStrokeWidth: anno.marker.strokeWidth,
pointFillColor: anno.marker.fillColor,
pointStrokeColor: anno.marker.strokeColor,
shape: anno.marker.shape,
pRadius: anno.marker.radius,
class: "apexcharts-point-annotation-marker ".concat(anno.marker.cssClass, " ").concat(anno.id ? anno.id : '')
};
var point = this.annoCtx.graphics.drawMarker(x + anno.marker.offsetX, pointY + anno.marker.offsetY, optsPoints);
parent.appendChild(point.node);
var text = anno.label.text ? anno.label.text : '';
var elText = this.annoCtx.graphics.drawText({
x: x + anno.label.offsetX,
y: y + anno.label.offsetY,
text: text,
textAnchor: anno.label.textAnchor,
fontSize: anno.label.style.fontSize,
fontFamily: anno.label.style.fontFamily,
fontWeight: anno.label.style.fontWeight,
foreColor: anno.label.style.color,
cssClass: "apexcharts-point-annotation-label ".concat(anno.label.style.cssClass, " ").concat(anno.id ? anno.id : '')
});
elText.attr({
rel: index
});
parent.appendChild(elText.node); // TODO: deprecate this as we will use custom
if (anno.customSVG.SVG) {
var g = this.annoCtx.graphics.group({
class: 'apexcharts-point-annotations-custom-svg ' + anno.customSVG.cssClass
});
g.attr({
transform: "translate(".concat(x + anno.customSVG.offsetX, ", ").concat(y + anno.customSVG.offsetY, ")")
});
g.node.innerHTML = anno.customSVG.SVG;
parent.appendChild(g.node);
}
if (anno.image.path) {
var imgWidth = anno.image.width ? anno.image.width : 20;
var imgHeight = anno.image.height ? anno.image.height : 20;
this.annoCtx.addImage({
x: x + anno.image.offsetX - imgWidth / 2,
y: y + anno.image.offsetY - imgHeight / 2,
width: imgWidth,
height: imgHeight,
path: anno.image.path,
appendTo: '.apexcharts-point-annotations'
});
}
}
}, {
key: "drawPointAnnotations",
value: function drawPointAnnotations() {
var _this = this;
var w = this.w;
var elg = this.annoCtx.graphics.group({
class: 'apexcharts-point-annotations'
});
w.config.annotations.points.map(function (anno, index) {
_this.addPointAnnotation(anno, elg.node, index);
});
return elg;
}
}]);
return PointAnnotations;
}();
const name = "en";
const options = {
months: [
"January",
"February",
"March",
"April",
"May",
"June",
"July",
"August",
"September",
"October",
"November",
"December"
],
shortMonths: [
"Jan",
"Feb",
"Mar",
"Apr",
"May",
"Jun",
"Jul",
"Aug",
"Sep",
"Oct",
"Nov",
"Dec"
],
days: [
"Sunday",
"Monday",
"Tuesday",
"Wednesday",
"Thursday",
"Friday",
"Saturday"
],
shortDays: [
"Sun",
"Mon",
"Tue",
"Wed",
"Thu",
"Fri",
"Sat"
],
toolbar: {
exportToSVG: "Download SVG",
exportToPNG: "Download PNG",
exportToCSV: "Download CSV",
menu: "Menu",
selection: "Selection",
selectionZoom: "Selection Zoom",
zoomIn: "Zoom In",
zoomOut: "Zoom Out",
pan: "Panning",
reset: "Reset Zoom"
}
};
var en = {
name: name,
options: options
};
var Options = /*#__PURE__*/function () {
function Options() {
_classCallCheck(this, Options);
this.yAxis = {
show: true,
showAlways: false,
showForNullSeries: true,
seriesName: undefined,
opposite: false,
reversed: false,
logarithmic: false,
tickAmount: undefined,
forceNiceScale: false,
max: undefined,
min: undefined,
floating: false,
decimalsInFloat: undefined,
labels: {
show: true,
minWidth: 0,
maxWidth: 160,
offsetX: 0,
offsetY: 0,
align: undefined,
rotate: 0,
padding: 20,
style: {
colors: [],
fontSize: '11px',
fontWeight: 400,
fontFamily: undefined,
cssClass: ''
},
formatter: undefined
},
axisBorder: {
show: false,
color: '#e0e0e0',
width: 1,
offsetX: 0,
offsetY: 0
},
axisTicks: {
show: false,
color: '#e0e0e0',
width: 6,
offsetX: 0,
offsetY: 0
},
title: {
text: undefined,
rotate: -90,
offsetY: 0,
offsetX: 0,
style: {
color: undefined,
fontSize: '11px',
fontWeight: 900,
fontFamily: undefined,
cssClass: ''
}
},
tooltip: {
enabled: false,
offsetX: 0
},
crosshairs: {
show: true,
position: 'front',
stroke: {
color: '#b6b6b6',
width: 1,
dashArray: 0
}
}
};
this.pointAnnotation = {
x: 0,
y: null,
yAxisIndex: 0,
seriesIndex: 0,
marker: {
size: 4,
fillColor: '#fff',
strokeWidth: 2,
strokeColor: '#333',
shape: 'circle',
offsetX: 0,
offsetY: 0,
radius: 2,
cssClass: ''
},
label: {
borderColor: '#c2c2c2',
borderWidth: 1,
borderRadius: 2,
text: undefined,
textAnchor: 'middle',
offsetX: 0,
offsetY: 0,
style: {
background: '#fff',
color: undefined,
fontSize: '11px',
fontFamily: undefined,
fontWeight: 400,
cssClass: '',
padding: {
left: 5,
right: 5,
top: 2,
bottom: 2
}
}
},
customSVG: {
// this will be deprecated in the next major version as it is going to be replaced with a better alternative below
SVG: undefined,
cssClass: undefined,
offsetX: 0,
offsetY: 0
},
image: {
path: undefined,
width: 20,
height: 20,
offsetX: 0,
offsetY: 0
}
};
this.yAxisAnnotation = {
y: 0,
y2: null,
strokeDashArray: 1,
fillColor: '#c2c2c2',
borderColor: '#c2c2c2',
borderWidth: 1,
opacity: 0.3,
offsetX: 0,
offsetY: 0,
width: '100%',
yAxisIndex: 0,
label: {
borderColor: '#c2c2c2',
borderWidth: 1,
borderRadius: 2,
text: undefined,
textAnchor: 'end',
position: 'right',
offsetX: 0,
offsetY: -3,
style: {
background: '#fff',
color: undefined,
fontSize: '11px',
fontFamily: undefined,
fontWeight: 400,
cssClass: '',
padding: {
left: 5,
right: 5,
top: 2,
bottom: 2
}
}
}
};
this.xAxisAnnotation = {
x: 0,
x2: null,
strokeDashArray: 1,
fillColor: '#c2c2c2',
borderColor: '#c2c2c2',
borderWidth: 1,
opacity: 0.3,
offsetX: 0,
offsetY: 0,
label: {
borderColor: '#c2c2c2',
borderWidth: 1,
borderRadius: 2,
text: undefined,
textAnchor: 'middle',
orientation: 'vertical',
position: 'top',
offsetX: 0,
offsetY: 0,
style: {
background: '#fff',
color: undefined,
fontSize: '11px',
fontFamily: undefined,
fontWeight: 400,
cssClass: '',
padding: {
left: 5,
right: 5,
top: 2,
bottom: 2
}
}
}
};
this.text = {
x: 0,
y: 0,
text: '',
textAnchor: 'start',
foreColor: undefined,
fontSize: '13px',
fontFamily: undefined,
fontWeight: 400,
appendTo: '.apexcharts-annotations',
backgroundColor: 'transparent',
borderColor: '#c2c2c2',
borderRadius: 0,
borderWidth: 0,
paddingLeft: 4,
paddingRight: 4,
paddingTop: 2,
paddingBottom: 2
};
}
_createClass(Options, [{
key: "init",
value: function init() {
return {
annotations: {
position: 'front',
yaxis: [this.yAxisAnnotation],
xaxis: [this.xAxisAnnotation],
points: [this.pointAnnotation],
texts: [],
images: [],
shapes: []
},
chart: {
animations: {
enabled: true,
easing: 'easeinout',
// linear, easeout, easein, easeinout, swing, bounce, elastic
speed: 800,
animateGradually: {
delay: 150,
enabled: true
},
dynamicAnimation: {
enabled: true,
speed: 350
}
},
background: 'transparent',
locales: [en],
defaultLocale: 'en',
dropShadow: {
enabled: false,
enabledOnSeries: undefined,
top: 2,
left: 2,
blur: 4,
color: '#000',
opacity: 0.35
},
events: {
animationEnd: undefined,
beforeMount: undefined,
mounted: undefined,
updated: undefined,
click: undefined,
mouseMove: undefined,
mouseLeave: undefined,
legendClick: undefined,
markerClick: undefined,
selection: undefined,
dataPointSelection: undefined,
dataPointMouseEnter: undefined,
dataPointMouseLeave: undefined,
beforeZoom: undefined,
beforeResetZoom: undefined,
zoomed: undefined,
scrolled: undefined,
brushScrolled: undefined
},
foreColor: '#373d3f',
fontFamily: 'Helvetica, Arial, sans-serif',
height: 'auto',
parentHeightOffset: 15,
redrawOnParentResize: true,
redrawOnWindowResize: true,
id: undefined,
group: undefined,
offsetX: 0,
offsetY: 0,
selection: {
enabled: false,
type: 'x',
// selectedPoints: undefined, // default datapoints that should be selected automatically
fill: {
color: '#24292e',
opacity: 0.1
},
stroke: {
width: 1,
color: '#24292e',
opacity: 0.4,
dashArray: 3
},
xaxis: {
min: undefined,
max: undefined
},
yaxis: {
min: undefined,
max: undefined
}
},
sparkline: {
enabled: false
},
brush: {
enabled: false,
autoScaleYaxis: true,
target: undefined
},
stacked: false,
stackType: 'normal',
toolbar: {
show: true,
offsetX: 0,
offsetY: 0,
tools: {
download: true,
selection: true,
zoom: true,
zoomin: true,
zoomout: true,
pan: true,
reset: true,
customIcons: []
},
export: {
csv: {
filename: undefined,
columnDelimiter: ',',
headerCategory: 'category',
headerValue: 'value',
dateFormatter: function dateFormatter(timestamp) {
return new Date(timestamp).toDateString();
}
},
png: {
filename: undefined
},
svg: {
filename: undefined
}
},
autoSelected: 'zoom' // accepts -> zoom, pan, selection
},
type: 'line',
width: '100%',
zoom: {
enabled: true,
type: 'x',
autoScaleYaxis: false,
zoomedArea: {
fill: {
color: '#90CAF9',
opacity: 0.4
},
stroke: {
color: '#0D47A1',
opacity: 0.4,
width: 1
}
}
}
},
plotOptions: {
area: {
fillTo: 'origin'
},
bar: {
horizontal: false,
columnWidth: '70%',
// should be in percent 0 - 100
barHeight: '70%',
// should be in percent 0 - 100
distributed: false,
borderRadius: 0,
rangeBarOverlap: true,
rangeBarGroupRows: false,
colors: {
ranges: [],
backgroundBarColors: [],
backgroundBarOpacity: 1,
backgroundBarRadius: 0
},
dataLabels: {
position: 'top',
// top, center, bottom
maxItems: 100,
hideOverflowingLabels: true,
orientation: 'horizontal' // TODO: provide stackedLabels for stacked charts which gives additions of values
}
},
bubble: {
minBubbleRadius: undefined,
maxBubbleRadius: undefined
},
candlestick: {
colors: {
upward: '#00B746',
downward: '#EF403C'
},
wick: {
useFillColor: true
}
},
boxPlot: {
colors: {
upper: '#00E396',
lower: '#008FFB'
}
},
heatmap: {
radius: 2,
enableShades: true,
shadeIntensity: 0.5,
reverseNegativeShade: false,
distributed: false,
useFillColorAsStroke: false,
colorScale: {
inverse: false,
ranges: [],
min: undefined,
max: undefined
}
},
treemap: {
enableShades: true,
shadeIntensity: 0.5,
distributed: false,
reverseNegativeShade: false,
useFillColorAsStroke: false,
colorScale: {
inverse: false,
ranges: [],
min: undefined,
max: undefined
}
},
radialBar: {
inverseOrder: false,
startAngle: 0,
endAngle: 360,
offsetX: 0,
offsetY: 0,
hollow: {
margin: 5,
size: '50%',
background: 'transparent',
image: undefined,
imageWidth: 150,
imageHeight: 150,
imageOffsetX: 0,
imageOffsetY: 0,
imageClipped: true,
position: 'front',
dropShadow: {
enabled: false,
top: 0,
left: 0,
blur: 3,
color: '#000',
opacity: 0.5
}
},
track: {
show: true,
startAngle: undefined,
endAngle: undefined,
background: '#f2f2f2',
strokeWidth: '97%',
opacity: 1,
margin: 5,
// margin is in pixels
dropShadow: {
enabled: false,
top: 0,
left: 0,
blur: 3,
color: '#000',
opacity: 0.5
}
},
dataLabels: {
show: true,
name: {
show: true,
fontSize: '16px',
fontFamily: undefined,
fontWeight: 600,
color: undefined,
offsetY: 0,
formatter: function formatter(val) {
return val;
}
},
value: {
show: true,
fontSize: '14px',
fontFamily: undefined,
fontWeight: 400,
color: undefined,
offsetY: 16,
formatter: function formatter(val) {
return val + '%';
}
},
total: {
show: false,
label: 'Total',
fontSize: '16px',
fontWeight: 600,
fontFamily: undefined,
color: undefined,
formatter: function formatter(w) {
return w.globals.seriesTotals.reduce(function (a, b) {
return a + b;
}, 0) / w.globals.series.length + '%';
}
}
}
},
pie: {
customScale: 1,
offsetX: 0,
offsetY: 0,
startAngle: 0,
endAngle: 360,
expandOnClick: true,
dataLabels: {
// These are the percentage values which are displayed on slice
offset: 0,
// offset by which labels will move outside
minAngleToShowLabel: 10
},
donut: {
size: '65%',
background: 'transparent',
labels: {
// These are the inner labels appearing inside donut
show: false,
name: {
show: true,
fontSize: '16px',
fontFamily: undefined,
fontWeight: 600,
color: undefined,
offsetY: -10,
formatter: function formatter(val) {
return val;
}
},
value: {
show: true,
fontSize: '20px',
fontFamily: undefined,
fontWeight: 400,
color: undefined,
offsetY: 10,
formatter: function formatter(val) {
return val;
}
},
total: {
show: false,
showAlways: false,
label: 'Total',
fontSize: '16px',
fontWeight: 400,
fontFamily: undefined,
color: undefined,
formatter: function formatter(w) {
return w.globals.seriesTotals.reduce(function (a, b) {
return a + b;
}, 0);
}
}
}
}
},
polarArea: {
rings: {
strokeWidth: 1,
strokeColor: '#e8e8e8'
},
spokes: {
strokeWidth: 1,
connectorColors: '#e8e8e8'
}
},
radar: {
size: undefined,
offsetX: 0,
offsetY: 0,
polygons: {
// strokeColor: '#e8e8e8', // should be deprecated in the minor version i.e 3.2
strokeWidth: 1,
strokeColors: '#e8e8e8',
connectorColors: '#e8e8e8',
fill: {
colors: undefined
}
}
}
},
colors: undefined,
dataLabels: {
enabled: true,
enabledOnSeries: undefined,
formatter: function formatter(val) {
return val !== null ? val : '';
},
textAnchor: 'middle',
distributed: false,
offsetX: 0,
offsetY: 0,
style: {
fontSize: '12px',
fontFamily: undefined,
fontWeight: 600,
colors: undefined
},
background: {
enabled: true,
foreColor: '#fff',
borderRadius: 2,
padding: 4,
opacity: 0.9,
borderWidth: 1,
borderColor: '#fff',
dropShadow: {
enabled: false,
top: 1,
left: 1,
blur: 1,
color: '#000',
opacity: 0.45
}
},
dropShadow: {
enabled: false,
top: 1,
left: 1,
blur: 1,
color: '#000',
opacity: 0.45
}
},
fill: {
type: 'solid',
colors: undefined,
// array of colors
opacity: 0.85,
gradient: {
shade: 'dark',
type: 'horizontal',
shadeIntensity: 0.5,
gradientToColors: undefined,
inverseColors: true,
opacityFrom: 1,
opacityTo: 1,
stops: [0, 50, 100],
colorStops: []
},
image: {
src: [],
width: undefined,
// optional
height: undefined // optional
},
pattern: {
style: 'squares',
// String | Array of Strings
width: 6,
height: 6,
strokeWidth: 2
}
},
forecastDataPoints: {
count: 0,
fillOpacity: 0.5,
strokeWidth: undefined,
dashArray: 4
},
grid: {
show: true,
borderColor: '#e0e0e0',
strokeDashArray: 0,
position: 'back',
xaxis: {
lines: {
show: false
}
},
yaxis: {
lines: {
show: true
}
},
row: {
colors: undefined,
// takes as array which will be repeated on rows
opacity: 0.5
},
column: {
colors: undefined,
// takes an array which will be repeated on columns
opacity: 0.5
},
padding: {
top: 0,
right: 10,
bottom: 0,
left: 12
}
},
labels: [],
legend: {
show: true,
showForSingleSeries: false,
showForNullSeries: true,
showForZeroSeries: true,
floating: false,
position: 'bottom',
// whether to position legends in 1 of 4
// direction - top, bottom, left, right
horizontalAlign: 'center',
// when position top/bottom, you can specify whether to align legends left, right or center
inverseOrder: false,
fontSize: '12px',
fontFamily: undefined,
fontWeight: 400,
width: undefined,
height: undefined,
formatter: undefined,
tooltipHoverFormatter: undefined,
offsetX: -20,
offsetY: 4,
customLegendItems: [],
labels: {
colors: undefined,
useSeriesColors: false
},
markers: {
width: 12,
height: 12,
strokeWidth: 0,
fillColors: undefined,
strokeColor: '#fff',
radius: 12,
customHTML: undefined,
offsetX: 0,
offsetY: 0,
onClick: undefined
},
itemMargin: {
horizontal: 5,
vertical: 2
},
onItemClick: {
toggleDataSeries: true
},
onItemHover: {
highlightDataSeries: true
}
},
markers: {
discrete: [],
size: 0,
colors: undefined,
//strokeColor: '#fff', // TODO: deprecate in major version 4.0
strokeColors: '#fff',
strokeWidth: 2,
strokeOpacity: 0.9,
strokeDashArray: 0,
fillOpacity: 1,
shape: 'circle',
width: 8,
// only applicable when shape is rect/square
height: 8,
// only applicable when shape is rect/square
radius: 2,
offsetX: 0,
offsetY: 0,
onClick: undefined,
onDblClick: undefined,
showNullDataPoints: true,
hover: {
size: undefined,
sizeOffset: 3
}
},
noData: {
text: undefined,
align: 'center',
verticalAlign: 'middle',
offsetX: 0,
offsetY: 0,
style: {
color: undefined,
fontSize: '14px',
fontFamily: undefined
}
},
responsive: [],
// breakpoints should follow ascending order 400, then 700, then 1000
series: undefined,
states: {
normal: {
filter: {
type: 'none',
value: 0
}
},
hover: {
filter: {
type: 'lighten',
value: 0.1
}
},
active: {
allowMultipleDataPointsSelection: false,
filter: {
type: 'darken',
value: 0.5
}
}
},
title: {
text: undefined,
align: 'left',
margin: 5,
offsetX: 0,
offsetY: 0,
floating: false,
style: {
fontSize: '14px',
fontWeight: 900,
fontFamily: undefined,
color: undefined
}
},
subtitle: {
text: undefined,
align: 'left',
margin: 5,
offsetX: 0,
offsetY: 30,
floating: false,
style: {
fontSize: '12px',
fontWeight: 400,
fontFamily: undefined,
color: undefined
}
},
stroke: {
show: true,
curve: 'smooth',
// "smooth" / "straight" / "stepline"
lineCap: 'butt',
// round, butt , square
width: 2,
colors: undefined,
// array of colors
dashArray: 0 // single value or array of values
},
tooltip: {
enabled: true,
enabledOnSeries: undefined,
shared: true,
followCursor: false,
// when disabled, the tooltip will show on top of the series instead of mouse position
intersect: false,
// when enabled, tooltip will only show when user directly hovers over point
inverseOrder: false,
custom: undefined,
fillSeriesColor: false,
theme: 'light',
style: {
fontSize: '12px',
fontFamily: undefined
},
onDatasetHover: {
highlightDataSeries: false
},
x: {
// x value
show: true,
format: 'dd MMM',
// dd/MM, dd MMM yy, dd MMM yyyy
formatter: undefined // a custom user supplied formatter function
},
y: {
formatter: undefined,
title: {
formatter: function formatter(seriesName) {
return seriesName ? seriesName + ': ' : '';
}
}
},
z: {
formatter: undefined,
title: 'Size: '
},
marker: {
show: true,
fillColors: undefined
},
items: {
display: 'flex'
},
fixed: {
enabled: false,
position: 'topRight',
// topRight, topLeft, bottomRight, bottomLeft
offsetX: 0,
offsetY: 0
}
},
xaxis: {
type: 'category',
categories: [],
convertedCatToNumeric: false,
// internal property which should not be altered outside
offsetX: 0,
offsetY: 0,
overwriteCategories: undefined,
labels: {
show: true,
rotate: -45,
rotateAlways: false,
hideOverlappingLabels: true,
trim: false,
minHeight: undefined,
maxHeight: 120,
showDuplicates: true,
style: {
colors: [],
fontSize: '12px',
fontWeight: 400,
fontFamily: undefined,
cssClass: ''
},
offsetX: 0,
offsetY: 0,
format: undefined,
formatter: undefined,
// custom formatter function which will override format
datetimeUTC: true,
datetimeFormatter: {
year: 'yyyy',
month: "MMM 'yy",
day: 'dd MMM',
hour: 'HH:mm',
minute: 'HH:mm:ss',
second: 'HH:mm:ss'
}
},
axisBorder: {
show: true,
color: '#e0e0e0',
width: '100%',
height: 1,
offsetX: 0,
offsetY: 0
},
axisTicks: {
show: true,
color: '#e0e0e0',
height: 6,
offsetX: 0,
offsetY: 0
},
tickAmount: undefined,
tickPlacement: 'on',
min: undefined,
max: undefined,
range: undefined,
floating: false,
decimalsInFloat: undefined,
position: 'bottom',
title: {
text: undefined,
offsetX: 0,
offsetY: 0,
style: {
color: undefined,
fontSize: '12px',
fontWeight: 900,
fontFamily: undefined,
cssClass: ''
}
},
crosshairs: {
show: true,
width: 1,
// tickWidth/barWidth or an integer
position: 'back',
opacity: 0.9,
stroke: {
color: '#b6b6b6',
width: 1,
dashArray: 3
},
fill: {
type: 'solid',
// solid, gradient
color: '#B1B9C4',
gradient: {
colorFrom: '#D8E3F0',
colorTo: '#BED1E6',
stops: [0, 100],
opacityFrom: 0.4,
opacityTo: 0.5
}
},
dropShadow: {
enabled: false,
left: 0,
top: 0,
blur: 1,
opacity: 0.4
}
},
tooltip: {
enabled: true,
offsetY: 0,
formatter: undefined,
style: {
fontSize: '12px',
fontFamily: undefined
}
}
},
yaxis: this.yAxis,
theme: {
mode: 'light',
palette: 'palette1',
// If defined, it will overwrite globals.colors variable
monochrome: {
// monochrome allows you to select just 1 color and fill out the rest with light/dark shade (intensity can be selected)
enabled: false,
color: '#008FFB',
shadeTo: 'light',
shadeIntensity: 0.65
}
}
};
}
}]);
return Options;
}();
/**
* ApexCharts Annotations Class for drawing lines/rects on both xaxis and yaxis.
*
* @module Annotations
**/
var Annotations = /*#__PURE__*/function () {
function Annotations(ctx) {
_classCallCheck(this, Annotations);
this.ctx = ctx;
this.w = ctx.w;
this.graphics = new Graphics(this.ctx);
if (this.w.globals.isBarHorizontal) {
this.invertAxis = true;
}
this.helpers = new Helpers(this);
this.xAxisAnnotations = new XAnnotations(this);
this.yAxisAnnotations = new YAnnotations(this);
this.pointsAnnotations = new PointAnnotations(this);
if (this.w.globals.isBarHorizontal && this.w.config.yaxis[0].reversed) {
this.inversedReversedAxis = true;
}
this.xDivision = this.w.globals.gridWidth / this.w.globals.dataPoints;
}
_createClass(Annotations, [{
key: "drawAxesAnnotations",
value: function drawAxesAnnotations() {
var w = this.w;
if (w.globals.axisCharts) {
var yAnnotations = this.yAxisAnnotations.drawYAxisAnnotations();
var xAnnotations = this.xAxisAnnotations.drawXAxisAnnotations();
var pointAnnotations = this.pointsAnnotations.drawPointAnnotations();
var initialAnim = w.config.chart.animations.enabled;
var annoArray = [yAnnotations, xAnnotations, pointAnnotations];
var annoElArray = [xAnnotations.node, yAnnotations.node, pointAnnotations.node];
for (var i = 0; i < 3; i++) {
w.globals.dom.elGraphical.add(annoArray[i]);
if (initialAnim && !w.globals.resized && !w.globals.dataChanged) {
// fixes apexcharts/apexcharts.js#685
if (w.config.chart.type !== 'scatter' && w.config.chart.type !== 'bubble' && w.globals.dataPoints > 1) {
annoElArray[i].classList.add('apexcharts-element-hidden');
}
}
w.globals.delayedElements.push({
el: annoElArray[i],
index: 0
});
} // background sizes needs to be calculated after text is drawn, so calling them last
this.helpers.annotationsBackground();
}
}
}, {
key: "drawImageAnnos",
value: function drawImageAnnos() {
var _this = this;
var w = this.w;
w.config.annotations.images.map(function (s, index) {
_this.addImage(s, index);
});
}
}, {
key: "drawTextAnnos",
value: function drawTextAnnos() {
var _this2 = this;
var w = this.w;
w.config.annotations.texts.map(function (t, index) {
_this2.addText(t, index);
});
}
}, {
key: "addXaxisAnnotation",
value: function addXaxisAnnotation(anno, parent, index) {
this.xAxisAnnotations.addXaxisAnnotation(anno, parent, index);
}
}, {
key: "addYaxisAnnotation",
value: function addYaxisAnnotation(anno, parent, index) {
this.yAxisAnnotations.addYaxisAnnotation(anno, parent, index);
}
}, {
key: "addPointAnnotation",
value: function addPointAnnotation(anno, parent, index) {
this.pointsAnnotations.addPointAnnotation(anno, parent, index);
}
}, {
key: "addText",
value: function addText(params, index) {
var x = params.x,
y = params.y,
text = params.text,
textAnchor = params.textAnchor,
foreColor = params.foreColor,
fontSize = params.fontSize,
fontFamily = params.fontFamily,
fontWeight = params.fontWeight,
cssClass = params.cssClass,
backgroundColor = params.backgroundColor,
borderWidth = params.borderWidth,
strokeDashArray = params.strokeDashArray,
borderRadius = params.borderRadius,
borderColor = params.borderColor,
_params$appendTo = params.appendTo,
appendTo = _params$appendTo === void 0 ? '.apexcharts-annotations' : _params$appendTo,
_params$paddingLeft = params.paddingLeft,
paddingLeft = _params$paddingLeft === void 0 ? 4 : _params$paddingLeft,
_params$paddingRight = params.paddingRight,
paddingRight = _params$paddingRight === void 0 ? 4 : _params$paddingRight,
_params$paddingBottom = params.paddingBottom,
paddingBottom = _params$paddingBottom === void 0 ? 2 : _params$paddingBottom,
_params$paddingTop = params.paddingTop,
paddingTop = _params$paddingTop === void 0 ? 2 : _params$paddingTop;
var w = this.w;
var elText = this.graphics.drawText({
x: x,
y: y,
text: text,
textAnchor: textAnchor || 'start',
fontSize: fontSize || '12px',
fontWeight: fontWeight || 'regular',
fontFamily: fontFamily || w.config.chart.fontFamily,
foreColor: foreColor || w.config.chart.foreColor,
cssClass: 'apexcharts-text ' + cssClass ? cssClass : ''
});
var parent = w.globals.dom.baseEl.querySelector(appendTo);
if (parent) {
parent.appendChild(elText.node);
}
var textRect = elText.bbox();
if (text) {
var elRect = this.graphics.drawRect(textRect.x - paddingLeft, textRect.y - paddingTop, textRect.width + paddingLeft + paddingRight, textRect.height + paddingBottom + paddingTop, borderRadius, backgroundColor ? backgroundColor : 'transparent', 1, borderWidth, borderColor, strokeDashArray);
parent.insertBefore(elRect.node, elText.node);
}
}
}, {
key: "addImage",
value: function addImage(params, index) {
var w = this.w;
var path = params.path,
_params$x = params.x,
x = _params$x === void 0 ? 0 : _params$x,
_params$y = params.y,
y = _params$y === void 0 ? 0 : _params$y,
_params$width = params.width,
width = _params$width === void 0 ? 20 : _params$width,
_params$height = params.height,
height = _params$height === void 0 ? 20 : _params$height,
_params$appendTo2 = params.appendTo,
appendTo = _params$appendTo2 === void 0 ? '.apexcharts-annotations' : _params$appendTo2;
var img = w.globals.dom.Paper.image(path);
img.size(width, height).move(x, y);
var parent = w.globals.dom.baseEl.querySelector(appendTo);
if (parent) {
parent.appendChild(img.node);
}
} // The addXaxisAnnotation method requires a parent class, and user calling this method externally on the chart instance may not specify parent, hence a different method
}, {
key: "addXaxisAnnotationExternal",
value: function addXaxisAnnotationExternal(params, pushToMemory, context) {
this.addAnnotationExternal({
params: params,
pushToMemory: pushToMemory,
context: context,
type: 'xaxis',
contextMethod: context.addXaxisAnnotation
});
return context;
}
}, {
key: "addYaxisAnnotationExternal",
value: function addYaxisAnnotationExternal(params, pushToMemory, context) {
this.addAnnotationExternal({
params: params,
pushToMemory: pushToMemory,
context: context,
type: 'yaxis',
contextMethod: context.addYaxisAnnotation
});
return context;
}
}, {
key: "addPointAnnotationExternal",
value: function addPointAnnotationExternal(params, pushToMemory, context) {
if (typeof this.invertAxis === 'undefined') {
this.invertAxis = context.w.globals.isBarHorizontal;
}
this.addAnnotationExternal({
params: params,
pushToMemory: pushToMemory,
context: context,
type: 'point',
contextMethod: context.addPointAnnotation
});
return context;
}
}, {
key: "addAnnotationExternal",
value: function addAnnotationExternal(_ref) {
var params = _ref.params,
pushToMemory = _ref.pushToMemory,
context = _ref.context,
type = _ref.type,
contextMethod = _ref.contextMethod;
var me = context;
var w = me.w;
var parent = w.globals.dom.baseEl.querySelector(".apexcharts-".concat(type, "-annotations"));
var index = parent.childNodes.length + 1;
var options = new Options();
var axesAnno = Object.assign({}, type === 'xaxis' ? options.xAxisAnnotation : type === 'yaxis' ? options.yAxisAnnotation : options.pointAnnotation);
var anno = Utils.extend(axesAnno, params);
switch (type) {
case 'xaxis':
this.addXaxisAnnotation(anno, parent, index);
break;
case 'yaxis':
this.addYaxisAnnotation(anno, parent, index);
break;
case 'point':
this.addPointAnnotation(anno, parent, index);
break;
} // add background
var axesAnnoLabel = w.globals.dom.baseEl.querySelector(".apexcharts-".concat(type, "-annotations .apexcharts-").concat(type, "-annotation-label[rel='").concat(index, "']"));
var elRect = this.helpers.addBackgroundToAnno(axesAnnoLabel, anno);
if (elRect) {
parent.insertBefore(elRect.node, axesAnnoLabel);
}
if (pushToMemory) {
w.globals.memory.methodsToExec.push({
context: me,
id: anno.id ? anno.id : Utils.randomId(),
method: contextMethod,
label: 'addAnnotation',
params: params
});
}
return context;
}
}, {
key: "clearAnnotations",
value: function clearAnnotations(ctx) {
var w = ctx.w;
var annos = w.globals.dom.baseEl.querySelectorAll('.apexcharts-yaxis-annotations, .apexcharts-xaxis-annotations, .apexcharts-point-annotations'); // annotations added externally should be cleared out too
w.globals.memory.methodsToExec.map(function (m, i) {
if (m.label === 'addText' || m.label === 'addAnnotation') {
w.globals.memory.methodsToExec.splice(i, 1);
}
});
annos = Utils.listToArray(annos); // delete the DOM elements
Array.prototype.forEach.call(annos, function (a) {
while (a.firstChild) {
a.removeChild(a.firstChild);
}
});
}
}, {
key: "removeAnnotation",
value: function removeAnnotation(ctx, id) {
var w = ctx.w;
var annos = w.globals.dom.baseEl.querySelectorAll(".".concat(id));
if (annos) {
w.globals.memory.methodsToExec.map(function (m, i) {
if (m.id === id) {
w.globals.memory.methodsToExec.splice(i, 1);
}
});
Array.prototype.forEach.call(annos, function (a) {
a.parentElement.removeChild(a);
});
}
}
}]);
return Annotations;
}();
/**
* ApexCharts Fill Class for setting fill options of the paths.
*
* @module Fill
**/
var Fill = /*#__PURE__*/function () {
function Fill(ctx) {
_classCallCheck(this, Fill);
this.ctx = ctx;
this.w = ctx.w;
this.opts = null;
this.seriesIndex = 0;
}
_createClass(Fill, [{
key: "clippedImgArea",
value: function clippedImgArea(params) {
var w = this.w;
var cnf = w.config;
var svgW = parseInt(w.globals.gridWidth, 10);
var svgH = parseInt(w.globals.gridHeight, 10);
var size = svgW > svgH ? svgW : svgH;
var fillImg = params.image;
var imgWidth = 0;
var imgHeight = 0;
if (typeof params.width === 'undefined' && typeof params.height === 'undefined') {
if (cnf.fill.image.width !== undefined && cnf.fill.image.height !== undefined) {
imgWidth = cnf.fill.image.width + 1;
imgHeight = cnf.fill.image.height;
} else {
imgWidth = size + 1;
imgHeight = size;
}
} else {
imgWidth = params.width;
imgHeight = params.height;
}
var elPattern = document.createElementNS(w.globals.SVGNS, 'pattern');
Graphics.setAttrs(elPattern, {
id: params.patternID,
patternUnits: params.patternUnits ? params.patternUnits : 'userSpaceOnUse',
width: imgWidth + 'px',
height: imgHeight + 'px'
});
var elImage = document.createElementNS(w.globals.SVGNS, 'image');
elPattern.appendChild(elImage);
elImage.setAttributeNS(window.SVG.xlink, 'href', fillImg);
Graphics.setAttrs(elImage, {
x: 0,
y: 0,
preserveAspectRatio: 'none',
width: imgWidth + 'px',
height: imgHeight + 'px'
});
elImage.style.opacity = params.opacity;
w.globals.dom.elDefs.node.appendChild(elPattern);
}
}, {
key: "getSeriesIndex",
value: function getSeriesIndex(opts) {
var w = this.w;
if ((w.config.chart.type === 'bar' || w.config.chart.type === 'rangeBar') && w.config.plotOptions.bar.distributed || w.config.chart.type === 'heatmap' || w.config.chart.type === 'treemap') {
this.seriesIndex = opts.seriesNumber;
} else {
this.seriesIndex = opts.seriesNumber % w.globals.series.length;
}
return this.seriesIndex;
}
}, {
key: "fillPath",
value: function fillPath(opts) {
var w = this.w;
this.opts = opts;
var cnf = this.w.config;
var pathFill;
var patternFill, gradientFill;
this.seriesIndex = this.getSeriesIndex(opts);
var fillColors = this.getFillColors();
var fillColor = fillColors[this.seriesIndex]; //override fillcolor if user inputted color with data
if (w.globals.seriesColors[this.seriesIndex] !== undefined) {
fillColor = w.globals.seriesColors[this.seriesIndex];
}
if (typeof fillColor === 'function') {
fillColor = fillColor({
seriesIndex: this.seriesIndex,
dataPointIndex: opts.dataPointIndex,
value: opts.value,
w: w
});
}
var fillType = this.getFillType(this.seriesIndex);
var fillOpacity = Array.isArray(cnf.fill.opacity) ? cnf.fill.opacity[this.seriesIndex] : cnf.fill.opacity;
if (opts.color) {
fillColor = opts.color;
}
var defaultColor = fillColor;
if (fillColor.indexOf('rgb') === -1) {
if (fillColor.length < 9) {
// if the hex contains alpha and is of 9 digit, skip the opacity
defaultColor = Utils.hexToRgba(fillColor, fillOpacity);
}
} else {
if (fillColor.indexOf('rgba') > -1) {
fillOpacity = Utils.getOpacityFromRGBA(fillColor);
}
}
if (opts.opacity) fillOpacity = opts.opacity;
if (fillType === 'pattern') {
patternFill = this.handlePatternFill(patternFill, fillColor, fillOpacity, defaultColor);
}
if (fillType === 'gradient') {
gradientFill = this.handleGradientFill(fillColor, fillOpacity, this.seriesIndex);
}
if (fillType === 'image') {
var imgSrc = cnf.fill.image.src;
var patternID = opts.patternID ? opts.patternID : '';
this.clippedImgArea({
opacity: fillOpacity,
image: Array.isArray(imgSrc) ? opts.seriesNumber < imgSrc.length ? imgSrc[opts.seriesNumber] : imgSrc[0] : imgSrc,
width: opts.width ? opts.width : undefined,
height: opts.height ? opts.height : undefined,
patternUnits: opts.patternUnits,
patternID: "pattern".concat(w.globals.cuid).concat(opts.seriesNumber + 1).concat(patternID)
});
pathFill = "url(#pattern".concat(w.globals.cuid).concat(opts.seriesNumber + 1).concat(patternID, ")");
} else if (fillType === 'gradient') {
pathFill = gradientFill;
} else if (fillType === 'pattern') {
pathFill = patternFill;
} else {
pathFill = defaultColor;
} // override pattern/gradient if opts.solid is true
if (opts.solid) {
pathFill = defaultColor;
}
return pathFill;
}
}, {
key: "getFillType",
value: function getFillType(seriesIndex) {
var w = this.w;
if (Array.isArray(w.config.fill.type)) {
return w.config.fill.type[seriesIndex];
} else {
return w.config.fill.type;
}
}
}, {
key: "getFillColors",
value: function getFillColors() {
var w = this.w;
var cnf = w.config;
var opts = this.opts;
var fillColors = [];
if (w.globals.comboCharts) {
if (w.config.series[this.seriesIndex].type === 'line') {
if (Array.isArray(w.globals.stroke.colors)) {
fillColors = w.globals.stroke.colors;
} else {
fillColors.push(w.globals.stroke.colors);
}
} else {
if (Array.isArray(w.globals.fill.colors)) {
fillColors = w.globals.fill.colors;
} else {
fillColors.push(w.globals.fill.colors);
}
}
} else {
if (cnf.chart.type === 'line') {
if (Array.isArray(w.globals.stroke.colors)) {
fillColors = w.globals.stroke.colors;
} else {
fillColors.push(w.globals.stroke.colors);
}
} else {
if (Array.isArray(w.globals.fill.colors)) {
fillColors = w.globals.fill.colors;
} else {
fillColors.push(w.globals.fill.colors);
}
}
} // colors passed in arguments
if (typeof opts.fillColors !== 'undefined') {
fillColors = [];
if (Array.isArray(opts.fillColors)) {
fillColors = opts.fillColors.slice();
} else {
fillColors.push(opts.fillColors);
}
}
return fillColors;
}
}, {
key: "handlePatternFill",
value: function handlePatternFill(patternFill, fillColor, fillOpacity, defaultColor) {
var cnf = this.w.config;
var opts = this.opts;
var graphics = new Graphics(this.ctx);
var patternStrokeWidth = cnf.fill.pattern.strokeWidth === undefined ? Array.isArray(cnf.stroke.width) ? cnf.stroke.width[this.seriesIndex] : cnf.stroke.width : Array.isArray(cnf.fill.pattern.strokeWidth) ? cnf.fill.pattern.strokeWidth[this.seriesIndex] : cnf.fill.pattern.strokeWidth;
var patternLineColor = fillColor;
if (Array.isArray(cnf.fill.pattern.style)) {
if (typeof cnf.fill.pattern.style[opts.seriesNumber] !== 'undefined') {
var pf = graphics.drawPattern(cnf.fill.pattern.style[opts.seriesNumber], cnf.fill.pattern.width, cnf.fill.pattern.height, patternLineColor, patternStrokeWidth, fillOpacity);
patternFill = pf;
} else {
patternFill = defaultColor;
}
} else {
patternFill = graphics.drawPattern(cnf.fill.pattern.style, cnf.fill.pattern.width, cnf.fill.pattern.height, patternLineColor, patternStrokeWidth, fillOpacity);
}
return patternFill;
}
}, {
key: "handleGradientFill",
value: function handleGradientFill(fillColor, fillOpacity, i) {
var cnf = this.w.config;
var opts = this.opts;
var graphics = new Graphics(this.ctx);
var utils = new Utils();
var type = cnf.fill.gradient.type;
var gradientFrom = fillColor;
var gradientTo;
var opacityFrom = cnf.fill.gradient.opacityFrom === undefined ? fillOpacity : Array.isArray(cnf.fill.gradient.opacityFrom) ? cnf.fill.gradient.opacityFrom[i] : cnf.fill.gradient.opacityFrom;
if (gradientFrom.indexOf('rgba') > -1) {
opacityFrom = Utils.getOpacityFromRGBA(gradientFrom);
}
var opacityTo = cnf.fill.gradient.opacityTo === undefined ? fillOpacity : Array.isArray(cnf.fill.gradient.opacityTo) ? cnf.fill.gradient.opacityTo[i] : cnf.fill.gradient.opacityTo;
if (cnf.fill.gradient.gradientToColors === undefined || cnf.fill.gradient.gradientToColors.length === 0) {
if (cnf.fill.gradient.shade === 'dark') {
gradientTo = utils.shadeColor(parseFloat(cnf.fill.gradient.shadeIntensity) * -1, fillColor.indexOf('rgb') > -1 ? Utils.rgb2hex(fillColor) : fillColor);
} else {
gradientTo = utils.shadeColor(parseFloat(cnf.fill.gradient.shadeIntensity), fillColor.indexOf('rgb') > -1 ? Utils.rgb2hex(fillColor) : fillColor);
}
} else {
if (cnf.fill.gradient.gradientToColors[opts.seriesNumber]) {
var gToColor = cnf.fill.gradient.gradientToColors[opts.seriesNumber];
gradientTo = gToColor;
if (gToColor.indexOf('rgba') > -1) {
opacityTo = Utils.getOpacityFromRGBA(gToColor);
}
} else {
gradientTo = fillColor;
}
}
if (cnf.fill.gradient.inverseColors) {
var t = gradientFrom;
gradientFrom = gradientTo;
gradientTo = t;
}
if (gradientFrom.indexOf('rgb') > -1) {
gradientFrom = Utils.rgb2hex(gradientFrom);
}
if (gradientTo.indexOf('rgb') > -1) {
gradientTo = Utils.rgb2hex(gradientTo);
}
return graphics.drawGradient(type, gradientFrom, gradientTo, opacityFrom, opacityTo, opts.size, cnf.fill.gradient.stops, cnf.fill.gradient.colorStops, i);
}
}]);
return Fill;
}();
/**
* ApexCharts Markers Class for drawing points on y values in axes charts.
*
* @module Markers
**/
var Markers = /*#__PURE__*/function () {
function Markers(ctx, opts) {
_classCallCheck(this, Markers);
this.ctx = ctx;
this.w = ctx.w;
}
_createClass(Markers, [{
key: "setGlobalMarkerSize",
value: function setGlobalMarkerSize() {
var w = this.w;
w.globals.markers.size = Array.isArray(w.config.markers.size) ? w.config.markers.size : [w.config.markers.size];
if (w.globals.markers.size.length > 0) {
if (w.globals.markers.size.length < w.globals.series.length + 1) {
for (var i = 0; i <= w.globals.series.length; i++) {
if (typeof w.globals.markers.size[i] === 'undefined') {
w.globals.markers.size.push(w.globals.markers.size[0]);
}
}
}
} else {
w.globals.markers.size = w.config.series.map(function (s) {
return w.config.markers.size;
});
}
}
}, {
key: "plotChartMarkers",
value: function plotChartMarkers(pointsPos, seriesIndex, j, pSize) {
var alwaysDrawMarker = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : false;
var w = this.w;
var i = seriesIndex;
var p = pointsPos;
var elPointsWrap = null;
var graphics = new Graphics(this.ctx);
var point;
if (w.globals.markers.size[seriesIndex] > 0 || alwaysDrawMarker) {
elPointsWrap = graphics.group({
class: alwaysDrawMarker ? '' : 'apexcharts-series-markers'
});
elPointsWrap.attr('clip-path', "url(#gridRectMarkerMask".concat(w.globals.cuid, ")"));
}
if (Array.isArray(p.x)) {
for (var q = 0; q < p.x.length; q++) {
var dataPointIndex = j; // a small hack as we have 2 points for the first val to connect it
if (j === 1 && q === 0) dataPointIndex = 0;
if (j === 1 && q === 1) dataPointIndex = 1;
var PointClasses = 'apexcharts-marker';
if ((w.config.chart.type === 'line' || w.config.chart.type === 'area') && !w.globals.comboCharts && !w.config.tooltip.intersect) {
PointClasses += ' no-pointer-events';
}
var shouldMarkerDraw = Array.isArray(w.config.markers.size) ? w.globals.markers.size[seriesIndex] > 0 : w.config.markers.size > 0;
if (shouldMarkerDraw || alwaysDrawMarker) {
if (Utils.isNumber(p.y[q])) {
PointClasses += " w".concat(Utils.randomId());
} else {
PointClasses = 'apexcharts-nullpoint';
}
var opts = this.getMarkerConfig(PointClasses, seriesIndex, dataPointIndex);
if (w.config.series[i].data[dataPointIndex]) {
if (w.config.series[i].data[dataPointIndex].fillColor) {
opts.pointFillColor = w.config.series[i].data[dataPointIndex].fillColor;
}
if (w.config.series[i].data[dataPointIndex].strokeColor) {
opts.pointStrokeColor = w.config.series[i].data[dataPointIndex].strokeColor;
}
}
if (pSize) {
opts.pSize = pSize;
}
point = graphics.drawMarker(p.x[q], p.y[q], opts);
point.attr('rel', dataPointIndex);
point.attr('j', dataPointIndex);
point.attr('index', seriesIndex);
point.node.setAttribute('default-marker-size', opts.pSize);
var filters = new Filters(this.ctx);
filters.setSelectionFilter(point, seriesIndex, dataPointIndex);
this.addEvents(point);
if (elPointsWrap) {
elPointsWrap.add(point);
}
} else {
// dynamic array creation - multidimensional
if (typeof w.globals.pointsArray[seriesIndex] === 'undefined') w.globals.pointsArray[seriesIndex] = [];
w.globals.pointsArray[seriesIndex].push([p.x[q], p.y[q]]);
}
}
}
return elPointsWrap;
}
}, {
key: "getMarkerConfig",
value: function getMarkerConfig(cssClass, seriesIndex) {
var dataPointIndex = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : null;
var w = this.w;
var pStyle = this.getMarkerStyle(seriesIndex);
var pSize = w.globals.markers.size[seriesIndex];
var m = w.config.markers; // discrete markers is an option where user can specify a particular marker with different shape, size and color
if (dataPointIndex !== null && m.discrete.length) {
m.discrete.map(function (marker) {
if (marker.seriesIndex === seriesIndex && marker.dataPointIndex === dataPointIndex) {
pStyle.pointStrokeColor = marker.strokeColor;
pStyle.pointFillColor = marker.fillColor;
pSize = marker.size;
pStyle.pointShape = marker.shape;
}
});
}
return {
pSize: pSize,
pRadius: m.radius,
width: Array.isArray(m.width) ? m.width[seriesIndex] : m.width,
height: Array.isArray(m.height) ? m.height[seriesIndex] : m.height,
pointStrokeWidth: Array.isArray(m.strokeWidth) ? m.strokeWidth[seriesIndex] : m.strokeWidth,
pointStrokeColor: pStyle.pointStrokeColor,
pointFillColor: pStyle.pointFillColor,
shape: pStyle.pointShape || (Array.isArray(m.shape) ? m.shape[seriesIndex] : m.shape),
class: cssClass,
pointStrokeOpacity: Array.isArray(m.strokeOpacity) ? m.strokeOpacity[seriesIndex] : m.strokeOpacity,
pointStrokeDashArray: Array.isArray(m.strokeDashArray) ? m.strokeDashArray[seriesIndex] : m.strokeDashArray,
pointFillOpacity: Array.isArray(m.fillOpacity) ? m.fillOpacity[seriesIndex] : m.fillOpacity,
seriesIndex: seriesIndex
};
}
}, {
key: "addEvents",
value: function addEvents(circle) {
var w = this.w;
var graphics = new Graphics(this.ctx);
circle.node.addEventListener('mouseenter', graphics.pathMouseEnter.bind(this.ctx, circle));
circle.node.addEventListener('mouseleave', graphics.pathMouseLeave.bind(this.ctx, circle));
circle.node.addEventListener('mousedown', graphics.pathMouseDown.bind(this.ctx, circle));
circle.node.addEventListener('click', w.config.markers.onClick);
circle.node.addEventListener('dblclick', w.config.markers.onDblClick);
circle.node.addEventListener('touchstart', graphics.pathMouseDown.bind(this.ctx, circle), {
passive: true
});
}
}, {
key: "getMarkerStyle",
value: function getMarkerStyle(seriesIndex) {
var w = this.w;
var colors = w.globals.markers.colors;
var strokeColors = w.config.markers.strokeColor || w.config.markers.strokeColors;
var pointStrokeColor = Array.isArray(strokeColors) ? strokeColors[seriesIndex] : strokeColors;
var pointFillColor = Array.isArray(colors) ? colors[seriesIndex] : colors;
return {
pointStrokeColor: pointStrokeColor,
pointFillColor: pointFillColor
};
}
}]);
return Markers;
}();
/**
* ApexCharts Scatter Class.
* This Class also handles bubbles chart as currently there is no major difference in drawing them,
* @module Scatter
**/
var Scatter = /*#__PURE__*/function () {
function Scatter(ctx) {
_classCallCheck(this, Scatter);
this.ctx = ctx;
this.w = ctx.w;
this.initialAnim = this.w.config.chart.animations.enabled;
this.dynamicAnim = this.initialAnim && this.w.config.chart.animations.dynamicAnimation.enabled;
}
_createClass(Scatter, [{
key: "draw",
value: function draw(elSeries, j, opts) {
var w = this.w;
var graphics = new Graphics(this.ctx);
var realIndex = opts.realIndex;
var pointsPos = opts.pointsPos;
var zRatio = opts.zRatio;
var elPointsMain = opts.elParent;
var elPointsWrap = graphics.group({
class: "apexcharts-series-markers apexcharts-series-".concat(w.config.chart.type)
});
elPointsWrap.attr('clip-path', "url(#gridRectMarkerMask".concat(w.globals.cuid, ")"));
if (Array.isArray(pointsPos.x)) {
for (var q = 0; q < pointsPos.x.length; q++) {
var dataPointIndex = j + 1;
var shouldDraw = true; // a small hack as we have 2 points for the first val to connect it
if (j === 0 && q === 0) dataPointIndex = 0;
if (j === 0 && q === 1) dataPointIndex = 1;
var radius = 0;
var finishRadius = w.globals.markers.size[realIndex];
if (zRatio !== Infinity) {
// means we have a bubble
finishRadius = w.globals.seriesZ[realIndex][dataPointIndex] / zRatio;
var bubble = w.config.plotOptions.bubble;
if (bubble.minBubbleRadius && finishRadius < bubble.minBubbleRadius) {
finishRadius = bubble.minBubbleRadius;
}
if (bubble.maxBubbleRadius && finishRadius > bubble.maxBubbleRadius) {
finishRadius = bubble.maxBubbleRadius;
}
}
if (!w.config.chart.animations.enabled) {
radius = finishRadius;
}
var x = pointsPos.x[q];
var y = pointsPos.y[q];
radius = radius || 0;
if (y === null || typeof w.globals.series[realIndex][dataPointIndex] === 'undefined') {
shouldDraw = false;
}
if (shouldDraw) {
var point = this.drawPoint(x, y, radius, finishRadius, realIndex, dataPointIndex, j);
elPointsWrap.add(point);
}
elPointsMain.add(elPointsWrap);
}
}
}
}, {
key: "drawPoint",
value: function drawPoint(x, y, radius, finishRadius, realIndex, dataPointIndex, j) {
var w = this.w;
var i = realIndex;
var anim = new Animations(this.ctx);
var filters = new Filters(this.ctx);
var fill = new Fill(this.ctx);
var markers = new Markers(this.ctx);
var graphics = new Graphics(this.ctx);
var markerConfig = markers.getMarkerConfig('apexcharts-marker', i);
var pathFillCircle = fill.fillPath({
seriesNumber: realIndex,
dataPointIndex: dataPointIndex,
patternUnits: 'objectBoundingBox',
value: w.globals.series[realIndex][j]
});
var el;
if (markerConfig.shape === 'circle') {
el = graphics.drawCircle(radius);
} else if (markerConfig.shape === 'square' || markerConfig.shape === 'rect') {
el = graphics.drawRect(0, 0, markerConfig.width - markerConfig.pointStrokeWidth / 2, markerConfig.height - markerConfig.pointStrokeWidth / 2, markerConfig.pRadius);
}
if (w.config.series[i].data[dataPointIndex]) {
if (w.config.series[i].data[dataPointIndex].fillColor) {
pathFillCircle = w.config.series[i].data[dataPointIndex].fillColor;
}
}
el.attr({
x: x - markerConfig.width / 2 - markerConfig.pointStrokeWidth / 2,
y: y - markerConfig.height / 2 - markerConfig.pointStrokeWidth / 2,
cx: x,
cy: y,
fill: pathFillCircle,
'fill-opacity': markerConfig.pointFillOpacity,
stroke: markerConfig.pointStrokeColor,
r: finishRadius,
'stroke-width': markerConfig.pointStrokeWidth,
'stroke-dasharray': markerConfig.pointStrokeDashArray,
'stroke-opacity': markerConfig.pointStrokeOpacity
});
if (w.config.chart.dropShadow.enabled) {
var dropShadow = w.config.chart.dropShadow;
filters.dropShadow(el, dropShadow, realIndex);
}
if (this.initialAnim && !w.globals.dataChanged && !w.globals.resized) {
var speed = w.config.chart.animations.speed;
anim.animateMarker(el, 0, markerConfig.shape === 'circle' ? finishRadius : {
width: markerConfig.width,
height: markerConfig.height
}, speed, w.globals.easing, function () {
window.setTimeout(function () {
anim.animationCompleted(el);
}, 100);
});
} else {
w.globals.animationEnded = true;
}
if (w.globals.dataChanged && markerConfig.shape === 'circle') {
if (this.dynamicAnim) {
var _speed = w.config.chart.animations.dynamicAnimation.speed;
var prevX, prevY, prevR;
var prevPathJ = null;
prevPathJ = w.globals.previousPaths[realIndex] && w.globals.previousPaths[realIndex][j];
if (typeof prevPathJ !== 'undefined' && prevPathJ !== null) {
// series containing less elements will ignore these values and revert to 0
prevX = prevPathJ.x;
prevY = prevPathJ.y;
prevR = typeof prevPathJ.r !== 'undefined' ? prevPathJ.r : finishRadius;
}
for (var cs = 0; cs < w.globals.collapsedSeries.length; cs++) {
if (w.globals.collapsedSeries[cs].index === realIndex) {
_speed = 1;
finishRadius = 0;
}
}
if (x === 0 && y === 0) finishRadius = 0;
anim.animateCircle(el, {
cx: prevX,
cy: prevY,
r: prevR
}, {
cx: x,
cy: y,
r: finishRadius
}, _speed, w.globals.easing);
} else {
el.attr({
r: finishRadius
});
}
}
el.attr({
rel: dataPointIndex,
j: dataPointIndex,
index: realIndex,
'default-marker-size': finishRadius
});
filters.setSelectionFilter(el, realIndex, dataPointIndex);
markers.addEvents(el);
el.node.classList.add('apexcharts-marker');
return el;
}
}, {
key: "centerTextInBubble",
value: function centerTextInBubble(y) {
var w = this.w;
y = y + parseInt(w.config.dataLabels.style.fontSize, 10) / 4;
return {
y: y
};
}
}]);
return Scatter;
}();
/**
* ApexCharts DataLabels Class for drawing dataLabels on Axes based Charts.
*
* @module DataLabels
**/
var DataLabels = /*#__PURE__*/function () {
function DataLabels(ctx) {
_classCallCheck(this, DataLabels);
this.ctx = ctx;
this.w = ctx.w;
} // When there are many datalabels to be printed, and some of them overlaps each other in the same series, this method will take care of that
// Also, when datalabels exceeds the drawable area and get clipped off, we need to adjust and move some pixels to make them visible again
_createClass(DataLabels, [{
key: "dataLabelsCorrection",
value: function dataLabelsCorrection(x, y, val, i, dataPointIndex, alwaysDrawDataLabel, fontSize) {
var w = this.w;
var graphics = new Graphics(this.ctx);
var drawnextLabel = false; //
var textRects = graphics.getTextRects(val, fontSize);
var width = textRects.width;
var height = textRects.height;
if (y < 0) y = 0;
if (y > w.globals.gridHeight + height) y = w.globals.gridHeight + height / 2; // first value in series, so push an empty array
if (typeof w.globals.dataLabelsRects[i] === 'undefined') w.globals.dataLabelsRects[i] = []; // then start pushing actual rects in that sub-array
w.globals.dataLabelsRects[i].push({
x: x,
y: y,
width: width,
height: height
});
var len = w.globals.dataLabelsRects[i].length - 2;
var lastDrawnIndex = typeof w.globals.lastDrawnDataLabelsIndexes[i] !== 'undefined' ? w.globals.lastDrawnDataLabelsIndexes[i][w.globals.lastDrawnDataLabelsIndexes[i].length - 1] : 0;
if (typeof w.globals.dataLabelsRects[i][len] !== 'undefined') {
var lastDataLabelRect = w.globals.dataLabelsRects[i][lastDrawnIndex];
if ( // next label forward and x not intersecting
x > lastDataLabelRect.x + lastDataLabelRect.width + 2 || y > lastDataLabelRect.y + lastDataLabelRect.height + 2 || x + width < lastDataLabelRect.x // next label is going to be drawn backwards
) {
// the 2 indexes don't override, so OK to draw next label
drawnextLabel = true;
}
}
if (dataPointIndex === 0 || alwaysDrawDataLabel) {
drawnextLabel = true;
}
return {
x: x,
y: y,
textRects: textRects,
drawnextLabel: drawnextLabel
};
}
}, {
key: "drawDataLabel",
value: function drawDataLabel(pos, i, j) {
var _this = this;
var strokeWidth = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : 2;
// this method handles line, area, bubble, scatter charts as those charts contains markers/points which have pre-defined x/y positions
// all other charts like radar / bars / heatmaps will define their own drawDataLabel routine
var w = this.w;
var graphics = new Graphics(this.ctx);
var dataLabelsConfig = w.config.dataLabels;
var x = 0;
var y = 0;
var dataPointIndex = j;
var elDataLabelsWrap = null;
if (!dataLabelsConfig.enabled || !Array.isArray(pos.x)) {
return elDataLabelsWrap;
}
elDataLabelsWrap = graphics.group({
class: 'apexcharts-data-labels'
});
for (var q = 0; q < pos.x.length; q++) {
x = pos.x[q] + dataLabelsConfig.offsetX;
y = pos.y[q] + dataLabelsConfig.offsetY + strokeWidth;
if (!isNaN(x)) {
// a small hack as we have 2 points for the first val to connect it
if (j === 1 && q === 0) dataPointIndex = 0;
if (j === 1 && q === 1) dataPointIndex = 1;
var val = w.globals.series[i][dataPointIndex];
var text = '';
var getText = function getText(v) {
return w.config.dataLabels.formatter(v, {
ctx: _this.ctx,
seriesIndex: i,
dataPointIndex: dataPointIndex,
w: w
});
};
if (w.config.chart.type === 'bubble') {
val = w.globals.seriesZ[i][dataPointIndex];
text = getText(val);
y = pos.y[q];
var scatter = new Scatter(this.ctx);
var centerTextInBubbleCoords = scatter.centerTextInBubble(y, i, dataPointIndex);
y = centerTextInBubbleCoords.y;
} else {
if (typeof val !== 'undefined') {
text = getText(val);
}
}
this.plotDataLabelsText({
x: x,
y: y,
text: text,
i: i,
j: dataPointIndex,
parent: elDataLabelsWrap,
offsetCorrection: true,
dataLabelsConfig: w.config.dataLabels
});
}
}
return elDataLabelsWrap;
}
}, {
key: "plotDataLabelsText",
value: function plotDataLabelsText(opts) {
var w = this.w;
var graphics = new Graphics(this.ctx);
var x = opts.x,
y = opts.y,
i = opts.i,
j = opts.j,
text = opts.text,
textAnchor = opts.textAnchor,
fontSize = opts.fontSize,
parent = opts.parent,
dataLabelsConfig = opts.dataLabelsConfig,
color = opts.color,
alwaysDrawDataLabel = opts.alwaysDrawDataLabel,
offsetCorrection = opts.offsetCorrection;
if (Array.isArray(w.config.dataLabels.enabledOnSeries)) {
if (w.config.dataLabels.enabledOnSeries.indexOf(i) < 0) {
return;
}
}
var correctedLabels = {
x: x,
y: y,
drawnextLabel: true
};
if (offsetCorrection) {
correctedLabels = this.dataLabelsCorrection(x, y, text, i, j, alwaysDrawDataLabel, parseInt(dataLabelsConfig.style.fontSize, 10));
} // when zoomed, we don't need to correct labels offsets,
// but if normally, labels get cropped, correct them
if (!w.globals.zoomed) {
x = correctedLabels.x;
y = correctedLabels.y;
}
if (correctedLabels.textRects) {
// fixes #2264
if (x < -10 - correctedLabels.textRects.width || x > w.globals.gridWidth + correctedLabels.textRects.width + 10) {
// datalabels fall outside drawing area, so draw a blank label
text = '';
}
}
var dataLabelColor = w.globals.dataLabels.style.colors[i];
if ((w.config.chart.type === 'bar' || w.config.chart.type === 'rangeBar') && w.config.plotOptions.bar.distributed || w.config.dataLabels.distributed) {
dataLabelColor = w.globals.dataLabels.style.colors[j];
}
if (typeof dataLabelColor === 'function') {
dataLabelColor = dataLabelColor({
series: w.globals.series,
seriesIndex: i,
dataPointIndex: j,
w: w
});
}
if (color) {
dataLabelColor = color;
}
var offX = dataLabelsConfig.offsetX;
var offY = dataLabelsConfig.offsetY;
if (w.config.chart.type === 'bar' || w.config.chart.type === 'rangeBar') {
// for certain chart types, we handle offsets while calculating datalabels pos
// why? because bars/column may have negative values and based on that
// offsets becomes reversed
offX = 0;
offY = 0;
}
if (correctedLabels.drawnextLabel) {
var dataLabelText = graphics.drawText({
width: 100,
height: parseInt(dataLabelsConfig.style.fontSize, 10),
x: x + offX,
y: y + offY,
foreColor: dataLabelColor,
textAnchor: textAnchor || dataLabelsConfig.textAnchor,
text: text,
fontSize: fontSize || dataLabelsConfig.style.fontSize,
fontFamily: dataLabelsConfig.style.fontFamily,
fontWeight: dataLabelsConfig.style.fontWeight || 'normal'
});
dataLabelText.attr({
class: 'apexcharts-datalabel',
cx: x,
cy: y
});
if (dataLabelsConfig.dropShadow.enabled) {
var textShadow = dataLabelsConfig.dropShadow;
var filters = new Filters(this.ctx);
filters.dropShadow(dataLabelText, textShadow);
}
parent.add(dataLabelText);
if (typeof w.globals.lastDrawnDataLabelsIndexes[i] === 'undefined') {
w.globals.lastDrawnDataLabelsIndexes[i] = [];
}
w.globals.lastDrawnDataLabelsIndexes[i].push(j);
}
}
}, {
key: "addBackgroundToDataLabel",
value: function addBackgroundToDataLabel(el, coords) {
var w = this.w;
var bCnf = w.config.dataLabels.background;
var paddingH = bCnf.padding;
var paddingV = bCnf.padding / 2;
var width = coords.width;
var height = coords.height;
var graphics = new Graphics(this.ctx);
var elRect = graphics.drawRect(coords.x - paddingH, coords.y - paddingV / 2, width + paddingH * 2, height + paddingV, bCnf.borderRadius, w.config.chart.background === 'transparent' ? '#fff' : w.config.chart.background, bCnf.opacity, bCnf.borderWidth, bCnf.borderColor);
if (bCnf.dropShadow.enabled) {
var filters = new Filters(this.ctx);
filters.dropShadow(elRect, bCnf.dropShadow);
}
return elRect;
}
}, {
key: "dataLabelsBackground",
value: function dataLabelsBackground() {
var w = this.w;
if (w.config.chart.type === 'bubble') return;
var elDataLabels = w.globals.dom.baseEl.querySelectorAll('.apexcharts-datalabels text');
for (var i = 0; i < elDataLabels.length; i++) {
var el = elDataLabels[i];
var coords = el.getBBox();
var elRect = null;
if (coords.width && coords.height) {
elRect = this.addBackgroundToDataLabel(el, coords);
}
if (elRect) {
el.parentNode.insertBefore(elRect.node, el);
var background = el.getAttribute('fill');
var shouldAnim = w.config.chart.animations.enabled && !w.globals.resized && !w.globals.dataChanged;
if (shouldAnim) {
elRect.animate().attr({
fill: background
});
} else {
elRect.attr({
fill: background
});
}
el.setAttribute('fill', w.config.dataLabels.background.foreColor);
}
}
}
}, {
key: "bringForward",
value: function bringForward() {
var w = this.w;
var elDataLabelsNodes = w.globals.dom.baseEl.querySelectorAll('.apexcharts-datalabels');
var elSeries = w.globals.dom.baseEl.querySelector('.apexcharts-plot-series:last-child');
for (var i = 0; i < elDataLabelsNodes.length; i++) {
if (elSeries) {
elSeries.insertBefore(elDataLabelsNodes[i], elSeries.nextSibling);
}
}
}
}]);
return DataLabels;
}();
var BarDataLabels = /*#__PURE__*/function () {
function BarDataLabels(barCtx) {
_classCallCheck(this, BarDataLabels);
this.w = barCtx.w;
this.barCtx = barCtx;
}
/** handleBarDataLabels is used to calculate the positions for the data-labels
* It also sets the element's data attr for bars and calls drawCalculatedBarDataLabels()
* After calculating, it also calls the function to draw data labels
* @memberof Bar
* @param {object} {barProps} most of the bar properties used throughout the bar
* drawing function
* @return {object} dataLabels node-element which you can append later
**/
_createClass(BarDataLabels, [{
key: "handleBarDataLabels",
value: function handleBarDataLabels(opts) {
var x = opts.x,
y = opts.y,
y1 = opts.y1,
y2 = opts.y2,
i = opts.i,
j = opts.j,
realIndex = opts.realIndex,
series = opts.series,
barHeight = opts.barHeight,
barWidth = opts.barWidth,
barYPosition = opts.barYPosition,
visibleSeries = opts.visibleSeries,
renderedPath = opts.renderedPath;
var w = this.w;
var graphics = new Graphics(this.barCtx.ctx);
var strokeWidth = Array.isArray(this.barCtx.strokeWidth) ? this.barCtx.strokeWidth[realIndex] : this.barCtx.strokeWidth;
var bcx = x + parseFloat(barWidth * visibleSeries);
var bcy = y + parseFloat(barHeight * visibleSeries);
if (w.globals.isXNumeric && !w.globals.isBarHorizontal) {
bcx = x + parseFloat(barWidth * (visibleSeries + 1));
bcy = y + parseFloat(barHeight * (visibleSeries + 1)) - strokeWidth;
}
var dataLabels = null;
var dataLabelsX = x;
var dataLabelsY = y;
var dataLabelsPos = {};
var dataLabelsConfig = w.config.dataLabels;
var barDataLabelsConfig = this.barCtx.barOptions.dataLabels;
if (typeof barYPosition !== 'undefined' && this.barCtx.isTimelineBar) {
bcy = barYPosition;
dataLabelsY = barYPosition;
}
var offX = dataLabelsConfig.offsetX;
var offY = dataLabelsConfig.offsetY;
var textRects = {
width: 0,
height: 0
};
if (w.config.dataLabels.enabled) {
var yLabel = this.barCtx.series[i][j];
textRects = graphics.getTextRects(w.globals.yLabelFormatters[0](yLabel), parseFloat(dataLabelsConfig.style.fontSize));
}
var params = {
x: x,
y: y,
i: i,
j: j,
renderedPath: renderedPath,
bcx: bcx,
bcy: bcy,
barHeight: barHeight,
barWidth: barWidth,
textRects: textRects,
strokeWidth: strokeWidth,
dataLabelsX: dataLabelsX,
dataLabelsY: dataLabelsY,
barDataLabelsConfig: barDataLabelsConfig,
offX: offX,
offY: offY
};
if (this.barCtx.isHorizontal) {
dataLabelsPos = this.calculateBarsDataLabelsPosition(params);
} else {
dataLabelsPos = this.calculateColumnsDataLabelsPosition(params);
}
renderedPath.attr({
cy: dataLabelsPos.bcy,
cx: dataLabelsPos.bcx,
j: j,
val: series[i][j],
barHeight: barHeight,
barWidth: barWidth
});
dataLabels = this.drawCalculatedDataLabels({
x: dataLabelsPos.dataLabelsX,
y: dataLabelsPos.dataLabelsY,
val: this.barCtx.isTimelineBar ? [y1, y2] : series[i][j],
i: realIndex,
j: j,
barWidth: barWidth,
barHeight: barHeight,
textRects: textRects,
dataLabelsConfig: dataLabelsConfig
});
return dataLabels;
}
}, {
key: "calculateColumnsDataLabelsPosition",
value: function calculateColumnsDataLabelsPosition(opts) {
var w = this.w;
var i = opts.i,
j = opts.j,
y = opts.y,
bcx = opts.bcx,
barWidth = opts.barWidth,
barHeight = opts.barHeight,
textRects = opts.textRects,
dataLabelsY = opts.dataLabelsY,
barDataLabelsConfig = opts.barDataLabelsConfig,
strokeWidth = opts.strokeWidth,
offX = opts.offX,
offY = opts.offY;
var dataLabelsX;
barHeight = Math.abs(barHeight);
var vertical = w.config.plotOptions.bar.dataLabels.orientation === 'vertical';
bcx = bcx - strokeWidth / 2;
var dataPointsDividedWidth = w.globals.gridWidth / w.globals.dataPoints;
if (w.globals.isXNumeric) {
dataLabelsX = bcx - barWidth / 2 + offX;
} else {
dataLabelsX = bcx - dataPointsDividedWidth + barWidth / 2 + offX;
}
if (vertical) {
var offsetDLX = 2;
dataLabelsX = dataLabelsX + textRects.height / 2 - strokeWidth / 2 - offsetDLX;
}
var valIsNegative = this.barCtx.series[i][j] < 0;
var newY = y;
if (this.barCtx.isReversed) {
newY = y - barHeight + (valIsNegative ? barHeight * 2 : 0);
y = y - barHeight;
}
switch (barDataLabelsConfig.position) {
case 'center':
if (vertical) {
if (valIsNegative) {
dataLabelsY = newY + barHeight / 2 + offY;
} else {
dataLabelsY = newY + barHeight / 2 - offY;
}
} else {
if (valIsNegative) {
dataLabelsY = newY - barHeight / 2 + textRects.height / 2 + offY;
} else {
dataLabelsY = newY + barHeight / 2 + textRects.height / 2 - offY;
}
}
break;
case 'bottom':
if (vertical) {
if (valIsNegative) {
dataLabelsY = newY + barHeight + offY;
} else {
dataLabelsY = newY + barHeight - offY;
}
} else {
if (valIsNegative) {
dataLabelsY = newY - barHeight + textRects.height + strokeWidth + offY;
} else {
dataLabelsY = newY + barHeight - textRects.height / 2 + strokeWidth - offY;
}
}
break;
case 'top':
if (vertical) {
if (valIsNegative) {
dataLabelsY = newY + offY;
} else {
dataLabelsY = newY - offY;
}
} else {
if (valIsNegative) {
dataLabelsY = newY - textRects.height / 2 - offY;
} else {
dataLabelsY = newY + textRects.height + offY;
}
}
break;
}
if (!w.config.chart.stacked) {
if (dataLabelsY < 0) {
dataLabelsY = 0 + strokeWidth;
} else if (dataLabelsY + textRects.height / 3 > w.globals.gridHeight) {
dataLabelsY = w.globals.gridHeight - strokeWidth;
}
}
return {
bcx: bcx,
bcy: y,
dataLabelsX: dataLabelsX,
dataLabelsY: dataLabelsY
};
}
}, {
key: "calculateBarsDataLabelsPosition",
value: function calculateBarsDataLabelsPosition(opts) {
var w = this.w;
var x = opts.x,
i = opts.i,
j = opts.j,
bcy = opts.bcy,
barHeight = opts.barHeight,
barWidth = opts.barWidth,
textRects = opts.textRects,
dataLabelsX = opts.dataLabelsX,
strokeWidth = opts.strokeWidth,
barDataLabelsConfig = opts.barDataLabelsConfig,
offX = opts.offX,
offY = opts.offY;
var dataPointsDividedHeight = w.globals.gridHeight / w.globals.dataPoints;
barWidth = Math.abs(barWidth);
var dataLabelsY = bcy - (this.barCtx.isTimelineBar ? 0 : dataPointsDividedHeight) + barHeight / 2 + textRects.height / 2 + offY - 3;
var valIsNegative = this.barCtx.series[i][j] < 0;
var newX = x;
if (this.barCtx.isReversed) {
newX = x + barWidth - (valIsNegative ? barWidth * 2 : 0);
x = w.globals.gridWidth - barWidth;
}
switch (barDataLabelsConfig.position) {
case 'center':
if (valIsNegative) {
dataLabelsX = newX + barWidth / 2 - offX;
} else {
dataLabelsX = Math.max(textRects.width / 2, newX - barWidth / 2) + offX;
}
break;
case 'bottom':
if (valIsNegative) {
dataLabelsX = newX + barWidth - strokeWidth - Math.round(textRects.width / 2) - offX;
} else {
dataLabelsX = newX - barWidth + strokeWidth + Math.round(textRects.width / 2) + offX;
}
break;
case 'top':
if (valIsNegative) {
dataLabelsX = newX - strokeWidth + Math.round(textRects.width / 2) - offX;
} else {
dataLabelsX = newX - strokeWidth - Math.round(textRects.width / 2) + offX;
}
break;
}
if (!w.config.chart.stacked) {
if (dataLabelsX < 0) {
dataLabelsX = dataLabelsX + textRects.width + strokeWidth;
} else if (dataLabelsX + textRects.width / 2 > w.globals.gridWidth) {
dataLabelsX = w.globals.gridWidth - textRects.width - strokeWidth;
}
}
return {
bcx: x,
bcy: bcy,
dataLabelsX: dataLabelsX,
dataLabelsY: dataLabelsY
};
}
}, {
key: "drawCalculatedDataLabels",
value: function drawCalculatedDataLabels(_ref) {
var x = _ref.x,
y = _ref.y,
val = _ref.val,
i = _ref.i,
j = _ref.j,
textRects = _ref.textRects,
barHeight = _ref.barHeight,
barWidth = _ref.barWidth,
dataLabelsConfig = _ref.dataLabelsConfig;
var w = this.w;
var rotate = 'rotate(0)';
if (w.config.plotOptions.bar.dataLabels.orientation === 'vertical') rotate = "rotate(-90, ".concat(x, ", ").concat(y, ")");
var dataLabels = new DataLabels(this.barCtx.ctx);
var graphics = new Graphics(this.barCtx.ctx);
var formatter = dataLabelsConfig.formatter;
var elDataLabelsWrap = null;
var isSeriesNotCollapsed = w.globals.collapsedSeriesIndices.indexOf(i) > -1;
if (dataLabelsConfig.enabled && !isSeriesNotCollapsed) {
elDataLabelsWrap = graphics.group({
class: 'apexcharts-data-labels',
transform: rotate
});
var text = '';
if (typeof val !== 'undefined') {
text = formatter(val, {
seriesIndex: i,
dataPointIndex: j,
w: w
});
}
var valIsNegative = w.globals.series[i][j] < 0;
var position = w.config.plotOptions.bar.dataLabels.position;
if (w.config.plotOptions.bar.dataLabels.orientation === 'vertical') {
if (position === 'top') {
if (valIsNegative) dataLabelsConfig.textAnchor = 'end';else dataLabelsConfig.textAnchor = 'start';
}
if (position === 'center') {
dataLabelsConfig.textAnchor = 'middle';
}
if (position === 'bottom') {
if (valIsNegative) dataLabelsConfig.textAnchor = 'end';else dataLabelsConfig.textAnchor = 'start';
}
}
if (this.barCtx.isTimelineBar && this.barCtx.barOptions.dataLabels.hideOverflowingLabels) {
// hide the datalabel if it cannot fit into the rect
var txRect = graphics.getTextRects(text, parseFloat(dataLabelsConfig.style.fontSize));
if (barWidth < txRect.width) {
text = '';
}
}
if (w.config.chart.stacked && this.barCtx.barOptions.dataLabels.hideOverflowingLabels) {
// if there is not enough space to draw the label in the bar/column rect, check hideOverflowingLabels property to prevent overflowing on wrong rect
// Note: This issue is only seen in stacked charts
if (this.barCtx.isHorizontal) {
// FIXED: Don't always hide the stacked negative side label
// A negative value will result in a negative bar width
// Only hide the text when the width is smaller (a higher negative number) than the negative bar width.
if (barWidth > 0 && textRects.width / 1.6 > barWidth || barWidth < 0 && textRects.width / 1.6 < barWidth) {
text = '';
}
} else {
if (textRects.height / 1.6 > barHeight) {
text = '';
}
}
}
var modifiedDataLabelsConfig = _objectSpread2({}, dataLabelsConfig);
if (this.barCtx.isHorizontal) {
if (val < 0) {
if (dataLabelsConfig.textAnchor === 'start') {
modifiedDataLabelsConfig.textAnchor = 'end';
} else if (dataLabelsConfig.textAnchor === 'end') {
modifiedDataLabelsConfig.textAnchor = 'start';
}
}
}
dataLabels.plotDataLabelsText({
x: x,
y: y,
text: text,
i: i,
j: j,
parent: elDataLabelsWrap,
dataLabelsConfig: modifiedDataLabelsConfig,
alwaysDrawDataLabel: true,
offsetCorrection: true
});
}
return elDataLabelsWrap;
}
}]);
return BarDataLabels;
}();
/**
* ApexCharts Series Class for interaction with the Series of the chart.
*
* @module Series
**/
var Series = /*#__PURE__*/function () {
function Series(ctx) {
_classCallCheck(this, Series);
this.ctx = ctx;
this.w = ctx.w;
this.legendInactiveClass = 'legend-mouseover-inactive';
}
_createClass(Series, [{
key: "getAllSeriesEls",
value: function getAllSeriesEls() {
return this.w.globals.dom.baseEl.getElementsByClassName("apexcharts-series");
}
}, {
key: "getSeriesByName",
value: function getSeriesByName(seriesName) {
return this.w.globals.dom.baseEl.querySelector(".apexcharts-inner .apexcharts-series[seriesName='".concat(Utils.escapeString(seriesName), "']"));
}
}, {
key: "isSeriesHidden",
value: function isSeriesHidden(seriesName) {
var targetElement = this.getSeriesByName(seriesName);
var realIndex = parseInt(targetElement.getAttribute('data:realIndex'), 10);
var isHidden = targetElement.classList.contains('apexcharts-series-collapsed');
return {
isHidden: isHidden,
realIndex: realIndex
};
}
}, {
key: "addCollapsedClassToSeries",
value: function addCollapsedClassToSeries(elSeries, index) {
var w = this.w;
function iterateOnAllCollapsedSeries(series) {
for (var cs = 0; cs < series.length; cs++) {
if (series[cs].index === index) {
elSeries.node.classList.add('apexcharts-series-collapsed');
}
}
}
iterateOnAllCollapsedSeries(w.globals.collapsedSeries);
iterateOnAllCollapsedSeries(w.globals.ancillaryCollapsedSeries);
}
}, {
key: "toggleSeries",
value: function toggleSeries(seriesName) {
var isSeriesHidden = this.isSeriesHidden(seriesName);
this.ctx.legend.legendHelpers.toggleDataSeries(isSeriesHidden.realIndex, isSeriesHidden.isHidden);
return isSeriesHidden.isHidden;
}
}, {
key: "showSeries",
value: function showSeries(seriesName) {
var isSeriesHidden = this.isSeriesHidden(seriesName);
if (isSeriesHidden.isHidden) {
this.ctx.legend.legendHelpers.toggleDataSeries(isSeriesHidden.realIndex, true);
}
}
}, {
key: "hideSeries",
value: function hideSeries(seriesName) {
var isSeriesHidden = this.isSeriesHidden(seriesName);
if (!isSeriesHidden.isHidden) {
this.ctx.legend.legendHelpers.toggleDataSeries(isSeriesHidden.realIndex, false);
}
}
}, {
key: "resetSeries",
value: function resetSeries() {
var shouldUpdateChart = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : true;
var shouldResetZoom = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : true;
var shouldResetCollapsed = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : true;
var w = this.w;
var series = Utils.clone(w.globals.initialSeries);
w.globals.previousPaths = [];
if (shouldResetCollapsed) {
w.globals.collapsedSeries = [];
w.globals.ancillaryCollapsedSeries = [];
w.globals.collapsedSeriesIndices = [];
w.globals.ancillaryCollapsedSeriesIndices = [];
} else {
series = this.emptyCollapsedSeries(series);
}
w.config.series = series;
if (shouldUpdateChart) {
if (shouldResetZoom) {
w.globals.zoomed = false;
this.ctx.updateHelpers.revertDefaultAxisMinMax();
}
this.ctx.updateHelpers._updateSeries(series, w.config.chart.animations.dynamicAnimation.enabled);
}
}
}, {
key: "emptyCollapsedSeries",
value: function emptyCollapsedSeries(series) {
var w = this.w;
for (var i = 0; i < series.length; i++) {
if (w.globals.collapsedSeriesIndices.indexOf(i) > -1) {
series[i].data = [];
}
}
return series;
}
}, {
key: "toggleSeriesOnHover",
value: function toggleSeriesOnHover(e, targetElement) {
var w = this.w;
var allSeriesEls = w.globals.dom.baseEl.querySelectorAll(".apexcharts-series, .apexcharts-datalabels");
if (e.type === 'mousemove') {
var seriesCnt = parseInt(targetElement.getAttribute('rel'), 10) - 1;
var seriesEl = null;
var dataLabelEl = null;
if (w.globals.axisCharts || w.config.chart.type === 'radialBar') {
if (w.globals.axisCharts) {
seriesEl = w.globals.dom.baseEl.querySelector(".apexcharts-series[data\\:realIndex='".concat(seriesCnt, "']"));
dataLabelEl = w.globals.dom.baseEl.querySelector(".apexcharts-datalabels[data\\:realIndex='".concat(seriesCnt, "']"));
} else {
seriesEl = w.globals.dom.baseEl.querySelector(".apexcharts-series[rel='".concat(seriesCnt + 1, "']"));
}
} else {
seriesEl = w.globals.dom.baseEl.querySelector(".apexcharts-series[rel='".concat(seriesCnt + 1, "'] path"));
}
for (var se = 0; se < allSeriesEls.length; se++) {
allSeriesEls[se].classList.add(this.legendInactiveClass);
}
if (seriesEl !== null) {
if (!w.globals.axisCharts) {
seriesEl.parentNode.classList.remove(this.legendInactiveClass);
}
seriesEl.classList.remove(this.legendInactiveClass);
if (dataLabelEl !== null) {
dataLabelEl.classList.remove(this.legendInactiveClass);
}
}
} else if (e.type === 'mouseout') {
for (var _se = 0; _se < allSeriesEls.length; _se++) {
allSeriesEls[_se].classList.remove(this.legendInactiveClass);
}
}
}
}, {
key: "highlightRangeInSeries",
value: function highlightRangeInSeries(e, targetElement) {
var _this = this;
var w = this.w;
var allHeatMapElements = w.globals.dom.baseEl.getElementsByClassName('apexcharts-heatmap-rect');
var activeInactive = function activeInactive(action) {
for (var i = 0; i < allHeatMapElements.length; i++) {
allHeatMapElements[i].classList[action](_this.legendInactiveClass);
}
};
var removeInactiveClassFromHoveredRange = function removeInactiveClassFromHoveredRange(range) {
for (var i = 0; i < allHeatMapElements.length; i++) {
var val = parseInt(allHeatMapElements[i].getAttribute('val'), 10);
if (val >= range.from && val <= range.to) {
allHeatMapElements[i].classList.remove(_this.legendInactiveClass);
}
}
};
if (e.type === 'mousemove') {
var seriesCnt = parseInt(targetElement.getAttribute('rel'), 10) - 1;
activeInactive('add');
var range = w.config.plotOptions.heatmap.colorScale.ranges[seriesCnt];
removeInactiveClassFromHoveredRange(range);
} else if (e.type === 'mouseout') {
activeInactive('remove');
}
}
}, {
key: "getActiveConfigSeriesIndex",
value: function getActiveConfigSeriesIndex() {
var ignoreBars = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : false;
var order = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'asc';
var w = this.w;
var activeIndex = 0;
if (w.config.series.length > 1) {
// active series flag is required to know if user has not deactivated via legend click
var activeSeriesIndex = w.config.series.map(function (s, index) {
var hasBars = false;
if (ignoreBars) {
hasBars = w.config.series[index].type === 'bar' || w.config.series[index].type === 'column';
}
return s.data && s.data.length > 0 && !hasBars ? index : -1;
});
for (var a = order === 'asc' ? 0 : activeSeriesIndex.length - 1; order === 'asc' ? a < activeSeriesIndex.length : a >= 0; order === 'asc' ? a++ : a--) {
if (activeSeriesIndex[a] !== -1) {
activeIndex = activeSeriesIndex[a];
break;
}
}
}
return activeIndex;
}
}, {
key: "getPreviousPaths",
value: function getPreviousPaths() {
var w = this.w;
w.globals.previousPaths = [];
function pushPaths(seriesEls, i, type) {
var paths = seriesEls[i].childNodes;
var dArr = {
type: type,
paths: [],
realIndex: seriesEls[i].getAttribute('data:realIndex')
};
for (var j = 0; j < paths.length; j++) {
if (paths[j].hasAttribute('pathTo')) {
var d = paths[j].getAttribute('pathTo');
dArr.paths.push({
d: d
});
}
}
w.globals.previousPaths.push(dArr);
}
var getPaths = function getPaths(chartType) {
return w.globals.dom.baseEl.querySelectorAll(".apexcharts-".concat(chartType, "-series .apexcharts-series"));
};
var chartTypes = ['line', 'area', 'bar', 'rangebar', 'candlestick', 'radar'];
chartTypes.forEach(function (type) {
var paths = getPaths(type);
for (var p = 0; p < paths.length; p++) {
pushPaths(paths, p, type);
}
});
this.handlePrevBubbleScatterPaths('bubble');
this.handlePrevBubbleScatterPaths('scatter');
var heatTreeSeries = w.globals.dom.baseEl.querySelectorAll(".apexcharts-".concat(w.config.chart.type, " .apexcharts-series"));
if (heatTreeSeries.length > 0) {
var _loop = function _loop(h) {
var seriesEls = w.globals.dom.baseEl.querySelectorAll(".apexcharts-".concat(w.config.chart.type, " .apexcharts-series[data\\:realIndex='").concat(h, "'] rect"));
var dArr = [];
var _loop2 = function _loop2(i) {
var getAttr = function getAttr(x) {
return seriesEls[i].getAttribute(x);
};
var rect = {
x: parseFloat(getAttr('x')),
y: parseFloat(getAttr('y')),
width: parseFloat(getAttr('width')),
height: parseFloat(getAttr('height'))
};
dArr.push({
rect: rect,
color: seriesEls[i].getAttribute('color')
});
};
for (var i = 0; i < seriesEls.length; i++) {
_loop2(i);
}
w.globals.previousPaths.push(dArr);
};
for (var h = 0; h < heatTreeSeries.length; h++) {
_loop(h);
}
}
if (!w.globals.axisCharts) {
// for non-axis charts (i.e., circular charts, pathFrom is not usable. We need whole series)
w.globals.previousPaths = w.globals.series;
}
}
}, {
key: "handlePrevBubbleScatterPaths",
value: function handlePrevBubbleScatterPaths(type) {
var w = this.w;
var paths = w.globals.dom.baseEl.querySelectorAll(".apexcharts-".concat(type, "-series .apexcharts-series"));
if (paths.length > 0) {
for (var s = 0; s < paths.length; s++) {
var seriesEls = w.globals.dom.baseEl.querySelectorAll(".apexcharts-".concat(type, "-series .apexcharts-series[data\\:realIndex='").concat(s, "'] circle"));
var dArr = [];
for (var i = 0; i < seriesEls.length; i++) {
dArr.push({
x: seriesEls[i].getAttribute('cx'),
y: seriesEls[i].getAttribute('cy'),
r: seriesEls[i].getAttribute('r')
});
}
w.globals.previousPaths.push(dArr);
}
}
}
}, {
key: "clearPreviousPaths",
value: function clearPreviousPaths() {
var w = this.w;
w.globals.previousPaths = [];
w.globals.allSeriesCollapsed = false;
}
}, {
key: "handleNoData",
value: function handleNoData() {
var w = this.w;
var me = this;
var noDataOpts = w.config.noData;
var graphics = new Graphics(me.ctx);
var x = w.globals.svgWidth / 2;
var y = w.globals.svgHeight / 2;
var textAnchor = 'middle';
w.globals.noData = true;
w.globals.animationEnded = true;
if (noDataOpts.align === 'left') {
x = 10;
textAnchor = 'start';
} else if (noDataOpts.align === 'right') {
x = w.globals.svgWidth - 10;
textAnchor = 'end';
}
if (noDataOpts.verticalAlign === 'top') {
y = 50;
} else if (noDataOpts.verticalAlign === 'bottom') {
y = w.globals.svgHeight - 50;
}
x = x + noDataOpts.offsetX;
y = y + parseInt(noDataOpts.style.fontSize, 10) + 2 + noDataOpts.offsetY;
if (noDataOpts.text !== undefined && noDataOpts.text !== '') {
var titleText = graphics.drawText({
x: x,
y: y,
text: noDataOpts.text,
textAnchor: textAnchor,
fontSize: noDataOpts.style.fontSize,
fontFamily: noDataOpts.style.fontFamily,
foreColor: noDataOpts.style.color,
opacity: 1,
class: 'apexcharts-text-nodata'
});
w.globals.dom.Paper.add(titleText);
}
} // When user clicks on legends, the collapsed series is filled with [0,0,0,...,0]
// This is because we don't want to alter the series' length as it is used at many places
}, {
key: "setNullSeriesToZeroValues",
value: function setNullSeriesToZeroValues(series) {
var w = this.w;
for (var sl = 0; sl < series.length; sl++) {
if (series[sl].length === 0) {
for (var j = 0; j < series[w.globals.maxValsInArrayIndex].length; j++) {
series[sl].push(0);
}
}
}
return series;
}
}, {
key: "hasAllSeriesEqualX",
value: function hasAllSeriesEqualX() {
var equalLen = true;
var w = this.w;
var filteredSerX = this.filteredSeriesX();
for (var i = 0; i < filteredSerX.length - 1; i++) {
if (filteredSerX[i][0] !== filteredSerX[i + 1][0]) {
equalLen = false;
break;
}
}
w.globals.allSeriesHasEqualX = equalLen;
return equalLen;
}
}, {
key: "filteredSeriesX",
value: function filteredSeriesX() {
var w = this.w;
var filteredSeriesX = w.globals.seriesX.map(function (ser) {
return ser.length > 0 ? ser : [];
});
return filteredSeriesX;
}
}]);
return Series;
}();
var Helpers$1 = /*#__PURE__*/function () {
function Helpers(barCtx) {
_classCallCheck(this, Helpers);
this.w = barCtx.w;
this.barCtx = barCtx;
}
_createClass(Helpers, [{
key: "initVariables",
value: function initVariables(series) {
var w = this.w;
this.barCtx.series = series;
this.barCtx.totalItems = 0;
this.barCtx.seriesLen = 0;
this.barCtx.visibleI = -1; // visible Series
this.barCtx.visibleItems = 1; // number of visible bars after user zoomed in/out
for (var sl = 0; sl < series.length; sl++) {
if (series[sl].length > 0) {
this.barCtx.seriesLen = this.barCtx.seriesLen + 1;
this.barCtx.totalItems += series[sl].length;
}
if (w.globals.isXNumeric) {
// get max visible items
for (var j = 0; j < series[sl].length; j++) {
if (w.globals.seriesX[sl][j] > w.globals.minX && w.globals.seriesX[sl][j] < w.globals.maxX) {
this.barCtx.visibleItems++;
}
}
} else {
this.barCtx.visibleItems = w.globals.dataPoints;
}
}
if (this.barCtx.seriesLen === 0) {
// A small adjustment when combo charts are used
this.barCtx.seriesLen = 1;
}
this.barCtx.zeroSerieses = [];
this.barCtx.radiusOnSeriesNumber = series.length - 1; // which series to draw ending shape on
if (!w.globals.comboCharts) {
this.checkZeroSeries({
series: series
});
}
}
}, {
key: "initialPositions",
value: function initialPositions() {
var w = this.w;
var x, y, yDivision, xDivision, barHeight, barWidth, zeroH, zeroW;
var dataPoints = w.globals.dataPoints;
if (this.barCtx.isTimelineBar) {
// timeline rangebar chart
dataPoints = w.globals.labels.length;
}
var seriesLen = this.barCtx.seriesLen;
if (w.config.plotOptions.bar.rangeBarGroupRows) {
seriesLen = 1;
}
if (this.barCtx.isHorizontal) {
// height divided into equal parts
yDivision = w.globals.gridHeight / dataPoints;
barHeight = yDivision / seriesLen;
if (w.globals.isXNumeric) {
yDivision = w.globals.gridHeight / this.barCtx.totalItems;
barHeight = yDivision / this.barCtx.seriesLen;
}
barHeight = barHeight * parseInt(this.barCtx.barOptions.barHeight, 10) / 100;
zeroW = this.barCtx.baseLineInvertedY + w.globals.padHorizontal + (this.barCtx.isReversed ? w.globals.gridWidth : 0) - (this.barCtx.isReversed ? this.barCtx.baseLineInvertedY * 2 : 0);
y = (yDivision - barHeight * this.barCtx.seriesLen) / 2;
} else {
// width divided into equal parts
xDivision = w.globals.gridWidth / this.barCtx.visibleItems;
if (w.config.xaxis.convertedCatToNumeric) {
xDivision = w.globals.gridWidth / w.globals.dataPoints;
}
barWidth = xDivision / this.barCtx.seriesLen * parseInt(this.barCtx.barOptions.columnWidth, 10) / 100;
if (w.globals.isXNumeric) {
// max barwidth should be equal to minXDiff to avoid overlap
var xRatio = this.barCtx.xRatio;
if (w.config.xaxis.convertedCatToNumeric) {
xRatio = this.barCtx.initialXRatio;
}
if (w.globals.minXDiff && w.globals.minXDiff !== 0.5 && w.globals.minXDiff / xRatio > 0) {
xDivision = w.globals.minXDiff / xRatio;
}
barWidth = xDivision / this.barCtx.seriesLen * parseInt(this.barCtx.barOptions.columnWidth, 10) / 100;
if (barWidth < 1) {
barWidth = 1;
}
}
zeroH = w.globals.gridHeight - this.barCtx.baseLineY[this.barCtx.yaxisIndex] - (this.barCtx.isReversed ? w.globals.gridHeight : 0) + (this.barCtx.isReversed ? this.barCtx.baseLineY[this.barCtx.yaxisIndex] * 2 : 0);
x = w.globals.padHorizontal + (xDivision - barWidth * this.barCtx.seriesLen) / 2;
}
return {
x: x,
y: y,
yDivision: yDivision,
xDivision: xDivision,
barHeight: barHeight,
barWidth: barWidth,
zeroH: zeroH,
zeroW: zeroW
};
}
}, {
key: "getPathFillColor",
value: function getPathFillColor(series, i, j, realIndex) {
var w = this.w;
var fill = new Fill(this.barCtx.ctx);
var fillColor = null;
var seriesNumber = this.barCtx.barOptions.distributed ? j : i;
if (this.barCtx.barOptions.colors.ranges.length > 0) {
var colorRange = this.barCtx.barOptions.colors.ranges;
colorRange.map(function (range) {
if (series[i][j] >= range.from && series[i][j] <= range.to) {
fillColor = range.color;
}
});
}
if (w.config.series[i].data[j] && w.config.series[i].data[j].fillColor) {
fillColor = w.config.series[i].data[j].fillColor;
}
var pathFill = fill.fillPath({
seriesNumber: this.barCtx.barOptions.distributed ? seriesNumber : realIndex,
dataPointIndex: j,
color: fillColor,
value: series[i][j]
});
return pathFill;
}
}, {
key: "getStrokeWidth",
value: function getStrokeWidth(i, j, realIndex) {
var strokeWidth = 0;
var w = this.w;
if (typeof this.barCtx.series[i][j] === 'undefined' || this.barCtx.series[i][j] === null) {
this.barCtx.isNullValue = true;
} else {
this.barCtx.isNullValue = false;
}
if (w.config.stroke.show) {
if (!this.barCtx.isNullValue) {
strokeWidth = Array.isArray(this.barCtx.strokeWidth) ? this.barCtx.strokeWidth[realIndex] : this.barCtx.strokeWidth;
}
}
return strokeWidth;
}
}, {
key: "barBackground",
value: function barBackground(_ref) {
var j = _ref.j,
i = _ref.i,
x1 = _ref.x1,
x2 = _ref.x2,
y1 = _ref.y1,
y2 = _ref.y2,
elSeries = _ref.elSeries;
var w = this.w;
var graphics = new Graphics(this.barCtx.ctx);
var sr = new Series(this.barCtx.ctx);
var activeSeriesIndex = sr.getActiveConfigSeriesIndex();
if (this.barCtx.barOptions.colors.backgroundBarColors.length > 0 && activeSeriesIndex === i) {
if (j >= this.barCtx.barOptions.colors.backgroundBarColors.length) {
j -= this.barCtx.barOptions.colors.backgroundBarColors.length;
}
var bcolor = this.barCtx.barOptions.colors.backgroundBarColors[j];
var rect = graphics.drawRect(typeof x1 !== 'undefined' ? x1 : 0, typeof y1 !== 'undefined' ? y1 : 0, typeof x2 !== 'undefined' ? x2 : w.globals.gridWidth, typeof y2 !== 'undefined' ? y2 : w.globals.gridHeight, this.barCtx.barOptions.colors.backgroundBarRadius, bcolor, this.barCtx.barOptions.colors.backgroundBarOpacity);
elSeries.add(rect);
rect.node.classList.add('apexcharts-backgroundBar');
}
}
}, {
key: "getColumnPaths",
value: function getColumnPaths(_ref2) {
var barWidth = _ref2.barWidth,
barXPosition = _ref2.barXPosition,
yRatio = _ref2.yRatio,
y1 = _ref2.y1,
y2 = _ref2.y2,
strokeWidth = _ref2.strokeWidth,
series = _ref2.series,
realIndex = _ref2.realIndex,
i = _ref2.i,
j = _ref2.j,
w = _ref2.w;
var graphics = new Graphics(this.barCtx.ctx);
strokeWidth = Array.isArray(strokeWidth) ? strokeWidth[realIndex] : strokeWidth;
if (!strokeWidth) strokeWidth = 0;
var shapeOpts = {
barWidth: barWidth,
strokeWidth: strokeWidth,
yRatio: yRatio,
barXPosition: barXPosition,
y1: y1,
y2: y2
};
var newPath = this.getRoundedBars(w, shapeOpts, series, i, j);
var x1 = barXPosition;
var x2 = barXPosition + barWidth;
var pathTo = graphics.move(x1, y1);
var pathFrom = graphics.move(x1, y1);
var sl = graphics.line(x2 - strokeWidth, y1);
if (w.globals.previousPaths.length > 0) {
pathFrom = this.barCtx.getPreviousPath(realIndex, j, false);
}
pathTo = pathTo + graphics.line(x1, newPath.y2) + newPath.pathWithRadius + graphics.line(x2 - strokeWidth, newPath.y2) + sl + sl + 'z'; // the lines in pathFrom are repeated to equal it to the points of pathTo
// this is to avoid weird animation (bug in svg.js)
pathFrom = pathFrom + graphics.line(x1, y1) + sl + sl + sl + sl + sl + graphics.line(x1, y1);
if (w.config.chart.stacked) {
this.barCtx.yArrj.push(newPath.y2);
this.barCtx.yArrjF.push(Math.abs(y1 - newPath.y2));
this.barCtx.yArrjVal.push(this.barCtx.series[i][j]);
}
return {
pathTo: pathTo,
pathFrom: pathFrom
};
}
}, {
key: "getBarpaths",
value: function getBarpaths(_ref3) {
var barYPosition = _ref3.barYPosition,
barHeight = _ref3.barHeight,
x1 = _ref3.x1,
x2 = _ref3.x2,
strokeWidth = _ref3.strokeWidth,
series = _ref3.series,
realIndex = _ref3.realIndex,
i = _ref3.i,
j = _ref3.j,
w = _ref3.w;
var graphics = new Graphics(this.barCtx.ctx);
strokeWidth = Array.isArray(strokeWidth) ? strokeWidth[realIndex] : strokeWidth;
if (!strokeWidth) strokeWidth = 0;
var shapeOpts = {
barHeight: barHeight,
strokeWidth: strokeWidth,
barYPosition: barYPosition,
x2: x2,
x1: x1
};
var newPath = this.getRoundedBars(w, shapeOpts, series, i, j);
var pathTo = graphics.move(x1, barYPosition);
var pathFrom = graphics.move(x1, barYPosition);
if (w.globals.previousPaths.length > 0) {
pathFrom = this.barCtx.getPreviousPath(realIndex, j, false);
}
var y1 = barYPosition;
var y2 = barYPosition + barHeight;
var sl = graphics.line(x1, y2 - strokeWidth);
pathTo = pathTo + graphics.line(newPath.x2, y1) + newPath.pathWithRadius + graphics.line(newPath.x2, y2 - strokeWidth) + sl + sl + 'z';
pathFrom = pathFrom + graphics.line(x1, y1) + sl + sl + sl + sl + sl + graphics.line(x1, y1);
if (w.config.chart.stacked) {
this.barCtx.xArrj.push(newPath.x2);
this.barCtx.xArrjF.push(Math.abs(x1 - newPath.x2));
this.barCtx.xArrjVal.push(this.barCtx.series[i][j]);
}
return {
pathTo: pathTo,
pathFrom: pathFrom
};
}
/** getRoundedBars draws border radius for bars/columns
* @memberof Bar
* @param {object} w - chart context
* @param {object} opts - consists several properties like barHeight/barWidth
* @param {array} series - global primary series
* @param {int} i - current iterating series's index
* @param {int} j - series's j of i
* @return {object} pathWithRadius - ending shape path string
* newY/newX - which is calculated from existing x/y based on rounded border
**/
}, {
key: "getRoundedBars",
value: function getRoundedBars(w, opts, series, i, j) {
var graphics = new Graphics(this.barCtx.ctx);
var radius = w.config.plotOptions.bar.borderRadius;
if (w.config.chart.stacked && series.length > 1 && i !== this.barCtx.radiusOnSeriesNumber) {
radius = 0;
}
if (this.barCtx.isHorizontal) {
var pathWithRadius = '';
var x2 = opts.x2;
if (Math.abs(opts.x1 - opts.x2) < radius) {
radius = Math.abs(opts.x1 - opts.x2);
}
if (typeof series[i][j] !== 'undefined' || series[i][j] !== null) {
var inverse = this.barCtx.isReversed ? series[i][j] > 0 : series[i][j] < 0;
if (inverse) radius = radius * -1;
x2 = x2 - radius;
pathWithRadius = graphics.quadraticCurve(x2 + radius, opts.barYPosition, x2 + radius, opts.barYPosition + (!inverse ? radius : radius * -1)) + graphics.line(x2 + radius, opts.barYPosition + opts.barHeight - opts.strokeWidth - (!inverse ? radius : radius * -1)) + graphics.quadraticCurve(x2 + radius, opts.barYPosition + opts.barHeight - opts.strokeWidth, x2, opts.barYPosition + opts.barHeight - opts.strokeWidth);
}
return {
pathWithRadius: pathWithRadius,
x2: x2
};
} else {
var _pathWithRadius = '';
var y2 = opts.y2;
if (Math.abs(opts.y1 - opts.y2) < radius) {
radius = Math.abs(opts.y1 - opts.y2);
}
if (typeof series[i][j] !== 'undefined' || series[i][j] !== null) {
var _inverse = series[i][j] < 0;
if (_inverse) radius = radius * -1;
y2 = y2 + radius;
_pathWithRadius = graphics.quadraticCurve(opts.barXPosition, y2 - radius, opts.barXPosition + (!_inverse ? radius : radius * -1), y2 - radius) + graphics.line(opts.barXPosition + opts.barWidth - opts.strokeWidth - (!_inverse ? radius : radius * -1), y2 - radius) + graphics.quadraticCurve(opts.barXPosition + opts.barWidth - opts.strokeWidth, y2 - radius, opts.barXPosition + opts.barWidth - opts.strokeWidth, y2);
}
return {
pathWithRadius: _pathWithRadius,
y2: y2
};
}
}
}, {
key: "checkZeroSeries",
value: function checkZeroSeries(_ref4) {
var series = _ref4.series;
var w = this.w;
for (var zs = 0; zs < series.length; zs++) {
var total = 0;
for (var zsj = 0; zsj < series[w.globals.maxValsInArrayIndex].length; zsj++) {
total += series[zs][zsj];
}
if (total === 0) {
this.barCtx.zeroSerieses.push(zs);
}
} // After getting all zeroserieses, we need to ensure whether radiusOnSeriesNumber is not in that zeroseries array
for (var s = series.length - 1; s >= 0; s--) {
if (this.barCtx.zeroSerieses.indexOf(s) > -1 && s === this.radiusOnSeriesNumber) {
this.barCtx.radiusOnSeriesNumber -= 1;
}
}
for (var _s = series.length - 1; _s >= 0; _s--) {
if (w.globals.collapsedSeriesIndices.indexOf(this.barCtx.radiusOnSeriesNumber) > -1) {
this.barCtx.radiusOnSeriesNumber -= 1;
}
}
}
}, {
key: "getXForValue",
value: function getXForValue(value, zeroW) {
var zeroPositionForNull = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : true;
var xForVal = zeroPositionForNull ? zeroW : null;
if (typeof value !== 'undefined' && value !== null) {
xForVal = zeroW + value / this.barCtx.invertedYRatio - (this.barCtx.isReversed ? value / this.barCtx.invertedYRatio : 0) * 2;
}
return xForVal;
}
}, {
key: "getYForValue",
value: function getYForValue(value, zeroH) {
var zeroPositionForNull = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : true;
var yForVal = zeroPositionForNull ? zeroH : null;
if (typeof value !== 'undefined' && value !== null) {
yForVal = zeroH - value / this.barCtx.yRatio[this.barCtx.yaxisIndex] + (this.barCtx.isReversed ? value / this.barCtx.yRatio[this.barCtx.yaxisIndex] : 0) * 2;
}
return yForVal;
}
}, {
key: "getGoalValues",
value: function getGoalValues(type, zeroW, zeroH, i, j) {
var _this = this;
var w = this.w;
var goals = [];
if (w.globals.seriesGoals[i] && w.globals.seriesGoals[i][j] && Array.isArray(w.globals.seriesGoals[i][j])) {
w.globals.seriesGoals[i][j].forEach(function (goal) {
var _goals$push;
goals.push((_goals$push = {}, _defineProperty(_goals$push, type, type === 'x' ? _this.getXForValue(goal.value, zeroW, false) : _this.getYForValue(goal.value, zeroH, false)), _defineProperty(_goals$push, "attrs", goal), _goals$push));
});
}
return goals;
}
}, {
key: "drawGoalLine",
value: function drawGoalLine(_ref5) {
var barXPosition = _ref5.barXPosition,
barYPosition = _ref5.barYPosition,
goalX = _ref5.goalX,
goalY = _ref5.goalY,
barWidth = _ref5.barWidth,
barHeight = _ref5.barHeight;
var graphics = new Graphics(this.barCtx.ctx);
var lineGroup = graphics.group({
className: 'apexcharts-bar-goals-groups'
});
var line = null;
if (this.barCtx.isHorizontal) {
if (Array.isArray(goalX)) {
goalX.forEach(function (goal) {
line = graphics.drawLine(goal.x, barYPosition, goal.x, barYPosition + barHeight, goal.attrs.strokeColor ? goal.attrs.strokeColor : undefined, 0, goal.attrs.strokeWidth ? goal.attrs.strokeWidth : 2);
lineGroup.add(line);
});
}
} else {
if (Array.isArray(goalY)) {
goalY.forEach(function (goal) {
line = graphics.drawLine(barXPosition, goal.y, barXPosition + barWidth, goal.y, goal.attrs.strokeColor ? goal.attrs.strokeColor : undefined, 0, goal.attrs.strokeWidth ? goal.attrs.strokeWidth : 2);
lineGroup.add(line);
});
}
}
return lineGroup;
}
}]);
return Helpers;
}();
/**
* ApexCharts Bar Class responsible for drawing both Columns and Bars.
*
* @module Bar
**/
var Bar = /*#__PURE__*/function () {
function Bar(ctx, xyRatios) {
_classCallCheck(this, Bar);
this.ctx = ctx;
this.w = ctx.w;
var w = this.w;
this.barOptions = w.config.plotOptions.bar;
this.isHorizontal = this.barOptions.horizontal;
this.strokeWidth = w.config.stroke.width;
this.isNullValue = false;
this.isTimelineBar = w.config.xaxis.type === 'datetime' && w.globals.seriesRangeBarTimeline.length;
this.xyRatios = xyRatios;
if (this.xyRatios !== null) {
this.xRatio = xyRatios.xRatio;
this.initialXRatio = xyRatios.initialXRatio;
this.yRatio = xyRatios.yRatio;
this.invertedXRatio = xyRatios.invertedXRatio;
this.invertedYRatio = xyRatios.invertedYRatio;
this.baseLineY = xyRatios.baseLineY;
this.baseLineInvertedY = xyRatios.baseLineInvertedY;
}
this.yaxisIndex = 0;
this.seriesLen = 0;
this.barHelpers = new Helpers$1(this);
}
/** primary draw method which is called on bar object
* @memberof Bar
* @param {array} series - user supplied series values
* @param {int} seriesIndex - the index by which series will be drawn on the svg
* @return {node} element which is supplied to parent chart draw method for appending
**/
_createClass(Bar, [{
key: "draw",
value: function draw(series, seriesIndex) {
var w = this.w;
var graphics = new Graphics(this.ctx);
var coreUtils = new CoreUtils(this.ctx, w);
series = coreUtils.getLogSeries(series);
this.series = series;
this.yRatio = coreUtils.getLogYRatios(this.yRatio);
this.barHelpers.initVariables(series);
var ret = graphics.group({
class: 'apexcharts-bar-series apexcharts-plot-series'
});
if (w.config.dataLabels.enabled) {
if (this.totalItems > this.barOptions.dataLabels.maxItems) {
console.warn('WARNING: DataLabels are enabled but there are too many to display. This may cause performance issue when rendering.');
}
}
for (var i = 0, bc = 0; i < series.length; i++, bc++) {
var x = void 0,
y = void 0,
xDivision = void 0,
// xDivision is the GRIDWIDTH divided by number of datapoints (columns)
yDivision = void 0,
// yDivision is the GRIDHEIGHT divided by number of datapoints (bars)
zeroH = void 0,
// zeroH is the baseline where 0 meets y axis
zeroW = void 0; // zeroW is the baseline where 0 meets x axis
var yArrj = []; // hold y values of current iterating series
var xArrj = []; // hold x values of current iterating series
var realIndex = w.globals.comboCharts ? seriesIndex[i] : i; // el to which series will be drawn
var elSeries = graphics.group({
class: "apexcharts-series",
rel: i + 1,
seriesName: Utils.escapeString(w.globals.seriesNames[realIndex]),
'data:realIndex': realIndex
});
this.ctx.series.addCollapsedClassToSeries(elSeries, realIndex);
if (series[i].length > 0) {
this.visibleI = this.visibleI + 1;
}
var barHeight = 0;
var barWidth = 0;
if (this.yRatio.length > 1) {
this.yaxisIndex = realIndex;
}
this.isReversed = w.config.yaxis[this.yaxisIndex] && w.config.yaxis[this.yaxisIndex].reversed;
var initPositions = this.barHelpers.initialPositions();
y = initPositions.y;
barHeight = initPositions.barHeight;
yDivision = initPositions.yDivision;
zeroW = initPositions.zeroW;
x = initPositions.x;
barWidth = initPositions.barWidth;
xDivision = initPositions.xDivision;
zeroH = initPositions.zeroH;
if (!this.horizontal) {
xArrj.push(x + barWidth / 2);
} // eldatalabels
var elDataLabelsWrap = graphics.group({
class: 'apexcharts-datalabels',
'data:realIndex': realIndex
});
var elGoalsMarkers = graphics.group({
class: 'apexcharts-bar-goals-markers',
style: "pointer-events: none"
});
for (var j = 0; j < w.globals.dataPoints; j++) {
var strokeWidth = this.barHelpers.getStrokeWidth(i, j, realIndex);
var paths = null;
var pathsParams = {
indexes: {
i: i,
j: j,
realIndex: realIndex,
bc: bc
},
x: x,
y: y,
strokeWidth: strokeWidth,
elSeries: elSeries
};
if (this.isHorizontal) {
paths = this.drawBarPaths(_objectSpread2(_objectSpread2({}, pathsParams), {}, {
barHeight: barHeight,
zeroW: zeroW,
yDivision: yDivision
}));
barWidth = this.series[i][j] / this.invertedYRatio;
} else {
paths = this.drawColumnPaths(_objectSpread2(_objectSpread2({}, pathsParams), {}, {
xDivision: xDivision,
barWidth: barWidth,
zeroH: zeroH
}));
barHeight = this.series[i][j] / this.yRatio[this.yaxisIndex];
}
var barGoalLine = this.barHelpers.drawGoalLine({
barXPosition: paths.barXPosition,
barYPosition: paths.barYPosition,
goalX: paths.goalX,
goalY: paths.goalY,
barHeight: barHeight,
barWidth: barWidth
});
if (barGoalLine) {
elGoalsMarkers.add(barGoalLine);
}
y = paths.y;
x = paths.x; // push current X
if (j > 0) {
xArrj.push(x + barWidth / 2);
}
yArrj.push(y);
var pathFill = this.barHelpers.getPathFillColor(series, i, j, realIndex);
this.renderSeries({
realIndex: realIndex,
pathFill: pathFill,
j: j,
i: i,
pathFrom: paths.pathFrom,
pathTo: paths.pathTo,
strokeWidth: strokeWidth,
elSeries: elSeries,
x: x,
y: y,
series: series,
barHeight: barHeight,
barWidth: barWidth,
elDataLabelsWrap: elDataLabelsWrap,
elGoalsMarkers: elGoalsMarkers,
visibleSeries: this.visibleI,
type: 'bar'
});
} // push all x val arrays into main xArr
w.globals.seriesXvalues[realIndex] = xArrj;
w.globals.seriesYvalues[realIndex] = yArrj;
ret.add(elSeries);
}
return ret;
}
}, {
key: "renderSeries",
value: function renderSeries(_ref) {
var realIndex = _ref.realIndex,
pathFill = _ref.pathFill,
lineFill = _ref.lineFill,
j = _ref.j,
i = _ref.i,
pathFrom = _ref.pathFrom,
pathTo = _ref.pathTo,
strokeWidth = _ref.strokeWidth,
elSeries = _ref.elSeries,
x = _ref.x,
y = _ref.y,
y1 = _ref.y1,
y2 = _ref.y2,
series = _ref.series,
barHeight = _ref.barHeight,
barWidth = _ref.barWidth,
barYPosition = _ref.barYPosition,
elDataLabelsWrap = _ref.elDataLabelsWrap,
elGoalsMarkers = _ref.elGoalsMarkers,
visibleSeries = _ref.visibleSeries,
type = _ref.type;
var w = this.w;
var graphics = new Graphics(this.ctx);
if (!lineFill) {
/* fix apexcharts#341 */
lineFill = this.barOptions.distributed ? w.globals.stroke.colors[j] : w.globals.stroke.colors[realIndex];
}
if (w.config.series[i].data[j] && w.config.series[i].data[j].strokeColor) {
lineFill = w.config.series[i].data[j].strokeColor;
}
if (this.isNullValue) {
pathFill = 'none';
}
var delay = j / w.config.chart.animations.animateGradually.delay * (w.config.chart.animations.speed / w.globals.dataPoints) / 2.4;
var renderedPath = graphics.renderPaths({
i: i,
j: j,
realIndex: realIndex,
pathFrom: pathFrom,
pathTo: pathTo,
stroke: lineFill,
strokeWidth: strokeWidth,
strokeLineCap: w.config.stroke.lineCap,
fill: pathFill,
animationDelay: delay,
initialSpeed: w.config.chart.animations.speed,
dataChangeSpeed: w.config.chart.animations.dynamicAnimation.speed,
className: "apexcharts-".concat(type, "-area")
});
renderedPath.attr('clip-path', "url(#gridRectMask".concat(w.globals.cuid, ")"));
var forecast = w.config.forecastDataPoints;
if (forecast.count > 0) {
if (j >= w.globals.dataPoints - forecast.count) {
renderedPath.node.setAttribute('stroke-dasharray', forecast.dashArray);
renderedPath.node.setAttribute('stroke-width', forecast.strokeWidth);
renderedPath.node.setAttribute('fill-opacity', forecast.fillOpacity);
}
}
if (typeof y1 !== 'undefined' && typeof y2 !== 'undefined') {
renderedPath.attr('data-range-y1', y1);
renderedPath.attr('data-range-y2', y2);
}
var filters = new Filters(this.ctx);
filters.setSelectionFilter(renderedPath, realIndex, j);
elSeries.add(renderedPath);
var barDataLabels = new BarDataLabels(this);
var dataLabels = barDataLabels.handleBarDataLabels({
x: x,
y: y,
y1: y1,
y2: y2,
i: i,
j: j,
series: series,
realIndex: realIndex,
barHeight: barHeight,
barWidth: barWidth,
barYPosition: barYPosition,
renderedPath: renderedPath,
visibleSeries: visibleSeries
});
if (dataLabels !== null) {
elDataLabelsWrap.add(dataLabels);
}
elSeries.add(elDataLabelsWrap);
if (elGoalsMarkers) {
elSeries.add(elGoalsMarkers);
}
return elSeries;
}
}, {
key: "drawBarPaths",
value: function drawBarPaths(_ref2) {
var indexes = _ref2.indexes,
barHeight = _ref2.barHeight,
strokeWidth = _ref2.strokeWidth,
zeroW = _ref2.zeroW,
x = _ref2.x,
y = _ref2.y,
yDivision = _ref2.yDivision,
elSeries = _ref2.elSeries;
var w = this.w;
var i = indexes.i;
var j = indexes.j;
if (w.globals.isXNumeric) {
y = (w.globals.seriesX[i][j] - w.globals.minX) / this.invertedXRatio - barHeight;
}
var barYPosition = y + barHeight * this.visibleI;
x = this.barHelpers.getXForValue(this.series[i][j], zeroW);
var paths = this.barHelpers.getBarpaths({
barYPosition: barYPosition,
barHeight: barHeight,
x1: zeroW,
x2: x,
strokeWidth: strokeWidth,
series: this.series,
realIndex: indexes.realIndex,
i: i,
j: j,
w: w
});
if (!w.globals.isXNumeric) {
y = y + yDivision;
}
this.barHelpers.barBackground({
j: j,
i: i,
y1: barYPosition - barHeight * this.visibleI,
y2: barHeight * this.seriesLen,
elSeries: elSeries
});
return {
pathTo: paths.pathTo,
pathFrom: paths.pathFrom,
x: x,
y: y,
goalX: this.barHelpers.getGoalValues('x', zeroW, null, i, j),
barYPosition: barYPosition
};
}
}, {
key: "drawColumnPaths",
value: function drawColumnPaths(_ref3) {
var indexes = _ref3.indexes,
x = _ref3.x,
y = _ref3.y,
xDivision = _ref3.xDivision,
barWidth = _ref3.barWidth,
zeroH = _ref3.zeroH,
strokeWidth = _ref3.strokeWidth,
elSeries = _ref3.elSeries;
var w = this.w;
var realIndex = indexes.realIndex;
var i = indexes.i;
var j = indexes.j;
var bc = indexes.bc;
if (w.globals.isXNumeric) {
var sxI = realIndex;
if (!w.globals.seriesX[realIndex].length) {
sxI = w.globals.maxValsInArrayIndex;
}
x = (w.globals.seriesX[sxI][j] - w.globals.minX) / this.xRatio - barWidth * this.seriesLen / 2;
}
var barXPosition = x + barWidth * this.visibleI;
y = this.barHelpers.getYForValue(this.series[i][j], zeroH);
var paths = this.barHelpers.getColumnPaths({
barXPosition: barXPosition,
barWidth: barWidth,
y1: zeroH,
y2: y,
strokeWidth: strokeWidth,
series: this.series,
realIndex: indexes.realIndex,
i: i,
j: j,
w: w
});
if (!w.globals.isXNumeric) {
x = x + xDivision;
}
this.barHelpers.barBackground({
bc: bc,
j: j,
i: i,
x1: barXPosition - strokeWidth / 2 - barWidth * this.visibleI,
x2: barWidth * this.seriesLen + strokeWidth / 2,
elSeries: elSeries
});
return {
pathTo: paths.pathTo,
pathFrom: paths.pathFrom,
x: x,
y: y,
goalY: this.barHelpers.getGoalValues('y', null, zeroH, i, j),
barXPosition: barXPosition
};
}
/** getPreviousPath is a common function for bars/columns which is used to get previous paths when data changes.
* @memberof Bar
* @param {int} realIndex - current iterating i
* @param {int} j - current iterating series's j index
* @return {string} pathFrom is the string which will be appended in animations
**/
}, {
key: "getPreviousPath",
value: function getPreviousPath(realIndex, j) {
var w = this.w;
var pathFrom;
for (var pp = 0; pp < w.globals.previousPaths.length; pp++) {
var gpp = w.globals.previousPaths[pp];
if (gpp.paths && gpp.paths.length > 0 && parseInt(gpp.realIndex, 10) === parseInt(realIndex, 10)) {
if (typeof w.globals.previousPaths[pp].paths[j] !== 'undefined') {
pathFrom = w.globals.previousPaths[pp].paths[j].d;
}
}
}
return pathFrom;
}
}]);
return Bar;
}();
/**
* DateTime Class to manipulate datetime values.
*
* @module DateTime
**/
var DateTime = /*#__PURE__*/function () {
function DateTime(ctx) {
_classCallCheck(this, DateTime);
this.ctx = ctx;
this.w = ctx.w;
this.months31 = [1, 3, 5, 7, 8, 10, 12];
this.months30 = [2, 4, 6, 9, 11];
this.daysCntOfYear = [0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334];
}
_createClass(DateTime, [{
key: "isValidDate",
value: function isValidDate(date) {
return !isNaN(this.parseDate(date));
}
}, {
key: "getTimeStamp",
value: function getTimeStamp(dateStr) {
if (!Date.parse(dateStr)) {
return dateStr;
}
var utc = this.w.config.xaxis.labels.datetimeUTC;
return !utc ? new Date(dateStr).getTime() : new Date(new Date(dateStr).toISOString().substr(0, 25)).getTime();
}
}, {
key: "getDate",
value: function getDate(timestamp) {
var utc = this.w.config.xaxis.labels.datetimeUTC;
return utc ? new Date(new Date(timestamp).toUTCString()) : new Date(timestamp);
}
}, {
key: "parseDate",
value: function parseDate(dateStr) {
var parsed = Date.parse(dateStr);
if (!isNaN(parsed)) {
return this.getTimeStamp(dateStr);
}
var output = Date.parse(dateStr.replace(/-/g, '/').replace(/[a-z]+/gi, ' '));
output = this.getTimeStamp(output);
return output;
} // This fixes the difference of x-axis labels between chrome/safari
// Fixes #1726, #1544, #1485, #1255
}, {
key: "parseDateWithTimezone",
value: function parseDateWithTimezone(dateStr) {
return Date.parse(dateStr.replace(/-/g, '/').replace(/[a-z]+/gi, ' '));
} // http://stackoverflow.com/questions/14638018/current-time-formatting-with-javascript#answer-14638191
}, {
key: "formatDate",
value: function formatDate(date, format) {
var locale = this.w.globals.locale;
var utc = this.w.config.xaxis.labels.datetimeUTC;
var MMMM = ['\x00'].concat(_toConsumableArray(locale.months));
var MMM = ['\x01'].concat(_toConsumableArray(locale.shortMonths));
var dddd = ['\x02'].concat(_toConsumableArray(locale.days));
var ddd = ['\x03'].concat(_toConsumableArray(locale.shortDays));
function ii(i, len) {
var s = i + '';
len = len || 2;
while (s.length < len) {
s = '0' + s;
}
return s;
}
var y = utc ? date.getUTCFullYear() : date.getFullYear();
format = format.replace(/(^|[^\\])yyyy+/g, '$1' + y);
format = format.replace(/(^|[^\\])yy/g, '$1' + y.toString().substr(2, 2));
format = format.replace(/(^|[^\\])y/g, '$1' + y);
var M = (utc ? date.getUTCMonth() : date.getMonth()) + 1;
format = format.replace(/(^|[^\\])MMMM+/g, '$1' + MMMM[0]);
format = format.replace(/(^|[^\\])MMM/g, '$1' + MMM[0]);
format = format.replace(/(^|[^\\])MM/g, '$1' + ii(M));
format = format.replace(/(^|[^\\])M/g, '$1' + M);
var d = utc ? date.getUTCDate() : date.getDate();
format = format.replace(/(^|[^\\])dddd+/g, '$1' + dddd[0]);
format = format.replace(/(^|[^\\])ddd/g, '$1' + ddd[0]);
format = format.replace(/(^|[^\\])dd/g, '$1' + ii(d));
format = format.replace(/(^|[^\\])d/g, '$1' + d);
var H = utc ? date.getUTCHours() : date.getHours();
format = format.replace(/(^|[^\\])HH+/g, '$1' + ii(H));
format = format.replace(/(^|[^\\])H/g, '$1' + H);
var h = H > 12 ? H - 12 : H === 0 ? 12 : H;
format = format.replace(/(^|[^\\])hh+/g, '$1' + ii(h));
format = format.replace(/(^|[^\\])h/g, '$1' + h);
var m = utc ? date.getUTCMinutes() : date.getMinutes();
format = format.replace(/(^|[^\\])mm+/g, '$1' + ii(m));
format = format.replace(/(^|[^\\])m/g, '$1' + m);
var s = utc ? date.getUTCSeconds() : date.getSeconds();
format = format.replace(/(^|[^\\])ss+/g, '$1' + ii(s));
format = format.replace(/(^|[^\\])s/g, '$1' + s);
var f = utc ? date.getUTCMilliseconds() : date.getMilliseconds();
format = format.replace(/(^|[^\\])fff+/g, '$1' + ii(f, 3));
f = Math.round(f / 10);
format = format.replace(/(^|[^\\])ff/g, '$1' + ii(f));
f = Math.round(f / 10);
format = format.replace(/(^|[^\\])f/g, '$1' + f);
var T = H < 12 ? 'AM' : 'PM';
format = format.replace(/(^|[^\\])TT+/g, '$1' + T);
format = format.replace(/(^|[^\\])T/g, '$1' + T.charAt(0));
var t = T.toLowerCase();
format = format.replace(/(^|[^\\])tt+/g, '$1' + t);
format = format.replace(/(^|[^\\])t/g, '$1' + t.charAt(0));
var tz = -date.getTimezoneOffset();
var K = utc || !tz ? 'Z' : tz > 0 ? '+' : '-';
if (!utc) {
tz = Math.abs(tz);
var tzHrs = Math.floor(tz / 60);
var tzMin = tz % 60;
K += ii(tzHrs) + ':' + ii(tzMin);
}
format = format.replace(/(^|[^\\])K/g, '$1' + K);
var day = (utc ? date.getUTCDay() : date.getDay()) + 1;
format = format.replace(new RegExp(dddd[0], 'g'), dddd[day]);
format = format.replace(new RegExp(ddd[0], 'g'), ddd[day]);
format = format.replace(new RegExp(MMMM[0], 'g'), MMMM[M]);
format = format.replace(new RegExp(MMM[0], 'g'), MMM[M]);
format = format.replace(/\\(.)/g, '$1');
return format;
}
}, {
key: "getTimeUnitsfromTimestamp",
value: function getTimeUnitsfromTimestamp(minX, maxX, utc) {
var w = this.w;
if (w.config.xaxis.min !== undefined) {
minX = w.config.xaxis.min;
}
if (w.config.xaxis.max !== undefined) {
maxX = w.config.xaxis.max;
}
var tsMin = this.getDate(minX);
var tsMax = this.getDate(maxX);
var minD = this.formatDate(tsMin, 'yyyy MM dd HH mm ss fff').split(' ');
var maxD = this.formatDate(tsMax, 'yyyy MM dd HH mm ss fff').split(' ');
return {
minMillisecond: parseInt(minD[6], 10),
maxMillisecond: parseInt(maxD[6], 10),
minSecond: parseInt(minD[5], 10),
maxSecond: parseInt(maxD[5], 10),
minMinute: parseInt(minD[4], 10),
maxMinute: parseInt(maxD[4], 10),
minHour: parseInt(minD[3], 10),
maxHour: parseInt(maxD[3], 10),
minDate: parseInt(minD[2], 10),
maxDate: parseInt(maxD[2], 10),
minMonth: parseInt(minD[1], 10) - 1,
maxMonth: parseInt(maxD[1], 10) - 1,
minYear: parseInt(minD[0], 10),
maxYear: parseInt(maxD[0], 10)
};
}
}, {
key: "isLeapYear",
value: function isLeapYear(year) {
return year % 4 === 0 && year % 100 !== 0 || year % 400 === 0;
}
}, {
key: "calculcateLastDaysOfMonth",
value: function calculcateLastDaysOfMonth(month, year, subtract) {
var days = this.determineDaysOfMonths(month, year); // whatever days we get, subtract the number of days asked
return days - subtract;
}
}, {
key: "determineDaysOfYear",
value: function determineDaysOfYear(year) {
var days = 365;
if (this.isLeapYear(year)) {
days = 366;
}
return days;
}
}, {
key: "determineRemainingDaysOfYear",
value: function determineRemainingDaysOfYear(year, month, date) {
var dayOfYear = this.daysCntOfYear[month] + date;
if (month > 1 && this.isLeapYear()) dayOfYear++;
return dayOfYear;
}
}, {
key: "determineDaysOfMonths",
value: function determineDaysOfMonths(month, year) {
var days = 30;
month = Utils.monthMod(month);
switch (true) {
case this.months30.indexOf(month) > -1:
if (month === 2) {
if (this.isLeapYear(year)) {
days = 29;
} else {
days = 28;
}
}
break;
case this.months31.indexOf(month) > -1:
days = 31;
break;
default:
days = 31;
break;
}
return days;
}
}]);
return DateTime;
}();
/**
* ApexCharts RangeBar Class responsible for drawing Range/Timeline Bars.
*
* @module RangeBar
**/
var RangeBar = /*#__PURE__*/function (_Bar) {
_inherits(RangeBar, _Bar);
var _super = _createSuper(RangeBar);
function RangeBar() {
_classCallCheck(this, RangeBar);
return _super.apply(this, arguments);
}
_createClass(RangeBar, [{
key: "draw",
value: function draw(series, seriesIndex) {
var w = this.w;
var graphics = new Graphics(this.ctx);
this.rangeBarOptions = this.w.config.plotOptions.rangeBar;
this.series = series;
this.seriesRangeStart = w.globals.seriesRangeStart;
this.seriesRangeEnd = w.globals.seriesRangeEnd;
this.barHelpers.initVariables(series);
var ret = graphics.group({
class: 'apexcharts-rangebar-series apexcharts-plot-series'
});
for (var i = 0; i < series.length; i++) {
var x = void 0,
y = void 0,
xDivision = void 0,
// xDivision is the GRIDWIDTH divided by number of datapoints (columns)
yDivision = void 0,
// yDivision is the GRIDHEIGHT divided by number of datapoints (bars)
zeroH = void 0,
// zeroH is the baseline where 0 meets y axis
zeroW = void 0; // zeroW is the baseline where 0 meets x axis
var realIndex = w.globals.comboCharts ? seriesIndex[i] : i; // el to which series will be drawn
var elSeries = graphics.group({
class: "apexcharts-series",
seriesName: Utils.escapeString(w.globals.seriesNames[realIndex]),
rel: i + 1,
'data:realIndex': realIndex
});
if (series[i].length > 0) {
this.visibleI = this.visibleI + 1;
}
var barHeight = 0;
var barWidth = 0;
if (this.yRatio.length > 1) {
this.yaxisIndex = realIndex;
}
var initPositions = this.barHelpers.initialPositions();
y = initPositions.y;
zeroW = initPositions.zeroW;
x = initPositions.x;
barWidth = initPositions.barWidth;
xDivision = initPositions.xDivision;
zeroH = initPositions.zeroH; // eldatalabels
var elDataLabelsWrap = graphics.group({
class: 'apexcharts-datalabels',
'data:realIndex': realIndex
});
var elGoalsMarkers = graphics.group({
class: 'apexcharts-rangebar-goals-markers',
style: "pointer-events: none"
});
for (var j = 0; j < w.globals.dataPoints; j++) {
var strokeWidth = this.barHelpers.getStrokeWidth(i, j, realIndex);
var y1 = this.seriesRangeStart[i][j];
var y2 = this.seriesRangeEnd[i][j];
var paths = null;
var barYPosition = null;
var params = {
x: x,
y: y,
strokeWidth: strokeWidth,
elSeries: elSeries
};
yDivision = initPositions.yDivision;
barHeight = initPositions.barHeight;
if (this.isHorizontal) {
barYPosition = y + barHeight * this.visibleI;
var seriesLen = this.seriesLen;
if (w.config.plotOptions.bar.rangeBarGroupRows) {
seriesLen = 1;
}
var srty = (yDivision - barHeight * seriesLen) / 2;
if (typeof w.config.series[i].data[j] === 'undefined') {
// no data exists for further indexes, hence we need to get out the innr loop.
// As we are iterating over total datapoints, there is a possiblity the series might not have data for j index
break;
}
if (this.isTimelineBar && w.config.series[i].data[j].x) {
var positions = this.detectOverlappingBars({
i: i,
j: j,
barYPosition: barYPosition,
srty: srty,
barHeight: barHeight,
yDivision: yDivision,
initPositions: initPositions
});
barHeight = positions.barHeight;
barYPosition = positions.barYPosition;
}
paths = this.drawRangeBarPaths(_objectSpread2({
indexes: {
i: i,
j: j,
realIndex: realIndex
},
barHeight: barHeight,
barYPosition: barYPosition,
zeroW: zeroW,
yDivision: yDivision,
y1: y1,
y2: y2
}, params));
barWidth = paths.barWidth;
} else {
paths = this.drawRangeColumnPaths(_objectSpread2({
indexes: {
i: i,
j: j,
realIndex: realIndex
},
zeroH: zeroH,
barWidth: barWidth,
xDivision: xDivision
}, params));
barHeight = paths.barHeight;
}
var barGoalLine = this.barHelpers.drawGoalLine({
barXPosition: paths.barXPosition,
barYPosition: barYPosition,
goalX: paths.goalX,
goalY: paths.goalY,
barHeight: barHeight,
barWidth: barWidth
});
if (barGoalLine) {
elGoalsMarkers.add(barGoalLine);
}
y = paths.y;
x = paths.x;
var pathFill = this.barHelpers.getPathFillColor(series, i, j, realIndex);
var lineFill = w.globals.stroke.colors[realIndex];
this.renderSeries({
realIndex: realIndex,
pathFill: pathFill,
lineFill: lineFill,
j: j,
i: i,
x: x,
y: y,
y1: y1,
y2: y2,
pathFrom: paths.pathFrom,
pathTo: paths.pathTo,
strokeWidth: strokeWidth,
elSeries: elSeries,
series: series,
barHeight: barHeight,
barYPosition: barYPosition,
barWidth: barWidth,
elDataLabelsWrap: elDataLabelsWrap,
elGoalsMarkers: elGoalsMarkers,
visibleSeries: this.visibleI,
type: 'rangebar'
});
}
ret.add(elSeries);
}
return ret;
}
}, {
key: "detectOverlappingBars",
value: function detectOverlappingBars(_ref) {
var i = _ref.i,
j = _ref.j,
barYPosition = _ref.barYPosition,
srty = _ref.srty,
barHeight = _ref.barHeight,
yDivision = _ref.yDivision,
initPositions = _ref.initPositions;
var w = this.w;
var overlaps = [];
var rangeName = w.config.series[i].data[j].rangeName;
var labelX = w.config.series[i].data[j].x;
var rowIndex = w.globals.labels.indexOf(labelX);
var overlappedIndex = w.globals.seriesRangeBarTimeline[i].findIndex(function (tx) {
return tx.x === labelX && tx.overlaps.length > 0;
});
if (w.config.plotOptions.bar.rangeBarGroupRows) {
barYPosition = srty + yDivision * rowIndex;
} else {
barYPosition = srty + barHeight * this.visibleI + yDivision * rowIndex;
}
if (overlappedIndex > -1 && !w.config.plotOptions.bar.rangeBarOverlap) {
overlaps = w.globals.seriesRangeBarTimeline[i][overlappedIndex].overlaps;
if (overlaps.indexOf(rangeName) > -1) {
barHeight = initPositions.barHeight / overlaps.length;
barYPosition = barHeight * this.visibleI + yDivision * (100 - parseInt(this.barOptions.barHeight, 10)) / 100 / 2 + barHeight * (this.visibleI + overlaps.indexOf(rangeName)) + yDivision * rowIndex;
}
}
return {
barYPosition: barYPosition,
barHeight: barHeight
};
}
}, {
key: "drawRangeColumnPaths",
value: function drawRangeColumnPaths(_ref2) {
var indexes = _ref2.indexes,
x = _ref2.x,
strokeWidth = _ref2.strokeWidth,
xDivision = _ref2.xDivision,
barWidth = _ref2.barWidth,
zeroH = _ref2.zeroH;
var w = this.w;
var i = indexes.i;
var j = indexes.j;
var yRatio = this.yRatio[this.yaxisIndex];
var realIndex = indexes.realIndex;
var range = this.getRangeValue(realIndex, j);
var y1 = Math.min(range.start, range.end);
var y2 = Math.max(range.start, range.end);
if (w.globals.isXNumeric) {
x = (w.globals.seriesX[i][j] - w.globals.minX) / this.xRatio - barWidth / 2;
}
var barXPosition = x + barWidth * this.visibleI;
if (typeof this.series[i][j] === 'undefined' || this.series[i][j] === null) {
y1 = zeroH;
} else {
y1 = zeroH - y1 / yRatio;
y2 = zeroH - y2 / yRatio;
}
var barHeight = Math.abs(y2 - y1);
var paths = this.barHelpers.getColumnPaths({
barXPosition: barXPosition,
barWidth: barWidth,
y1: y1,
y2: y2,
strokeWidth: this.strokeWidth,
series: this.seriesRangeEnd,
realIndex: indexes.realIndex,
i: realIndex,
j: j,
w: w
});
if (!w.globals.isXNumeric) {
x = x + xDivision;
}
return {
pathTo: paths.pathTo,
pathFrom: paths.pathFrom,
barHeight: barHeight,
x: x,
y: y2,
goalY: this.barHelpers.getGoalValues('y', null, zeroH, i, j),
barXPosition: barXPosition
};
}
}, {
key: "drawRangeBarPaths",
value: function drawRangeBarPaths(_ref3) {
var indexes = _ref3.indexes,
y = _ref3.y,
y1 = _ref3.y1,
y2 = _ref3.y2,
yDivision = _ref3.yDivision,
barHeight = _ref3.barHeight,
barYPosition = _ref3.barYPosition,
zeroW = _ref3.zeroW;
var w = this.w;
var x1 = zeroW + y1 / this.invertedYRatio;
var x2 = zeroW + y2 / this.invertedYRatio;
var barWidth = Math.abs(x2 - x1);
var paths = this.barHelpers.getBarpaths({
barYPosition: barYPosition,
barHeight: barHeight,
x1: x1,
x2: x2,
strokeWidth: this.strokeWidth,
series: this.seriesRangeEnd,
i: indexes.realIndex,
realIndex: indexes.realIndex,
j: indexes.j,
w: w
});
if (!w.globals.isXNumeric) {
y = y + yDivision;
}
return {
pathTo: paths.pathTo,
pathFrom: paths.pathFrom,
barWidth: barWidth,
x: x2,
goalX: this.barHelpers.getGoalValues('x', zeroW, null, indexes.realIndex, indexes.j),
y: y
};
}
}, {
key: "getRangeValue",
value: function getRangeValue(i, j) {
var w = this.w;
return {
start: w.globals.seriesRangeStart[i][j],
end: w.globals.seriesRangeEnd[i][j]
};
}
}, {
key: "getTooltipValues",
value: function getTooltipValues(_ref4) {
var ctx = _ref4.ctx,
seriesIndex = _ref4.seriesIndex,
dataPointIndex = _ref4.dataPointIndex,
y1 = _ref4.y1,
y2 = _ref4.y2,
w = _ref4.w;
var start = w.globals.seriesRangeStart[seriesIndex][dataPointIndex];
var end = w.globals.seriesRangeEnd[seriesIndex][dataPointIndex];
var ylabel = w.globals.labels[dataPointIndex];
var seriesName = w.config.series[seriesIndex].name ? w.config.series[seriesIndex].name : '';
var yLbFormatter = w.config.tooltip.y.formatter;
var yLbTitleFormatter = w.config.tooltip.y.title.formatter;
var opts = {
w: w,
seriesIndex: seriesIndex,
dataPointIndex: dataPointIndex,
start: start,
end: end
};
if (typeof yLbTitleFormatter === 'function') {
seriesName = yLbTitleFormatter(seriesName, opts);
}
if (Number.isFinite(y1) && Number.isFinite(y2)) {
start = y1;
end = y2;
if (w.config.series[seriesIndex].data[dataPointIndex].x) {
ylabel = w.config.series[seriesIndex].data[dataPointIndex].x + ':';
}
if (typeof yLbFormatter === 'function') {
ylabel = yLbFormatter(ylabel, opts);
}
}
var startVal = '';
var endVal = '';
var color = w.globals.colors[seriesIndex];
if (w.config.tooltip.x.formatter === undefined) {
if (w.config.xaxis.type === 'datetime') {
var datetimeObj = new DateTime(ctx);
startVal = datetimeObj.formatDate(datetimeObj.getDate(start), w.config.tooltip.x.format);
endVal = datetimeObj.formatDate(datetimeObj.getDate(end), w.config.tooltip.x.format);
} else {
startVal = start;
endVal = end;
}
} else {
startVal = w.config.tooltip.x.formatter(start);
endVal = w.config.tooltip.x.formatter(end);
}
return {
start: start,
end: end,
startVal: startVal,
endVal: endVal,
ylabel: ylabel,
color: color,
seriesName: seriesName
};
}
}, {
key: "buildCustomTooltipHTML",
value: function buildCustomTooltipHTML(_ref5) {
var color = _ref5.color,
seriesName = _ref5.seriesName,
ylabel = _ref5.ylabel,
start = _ref5.start,
end = _ref5.end;
return '';
}
}]);
return RangeBar;
}(Bar);
/**
* ApexCharts Default Class for setting default options for all chart types.
*
* @module Defaults
**/
var Defaults = /*#__PURE__*/function () {
function Defaults(opts) {
_classCallCheck(this, Defaults);
this.opts = opts;
}
_createClass(Defaults, [{
key: "line",
value: function line() {
return {
chart: {
animations: {
easing: 'swing'
}
},
dataLabels: {
enabled: false
},
stroke: {
width: 5,
curve: 'straight'
},
markers: {
size: 0,
hover: {
sizeOffset: 6
}
},
xaxis: {
crosshairs: {
width: 1
}
}
};
}
}, {
key: "sparkline",
value: function sparkline(defaults) {
this.opts.yaxis[0].show = false;
this.opts.yaxis[0].title.text = '';
this.opts.yaxis[0].axisBorder.show = false;
this.opts.yaxis[0].axisTicks.show = false;
this.opts.yaxis[0].floating = true;
var ret = {
grid: {
show: false,
padding: {
left: 0,
right: 0,
top: 0,
bottom: 0
}
},
legend: {
show: false
},
xaxis: {
labels: {
show: false
},
tooltip: {
enabled: false
},
axisBorder: {
show: false
},
axisTicks: {
show: false
}
},
chart: {
toolbar: {
show: false
},
zoom: {
enabled: false
}
},
dataLabels: {
enabled: false
}
};
return Utils.extend(defaults, ret);
}
}, {
key: "bar",
value: function bar() {
return {
chart: {
stacked: false,
animations: {
easing: 'swing'
}
},
plotOptions: {
bar: {
dataLabels: {
position: 'center'
}
}
},
dataLabels: {
style: {
colors: ['#fff']
},
background: {
enabled: false
}
},
stroke: {
width: 0,
lineCap: 'round'
},
fill: {
opacity: 0.85
},
legend: {
markers: {
shape: 'square',
radius: 2,
size: 8
}
},
tooltip: {
shared: false,
intersect: true
},
xaxis: {
tooltip: {
enabled: false
},
tickPlacement: 'between',
crosshairs: {
width: 'barWidth',
position: 'back',
fill: {
type: 'gradient'
},
dropShadow: {
enabled: false
},
stroke: {
width: 0
}
}
}
};
}
}, {
key: "candlestick",
value: function candlestick() {
var _this = this;
return {
stroke: {
width: 1,
colors: ['#333']
},
fill: {
opacity: 1
},
dataLabels: {
enabled: false
},
tooltip: {
shared: true,
custom: function custom(_ref) {
var seriesIndex = _ref.seriesIndex,
dataPointIndex = _ref.dataPointIndex,
w = _ref.w;
return _this._getBoxTooltip(w, seriesIndex, dataPointIndex, ['Open', 'High', '', 'Low', 'Close'], 'candlestick');
}
},
states: {
active: {
filter: {
type: 'none'
}
}
},
xaxis: {
crosshairs: {
width: 1
}
}
};
}
}, {
key: "boxPlot",
value: function boxPlot() {
var _this2 = this;
return {
chart: {
animations: {
dynamicAnimation: {
enabled: false
}
}
},
stroke: {
width: 1,
colors: ['#24292e']
},
dataLabels: {
enabled: false
},
tooltip: {
shared: true,
custom: function custom(_ref2) {
var seriesIndex = _ref2.seriesIndex,
dataPointIndex = _ref2.dataPointIndex,
w = _ref2.w;
return _this2._getBoxTooltip(w, seriesIndex, dataPointIndex, ['Minimum', 'Q1', 'Median', 'Q3', 'Maximum'], 'boxPlot');
}
},
markers: {
size: 5,
strokeWidth: 1,
strokeColors: '#111'
},
xaxis: {
crosshairs: {
width: 1
}
}
};
}
}, {
key: "rangeBar",
value: function rangeBar() {
var handleTimelineTooltip = function handleTimelineTooltip(opts) {
var rangeCtx = new RangeBar(opts.ctx, null);
var _rangeCtx$getTooltipV = rangeCtx.getTooltipValues(opts),
color = _rangeCtx$getTooltipV.color,
seriesName = _rangeCtx$getTooltipV.seriesName,
ylabel = _rangeCtx$getTooltipV.ylabel,
startVal = _rangeCtx$getTooltipV.startVal,
endVal = _rangeCtx$getTooltipV.endVal;
return rangeCtx.buildCustomTooltipHTML({
color: color,
seriesName: seriesName,
ylabel: ylabel,
start: startVal,
end: endVal
});
};
var handleRangeColumnTooltip = function handleRangeColumnTooltip(opts) {
var rangeCtx = new RangeBar(opts.ctx, null);
var _rangeCtx$getTooltipV2 = rangeCtx.getTooltipValues(opts),
color = _rangeCtx$getTooltipV2.color,
seriesName = _rangeCtx$getTooltipV2.seriesName,
ylabel = _rangeCtx$getTooltipV2.ylabel,
start = _rangeCtx$getTooltipV2.start,
end = _rangeCtx$getTooltipV2.end;
return rangeCtx.buildCustomTooltipHTML({
color: color,
seriesName: seriesName,
ylabel: ylabel,
start: start,
end: end
});
};
return {
stroke: {
width: 0,
lineCap: 'square'
},
plotOptions: {
bar: {
borderRadius: 0,
dataLabels: {
position: 'center'
}
}
},
dataLabels: {
enabled: false,
formatter: function formatter(val, _ref3) {
var ctx = _ref3.ctx,
seriesIndex = _ref3.seriesIndex,
dataPointIndex = _ref3.dataPointIndex,
w = _ref3.w;
var start = w.globals.seriesRangeStart[seriesIndex][dataPointIndex];
var end = w.globals.seriesRangeEnd[seriesIndex][dataPointIndex];
return end - start;
},
background: {
enabled: false
},
style: {
colors: ['#fff']
}
},
tooltip: {
shared: false,
followCursor: true,
custom: function custom(opts) {
if (opts.w.config.plotOptions && opts.w.config.plotOptions.bar && opts.w.config.plotOptions.bar.horizontal) {
return handleTimelineTooltip(opts);
} else {
return handleRangeColumnTooltip(opts);
}
}
},
xaxis: {
tickPlacement: 'between',
tooltip: {
enabled: false
},
crosshairs: {
stroke: {
width: 0
}
}
}
};
}
}, {
key: "area",
value: function area() {
return {
stroke: {
width: 4
},
fill: {
type: 'gradient',
gradient: {
inverseColors: false,
shade: 'light',
type: 'vertical',
opacityFrom: 0.65,
opacityTo: 0.5,
stops: [0, 100, 100]
}
},
markers: {
size: 0,
hover: {
sizeOffset: 6
}
},
tooltip: {
followCursor: false
}
};
}
}, {
key: "brush",
value: function brush(defaults) {
var ret = {
chart: {
toolbar: {
autoSelected: 'selection',
show: false
},
zoom: {
enabled: false
}
},
dataLabels: {
enabled: false
},
stroke: {
width: 1
},
tooltip: {
enabled: false
},
xaxis: {
tooltip: {
enabled: false
}
}
};
return Utils.extend(defaults, ret);
}
}, {
key: "stacked100",
value: function stacked100(opts) {
opts.dataLabels = opts.dataLabels || {};
opts.dataLabels.formatter = opts.dataLabels.formatter || undefined;
var existingDataLabelFormatter = opts.dataLabels.formatter;
opts.yaxis.forEach(function (yaxe, index) {
opts.yaxis[index].min = 0;
opts.yaxis[index].max = 100;
});
var isBar = opts.chart.type === 'bar';
if (isBar) {
opts.dataLabels.formatter = existingDataLabelFormatter || function (val) {
if (typeof val === 'number') {
return val ? val.toFixed(0) + '%' : val;
}
return val;
};
}
return opts;
} // This function removes the left and right spacing in chart for line/area/scatter if xaxis type = category for those charts by converting xaxis = numeric. Numeric/Datetime xaxis prevents the unnecessary spacing in the left/right of the chart area
}, {
key: "convertCatToNumeric",
value: function convertCatToNumeric(opts) {
opts.xaxis.convertedCatToNumeric = true;
return opts;
}
}, {
key: "convertCatToNumericXaxis",
value: function convertCatToNumericXaxis(opts, ctx, cats) {
opts.xaxis.type = 'numeric';
opts.xaxis.labels = opts.xaxis.labels || {};
opts.xaxis.labels.formatter = opts.xaxis.labels.formatter || function (val) {
return Utils.isNumber(val) ? Math.floor(val) : val;
};
var defaultFormatter = opts.xaxis.labels.formatter;
var labels = opts.xaxis.categories && opts.xaxis.categories.length ? opts.xaxis.categories : opts.labels;
if (cats && cats.length) {
labels = cats.map(function (c) {
return Array.isArray(c) ? c : String(c);
});
}
if (labels && labels.length) {
opts.xaxis.labels.formatter = function (val) {
return Utils.isNumber(val) ? defaultFormatter(labels[Math.floor(val) - 1]) : defaultFormatter(val);
};
}
opts.xaxis.categories = [];
opts.labels = [];
opts.xaxis.tickAmount = opts.xaxis.tickAmount || 'dataPoints';
return opts;
}
}, {
key: "bubble",
value: function bubble() {
return {
dataLabels: {
style: {
colors: ['#fff']
}
},
tooltip: {
shared: false,
intersect: true
},
xaxis: {
crosshairs: {
width: 0
}
},
fill: {
type: 'solid',
gradient: {
shade: 'light',
inverse: true,
shadeIntensity: 0.55,
opacityFrom: 0.4,
opacityTo: 0.8
}
}
};
}
}, {
key: "scatter",
value: function scatter() {
return {
dataLabels: {
enabled: false
},
tooltip: {
shared: false,
intersect: true
},
markers: {
size: 6,
strokeWidth: 1,
hover: {
sizeOffset: 2
}
}
};
}
}, {
key: "heatmap",
value: function heatmap() {
return {
chart: {
stacked: false
},
fill: {
opacity: 1
},
dataLabels: {
style: {
colors: ['#fff']
}
},
stroke: {
colors: ['#fff']
},
tooltip: {
followCursor: true,
marker: {
show: false
},
x: {
show: false
}
},
legend: {
position: 'top',
markers: {
shape: 'square',
size: 10,
offsetY: 2
}
},
grid: {
padding: {
right: 20
}
}
};
}
}, {
key: "treemap",
value: function treemap() {
return {
chart: {
zoom: {
enabled: false
}
},
dataLabels: {
style: {
fontSize: 14,
fontWeight: 600,
colors: ['#fff']
}
},
stroke: {
show: true,
width: 2,
colors: ['#fff']
},
legend: {
show: false
},
fill: {
gradient: {
stops: [0, 100]
}
},
tooltip: {
followCursor: true,
x: {
show: false
}
},
grid: {
padding: {
left: 0,
right: 0
}
},
xaxis: {
crosshairs: {
show: false
},
tooltip: {
enabled: false
}
}
};
}
}, {
key: "pie",
value: function pie() {
return {
chart: {
toolbar: {
show: false
}
},
plotOptions: {
pie: {
donut: {
labels: {
show: false
}
}
}
},
dataLabels: {
formatter: function formatter(val) {
return val.toFixed(1) + '%';
},
style: {
colors: ['#fff']
},
background: {
enabled: false
},
dropShadow: {
enabled: true
}
},
stroke: {
colors: ['#fff']
},
fill: {
opacity: 1,
gradient: {
shade: 'light',
stops: [0, 100]
}
},
tooltip: {
theme: 'dark',
fillSeriesColor: true
},
legend: {
position: 'right'
}
};
}
}, {
key: "donut",
value: function donut() {
return {
chart: {
toolbar: {
show: false
}
},
dataLabels: {
formatter: function formatter(val) {
return val.toFixed(1) + '%';
},
style: {
colors: ['#fff']
},
background: {
enabled: false
},
dropShadow: {
enabled: true
}
},
stroke: {
colors: ['#fff']
},
fill: {
opacity: 1,
gradient: {
shade: 'light',
shadeIntensity: 0.35,
stops: [80, 100],
opacityFrom: 1,
opacityTo: 1
}
},
tooltip: {
theme: 'dark',
fillSeriesColor: true
},
legend: {
position: 'right'
}
};
}
}, {
key: "polarArea",
value: function polarArea() {
this.opts.yaxis[0].tickAmount = this.opts.yaxis[0].tickAmount ? this.opts.yaxis[0].tickAmount : 6;
return {
chart: {
toolbar: {
show: false
}
},
dataLabels: {
formatter: function formatter(val) {
return val.toFixed(1) + '%';
},
enabled: false
},
stroke: {
show: true,
width: 2
},
fill: {
opacity: 0.7
},
tooltip: {
theme: 'dark',
fillSeriesColor: true
},
legend: {
position: 'right'
}
};
}
}, {
key: "radar",
value: function radar() {
this.opts.yaxis[0].labels.offsetY = this.opts.yaxis[0].labels.offsetY ? this.opts.yaxis[0].labels.offsetY : 6;
return {
dataLabels: {
enabled: false,
style: {
fontSize: '11px'
}
},
stroke: {
width: 2
},
markers: {
size: 3,
strokeWidth: 1,
strokeOpacity: 1
},
fill: {
opacity: 0.2
},
tooltip: {
shared: false,
intersect: true,
followCursor: true
},
grid: {
show: false
},
xaxis: {
labels: {
formatter: function formatter(val) {
return val;
},
style: {
colors: ['#a8a8a8'],
fontSize: '11px'
}
},
tooltip: {
enabled: false
},
crosshairs: {
show: false
}
}
};
}
}, {
key: "radialBar",
value: function radialBar() {
return {
chart: {
animations: {
dynamicAnimation: {
enabled: true,
speed: 800
}
},
toolbar: {
show: false
}
},
fill: {
gradient: {
shade: 'dark',
shadeIntensity: 0.4,
inverseColors: false,
type: 'diagonal2',
opacityFrom: 1,
opacityTo: 1,
stops: [70, 98, 100]
}
},
legend: {
show: false,
position: 'right'
},
tooltip: {
enabled: false,
fillSeriesColor: true
}
};
}
}, {
key: "_getBoxTooltip",
value: function _getBoxTooltip(w, seriesIndex, dataPointIndex, labels, chartType) {
var o = w.globals.seriesCandleO[seriesIndex][dataPointIndex];
var h = w.globals.seriesCandleH[seriesIndex][dataPointIndex];
var m = w.globals.seriesCandleM[seriesIndex][dataPointIndex];
var l = w.globals.seriesCandleL[seriesIndex][dataPointIndex];
var c = w.globals.seriesCandleC[seriesIndex][dataPointIndex];
if (w.config.series[seriesIndex].type && w.config.series[seriesIndex].type !== chartType) {
return "\n ".concat(w.config.series[seriesIndex].name ? w.config.series[seriesIndex].name : 'series-' + (seriesIndex + 1), ": ").concat(w.globals.series[seriesIndex][dataPointIndex], "\n
");
} else {
return "';
}
}
}]);
return Defaults;
}();
/**
* ApexCharts Config Class for extending user options with pre-defined ApexCharts config.
*
* @module Config
**/
var Config = /*#__PURE__*/function () {
function Config(opts) {
_classCallCheck(this, Config);
this.opts = opts;
}
_createClass(Config, [{
key: "init",
value: function init(_ref) {
var responsiveOverride = _ref.responsiveOverride;
var opts = this.opts;
var options = new Options();
var defaults = new Defaults(opts);
this.chartType = opts.chart.type;
if (this.chartType === 'histogram') {
// technically, a histogram can be drawn by a column chart with no spaces in between
opts.chart.type = 'bar';
opts = Utils.extend({
plotOptions: {
bar: {
columnWidth: '99.99%'
}
}
}, opts);
}
opts = this.extendYAxis(opts);
opts = this.extendAnnotations(opts);
var config = options.init();
var newDefaults = {};
if (opts && _typeof(opts) === 'object') {
var chartDefaults = {};
var chartTypes = ['line', 'area', 'bar', 'candlestick', 'boxPlot', 'rangeBar', 'histogram', 'bubble', 'scatter', 'heatmap', 'treemap', 'pie', 'polarArea', 'donut', 'radar', 'radialBar'];
if (chartTypes.indexOf(opts.chart.type) !== -1) {
chartDefaults = defaults[opts.chart.type]();
} else {
chartDefaults = defaults.line();
}
if (opts.chart.brush && opts.chart.brush.enabled) {
chartDefaults = defaults.brush(chartDefaults);
}
if (opts.chart.stacked && opts.chart.stackType === '100%') {
opts = defaults.stacked100(opts);
} // If user has specified a dark theme, make the tooltip dark too
this.checkForDarkTheme(window.Apex); // check global window Apex options
this.checkForDarkTheme(opts); // check locally passed options
opts.xaxis = opts.xaxis || window.Apex.xaxis || {}; // an important boolean needs to be set here
// otherwise all the charts will have this flag set to true window.Apex.xaxis is set globally
if (!responsiveOverride) {
opts.xaxis.convertedCatToNumeric = false;
}
opts = this.checkForCatToNumericXAxis(this.chartType, chartDefaults, opts);
if (opts.chart.sparkline && opts.chart.sparkline.enabled || window.Apex.chart && window.Apex.chart.sparkline && window.Apex.chart.sparkline.enabled) {
chartDefaults = defaults.sparkline(chartDefaults);
}
newDefaults = Utils.extend(config, chartDefaults);
} // config should cascade in this fashion
// default-config < global-apex-variable-config < user-defined-config
// get GLOBALLY defined options and merge with the default config
var mergedWithDefaultConfig = Utils.extend(newDefaults, window.Apex); // get the merged config and extend with user defined config
config = Utils.extend(mergedWithDefaultConfig, opts); // some features are not supported. those mismatches should be handled
config = this.handleUserInputErrors(config);
return config;
}
}, {
key: "checkForCatToNumericXAxis",
value: function checkForCatToNumericXAxis(chartType, chartDefaults, opts) {
var defaults = new Defaults(opts);
var isBarHorizontal = chartType === 'bar' && opts.plotOptions && opts.plotOptions.bar && opts.plotOptions.bar.horizontal;
var unsupportedZoom = chartType === 'pie' || chartType === 'polarArea' || chartType === 'donut' || chartType === 'radar' || chartType === 'radialBar' || chartType === 'heatmap';
var notNumericXAxis = opts.xaxis.type !== 'datetime' && opts.xaxis.type !== 'numeric';
var tickPlacement = opts.xaxis.tickPlacement ? opts.xaxis.tickPlacement : chartDefaults.xaxis && chartDefaults.xaxis.tickPlacement;
if (!isBarHorizontal && !unsupportedZoom && notNumericXAxis && tickPlacement !== 'between') {
opts = defaults.convertCatToNumeric(opts);
}
return opts;
}
}, {
key: "extendYAxis",
value: function extendYAxis(opts, w) {
var options = new Options();
if (typeof opts.yaxis === 'undefined' || !opts.yaxis || Array.isArray(opts.yaxis) && opts.yaxis.length === 0) {
opts.yaxis = {};
} // extend global yaxis config (only if object is provided / not an array)
if (opts.yaxis.constructor !== Array && window.Apex.yaxis && window.Apex.yaxis.constructor !== Array) {
opts.yaxis = Utils.extend(opts.yaxis, window.Apex.yaxis);
} // as we can't extend nested object's array with extend, we need to do it first
// user can provide either an array or object in yaxis config
if (opts.yaxis.constructor !== Array) {
// convert the yaxis to array if user supplied object
opts.yaxis = [Utils.extend(options.yAxis, opts.yaxis)];
} else {
opts.yaxis = Utils.extendArray(opts.yaxis, options.yAxis);
}
var isLogY = false;
opts.yaxis.forEach(function (y) {
if (y.logarithmic) {
isLogY = true;
}
});
var series = opts.series;
if (w && !series) {
series = w.config.series;
} // A logarithmic chart works correctly when each series has a corresponding y-axis
// If this is not the case, we manually create yaxis for multi-series log chart
if (isLogY && series.length !== opts.yaxis.length && series.length) {
opts.yaxis = series.map(function (s, i) {
if (!s.name) {
series[i].name = "series-".concat(i + 1);
}
if (opts.yaxis[i]) {
opts.yaxis[i].seriesName = series[i].name;
return opts.yaxis[i];
} else {
var newYaxis = Utils.extend(options.yAxis, opts.yaxis[0]);
newYaxis.show = false;
return newYaxis;
}
});
}
if (isLogY && series.length > 1 && series.length !== opts.yaxis.length) {
console.warn('A multi-series logarithmic chart should have equal number of series and y-axes. Please make sure to equalize both.');
}
return opts;
} // annotations also accepts array, so we need to extend them manually
}, {
key: "extendAnnotations",
value: function extendAnnotations(opts) {
if (typeof opts.annotations === 'undefined') {
opts.annotations = {};
opts.annotations.yaxis = [];
opts.annotations.xaxis = [];
opts.annotations.points = [];
}
opts = this.extendYAxisAnnotations(opts);
opts = this.extendXAxisAnnotations(opts);
opts = this.extendPointAnnotations(opts);
return opts;
}
}, {
key: "extendYAxisAnnotations",
value: function extendYAxisAnnotations(opts) {
var options = new Options();
opts.annotations.yaxis = Utils.extendArray(typeof opts.annotations.yaxis !== 'undefined' ? opts.annotations.yaxis : [], options.yAxisAnnotation);
return opts;
}
}, {
key: "extendXAxisAnnotations",
value: function extendXAxisAnnotations(opts) {
var options = new Options();
opts.annotations.xaxis = Utils.extendArray(typeof opts.annotations.xaxis !== 'undefined' ? opts.annotations.xaxis : [], options.xAxisAnnotation);
return opts;
}
}, {
key: "extendPointAnnotations",
value: function extendPointAnnotations(opts) {
var options = new Options();
opts.annotations.points = Utils.extendArray(typeof opts.annotations.points !== 'undefined' ? opts.annotations.points : [], options.pointAnnotation);
return opts;
}
}, {
key: "checkForDarkTheme",
value: function checkForDarkTheme(opts) {
if (opts.theme && opts.theme.mode === 'dark') {
if (!opts.tooltip) {
opts.tooltip = {};
}
if (opts.tooltip.theme !== 'light') {
opts.tooltip.theme = 'dark';
}
if (!opts.chart.foreColor) {
opts.chart.foreColor = '#f6f7f8';
}
if (!opts.chart.background) {
opts.chart.background = '#424242';
}
if (!opts.theme.palette) {
opts.theme.palette = 'palette4';
}
}
}
}, {
key: "handleUserInputErrors",
value: function handleUserInputErrors(opts) {
var config = opts; // conflicting tooltip option. intersect makes sure to focus on 1 point at a time. Shared cannot be used along with it
if (config.tooltip.shared && config.tooltip.intersect) {
throw new Error('tooltip.shared cannot be enabled when tooltip.intersect is true. Turn off any other option by setting it to false.');
}
if (config.chart.type === 'bar' && config.plotOptions.bar.horizontal) {
// No multiple yaxis for bars
if (config.yaxis.length > 1) {
throw new Error('Multiple Y Axis for bars are not supported. Switch to column chart by setting plotOptions.bar.horizontal=false');
} // if yaxis is reversed in horizontal bar chart, you should draw the y-axis on right side
if (config.yaxis[0].reversed) {
config.yaxis[0].opposite = true;
}
config.xaxis.tooltip.enabled = false; // no xaxis tooltip for horizontal bar
config.yaxis[0].tooltip.enabled = false; // no xaxis tooltip for horizontal bar
config.chart.zoom.enabled = false; // no zooming for horz bars
}
if (config.chart.type === 'bar' || config.chart.type === 'rangeBar') {
if (config.tooltip.shared) {
if (config.xaxis.crosshairs.width === 'barWidth' && config.series.length > 1) {
config.xaxis.crosshairs.width = 'tickWidth';
}
}
}
if (config.chart.type === 'candlestick' || config.chart.type === 'boxPlot') {
if (config.yaxis[0].reversed) {
console.warn("Reversed y-axis in ".concat(config.chart.type, " chart is not supported."));
config.yaxis[0].reversed = false;
}
}
if (config.chart.group && config.yaxis[0].labels.minWidth === 0) {
console.warn('It looks like you have multiple charts in synchronization. You must provide yaxis.labels.minWidth which must be EQUAL for all grouped charts to prevent incorrect behaviour.');
} // if user supplied array for stroke width, it will only be applicable to line/area charts, for any other charts, revert back to Number
if (Array.isArray(config.stroke.width)) {
if (config.chart.type !== 'line' && config.chart.type !== 'area') {
console.warn('stroke.width option accepts array only for line and area charts. Reverted back to Number');
config.stroke.width = config.stroke.width[0];
}
}
return config;
}
}]);
return Config;
}();
var Globals = /*#__PURE__*/function () {
function Globals() {
_classCallCheck(this, Globals);
}
_createClass(Globals, [{
key: "initGlobalVars",
value: function initGlobalVars(gl) {
gl.series = []; // the MAIN series array (y values)
gl.seriesCandleO = [];
gl.seriesCandleH = [];
gl.seriesCandleM = [];
gl.seriesCandleL = [];
gl.seriesCandleC = [];
gl.seriesRangeStart = [];
gl.seriesRangeEnd = [];
gl.seriesRangeBarTimeline = [];
gl.seriesPercent = [];
gl.seriesGoals = [];
gl.seriesX = [];
gl.seriesZ = [];
gl.seriesNames = [];
gl.seriesTotals = [];
gl.seriesLog = [];
gl.seriesColors = [];
gl.stackedSeriesTotals = [];
gl.seriesXvalues = []; // we will need this in tooltip (it's x position)
// when we will have unequal x values, we will need
// some way to get x value depending on mouse pointer
gl.seriesYvalues = []; // we will need this when deciding which series
// user hovered on
gl.labels = [];
gl.categoryLabels = [];
gl.timescaleLabels = [];
gl.noLabelsProvided = false;
gl.resizeTimer = null;
gl.selectionResizeTimer = null;
gl.delayedElements = [];
gl.pointsArray = [];
gl.dataLabelsRects = [];
gl.isXNumeric = false;
gl.xaxisLabelsCount = 0;
gl.skipLastTimelinelabel = false;
gl.skipFirstTimelinelabel = false;
gl.isDataXYZ = false;
gl.isMultiLineX = false;
gl.isMultipleYAxis = false;
gl.maxY = -Number.MAX_VALUE;
gl.minY = Number.MIN_VALUE;
gl.minYArr = [];
gl.maxYArr = [];
gl.maxX = -Number.MAX_VALUE;
gl.minX = Number.MAX_VALUE;
gl.initialMaxX = -Number.MAX_VALUE;
gl.initialMinX = Number.MAX_VALUE;
gl.maxDate = 0;
gl.minDate = Number.MAX_VALUE;
gl.minZ = Number.MAX_VALUE;
gl.maxZ = -Number.MAX_VALUE;
gl.minXDiff = Number.MAX_VALUE;
gl.yAxisScale = [];
gl.xAxisScale = null;
gl.xAxisTicksPositions = [];
gl.yLabelsCoords = [];
gl.yTitleCoords = [];
gl.barPadForNumericAxis = 0;
gl.padHorizontal = 0;
gl.xRange = 0;
gl.yRange = [];
gl.zRange = 0;
gl.dataPoints = 0;
gl.xTickAmount = 0;
}
}, {
key: "globalVars",
value: function globalVars(config) {
return {
chartID: null,
// chart ID - apexcharts-cuid
cuid: null,
// chart ID - random numbers excluding "apexcharts" part
events: {
beforeMount: [],
mounted: [],
updated: [],
clicked: [],
selection: [],
dataPointSelection: [],
zoomed: [],
scrolled: []
},
colors: [],
clientX: null,
clientY: null,
fill: {
colors: []
},
stroke: {
colors: []
},
dataLabels: {
style: {
colors: []
}
},
radarPolygons: {
fill: {
colors: []
}
},
markers: {
colors: [],
size: config.markers.size,
largestSize: 0
},
animationEnded: false,
isTouchDevice: 'ontouchstart' in window || navigator.msMaxTouchPoints,
isDirty: false,
// chart has been updated after the initial render. This is different than dataChanged property. isDirty means user manually called some method to update
isExecCalled: false,
// whether user updated the chart through the exec method
initialConfig: null,
// we will store the first config user has set to go back when user finishes interactions like zooming and come out of it
initialSeries: [],
lastXAxis: [],
lastYAxis: [],
columnSeries: null,
labels: [],
// store the text to draw on x axis
// Don't mutate the labels, many things including tooltips depends on it!
timescaleLabels: [],
// store the timescaleLabels Labels in another variable
noLabelsProvided: false,
// if user didn't provide any categories/labels or x values, fallback to 1,2,3,4...
allSeriesCollapsed: false,
collapsedSeries: [],
// when user collapses a series, it goes into this array
collapsedSeriesIndices: [],
// this stores the index of the collapsedSeries instead of whole object for quick access
ancillaryCollapsedSeries: [],
// when user collapses an "alwaysVisible" series, it goes into this array
ancillaryCollapsedSeriesIndices: [],
// this stores the index of the ancillaryCollapsedSeries whose y-axis is always visible
risingSeries: [],
// when user re-opens a collapsed series, it goes here
dataFormatXNumeric: false,
// boolean value to indicate user has passed numeric x values
capturedSeriesIndex: -1,
capturedDataPointIndex: -1,
selectedDataPoints: [],
goldenPadding: 35,
// this value is used at a lot of places for spacing purpose
invalidLogScale: false,
// if a user enabled log scale but the data provided is not valid to generate a log scale, turn on this flag
ignoreYAxisIndexes: [],
// when series are being collapsed in multiple y axes, ignore certain index
yAxisSameScaleIndices: [],
maxValsInArrayIndex: 0,
radialSize: 0,
selection: undefined,
zoomEnabled: config.chart.toolbar.autoSelected === 'zoom' && config.chart.toolbar.tools.zoom && config.chart.zoom.enabled,
panEnabled: config.chart.toolbar.autoSelected === 'pan' && config.chart.toolbar.tools.pan,
selectionEnabled: config.chart.toolbar.autoSelected === 'selection' && config.chart.toolbar.tools.selection,
yaxis: null,
mousedown: false,
lastClientPosition: {},
// don't reset this variable this the chart is destroyed. It is used to detect right or left mousemove in panning
visibleXRange: undefined,
yValueDecimal: 0,
// are there floating numbers in the series. If yes, this represent the len of the decimals
total: 0,
SVGNS: 'http://www.w3.org/2000/svg',
// svg namespace
svgWidth: 0,
// the whole svg width
svgHeight: 0,
// the whole svg height
noData: false,
// whether there is any data to display or not
locale: {},
// the current locale values will be preserved here for global access
dom: {},
// for storing all dom nodes in this particular property
memory: {
methodsToExec: []
},
shouldAnimate: true,
skipLastTimelinelabel: false,
// when last label is cropped, skip drawing it
skipFirstTimelinelabel: false,
// when first label is cropped, skip drawing it
delayedElements: [],
// element which appear after animation has finished
axisCharts: true,
// chart type = line or area or bar
// (refer them also as plot charts in the code)
isDataXYZ: false,
// bool: data was provided in a {[x,y,z]} pattern
resized: false,
// bool: user has resized
resizeTimer: null,
// timeout function to make a small delay before
// drawing when user resized
comboCharts: false,
// bool: whether it's a combination of line/column
dataChanged: false,
// bool: has data changed dynamically
previousPaths: [],
// array: when data is changed, it will animate from
// previous paths
allSeriesHasEqualX: true,
pointsArray: [],
// store the points positions here to draw later on hover
// format is - [[x,y],[x,y]... [x,y]]
dataLabelsRects: [],
// store the positions of datalabels to prevent collision
lastDrawnDataLabelsIndexes: [],
hasNullValues: false,
// bool: whether series contains null values
easing: null,
// function: animation effect to apply
zoomed: false,
// whether user has zoomed or not
gridWidth: 0,
// drawable width of actual graphs (series paths)
gridHeight: 0,
// drawable height of actual graphs (series paths)
rotateXLabels: false,
defaultLabels: false,
xLabelFormatter: undefined,
// formatter for x axis labels
yLabelFormatters: [],
xaxisTooltipFormatter: undefined,
// formatter for x axis tooltip
ttKeyFormatter: undefined,
ttVal: undefined,
ttZFormatter: undefined,
LINE_HEIGHT_RATIO: 1.618,
xAxisLabelsHeight: 0,
xAxisLabelsWidth: 0,
yAxisLabelsWidth: 0,
scaleX: 1,
scaleY: 1,
translateX: 0,
translateY: 0,
translateYAxisX: [],
yAxisWidths: [],
translateXAxisY: 0,
translateXAxisX: 0,
tooltip: null
};
}
}, {
key: "init",
value: function init(config) {
var globals = this.globalVars(config);
this.initGlobalVars(globals);
globals.initialConfig = Utils.extend({}, config);
globals.initialSeries = Utils.clone(config.series);
globals.lastXAxis = Utils.clone(globals.initialConfig.xaxis);
globals.lastYAxis = Utils.clone(globals.initialConfig.yaxis);
return globals;
}
}]);
return Globals;
}();
/**
* ApexCharts Base Class for extending user options with pre-defined ApexCharts config.
*
* @module Base
**/
var Base = /*#__PURE__*/function () {
function Base(opts) {
_classCallCheck(this, Base);
this.opts = opts;
}
_createClass(Base, [{
key: "init",
value: function init() {
var config = new Config(this.opts).init({
responsiveOverride: false
});
var globals = new Globals().init(config);
var w = {
config: config,
globals: globals
};
return w;
}
}]);
return Base;
}();
var Data = /*#__PURE__*/function () {
function Data(ctx) {
_classCallCheck(this, Data);
this.ctx = ctx;
this.w = ctx.w;
this.twoDSeries = [];
this.threeDSeries = [];
this.twoDSeriesX = [];
this.seriesGoals = [];
this.coreUtils = new CoreUtils(this.ctx);
}
_createClass(Data, [{
key: "isMultiFormat",
value: function isMultiFormat() {
return this.isFormatXY() || this.isFormat2DArray();
} // given format is [{x, y}, {x, y}]
}, {
key: "isFormatXY",
value: function isFormatXY() {
var series = this.w.config.series.slice();
var sr = new Series(this.ctx);
this.activeSeriesIndex = sr.getActiveConfigSeriesIndex();
if (typeof series[this.activeSeriesIndex].data !== 'undefined' && series[this.activeSeriesIndex].data.length > 0 && series[this.activeSeriesIndex].data[0] !== null && typeof series[this.activeSeriesIndex].data[0].x !== 'undefined' && series[this.activeSeriesIndex].data[0] !== null) {
return true;
}
} // given format is [[x, y], [x, y]]
}, {
key: "isFormat2DArray",
value: function isFormat2DArray() {
var series = this.w.config.series.slice();
var sr = new Series(this.ctx);
this.activeSeriesIndex = sr.getActiveConfigSeriesIndex();
if (typeof series[this.activeSeriesIndex].data !== 'undefined' && series[this.activeSeriesIndex].data.length > 0 && typeof series[this.activeSeriesIndex].data[0] !== 'undefined' && series[this.activeSeriesIndex].data[0] !== null && series[this.activeSeriesIndex].data[0].constructor === Array) {
return true;
}
}
}, {
key: "handleFormat2DArray",
value: function handleFormat2DArray(ser, i) {
var cnf = this.w.config;
var gl = this.w.globals;
var isBoxPlot = cnf.chart.type === 'boxPlot' || cnf.series[i].type === 'boxPlot';
for (var j = 0; j < ser[i].data.length; j++) {
if (typeof ser[i].data[j][1] !== 'undefined') {
if (Array.isArray(ser[i].data[j][1]) && ser[i].data[j][1].length === 4 && !isBoxPlot) {
// candlestick nested ohlc format
this.twoDSeries.push(Utils.parseNumber(ser[i].data[j][1][3]));
} else if (ser[i].data[j].length >= 5) {
// candlestick non-nested ohlc format
this.twoDSeries.push(Utils.parseNumber(ser[i].data[j][4]));
} else {
this.twoDSeries.push(Utils.parseNumber(ser[i].data[j][1]));
}
gl.dataFormatXNumeric = true;
}
if (cnf.xaxis.type === 'datetime') {
// if timestamps are provided and xaxis type is datetime,
var ts = new Date(ser[i].data[j][0]);
ts = new Date(ts).getTime();
this.twoDSeriesX.push(ts);
} else {
this.twoDSeriesX.push(ser[i].data[j][0]);
}
}
for (var _j = 0; _j < ser[i].data.length; _j++) {
if (typeof ser[i].data[_j][2] !== 'undefined') {
this.threeDSeries.push(ser[i].data[_j][2]);
gl.isDataXYZ = true;
}
}
}
}, {
key: "handleFormatXY",
value: function handleFormatXY(ser, i) {
var cnf = this.w.config;
var gl = this.w.globals;
var dt = new DateTime(this.ctx);
var activeI = i;
if (gl.collapsedSeriesIndices.indexOf(i) > -1) {
// fix #368
activeI = this.activeSeriesIndex;
} // get series
for (var j = 0; j < ser[i].data.length; j++) {
if (typeof ser[i].data[j].y !== 'undefined') {
if (Array.isArray(ser[i].data[j].y)) {
this.twoDSeries.push(Utils.parseNumber(ser[i].data[j].y[ser[i].data[j].y.length - 1]));
} else {
this.twoDSeries.push(Utils.parseNumber(ser[i].data[j].y));
}
}
if (typeof ser[i].data[j].goals !== 'undefined' && Array.isArray(ser[i].data[j].goals)) {
if (typeof this.seriesGoals[i] === 'undefined') {
this.seriesGoals[i] = [];
}
this.seriesGoals[i].push(ser[i].data[j].goals);
} else {
if (typeof this.seriesGoals[i] === 'undefined') {
this.seriesGoals[i] = [];
}
this.seriesGoals[i].push(null);
}
} // get seriesX
for (var _j2 = 0; _j2 < ser[activeI].data.length; _j2++) {
var isXString = typeof ser[activeI].data[_j2].x === 'string';
var isXArr = Array.isArray(ser[activeI].data[_j2].x);
var isXDate = !isXArr && !!dt.isValidDate(ser[activeI].data[_j2].x.toString());
if (isXString || isXDate) {
// user supplied '01/01/2017' or a date string (a JS date object is not supported)
if (isXString || cnf.xaxis.convertedCatToNumeric) {
var isRangeColumn = gl.isBarHorizontal && gl.isRangeData;
if (cnf.xaxis.type === 'datetime' && !isRangeColumn) {
this.twoDSeriesX.push(dt.parseDate(ser[activeI].data[_j2].x));
} else {
// a category and not a numeric x value
this.fallbackToCategory = true;
this.twoDSeriesX.push(ser[activeI].data[_j2].x);
}
} else {
if (cnf.xaxis.type === 'datetime') {
this.twoDSeriesX.push(dt.parseDate(ser[activeI].data[_j2].x.toString()));
} else {
gl.dataFormatXNumeric = true;
gl.isXNumeric = true;
this.twoDSeriesX.push(parseFloat(ser[activeI].data[_j2].x));
}
}
} else if (isXArr) {
// a multiline label described in array format
this.fallbackToCategory = true;
this.twoDSeriesX.push(ser[activeI].data[_j2].x);
} else {
// a numeric value in x property
gl.isXNumeric = true;
gl.dataFormatXNumeric = true;
this.twoDSeriesX.push(ser[activeI].data[_j2].x);
}
}
if (ser[i].data[0] && typeof ser[i].data[0].z !== 'undefined') {
for (var t = 0; t < ser[i].data.length; t++) {
this.threeDSeries.push(ser[i].data[t].z);
}
gl.isDataXYZ = true;
}
}
}, {
key: "handleRangeData",
value: function handleRangeData(ser, i) {
var cnf = this.w.config;
var gl = this.w.globals;
var range = {};
if (this.isFormat2DArray()) {
range = this.handleRangeDataFormat('array', ser, i);
} else if (this.isFormatXY()) {
range = this.handleRangeDataFormat('xy', ser, i);
}
gl.seriesRangeStart.push(range.start);
gl.seriesRangeEnd.push(range.end);
if (cnf.xaxis.type === 'datetime') {
gl.seriesRangeBarTimeline.push(range.rangeUniques);
} // check for overlaps to avoid clashes in a timeline chart
gl.seriesRangeBarTimeline.forEach(function (sr, si) {
if (sr) {
sr.forEach(function (sarr, sarri) {
sarr.y.forEach(function (arr, arri) {
for (var sri = 0; sri < sarr.y.length; sri++) {
if (arri !== sri) {
var range1y1 = arr.y1;
var range1y2 = arr.y2;
var range2y1 = sarr.y[sri].y1;
var range2y2 = sarr.y[sri].y2;
if (range1y1 <= range2y2 && range2y1 <= range1y2) {
if (sarr.overlaps.indexOf(arr.rangeName) < 0) {
sarr.overlaps.push(arr.rangeName);
}
if (sarr.overlaps.indexOf(sarr.y[sri].rangeName) < 0) {
sarr.overlaps.push(sarr.y[sri].rangeName);
}
}
}
}
});
});
}
});
return range;
}
}, {
key: "handleCandleStickBoxData",
value: function handleCandleStickBoxData(ser, i) {
var gl = this.w.globals;
var ohlc = {};
if (this.isFormat2DArray()) {
ohlc = this.handleCandleStickBoxDataFormat('array', ser, i);
} else if (this.isFormatXY()) {
ohlc = this.handleCandleStickBoxDataFormat('xy', ser, i);
}
gl.seriesCandleO[i] = ohlc.o;
gl.seriesCandleH[i] = ohlc.h;
gl.seriesCandleM[i] = ohlc.m;
gl.seriesCandleL[i] = ohlc.l;
gl.seriesCandleC[i] = ohlc.c;
return ohlc;
}
}, {
key: "handleRangeDataFormat",
value: function handleRangeDataFormat(format, ser, i) {
var rangeStart = [];
var rangeEnd = [];
var uniqueKeys = ser[i].data.filter(function (thing, index, self) {
return index === self.findIndex(function (t) {
return t.x === thing.x;
});
}).map(function (r, index) {
return {
x: r.x,
overlaps: [],
y: []
};
});
var err = 'Please provide [Start, End] values in valid format. Read more https://apexcharts.com/docs/series/#rangecharts';
var serObj = new Series(this.ctx);
var activeIndex = serObj.getActiveConfigSeriesIndex();
if (format === 'array') {
if (ser[activeIndex].data[0][1].length !== 2) {
throw new Error(err);
}
for (var j = 0; j < ser[i].data.length; j++) {
rangeStart.push(ser[i].data[j][1][0]);
rangeEnd.push(ser[i].data[j][1][1]);
}
} else if (format === 'xy') {
if (ser[activeIndex].data[0].y.length !== 2) {
throw new Error(err);
}
var _loop = function _loop(_j3) {
var id = Utils.randomId();
var x = ser[i].data[_j3].x;
var y = {
y1: ser[i].data[_j3].y[0],
y2: ser[i].data[_j3].y[1],
rangeName: id
}; // mutating config object by adding a new property
// TODO: As this is specifically for timeline rangebar charts, update the docs mentioning the series only supports xy format
ser[i].data[_j3].rangeName = id;
var uI = uniqueKeys.findIndex(function (t) {
return t.x === x;
});
uniqueKeys[uI].y.push(y);
rangeStart.push(y.y1);
rangeEnd.push(y.y2);
};
for (var _j3 = 0; _j3 < ser[i].data.length; _j3++) {
_loop(_j3);
}
}
return {
start: rangeStart,
end: rangeEnd,
rangeUniques: uniqueKeys
};
}
}, {
key: "handleCandleStickBoxDataFormat",
value: function handleCandleStickBoxDataFormat(format, ser, i) {
var w = this.w;
var isBoxPlot = w.config.chart.type === 'boxPlot' || w.config.series[i].type === 'boxPlot';
var serO = [];
var serH = [];
var serM = [];
var serL = [];
var serC = [];
if (format === 'array') {
if (isBoxPlot && ser[i].data[0].length === 6 || !isBoxPlot && ser[i].data[0].length === 5) {
for (var j = 0; j < ser[i].data.length; j++) {
serO.push(ser[i].data[j][1]);
serH.push(ser[i].data[j][2]);
if (isBoxPlot) {
serM.push(ser[i].data[j][3]);
serL.push(ser[i].data[j][4]);
serC.push(ser[i].data[j][5]);
} else {
serL.push(ser[i].data[j][3]);
serC.push(ser[i].data[j][4]);
}
}
} else {
for (var _j4 = 0; _j4 < ser[i].data.length; _j4++) {
if (Array.isArray(ser[i].data[_j4][1])) {
serO.push(ser[i].data[_j4][1][0]);
serH.push(ser[i].data[_j4][1][1]);
if (isBoxPlot) {
serM.push(ser[i].data[_j4][1][2]);
serL.push(ser[i].data[_j4][1][3]);
serC.push(ser[i].data[_j4][1][4]);
} else {
serL.push(ser[i].data[_j4][1][2]);
serC.push(ser[i].data[_j4][1][3]);
}
}
}
}
} else if (format === 'xy') {
for (var _j5 = 0; _j5 < ser[i].data.length; _j5++) {
if (Array.isArray(ser[i].data[_j5].y)) {
serO.push(ser[i].data[_j5].y[0]);
serH.push(ser[i].data[_j5].y[1]);
if (isBoxPlot) {
serM.push(ser[i].data[_j5].y[2]);
serL.push(ser[i].data[_j5].y[3]);
serC.push(ser[i].data[_j5].y[4]);
} else {
serL.push(ser[i].data[_j5].y[2]);
serC.push(ser[i].data[_j5].y[3]);
}
}
}
}
return {
o: serO,
h: serH,
m: serM,
l: serL,
c: serC
};
}
}, {
key: "parseDataAxisCharts",
value: function parseDataAxisCharts(ser) {
var _this = this;
var ctx = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : this.ctx;
var cnf = this.w.config;
var gl = this.w.globals;
var dt = new DateTime(ctx);
var xlabels = cnf.labels.length > 0 ? cnf.labels.slice() : cnf.xaxis.categories.slice();
gl.isTimelineBar = cnf.chart.type === 'rangeBar' && cnf.xaxis.type === 'datetime';
var handleDates = function handleDates() {
for (var j = 0; j < xlabels.length; j++) {
if (typeof xlabels[j] === 'string') {
// user provided date strings
var isDate = dt.isValidDate(xlabels[j]);
if (isDate) {
_this.twoDSeriesX.push(dt.parseDate(xlabels[j]));
} else {
throw new Error('You have provided invalid Date format. Please provide a valid JavaScript Date');
}
} else {
// user provided timestamps
_this.twoDSeriesX.push(xlabels[j]);
}
}
};
for (var i = 0; i < ser.length; i++) {
this.twoDSeries = [];
this.twoDSeriesX = [];
this.threeDSeries = [];
if (typeof ser[i].data === 'undefined') {
console.error("It is a possibility that you may have not included 'data' property in series.");
return;
}
if (cnf.chart.type === 'rangeBar' || cnf.chart.type === 'rangeArea' || ser[i].type === 'rangeBar' || ser[i].type === 'rangeArea') {
gl.isRangeData = true;
this.handleRangeData(ser, i);
}
if (this.isMultiFormat()) {
if (this.isFormat2DArray()) {
this.handleFormat2DArray(ser, i);
} else if (this.isFormatXY()) {
this.handleFormatXY(ser, i);
}
if (cnf.chart.type === 'candlestick' || ser[i].type === 'candlestick' || cnf.chart.type === 'boxPlot' || ser[i].type === 'boxPlot') {
this.handleCandleStickBoxData(ser, i);
}
gl.series.push(this.twoDSeries);
gl.labels.push(this.twoDSeriesX);
gl.seriesX.push(this.twoDSeriesX);
gl.seriesGoals = this.seriesGoals;
if (i === this.activeSeriesIndex && !this.fallbackToCategory) {
gl.isXNumeric = true;
}
} else {
if (cnf.xaxis.type === 'datetime') {
// user didn't supplied [{x,y}] or [[x,y]], but single array in data.
// Also labels/categories were supplied differently
gl.isXNumeric = true;
handleDates();
gl.seriesX.push(this.twoDSeriesX);
} else if (cnf.xaxis.type === 'numeric') {
gl.isXNumeric = true;
if (xlabels.length > 0) {
this.twoDSeriesX = xlabels;
gl.seriesX.push(this.twoDSeriesX);
}
}
gl.labels.push(this.twoDSeriesX);
var singleArray = ser[i].data.map(function (d) {
return Utils.parseNumber(d);
});
gl.series.push(singleArray);
}
gl.seriesZ.push(this.threeDSeries);
if (ser[i].name !== undefined) {
gl.seriesNames.push(ser[i].name);
} else {
gl.seriesNames.push('series-' + parseInt(i + 1, 10));
} // overrided default color if user inputs color with series data
if (ser[i].color !== undefined) {
gl.seriesColors.push(ser[i].color);
} else {
gl.seriesColors.push(undefined);
}
}
return this.w;
}
}, {
key: "parseDataNonAxisCharts",
value: function parseDataNonAxisCharts(ser) {
var gl = this.w.globals;
var cnf = this.w.config;
gl.series = ser.slice();
gl.seriesNames = cnf.labels.slice();
for (var i = 0; i < gl.series.length; i++) {
if (gl.seriesNames[i] === undefined) {
gl.seriesNames.push('series-' + (i + 1));
}
}
return this.w;
}
/** User possibly set string categories in xaxis.categories or labels prop
* Or didn't set xaxis labels at all - in which case we manually do it.
* If user passed series data as [[3, 2], [4, 5]] or [{ x: 3, y: 55 }],
* this shouldn't be called
* @param {array} ser - the series which user passed to the config
*/
}, {
key: "handleExternalLabelsData",
value: function handleExternalLabelsData(ser) {
var cnf = this.w.config;
var gl = this.w.globals;
if (cnf.xaxis.categories.length > 0) {
// user provided labels in xaxis.category prop
gl.labels = cnf.xaxis.categories;
} else if (cnf.labels.length > 0) {
// user provided labels in labels props
gl.labels = cnf.labels.slice();
} else if (this.fallbackToCategory) {
// user provided labels in x prop in [{ x: 3, y: 55 }] data, and those labels are already stored in gl.labels[0], so just re-arrange the gl.labels array
gl.labels = gl.labels[0];
if (gl.seriesRangeBarTimeline.length) {
gl.seriesRangeBarTimeline.map(function (srt) {
srt.forEach(function (sr) {
if (gl.labels.indexOf(sr.x) < 0 && sr.x) {
gl.labels.push(sr.x);
}
});
});
gl.labels = gl.labels.filter(function (elem, pos, arr) {
return arr.indexOf(elem) === pos;
});
}
if (cnf.xaxis.convertedCatToNumeric) {
var defaults = new Defaults(cnf);
defaults.convertCatToNumericXaxis(cnf, this.ctx, gl.seriesX[0]);
this._generateExternalLabels(ser);
}
} else {
this._generateExternalLabels(ser);
}
}
}, {
key: "_generateExternalLabels",
value: function _generateExternalLabels(ser) {
var gl = this.w.globals;
var cnf = this.w.config; // user didn't provided any labels, fallback to 1-2-3-4-5
var labelArr = [];
if (gl.axisCharts) {
if (gl.series.length > 0) {
for (var i = 0; i < gl.series[gl.maxValsInArrayIndex].length; i++) {
labelArr.push(i + 1);
}
}
gl.seriesX = []; // create gl.seriesX as it will be used in calculations of x positions
for (var _i = 0; _i < ser.length; _i++) {
gl.seriesX.push(labelArr);
} // turn on the isXNumeric flag to allow minX and maxX to function properly
gl.isXNumeric = true;
} // no series to pull labels from, put a 0-10 series
// possibly, user collapsed all series. Hence we can't work with above calc
if (labelArr.length === 0) {
labelArr = gl.axisCharts ? [] : gl.series.map(function (gls, glsi) {
return glsi + 1;
});
for (var _i2 = 0; _i2 < ser.length; _i2++) {
gl.seriesX.push(labelArr);
}
} // Finally, pass the labelArr in gl.labels which will be printed on x-axis
gl.labels = labelArr;
if (cnf.xaxis.convertedCatToNumeric) {
gl.categoryLabels = labelArr.map(function (l) {
return cnf.xaxis.labels.formatter(l);
});
} // Turn on this global flag to indicate no labels were provided by user
gl.noLabelsProvided = true;
} // Segregate user provided data into appropriate vars
}, {
key: "parseData",
value: function parseData(ser) {
var w = this.w;
var cnf = w.config;
var gl = w.globals;
this.excludeCollapsedSeriesInYAxis(); // If we detected string in X prop of series, we fallback to category x-axis
this.fallbackToCategory = false;
this.ctx.core.resetGlobals();
this.ctx.core.isMultipleY();
if (gl.axisCharts) {
// axisCharts includes line / area / column / scatter
this.parseDataAxisCharts(ser);
} else {
// non-axis charts are pie / donut
this.parseDataNonAxisCharts(ser);
}
this.coreUtils.getLargestSeries(); // set Null values to 0 in all series when user hides/shows some series
if (cnf.chart.type === 'bar' && cnf.chart.stacked) {
var series = new Series(this.ctx);
gl.series = series.setNullSeriesToZeroValues(gl.series);
}
this.coreUtils.getSeriesTotals();
if (gl.axisCharts) {
this.coreUtils.getStackedSeriesTotals();
}
this.coreUtils.getPercentSeries();
if (!gl.dataFormatXNumeric && (!gl.isXNumeric || cnf.xaxis.type === 'numeric' && cnf.labels.length === 0 && cnf.xaxis.categories.length === 0)) {
// x-axis labels couldn't be detected; hence try searching every option in config
this.handleExternalLabelsData(ser);
} // check for multiline xaxis
var catLabels = this.coreUtils.getCategoryLabels(gl.labels);
for (var l = 0; l < catLabels.length; l++) {
if (Array.isArray(catLabels[l])) {
gl.isMultiLineX = true;
break;
}
}
}
}, {
key: "excludeCollapsedSeriesInYAxis",
value: function excludeCollapsedSeriesInYAxis() {
var _this2 = this;
var w = this.w;
w.globals.ignoreYAxisIndexes = w.globals.collapsedSeries.map(function (collapsed, i) {
// fix issue #1215
// if stacked, not returning collapsed.index to preserve yaxis
if (_this2.w.globals.isMultipleYAxis && !w.config.chart.stacked) {
return collapsed.index;
}
});
}
}]);
return Data;
}();
/**
* ApexCharts Formatter Class for setting value formatters for axes as well as tooltips.
*
* @module Formatters
**/
var Formatters = /*#__PURE__*/function () {
function Formatters(ctx) {
_classCallCheck(this, Formatters);
this.ctx = ctx;
this.w = ctx.w;
this.tooltipKeyFormat = 'dd MMM';
}
_createClass(Formatters, [{
key: "xLabelFormat",
value: function xLabelFormat(fn, val, timestamp, opts) {
var w = this.w;
if (w.config.xaxis.type === 'datetime') {
if (w.config.xaxis.labels.formatter === undefined) {
// if user has not specified a custom formatter, use the default tooltip.x.format
if (w.config.tooltip.x.formatter === undefined) {
var datetimeObj = new DateTime(this.ctx);
return datetimeObj.formatDate(datetimeObj.getDate(val), w.config.tooltip.x.format);
}
}
}
return fn(val, timestamp, opts);
}
}, {
key: "defaultGeneralFormatter",
value: function defaultGeneralFormatter(val) {
if (Array.isArray(val)) {
return val.map(function (v) {
return v;
});
} else {
return val;
}
}
}, {
key: "defaultYFormatter",
value: function defaultYFormatter(v, yaxe, i) {
var w = this.w;
if (Utils.isNumber(v)) {
if (w.globals.yValueDecimal !== 0) {
v = v.toFixed(yaxe.decimalsInFloat !== undefined ? yaxe.decimalsInFloat : w.globals.yValueDecimal);
} else if (w.globals.maxYArr[i] - w.globals.minYArr[i] < 5) {
v = v.toFixed(1);
} else {
v = v.toFixed(0);
}
}
return v;
}
}, {
key: "setLabelFormatters",
value: function setLabelFormatters() {
var _this = this;
var w = this.w;
w.globals.xaxisTooltipFormatter = function (val) {
return _this.defaultGeneralFormatter(val);
};
w.globals.ttKeyFormatter = function (val) {
return _this.defaultGeneralFormatter(val);
};
w.globals.ttZFormatter = function (val) {
return val;
};
w.globals.legendFormatter = function (val) {
return _this.defaultGeneralFormatter(val);
}; // formatter function will always overwrite format property
if (w.config.xaxis.labels.formatter !== undefined) {
w.globals.xLabelFormatter = w.config.xaxis.labels.formatter;
} else {
w.globals.xLabelFormatter = function (val) {
if (Utils.isNumber(val)) {
if (!w.config.xaxis.convertedCatToNumeric && w.config.xaxis.type === 'numeric') {
if (Utils.isNumber(w.config.xaxis.decimalsInFloat)) {
return val.toFixed(w.config.xaxis.decimalsInFloat);
} else {
var diff = w.globals.maxX - w.globals.minX;
if (diff > 0 && diff < 100) {
return val.toFixed(1);
}
return val.toFixed(0);
}
}
if (w.globals.isBarHorizontal) {
var range = w.globals.maxY - w.globals.minYArr;
if (range < 4) {
return val.toFixed(1);
}
}
return val.toFixed(0);
}
return val;
};
}
if (typeof w.config.tooltip.x.formatter === 'function') {
w.globals.ttKeyFormatter = w.config.tooltip.x.formatter;
} else {
w.globals.ttKeyFormatter = w.globals.xLabelFormatter;
}
if (typeof w.config.xaxis.tooltip.formatter === 'function') {
w.globals.xaxisTooltipFormatter = w.config.xaxis.tooltip.formatter;
}
if (Array.isArray(w.config.tooltip.y)) {
w.globals.ttVal = w.config.tooltip.y;
} else {
if (w.config.tooltip.y.formatter !== undefined) {
w.globals.ttVal = w.config.tooltip.y;
}
}
if (w.config.tooltip.z.formatter !== undefined) {
w.globals.ttZFormatter = w.config.tooltip.z.formatter;
} // legend formatter - if user wants to append any global values of series to legend text
if (w.config.legend.formatter !== undefined) {
w.globals.legendFormatter = w.config.legend.formatter;
} // formatter function will always overwrite format property
w.config.yaxis.forEach(function (yaxe, i) {
if (yaxe.labels.formatter !== undefined) {
w.globals.yLabelFormatters[i] = yaxe.labels.formatter;
} else {
w.globals.yLabelFormatters[i] = function (val) {
if (!w.globals.xyCharts) return val;
if (Array.isArray(val)) {
return val.map(function (v) {
return _this.defaultYFormatter(v, yaxe, i);
});
} else {
return _this.defaultYFormatter(val, yaxe, i);
}
};
}
});
return w.globals;
}
}, {
key: "heatmapLabelFormatters",
value: function heatmapLabelFormatters() {
var w = this.w;
if (w.config.chart.type === 'heatmap') {
w.globals.yAxisScale[0].result = w.globals.seriesNames.slice(); // get the longest string from the labels array and also apply label formatter to it
var longest = w.globals.seriesNames.reduce(function (a, b) {
return a.length > b.length ? a : b;
}, 0);
w.globals.yAxisScale[0].niceMax = longest;
w.globals.yAxisScale[0].niceMin = longest;
}
}
}]);
return Formatters;
}();
var AxesUtils = /*#__PURE__*/function () {
function AxesUtils(ctx) {
_classCallCheck(this, AxesUtils);
this.ctx = ctx;
this.w = ctx.w;
} // Based on the formatter function, get the label text and position
_createClass(AxesUtils, [{
key: "getLabel",
value: function getLabel(labels, timescaleLabels, x, i) {
var drawnLabels = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : [];
var fontSize = arguments.length > 5 && arguments[5] !== undefined ? arguments[5] : '12px';
var w = this.w;
var rawLabel = typeof labels[i] === 'undefined' ? '' : labels[i];
var label = rawLabel;
var xlbFormatter = w.globals.xLabelFormatter;
var customFormatter = w.config.xaxis.labels.formatter;
var isBold = false;
var xFormat = new Formatters(this.ctx);
var timestamp = rawLabel;
label = xFormat.xLabelFormat(xlbFormatter, rawLabel, timestamp, {
i: i,
dateFormatter: new DateTime(this.ctx).formatDate,
w: w
});
if (customFormatter !== undefined) {
label = customFormatter(rawLabel, labels[i], {
i: i,
dateFormatter: new DateTime(this.ctx).formatDate,
w: w
});
}
var determineHighestUnit = function determineHighestUnit(unit) {
var highestUnit = null;
timescaleLabels.forEach(function (t) {
if (t.unit === 'month') {
highestUnit = 'year';
} else if (t.unit === 'day') {
highestUnit = 'month';
} else if (t.unit === 'hour') {
highestUnit = 'day';
} else if (t.unit === 'minute') {
highestUnit = 'hour';
}
});
return highestUnit === unit;
};
if (timescaleLabels.length > 0) {
isBold = determineHighestUnit(timescaleLabels[i].unit);
x = timescaleLabels[i].position;
label = timescaleLabels[i].value;
} else {
if (w.config.xaxis.type === 'datetime' && customFormatter === undefined) {
label = '';
}
}
if (typeof label === 'undefined') label = '';
label = Array.isArray(label) ? label : label.toString();
var graphics = new Graphics(this.ctx);
var textRect = {};
if (w.globals.rotateXLabels) {
textRect = graphics.getTextRects(label, parseInt(fontSize, 10), null, "rotate(".concat(w.config.xaxis.labels.rotate, " 0 0)"), false);
} else {
textRect = graphics.getTextRects(label, parseInt(fontSize, 10));
}
var allowDuplicatesInTimeScale = !w.config.xaxis.labels.showDuplicates && this.ctx.timeScale;
if (!Array.isArray(label) && (label.indexOf('NaN') === 0 || label.toLowerCase().indexOf('invalid') === 0 || label.toLowerCase().indexOf('infinity') >= 0 || drawnLabels.indexOf(label) >= 0 && allowDuplicatesInTimeScale)) {
label = '';
}
return {
x: x,
text: label,
textRect: textRect,
isBold: isBold
};
}
}, {
key: "checkLabelBasedOnTickamount",
value: function checkLabelBasedOnTickamount(i, label, labelsLen) {
var w = this.w;
var ticks = w.config.xaxis.tickAmount;
if (ticks === 'dataPoints') ticks = Math.round(w.globals.gridWidth / 120);
if (ticks > labelsLen) return label;
var tickMultiple = Math.round(labelsLen / (ticks + 1));
if (i % tickMultiple === 0) {
return label;
} else {
label.text = '';
}
return label;
}
}, {
key: "checkForOverflowingLabels",
value: function checkForOverflowingLabels(i, label, labelsLen, drawnLabels, drawnLabelsRects) {
var w = this.w;
if (i === 0) {
// check if first label is being truncated
if (w.globals.skipFirstTimelinelabel) {
label.text = '';
}
}
if (i === labelsLen - 1) {
// check if last label is being truncated
if (w.globals.skipLastTimelinelabel) {
label.text = '';
}
}
if (w.config.xaxis.labels.hideOverlappingLabels && drawnLabels.length > 0) {
var prev = drawnLabelsRects[drawnLabelsRects.length - 1];
if (label.x < prev.textRect.width / (w.globals.rotateXLabels ? Math.abs(w.config.xaxis.labels.rotate) / 12 : 1.01) + prev.x) {
label.text = '';
}
}
return label;
}
}, {
key: "checkForReversedLabels",
value: function checkForReversedLabels(i, labels) {
var w = this.w;
if (w.config.yaxis[i] && w.config.yaxis[i].reversed) {
labels.reverse();
}
return labels;
}
}, {
key: "isYAxisHidden",
value: function isYAxisHidden(index) {
var w = this.w;
var coreUtils = new CoreUtils(this.ctx);
return !w.config.yaxis[index].show || !w.config.yaxis[index].showForNullSeries && coreUtils.isSeriesNull(index) && w.globals.collapsedSeriesIndices.indexOf(index) === -1;
} // get the label color for y-axis
// realIndex is the actual series index, while i is the tick Index
}, {
key: "getYAxisForeColor",
value: function getYAxisForeColor(yColors, realIndex) {
var w = this.w;
if (Array.isArray(yColors) && w.globals.yAxisScale[realIndex]) {
this.ctx.theme.pushExtraColors(yColors, w.globals.yAxisScale[realIndex].result.length, false);
}
return yColors;
}
}, {
key: "drawYAxisTicks",
value: function drawYAxisTicks(x, tickAmount, axisBorder, axisTicks, realIndex, labelsDivider, elYaxis) {
var w = this.w;
var graphics = new Graphics(this.ctx); // initial label position = 0;
var t = w.globals.translateY;
if (axisTicks.show && tickAmount > 0) {
if (w.config.yaxis[realIndex].opposite === true) x = x + axisTicks.width;
for (var i = tickAmount; i >= 0; i--) {
var tY = t + tickAmount / 10 + w.config.yaxis[realIndex].labels.offsetY - 1;
if (w.globals.isBarHorizontal) {
tY = labelsDivider * i;
}
if (w.config.chart.type === 'heatmap') {
tY = tY + labelsDivider / 2;
}
var elTick = graphics.drawLine(x + axisBorder.offsetX - axisTicks.width + axisTicks.offsetX, tY + axisTicks.offsetY, x + axisBorder.offsetX + axisTicks.offsetX, tY + axisTicks.offsetY, axisTicks.color);
elYaxis.add(elTick);
t = t + labelsDivider;
}
}
}
}]);
return AxesUtils;
}();
var Exports = /*#__PURE__*/function () {
function Exports(ctx) {
_classCallCheck(this, Exports);
this.ctx = ctx;
this.w = ctx.w;
}
_createClass(Exports, [{
key: "scaleSvgNode",
value: function scaleSvgNode(svg, scale) {
// get current both width and height of the svg
var svgWidth = parseFloat(svg.getAttributeNS(null, 'width'));
var svgHeight = parseFloat(svg.getAttributeNS(null, 'height')); // set new width and height based on the scale
svg.setAttributeNS(null, 'width', svgWidth * scale);
svg.setAttributeNS(null, 'height', svgHeight * scale);
svg.setAttributeNS(null, 'viewBox', '0 0 ' + svgWidth + ' ' + svgHeight);
}
}, {
key: "fixSvgStringForIe11",
value: function fixSvgStringForIe11(svgData) {
// IE11 generates broken SVG that we have to fix by using regex
if (!Utils.isIE11()) {
// not IE11 - noop
return svgData;
} // replace second occurrence of "xmlns" attribute with "xmlns:xlink" with correct url + add xmlns:svgjs
var nXmlnsSeen = 0;
var result = svgData.replace(/xmlns="http:\/\/www.w3.org\/2000\/svg"/g, function (match) {
nXmlnsSeen++;
return nXmlnsSeen === 2 ? 'xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:svgjs="http://svgjs.com/svgjs"' : match;
}); // remove the invalid empty namespace declarations
result = result.replace(/xmlns:NS\d+=""/g, ''); // remove these broken namespaces from attributes
result = result.replace(/NS\d+:(\w+:\w+=")/g, '$1');
return result;
}
}, {
key: "getSvgString",
value: function getSvgString(scale) {
var svgString = this.w.globals.dom.Paper.svg(); // in case the scale is different than 1, the svg needs to be rescaled
if (scale !== 1) {
// clone the svg node so it remains intact in the UI
var svgNode = this.w.globals.dom.Paper.node.cloneNode(true); // scale the image
this.scaleSvgNode(svgNode, scale); // get the string representation of the svgNode
svgString = new XMLSerializer().serializeToString(svgNode);
}
return this.fixSvgStringForIe11(svgString);
}
}, {
key: "cleanup",
value: function cleanup() {
var w = this.w; // hide some elements to avoid printing them on exported svg
var xcrosshairs = w.globals.dom.baseEl.getElementsByClassName('apexcharts-xcrosshairs');
var ycrosshairs = w.globals.dom.baseEl.getElementsByClassName('apexcharts-ycrosshairs');
var zoomSelectionRects = w.globals.dom.baseEl.querySelectorAll('.apexcharts-zoom-rect, .apexcharts-selection-rect');
Array.prototype.forEach.call(zoomSelectionRects, function (z) {
z.setAttribute('width', 0);
});
if (xcrosshairs && xcrosshairs[0]) {
xcrosshairs[0].setAttribute('x', -500);
xcrosshairs[0].setAttribute('x1', -500);
xcrosshairs[0].setAttribute('x2', -500);
}
if (ycrosshairs && ycrosshairs[0]) {
ycrosshairs[0].setAttribute('y', -100);
ycrosshairs[0].setAttribute('y1', -100);
ycrosshairs[0].setAttribute('y2', -100);
}
}
}, {
key: "svgUrl",
value: function svgUrl() {
this.cleanup();
var svgData = this.getSvgString();
var svgBlob = new Blob([svgData], {
type: 'image/svg+xml;charset=utf-8'
});
return URL.createObjectURL(svgBlob);
}
}, {
key: "dataURI",
value: function dataURI(options) {
var _this = this;
return new Promise(function (resolve) {
var w = _this.w;
var scale = options ? options.scale || options.width / w.globals.svgWidth : 1;
_this.cleanup();
var canvas = document.createElement('canvas');
canvas.width = w.globals.svgWidth * scale;
canvas.height = parseInt(w.globals.dom.elWrap.style.height, 10) * scale; // because of resizeNonAxisCharts
var canvasBg = w.config.chart.background === 'transparent' ? '#fff' : w.config.chart.background;
var ctx = canvas.getContext('2d');
ctx.fillStyle = canvasBg;
ctx.fillRect(0, 0, canvas.width * scale, canvas.height * scale);
var svgData = _this.getSvgString(scale);
if (window.canvg && Utils.isIE11()) {
// use canvg as a polyfill to workaround ie11 considering a canvas with loaded svg 'unsafe'
// without ignoreClear we lose our background color; without ignoreDimensions some grid lines become invisible
var v = window.canvg.Canvg.fromString(ctx, svgData, {
ignoreClear: true,
ignoreDimensions: true
}); // render the svg to canvas
v.start();
var blob = canvas.msToBlob(); // dispose - missing this will cause a memory leak
v.stop();
resolve({
blob: blob
});
} else {
var svgUrl = 'data:image/svg+xml,' + encodeURIComponent(svgData);
var img = new Image();
img.crossOrigin = 'anonymous';
img.onload = function () {
ctx.drawImage(img, 0, 0);
if (canvas.msToBlob) {
// IE and Edge can't navigate to data urls, so we return the blob instead
var _blob = canvas.msToBlob();
resolve({
blob: _blob
});
} else {
var imgURI = canvas.toDataURL('image/png');
resolve({
imgURI: imgURI
});
}
};
img.src = svgUrl;
}
});
}
}, {
key: "exportToSVG",
value: function exportToSVG() {
this.triggerDownload(this.svgUrl(), this.w.config.chart.toolbar.export.svg.filename, '.svg');
}
}, {
key: "exportToPng",
value: function exportToPng() {
var _this2 = this;
this.dataURI().then(function (_ref) {
var imgURI = _ref.imgURI,
blob = _ref.blob;
if (blob) {
navigator.msSaveOrOpenBlob(blob, _this2.w.globals.chartID + '.png');
} else {
_this2.triggerDownload(imgURI, _this2.w.config.chart.toolbar.export.png.filename, '.png');
}
});
}
}, {
key: "exportToCSV",
value: function exportToCSV(_ref2) {
var _this3 = this;
var series = _ref2.series,
columnDelimiter = _ref2.columnDelimiter,
_ref2$lineDelimiter = _ref2.lineDelimiter,
lineDelimiter = _ref2$lineDelimiter === void 0 ? '\n' : _ref2$lineDelimiter;
var w = this.w;
var columns = [];
var rows = [];
var result = "data:text/csv;charset=utf-8,\uFEFF";
var isTimeStamp = function isTimeStamp(num) {
return w.config.xaxis.type === 'datetime' && String(num).length >= 10;
};
var dataFormat = new Data(this.ctx);
var axesUtils = new AxesUtils(this.ctx);
var getCat = function getCat(i) {
var cat = ''; // pie / donut/ radial
if (!w.globals.axisCharts) {
cat = w.config.labels[i];
} else {
// xy charts
// non datetime
if (w.config.xaxis.type === 'category' || w.config.xaxis.convertedCatToNumeric) {
if (w.globals.isBarHorizontal) {
var lbFormatter = w.globals.yLabelFormatters[0];
var sr = new Series(_this3.ctx);
var activeSeries = sr.getActiveConfigSeriesIndex();
cat = lbFormatter(w.globals.labels[i], {
seriesIndex: activeSeries,
dataPointIndex: i,
w: w
});
} else {
cat = axesUtils.getLabel(w.globals.labels, w.globals.timescaleLabels, 0, i).text;
}
} // datetime, but labels specified in categories or labels
if (w.config.xaxis.type === 'datetime') {
if (w.config.xaxis.categories.length) {
cat = w.config.xaxis.categories[i];
} else if (w.config.labels.length) {
cat = w.config.labels[i];
}
}
}
if (Array.isArray(cat)) {
cat = cat.join(' ');
}
return Utils.isNumber(cat) ? cat : cat.split(columnDelimiter).join('');
};
var handleAxisRowsColumns = function handleAxisRowsColumns(s, sI) {
if (columns.length && sI === 0) {
rows.push(columns.join(columnDelimiter));
}
if (s.data && s.data.length) {
for (var i = 0; i < s.data.length; i++) {
columns = [];
var cat = getCat(i);
if (!cat) {
if (dataFormat.isFormatXY()) {
cat = series[sI].data[i].x;
} else if (dataFormat.isFormat2DArray()) {
cat = series[sI].data[i] ? series[sI].data[i][0] : '';
}
}
if (sI === 0) {
columns.push(isTimeStamp(cat) ? w.config.chart.toolbar.export.csv.dateFormatter(cat) : Utils.isNumber(cat) ? cat : cat.split(columnDelimiter).join(''));
for (var ci = 0; ci < w.globals.series.length; ci++) {
columns.push(w.globals.series[ci][i]);
}
}
if (w.config.chart.type === 'candlestick' || s.type && s.type === 'candlestick') {
columns.pop();
columns.push(w.globals.seriesCandleO[sI][i]);
columns.push(w.globals.seriesCandleH[sI][i]);
columns.push(w.globals.seriesCandleL[sI][i]);
columns.push(w.globals.seriesCandleC[sI][i]);
}
if (w.config.chart.type === 'boxPlot' || s.type && s.type === 'boxPlot') {
columns.pop();
columns.push(w.globals.seriesCandleO[sI][i]);
columns.push(w.globals.seriesCandleH[sI][i]);
columns.push(w.globals.seriesCandleM[sI][i]);
columns.push(w.globals.seriesCandleL[sI][i]);
columns.push(w.globals.seriesCandleC[sI][i]);
}
if (w.config.chart.type === 'rangeBar') {
columns.pop();
columns.push(w.globals.seriesRangeStart[sI][i]);
columns.push(w.globals.seriesRangeEnd[sI][i]);
}
if (columns.length) {
rows.push(columns.join(columnDelimiter));
}
}
}
};
columns.push(w.config.chart.toolbar.export.csv.headerCategory);
series.map(function (s, sI) {
var sname = s.name ? s.name : "series-".concat(sI);
if (w.globals.axisCharts) {
columns.push(sname.split(columnDelimiter).join('') ? sname.split(columnDelimiter).join('') : "series-".concat(sI));
}
});
if (!w.globals.axisCharts) {
columns.push(w.config.chart.toolbar.export.csv.headerValue);
rows.push(columns.join(columnDelimiter));
}
series.map(function (s, sI) {
if (w.globals.axisCharts) {
handleAxisRowsColumns(s, sI);
} else {
columns = [];
columns.push(w.globals.labels[sI].split(columnDelimiter).join(''));
columns.push(w.globals.series[sI]);
rows.push(columns.join(columnDelimiter));
}
});
result += rows.join(lineDelimiter);
this.triggerDownload(encodeURI(result), w.config.chart.toolbar.export.csv.filename, '.csv');
}
}, {
key: "triggerDownload",
value: function triggerDownload(href, filename, ext) {
var downloadLink = document.createElement('a');
downloadLink.href = href;
downloadLink.download = (filename ? filename : this.w.globals.chartID) + ext;
document.body.appendChild(downloadLink);
downloadLink.click();
document.body.removeChild(downloadLink);
}
}]);
return Exports;
}();
/**
* ApexCharts XAxis Class for drawing X-Axis.
*
* @module XAxis
**/
var XAxis = /*#__PURE__*/function () {
function XAxis(ctx) {
_classCallCheck(this, XAxis);
this.ctx = ctx;
this.w = ctx.w;
var w = this.w;
this.axesUtils = new AxesUtils(ctx);
this.xaxisLabels = w.globals.labels.slice();
if (w.globals.timescaleLabels.length > 0 && !w.globals.isBarHorizontal) {
// timeline labels are there and chart is not rangeabr timeline
this.xaxisLabels = w.globals.timescaleLabels.slice();
}
if (w.config.xaxis.overwriteCategories) {
this.xaxisLabels = w.config.xaxis.overwriteCategories;
}
this.drawnLabels = [];
this.drawnLabelsRects = [];
if (w.config.xaxis.position === 'top') {
this.offY = 0;
} else {
this.offY = w.globals.gridHeight + 1;
}
this.offY = this.offY + w.config.xaxis.axisBorder.offsetY;
this.isCategoryBarHorizontal = w.config.chart.type === 'bar' && w.config.plotOptions.bar.horizontal;
this.xaxisFontSize = w.config.xaxis.labels.style.fontSize;
this.xaxisFontFamily = w.config.xaxis.labels.style.fontFamily;
this.xaxisForeColors = w.config.xaxis.labels.style.colors;
this.xaxisBorderWidth = w.config.xaxis.axisBorder.width;
if (this.isCategoryBarHorizontal) {
this.xaxisBorderWidth = w.config.yaxis[0].axisBorder.width.toString();
}
if (this.xaxisBorderWidth.indexOf('%') > -1) {
this.xaxisBorderWidth = w.globals.gridWidth * parseInt(this.xaxisBorderWidth, 10) / 100;
} else {
this.xaxisBorderWidth = parseInt(this.xaxisBorderWidth, 10);
}
this.xaxisBorderHeight = w.config.xaxis.axisBorder.height; // For bars, we will only consider single y xais,
// as we are not providing multiple yaxis for bar charts
this.yaxis = w.config.yaxis[0];
}
_createClass(XAxis, [{
key: "drawXaxis",
value: function drawXaxis() {
var _this = this;
var w = this.w;
var graphics = new Graphics(this.ctx);
var elXaxis = graphics.group({
class: 'apexcharts-xaxis',
transform: "translate(".concat(w.config.xaxis.offsetX, ", ").concat(w.config.xaxis.offsetY, ")")
});
var elXaxisTexts = graphics.group({
class: 'apexcharts-xaxis-texts-g',
transform: "translate(".concat(w.globals.translateXAxisX, ", ").concat(w.globals.translateXAxisY, ")")
});
elXaxis.add(elXaxisTexts);
var colWidth; // initial x Position (keep adding column width in the loop)
var xPos = w.globals.padHorizontal;
var labels = [];
for (var i = 0; i < this.xaxisLabels.length; i++) {
labels.push(this.xaxisLabels[i]);
}
var labelsLen = labels.length;
if (w.globals.isXNumeric) {
var len = labelsLen > 1 ? labelsLen - 1 : labelsLen;
colWidth = w.globals.gridWidth / len;
xPos = xPos + colWidth / 2 + w.config.xaxis.labels.offsetX;
} else {
colWidth = w.globals.gridWidth / labels.length;
xPos = xPos + colWidth + w.config.xaxis.labels.offsetX;
}
var _loop = function _loop(_i) {
var x = xPos - colWidth / 2 + w.config.xaxis.labels.offsetX;
if (_i === 0 && labelsLen === 1 && colWidth / 2 === xPos && w.globals.dataPoints === 1) {
// single datapoint
x = w.globals.gridWidth / 2;
}
var label = _this.axesUtils.getLabel(labels, w.globals.timescaleLabels, x, _i, _this.drawnLabels, _this.xaxisFontSize);
var offsetYCorrection = 28;
if (w.globals.rotateXLabels) {
offsetYCorrection = 22;
}
var isCategoryTickAmounts = typeof w.config.xaxis.tickAmount !== 'undefined' && w.config.xaxis.tickAmount !== 'dataPoints' && w.config.xaxis.type !== 'datetime';
if (isCategoryTickAmounts) {
label = _this.axesUtils.checkLabelBasedOnTickamount(_i, label, labelsLen);
} else {
label = _this.axesUtils.checkForOverflowingLabels(_i, label, labelsLen, _this.drawnLabels, _this.drawnLabelsRects);
}
var getCatForeColor = function getCatForeColor() {
return w.config.xaxis.convertedCatToNumeric ? _this.xaxisForeColors[w.globals.minX + _i - 1] : _this.xaxisForeColors[_i];
};
if (label.text) {
w.globals.xaxisLabelsCount++;
}
if (w.config.xaxis.labels.show) {
var elText = graphics.drawText({
x: label.x,
y: _this.offY + w.config.xaxis.labels.offsetY + offsetYCorrection - (w.config.xaxis.position === 'top' ? w.globals.xAxisHeight + w.config.xaxis.axisTicks.height - 2 : 0),
text: label.text,
textAnchor: 'middle',
fontWeight: label.isBold ? 600 : w.config.xaxis.labels.style.fontWeight,
fontSize: _this.xaxisFontSize,
fontFamily: _this.xaxisFontFamily,
foreColor: Array.isArray(_this.xaxisForeColors) ? getCatForeColor() : _this.xaxisForeColors,
isPlainText: false,
cssClass: 'apexcharts-xaxis-label ' + w.config.xaxis.labels.style.cssClass
});
elXaxisTexts.add(elText);
var elTooltipTitle = document.createElementNS(w.globals.SVGNS, 'title');
elTooltipTitle.textContent = Array.isArray(label.text) ? label.text.join(' ') : label.text;
elText.node.appendChild(elTooltipTitle);
if (label.text !== '') {
_this.drawnLabels.push(label.text);
_this.drawnLabelsRects.push(label);
}
}
xPos = xPos + colWidth;
};
for (var _i = 0; _i <= labelsLen - 1; _i++) {
_loop(_i);
}
if (w.config.xaxis.title.text !== undefined) {
var elXaxisTitle = graphics.group({
class: 'apexcharts-xaxis-title'
});
var elXAxisTitleText = graphics.drawText({
x: w.globals.gridWidth / 2 + w.config.xaxis.title.offsetX,
y: this.offY + parseFloat(this.xaxisFontSize) + w.globals.xAxisLabelsHeight + w.config.xaxis.title.offsetY,
text: w.config.xaxis.title.text,
textAnchor: 'middle',
fontSize: w.config.xaxis.title.style.fontSize,
fontFamily: w.config.xaxis.title.style.fontFamily,
fontWeight: w.config.xaxis.title.style.fontWeight,
foreColor: w.config.xaxis.title.style.color,
cssClass: 'apexcharts-xaxis-title-text ' + w.config.xaxis.title.style.cssClass
});
elXaxisTitle.add(elXAxisTitleText);
elXaxis.add(elXaxisTitle);
}
if (w.config.xaxis.axisBorder.show) {
var offX = w.globals.barPadForNumericAxis;
var elHorzLine = graphics.drawLine(w.globals.padHorizontal + w.config.xaxis.axisBorder.offsetX - offX, this.offY, this.xaxisBorderWidth + offX, this.offY, w.config.xaxis.axisBorder.color, 0, this.xaxisBorderHeight);
elXaxis.add(elHorzLine);
}
return elXaxis;
} // this actually becomes the vertical axis (for bar charts)
}, {
key: "drawXaxisInversed",
value: function drawXaxisInversed(realIndex) {
var _this2 = this;
var w = this.w;
var graphics = new Graphics(this.ctx);
var translateYAxisX = w.config.yaxis[0].opposite ? w.globals.translateYAxisX[realIndex] : 0;
var elYaxis = graphics.group({
class: 'apexcharts-yaxis apexcharts-xaxis-inversed',
rel: realIndex
});
var elYaxisTexts = graphics.group({
class: 'apexcharts-yaxis-texts-g apexcharts-xaxis-inversed-texts-g',
transform: 'translate(' + translateYAxisX + ', 0)'
});
elYaxis.add(elYaxisTexts);
var colHeight; // initial x Position (keep adding column width in the loop)
var yPos;
var labels = [];
if (w.config.yaxis[realIndex].show) {
for (var i = 0; i < this.xaxisLabels.length; i++) {
labels.push(this.xaxisLabels[i]);
}
}
colHeight = w.globals.gridHeight / labels.length;
yPos = -(colHeight / 2.2);
var lbFormatter = w.globals.yLabelFormatters[0];
var ylabels = w.config.yaxis[0].labels;
if (ylabels.show) {
var _loop2 = function _loop2(_i2) {
var label = typeof labels[_i2] === 'undefined' ? '' : labels[_i2];
label = lbFormatter(label, {
seriesIndex: realIndex,
dataPointIndex: _i2,
w: w
});
var yColors = _this2.axesUtils.getYAxisForeColor(ylabels.style.colors, realIndex);
var getForeColor = function getForeColor() {
return Array.isArray(yColors) ? yColors[_i2] : yColors;
};
var multiY = 0;
if (Array.isArray(label)) {
multiY = label.length / 2 * parseInt(ylabels.style.fontSize, 10);
}
var elLabel = graphics.drawText({
x: ylabels.offsetX - 15,
y: yPos + colHeight + ylabels.offsetY - multiY,
text: label,
textAnchor: _this2.yaxis.opposite ? 'start' : 'end',
foreColor: getForeColor(),
fontSize: ylabels.style.fontSize,
fontFamily: ylabels.style.fontFamily,
fontWeight: ylabels.style.fontWeight,
isPlainText: false,
cssClass: 'apexcharts-yaxis-label ' + ylabels.style.cssClass
});
elYaxisTexts.add(elLabel);
var elTooltipTitle = document.createElementNS(w.globals.SVGNS, 'title');
elTooltipTitle.textContent = Array.isArray(label) ? label.join(' ') : label;
elLabel.node.appendChild(elTooltipTitle);
if (w.config.yaxis[realIndex].labels.rotate !== 0) {
var labelRotatingCenter = graphics.rotateAroundCenter(elLabel.node);
elLabel.node.setAttribute('transform', "rotate(".concat(w.config.yaxis[realIndex].labels.rotate, " 0 ").concat(labelRotatingCenter.y, ")"));
}
yPos = yPos + colHeight;
};
for (var _i2 = 0; _i2 <= labels.length - 1; _i2++) {
_loop2(_i2);
}
}
if (w.config.yaxis[0].title.text !== undefined) {
var elXaxisTitle = graphics.group({
class: 'apexcharts-yaxis-title apexcharts-xaxis-title-inversed',
transform: 'translate(' + translateYAxisX + ', 0)'
});
var elXAxisTitleText = graphics.drawText({
x: 0,
y: w.globals.gridHeight / 2,
text: w.config.yaxis[0].title.text,
textAnchor: 'middle',
foreColor: w.config.yaxis[0].title.style.color,
fontSize: w.config.yaxis[0].title.style.fontSize,
fontWeight: w.config.yaxis[0].title.style.fontWeight,
fontFamily: w.config.yaxis[0].title.style.fontFamily,
cssClass: 'apexcharts-yaxis-title-text ' + w.config.yaxis[0].title.style.cssClass
});
elXaxisTitle.add(elXAxisTitleText);
elYaxis.add(elXaxisTitle);
}
var offX = 0;
if (this.isCategoryBarHorizontal && w.config.yaxis[0].opposite) {
offX = w.globals.gridWidth;
}
var axisBorder = w.config.xaxis.axisBorder;
if (axisBorder.show) {
var elVerticalLine = graphics.drawLine(w.globals.padHorizontal + axisBorder.offsetX + offX, 1 + axisBorder.offsetY, w.globals.padHorizontal + axisBorder.offsetX + offX, w.globals.gridHeight + axisBorder.offsetY, axisBorder.color, 0);
elYaxis.add(elVerticalLine);
}
if (w.config.yaxis[0].axisTicks.show) {
this.axesUtils.drawYAxisTicks(offX, labels.length, w.config.yaxis[0].axisBorder, w.config.yaxis[0].axisTicks, 0, colHeight, elYaxis);
}
return elYaxis;
}
}, {
key: "drawXaxisTicks",
value: function drawXaxisTicks(x1, appendToElement) {
var w = this.w;
var x2 = x1;
if (x1 < 0 || x1 - 2 > w.globals.gridWidth) return;
var y1 = this.offY + w.config.xaxis.axisTicks.offsetY;
var y2 = y1 + w.config.xaxis.axisTicks.height;
if (w.config.xaxis.position === 'top') {
y2 = y1 - w.config.xaxis.axisTicks.height;
}
if (w.config.xaxis.axisTicks.show) {
var graphics = new Graphics(this.ctx);
var line = graphics.drawLine(x1 + w.config.xaxis.axisTicks.offsetX, y1 + w.config.xaxis.offsetY, x2 + w.config.xaxis.axisTicks.offsetX, y2 + w.config.xaxis.offsetY, w.config.xaxis.axisTicks.color); // we are not returning anything, but appending directly to the element passed in param
appendToElement.add(line);
line.node.classList.add('apexcharts-xaxis-tick');
}
}
}, {
key: "getXAxisTicksPositions",
value: function getXAxisTicksPositions() {
var w = this.w;
var xAxisTicksPositions = [];
var xCount = this.xaxisLabels.length;
var x1 = w.globals.padHorizontal;
if (w.globals.timescaleLabels.length > 0) {
for (var i = 0; i < xCount; i++) {
x1 = this.xaxisLabels[i].position;
xAxisTicksPositions.push(x1);
}
} else {
var xCountForCategoryCharts = xCount;
for (var _i3 = 0; _i3 < xCountForCategoryCharts; _i3++) {
var x1Count = xCountForCategoryCharts;
if (w.globals.isXNumeric && w.config.chart.type !== 'bar') {
x1Count -= 1;
}
x1 = x1 + w.globals.gridWidth / x1Count;
xAxisTicksPositions.push(x1);
}
}
return xAxisTicksPositions;
} // to rotate x-axis labels or to put ... for longer text in xaxis
}, {
key: "xAxisLabelCorrections",
value: function xAxisLabelCorrections() {
var w = this.w;
var graphics = new Graphics(this.ctx);
var xAxis = w.globals.dom.baseEl.querySelector('.apexcharts-xaxis-texts-g');
var xAxisTexts = w.globals.dom.baseEl.querySelectorAll('.apexcharts-xaxis-texts-g text');
var yAxisTextsInversed = w.globals.dom.baseEl.querySelectorAll('.apexcharts-yaxis-inversed text');
var xAxisTextsInversed = w.globals.dom.baseEl.querySelectorAll('.apexcharts-xaxis-inversed-texts-g text tspan');
if (w.globals.rotateXLabels || w.config.xaxis.labels.rotateAlways) {
for (var xat = 0; xat < xAxisTexts.length; xat++) {
var textRotatingCenter = graphics.rotateAroundCenter(xAxisTexts[xat]);
textRotatingCenter.y = textRotatingCenter.y - 1; // + tickWidth/4;
textRotatingCenter.x = textRotatingCenter.x + 1;
xAxisTexts[xat].setAttribute('transform', "rotate(".concat(w.config.xaxis.labels.rotate, " ").concat(textRotatingCenter.x, " ").concat(textRotatingCenter.y, ")"));
xAxisTexts[xat].setAttribute('text-anchor', "end");
var offsetHeight = 10;
xAxis.setAttribute('transform', "translate(0, ".concat(-offsetHeight, ")"));
var tSpan = xAxisTexts[xat].childNodes;
if (w.config.xaxis.labels.trim) {
Array.prototype.forEach.call(tSpan, function (ts) {
graphics.placeTextWithEllipsis(ts, ts.textContent, w.globals.xAxisLabelsHeight - (w.config.legend.position === 'bottom' ? 20 : 10));
});
}
}
} else {
(function () {
var width = w.globals.gridWidth / (w.globals.labels.length + 1);
for (var _xat = 0; _xat < xAxisTexts.length; _xat++) {
var _tSpan = xAxisTexts[_xat].childNodes;
if (w.config.xaxis.labels.trim && w.config.xaxis.type !== 'datetime') {
Array.prototype.forEach.call(_tSpan, function (ts) {
graphics.placeTextWithEllipsis(ts, ts.textContent, width);
});
}
}
})();
}
if (yAxisTextsInversed.length > 0) {
// truncate rotated y axis in bar chart (x axis)
var firstLabelPosX = yAxisTextsInversed[yAxisTextsInversed.length - 1].getBBox();
var lastLabelPosX = yAxisTextsInversed[0].getBBox();
if (firstLabelPosX.x < -20) {
yAxisTextsInversed[yAxisTextsInversed.length - 1].parentNode.removeChild(yAxisTextsInversed[yAxisTextsInversed.length - 1]);
}
if (lastLabelPosX.x + lastLabelPosX.width > w.globals.gridWidth && !w.globals.isBarHorizontal) {
yAxisTextsInversed[0].parentNode.removeChild(yAxisTextsInversed[0]);
} // truncate rotated x axis in bar chart (y axis)
for (var _xat2 = 0; _xat2 < xAxisTextsInversed.length; _xat2++) {
graphics.placeTextWithEllipsis(xAxisTextsInversed[_xat2], xAxisTextsInversed[_xat2].textContent, w.config.yaxis[0].labels.maxWidth - parseFloat(w.config.yaxis[0].title.style.fontSize) * 2 - 20);
}
}
} // renderXAxisBands() {
// let w = this.w;
// let plotBand = document.createElementNS(w.globals.SVGNS, 'rect')
// w.globals.dom.elGraphical.add(plotBand)
// }
}]);
return XAxis;
}();
/**
* ApexCharts Grid Class for drawing Cartesian Grid.
*
* @module Grid
**/
var Grid = /*#__PURE__*/function () {
function Grid(ctx) {
_classCallCheck(this, Grid);
this.ctx = ctx;
this.w = ctx.w;
var w = this.w;
this.xaxisLabels = w.globals.labels.slice();
this.axesUtils = new AxesUtils(ctx);
this.isTimelineBar = w.config.xaxis.type === 'datetime' && w.globals.seriesRangeBarTimeline.length;
if (w.globals.timescaleLabels.length > 0) {
// timescaleLabels labels are there
this.xaxisLabels = w.globals.timescaleLabels.slice();
}
} // when using sparklines or when showing no grid, we need to have a grid area which is reused at many places for other calculations as well
_createClass(Grid, [{
key: "drawGridArea",
value: function drawGridArea() {
var elGrid = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : null;
var w = this.w;
var graphics = new Graphics(this.ctx);
if (elGrid === null) {
elGrid = graphics.group({
class: 'apexcharts-grid'
});
}
var elVerticalLine = graphics.drawLine(w.globals.padHorizontal, 1, w.globals.padHorizontal, w.globals.gridHeight, 'transparent');
var elHorzLine = graphics.drawLine(w.globals.padHorizontal, w.globals.gridHeight, w.globals.gridWidth, w.globals.gridHeight, 'transparent');
elGrid.add(elHorzLine);
elGrid.add(elVerticalLine);
return elGrid;
}
}, {
key: "drawGrid",
value: function drawGrid() {
var gl = this.w.globals;
var elgrid = null;
if (gl.axisCharts) {
// grid is drawn after xaxis and yaxis are drawn
elgrid = this.renderGrid();
this.drawGridArea(elgrid.el);
}
return elgrid;
} // This mask will clip off overflowing graphics from the drawable area
}, {
key: "createGridMask",
value: function createGridMask() {
var w = this.w;
var gl = w.globals;
var graphics = new Graphics(this.ctx);
var strokeSize = Array.isArray(w.config.stroke.width) ? 0 : w.config.stroke.width;
if (Array.isArray(w.config.stroke.width)) {
var strokeMaxSize = 0;
w.config.stroke.width.forEach(function (m) {
strokeMaxSize = Math.max(strokeMaxSize, m);
});
strokeSize = strokeMaxSize;
}
gl.dom.elGridRectMask = document.createElementNS(gl.SVGNS, 'clipPath');
gl.dom.elGridRectMask.setAttribute('id', "gridRectMask".concat(gl.cuid));
gl.dom.elGridRectMarkerMask = document.createElementNS(gl.SVGNS, 'clipPath');
gl.dom.elGridRectMarkerMask.setAttribute('id', "gridRectMarkerMask".concat(gl.cuid));
gl.dom.elForecastMask = document.createElementNS(gl.SVGNS, 'clipPath');
gl.dom.elForecastMask.setAttribute('id', "forecastMask".concat(gl.cuid));
gl.dom.elNonForecastMask = document.createElementNS(gl.SVGNS, 'clipPath');
gl.dom.elNonForecastMask.setAttribute('id', "nonForecastMask".concat(gl.cuid)); // let barHalfWidth = 0
var type = w.config.chart.type;
var hasBar = type === 'bar' || type === 'rangeBar' || type === 'candlestick' || type === 'boxPlot' || w.globals.comboBarCount > 0;
var barWidthLeft = 0;
var barWidthRight = 0;
if (hasBar && w.globals.isXNumeric && !w.globals.isBarHorizontal) {
barWidthLeft = w.config.grid.padding.left;
barWidthRight = w.config.grid.padding.right;
if (gl.barPadForNumericAxis > barWidthLeft) {
barWidthLeft = gl.barPadForNumericAxis;
barWidthRight = gl.barPadForNumericAxis;
}
}
gl.dom.elGridRect = graphics.drawRect(-strokeSize / 2 - barWidthLeft - 2, -strokeSize / 2, gl.gridWidth + strokeSize + barWidthRight + barWidthLeft + 4, gl.gridHeight + strokeSize, 0, '#fff');
var coreUtils = new CoreUtils(this);
coreUtils.getLargestMarkerSize();
var markerSize = w.globals.markers.largestSize + 1;
gl.dom.elGridRectMarker = graphics.drawRect(-markerSize * 2, -markerSize * 2, gl.gridWidth + markerSize * 4, gl.gridHeight + markerSize * 4, 0, '#fff');
gl.dom.elGridRectMask.appendChild(gl.dom.elGridRect.node);
gl.dom.elGridRectMarkerMask.appendChild(gl.dom.elGridRectMarker.node);
var defs = gl.dom.baseEl.querySelector('defs');
defs.appendChild(gl.dom.elGridRectMask);
defs.appendChild(gl.dom.elForecastMask);
defs.appendChild(gl.dom.elNonForecastMask);
defs.appendChild(gl.dom.elGridRectMarkerMask);
}
}, {
key: "_drawGridLines",
value: function _drawGridLines(_ref) {
var i = _ref.i,
x1 = _ref.x1,
y1 = _ref.y1,
x2 = _ref.x2,
y2 = _ref.y2,
xCount = _ref.xCount,
parent = _ref.parent;
var w = this.w;
var shouldDraw = function shouldDraw() {
if (i === 0 && w.globals.skipFirstTimelinelabel) {
return false;
}
if (i === xCount - 1 && w.globals.skipLastTimelinelabel && !w.config.xaxis.labels.formatter) {
return false;
}
if (w.config.chart.type === 'radar') {
return false;
}
return true;
};
if (shouldDraw()) {
if (w.config.grid.xaxis.lines.show) {
this._drawGridLine({
x1: x1,
y1: y1,
x2: x2,
y2: y2,
parent: parent
});
}
var xAxis = new XAxis(this.ctx);
xAxis.drawXaxisTicks(x1, this.elg);
}
}
}, {
key: "_drawGridLine",
value: function _drawGridLine(_ref2) {
var x1 = _ref2.x1,
y1 = _ref2.y1,
x2 = _ref2.x2,
y2 = _ref2.y2,
parent = _ref2.parent;
var w = this.w;
var isHorzLine = parent.node.classList.contains('apexcharts-gridlines-horizontal');
var strokeDashArray = w.config.grid.strokeDashArray;
var offX = w.globals.barPadForNumericAxis;
var graphics = new Graphics(this);
var line = graphics.drawLine(x1 - (isHorzLine ? offX : 0), y1, x2 + (isHorzLine ? offX : 0), y2, w.config.grid.borderColor, strokeDashArray);
line.node.classList.add('apexcharts-gridline');
parent.add(line);
}
}, {
key: "_drawGridBandRect",
value: function _drawGridBandRect(_ref3) {
var c = _ref3.c,
x1 = _ref3.x1,
y1 = _ref3.y1,
x2 = _ref3.x2,
y2 = _ref3.y2,
type = _ref3.type;
var w = this.w;
var graphics = new Graphics(this.ctx);
var offX = w.globals.barPadForNumericAxis;
if (type === 'column' && w.config.xaxis.type === 'datetime') return;
var color = w.config.grid[type].colors[c];
var rect = graphics.drawRect(x1 - (type === 'row' ? offX : 0), y1, x2 + (type === 'row' ? offX * 2 : 0), y2, 0, color, w.config.grid[type].opacity);
this.elg.add(rect);
rect.attr('clip-path', "url(#gridRectMask".concat(w.globals.cuid, ")"));
rect.node.classList.add("apexcharts-grid-".concat(type));
}
}, {
key: "_drawXYLines",
value: function _drawXYLines(_ref4) {
var _this = this;
var xCount = _ref4.xCount,
tickAmount = _ref4.tickAmount;
var w = this.w;
var datetimeLines = function datetimeLines(_ref5) {
var xC = _ref5.xC,
x1 = _ref5.x1,
y1 = _ref5.y1,
x2 = _ref5.x2,
y2 = _ref5.y2;
for (var i = 0; i < xC; i++) {
x1 = _this.xaxisLabels[i].position;
x2 = _this.xaxisLabels[i].position;
_this._drawGridLines({
i: i,
x1: x1,
y1: y1,
x2: x2,
y2: y2,
xCount: xCount,
parent: _this.elgridLinesV
});
}
};
var categoryLines = function categoryLines(_ref6) {
var xC = _ref6.xC,
x1 = _ref6.x1,
y1 = _ref6.y1,
x2 = _ref6.x2,
y2 = _ref6.y2;
if (typeof w.config.xaxis.tickAmount !== 'undefined' && w.config.xaxis.tickAmount !== 'dataPoints') {
// user has specified tickamount in a category x-axis chart
var visibleLabels = w.globals.dom.baseEl.querySelectorAll('.apexcharts-text.apexcharts-xaxis-label tspan:not(:empty)');
visibleLabels.forEach(function (d, i) {
var textRect = d.getBBox();
_this._drawGridLines({
i: i,
x1: textRect.x + textRect.width / 2,
y1: y1,
x2: textRect.x + textRect.width / 2,
y2: y2,
xCount: xCount,
parent: _this.elgridLinesV
});
});
} else {
for (var i = 0; i < xC + (w.globals.isXNumeric ? 0 : 1); i++) {
if (i === 0 && xC === 1 && w.globals.dataPoints === 1) {
// single datapoint
x1 = w.globals.gridWidth / 2;
x2 = x1;
}
_this._drawGridLines({
i: i,
x1: x1,
y1: y1,
x2: x2,
y2: y2,
xCount: xCount,
parent: _this.elgridLinesV
});
x1 = x1 + w.globals.gridWidth / (w.globals.isXNumeric ? xC - 1 : xC);
x2 = x1;
}
}
}; // draw vertical lines
if (w.config.grid.xaxis.lines.show || w.config.xaxis.axisTicks.show) {
var x1 = w.globals.padHorizontal;
var y1 = 0;
var x2;
var y2 = w.globals.gridHeight;
if (w.globals.timescaleLabels.length) {
datetimeLines({
xC: xCount,
x1: x1,
y1: y1,
x2: x2,
y2: y2
});
} else {
if (w.globals.isXNumeric) {
xCount = w.globals.xAxisScale.result.length;
}
if (w.config.xaxis.convertedCatToNumeric) {
// in case of a convertedCatToNumeric, some labels might be skipped due to hideOverLapping labels, hence use this var to get the visible ticks
xCount = w.globals.xaxisLabelsCount;
}
categoryLines({
xC: xCount,
x1: x1,
y1: y1,
x2: x2,
y2: y2
});
}
} // draw horizontal lines
if (w.config.grid.yaxis.lines.show) {
var _x = 0;
var _y = 0;
var _y2 = 0;
var _x2 = w.globals.gridWidth;
var tA = tickAmount + 1;
if (this.isTimelineBar) {
tA = w.globals.labels.length;
}
for (var i = 0; i < tA + (this.isTimelineBar ? 1 : 0); i++) {
this._drawGridLine({
x1: _x,
y1: _y,
x2: _x2,
y2: _y2,
parent: this.elgridLinesH
});
_y = _y + w.globals.gridHeight / (this.isTimelineBar ? tA : tickAmount);
_y2 = _y;
}
}
}
}, {
key: "_drawInvertedXYLines",
value: function _drawInvertedXYLines(_ref7) {
var xCount = _ref7.xCount;
var w = this.w; // draw vertical lines
if (w.config.grid.xaxis.lines.show || w.config.xaxis.axisTicks.show) {
var x1 = w.globals.padHorizontal;
var y1 = 0;
var x2;
var y2 = w.globals.gridHeight;
for (var i = 0; i < xCount + 1; i++) {
if (w.config.grid.xaxis.lines.show) {
this._drawGridLine({
x1: x1,
y1: y1,
x2: x2,
y2: y2,
parent: this.elgridLinesV
});
}
var xAxis = new XAxis(this.ctx);
xAxis.drawXaxisTicks(x1, this.elg);
x1 = x1 + w.globals.gridWidth / xCount + 0.3;
x2 = x1;
}
} // draw horizontal lines
if (w.config.grid.yaxis.lines.show) {
var _x3 = 0;
var _y3 = 0;
var _y4 = 0;
var _x4 = w.globals.gridWidth;
for (var _i = 0; _i < w.globals.dataPoints + 1; _i++) {
this._drawGridLine({
x1: _x3,
y1: _y3,
x2: _x4,
y2: _y4,
parent: this.elgridLinesH
});
_y3 = _y3 + w.globals.gridHeight / w.globals.dataPoints;
_y4 = _y3;
}
}
} // actual grid rendering
}, {
key: "renderGrid",
value: function renderGrid() {
var w = this.w;
var graphics = new Graphics(this.ctx);
this.elg = graphics.group({
class: 'apexcharts-grid'
});
this.elgridLinesH = graphics.group({
class: 'apexcharts-gridlines-horizontal'
});
this.elgridLinesV = graphics.group({
class: 'apexcharts-gridlines-vertical'
});
this.elg.add(this.elgridLinesH);
this.elg.add(this.elgridLinesV);
if (!w.config.grid.show) {
this.elgridLinesV.hide();
this.elgridLinesH.hide();
}
var yTickAmount = w.globals.yAxisScale.length ? w.globals.yAxisScale[0].result.length - 1 : 5;
for (var i = 0; i < w.globals.series.length; i++) {
if (typeof w.globals.yAxisScale[i] !== 'undefined') {
yTickAmount = w.globals.yAxisScale[i].result.length - 1;
}
if (yTickAmount > 2) break;
}
var xCount;
if (!w.globals.isBarHorizontal || this.isTimelineBar) {
xCount = this.xaxisLabels.length;
if (this.isTimelineBar) {
yTickAmount = w.globals.labels.length;
if (w.config.xaxis.tickAmount && w.config.xaxis.labels.formatter) {
xCount = w.config.xaxis.tickAmount;
}
}
this._drawXYLines({
xCount: xCount,
tickAmount: yTickAmount
});
} else {
xCount = yTickAmount; // for horizontal bar chart, get the xaxis tickamount
yTickAmount = w.globals.xTickAmount;
this._drawInvertedXYLines({
xCount: xCount,
tickAmount: yTickAmount
});
}
this.drawGridBands(xCount, yTickAmount);
return {
el: this.elg,
xAxisTickWidth: w.globals.gridWidth / xCount
};
}
}, {
key: "drawGridBands",
value: function drawGridBands(xCount, tickAmount) {
var w = this.w; // rows background bands
if (w.config.grid.row.colors !== undefined && w.config.grid.row.colors.length > 0) {
var x1 = 0;
var y1 = 0;
var y2 = w.globals.gridHeight / tickAmount;
var x2 = w.globals.gridWidth;
for (var i = 0, c = 0; i < tickAmount; i++, c++) {
if (c >= w.config.grid.row.colors.length) {
c = 0;
}
this._drawGridBandRect({
c: c,
x1: x1,
y1: y1,
x2: x2,
y2: y2,
type: 'row'
});
y1 = y1 + w.globals.gridHeight / tickAmount;
}
} // columns background bands
if (w.config.grid.column.colors !== undefined && w.config.grid.column.colors.length > 0) {
var xc = !w.globals.isBarHorizontal && (w.config.xaxis.type === 'category' || w.config.xaxis.convertedCatToNumeric) ? xCount - 1 : xCount;
var _x5 = w.globals.padHorizontal;
var _y5 = 0;
var _x6 = w.globals.padHorizontal + w.globals.gridWidth / xc;
var _y6 = w.globals.gridHeight;
for (var _i2 = 0, _c = 0; _i2 < xCount; _i2++, _c++) {
if (_c >= w.config.grid.column.colors.length) {
_c = 0;
}
this._drawGridBandRect({
c: _c,
x1: _x5,
y1: _y5,
x2: _x6,
y2: _y6,
type: 'column'
});
_x5 = _x5 + w.globals.gridWidth / xc;
}
}
}
}]);
return Grid;
}();
var Range = /*#__PURE__*/function () {
function Range(ctx) {
_classCallCheck(this, Range);
this.ctx = ctx;
this.w = ctx.w;
} // http://stackoverflow.com/questions/326679/choosing-an-attractive-linear-scale-for-a-graphs-y-axiss
// This routine creates the Y axis values for a graph.
_createClass(Range, [{
key: "niceScale",
value: function niceScale(yMin, yMax) {
var ticks = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 10;
var index = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : 0;
var NO_MIN_MAX_PROVIDED = arguments.length > 4 ? arguments[4] : undefined;
var w = this.w; // Determine Range
var range = Math.abs(yMax - yMin);
ticks = this._adjustTicksForSmallRange(ticks, index, range);
if (ticks === 'dataPoints') {
ticks = w.globals.dataPoints - 1;
}
if (yMin === Number.MIN_VALUE && yMax === 0 || !Utils.isNumber(yMin) && !Utils.isNumber(yMax) || yMin === Number.MIN_VALUE && yMax === -Number.MAX_VALUE) {
// when all values are 0
yMin = 0;
yMax = ticks;
var linearScale = this.linearScale(yMin, yMax, ticks);
return linearScale;
}
if (yMin > yMax) {
// if somehow due to some wrong config, user sent max less than min,
// adjust the min/max again
console.warn('axis.min cannot be greater than axis.max');
yMax = yMin + 0.1;
} else if (yMin === yMax) {
// If yMin and yMax are identical, then
// adjust the yMin and yMax values to actually
// make a graph. Also avoids division by zero errors.
yMin = yMin === 0 ? 0 : yMin - 0.5; // some small value
yMax = yMax === 0 ? 2 : yMax + 0.5; // some small value
} // Calculate Min amd Max graphical labels and graph
// increments. The number of ticks defaults to
// 10 which is the SUGGESTED value. Any tick value
// entered is used as a suggested value which is
// adjusted to be a 'pretty' value.
//
// Output will be an array of the Y axis values that
// encompass the Y values.
var result = [];
if (range < 1 && NO_MIN_MAX_PROVIDED && (w.config.chart.type === 'candlestick' || w.config.series[index].type === 'candlestick' || w.config.chart.type === 'boxPlot' || w.config.series[index].type === 'boxPlot' || w.globals.isRangeData)) {
/* fix https://github.com/apexcharts/apexcharts.js/issues/430 */
yMax = yMax * 1.01;
}
var tiks = ticks + 1; // Adjust ticks if needed
if (tiks < 2) {
tiks = 2;
} else if (tiks > 2) {
tiks -= 2;
} // Get raw step value
var tempStep = range / tiks; // Calculate pretty step value
var mag = Math.floor(Utils.log10(tempStep));
var magPow = Math.pow(10, mag);
var magMsd = Math.round(tempStep / magPow);
if (magMsd < 1) {
magMsd = 1;
}
var stepSize = magMsd * magPow; // build Y label array.
// Lower and upper bounds calculations
var lb = stepSize * Math.floor(yMin / stepSize);
var ub = stepSize * Math.ceil(yMax / stepSize); // Build array
var val = lb;
if (NO_MIN_MAX_PROVIDED && range > 2) {
while (1) {
result.push(val);
val += stepSize;
if (val > ub) {
break;
}
}
return {
result: result,
niceMin: result[0],
niceMax: result[result.length - 1]
};
} else {
result = [];
var v = yMin;
result.push(v);
var valuesDivider = Math.abs(yMax - yMin) / ticks;
for (var i = 0; i <= ticks; i++) {
v = v + valuesDivider;
result.push(v);
}
if (result[result.length - 2] >= yMax) {
result.pop();
}
return {
result: result,
niceMin: result[0],
niceMax: result[result.length - 1]
};
}
}
}, {
key: "linearScale",
value: function linearScale(yMin, yMax) {
var ticks = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 10;
var index = arguments.length > 3 ? arguments[3] : undefined;
var range = Math.abs(yMax - yMin);
ticks = this._adjustTicksForSmallRange(ticks, index, range);
if (ticks === 'dataPoints') {
ticks = this.w.globals.dataPoints - 1;
}
var step = range / ticks;
if (ticks === Number.MAX_VALUE) {
ticks = 10;
step = 1;
}
var result = [];
var v = yMin;
while (ticks >= 0) {
result.push(v);
v = v + step;
ticks -= 1;
}
return {
result: result,
niceMin: result[0],
niceMax: result[result.length - 1]
};
}
}, {
key: "logarithmicScale",
value: function logarithmicScale(yMax) {
var logs = [];
var ticks = Math.ceil(Math.log10(yMax)) + 1; // Get powers of 10 up to our max, and then one more
for (var i = 0; i < ticks; i++) {
logs.push(Math.pow(10, i));
}
return {
result: logs,
niceMin: logs[0],
niceMax: logs[logs.length - 1]
};
}
}, {
key: "_adjustTicksForSmallRange",
value: function _adjustTicksForSmallRange(ticks, index, range) {
var newTicks = ticks;
if (typeof index !== 'undefined' && this.w.config.yaxis[index].labels.formatter && this.w.config.yaxis[index].tickAmount === undefined) {
var formattedVal = this.w.config.yaxis[index].labels.formatter(1);
if (Utils.isNumber(Number(formattedVal)) && !Utils.isFloat(formattedVal)) {
newTicks = Math.ceil(range);
}
}
return newTicks < ticks ? newTicks : ticks;
}
}, {
key: "setYScaleForIndex",
value: function setYScaleForIndex(index, minY, maxY) {
var gl = this.w.globals;
var cnf = this.w.config;
var y = gl.isBarHorizontal ? cnf.xaxis : cnf.yaxis[index];
if (typeof gl.yAxisScale[index] === 'undefined') {
gl.yAxisScale[index] = [];
}
var diff = Math.abs(maxY - minY);
if (y.logarithmic && diff <= 5) {
gl.invalidLogScale = true;
}
if (y.logarithmic && diff > 5) {
gl.allSeriesCollapsed = false;
gl.yAxisScale[index] = this.logarithmicScale(maxY);
} else {
if (maxY === -Number.MAX_VALUE || !Utils.isNumber(maxY)) {
// no data in the chart. Either all series collapsed or user passed a blank array
gl.yAxisScale[index] = this.linearScale(0, 5, 5);
} else {
// there is some data. Turn off the allSeriesCollapsed flag
gl.allSeriesCollapsed = false;
if ((y.min !== undefined || y.max !== undefined) && !y.forceNiceScale) {
// fix https://github.com/apexcharts/apexcharts.js/issues/492
gl.yAxisScale[index] = this.linearScale(minY, maxY, y.tickAmount, index);
} else {
var noMinMaxProvided = cnf.yaxis[index].max === undefined && cnf.yaxis[index].min === undefined || cnf.yaxis[index].forceNiceScale;
gl.yAxisScale[index] = this.niceScale(minY, maxY, y.tickAmount ? y.tickAmount : diff < 5 && diff > 1 ? diff + 1 : 5, index, // fix https://github.com/apexcharts/apexcharts.js/issues/397
noMinMaxProvided);
}
}
}
}
}, {
key: "setXScale",
value: function setXScale(minX, maxX) {
var w = this.w;
var gl = w.globals;
var x = w.config.xaxis;
var diff = Math.abs(maxX - minX);
if (maxX === -Number.MAX_VALUE || !Utils.isNumber(maxX)) {
// no data in the chart. Either all series collapsed or user passed a blank array
gl.xAxisScale = this.linearScale(0, 5, 5);
} else {
gl.xAxisScale = this.linearScale(minX, maxX, x.tickAmount ? x.tickAmount : diff < 5 && diff > 1 ? diff + 1 : 5, 0);
}
return gl.xAxisScale;
}
}, {
key: "setMultipleYScales",
value: function setMultipleYScales() {
var _this = this;
var gl = this.w.globals;
var cnf = this.w.config;
var minYArr = gl.minYArr.concat([]);
var maxYArr = gl.maxYArr.concat([]);
var scalesIndices = []; // here, we loop through the yaxis array and find the item which has "seriesName" property
cnf.yaxis.forEach(function (yaxe, i) {
var index = i;
cnf.series.forEach(function (s, si) {
// if seriesName matches and that series is not collapsed, we use that scale
// fix issue #1215
// proceed even if si is in gl.collapsedSeriesIndices
if (s.name === yaxe.seriesName) {
index = si;
if (i !== si) {
scalesIndices.push({
index: si,
similarIndex: i,
alreadyExists: true
});
} else {
scalesIndices.push({
index: si
});
}
}
});
var minY = minYArr[index];
var maxY = maxYArr[index];
_this.setYScaleForIndex(i, minY, maxY);
});
this.sameScaleInMultipleAxes(minYArr, maxYArr, scalesIndices);
}
}, {
key: "sameScaleInMultipleAxes",
value: function sameScaleInMultipleAxes(minYArr, maxYArr, scalesIndices) {
var _this2 = this;
var cnf = this.w.config;
var gl = this.w.globals; // we got the scalesIndices array in the above code, but we need to filter out the items which doesn't have same scales
var similarIndices = [];
scalesIndices.forEach(function (scale) {
if (scale.alreadyExists) {
if (typeof similarIndices[scale.index] === 'undefined') {
similarIndices[scale.index] = [];
}
similarIndices[scale.index].push(scale.index);
similarIndices[scale.index].push(scale.similarIndex);
}
});
function intersect(a, b) {
return a.filter(function (value) {
return b.indexOf(value) !== -1;
});
}
gl.yAxisSameScaleIndices = similarIndices;
similarIndices.forEach(function (si, i) {
similarIndices.forEach(function (sj, j) {
if (i !== j) {
if (intersect(si, sj).length > 0) {
similarIndices[i] = similarIndices[i].concat(similarIndices[j]);
}
}
});
}); // then, we remove duplicates from the similarScale array
var uniqueSimilarIndices = similarIndices.map(function (item) {
return item.filter(function (i, pos) {
return item.indexOf(i) === pos;
});
}); // sort further to remove whole duplicate arrays later
var sortedIndices = uniqueSimilarIndices.map(function (s) {
return s.sort();
}); // remove undefined items
similarIndices = similarIndices.filter(function (s) {
return !!s;
});
var indices = sortedIndices.slice();
var stringIndices = indices.map(function (ind) {
return JSON.stringify(ind);
});
indices = indices.filter(function (ind, p) {
return stringIndices.indexOf(JSON.stringify(ind)) === p;
});
var sameScaleMinYArr = [];
var sameScaleMaxYArr = [];
minYArr.forEach(function (minYValue, yi) {
indices.forEach(function (scale, i) {
// we compare only the yIndex which exists in the indices array
if (scale.indexOf(yi) > -1) {
if (typeof sameScaleMinYArr[i] === 'undefined') {
sameScaleMinYArr[i] = [];
sameScaleMaxYArr[i] = [];
}
sameScaleMinYArr[i].push({
key: yi,
value: minYValue
});
sameScaleMaxYArr[i].push({
key: yi,
value: maxYArr[yi]
});
}
});
});
var sameScaleMin = Array.apply(null, Array(indices.length)).map(Number.prototype.valueOf, Number.MIN_VALUE);
var sameScaleMax = Array.apply(null, Array(indices.length)).map(Number.prototype.valueOf, -Number.MAX_VALUE);
sameScaleMinYArr.forEach(function (s, i) {
s.forEach(function (sc, j) {
sameScaleMin[i] = Math.min(sc.value, sameScaleMin[i]);
});
});
sameScaleMaxYArr.forEach(function (s, i) {
s.forEach(function (sc, j) {
sameScaleMax[i] = Math.max(sc.value, sameScaleMax[i]);
});
});
minYArr.forEach(function (min, i) {
sameScaleMaxYArr.forEach(function (s, si) {
var minY = sameScaleMin[si];
var maxY = sameScaleMax[si];
if (cnf.chart.stacked) {
// for stacked charts, we need to add the values
maxY = 0;
s.forEach(function (ind, k) {
// fix incorrectly adjust y scale issue #1215
if (ind.value !== -Number.MAX_VALUE) {
maxY += ind.value;
}
if (minY !== Number.MIN_VALUE) {
minY += sameScaleMinYArr[si][k].value;
}
});
}
s.forEach(function (ind, k) {
if (s[k].key === i) {
if (cnf.yaxis[i].min !== undefined) {
if (typeof cnf.yaxis[i].min === 'function') {
minY = cnf.yaxis[i].min(gl.minY);
} else {
minY = cnf.yaxis[i].min;
}
}
if (cnf.yaxis[i].max !== undefined) {
if (typeof cnf.yaxis[i].max === 'function') {
maxY = cnf.yaxis[i].max(gl.maxY);
} else {
maxY = cnf.yaxis[i].max;
}
}
_this2.setYScaleForIndex(i, minY, maxY);
}
});
});
});
} // experimental feature which scales the y-axis to a min/max based on x-axis range
}, {
key: "autoScaleY",
value: function autoScaleY(ctx, yaxis, e) {
if (!ctx) {
ctx = this;
}
var w = ctx.w;
if (w.globals.isMultipleYAxis || w.globals.collapsedSeries.length) {
// The autoScale option for multiple y-axis is turned off as it leads to buggy behavior.
// Also, when a series is collapsed, it results in incorrect behavior. Hence turned it off for that too - fixes apexcharts.js#795
console.warn('autoScaleYaxis is not supported in a multi-yaxis chart.');
return yaxis;
}
var seriesX = w.globals.seriesX[0];
var isStacked = w.config.chart.stacked;
yaxis.forEach(function (yaxe, yi) {
var firstXIndex = 0;
for (var xi = 0; xi < seriesX.length; xi++) {
if (seriesX[xi] >= e.xaxis.min) {
firstXIndex = xi;
break;
}
}
var initialMin = w.globals.minYArr[yi];
var initialMax = w.globals.maxYArr[yi];
var min, max;
var stackedSer = w.globals.stackedSeriesTotals;
w.globals.series.forEach(function (serie, sI) {
var firstValue = serie[firstXIndex];
if (isStacked) {
firstValue = stackedSer[firstXIndex];
min = max = firstValue;
stackedSer.forEach(function (y, yI) {
if (seriesX[yI] <= e.xaxis.max && seriesX[yI] >= e.xaxis.min) {
if (y > max && y !== null) max = y;
if (serie[yI] < min && serie[yI] !== null) min = serie[yI];
}
});
} else {
min = max = firstValue;
serie.forEach(function (y, yI) {
if (seriesX[yI] <= e.xaxis.max && seriesX[yI] >= e.xaxis.min) {
var valMin = y;
var valMax = y;
w.globals.series.forEach(function (wS, wSI) {
if (y !== null) {
valMin = Math.min(wS[yI], valMin);
valMax = Math.max(wS[yI], valMax);
}
});
if (valMax > max && valMax !== null) max = valMax;
if (valMin < min && valMin !== null) min = valMin;
}
});
}
if (min === undefined && max === undefined) {
min = initialMin;
max = initialMax;
}
min *= min < 0 ? 1.1 : 0.9;
max *= max < 0 ? 0.9 : 1.1;
if (max < 0 && max < initialMax) {
max = initialMax;
}
if (min < 0 && min > initialMin) {
min = initialMin;
}
if (yaxis.length > 1) {
yaxis[sI].min = yaxe.min === undefined ? min : yaxe.min;
yaxis[sI].max = yaxe.max === undefined ? max : yaxe.max;
} else {
yaxis[0].min = yaxe.min === undefined ? min : yaxe.min;
yaxis[0].max = yaxe.max === undefined ? max : yaxe.max;
}
});
});
return yaxis;
}
}]);
return Range;
}();
/**
* Range is used to generates values between min and max.
*
* @module Range
**/
var Range$1 = /*#__PURE__*/function () {
function Range$1(ctx) {
_classCallCheck(this, Range$1);
this.ctx = ctx;
this.w = ctx.w;
this.scales = new Range(ctx);
}
_createClass(Range$1, [{
key: "init",
value: function init() {
this.setYRange();
this.setXRange();
this.setZRange();
}
}, {
key: "getMinYMaxY",
value: function getMinYMaxY(startingIndex) {
var lowestY = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : Number.MAX_VALUE;
var highestY = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : -Number.MAX_VALUE;
var len = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : null;
var cnf = this.w.config;
var gl = this.w.globals;
var maxY = -Number.MAX_VALUE;
var minY = Number.MIN_VALUE;
if (len === null) {
len = startingIndex + 1;
}
var series = gl.series;
var seriesMin = series;
var seriesMax = series;
if (cnf.chart.type === 'candlestick') {
seriesMin = gl.seriesCandleL;
seriesMax = gl.seriesCandleH;
} else if (cnf.chart.type === 'boxPlot') {
seriesMin = gl.seriesCandleO;
seriesMax = gl.seriesCandleC;
} else if (gl.isRangeData) {
seriesMin = gl.seriesRangeStart;
seriesMax = gl.seriesRangeEnd;
}
for (var i = startingIndex; i < len; i++) {
gl.dataPoints = Math.max(gl.dataPoints, series[i].length);
for (var j = 0; j < gl.series[i].length; j++) {
var val = series[i][j];
if (val !== null && Utils.isNumber(val)) {
if (typeof seriesMax[i][j] !== 'undefined') {
maxY = Math.max(maxY, seriesMax[i][j]);
}
if (typeof seriesMin[i][j] !== 'undefined') {
lowestY = Math.min(lowestY, seriesMin[i][j]);
highestY = Math.max(highestY, seriesMin[i][j]);
}
if (this.w.config.chart.type === 'candlestick' || this.w.config.chart.type === 'boxPlot') {
if (typeof gl.seriesCandleC[i][j] !== 'undefined') {
maxY = Math.max(maxY, gl.seriesCandleO[i][j]);
maxY = Math.max(maxY, gl.seriesCandleH[i][j]);
maxY = Math.max(maxY, gl.seriesCandleL[i][j]);
maxY = Math.max(maxY, gl.seriesCandleC[i][j]);
if (this.w.config.chart.type === 'boxPlot') {
maxY = Math.max(maxY, gl.seriesCandleM[i][j]);
}
} // there is a combo chart and the specified series in not either candlestick or boxplot, find the max there
if (cnf.series[i].type && (cnf.series[i].type !== 'candlestick' || cnf.series[i].type !== 'boxPlot')) {
maxY = Math.max(maxY, gl.series[i][j]);
lowestY = Math.min(lowestY, gl.series[i][j]);
}
highestY = maxY;
}
if (gl.seriesGoals[i] && gl.seriesGoals[i][j] && Array.isArray(gl.seriesGoals[i][j])) {
gl.seriesGoals[i][j].forEach(function (g) {
if (minY !== Number.MIN_VALUE) {
minY = Math.min(minY, g.value);
lowestY = minY;
}
maxY = Math.max(maxY, g.value);
highestY = maxY;
});
}
if (Utils.isFloat(val)) {
val = Utils.noExponents(val);
gl.yValueDecimal = Math.max(gl.yValueDecimal, val.toString().split('.')[1].length);
}
if (minY > seriesMin[i][j] && seriesMin[i][j] < 0) {
minY = seriesMin[i][j];
}
} else {
gl.hasNullValues = true;
}
}
}
if (cnf.chart.type === 'rangeBar' && gl.seriesRangeStart.length && gl.isBarHorizontal && cnf.xaxis.type === 'datetime') {
minY = lowestY;
}
if (cnf.chart.type === 'bar') {
if (minY < 0 && maxY < 0) {
// all negative values in a bar chart, hence make the max to 0
maxY = 0;
}
if (minY === Number.MIN_VALUE) {
minY = 0;
}
}
return {
minY: minY,
maxY: maxY,
lowestY: lowestY,
highestY: highestY
};
}
}, {
key: "setYRange",
value: function setYRange() {
var gl = this.w.globals;
var cnf = this.w.config;
gl.maxY = -Number.MAX_VALUE;
gl.minY = Number.MIN_VALUE;
var lowestYInAllSeries = Number.MAX_VALUE;
if (gl.isMultipleYAxis) {
// we need to get minY and maxY for multiple y axis
for (var i = 0; i < gl.series.length; i++) {
var minYMaxYArr = this.getMinYMaxY(i, lowestYInAllSeries, null, i + 1);
gl.minYArr.push(minYMaxYArr.minY);
gl.maxYArr.push(minYMaxYArr.maxY);
lowestYInAllSeries = minYMaxYArr.lowestY;
}
} // and then, get the minY and maxY from all series
var minYMaxY = this.getMinYMaxY(0, lowestYInAllSeries, null, gl.series.length);
gl.minY = minYMaxY.minY;
gl.maxY = minYMaxY.maxY;
lowestYInAllSeries = minYMaxY.lowestY;
if (cnf.chart.stacked) {
this._setStackedMinMax();
} // if the numbers are too big, reduce the range
// for eg, if number is between 100000-110000, putting 0 as the lowest value is not so good idea. So change the gl.minY for line/area/candlesticks/boxPlot
if (cnf.chart.type === 'line' || cnf.chart.type === 'area' || cnf.chart.type === 'candlestick' || cnf.chart.type === 'boxPlot' || cnf.chart.type === 'rangeBar' && !gl.isBarHorizontal) {
if (gl.minY === Number.MIN_VALUE && lowestYInAllSeries !== -Number.MAX_VALUE && lowestYInAllSeries !== gl.maxY // single value possibility
) {
var diff = gl.maxY - lowestYInAllSeries;
if (lowestYInAllSeries >= 0 && lowestYInAllSeries <= 10 || cnf.yaxis[0].min !== undefined || cnf.yaxis[0].max !== undefined) {
// if minY is already 0/low value, we don't want to go negatives here - so this check is essential.
diff = 0;
}
gl.minY = lowestYInAllSeries - diff * 5 / 100;
/* fix https://github.com/apexcharts/apexcharts.js/issues/614 */
/* fix https://github.com/apexcharts/apexcharts.js/issues/968 */
if (lowestYInAllSeries > 0 && gl.minY < 0) {
gl.minY = 0;
}
/* fix https://github.com/apexcharts/apexcharts.js/issues/426 */
gl.maxY = gl.maxY + diff * 5 / 100;
}
}
cnf.yaxis.forEach(function (yaxe, index) {
// override all min/max values by user defined values (y axis)
if (yaxe.max !== undefined) {
if (typeof yaxe.max === 'number') {
gl.maxYArr[index] = yaxe.max;
} else if (typeof yaxe.max === 'function') {
// fixes apexcharts.js/issues/2098
gl.maxYArr[index] = yaxe.max(gl.isMultipleYAxis ? gl.maxYArr[index] : gl.maxY);
} // gl.maxY is for single y-axis chart, it will be ignored in multi-yaxis
gl.maxY = gl.maxYArr[index];
}
if (yaxe.min !== undefined) {
if (typeof yaxe.min === 'number') {
gl.minYArr[index] = yaxe.min;
} else if (typeof yaxe.min === 'function') {
// fixes apexcharts.js/issues/2098
gl.minYArr[index] = yaxe.min(gl.isMultipleYAxis ? gl.minYArr[index] === Number.MIN_VALUE ? 0 : gl.minYArr[index] : gl.minY);
} // gl.minY is for single y-axis chart, it will be ignored in multi-yaxis
gl.minY = gl.minYArr[index];
}
}); // for horizontal bar charts, we need to check xaxis min/max as user may have specified there
if (gl.isBarHorizontal) {
var minmax = ['min', 'max'];
minmax.forEach(function (m) {
if (cnf.xaxis[m] !== undefined && typeof cnf.xaxis[m] === 'number') {
m === 'min' ? gl.minY = cnf.xaxis[m] : gl.maxY = cnf.xaxis[m];
}
});
} // for multi y-axis we need different scales for each
if (gl.isMultipleYAxis) {
this.scales.setMultipleYScales();
gl.minY = lowestYInAllSeries;
gl.yAxisScale.forEach(function (scale, i) {
gl.minYArr[i] = scale.niceMin;
gl.maxYArr[i] = scale.niceMax;
});
} else {
this.scales.setYScaleForIndex(0, gl.minY, gl.maxY);
gl.minY = gl.yAxisScale[0].niceMin;
gl.maxY = gl.yAxisScale[0].niceMax;
gl.minYArr[0] = gl.yAxisScale[0].niceMin;
gl.maxYArr[0] = gl.yAxisScale[0].niceMax;
}
return {
minY: gl.minY,
maxY: gl.maxY,
minYArr: gl.minYArr,
maxYArr: gl.maxYArr,
yAxisScale: gl.yAxisScale
};
}
}, {
key: "setXRange",
value: function setXRange() {
var gl = this.w.globals;
var cnf = this.w.config;
var isXNumeric = cnf.xaxis.type === 'numeric' || cnf.xaxis.type === 'datetime' || cnf.xaxis.type === 'category' && !gl.noLabelsProvided || gl.noLabelsProvided || gl.isXNumeric;
var getInitialMinXMaxX = function getInitialMinXMaxX() {
for (var i = 0; i < gl.series.length; i++) {
if (gl.labels[i]) {
for (var j = 0; j < gl.labels[i].length; j++) {
if (gl.labels[i][j] !== null && Utils.isNumber(gl.labels[i][j])) {
gl.maxX = Math.max(gl.maxX, gl.labels[i][j]);
gl.initialMaxX = Math.max(gl.maxX, gl.labels[i][j]);
gl.minX = Math.min(gl.minX, gl.labels[i][j]);
gl.initialMinX = Math.min(gl.minX, gl.labels[i][j]);
}
}
}
}
}; // minX maxX starts here
if (gl.isXNumeric) {
getInitialMinXMaxX();
}
if (gl.noLabelsProvided) {
if (cnf.xaxis.categories.length === 0) {
gl.maxX = gl.labels[gl.labels.length - 1];
gl.initialMaxX = gl.labels[gl.labels.length - 1];
gl.minX = 1;
gl.initialMinX = 1;
}
}
if (gl.isXNumeric || gl.noLabelsProvided || gl.dataFormatXNumeric) {
var ticks;
if (cnf.xaxis.tickAmount === undefined) {
ticks = Math.round(gl.svgWidth / 150); // no labels provided and total number of dataPoints is less than 30
if (cnf.xaxis.type === 'numeric' && gl.dataPoints < 30) {
ticks = gl.dataPoints - 1;
} // this check is for when ticks exceeds total datapoints and that would result in duplicate labels
if (ticks > gl.dataPoints && gl.dataPoints !== 0) {
ticks = gl.dataPoints - 1;
}
} else if (cnf.xaxis.tickAmount === 'dataPoints') {
if (gl.series.length > 1) {
ticks = gl.series[gl.maxValsInArrayIndex].length - 1;
}
if (gl.isXNumeric) {
ticks = gl.maxX - gl.minX - 1;
}
} else {
ticks = cnf.xaxis.tickAmount;
}
gl.xTickAmount = ticks; // override all min/max values by user defined values (x axis)
if (cnf.xaxis.max !== undefined && typeof cnf.xaxis.max === 'number') {
gl.maxX = cnf.xaxis.max;
}
if (cnf.xaxis.min !== undefined && typeof cnf.xaxis.min === 'number') {
gl.minX = cnf.xaxis.min;
} // if range is provided, adjust the new minX
if (cnf.xaxis.range !== undefined) {
gl.minX = gl.maxX - cnf.xaxis.range;
}
if (gl.minX !== Number.MAX_VALUE && gl.maxX !== -Number.MAX_VALUE) {
if (cnf.xaxis.convertedCatToNumeric && !gl.dataFormatXNumeric) {
var catScale = [];
for (var i = gl.minX - 1; i < gl.maxX; i++) {
catScale.push(i + 1);
}
gl.xAxisScale = {
result: catScale,
niceMin: catScale[0],
niceMax: catScale[catScale.length - 1]
};
} else {
gl.xAxisScale = this.scales.setXScale(gl.minX, gl.maxX);
}
} else {
gl.xAxisScale = this.scales.linearScale(1, ticks, ticks);
if (gl.noLabelsProvided && gl.labels.length > 0) {
gl.xAxisScale = this.scales.linearScale(1, gl.labels.length, ticks - 1); // this is the only place seriesX is again mutated
gl.seriesX = gl.labels.slice();
}
} // we will still store these labels as the count for this will be different (to draw grid and labels placement)
if (isXNumeric) {
gl.labels = gl.xAxisScale.result.slice();
}
}
if (gl.isBarHorizontal && gl.labels.length) {
gl.xTickAmount = gl.labels.length;
} // single dataPoint
this._handleSingleDataPoint(); // minimum x difference to calculate bar width in numeric bars
this._getMinXDiff();
return {
minX: gl.minX,
maxX: gl.maxX
};
}
}, {
key: "setZRange",
value: function setZRange() {
// minZ, maxZ starts here
var gl = this.w.globals;
if (!gl.isDataXYZ) return;
for (var i = 0; i < gl.series.length; i++) {
if (typeof gl.seriesZ[i] !== 'undefined') {
for (var j = 0; j < gl.seriesZ[i].length; j++) {
if (gl.seriesZ[i][j] !== null && Utils.isNumber(gl.seriesZ[i][j])) {
gl.maxZ = Math.max(gl.maxZ, gl.seriesZ[i][j]);
gl.minZ = Math.min(gl.minZ, gl.seriesZ[i][j]);
}
}
}
}
}
}, {
key: "_handleSingleDataPoint",
value: function _handleSingleDataPoint() {
var gl = this.w.globals;
var cnf = this.w.config;
if (gl.minX === gl.maxX) {
var datetimeObj = new DateTime(this.ctx);
if (cnf.xaxis.type === 'datetime') {
var newMinX = datetimeObj.getDate(gl.minX);
newMinX.setUTCDate(newMinX.getDate() - 2);
gl.minX = new Date(newMinX).getTime();
var newMaxX = datetimeObj.getDate(gl.maxX);
newMaxX.setUTCDate(newMaxX.getDate() + 2);
gl.maxX = new Date(newMaxX).getTime();
} else if (cnf.xaxis.type === 'numeric' || cnf.xaxis.type === 'category' && !gl.noLabelsProvided) {
gl.minX = gl.minX - 2;
gl.initialMinX = gl.minX;
gl.maxX = gl.maxX + 2;
gl.initialMaxX = gl.maxX;
}
}
}
}, {
key: "_getMinXDiff",
value: function _getMinXDiff() {
var gl = this.w.globals;
if (gl.isXNumeric) {
// get the least x diff if numeric x axis is present
gl.seriesX.forEach(function (sX, i) {
if (sX.length === 1) {
// a small hack to prevent overlapping multiple bars when there is just 1 datapoint in bar series.
// fix #811
sX.push(gl.seriesX[gl.maxValsInArrayIndex][gl.seriesX[gl.maxValsInArrayIndex].length - 1]);
} // fix #983 (clone the array to avoid side effects)
var seriesX = sX.slice();
seriesX.sort(function (a, b) {
return a - b;
});
seriesX.forEach(function (s, j) {
if (j > 0) {
var xDiff = s - seriesX[j - 1];
if (xDiff > 0) {
gl.minXDiff = Math.min(xDiff, gl.minXDiff);
}
}
});
if (gl.dataPoints === 1 && gl.minXDiff === Number.MAX_VALUE) {
// fixes apexcharts.js #1221
gl.minXDiff = 0.5;
}
});
}
}
}, {
key: "_setStackedMinMax",
value: function _setStackedMinMax() {
var gl = this.w.globals; // for stacked charts, we calculate each series's parallel values. i.e, series[0][j] + series[1][j] .... [series[i.length][j]] and get the max out of it
var stackedPoss = [];
var stackedNegs = [];
if (gl.series.length) {
for (var j = 0; j < gl.series[gl.maxValsInArrayIndex].length; j++) {
var poss = 0;
var negs = 0;
for (var i = 0; i < gl.series.length; i++) {
if (gl.series[i][j] !== null && Utils.isNumber(gl.series[i][j])) {
// 0.0001 fixes #185 when values are very small
gl.series[i][j] > 0 ? poss = poss + parseFloat(gl.series[i][j]) + 0.0001 : negs = negs + parseFloat(gl.series[i][j]);
}
if (i === gl.series.length - 1) {
// push all the totals to the array for future use
stackedPoss.push(poss);
stackedNegs.push(negs);
}
}
}
} // get the max/min out of the added parallel values
for (var z = 0; z < stackedPoss.length; z++) {
gl.maxY = Math.max(gl.maxY, stackedPoss[z]);
gl.minY = Math.min(gl.minY, stackedNegs[z]);
}
}
}]);
return Range$1;
}();
/**
* ApexCharts YAxis Class for drawing Y-Axis.
*
* @module YAxis
**/
var YAxis = /*#__PURE__*/function () {
function YAxis(ctx) {
_classCallCheck(this, YAxis);
this.ctx = ctx;
this.w = ctx.w;
var w = this.w;
this.xaxisFontSize = w.config.xaxis.labels.style.fontSize;
this.axisFontFamily = w.config.xaxis.labels.style.fontFamily;
this.xaxisForeColors = w.config.xaxis.labels.style.colors;
this.isCategoryBarHorizontal = w.config.chart.type === 'bar' && w.config.plotOptions.bar.horizontal;
this.xAxisoffX = 0;
if (w.config.xaxis.position === 'bottom') {
this.xAxisoffX = w.globals.gridHeight;
}
this.drawnLabels = [];
this.axesUtils = new AxesUtils(ctx);
}
_createClass(YAxis, [{
key: "drawYaxis",
value: function drawYaxis(realIndex) {
var _this = this;
var w = this.w;
var graphics = new Graphics(this.ctx);
var yaxisStyle = w.config.yaxis[realIndex].labels.style;
var yaxisFontSize = yaxisStyle.fontSize;
var yaxisFontFamily = yaxisStyle.fontFamily;
var yaxisFontWeight = yaxisStyle.fontWeight;
var elYaxis = graphics.group({
class: 'apexcharts-yaxis',
rel: realIndex,
transform: 'translate(' + w.globals.translateYAxisX[realIndex] + ', 0)'
});
if (this.axesUtils.isYAxisHidden(realIndex)) {
return elYaxis;
}
var elYaxisTexts = graphics.group({
class: 'apexcharts-yaxis-texts-g'
});
elYaxis.add(elYaxisTexts);
var tickAmount = w.globals.yAxisScale[realIndex].result.length - 1; // labelsDivider is simply svg height/number of ticks
var labelsDivider = w.globals.gridHeight / tickAmount; // initial label position = 0;
var l = w.globals.translateY;
var lbFormatter = w.globals.yLabelFormatters[realIndex];
var labels = w.globals.yAxisScale[realIndex].result.slice();
labels = this.axesUtils.checkForReversedLabels(realIndex, labels);
var firstLabel = '';
if (w.config.yaxis[realIndex].labels.show) {
var _loop = function _loop(i) {
var val = labels[i];
val = lbFormatter(val, i, w);
var xPad = w.config.yaxis[realIndex].labels.padding;
if (w.config.yaxis[realIndex].opposite && w.config.yaxis.length !== 0) {
xPad = xPad * -1;
}
var yColors = _this.axesUtils.getYAxisForeColor(yaxisStyle.colors, realIndex);
var getForeColor = function getForeColor() {
return Array.isArray(yColors) ? yColors[i] : yColors;
};
var label = graphics.drawText({
x: xPad,
y: l + tickAmount / 10 + w.config.yaxis[realIndex].labels.offsetY + 1,
text: val,
textAnchor: w.config.yaxis[realIndex].opposite ? 'start' : 'end',
fontSize: yaxisFontSize,
fontFamily: yaxisFontFamily,
fontWeight: yaxisFontWeight,
foreColor: getForeColor(),
isPlainText: false,
cssClass: 'apexcharts-yaxis-label ' + yaxisStyle.cssClass
});
if (i === tickAmount) {
firstLabel = label;
}
elYaxisTexts.add(label);
var elTooltipTitle = document.createElementNS(w.globals.SVGNS, 'title');
elTooltipTitle.textContent = Array.isArray(val) ? val.join(' ') : val;
label.node.appendChild(elTooltipTitle);
if (w.config.yaxis[realIndex].labels.rotate !== 0) {
var firstabelRotatingCenter = graphics.rotateAroundCenter(firstLabel.node);
var labelRotatingCenter = graphics.rotateAroundCenter(label.node);
label.node.setAttribute('transform', "rotate(".concat(w.config.yaxis[realIndex].labels.rotate, " ").concat(firstabelRotatingCenter.x, " ").concat(labelRotatingCenter.y, ")"));
}
l = l + labelsDivider;
};
for (var i = tickAmount; i >= 0; i--) {
_loop(i);
}
}
if (w.config.yaxis[realIndex].title.text !== undefined) {
var elYaxisTitle = graphics.group({
class: 'apexcharts-yaxis-title'
});
var _x = 0;
if (w.config.yaxis[realIndex].opposite) {
_x = w.globals.translateYAxisX[realIndex];
}
var elYAxisTitleText = graphics.drawText({
x: _x,
y: w.globals.gridHeight / 2 + w.globals.translateY + w.config.yaxis[realIndex].title.offsetY,
text: w.config.yaxis[realIndex].title.text,
textAnchor: 'end',
foreColor: w.config.yaxis[realIndex].title.style.color,
fontSize: w.config.yaxis[realIndex].title.style.fontSize,
fontWeight: w.config.yaxis[realIndex].title.style.fontWeight,
fontFamily: w.config.yaxis[realIndex].title.style.fontFamily,
cssClass: 'apexcharts-yaxis-title-text ' + w.config.yaxis[realIndex].title.style.cssClass
});
elYaxisTitle.add(elYAxisTitleText);
elYaxis.add(elYaxisTitle);
}
var axisBorder = w.config.yaxis[realIndex].axisBorder;
var x = 31 + axisBorder.offsetX;
if (w.config.yaxis[realIndex].opposite) {
x = -31 - axisBorder.offsetX;
}
if (axisBorder.show) {
var elVerticalLine = graphics.drawLine(x, w.globals.translateY + axisBorder.offsetY - 2, x, w.globals.gridHeight + w.globals.translateY + axisBorder.offsetY + 2, axisBorder.color, 0, axisBorder.width);
elYaxis.add(elVerticalLine);
}
if (w.config.yaxis[realIndex].axisTicks.show) {
this.axesUtils.drawYAxisTicks(x, tickAmount, axisBorder, w.config.yaxis[realIndex].axisTicks, realIndex, labelsDivider, elYaxis);
}
return elYaxis;
} // This actually becomes horizontal axis (for bar charts)
}, {
key: "drawYaxisInversed",
value: function drawYaxisInversed(realIndex) {
var w = this.w;
var graphics = new Graphics(this.ctx);
var elXaxis = graphics.group({
class: 'apexcharts-xaxis apexcharts-yaxis-inversed'
});
var elXaxisTexts = graphics.group({
class: 'apexcharts-xaxis-texts-g',
transform: "translate(".concat(w.globals.translateXAxisX, ", ").concat(w.globals.translateXAxisY, ")")
});
elXaxis.add(elXaxisTexts);
var tickAmount = w.globals.yAxisScale[realIndex].result.length - 1; // labelsDivider is simply svg width/number of ticks
var labelsDivider = w.globals.gridWidth / tickAmount + 0.1; // initial label position;
var l = labelsDivider + w.config.xaxis.labels.offsetX;
var lbFormatter = w.globals.xLabelFormatter;
var labels = w.globals.yAxisScale[realIndex].result.slice();
var timescaleLabels = w.globals.timescaleLabels;
if (timescaleLabels.length > 0) {
this.xaxisLabels = timescaleLabels.slice();
labels = timescaleLabels.slice();
tickAmount = labels.length;
}
labels = this.axesUtils.checkForReversedLabels(realIndex, labels);
var tl = timescaleLabels.length;
if (w.config.xaxis.labels.show) {
for (var i = tl ? 0 : tickAmount; tl ? i < tl : i >= 0; tl ? i++ : i--) {
var val = labels[i];
val = lbFormatter(val, i, w);
var x = w.globals.gridWidth + w.globals.padHorizontal - (l - labelsDivider + w.config.xaxis.labels.offsetX);
if (timescaleLabels.length) {
var label = this.axesUtils.getLabel(labels, timescaleLabels, x, i, this.drawnLabels, this.xaxisFontSize);
x = label.x;
val = label.text;
this.drawnLabels.push(label.text);
if (i === 0 && w.globals.skipFirstTimelinelabel) {
val = '';
}
if (i === labels.length - 1 && w.globals.skipLastTimelinelabel) {
val = '';
}
}
var elTick = graphics.drawText({
x: x,
y: this.xAxisoffX + w.config.xaxis.labels.offsetY + 30 - (w.config.xaxis.position === 'top' ? w.globals.xAxisHeight + w.config.xaxis.axisTicks.height - 2 : 0),
text: val,
textAnchor: 'middle',
foreColor: Array.isArray(this.xaxisForeColors) ? this.xaxisForeColors[realIndex] : this.xaxisForeColors,
fontSize: this.xaxisFontSize,
fontFamily: this.xaxisFontFamily,
fontWeight: w.config.xaxis.labels.style.fontWeight,
isPlainText: false,
cssClass: 'apexcharts-xaxis-label ' + w.config.xaxis.labels.style.cssClass
});
elXaxisTexts.add(elTick);
elTick.tspan(val);
var elTooltipTitle = document.createElementNS(w.globals.SVGNS, 'title');
elTooltipTitle.textContent = val;
elTick.node.appendChild(elTooltipTitle);
l = l + labelsDivider;
}
}
this.inversedYAxisTitleText(elXaxis);
this.inversedYAxisBorder(elXaxis);
return elXaxis;
}
}, {
key: "inversedYAxisBorder",
value: function inversedYAxisBorder(parent) {
var w = this.w;
var graphics = new Graphics(this.ctx);
var axisBorder = w.config.xaxis.axisBorder;
if (axisBorder.show) {
var lineCorrection = 0;
if (w.config.chart.type === 'bar' && w.globals.isXNumeric) {
lineCorrection = lineCorrection - 15;
}
var elHorzLine = graphics.drawLine(w.globals.padHorizontal + lineCorrection + axisBorder.offsetX, this.xAxisoffX, w.globals.gridWidth, this.xAxisoffX, axisBorder.color, 0, axisBorder.height);
parent.add(elHorzLine);
}
}
}, {
key: "inversedYAxisTitleText",
value: function inversedYAxisTitleText(parent) {
var w = this.w;
var graphics = new Graphics(this.ctx);
if (w.config.xaxis.title.text !== undefined) {
var elYaxisTitle = graphics.group({
class: 'apexcharts-xaxis-title apexcharts-yaxis-title-inversed'
});
var elYAxisTitleText = graphics.drawText({
x: w.globals.gridWidth / 2 + w.config.xaxis.title.offsetX,
y: this.xAxisoffX + parseFloat(this.xaxisFontSize) + parseFloat(w.config.xaxis.title.style.fontSize) + w.config.xaxis.title.offsetY + 20,
text: w.config.xaxis.title.text,
textAnchor: 'middle',
fontSize: w.config.xaxis.title.style.fontSize,
fontFamily: w.config.xaxis.title.style.fontFamily,
fontWeight: w.config.xaxis.title.style.fontWeight,
foreColor: w.config.xaxis.title.style.color,
cssClass: 'apexcharts-xaxis-title-text ' + w.config.xaxis.title.style.cssClass
});
elYaxisTitle.add(elYAxisTitleText);
parent.add(elYaxisTitle);
}
}
}, {
key: "yAxisTitleRotate",
value: function yAxisTitleRotate(realIndex, yAxisOpposite) {
var w = this.w;
var graphics = new Graphics(this.ctx);
var yAxisLabelsCoord = {
width: 0,
height: 0
};
var yAxisTitleCoord = {
width: 0,
height: 0
};
var elYAxisLabelsWrap = w.globals.dom.baseEl.querySelector(" .apexcharts-yaxis[rel='".concat(realIndex, "'] .apexcharts-yaxis-texts-g"));
if (elYAxisLabelsWrap !== null) {
yAxisLabelsCoord = elYAxisLabelsWrap.getBoundingClientRect();
}
var yAxisTitle = w.globals.dom.baseEl.querySelector(".apexcharts-yaxis[rel='".concat(realIndex, "'] .apexcharts-yaxis-title text"));
if (yAxisTitle !== null) {
yAxisTitleCoord = yAxisTitle.getBoundingClientRect();
}
if (yAxisTitle !== null) {
var x = this.xPaddingForYAxisTitle(realIndex, yAxisLabelsCoord, yAxisTitleCoord, yAxisOpposite);
yAxisTitle.setAttribute('x', x.xPos - (yAxisOpposite ? 10 : 0));
}
if (yAxisTitle !== null) {
var titleRotatingCenter = graphics.rotateAroundCenter(yAxisTitle);
yAxisTitle.setAttribute('transform', "rotate(".concat(yAxisOpposite ? w.config.yaxis[realIndex].title.rotate * -1 : w.config.yaxis[realIndex].title.rotate, " ").concat(titleRotatingCenter.x, " ").concat(titleRotatingCenter.y, ")"));
}
}
}, {
key: "xPaddingForYAxisTitle",
value: function xPaddingForYAxisTitle(realIndex, yAxisLabelsCoord, yAxisTitleCoord, yAxisOpposite) {
var w = this.w;
var oppositeAxisCount = 0;
var x = 0;
var padd = 10;
if (w.config.yaxis[realIndex].title.text === undefined || realIndex < 0) {
return {
xPos: x,
padd: 0
};
}
if (yAxisOpposite) {
x = yAxisLabelsCoord.width + w.config.yaxis[realIndex].title.offsetX + yAxisTitleCoord.width / 2 + padd / 2;
oppositeAxisCount += 1;
if (oppositeAxisCount === 0) {
x = x - padd / 2;
}
} else {
x = yAxisLabelsCoord.width * -1 + w.config.yaxis[realIndex].title.offsetX + padd / 2 + yAxisTitleCoord.width / 2;
if (w.globals.isBarHorizontal) {
padd = 25;
x = yAxisLabelsCoord.width * -1 - w.config.yaxis[realIndex].title.offsetX - padd;
}
}
return {
xPos: x,
padd: padd
};
} // sets the x position of the y-axis by counting the labels width, title width and any offset
}, {
key: "setYAxisXPosition",
value: function setYAxisXPosition(yaxisLabelCoords, yTitleCoords) {
var w = this.w;
var xLeft = 0;
var xRight = 0;
var leftOffsetX = 18;
var rightOffsetX = 1;
if (w.config.yaxis.length > 1) {
this.multipleYs = true;
}
w.config.yaxis.map(function (yaxe, index) {
var shouldNotDrawAxis = w.globals.ignoreYAxisIndexes.indexOf(index) > -1 || !yaxe.show || yaxe.floating || yaxisLabelCoords[index].width === 0;
var axisWidth = yaxisLabelCoords[index].width + yTitleCoords[index].width;
if (!yaxe.opposite) {
xLeft = w.globals.translateX - leftOffsetX;
if (!shouldNotDrawAxis) {
leftOffsetX = leftOffsetX + axisWidth + 20;
}
w.globals.translateYAxisX[index] = xLeft + yaxe.labels.offsetX;
} else {
if (w.globals.isBarHorizontal) {
xRight = w.globals.gridWidth + w.globals.translateX - 1;
w.globals.translateYAxisX[index] = xRight - yaxe.labels.offsetX;
} else {
xRight = w.globals.gridWidth + w.globals.translateX + rightOffsetX;
if (!shouldNotDrawAxis) {
rightOffsetX = rightOffsetX + axisWidth + 20;
}
w.globals.translateYAxisX[index] = xRight - yaxe.labels.offsetX + 20;
}
}
});
}
}, {
key: "setYAxisTextAlignments",
value: function setYAxisTextAlignments() {
var w = this.w;
var yaxis = w.globals.dom.baseEl.getElementsByClassName("apexcharts-yaxis");
yaxis = Utils.listToArray(yaxis);
yaxis.forEach(function (y, index) {
var yaxe = w.config.yaxis[index]; // proceed only if user has specified alignment
if (yaxe && yaxe.labels.align !== undefined) {
var yAxisInner = w.globals.dom.baseEl.querySelector(".apexcharts-yaxis[rel='".concat(index, "'] .apexcharts-yaxis-texts-g"));
var yAxisTexts = w.globals.dom.baseEl.querySelectorAll(".apexcharts-yaxis[rel='".concat(index, "'] .apexcharts-yaxis-label"));
yAxisTexts = Utils.listToArray(yAxisTexts);
var rect = yAxisInner.getBoundingClientRect();
if (yaxe.labels.align === 'left') {
yAxisTexts.forEach(function (label, lI) {
label.setAttribute('text-anchor', 'start');
});
if (!yaxe.opposite) {
yAxisInner.setAttribute('transform', "translate(-".concat(rect.width, ", 0)"));
}
} else if (yaxe.labels.align === 'center') {
yAxisTexts.forEach(function (label, lI) {
label.setAttribute('text-anchor', 'middle');
});
yAxisInner.setAttribute('transform', "translate(".concat(rect.width / 2 * (!yaxe.opposite ? -1 : 1), ", 0)"));
} else if (yaxe.labels.align === 'right') {
yAxisTexts.forEach(function (label, lI) {
label.setAttribute('text-anchor', 'end');
});
if (yaxe.opposite) {
yAxisInner.setAttribute('transform', "translate(".concat(rect.width, ", 0)"));
}
}
}
});
}
}]);
return YAxis;
}();
var Events = /*#__PURE__*/function () {
function Events(ctx) {
_classCallCheck(this, Events);
this.ctx = ctx;
this.w = ctx.w;
this.documentEvent = Utils.bind(this.documentEvent, this);
}
_createClass(Events, [{
key: "addEventListener",
value: function addEventListener(name, handler) {
var w = this.w;
if (w.globals.events.hasOwnProperty(name)) {
w.globals.events[name].push(handler);
} else {
w.globals.events[name] = [handler];
}
}
}, {
key: "removeEventListener",
value: function removeEventListener(name, handler) {
var w = this.w;
if (!w.globals.events.hasOwnProperty(name)) {
return;
}
var index = w.globals.events[name].indexOf(handler);
if (index !== -1) {
w.globals.events[name].splice(index, 1);
}
}
}, {
key: "fireEvent",
value: function fireEvent(name, args) {
var w = this.w;
if (!w.globals.events.hasOwnProperty(name)) {
return;
}
if (!args || !args.length) {
args = [];
}
var evs = w.globals.events[name];
var l = evs.length;
for (var i = 0; i < l; i++) {
evs[i].apply(null, args);
}
}
}, {
key: "setupEventHandlers",
value: function setupEventHandlers() {
var _this = this;
var w = this.w;
var me = this.ctx;
var clickableArea = w.globals.dom.baseEl.querySelector(w.globals.chartClass);
this.ctx.eventList.forEach(function (event) {
clickableArea.addEventListener(event, function (e) {
var opts = Object.assign({}, w, {
seriesIndex: w.globals.capturedSeriesIndex,
dataPointIndex: w.globals.capturedDataPointIndex
});
if (e.type === 'mousemove' || e.type === 'touchmove') {
if (typeof w.config.chart.events.mouseMove === 'function') {
w.config.chart.events.mouseMove(e, me, opts);
}
} else if (e.type === 'mouseleave' || e.type === 'touchleave') {
if (typeof w.config.chart.events.mouseLeave === 'function') {
w.config.chart.events.mouseLeave(e, me, opts);
}
} else if (e.type === 'mouseup' && e.which === 1 || e.type === 'touchend') {
if (typeof w.config.chart.events.click === 'function') {
w.config.chart.events.click(e, me, opts);
}
me.ctx.events.fireEvent('click', [e, me, opts]);
}
}, {
capture: false,
passive: true
});
});
this.ctx.eventList.forEach(function (event) {
w.globals.dom.baseEl.addEventListener(event, _this.documentEvent, {
passive: true
});
});
this.ctx.core.setupBrushHandler();
}
}, {
key: "documentEvent",
value: function documentEvent(e) {
var w = this.w;
var target = e.target.className;
if (e.type === 'click') {
var elMenu = w.globals.dom.baseEl.querySelector('.apexcharts-menu');
if (elMenu && elMenu.classList.contains('apexcharts-menu-open') && target !== 'apexcharts-menu-icon') {
elMenu.classList.remove('apexcharts-menu-open');
}
}
w.globals.clientX = e.type === 'touchmove' ? e.touches[0].clientX : e.clientX;
w.globals.clientY = e.type === 'touchmove' ? e.touches[0].clientY : e.clientY;
}
}]);
return Events;
}();
var Localization = /*#__PURE__*/function () {
function Localization(ctx) {
_classCallCheck(this, Localization);
this.ctx = ctx;
this.w = ctx.w;
}
_createClass(Localization, [{
key: "setCurrentLocaleValues",
value: function setCurrentLocaleValues(localeName) {
var locales = this.w.config.chart.locales; // check if user has specified locales in global Apex variable
// if yes - then extend those with local chart's locale
if (window.Apex.chart && window.Apex.chart.locales && window.Apex.chart.locales.length > 0) {
locales = this.w.config.chart.locales.concat(window.Apex.chart.locales);
} // find the locale from the array of locales which user has set (either by chart.defaultLocale or by calling setLocale() method.)
var selectedLocale = locales.filter(function (c) {
return c.name === localeName;
})[0];
if (selectedLocale) {
// create a complete locale object by extending defaults so you don't get undefined errors.
var ret = Utils.extend(en, selectedLocale); // store these locale options in global var for ease access
this.w.globals.locale = ret.options;
} else {
throw new Error('Wrong locale name provided. Please make sure you set the correct locale name in options');
}
}
}]);
return Localization;
}();
var Axes = /*#__PURE__*/function () {
function Axes(ctx) {
_classCallCheck(this, Axes);
this.ctx = ctx;
this.w = ctx.w;
}
_createClass(Axes, [{
key: "drawAxis",
value: function drawAxis(type, xyRatios) {
var gl = this.w.globals;
var cnf = this.w.config;
var xAxis = new XAxis(this.ctx);
var yAxis = new YAxis(this.ctx);
if (gl.axisCharts && type !== 'radar') {
var elXaxis, elYaxis;
if (gl.isBarHorizontal) {
elYaxis = yAxis.drawYaxisInversed(0);
elXaxis = xAxis.drawXaxisInversed(0);
gl.dom.elGraphical.add(elXaxis);
gl.dom.elGraphical.add(elYaxis);
} else {
elXaxis = xAxis.drawXaxis();
gl.dom.elGraphical.add(elXaxis);
cnf.yaxis.map(function (yaxe, index) {
if (gl.ignoreYAxisIndexes.indexOf(index) === -1) {
elYaxis = yAxis.drawYaxis(index);
gl.dom.Paper.add(elYaxis);
}
});
}
}
}
}]);
return Axes;
}();
var Crosshairs = /*#__PURE__*/function () {
function Crosshairs(ctx) {
_classCallCheck(this, Crosshairs);
this.ctx = ctx;
this.w = ctx.w;
}
_createClass(Crosshairs, [{
key: "drawXCrosshairs",
value: function drawXCrosshairs() {
var w = this.w;
var graphics = new Graphics(this.ctx);
var filters = new Filters(this.ctx);
var crosshairGradient = w.config.xaxis.crosshairs.fill.gradient;
var crosshairShadow = w.config.xaxis.crosshairs.dropShadow;
var fillType = w.config.xaxis.crosshairs.fill.type;
var gradientFrom = crosshairGradient.colorFrom;
var gradientTo = crosshairGradient.colorTo;
var opacityFrom = crosshairGradient.opacityFrom;
var opacityTo = crosshairGradient.opacityTo;
var stops = crosshairGradient.stops;
var shadow = 'none';
var dropShadow = crosshairShadow.enabled;
var shadowLeft = crosshairShadow.left;
var shadowTop = crosshairShadow.top;
var shadowBlur = crosshairShadow.blur;
var shadowColor = crosshairShadow.color;
var shadowOpacity = crosshairShadow.opacity;
var xcrosshairsFill = w.config.xaxis.crosshairs.fill.color;
if (w.config.xaxis.crosshairs.show) {
if (fillType === 'gradient') {
xcrosshairsFill = graphics.drawGradient('vertical', gradientFrom, gradientTo, opacityFrom, opacityTo, null, stops, null);
}
var xcrosshairs = graphics.drawRect();
if (w.config.xaxis.crosshairs.width === 1) {
// to prevent drawing 2 lines, convert rect to line
xcrosshairs = graphics.drawLine();
}
var gridHeight = w.globals.gridHeight;
if (!Utils.isNumber(gridHeight) || gridHeight < 0) {
gridHeight = 0;
}
var crosshairsWidth = w.config.xaxis.crosshairs.width;
if (!Utils.isNumber(crosshairsWidth) || crosshairsWidth < 0) {
crosshairsWidth = 0;
}
xcrosshairs.attr({
class: 'apexcharts-xcrosshairs',
x: 0,
y: 0,
y2: gridHeight,
width: crosshairsWidth,
height: gridHeight,
fill: xcrosshairsFill,
filter: shadow,
'fill-opacity': w.config.xaxis.crosshairs.opacity,
stroke: w.config.xaxis.crosshairs.stroke.color,
'stroke-width': w.config.xaxis.crosshairs.stroke.width,
'stroke-dasharray': w.config.xaxis.crosshairs.stroke.dashArray
});
if (dropShadow) {
xcrosshairs = filters.dropShadow(xcrosshairs, {
left: shadowLeft,
top: shadowTop,
blur: shadowBlur,
color: shadowColor,
opacity: shadowOpacity
});
}
w.globals.dom.elGraphical.add(xcrosshairs);
}
}
}, {
key: "drawYCrosshairs",
value: function drawYCrosshairs() {
var w = this.w;
var graphics = new Graphics(this.ctx);
var crosshair = w.config.yaxis[0].crosshairs;
var offX = w.globals.barPadForNumericAxis;
if (w.config.yaxis[0].crosshairs.show) {
var ycrosshairs = graphics.drawLine(-offX, 0, w.globals.gridWidth + offX, 0, crosshair.stroke.color, crosshair.stroke.dashArray, crosshair.stroke.width);
ycrosshairs.attr({
class: 'apexcharts-ycrosshairs'
});
w.globals.dom.elGraphical.add(ycrosshairs);
} // draw an invisible crosshair to help in positioning the yaxis tooltip
var ycrosshairsHidden = graphics.drawLine(-offX, 0, w.globals.gridWidth + offX, 0, crosshair.stroke.color, 0, 0);
ycrosshairsHidden.attr({
class: 'apexcharts-ycrosshairs-hidden'
});
w.globals.dom.elGraphical.add(ycrosshairsHidden);
}
}]);
return Crosshairs;
}();
/**
* ApexCharts Responsive Class to override options for different screen sizes.
*
* @module Responsive
**/
var Responsive = /*#__PURE__*/function () {
function Responsive(ctx) {
_classCallCheck(this, Responsive);
this.ctx = ctx;
this.w = ctx.w;
} // the opts parameter if not null has to be set overriding everything
// as the opts is set by user externally
_createClass(Responsive, [{
key: "checkResponsiveConfig",
value: function checkResponsiveConfig(opts) {
var _this = this;
var w = this.w;
var cnf = w.config; // check if responsive config exists
if (cnf.responsive.length === 0) return;
var res = cnf.responsive.slice();
res.sort(function (a, b) {
return a.breakpoint > b.breakpoint ? 1 : b.breakpoint > a.breakpoint ? -1 : 0;
}).reverse();
var config = new Config({});
var iterateResponsiveOptions = function iterateResponsiveOptions() {
var newOptions = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {};
var largestBreakpoint = res[0].breakpoint;
var width = window.innerWidth > 0 ? window.innerWidth : screen.width;
if (width > largestBreakpoint) {
var options = CoreUtils.extendArrayProps(config, w.globals.initialConfig, w);
newOptions = Utils.extend(options, newOptions);
newOptions = Utils.extend(w.config, newOptions);
_this.overrideResponsiveOptions(newOptions);
} else {
for (var i = 0; i < res.length; i++) {
if (width < res[i].breakpoint) {
newOptions = CoreUtils.extendArrayProps(config, res[i].options, w);
newOptions = Utils.extend(w.config, newOptions);
_this.overrideResponsiveOptions(newOptions);
}
}
}
};
if (opts) {
var options = CoreUtils.extendArrayProps(config, opts, w);
options = Utils.extend(w.config, options);
options = Utils.extend(options, opts);
iterateResponsiveOptions(options);
} else {
iterateResponsiveOptions({});
}
}
}, {
key: "overrideResponsiveOptions",
value: function overrideResponsiveOptions(newOptions) {
var newConfig = new Config(newOptions).init({
responsiveOverride: true
});
this.w.config = newConfig;
}
}]);
return Responsive;
}();
/**
* ApexCharts Theme Class for setting the colors and palettes.
*
* @module Theme
**/
var Theme = /*#__PURE__*/function () {
function Theme(ctx) {
_classCallCheck(this, Theme);
this.ctx = ctx;
this.colors = [];
this.w = ctx.w;
var w = this.w;
this.isColorFn = false;
this.isHeatmapDistributed = w.config.chart.type === 'treemap' && w.config.plotOptions.treemap.distributed || w.config.chart.type === 'heatmap' && w.config.plotOptions.heatmap.distributed;
this.isBarDistributed = w.config.plotOptions.bar.distributed && (w.config.chart.type === 'bar' || w.config.chart.type === 'rangeBar');
}
_createClass(Theme, [{
key: "init",
value: function init() {
this.setDefaultColors();
}
}, {
key: "setDefaultColors",
value: function setDefaultColors() {
var _this = this;
var w = this.w;
var utils = new Utils();
w.globals.dom.elWrap.classList.add("apexcharts-theme-".concat(w.config.theme.mode));
if (w.config.colors === undefined) {
w.globals.colors = this.predefined();
} else {
w.globals.colors = w.config.colors; // if user provided a function in colors, we need to eval here
if (Array.isArray(w.config.colors) && w.config.colors.length > 0 && typeof w.config.colors[0] === 'function') {
w.globals.colors = w.config.series.map(function (s, i) {
var c = w.config.colors[i];
if (!c) c = w.config.colors[0];
if (typeof c === 'function') {
_this.isColorFn = true;
return c({
value: w.globals.axisCharts ? w.globals.series[i][0] ? w.globals.series[i][0] : 0 : w.globals.series[i],
seriesIndex: i,
dataPointIndex: i,
w: w
});
}
return c;
});
}
} // user defined colors in series array
w.globals.seriesColors.map(function (c, i) {
if (c) {
w.globals.colors[i] = c;
}
});
if (w.config.theme.monochrome.enabled) {
var monoArr = [];
var glsCnt = w.globals.series.length;
if (this.isBarDistributed || this.isHeatmapDistributed) {
glsCnt = w.globals.series[0].length * w.globals.series.length;
}
var mainColor = w.config.theme.monochrome.color;
var part = 1 / (glsCnt / w.config.theme.monochrome.shadeIntensity);
var shade = w.config.theme.monochrome.shadeTo;
var percent = 0;
for (var gsl = 0; gsl < glsCnt; gsl++) {
var newColor = void 0;
if (shade === 'dark') {
newColor = utils.shadeColor(percent * -1, mainColor);
percent = percent + part;
} else {
newColor = utils.shadeColor(percent, mainColor);
percent = percent + part;
}
monoArr.push(newColor);
}
w.globals.colors = monoArr.slice();
}
var defaultColors = w.globals.colors.slice(); // if user specified fewer colors than no. of series, push the same colors again
this.pushExtraColors(w.globals.colors);
var colorTypes = ['fill', 'stroke'];
colorTypes.forEach(function (c) {
if (w.config[c].colors === undefined) {
w.globals[c].colors = _this.isColorFn ? w.config.colors : defaultColors;
} else {
w.globals[c].colors = w.config[c].colors.slice();
}
_this.pushExtraColors(w.globals[c].colors);
});
if (w.config.dataLabels.style.colors === undefined) {
w.globals.dataLabels.style.colors = defaultColors;
} else {
w.globals.dataLabels.style.colors = w.config.dataLabels.style.colors.slice();
}
this.pushExtraColors(w.globals.dataLabels.style.colors, 50);
if (w.config.plotOptions.radar.polygons.fill.colors === undefined) {
w.globals.radarPolygons.fill.colors = [w.config.theme.mode === 'dark' ? '#424242' : 'none'];
} else {
w.globals.radarPolygons.fill.colors = w.config.plotOptions.radar.polygons.fill.colors.slice();
}
this.pushExtraColors(w.globals.radarPolygons.fill.colors, 20); // The point colors
if (w.config.markers.colors === undefined) {
w.globals.markers.colors = defaultColors;
} else {
w.globals.markers.colors = w.config.markers.colors.slice();
}
this.pushExtraColors(w.globals.markers.colors);
} // When the number of colors provided is less than the number of series, this method
// will push same colors to the list
// params:
// distributed is only valid for distributed column/bar charts
}, {
key: "pushExtraColors",
value: function pushExtraColors(colorSeries, length) {
var distributed = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : null;
var w = this.w;
var len = length || w.globals.series.length;
if (distributed === null) {
distributed = this.isBarDistributed || this.isHeatmapDistributed || w.config.chart.type === 'heatmap' && w.config.plotOptions.heatmap.colorScale.inverse;
}
if (distributed && w.globals.series.length) {
len = w.globals.series[w.globals.maxValsInArrayIndex].length * w.globals.series.length;
}
if (colorSeries.length < len) {
var diff = len - colorSeries.length;
for (var i = 0; i < diff; i++) {
colorSeries.push(colorSeries[i]);
}
}
}
}, {
key: "updateThemeOptions",
value: function updateThemeOptions(options) {
options.chart = options.chart || {};
options.tooltip = options.tooltip || {};
var mode = options.theme.mode || 'light';
var palette = options.theme.palette ? options.theme.palette : mode === 'dark' ? 'palette4' : 'palette1';
var foreColor = options.chart.foreColor ? options.chart.foreColor : mode === 'dark' ? '#f6f7f8' : '#373d3f';
options.tooltip.theme = mode;
options.chart.foreColor = foreColor;
options.theme.palette = palette;
return options;
}
}, {
key: "predefined",
value: function predefined() {
var palette = this.w.config.theme.palette; // D6E3F8, FCEFEF, DCE0D9, A5978B, EDDDD4, D6E3F8, FEF5EF
switch (palette) {
case 'palette1':
this.colors = ['#008FFB', '#00E396', '#FEB019', '#FF4560', '#775DD0'];
break;
case 'palette2':
this.colors = ['#3f51b5', '#03a9f4', '#4caf50', '#f9ce1d', '#FF9800'];
break;
case 'palette3':
this.colors = ['#33b2df', '#546E7A', '#d4526e', '#13d8aa', '#A5978B'];
break;
case 'palette4':
this.colors = ['#4ecdc4', '#c7f464', '#81D4FA', '#fd6a6a', '#546E7A'];
break;
case 'palette5':
this.colors = ['#2b908f', '#f9a3a4', '#90ee7e', '#fa4443', '#69d2e7'];
break;
case 'palette6':
this.colors = ['#449DD1', '#F86624', '#EA3546', '#662E9B', '#C5D86D'];
break;
case 'palette7':
this.colors = ['#D7263D', '#1B998B', '#2E294E', '#F46036', '#E2C044'];
break;
case 'palette8':
this.colors = ['#662E9B', '#F86624', '#F9C80E', '#EA3546', '#43BCCD'];
break;
case 'palette9':
this.colors = ['#5C4742', '#A5978B', '#8D5B4C', '#5A2A27', '#C4BBAF'];
break;
case 'palette10':
this.colors = ['#A300D6', '#7D02EB', '#5653FE', '#2983FF', '#00B1F2'];
break;
default:
this.colors = ['#008FFB', '#00E396', '#FEB019', '#FF4560', '#775DD0'];
break;
}
return this.colors;
}
}]);
return Theme;
}();
var TitleSubtitle = /*#__PURE__*/function () {
function TitleSubtitle(ctx) {
_classCallCheck(this, TitleSubtitle);
this.ctx = ctx;
this.w = ctx.w;
}
_createClass(TitleSubtitle, [{
key: "draw",
value: function draw() {
this.drawTitleSubtitle('title');
this.drawTitleSubtitle('subtitle');
}
}, {
key: "drawTitleSubtitle",
value: function drawTitleSubtitle(type) {
var w = this.w;
var tsConfig = type === 'title' ? w.config.title : w.config.subtitle;
var x = w.globals.svgWidth / 2;
var y = tsConfig.offsetY;
var textAnchor = 'middle';
if (tsConfig.align === 'left') {
x = 10;
textAnchor = 'start';
} else if (tsConfig.align === 'right') {
x = w.globals.svgWidth - 10;
textAnchor = 'end';
}
x = x + tsConfig.offsetX;
y = y + parseInt(tsConfig.style.fontSize, 10) + tsConfig.margin / 2;
if (tsConfig.text !== undefined) {
var graphics = new Graphics(this.ctx);
var titleText = graphics.drawText({
x: x,
y: y,
text: tsConfig.text,
textAnchor: textAnchor,
fontSize: tsConfig.style.fontSize,
fontFamily: tsConfig.style.fontFamily,
fontWeight: tsConfig.style.fontWeight,
foreColor: tsConfig.style.color,
opacity: 1
});
titleText.node.setAttribute('class', "apexcharts-".concat(type, "-text"));
w.globals.dom.Paper.add(titleText);
}
}
}]);
return TitleSubtitle;
}();
var Helpers$2 = /*#__PURE__*/function () {
function Helpers(dCtx) {
_classCallCheck(this, Helpers);
this.w = dCtx.w;
this.dCtx = dCtx;
}
/**
* Get Chart Title/Subtitle Dimensions
* @memberof Dimensions
* @return {{width, height}}
**/
_createClass(Helpers, [{
key: "getTitleSubtitleCoords",
value: function getTitleSubtitleCoords(type) {
var w = this.w;
var width = 0;
var height = 0;
var floating = type === 'title' ? w.config.title.floating : w.config.subtitle.floating;
var el = w.globals.dom.baseEl.querySelector(".apexcharts-".concat(type, "-text"));
if (el !== null && !floating) {
var coord = el.getBoundingClientRect();
width = coord.width;
height = w.globals.axisCharts ? coord.height + 5 : coord.height;
}
return {
width: width,
height: height
};
}
}, {
key: "getLegendsRect",
value: function getLegendsRect() {
var w = this.w;
var elLegendWrap = w.globals.dom.baseEl.querySelector('.apexcharts-legend');
if (!w.config.legend.height && (w.config.legend.position === 'top' || w.config.legend.position === 'bottom')) {
// avoid legend to take up all the space
elLegendWrap.style.maxHeight = w.globals.svgHeight / 2 + 'px';
}
var lgRect = Object.assign({}, Utils.getBoundingClientRect(elLegendWrap));
if (elLegendWrap !== null && !w.config.legend.floating && w.config.legend.show) {
this.dCtx.lgRect = {
x: lgRect.x,
y: lgRect.y,
height: lgRect.height,
width: lgRect.height === 0 ? 0 : lgRect.width
};
} else {
this.dCtx.lgRect = {
x: 0,
y: 0,
height: 0,
width: 0
};
} // if legend takes up all of the chart space, we need to restrict it.
if (w.config.legend.position === 'left' || w.config.legend.position === 'right') {
if (this.dCtx.lgRect.width * 1.5 > w.globals.svgWidth) {
this.dCtx.lgRect.width = w.globals.svgWidth / 1.5;
}
}
return this.dCtx.lgRect;
}
}, {
key: "getLargestStringFromMultiArr",
value: function getLargestStringFromMultiArr(val, arr) {
var w = this.w;
var valArr = val;
if (w.globals.isMultiLineX) {
// if the xaxis labels has multiline texts (array)
var maxArrs = arr.map(function (xl, idx) {
return Array.isArray(xl) ? xl.length : 1;
});
var maxArrLen = Math.max.apply(Math, _toConsumableArray(maxArrs));
var maxArrIndex = maxArrs.indexOf(maxArrLen);
valArr = arr[maxArrIndex];
}
return valArr;
}
}]);
return Helpers;
}();
var DimXAxis = /*#__PURE__*/function () {
function DimXAxis(dCtx) {
_classCallCheck(this, DimXAxis);
this.w = dCtx.w;
this.dCtx = dCtx;
}
/**
* Get X Axis Dimensions
* @memberof Dimensions
* @return {{width, height}}
**/
_createClass(DimXAxis, [{
key: "getxAxisLabelsCoords",
value: function getxAxisLabelsCoords() {
var w = this.w;
var xaxisLabels = w.globals.labels.slice();
if (w.config.xaxis.convertedCatToNumeric && xaxisLabels.length === 0) {
xaxisLabels = w.globals.categoryLabels;
}
var rect;
if (w.globals.timescaleLabels.length > 0) {
var coords = this.getxAxisTimeScaleLabelsCoords();
rect = {
width: coords.width,
height: coords.height
};
w.globals.rotateXLabels = false;
} else {
this.dCtx.lgWidthForSideLegends = (w.config.legend.position === 'left' || w.config.legend.position === 'right') && !w.config.legend.floating ? this.dCtx.lgRect.width : 0; // get the longest string from the labels array and also apply label formatter
var xlbFormatter = w.globals.xLabelFormatter; // prevent changing xaxisLabels to avoid issues in multi-yaxes - fix #522
var val = Utils.getLargestStringFromArr(xaxisLabels);
var valArr = this.dCtx.dimHelpers.getLargestStringFromMultiArr(val, xaxisLabels); // the labels gets changed for bar charts
if (w.globals.isBarHorizontal) {
val = w.globals.yAxisScale[0].result.reduce(function (a, b) {
return a.length > b.length ? a : b;
}, 0);
valArr = val;
}
var xFormat = new Formatters(this.dCtx.ctx);
var timestamp = val;
val = xFormat.xLabelFormat(xlbFormatter, val, timestamp, {
i: undefined,
dateFormatter: new DateTime(this.dCtx.ctx).formatDate,
w: w
});
valArr = xFormat.xLabelFormat(xlbFormatter, valArr, timestamp, {
i: undefined,
dateFormatter: new DateTime(this.dCtx.ctx).formatDate,
w: w
});
if (w.config.xaxis.convertedCatToNumeric && typeof val === 'undefined' || String(val).trim() === '') {
val = '1';
valArr = val;
}
var graphics = new Graphics(this.dCtx.ctx);
var xLabelrect = graphics.getTextRects(val, w.config.xaxis.labels.style.fontSize);
var xArrLabelrect = xLabelrect;
if (val !== valArr) {
xArrLabelrect = graphics.getTextRects(valArr, w.config.xaxis.labels.style.fontSize);
}
rect = {
width: xLabelrect.width >= xArrLabelrect.width ? xLabelrect.width : xArrLabelrect.width,
height: xLabelrect.height >= xArrLabelrect.height ? xLabelrect.height : xArrLabelrect.height
};
if (rect.width * xaxisLabels.length > w.globals.svgWidth - this.dCtx.lgWidthForSideLegends - this.dCtx.yAxisWidth - this.dCtx.gridPad.left - this.dCtx.gridPad.right && w.config.xaxis.labels.rotate !== 0 || w.config.xaxis.labels.rotateAlways) {
if (!w.globals.isBarHorizontal) {
w.globals.rotateXLabels = true;
var getRotatedTextRects = function getRotatedTextRects(text) {
return graphics.getTextRects(text, w.config.xaxis.labels.style.fontSize, w.config.xaxis.labels.style.fontFamily, "rotate(".concat(w.config.xaxis.labels.rotate, " 0 0)"), false);
};
xLabelrect = getRotatedTextRects(val);
if (val !== valArr) {
xArrLabelrect = getRotatedTextRects(valArr);
}
rect.height = (xLabelrect.height > xArrLabelrect.height ? xLabelrect.height : xArrLabelrect.height) / 1.5;
rect.width = xLabelrect.width > xArrLabelrect.width ? xLabelrect.width : xArrLabelrect.width;
}
} else {
w.globals.rotateXLabels = false;
}
}
if (!w.config.xaxis.labels.show) {
rect = {
width: 0,
height: 0
};
}
return {
width: rect.width,
height: rect.height
};
}
/**
* Get X Axis Title Dimensions
* @memberof Dimensions
* @return {{width, height}}
**/
}, {
key: "getxAxisTitleCoords",
value: function getxAxisTitleCoords() {
var w = this.w;
var width = 0;
var height = 0;
if (w.config.xaxis.title.text !== undefined) {
var graphics = new Graphics(this.dCtx.ctx);
var rect = graphics.getTextRects(w.config.xaxis.title.text, w.config.xaxis.title.style.fontSize);
width = rect.width;
height = rect.height;
}
return {
width: width,
height: height
};
}
}, {
key: "getxAxisTimeScaleLabelsCoords",
value: function getxAxisTimeScaleLabelsCoords() {
var w = this.w;
var rect;
this.dCtx.timescaleLabels = w.globals.timescaleLabels.slice();
var labels = this.dCtx.timescaleLabels.map(function (label) {
return label.value;
}); // get the longest string from the labels array and also apply label formatter to it
var val = labels.reduce(function (a, b) {
// if undefined, maybe user didn't pass the datetime(x) values
if (typeof a === 'undefined') {
console.error('You have possibly supplied invalid Date format. Please supply a valid JavaScript Date');
return 0;
} else {
return a.length > b.length ? a : b;
}
}, 0);
var graphics = new Graphics(this.dCtx.ctx);
rect = graphics.getTextRects(val, w.config.xaxis.labels.style.fontSize);
var totalWidthRotated = rect.width * 1.05 * labels.length;
if (totalWidthRotated > w.globals.gridWidth && w.config.xaxis.labels.rotate !== 0) {
w.globals.overlappingXLabels = true;
}
return rect;
} // In certain cases, the last labels gets cropped in xaxis.
// Hence, we add some additional padding based on the label length to avoid the last label being cropped or we don't draw it at all
}, {
key: "additionalPaddingXLabels",
value: function additionalPaddingXLabels(xaxisLabelCoords) {
var _this = this;
var w = this.w;
var gl = w.globals;
var cnf = w.config;
var xtype = cnf.xaxis.type;
var lbWidth = xaxisLabelCoords.width;
gl.skipLastTimelinelabel = false;
gl.skipFirstTimelinelabel = false;
var isBarOpposite = w.config.yaxis[0].opposite && w.globals.isBarHorizontal;
var isCollapsed = function isCollapsed(i) {
return gl.collapsedSeriesIndices.indexOf(i) !== -1;
};
var rightPad = function rightPad(yaxe) {
if (_this.dCtx.timescaleLabels && _this.dCtx.timescaleLabels.length) {
// for timeline labels, we take the last label and check if it exceeds gridWidth
var firstimescaleLabel = _this.dCtx.timescaleLabels[0];
var lastTimescaleLabel = _this.dCtx.timescaleLabels[_this.dCtx.timescaleLabels.length - 1];
var lastLabelPosition = lastTimescaleLabel.position + lbWidth / 1.75 - _this.dCtx.yAxisWidthRight;
var firstLabelPosition = firstimescaleLabel.position - lbWidth / 1.75 + _this.dCtx.yAxisWidthLeft;
var lgRightRectWidth = w.config.legend.position === 'right' && _this.dCtx.lgRect.width > 0 ? _this.dCtx.lgRect.width : 0;
if (lastLabelPosition > gl.svgWidth - gl.translateX - lgRightRectWidth) {
gl.skipLastTimelinelabel = true;
}
if (firstLabelPosition < -((!yaxe.show || yaxe.floating) && (cnf.chart.type === 'bar' || cnf.chart.type === 'candlestick' || cnf.chart.type === 'rangeBar' || cnf.chart.type === 'boxPlot') ? lbWidth / 1.75 : 10)) {
gl.skipFirstTimelinelabel = true;
}
} else if (xtype === 'datetime') {
// If user has enabled DateTime, but uses own's formatter
if (_this.dCtx.gridPad.right < lbWidth && !gl.rotateXLabels) {
gl.skipLastTimelinelabel = true;
}
} else if (xtype !== 'datetime') {
if (_this.dCtx.gridPad.right < lbWidth / 2 - _this.dCtx.yAxisWidthRight && !gl.rotateXLabels && (w.config.xaxis.tickPlacement !== 'between' || w.globals.isBarHorizontal)) {
_this.dCtx.xPadRight = lbWidth / 2 + 1;
}
}
};
var padYAxe = function padYAxe(yaxe, i) {
if (isCollapsed(i)) return; // the code below causes issue apexcharts.js#1989
// after testing with other use-cases, this has no actual value, hence commented
// if (xtype !== 'datetime') {
// if (
// this.dCtx.gridPad.left < lbWidth / 2 - this.dCtx.yAxisWidthLeft &&
// !gl.rotateXLabels &&
// !cnf.xaxis.labels.trim
// ) {
// this.dCtx.xPadLeft = lbWidth / 2 + 1
// }
// }
rightPad(yaxe);
};
cnf.yaxis.forEach(function (yaxe, i) {
if (isBarOpposite) {
if (_this.dCtx.gridPad.left < lbWidth) {
_this.dCtx.xPadLeft = lbWidth / 2 + 1;
}
_this.dCtx.xPadRight = lbWidth / 2 + 1;
} else {
padYAxe(yaxe, i);
}
});
}
}]);
return DimXAxis;
}();
var DimYAxis = /*#__PURE__*/function () {
function DimYAxis(dCtx) {
_classCallCheck(this, DimYAxis);
this.w = dCtx.w;
this.dCtx = dCtx;
}
/**
* Get Y Axis Dimensions
* @memberof Dimensions
* @return {{width, height}}
**/
_createClass(DimYAxis, [{
key: "getyAxisLabelsCoords",
value: function getyAxisLabelsCoords() {
var _this = this;
var w = this.w;
var width = 0;
var height = 0;
var ret = [];
var labelPad = 10;
var axesUtils = new AxesUtils(this.dCtx.ctx);
w.config.yaxis.map(function (yaxe, index) {
var yS = w.globals.yAxisScale[index];
var yAxisMinWidth = 0;
if (!axesUtils.isYAxisHidden(index) && yaxe.labels.show && yaxe.labels.minWidth !== undefined) yAxisMinWidth = yaxe.labels.minWidth;
if (!axesUtils.isYAxisHidden(index) && yaxe.labels.show && yS.result.length) {
var lbFormatter = w.globals.yLabelFormatters[index];
var minV = yS.niceMin === Number.MIN_VALUE ? 0 : yS.niceMin;
var longestStr = String(minV).length > String(yS.niceMax).length ? minV : yS.niceMax; // the second parameter -1 is the index of tick which user can use in the formatter
var val = lbFormatter(longestStr, {
seriesIndex: index,
dataPointIndex: -1,
w: w
});
var valArr = val; // if user has specified a custom formatter, and the result is null or empty, we need to discard the formatter and take the value as it is.
if (typeof val === 'undefined' || val.length === 0) {
val = longestStr;
}
if (w.globals.isBarHorizontal) {
labelPad = 0;
var barYaxisLabels = w.globals.labels.slice(); // get the longest string from the labels array and also apply label formatter to it
val = Utils.getLargestStringFromArr(barYaxisLabels);
val = lbFormatter(val, {
seriesIndex: index,
dataPointIndex: -1,
w: w
});
valArr = _this.dCtx.dimHelpers.getLargestStringFromMultiArr(val, barYaxisLabels);
}
var graphics = new Graphics(_this.dCtx.ctx);
var rotateStr = 'rotate('.concat(yaxe.labels.rotate, ' 0 0)');
var rect = graphics.getTextRects(val, yaxe.labels.style.fontSize, yaxe.labels.style.fontFamily, rotateStr, false);
var arrLabelrect = rect;
if (val !== valArr) {
arrLabelrect = graphics.getTextRects(valArr, yaxe.labels.style.fontSize, yaxe.labels.style.fontFamily, rotateStr, false);
}
ret.push({
width: (yAxisMinWidth > arrLabelrect.width || yAxisMinWidth > rect.width ? yAxisMinWidth : arrLabelrect.width > rect.width ? arrLabelrect.width : rect.width) + labelPad,
height: arrLabelrect.height > rect.height ? arrLabelrect.height : rect.height
});
} else {
ret.push({
width: width,
height: height
});
}
});
return ret;
}
/**
* Get Y Axis Dimensions
* @memberof Dimensions
* @return {{width, height}}
**/
}, {
key: "getyAxisTitleCoords",
value: function getyAxisTitleCoords() {
var _this2 = this;
var w = this.w;
var ret = [];
w.config.yaxis.map(function (yaxe, index) {
if (yaxe.show && yaxe.title.text !== undefined) {
var graphics = new Graphics(_this2.dCtx.ctx);
var rotateStr = 'rotate('.concat(yaxe.title.rotate, ' 0 0)');
var rect = graphics.getTextRects(yaxe.title.text, yaxe.title.style.fontSize, yaxe.title.style.fontFamily, rotateStr, false);
ret.push({
width: rect.width,
height: rect.height
});
} else {
ret.push({
width: 0,
height: 0
});
}
});
return ret;
}
}, {
key: "getTotalYAxisWidth",
value: function getTotalYAxisWidth() {
var w = this.w;
var yAxisWidth = 0;
var yAxisWidthLeft = 0;
var yAxisWidthRight = 0;
var padding = w.globals.yAxisScale.length > 1 ? 10 : 0;
var axesUtils = new AxesUtils(this.dCtx.ctx);
var isHiddenYAxis = function isHiddenYAxis(index) {
return w.globals.ignoreYAxisIndexes.indexOf(index) > -1;
};
var padForLabelTitle = function padForLabelTitle(coord, index) {
var floating = w.config.yaxis[index].floating;
var width = 0;
if (coord.width > 0 && !floating) {
width = coord.width + padding;
if (isHiddenYAxis(index)) {
width = width - coord.width - padding;
}
} else {
width = floating || axesUtils.isYAxisHidden(index) ? 0 : 5;
}
w.config.yaxis[index].opposite ? yAxisWidthRight = yAxisWidthRight + width : yAxisWidthLeft = yAxisWidthLeft + width;
yAxisWidth = yAxisWidth + width;
};
w.globals.yLabelsCoords.map(function (yLabelCoord, index) {
padForLabelTitle(yLabelCoord, index);
});
w.globals.yTitleCoords.map(function (yTitleCoord, index) {
padForLabelTitle(yTitleCoord, index);
});
if (w.globals.isBarHorizontal && !w.config.yaxis[0].floating) {
yAxisWidth = w.globals.yLabelsCoords[0].width + w.globals.yTitleCoords[0].width + 15;
}
this.dCtx.yAxisWidthLeft = yAxisWidthLeft;
this.dCtx.yAxisWidthRight = yAxisWidthRight;
return yAxisWidth;
}
}]);
return DimYAxis;
}();
var DimGrid = /*#__PURE__*/function () {
function DimGrid(dCtx) {
_classCallCheck(this, DimGrid);
this.w = dCtx.w;
this.dCtx = dCtx;
}
_createClass(DimGrid, [{
key: "gridPadForColumnsInNumericAxis",
value: function gridPadForColumnsInNumericAxis(gridWidth) {
var w = this.w;
if (w.globals.noData || w.globals.allSeriesCollapsed) {
return 0;
}
var hasBar = function hasBar(type) {
return type === 'bar' || type === 'rangeBar' || type === 'candlestick' || type === 'boxPlot';
};
var type = w.config.chart.type;
var barWidth = 0;
var seriesLen = hasBar(type) ? w.config.series.length : 1;
if (w.globals.comboBarCount > 0) {
seriesLen = w.globals.comboBarCount;
}
w.globals.collapsedSeries.forEach(function (c) {
if (hasBar(c.type)) {
seriesLen = seriesLen - 1;
}
});
if (w.config.chart.stacked) {
seriesLen = 1;
}
var barsPresent = hasBar(type) || w.globals.comboBarCount > 0;
if (barsPresent && w.globals.isXNumeric && !w.globals.isBarHorizontal && seriesLen > 0) {
var xRatio = 0;
var xRange = Math.abs(w.globals.initialMaxX - w.globals.initialMinX);
if (xRange <= 3) {
xRange = w.globals.dataPoints;
}
xRatio = xRange / gridWidth;
var xDivision; // max barwidth should be equal to minXDiff to avoid overlap
if (w.globals.minXDiff && w.globals.minXDiff / xRatio > 0) {
xDivision = w.globals.minXDiff / xRatio;
}
if (xDivision > gridWidth / 2) {
xDivision = xDivision / 2;
}
barWidth = xDivision / seriesLen * parseInt(w.config.plotOptions.bar.columnWidth, 10) / 100;
if (barWidth < 1) {
barWidth = 1;
}
barWidth = barWidth / (seriesLen > 1 ? 1 : 1.5) + 5;
w.globals.barPadForNumericAxis = barWidth;
}
return barWidth;
}
}, {
key: "gridPadFortitleSubtitle",
value: function gridPadFortitleSubtitle() {
var _this = this;
var w = this.w;
var gl = w.globals;
var gridShrinkOffset = this.dCtx.isSparkline || !w.globals.axisCharts ? 0 : 10;
var titleSubtitle = ['title', 'subtitle'];
titleSubtitle.forEach(function (t) {
if (w.config[t].text !== undefined) {
gridShrinkOffset += w.config[t].margin;
} else {
gridShrinkOffset += _this.dCtx.isSparkline || !w.globals.axisCharts ? 0 : 5;
}
});
if (w.config.legend.show && w.config.legend.position === 'bottom' && !w.config.legend.floating && !w.globals.axisCharts) {
gridShrinkOffset += 10;
}
var titleCoords = this.dCtx.dimHelpers.getTitleSubtitleCoords('title');
var subtitleCoords = this.dCtx.dimHelpers.getTitleSubtitleCoords('subtitle');
gl.gridHeight = gl.gridHeight - titleCoords.height - subtitleCoords.height - gridShrinkOffset;
gl.translateY = gl.translateY + titleCoords.height + subtitleCoords.height + gridShrinkOffset;
}
}, {
key: "setGridXPosForDualYAxis",
value: function setGridXPosForDualYAxis(yTitleCoords, yaxisLabelCoords) {
var w = this.w;
var axesUtils = new AxesUtils(this.dCtx.ctx);
w.config.yaxis.map(function (yaxe, index) {
if (w.globals.ignoreYAxisIndexes.indexOf(index) === -1 && !yaxe.floating && !axesUtils.isYAxisHidden(index)) {
if (yaxe.opposite) {
w.globals.translateX = w.globals.translateX - (yaxisLabelCoords[index].width + yTitleCoords[index].width) - parseInt(w.config.yaxis[index].labels.style.fontSize, 10) / 1.2 - 12;
} // fixes apexcharts.js#1599
if (w.globals.translateX < 2) {
w.globals.translateX = 2;
}
}
});
}
}]);
return DimGrid;
}();
/**
* ApexCharts Dimensions Class for calculating rects of all elements that are drawn and will be drawn.
*
* @module Dimensions
**/
var Dimensions = /*#__PURE__*/function () {
function Dimensions(ctx) {
_classCallCheck(this, Dimensions);
this.ctx = ctx;
this.w = ctx.w;
this.lgRect = {};
this.yAxisWidth = 0;
this.yAxisWidthLeft = 0;
this.yAxisWidthRight = 0;
this.xAxisHeight = 0;
this.isSparkline = this.w.config.chart.sparkline.enabled;
this.dimHelpers = new Helpers$2(this);
this.dimYAxis = new DimYAxis(this);
this.dimXAxis = new DimXAxis(this);
this.dimGrid = new DimGrid(this);
this.lgWidthForSideLegends = 0;
this.gridPad = this.w.config.grid.padding;
this.xPadRight = 0;
this.xPadLeft = 0;
}
/**
* @memberof Dimensions
* @param {object} w - chart context
**/
_createClass(Dimensions, [{
key: "plotCoords",
value: function plotCoords() {
var w = this.w;
var gl = w.globals;
this.lgRect = this.dimHelpers.getLegendsRect();
if (gl.axisCharts) {
// for line / area / scatter / column
this.setDimensionsForAxisCharts();
} else {
// for pie / donuts / circle
this.setDimensionsForNonAxisCharts();
}
this.dimGrid.gridPadFortitleSubtitle(); // after calculating everything, apply padding set by user
gl.gridHeight = gl.gridHeight - this.gridPad.top - this.gridPad.bottom;
gl.gridWidth = gl.gridWidth - this.gridPad.left - this.gridPad.right - this.xPadRight - this.xPadLeft;
var barWidth = this.dimGrid.gridPadForColumnsInNumericAxis(gl.gridWidth);
gl.gridWidth = gl.gridWidth - barWidth * 2;
gl.translateX = gl.translateX + this.gridPad.left + this.xPadLeft + (barWidth > 0 ? barWidth + 4 : 0);
gl.translateY = gl.translateY + this.gridPad.top;
}
}, {
key: "setDimensionsForAxisCharts",
value: function setDimensionsForAxisCharts() {
var _this = this;
var w = this.w;
var gl = w.globals;
var yaxisLabelCoords = this.dimYAxis.getyAxisLabelsCoords();
var yTitleCoords = this.dimYAxis.getyAxisTitleCoords();
w.globals.yLabelsCoords = [];
w.globals.yTitleCoords = [];
w.config.yaxis.map(function (yaxe, index) {
// store the labels and titles coords in global vars
w.globals.yLabelsCoords.push({
width: yaxisLabelCoords[index].width,
index: index
});
w.globals.yTitleCoords.push({
width: yTitleCoords[index].width,
index: index
});
});
this.yAxisWidth = this.dimYAxis.getTotalYAxisWidth();
var xaxisLabelCoords = this.dimXAxis.getxAxisLabelsCoords();
var xtitleCoords = this.dimXAxis.getxAxisTitleCoords();
this.conditionalChecksForAxisCoords(xaxisLabelCoords, xtitleCoords);
gl.translateXAxisY = w.globals.rotateXLabels ? this.xAxisHeight / 8 : -4;
gl.translateXAxisX = w.globals.rotateXLabels && w.globals.isXNumeric && w.config.xaxis.labels.rotate <= -45 ? -this.xAxisWidth / 4 : 0;
if (w.globals.isBarHorizontal) {
gl.rotateXLabels = false;
gl.translateXAxisY = -1 * (parseInt(w.config.xaxis.labels.style.fontSize, 10) / 1.5);
}
gl.translateXAxisY = gl.translateXAxisY + w.config.xaxis.labels.offsetY;
gl.translateXAxisX = gl.translateXAxisX + w.config.xaxis.labels.offsetX;
var yAxisWidth = this.yAxisWidth;
var xAxisHeight = this.xAxisHeight;
gl.xAxisLabelsHeight = this.xAxisHeight - xtitleCoords.height;
gl.xAxisLabelsWidth = this.xAxisWidth;
gl.xAxisHeight = this.xAxisHeight;
var translateY = 10;
if (w.config.chart.type === 'radar' || this.isSparkline) {
yAxisWidth = 0;
xAxisHeight = gl.goldenPadding;
}
if (this.isSparkline) {
this.lgRect = {
height: 0,
width: 0
};
}
if (this.isSparkline || w.config.chart.type === 'treemap') {
yAxisWidth = 0;
xAxisHeight = 0;
translateY = 0;
}
if (!this.isSparkline) {
this.dimXAxis.additionalPaddingXLabels(xaxisLabelCoords);
}
var legendTopBottom = function legendTopBottom() {
gl.translateX = yAxisWidth;
gl.gridHeight = gl.svgHeight - _this.lgRect.height - xAxisHeight - (!_this.isSparkline && w.config.chart.type !== 'treemap' ? w.globals.rotateXLabels ? 10 : 15 : 0);
gl.gridWidth = gl.svgWidth - yAxisWidth;
};
if (w.config.xaxis.position === 'top') translateY = gl.xAxisHeight - w.config.xaxis.axisTicks.height - 5;
switch (w.config.legend.position) {
case 'bottom':
gl.translateY = translateY;
legendTopBottom();
break;
case 'top':
gl.translateY = this.lgRect.height + translateY;
legendTopBottom();
break;
case 'left':
gl.translateY = translateY;
gl.translateX = this.lgRect.width + yAxisWidth;
gl.gridHeight = gl.svgHeight - xAxisHeight - 12;
gl.gridWidth = gl.svgWidth - this.lgRect.width - yAxisWidth;
break;
case 'right':
gl.translateY = translateY;
gl.translateX = yAxisWidth;
gl.gridHeight = gl.svgHeight - xAxisHeight - 12;
gl.gridWidth = gl.svgWidth - this.lgRect.width - yAxisWidth - 5;
break;
default:
throw new Error('Legend position not supported');
}
this.dimGrid.setGridXPosForDualYAxis(yTitleCoords, yaxisLabelCoords); // after drawing everything, set the Y axis positions
var objyAxis = new YAxis(this.ctx);
objyAxis.setYAxisXPosition(yaxisLabelCoords, yTitleCoords);
}
}, {
key: "setDimensionsForNonAxisCharts",
value: function setDimensionsForNonAxisCharts() {
var w = this.w;
var gl = w.globals;
var cnf = w.config;
var xPad = 0;
if (w.config.legend.show && !w.config.legend.floating) {
xPad = 20;
}
var type = cnf.chart.type === 'pie' || cnf.chart.type === 'polarArea' || cnf.chart.type === 'donut' ? 'pie' : 'radialBar';
var offY = cnf.plotOptions[type].offsetY;
var offX = cnf.plotOptions[type].offsetX;
if (!cnf.legend.show || cnf.legend.floating) {
gl.gridHeight = gl.svgHeight - cnf.grid.padding.left + cnf.grid.padding.right;
gl.gridWidth = gl.gridHeight;
gl.translateY = offY;
gl.translateX = offX + (gl.svgWidth - gl.gridWidth) / 2;
return;
}
switch (cnf.legend.position) {
case 'bottom':
gl.gridHeight = gl.svgHeight - this.lgRect.height - gl.goldenPadding;
gl.gridWidth = gl.svgWidth;
gl.translateY = offY - 10;
gl.translateX = offX + (gl.svgWidth - gl.gridWidth) / 2;
break;
case 'top':
gl.gridHeight = gl.svgHeight - this.lgRect.height - gl.goldenPadding;
gl.gridWidth = gl.svgWidth;
gl.translateY = this.lgRect.height + offY + 10;
gl.translateX = offX + (gl.svgWidth - gl.gridWidth) / 2;
break;
case 'left':
gl.gridWidth = gl.svgWidth - this.lgRect.width - xPad;
gl.gridHeight = cnf.chart.height !== 'auto' ? gl.svgHeight : gl.gridWidth;
gl.translateY = offY;
gl.translateX = offX + this.lgRect.width + xPad;
break;
case 'right':
gl.gridWidth = gl.svgWidth - this.lgRect.width - xPad - 5;
gl.gridHeight = cnf.chart.height !== 'auto' ? gl.svgHeight : gl.gridWidth;
gl.translateY = offY;
gl.translateX = offX + 10;
break;
default:
throw new Error('Legend position not supported');
}
}
}, {
key: "conditionalChecksForAxisCoords",
value: function conditionalChecksForAxisCoords(xaxisLabelCoords, xtitleCoords) {
var w = this.w;
this.xAxisHeight = (xaxisLabelCoords.height + xtitleCoords.height) * (w.globals.isMultiLineX ? 1.2 : w.globals.LINE_HEIGHT_RATIO) + (w.globals.rotateXLabels ? 22 : 10);
this.xAxisWidth = xaxisLabelCoords.width;
if (this.xAxisHeight - xtitleCoords.height > w.config.xaxis.labels.maxHeight) {
this.xAxisHeight = w.config.xaxis.labels.maxHeight;
}
if (w.config.xaxis.labels.minHeight && this.xAxisHeight < w.config.xaxis.labels.minHeight) {
this.xAxisHeight = w.config.xaxis.labels.minHeight;
}
if (w.config.xaxis.floating) {
this.xAxisHeight = 0;
}
var minYAxisWidth = 0;
var maxYAxisWidth = 0;
w.config.yaxis.forEach(function (y) {
minYAxisWidth += y.labels.minWidth;
maxYAxisWidth += y.labels.maxWidth;
});
if (this.yAxisWidth < minYAxisWidth) {
this.yAxisWidth = minYAxisWidth;
}
if (this.yAxisWidth > maxYAxisWidth) {
this.yAxisWidth = maxYAxisWidth;
}
}
}]);
return Dimensions;
}();
var Helpers$3 = /*#__PURE__*/function () {
function Helpers(lgCtx) {
_classCallCheck(this, Helpers);
this.w = lgCtx.w;
this.lgCtx = lgCtx;
}
_createClass(Helpers, [{
key: "getLegendStyles",
value: function getLegendStyles() {
var stylesheet = document.createElement('style');
stylesheet.setAttribute('type', 'text/css');
var text = "\t\n \t\n .apexcharts-legend {\t\n display: flex;\t\n overflow: auto;\t\n padding: 0 10px;\t\n }\t\n .apexcharts-legend.position-bottom, .apexcharts-legend.position-top {\t\n flex-wrap: wrap\t\n }\t\n .apexcharts-legend.position-right, .apexcharts-legend.position-left {\t\n flex-direction: column;\t\n bottom: 0;\t\n }\t\n .apexcharts-legend.position-bottom.apexcharts-align-left, .apexcharts-legend.position-top.apexcharts-align-left, .apexcharts-legend.position-right, .apexcharts-legend.position-left {\t\n justify-content: flex-start;\t\n }\t\n .apexcharts-legend.position-bottom.apexcharts-align-center, .apexcharts-legend.position-top.apexcharts-align-center {\t\n justify-content: center; \t\n }\t\n .apexcharts-legend.position-bottom.apexcharts-align-right, .apexcharts-legend.position-top.apexcharts-align-right {\t\n justify-content: flex-end;\t\n }\t\n .apexcharts-legend-series {\t\n cursor: pointer;\t\n line-height: normal;\t\n }\t\n .apexcharts-legend.position-bottom .apexcharts-legend-series, .apexcharts-legend.position-top .apexcharts-legend-series{\t\n display: flex;\t\n align-items: center;\t\n }\t\n .apexcharts-legend-text {\t\n position: relative;\t\n font-size: 14px;\t\n }\t\n .apexcharts-legend-text *, .apexcharts-legend-marker * {\t\n pointer-events: none;\t\n }\t\n .apexcharts-legend-marker {\t\n position: relative;\t\n display: inline-block;\t\n cursor: pointer;\t\n margin-right: 3px;\t\n border-style: solid;\n }\t\n \t\n .apexcharts-legend.apexcharts-align-right .apexcharts-legend-series, .apexcharts-legend.apexcharts-align-left .apexcharts-legend-series{\t\n display: inline-block;\t\n }\t\n .apexcharts-legend-series.apexcharts-no-click {\t\n cursor: auto;\t\n }\t\n .apexcharts-legend .apexcharts-hidden-zero-series, .apexcharts-legend .apexcharts-hidden-null-series {\t\n display: none !important;\t\n }\t\n .apexcharts-inactive-legend {\t\n opacity: 0.45;\t\n }";
var rules = document.createTextNode(text);
stylesheet.appendChild(rules);
return stylesheet;
}
}, {
key: "getLegendBBox",
value: function getLegendBBox() {
var w = this.w;
var currLegendsWrap = w.globals.dom.baseEl.querySelector('.apexcharts-legend');
var currLegendsWrapRect = currLegendsWrap.getBoundingClientRect();
var currLegendsWrapWidth = currLegendsWrapRect.width;
var currLegendsWrapHeight = currLegendsWrapRect.height;
return {
clwh: currLegendsWrapHeight,
clww: currLegendsWrapWidth
};
}
}, {
key: "appendToForeignObject",
value: function appendToForeignObject() {
var gl = this.w.globals;
gl.dom.elLegendForeign = document.createElementNS(gl.SVGNS, 'foreignObject');
var elForeign = gl.dom.elLegendForeign;
elForeign.setAttribute('x', 0);
elForeign.setAttribute('y', 0);
elForeign.setAttribute('width', gl.svgWidth);
elForeign.setAttribute('height', gl.svgHeight);
gl.dom.elLegendWrap.setAttribute('xmlns', 'http://www.w3.org/1999/xhtml');
elForeign.appendChild(gl.dom.elLegendWrap);
elForeign.appendChild(this.getLegendStyles()); //gl.dom.elGraphical.node.insertAdjacentElement('afterend', elForeign)
// the above line causes issue #1907
gl.dom.Paper.node.insertBefore(elForeign, gl.dom.elGraphical.node);
}
}, {
key: "toggleDataSeries",
value: function toggleDataSeries(seriesCnt, isHidden) {
var _this = this;
var w = this.w;
if (w.globals.axisCharts || w.config.chart.type === 'radialBar') {
w.globals.resized = true; // we don't want initial animations again
var seriesEl = null;
var realIndex = null; // yes, make it null. 1 series will rise at a time
w.globals.risingSeries = [];
if (w.globals.axisCharts) {
seriesEl = w.globals.dom.baseEl.querySelector(".apexcharts-series[data\\:realIndex='".concat(seriesCnt, "']"));
realIndex = parseInt(seriesEl.getAttribute('data:realIndex'), 10);
} else {
seriesEl = w.globals.dom.baseEl.querySelector(".apexcharts-series[rel='".concat(seriesCnt + 1, "']"));
realIndex = parseInt(seriesEl.getAttribute('rel'), 10) - 1;
}
if (isHidden) {
var seriesToMakeVisible = [{
cs: w.globals.collapsedSeries,
csi: w.globals.collapsedSeriesIndices
}, {
cs: w.globals.ancillaryCollapsedSeries,
csi: w.globals.ancillaryCollapsedSeriesIndices
}];
seriesToMakeVisible.forEach(function (r) {
_this.riseCollapsedSeries(r.cs, r.csi, realIndex);
});
} else {
this.hideSeries({
seriesEl: seriesEl,
realIndex: realIndex
});
}
} else {
// for non-axis charts i.e pie / donuts
var _seriesEl = w.globals.dom.Paper.select(" .apexcharts-series[rel='".concat(seriesCnt + 1, "'] path"));
var type = w.config.chart.type;
if (type === 'pie' || type === 'polarArea' || type === 'donut') {
var dataLabels = w.config.plotOptions.pie.donut.labels;
var graphics = new Graphics(this.lgCtx.ctx);
graphics.pathMouseDown(_seriesEl.members[0], null);
this.lgCtx.ctx.pie.printDataLabelsInner(_seriesEl.members[0].node, dataLabels);
}
_seriesEl.fire('click');
}
}
}, {
key: "hideSeries",
value: function hideSeries(_ref) {
var seriesEl = _ref.seriesEl,
realIndex = _ref.realIndex;
var w = this.w;
var series = Utils.clone(w.config.series);
if (w.globals.axisCharts) {
var shouldNotHideYAxis = false;
if (w.config.yaxis[realIndex] && w.config.yaxis[realIndex].show && w.config.yaxis[realIndex].showAlways) {
shouldNotHideYAxis = true;
if (w.globals.ancillaryCollapsedSeriesIndices.indexOf(realIndex) < 0) {
w.globals.ancillaryCollapsedSeries.push({
index: realIndex,
data: series[realIndex].data.slice(),
type: seriesEl.parentNode.className.baseVal.split('-')[1]
});
w.globals.ancillaryCollapsedSeriesIndices.push(realIndex);
}
}
if (!shouldNotHideYAxis) {
w.globals.collapsedSeries.push({
index: realIndex,
data: series[realIndex].data.slice(),
type: seriesEl.parentNode.className.baseVal.split('-')[1]
});
w.globals.collapsedSeriesIndices.push(realIndex);
var removeIndexOfRising = w.globals.risingSeries.indexOf(realIndex);
w.globals.risingSeries.splice(removeIndexOfRising, 1);
}
} else {
w.globals.collapsedSeries.push({
index: realIndex,
data: series[realIndex]
});
w.globals.collapsedSeriesIndices.push(realIndex);
}
var seriesChildren = seriesEl.childNodes;
for (var sc = 0; sc < seriesChildren.length; sc++) {
if (seriesChildren[sc].classList.contains('apexcharts-series-markers-wrap')) {
if (seriesChildren[sc].classList.contains('apexcharts-hide')) {
seriesChildren[sc].classList.remove('apexcharts-hide');
} else {
seriesChildren[sc].classList.add('apexcharts-hide');
}
}
}
w.globals.allSeriesCollapsed = w.globals.collapsedSeries.length === w.config.series.length;
series = this._getSeriesBasedOnCollapsedState(series);
this.lgCtx.ctx.updateHelpers._updateSeries(series, w.config.chart.animations.dynamicAnimation.enabled);
}
}, {
key: "riseCollapsedSeries",
value: function riseCollapsedSeries(collapsedSeries, seriesIndices, realIndex) {
var w = this.w;
var series = Utils.clone(w.config.series);
if (collapsedSeries.length > 0) {
for (var c = 0; c < collapsedSeries.length; c++) {
if (collapsedSeries[c].index === realIndex) {
if (w.globals.axisCharts) {
series[realIndex].data = collapsedSeries[c].data.slice();
collapsedSeries.splice(c, 1);
seriesIndices.splice(c, 1);
w.globals.risingSeries.push(realIndex);
} else {
series[realIndex] = collapsedSeries[c].data;
collapsedSeries.splice(c, 1);
seriesIndices.splice(c, 1);
w.globals.risingSeries.push(realIndex);
}
}
}
series = this._getSeriesBasedOnCollapsedState(series);
this.lgCtx.ctx.updateHelpers._updateSeries(series, w.config.chart.animations.dynamicAnimation.enabled);
}
}
}, {
key: "_getSeriesBasedOnCollapsedState",
value: function _getSeriesBasedOnCollapsedState(series) {
var w = this.w;
if (w.globals.axisCharts) {
series.forEach(function (s, sI) {
if (w.globals.collapsedSeriesIndices.indexOf(sI) > -1) {
series[sI].data = [];
}
});
} else {
series.forEach(function (s, sI) {
if (w.globals.collapsedSeriesIndices.indexOf(sI) > -1) {
series[sI] = 0;
}
});
}
return series;
}
}]);
return Helpers;
}();
/**
* ApexCharts Legend Class to draw legend.
*
* @module Legend
**/
var Legend = /*#__PURE__*/function () {
function Legend(ctx, opts) {
_classCallCheck(this, Legend);
this.ctx = ctx;
this.w = ctx.w;
this.onLegendClick = this.onLegendClick.bind(this);
this.onLegendHovered = this.onLegendHovered.bind(this);
this.isBarsDistributed = this.w.config.chart.type === 'bar' && this.w.config.plotOptions.bar.distributed && this.w.config.series.length === 1;
this.legendHelpers = new Helpers$3(this);
}
_createClass(Legend, [{
key: "init",
value: function init() {
var w = this.w;
var gl = w.globals;
var cnf = w.config;
var showLegendAlways = cnf.legend.showForSingleSeries && gl.series.length === 1 || this.isBarsDistributed || gl.series.length > 1;
if ((showLegendAlways || !gl.axisCharts) && cnf.legend.show) {
while (gl.dom.elLegendWrap.firstChild) {
gl.dom.elLegendWrap.removeChild(gl.dom.elLegendWrap.firstChild);
}
this.drawLegends();
if (!Utils.isIE11()) {
this.legendHelpers.appendToForeignObject();
} else {
// IE11 doesn't supports foreignObject, hence append it to
document.getElementsByTagName('head')[0].appendChild(this.legendHelpers.getLegendStyles());
}
if (cnf.legend.position === 'bottom' || cnf.legend.position === 'top') {
this.legendAlignHorizontal();
} else if (cnf.legend.position === 'right' || cnf.legend.position === 'left') {
this.legendAlignVertical();
}
}
}
}, {
key: "drawLegends",
value: function drawLegends() {
var self = this;
var w = this.w;
var fontFamily = w.config.legend.fontFamily;
var legendNames = w.globals.seriesNames;
var fillcolor = w.globals.colors.slice();
if (w.config.chart.type === 'heatmap') {
var ranges = w.config.plotOptions.heatmap.colorScale.ranges;
legendNames = ranges.map(function (colorScale) {
return colorScale.name ? colorScale.name : colorScale.from + ' - ' + colorScale.to;
});
fillcolor = ranges.map(function (color) {
return color.color;
});
} else if (this.isBarsDistributed) {
legendNames = w.globals.labels.slice();
}
if (w.config.legend.customLegendItems.length) {
legendNames = w.config.legend.customLegendItems;
}
var legendFormatter = w.globals.legendFormatter;
var isLegendInversed = w.config.legend.inverseOrder;
for (var i = isLegendInversed ? legendNames.length - 1 : 0; isLegendInversed ? i >= 0 : i <= legendNames.length - 1; isLegendInversed ? i-- : i++) {
var text = legendFormatter(legendNames[i], {
seriesIndex: i,
w: w
});
var collapsedSeries = false;
var ancillaryCollapsedSeries = false;
if (w.globals.collapsedSeries.length > 0) {
for (var c = 0; c < w.globals.collapsedSeries.length; c++) {
if (w.globals.collapsedSeries[c].index === i) {
collapsedSeries = true;
}
}
}
if (w.globals.ancillaryCollapsedSeriesIndices.length > 0) {
for (var _c = 0; _c < w.globals.ancillaryCollapsedSeriesIndices.length; _c++) {
if (w.globals.ancillaryCollapsedSeriesIndices[_c] === i) {
ancillaryCollapsedSeries = true;
}
}
}
var elMarker = document.createElement('span');
elMarker.classList.add('apexcharts-legend-marker');
var mOffsetX = w.config.legend.markers.offsetX;
var mOffsetY = w.config.legend.markers.offsetY;
var mHeight = w.config.legend.markers.height;
var mWidth = w.config.legend.markers.width;
var mBorderWidth = w.config.legend.markers.strokeWidth;
var mBorderColor = w.config.legend.markers.strokeColor;
var mBorderRadius = w.config.legend.markers.radius;
var mStyle = elMarker.style;
mStyle.background = fillcolor[i];
mStyle.color = fillcolor[i];
mStyle.setProperty('background', fillcolor[i], 'important'); // override fill color with custom legend.markers.fillColors
if (w.config.legend.markers.fillColors && w.config.legend.markers.fillColors[i]) {
mStyle.background = w.config.legend.markers.fillColors[i];
} // override with data color
if (w.globals.seriesColors[i] !== undefined) {
mStyle.background = w.globals.seriesColors[i];
mStyle.color = w.globals.seriesColors[i];
}
mStyle.height = Array.isArray(mHeight) ? parseFloat(mHeight[i]) + 'px' : parseFloat(mHeight) + 'px';
mStyle.width = Array.isArray(mWidth) ? parseFloat(mWidth[i]) + 'px' : parseFloat(mWidth) + 'px';
mStyle.left = (Array.isArray(mOffsetX) ? parseFloat(mOffsetX[i]) : parseFloat(mOffsetX)) + 'px';
mStyle.top = (Array.isArray(mOffsetY) ? parseFloat(mOffsetY[i]) : parseFloat(mOffsetY)) + 'px';
mStyle.borderWidth = Array.isArray(mBorderWidth) ? mBorderWidth[i] : mBorderWidth;
mStyle.borderColor = Array.isArray(mBorderColor) ? mBorderColor[i] : mBorderColor;
mStyle.borderRadius = Array.isArray(mBorderRadius) ? parseFloat(mBorderRadius[i]) + 'px' : parseFloat(mBorderRadius) + 'px';
if (w.config.legend.markers.customHTML) {
if (Array.isArray(w.config.legend.markers.customHTML)) {
if (w.config.legend.markers.customHTML[i]) {
elMarker.innerHTML = w.config.legend.markers.customHTML[i]();
}
} else {
elMarker.innerHTML = w.config.legend.markers.customHTML();
}
}
Graphics.setAttrs(elMarker, {
rel: i + 1,
'data:collapsed': collapsedSeries || ancillaryCollapsedSeries
});
if (collapsedSeries || ancillaryCollapsedSeries) {
elMarker.classList.add('apexcharts-inactive-legend');
}
var elLegend = document.createElement('div');
var elLegendText = document.createElement('span');
elLegendText.classList.add('apexcharts-legend-text');
elLegendText.innerHTML = Array.isArray(text) ? Utils.sanitizeDom(text.join(' ')) : Utils.sanitizeDom(text);
var textColor = w.config.legend.labels.useSeriesColors ? w.globals.colors[i] : w.config.legend.labels.colors;
if (!textColor) {
textColor = w.config.chart.foreColor;
}
elLegendText.style.color = textColor;
elLegendText.style.fontSize = parseFloat(w.config.legend.fontSize) + 'px';
elLegendText.style.fontWeight = w.config.legend.fontWeight;
elLegendText.style.fontFamily = fontFamily || w.config.chart.fontFamily;
Graphics.setAttrs(elLegendText, {
rel: i + 1,
i: i,
'data:default-text': encodeURIComponent(text),
'data:collapsed': collapsedSeries || ancillaryCollapsedSeries
});
elLegend.appendChild(elMarker);
elLegend.appendChild(elLegendText);
var coreUtils = new CoreUtils(this.ctx);
if (!w.config.legend.showForZeroSeries) {
var total = coreUtils.getSeriesTotalByIndex(i);
if (total === 0 && coreUtils.seriesHaveSameValues(i) && !coreUtils.isSeriesNull(i) && w.globals.collapsedSeriesIndices.indexOf(i) === -1 && w.globals.ancillaryCollapsedSeriesIndices.indexOf(i) === -1) {
elLegend.classList.add('apexcharts-hidden-zero-series');
}
}
if (!w.config.legend.showForNullSeries) {
if (coreUtils.isSeriesNull(i) && w.globals.collapsedSeriesIndices.indexOf(i) === -1 && w.globals.ancillaryCollapsedSeriesIndices.indexOf(i) === -1) {
elLegend.classList.add('apexcharts-hidden-null-series');
}
}
w.globals.dom.elLegendWrap.appendChild(elLegend);
w.globals.dom.elLegendWrap.classList.add("apexcharts-align-".concat(w.config.legend.horizontalAlign));
w.globals.dom.elLegendWrap.classList.add('position-' + w.config.legend.position);
elLegend.classList.add('apexcharts-legend-series');
elLegend.style.margin = "".concat(w.config.legend.itemMargin.vertical, "px ").concat(w.config.legend.itemMargin.horizontal, "px");
w.globals.dom.elLegendWrap.style.width = w.config.legend.width ? w.config.legend.width + 'px' : '';
w.globals.dom.elLegendWrap.style.height = w.config.legend.height ? w.config.legend.height + 'px' : '';
Graphics.setAttrs(elLegend, {
rel: i + 1,
seriesName: Utils.escapeString(legendNames[i]),
'data:collapsed': collapsedSeries || ancillaryCollapsedSeries
});
if (collapsedSeries || ancillaryCollapsedSeries) {
elLegend.classList.add('apexcharts-inactive-legend');
}
if (!w.config.legend.onItemClick.toggleDataSeries) {
elLegend.classList.add('apexcharts-no-click');
}
}
w.globals.dom.elWrap.addEventListener('click', self.onLegendClick, true);
if (w.config.legend.onItemHover.highlightDataSeries && w.config.legend.customLegendItems.length === 0) {
w.globals.dom.elWrap.addEventListener('mousemove', self.onLegendHovered, true);
w.globals.dom.elWrap.addEventListener('mouseout', self.onLegendHovered, true);
}
}
}, {
key: "setLegendWrapXY",
value: function setLegendWrapXY(offsetX, offsetY) {
var w = this.w;
var elLegendWrap = w.globals.dom.baseEl.querySelector('.apexcharts-legend');
var legendRect = elLegendWrap.getBoundingClientRect();
var x = 0;
var y = 0;
if (w.config.legend.position === 'bottom') {
y = y + (w.globals.svgHeight - legendRect.height / 2);
} else if (w.config.legend.position === 'top') {
var dim = new Dimensions(this.ctx);
var titleH = dim.dimHelpers.getTitleSubtitleCoords('title').height;
var subtitleH = dim.dimHelpers.getTitleSubtitleCoords('subtitle').height;
y = y + (titleH > 0 ? titleH - 10 : 0) + (subtitleH > 0 ? subtitleH - 10 : 0);
}
elLegendWrap.style.position = 'absolute';
x = x + offsetX + w.config.legend.offsetX;
y = y + offsetY + w.config.legend.offsetY;
elLegendWrap.style.left = x + 'px';
elLegendWrap.style.top = y + 'px';
if (w.config.legend.position === 'bottom') {
elLegendWrap.style.top = 'auto';
elLegendWrap.style.bottom = 5 - w.config.legend.offsetY + 'px';
} else if (w.config.legend.position === 'right') {
elLegendWrap.style.left = 'auto';
elLegendWrap.style.right = 25 + w.config.legend.offsetX + 'px';
}
var fixedHeigthWidth = ['width', 'height'];
fixedHeigthWidth.forEach(function (hw) {
if (elLegendWrap.style[hw]) {
elLegendWrap.style[hw] = parseInt(w.config.legend[hw], 10) + 'px';
}
});
}
}, {
key: "legendAlignHorizontal",
value: function legendAlignHorizontal() {
var w = this.w;
var elLegendWrap = w.globals.dom.baseEl.querySelector('.apexcharts-legend');
elLegendWrap.style.right = 0;
var lRect = this.legendHelpers.getLegendBBox();
var dimensions = new Dimensions(this.ctx);
var titleRect = dimensions.dimHelpers.getTitleSubtitleCoords('title');
var subtitleRect = dimensions.dimHelpers.getTitleSubtitleCoords('subtitle');
var offsetX = 20;
var offsetY = 0; // the whole legend box is set to bottom
if (w.config.legend.position === 'bottom') {
offsetY = -lRect.clwh / 1.8;
} else if (w.config.legend.position === 'top') {
offsetY = titleRect.height + subtitleRect.height + w.config.title.margin + w.config.subtitle.margin - 10;
}
this.setLegendWrapXY(offsetX, offsetY);
}
}, {
key: "legendAlignVertical",
value: function legendAlignVertical() {
var w = this.w;
var lRect = this.legendHelpers.getLegendBBox();
var offsetY = 20;
var offsetX = 0;
if (w.config.legend.position === 'left') {
offsetX = 20;
}
if (w.config.legend.position === 'right') {
offsetX = w.globals.svgWidth - lRect.clww - 10;
}
this.setLegendWrapXY(offsetX, offsetY);
}
}, {
key: "onLegendHovered",
value: function onLegendHovered(e) {
var w = this.w;
var hoverOverLegend = e.target.classList.contains('apexcharts-legend-text') || e.target.classList.contains('apexcharts-legend-marker');
if (w.config.chart.type !== 'heatmap' && !this.isBarsDistributed) {
if (!e.target.classList.contains('apexcharts-inactive-legend') && hoverOverLegend) {
var series = new Series(this.ctx);
series.toggleSeriesOnHover(e, e.target);
}
} else {
// for heatmap handling
if (hoverOverLegend) {
var seriesCnt = parseInt(e.target.getAttribute('rel'), 10) - 1;
this.ctx.events.fireEvent('legendHover', [this.ctx, seriesCnt, this.w]);
var _series = new Series(this.ctx);
_series.highlightRangeInSeries(e, e.target);
}
}
}
}, {
key: "onLegendClick",
value: function onLegendClick(e) {
var w = this.w;
if (w.config.legend.customLegendItems.length) return;
if (e.target.classList.contains('apexcharts-legend-text') || e.target.classList.contains('apexcharts-legend-marker')) {
var seriesCnt = parseInt(e.target.getAttribute('rel'), 10) - 1;
var isHidden = e.target.getAttribute('data:collapsed') === 'true';
var legendClick = this.w.config.chart.events.legendClick;
if (typeof legendClick === 'function') {
legendClick(this.ctx, seriesCnt, this.w);
}
this.ctx.events.fireEvent('legendClick', [this.ctx, seriesCnt, this.w]);
var markerClick = this.w.config.legend.markers.onClick;
if (typeof markerClick === 'function' && e.target.classList.contains('apexcharts-legend-marker')) {
markerClick(this.ctx, seriesCnt, this.w);
this.ctx.events.fireEvent('legendMarkerClick', [this.ctx, seriesCnt, this.w]);
} // for now - just prevent click on heatmap legend - and allow hover only
var clickAllowed = w.config.chart.type !== 'treemap' && w.config.chart.type !== 'heatmap' && !this.isBarsDistributed;
if (clickAllowed && w.config.legend.onItemClick.toggleDataSeries) {
this.legendHelpers.toggleDataSeries(seriesCnt, isHidden);
}
}
}
}]);
return Legend;
}();
var icoPan = "";
var icoZoom = "";
var icoReset = "";
var icoZoomIn = "\n";
var icoZoomOut = "\n";
var icoSelect = "";
var icoMenu = "";
/**
* ApexCharts Toolbar Class for creating toolbar in axis based charts.
*
* @module Toolbar
**/
var Toolbar = /*#__PURE__*/function () {
function Toolbar(ctx) {
_classCallCheck(this, Toolbar);
this.ctx = ctx;
this.w = ctx.w;
var w = this.w;
this.ev = this.w.config.chart.events;
this.selectedClass = 'apexcharts-selected';
this.localeValues = this.w.globals.locale.toolbar;
this.minX = w.globals.minX;
this.maxX = w.globals.maxX;
}
_createClass(Toolbar, [{
key: "createToolbar",
value: function createToolbar() {
var _this = this;
var w = this.w;
var createDiv = function createDiv() {
return document.createElement('div');
};
var elToolbarWrap = createDiv();
elToolbarWrap.setAttribute('class', 'apexcharts-toolbar');
elToolbarWrap.style.top = w.config.chart.toolbar.offsetY + 'px';
elToolbarWrap.style.right = -w.config.chart.toolbar.offsetX + 3 + 'px';
w.globals.dom.elWrap.appendChild(elToolbarWrap);
this.elZoom = createDiv();
this.elZoomIn = createDiv();
this.elZoomOut = createDiv();
this.elPan = createDiv();
this.elSelection = createDiv();
this.elZoomReset = createDiv();
this.elMenuIcon = createDiv();
this.elMenu = createDiv();
this.elCustomIcons = [];
this.t = w.config.chart.toolbar.tools;
if (Array.isArray(this.t.customIcons)) {
for (var i = 0; i < this.t.customIcons.length; i++) {
this.elCustomIcons.push(createDiv());
}
}
var toolbarControls = [];
var appendZoomControl = function appendZoomControl(type, el, ico) {
var tool = type.toLowerCase();
if (_this.t[tool] && w.config.chart.zoom.enabled) {
toolbarControls.push({
el: el,
icon: typeof _this.t[tool] === 'string' ? _this.t[tool] : ico,
title: _this.localeValues[type],
class: "apexcharts-".concat(tool, "-icon")
});
}
};
appendZoomControl('zoomIn', this.elZoomIn, icoZoomIn);
appendZoomControl('zoomOut', this.elZoomOut, icoZoomOut);
var zoomSelectionCtrls = function zoomSelectionCtrls(z) {
if (_this.t[z] && w.config.chart[z].enabled) {
toolbarControls.push({
el: z === 'zoom' ? _this.elZoom : _this.elSelection,
icon: typeof _this.t[z] === 'string' ? _this.t[z] : z === 'zoom' ? icoZoom : icoSelect,
title: _this.localeValues[z === 'zoom' ? 'selectionZoom' : 'selection'],
class: w.globals.isTouchDevice ? 'apexcharts-element-hidden' : "apexcharts-".concat(z, "-icon")
});
}
};
zoomSelectionCtrls('zoom');
zoomSelectionCtrls('selection');
if (this.t.pan && w.config.chart.zoom.enabled) {
toolbarControls.push({
el: this.elPan,
icon: typeof this.t.pan === 'string' ? this.t.pan : icoPan,
title: this.localeValues.pan,
class: w.globals.isTouchDevice ? 'apexcharts-element-hidden' : 'apexcharts-pan-icon'
});
}
appendZoomControl('reset', this.elZoomReset, icoReset);
if (this.t.download) {
toolbarControls.push({
el: this.elMenuIcon,
icon: typeof this.t.download === 'string' ? this.t.download : icoMenu,
title: this.localeValues.menu,
class: 'apexcharts-menu-icon'
});
}
for (var _i = 0; _i < this.elCustomIcons.length; _i++) {
toolbarControls.push({
el: this.elCustomIcons[_i],
icon: this.t.customIcons[_i].icon,
title: this.t.customIcons[_i].title,
index: this.t.customIcons[_i].index,
class: 'apexcharts-toolbar-custom-icon ' + this.t.customIcons[_i].class
});
}
toolbarControls.forEach(function (t, index) {
if (t.index) {
Utils.moveIndexInArray(toolbarControls, index, t.index);
}
});
for (var _i2 = 0; _i2 < toolbarControls.length; _i2++) {
Graphics.setAttrs(toolbarControls[_i2].el, {
class: toolbarControls[_i2].class,
title: toolbarControls[_i2].title
});
toolbarControls[_i2].el.innerHTML = toolbarControls[_i2].icon;
elToolbarWrap.appendChild(toolbarControls[_i2].el);
}
this._createHamburgerMenu(elToolbarWrap);
if (w.globals.zoomEnabled) {
this.elZoom.classList.add(this.selectedClass);
} else if (w.globals.panEnabled) {
this.elPan.classList.add(this.selectedClass);
} else if (w.globals.selectionEnabled) {
this.elSelection.classList.add(this.selectedClass);
}
this.addToolbarEventListeners();
}
}, {
key: "_createHamburgerMenu",
value: function _createHamburgerMenu(parent) {
this.elMenuItems = [];
parent.appendChild(this.elMenu);
Graphics.setAttrs(this.elMenu, {
class: 'apexcharts-menu'
});
var menuItems = [{
name: 'exportSVG',
title: this.localeValues.exportToSVG
}, {
name: 'exportPNG',
title: this.localeValues.exportToPNG
}, {
name: 'exportCSV',
title: this.localeValues.exportToCSV
}];
if (!this.w.globals.allSeriesHasEqualX) {
// if it is a multi series, and all series have variable x values, export CSV won't work
menuItems.splice(2, 1);
}
for (var i = 0; i < menuItems.length; i++) {
this.elMenuItems.push(document.createElement('div'));
this.elMenuItems[i].innerHTML = menuItems[i].title;
Graphics.setAttrs(this.elMenuItems[i], {
class: "apexcharts-menu-item ".concat(menuItems[i].name),
title: menuItems[i].title
});
this.elMenu.appendChild(this.elMenuItems[i]);
}
}
}, {
key: "addToolbarEventListeners",
value: function addToolbarEventListeners() {
var _this2 = this;
this.elZoomReset.addEventListener('click', this.handleZoomReset.bind(this));
this.elSelection.addEventListener('click', this.toggleZoomSelection.bind(this, 'selection'));
this.elZoom.addEventListener('click', this.toggleZoomSelection.bind(this, 'zoom'));
this.elZoomIn.addEventListener('click', this.handleZoomIn.bind(this));
this.elZoomOut.addEventListener('click', this.handleZoomOut.bind(this));
this.elPan.addEventListener('click', this.togglePanning.bind(this));
this.elMenuIcon.addEventListener('click', this.toggleMenu.bind(this));
this.elMenuItems.forEach(function (m) {
if (m.classList.contains('exportSVG')) {
m.addEventListener('click', _this2.handleDownload.bind(_this2, 'svg'));
} else if (m.classList.contains('exportPNG')) {
m.addEventListener('click', _this2.handleDownload.bind(_this2, 'png'));
} else if (m.classList.contains('exportCSV')) {
m.addEventListener('click', _this2.handleDownload.bind(_this2, 'csv'));
}
});
for (var i = 0; i < this.t.customIcons.length; i++) {
this.elCustomIcons[i].addEventListener('click', this.t.customIcons[i].click.bind(this, this.ctx, this.ctx.w));
}
}
}, {
key: "toggleZoomSelection",
value: function toggleZoomSelection(type) {
var charts = this.ctx.getSyncedCharts();
charts.forEach(function (ch) {
ch.ctx.toolbar.toggleOtherControls();
var el = type === 'selection' ? ch.ctx.toolbar.elSelection : ch.ctx.toolbar.elZoom;
var enabledType = type === 'selection' ? 'selectionEnabled' : 'zoomEnabled';
ch.w.globals[enabledType] = !ch.w.globals[enabledType];
if (!el.classList.contains(ch.ctx.toolbar.selectedClass)) {
el.classList.add(ch.ctx.toolbar.selectedClass);
} else {
el.classList.remove(ch.ctx.toolbar.selectedClass);
}
});
}
}, {
key: "getToolbarIconsReference",
value: function getToolbarIconsReference() {
var w = this.w;
if (!this.elZoom) {
this.elZoom = w.globals.dom.baseEl.querySelector('.apexcharts-zoom-icon');
}
if (!this.elPan) {
this.elPan = w.globals.dom.baseEl.querySelector('.apexcharts-pan-icon');
}
if (!this.elSelection) {
this.elSelection = w.globals.dom.baseEl.querySelector('.apexcharts-selection-icon');
}
}
}, {
key: "enableZoomPanFromToolbar",
value: function enableZoomPanFromToolbar(type) {
this.toggleOtherControls();
type === 'pan' ? this.w.globals.panEnabled = true : this.w.globals.zoomEnabled = true;
var el = type === 'pan' ? this.elPan : this.elZoom;
var el2 = type === 'pan' ? this.elZoom : this.elPan;
if (el) {
el.classList.add(this.selectedClass);
}
if (el2) {
el2.classList.remove(this.selectedClass);
}
}
}, {
key: "togglePanning",
value: function togglePanning() {
var charts = this.ctx.getSyncedCharts();
charts.forEach(function (ch) {
ch.ctx.toolbar.toggleOtherControls();
ch.w.globals.panEnabled = !ch.w.globals.panEnabled;
if (!ch.ctx.toolbar.elPan.classList.contains(ch.ctx.toolbar.selectedClass)) {
ch.ctx.toolbar.elPan.classList.add(ch.ctx.toolbar.selectedClass);
} else {
ch.ctx.toolbar.elPan.classList.remove(ch.ctx.toolbar.selectedClass);
}
});
}
}, {
key: "toggleOtherControls",
value: function toggleOtherControls() {
var _this3 = this;
var w = this.w;
w.globals.panEnabled = false;
w.globals.zoomEnabled = false;
w.globals.selectionEnabled = false;
this.getToolbarIconsReference();
var toggleEls = [this.elPan, this.elSelection, this.elZoom];
toggleEls.forEach(function (el) {
if (el) {
el.classList.remove(_this3.selectedClass);
}
});
}
}, {
key: "handleZoomIn",
value: function handleZoomIn() {
var w = this.w;
if (w.globals.isTimelineBar) {
this.minX = w.globals.minY;
this.maxX = w.globals.maxY;
}
var centerX = (this.minX + this.maxX) / 2;
var newMinX = (this.minX + centerX) / 2;
var newMaxX = (this.maxX + centerX) / 2;
var newMinXMaxX = this._getNewMinXMaxX(newMinX, newMaxX);
if (!w.globals.disableZoomIn) {
this.zoomUpdateOptions(newMinXMaxX.minX, newMinXMaxX.maxX);
}
}
}, {
key: "handleZoomOut",
value: function handleZoomOut() {
var w = this.w;
if (w.globals.isTimelineBar) {
this.minX = w.globals.minY;
this.maxX = w.globals.maxY;
} // avoid zooming out beyond 1000 which may result in NaN values being printed on x-axis
if (w.config.xaxis.type === 'datetime' && new Date(this.minX).getUTCFullYear() < 1000) {
return;
}
var centerX = (this.minX + this.maxX) / 2;
var newMinX = this.minX - (centerX - this.minX);
var newMaxX = this.maxX - (centerX - this.maxX);
var newMinXMaxX = this._getNewMinXMaxX(newMinX, newMaxX);
if (!w.globals.disableZoomOut) {
this.zoomUpdateOptions(newMinXMaxX.minX, newMinXMaxX.maxX);
}
}
}, {
key: "_getNewMinXMaxX",
value: function _getNewMinXMaxX(newMinX, newMaxX) {
var shouldFloor = this.w.config.xaxis.convertedCatToNumeric;
return {
minX: shouldFloor ? Math.floor(newMinX) : newMinX,
maxX: shouldFloor ? Math.floor(newMaxX) : newMaxX
};
}
}, {
key: "zoomUpdateOptions",
value: function zoomUpdateOptions(newMinX, newMaxX) {
var w = this.w;
if (newMinX === undefined && newMaxX === undefined) {
this.handleZoomReset();
return;
}
if (w.config.xaxis.convertedCatToNumeric) {
// in category charts, avoid zooming out beyond min and max
if (newMinX < 1) {
newMinX = 1;
newMaxX = w.globals.dataPoints;
}
if (newMaxX - newMinX < 2) {
return;
}
}
var xaxis = {
min: newMinX,
max: newMaxX
};
var beforeZoomRange = this.getBeforeZoomRange(xaxis);
if (beforeZoomRange) {
xaxis = beforeZoomRange.xaxis;
}
var options = {
xaxis: xaxis
};
var yaxis = Utils.clone(w.globals.initialConfig.yaxis);
if (w.config.chart.zoom.autoScaleYaxis) {
var scale = new Range(this.ctx);
yaxis = scale.autoScaleY(this.ctx, yaxis, {
xaxis: xaxis
});
}
if (!w.config.chart.group) {
// if chart in a group, prevent yaxis update here
// fix issue #650
options.yaxis = yaxis;
}
this.w.globals.zoomed = true;
this.ctx.updateHelpers._updateOptions(options, false, this.w.config.chart.animations.dynamicAnimation.enabled);
this.zoomCallback(xaxis, yaxis);
}
}, {
key: "zoomCallback",
value: function zoomCallback(xaxis, yaxis) {
if (typeof this.ev.zoomed === 'function') {
this.ev.zoomed(this.ctx, {
xaxis: xaxis,
yaxis: yaxis
});
}
}
}, {
key: "getBeforeZoomRange",
value: function getBeforeZoomRange(xaxis, yaxis) {
var newRange = null;
if (typeof this.ev.beforeZoom === 'function') {
newRange = this.ev.beforeZoom(this, {
xaxis: xaxis,
yaxis: yaxis
});
}
return newRange;
}
}, {
key: "toggleMenu",
value: function toggleMenu() {
var _this4 = this;
window.setTimeout(function () {
if (_this4.elMenu.classList.contains('apexcharts-menu-open')) {
_this4.elMenu.classList.remove('apexcharts-menu-open');
} else {
_this4.elMenu.classList.add('apexcharts-menu-open');
}
}, 0);
}
}, {
key: "handleDownload",
value: function handleDownload(type) {
var w = this.w;
var exprt = new Exports(this.ctx);
switch (type) {
case 'svg':
exprt.exportToSVG(this.ctx);
break;
case 'png':
exprt.exportToPng(this.ctx);
break;
case 'csv':
exprt.exportToCSV({
series: w.config.series,
columnDelimiter: w.config.chart.toolbar.export.csv.columnDelimiter
});
break;
}
}
}, {
key: "handleZoomReset",
value: function handleZoomReset(e) {
var charts = this.ctx.getSyncedCharts();
charts.forEach(function (ch) {
var w = ch.w; // forget lastXAxis min/max as reset button isn't resetting the x-axis completely if zoomX is called before
w.globals.lastXAxis.min = undefined;
w.globals.lastXAxis.max = undefined;
ch.updateHelpers.revertDefaultAxisMinMax();
if (typeof w.config.chart.events.beforeResetZoom === 'function') {
// here, user get an option to control xaxis and yaxis when resetZoom is called
// at this point, whatever is returned from w.config.chart.events.beforeResetZoom
// is set as the new xaxis/yaxis min/max
var resetZoomRange = w.config.chart.events.beforeResetZoom(ch, w);
if (resetZoomRange) {
ch.updateHelpers.revertDefaultAxisMinMax(resetZoomRange);
}
}
if (typeof w.config.chart.events.zoomed === 'function') {
ch.ctx.toolbar.zoomCallback({
min: w.config.xaxis.min,
max: w.config.xaxis.max
});
}
w.globals.zoomed = false; // if user has some series collapsed before hitting zoom reset button,
// those series should stay collapsed
var series = ch.ctx.series.emptyCollapsedSeries(Utils.clone(w.globals.initialSeries));
ch.updateHelpers._updateSeries(series, w.config.chart.animations.dynamicAnimation.enabled);
});
}
}, {
key: "destroy",
value: function destroy() {
this.elZoom = null;
this.elZoomIn = null;
this.elZoomOut = null;
this.elPan = null;
this.elSelection = null;
this.elZoomReset = null;
this.elMenuIcon = null;
}
}]);
return Toolbar;
}();
/**
* ApexCharts Zoom Class for handling zooming and panning on axes based charts.
*
* @module ZoomPanSelection
**/
var ZoomPanSelection = /*#__PURE__*/function (_Toolbar) {
_inherits(ZoomPanSelection, _Toolbar);
var _super = _createSuper(ZoomPanSelection);
function ZoomPanSelection(ctx) {
var _this;
_classCallCheck(this, ZoomPanSelection);
_this = _super.call(this, ctx);
_this.ctx = ctx;
_this.w = ctx.w;
_this.dragged = false;
_this.graphics = new Graphics(_this.ctx);
_this.eventList = ['mousedown', 'mouseleave', 'mousemove', 'touchstart', 'touchmove', 'mouseup', 'touchend'];
_this.clientX = 0;
_this.clientY = 0;
_this.startX = 0;
_this.endX = 0;
_this.dragX = 0;
_this.startY = 0;
_this.endY = 0;
_this.dragY = 0;
_this.moveDirection = 'none';
return _this;
}
_createClass(ZoomPanSelection, [{
key: "init",
value: function init(_ref) {
var _this2 = this;
var xyRatios = _ref.xyRatios;
var w = this.w;
var me = this;
this.xyRatios = xyRatios;
this.zoomRect = this.graphics.drawRect(0, 0, 0, 0);
this.selectionRect = this.graphics.drawRect(0, 0, 0, 0);
this.gridRect = w.globals.dom.baseEl.querySelector('.apexcharts-grid');
this.zoomRect.node.classList.add('apexcharts-zoom-rect');
this.selectionRect.node.classList.add('apexcharts-selection-rect');
w.globals.dom.elGraphical.add(this.zoomRect);
w.globals.dom.elGraphical.add(this.selectionRect);
if (w.config.chart.selection.type === 'x') {
this.slDraggableRect = this.selectionRect.draggable({
minX: 0,
minY: 0,
maxX: w.globals.gridWidth,
maxY: w.globals.gridHeight
}).on('dragmove', this.selectionDragging.bind(this, 'dragging'));
} else if (w.config.chart.selection.type === 'y') {
this.slDraggableRect = this.selectionRect.draggable({
minX: 0,
maxX: w.globals.gridWidth
}).on('dragmove', this.selectionDragging.bind(this, 'dragging'));
} else {
this.slDraggableRect = this.selectionRect.draggable().on('dragmove', this.selectionDragging.bind(this, 'dragging'));
}
this.preselectedSelection();
this.hoverArea = w.globals.dom.baseEl.querySelector("".concat(w.globals.chartClass, " .apexcharts-svg"));
this.hoverArea.classList.add('apexcharts-zoomable');
this.eventList.forEach(function (event) {
_this2.hoverArea.addEventListener(event, me.svgMouseEvents.bind(me, xyRatios), {
capture: false,
passive: true
});
});
} // remove the event listeners which were previously added on hover area
}, {
key: "destroy",
value: function destroy() {
if (this.slDraggableRect) {
this.slDraggableRect.draggable(false);
this.slDraggableRect.off();
this.selectionRect.off();
}
this.selectionRect = null;
this.zoomRect = null;
this.gridRect = null;
}
}, {
key: "svgMouseEvents",
value: function svgMouseEvents(xyRatios, e) {
var w = this.w;
var me = this;
var toolbar = this.ctx.toolbar;
var zoomtype = w.globals.zoomEnabled ? w.config.chart.zoom.type : w.config.chart.selection.type;
var autoSelected = w.config.chart.toolbar.autoSelected;
if (e.shiftKey) {
this.shiftWasPressed = true;
toolbar.enableZoomPanFromToolbar(autoSelected === 'pan' ? 'zoom' : 'pan');
} else {
if (this.shiftWasPressed) {
toolbar.enableZoomPanFromToolbar(autoSelected);
this.shiftWasPressed = false;
}
}
var tc = e.target.classList;
var falsePositives = tc.contains('apexcharts-selection-rect') || tc.contains('apexcharts-legend-marker') || tc.contains('apexcharts-legend-text') || e.target.parentNode.classList.contains('apexcharts-toolbar');
if (falsePositives) return;
me.clientX = e.type === 'touchmove' || e.type === 'touchstart' ? e.touches[0].clientX : e.type === 'touchend' ? e.changedTouches[0].clientX : e.clientX;
me.clientY = e.type === 'touchmove' || e.type === 'touchstart' ? e.touches[0].clientY : e.type === 'touchend' ? e.changedTouches[0].clientY : e.clientY;
if (e.type === 'mousedown' && e.which === 1) {
var gridRectDim = me.gridRect.getBoundingClientRect();
me.startX = me.clientX - gridRectDim.left;
me.startY = me.clientY - gridRectDim.top;
me.dragged = false;
me.w.globals.mousedown = true;
}
if (e.type === 'mousemove' && e.which === 1 || e.type === 'touchmove') {
me.dragged = true;
if (w.globals.panEnabled) {
w.globals.selection = null;
if (me.w.globals.mousedown) {
me.panDragging({
context: me,
zoomtype: zoomtype,
xyRatios: xyRatios
});
}
} else {
if (me.w.globals.mousedown && w.globals.zoomEnabled || me.w.globals.mousedown && w.globals.selectionEnabled) {
me.selection = me.selectionDrawing({
context: me,
zoomtype: zoomtype
});
}
}
}
if (e.type === 'mouseup' || e.type === 'touchend' || e.type === 'mouseleave') {
// we will be calling getBoundingClientRect on each mousedown/mousemove/mouseup
var _gridRectDim = me.gridRect.getBoundingClientRect();
if (me.w.globals.mousedown) {
// user released the drag, now do all the calculations
me.endX = me.clientX - _gridRectDim.left;
me.endY = me.clientY - _gridRectDim.top;
me.dragX = Math.abs(me.endX - me.startX);
me.dragY = Math.abs(me.endY - me.startY);
if (w.globals.zoomEnabled || w.globals.selectionEnabled) {
me.selectionDrawn({
context: me,
zoomtype: zoomtype
});
}
if (w.globals.panEnabled && w.config.xaxis.convertedCatToNumeric) {
me.delayedPanScrolled();
}
}
if (w.globals.zoomEnabled) {
me.hideSelectionRect(this.selectionRect);
}
me.dragged = false;
me.w.globals.mousedown = false;
}
this.makeSelectionRectDraggable();
}
}, {
key: "makeSelectionRectDraggable",
value: function makeSelectionRectDraggable() {
var w = this.w;
if (!this.selectionRect) return;
var rectDim = this.selectionRect.node.getBoundingClientRect();
if (rectDim.width > 0 && rectDim.height > 0) {
this.slDraggableRect.selectize({
points: 'l, r',
pointSize: 8,
pointType: 'rect'
}).resize({
constraint: {
minX: 0,
minY: 0,
maxX: w.globals.gridWidth,
maxY: w.globals.gridHeight
}
}).on('resizing', this.selectionDragging.bind(this, 'resizing'));
}
}
}, {
key: "preselectedSelection",
value: function preselectedSelection() {
var w = this.w;
var xyRatios = this.xyRatios;
if (!w.globals.zoomEnabled) {
if (typeof w.globals.selection !== 'undefined' && w.globals.selection !== null) {
this.drawSelectionRect(w.globals.selection);
} else {
if (w.config.chart.selection.xaxis.min !== undefined && w.config.chart.selection.xaxis.max !== undefined) {
var x = (w.config.chart.selection.xaxis.min - w.globals.minX) / xyRatios.xRatio;
var width = w.globals.gridWidth - (w.globals.maxX - w.config.chart.selection.xaxis.max) / xyRatios.xRatio - x;
var selectionRect = {
x: x,
y: 0,
width: width,
height: w.globals.gridHeight,
translateX: 0,
translateY: 0,
selectionEnabled: true
};
this.drawSelectionRect(selectionRect);
this.makeSelectionRectDraggable();
if (typeof w.config.chart.events.selection === 'function') {
w.config.chart.events.selection(this.ctx, {
xaxis: {
min: w.config.chart.selection.xaxis.min,
max: w.config.chart.selection.xaxis.max
},
yaxis: {}
});
}
}
}
}
}
}, {
key: "drawSelectionRect",
value: function drawSelectionRect(_ref2) {
var x = _ref2.x,
y = _ref2.y,
width = _ref2.width,
height = _ref2.height,
_ref2$translateX = _ref2.translateX,
translateX = _ref2$translateX === void 0 ? 0 : _ref2$translateX,
_ref2$translateY = _ref2.translateY,
translateY = _ref2$translateY === void 0 ? 0 : _ref2$translateY;
var w = this.w;
var zoomRect = this.zoomRect;
var selectionRect = this.selectionRect;
if (this.dragged || w.globals.selection !== null) {
var scalingAttrs = {
transform: 'translate(' + translateX + ', ' + translateY + ')'
}; // change styles based on zoom or selection
// zoom is Enabled and user has dragged, so draw blue rect
if (w.globals.zoomEnabled && this.dragged) {
if (width < 0) width = 1; // fixes apexcharts.js#1168
zoomRect.attr({
x: x,
y: y,
width: width,
height: height,
fill: w.config.chart.zoom.zoomedArea.fill.color,
'fill-opacity': w.config.chart.zoom.zoomedArea.fill.opacity,
stroke: w.config.chart.zoom.zoomedArea.stroke.color,
'stroke-width': w.config.chart.zoom.zoomedArea.stroke.width,
'stroke-opacity': w.config.chart.zoom.zoomedArea.stroke.opacity
});
Graphics.setAttrs(zoomRect.node, scalingAttrs);
} // selection is enabled
if (w.globals.selectionEnabled) {
selectionRect.attr({
x: x,
y: y,
width: width > 0 ? width : 0,
height: height > 0 ? height : 0,
fill: w.config.chart.selection.fill.color,
'fill-opacity': w.config.chart.selection.fill.opacity,
stroke: w.config.chart.selection.stroke.color,
'stroke-width': w.config.chart.selection.stroke.width,
'stroke-dasharray': w.config.chart.selection.stroke.dashArray,
'stroke-opacity': w.config.chart.selection.stroke.opacity
});
Graphics.setAttrs(selectionRect.node, scalingAttrs);
}
}
}
}, {
key: "hideSelectionRect",
value: function hideSelectionRect(rect) {
if (rect) {
rect.attr({
x: 0,
y: 0,
width: 0,
height: 0
});
}
}
}, {
key: "selectionDrawing",
value: function selectionDrawing(_ref3) {
var context = _ref3.context,
zoomtype = _ref3.zoomtype;
var w = this.w;
var me = context;
var gridRectDim = this.gridRect.getBoundingClientRect();
var startX = me.startX - 1;
var startY = me.startY;
var inversedX = false;
var inversedY = false;
var selectionWidth = me.clientX - gridRectDim.left - startX;
var selectionHeight = me.clientY - gridRectDim.top - startY;
var selectionRect = {};
if (Math.abs(selectionWidth + startX) > w.globals.gridWidth) {
// user dragged the mouse outside drawing area to the right
selectionWidth = w.globals.gridWidth - startX;
} else if (me.clientX - gridRectDim.left < 0) {
// user dragged the mouse outside drawing area to the left
selectionWidth = startX;
} // inverse selection X
if (startX > me.clientX - gridRectDim.left) {
inversedX = true;
selectionWidth = Math.abs(selectionWidth);
} // inverse selection Y
if (startY > me.clientY - gridRectDim.top) {
inversedY = true;
selectionHeight = Math.abs(selectionHeight);
}
if (zoomtype === 'x') {
selectionRect = {
x: inversedX ? startX - selectionWidth : startX,
y: 0,
width: selectionWidth,
height: w.globals.gridHeight
};
} else if (zoomtype === 'y') {
selectionRect = {
x: 0,
y: inversedY ? startY - selectionHeight : startY,
width: w.globals.gridWidth,
height: selectionHeight
};
} else {
selectionRect = {
x: inversedX ? startX - selectionWidth : startX,
y: inversedY ? startY - selectionHeight : startY,
width: selectionWidth,
height: selectionHeight
};
}
me.drawSelectionRect(selectionRect);
me.selectionDragging('resizing');
return selectionRect;
}
}, {
key: "selectionDragging",
value: function selectionDragging(type, e) {
var _this3 = this;
var w = this.w;
var xyRatios = this.xyRatios;
var selRect = this.selectionRect;
var timerInterval = 0;
if (type === 'resizing') {
timerInterval = 30;
} // update selection when selection rect is dragged
var getSelAttr = function getSelAttr(attr) {
return parseFloat(selRect.node.getAttribute(attr));
};
var draggedProps = {
x: getSelAttr('x'),
y: getSelAttr('y'),
width: getSelAttr('width'),
height: getSelAttr('height')
};
w.globals.selection = draggedProps; // update selection ends
if (typeof w.config.chart.events.selection === 'function' && w.globals.selectionEnabled) {
// a small debouncer is required when resizing to avoid freezing the chart
clearTimeout(this.w.globals.selectionResizeTimer);
this.w.globals.selectionResizeTimer = window.setTimeout(function () {
var gridRectDim = _this3.gridRect.getBoundingClientRect();
var selectionRect = selRect.node.getBoundingClientRect();
var minX = w.globals.xAxisScale.niceMin + (selectionRect.left - gridRectDim.left) * xyRatios.xRatio;
var maxX = w.globals.xAxisScale.niceMin + (selectionRect.right - gridRectDim.left) * xyRatios.xRatio;
var minY = w.globals.yAxisScale[0].niceMin + (gridRectDim.bottom - selectionRect.bottom) * xyRatios.yRatio[0];
var maxY = w.globals.yAxisScale[0].niceMax - (selectionRect.top - gridRectDim.top) * xyRatios.yRatio[0];
var xyAxis = {
xaxis: {
min: minX,
max: maxX
},
yaxis: {
min: minY,
max: maxY
}
};
w.config.chart.events.selection(_this3.ctx, xyAxis);
if (w.config.chart.brush.enabled && w.config.chart.events.brushScrolled !== undefined) {
w.config.chart.events.brushScrolled(_this3.ctx, xyAxis);
}
}, timerInterval);
}
}
}, {
key: "selectionDrawn",
value: function selectionDrawn(_ref4) {
var context = _ref4.context,
zoomtype = _ref4.zoomtype;
var w = this.w;
var me = context;
var xyRatios = this.xyRatios;
var toolbar = this.ctx.toolbar;
if (me.startX > me.endX) {
var tempX = me.startX;
me.startX = me.endX;
me.endX = tempX;
}
if (me.startY > me.endY) {
var tempY = me.startY;
me.startY = me.endY;
me.endY = tempY;
}
var xLowestValue = undefined;
var xHighestValue = undefined;
if (!w.globals.isTimelineBar) {
xLowestValue = w.globals.xAxisScale.niceMin + me.startX * xyRatios.xRatio;
xHighestValue = w.globals.xAxisScale.niceMin + me.endX * xyRatios.xRatio;
} else {
xLowestValue = w.globals.yAxisScale[0].niceMin + me.startX * xyRatios.invertedYRatio;
xHighestValue = w.globals.yAxisScale[0].niceMin + me.endX * xyRatios.invertedYRatio;
} // TODO: we will consider the 1st y axis values here for getting highest and lowest y
var yHighestValue = [];
var yLowestValue = [];
w.config.yaxis.forEach(function (yaxe, index) {
yHighestValue.push(w.globals.yAxisScale[index].niceMax - xyRatios.yRatio[index] * me.startY);
yLowestValue.push(w.globals.yAxisScale[index].niceMax - xyRatios.yRatio[index] * me.endY);
});
if (me.dragged && (me.dragX > 10 || me.dragY > 10) && xLowestValue !== xHighestValue) {
if (w.globals.zoomEnabled) {
var yaxis = Utils.clone(w.globals.initialConfig.yaxis);
var xaxis = Utils.clone(w.globals.initialConfig.xaxis);
w.globals.zoomed = true;
if (w.config.xaxis.convertedCatToNumeric) {
xLowestValue = Math.floor(xLowestValue);
xHighestValue = Math.floor(xHighestValue);
if (xLowestValue < 1) {
xLowestValue = 1;
xHighestValue = w.globals.dataPoints;
}
if (xHighestValue - xLowestValue < 2) {
xHighestValue = xLowestValue + 1;
}
}
if (zoomtype === 'xy' || zoomtype === 'x') {
xaxis = {
min: xLowestValue,
max: xHighestValue
};
}
if (zoomtype === 'xy' || zoomtype === 'y') {
yaxis.forEach(function (yaxe, index) {
yaxis[index].min = yLowestValue[index];
yaxis[index].max = yHighestValue[index];
});
}
if (w.config.chart.zoom.autoScaleYaxis) {
var scale = new Range(me.ctx);
yaxis = scale.autoScaleY(me.ctx, yaxis, {
xaxis: xaxis
});
}
if (toolbar) {
var beforeZoomRange = toolbar.getBeforeZoomRange(xaxis, yaxis);
if (beforeZoomRange) {
xaxis = beforeZoomRange.xaxis ? beforeZoomRange.xaxis : xaxis;
yaxis = beforeZoomRange.yaxis ? beforeZoomRange.yaxis : yaxis;
}
}
var options = {
xaxis: xaxis
};
if (!w.config.chart.group) {
// if chart in a group, prevent yaxis update here
// fix issue #650
options.yaxis = yaxis;
}
me.ctx.updateHelpers._updateOptions(options, false, me.w.config.chart.animations.dynamicAnimation.enabled);
if (typeof w.config.chart.events.zoomed === 'function') {
toolbar.zoomCallback(xaxis, yaxis);
}
} else if (w.globals.selectionEnabled) {
var _yaxis = null;
var _xaxis = null;
_xaxis = {
min: xLowestValue,
max: xHighestValue
};
if (zoomtype === 'xy' || zoomtype === 'y') {
_yaxis = Utils.clone(w.config.yaxis);
_yaxis.forEach(function (yaxe, index) {
_yaxis[index].min = yLowestValue[index];
_yaxis[index].max = yHighestValue[index];
});
}
w.globals.selection = me.selection;
if (typeof w.config.chart.events.selection === 'function') {
w.config.chart.events.selection(me.ctx, {
xaxis: _xaxis,
yaxis: _yaxis
});
}
}
}
}
}, {
key: "panDragging",
value: function panDragging(_ref5) {
var context = _ref5.context;
var w = this.w;
var me = context; // check to make sure there is data to compare against
if (typeof w.globals.lastClientPosition.x !== 'undefined') {
// get the change from last position to this position
var deltaX = w.globals.lastClientPosition.x - me.clientX;
var deltaY = w.globals.lastClientPosition.y - me.clientY; // check which direction had the highest amplitude and then figure out direction by checking if the value is greater or less than zero
if (Math.abs(deltaX) > Math.abs(deltaY) && deltaX > 0) {
this.moveDirection = 'left';
} else if (Math.abs(deltaX) > Math.abs(deltaY) && deltaX < 0) {
this.moveDirection = 'right';
} else if (Math.abs(deltaY) > Math.abs(deltaX) && deltaY > 0) {
this.moveDirection = 'up';
} else if (Math.abs(deltaY) > Math.abs(deltaX) && deltaY < 0) {
this.moveDirection = 'down';
}
} // set the new last position to the current for next time (to get the position of drag)
w.globals.lastClientPosition = {
x: me.clientX,
y: me.clientY
};
var xLowestValue = w.globals.isTimelineBar ? w.globals.minY : w.globals.minX;
var xHighestValue = w.globals.isTimelineBar ? w.globals.maxY : w.globals.maxX; // on a category, we don't pan continuosly as it causes bugs
if (!w.config.xaxis.convertedCatToNumeric) {
me.panScrolled(xLowestValue, xHighestValue);
}
}
}, {
key: "delayedPanScrolled",
value: function delayedPanScrolled() {
var w = this.w;
var newMinX = w.globals.minX;
var newMaxX = w.globals.maxX;
var centerX = (w.globals.maxX - w.globals.minX) / 2;
if (this.moveDirection === 'left') {
newMinX = w.globals.minX + centerX;
newMaxX = w.globals.maxX + centerX;
} else if (this.moveDirection === 'right') {
newMinX = w.globals.minX - centerX;
newMaxX = w.globals.maxX - centerX;
}
newMinX = Math.floor(newMinX);
newMaxX = Math.floor(newMaxX);
this.updateScrolledChart({
xaxis: {
min: newMinX,
max: newMaxX
}
}, newMinX, newMaxX);
}
}, {
key: "panScrolled",
value: function panScrolled(xLowestValue, xHighestValue) {
var w = this.w;
var xyRatios = this.xyRatios;
var yaxis = Utils.clone(w.globals.initialConfig.yaxis);
var xRatio = xyRatios.xRatio;
var minX = w.globals.minX;
var maxX = w.globals.maxX;
if (w.globals.isTimelineBar) {
xRatio = xyRatios.invertedYRatio;
minX = w.globals.minY;
maxX = w.globals.maxY;
}
if (this.moveDirection === 'left') {
xLowestValue = minX + w.globals.gridWidth / 15 * xRatio;
xHighestValue = maxX + w.globals.gridWidth / 15 * xRatio;
} else if (this.moveDirection === 'right') {
xLowestValue = minX - w.globals.gridWidth / 15 * xRatio;
xHighestValue = maxX - w.globals.gridWidth / 15 * xRatio;
}
if (!w.globals.isTimelineBar) {
if (xLowestValue < w.globals.initialMinX || xHighestValue > w.globals.initialMaxX) {
xLowestValue = minX;
xHighestValue = maxX;
}
}
var xaxis = {
min: xLowestValue,
max: xHighestValue
};
if (w.config.chart.zoom.autoScaleYaxis) {
var scale = new Range(this.ctx);
yaxis = scale.autoScaleY(this.ctx, yaxis, {
xaxis: xaxis
});
}
var options = {
xaxis: {
min: xLowestValue,
max: xHighestValue
}
};
if (!w.config.chart.group) {
// if chart in a group, prevent yaxis update here
// fix issue #650
options.yaxis = yaxis;
}
this.updateScrolledChart(options, xLowestValue, xHighestValue);
}
}, {
key: "updateScrolledChart",
value: function updateScrolledChart(options, xLowestValue, xHighestValue) {
var w = this.w;
this.ctx.updateHelpers._updateOptions(options, false, false);
if (typeof w.config.chart.events.scrolled === 'function') {
w.config.chart.events.scrolled(this.ctx, {
xaxis: {
min: xLowestValue,
max: xHighestValue
}
});
}
}
}]);
return ZoomPanSelection;
}(Toolbar);
/**
* ApexCharts Tooltip.Utils Class to support Tooltip functionality.
*
* @module Tooltip.Utils
**/
var Utils$1 = /*#__PURE__*/function () {
function Utils$1(tooltipContext) {
_classCallCheck(this, Utils$1);
this.w = tooltipContext.w;
this.ttCtx = tooltipContext;
this.ctx = tooltipContext.ctx;
}
/**
** When hovering over series, you need to capture which series is being hovered on.
** This function will return both capturedseries index as well as inner index of that series
* @memberof Utils
* @param {object}
* - hoverArea = the rect on which user hovers
* - elGrid = dimensions of the hover rect (it can be different than hoverarea)
*/
_createClass(Utils$1, [{
key: "getNearestValues",
value: function getNearestValues(_ref) {
var hoverArea = _ref.hoverArea,
elGrid = _ref.elGrid,
clientX = _ref.clientX,
clientY = _ref.clientY;
var w = this.w;
var hoverWidth = w.globals.gridWidth;
var hoverHeight = w.globals.gridHeight;
var xDivisor = hoverWidth / (w.globals.dataPoints - 1);
var yDivisor = hoverHeight / w.globals.dataPoints;
var seriesBound = elGrid.getBoundingClientRect();
var hasBars = this.hasBars();
if ((w.globals.comboCharts || hasBars) && !w.config.xaxis.convertedCatToNumeric) {
xDivisor = hoverWidth / w.globals.dataPoints;
}
var hoverX = clientX - seriesBound.left - w.globals.barPadForNumericAxis;
var hoverY = clientY - seriesBound.top;
var notInRect = hoverX < 0 || hoverY < 0 || hoverX > w.globals.gridWidth || hoverY > w.globals.gridHeight;
if (notInRect) {
hoverArea.classList.remove('hovering-zoom');
hoverArea.classList.remove('hovering-pan');
} else {
if (w.globals.zoomEnabled) {
hoverArea.classList.remove('hovering-pan');
hoverArea.classList.add('hovering-zoom');
} else if (w.globals.panEnabled) {
hoverArea.classList.remove('hovering-zoom');
hoverArea.classList.add('hovering-pan');
}
}
var j = Math.round(hoverX / xDivisor);
var jHorz = Math.floor(hoverY / yDivisor);
if (hasBars && !w.config.xaxis.convertedCatToNumeric) {
j = Math.ceil(hoverX / xDivisor);
j = j - 1;
}
var capturedSeries = null;
var closest = null;
var seriesXValArr = [];
var seriesYValArr = [];
for (var s = 0; s < w.globals.seriesXvalues.length; s++) {
seriesXValArr.push([w.globals.seriesXvalues[s][0] - 0.000001].concat(w.globals.seriesXvalues[s]));
}
seriesXValArr = seriesXValArr.map(function (seriesXVal) {
return seriesXVal.filter(function (s) {
return s;
});
});
seriesYValArr = w.globals.seriesYvalues.map(function (seriesYVal) {
return seriesYVal.filter(function (s) {
return Utils.isNumber(s);
});
}); // if X axis type is not category and tooltip is not shared, then we need to find the cursor position and get the nearest value
if (w.globals.isXNumeric) {
closest = this.closestInMultiArray(hoverX, hoverY, seriesXValArr, seriesYValArr);
capturedSeries = closest.index;
j = closest.j;
if (capturedSeries !== null) {
// initial push, it should be a little smaller than the 1st val
seriesXValArr = w.globals.seriesXvalues[capturedSeries];
closest = this.closestInArray(hoverX, seriesXValArr);
j = closest.index;
}
}
w.globals.capturedSeriesIndex = capturedSeries === null ? -1 : capturedSeries;
if (!j || j < 1) j = 0;
w.globals.capturedDataPointIndex = j;
return {
capturedSeries: capturedSeries,
j: w.globals.isBarHorizontal ? jHorz : j,
hoverX: hoverX,
hoverY: hoverY
};
}
}, {
key: "closestInMultiArray",
value: function closestInMultiArray(hoverX, hoverY, Xarrays, Yarrays) {
var w = this.w;
var activeIndex = 0;
var currIndex = null;
var j = -1;
if (w.globals.series.length > 1) {
activeIndex = this.getFirstActiveXArray(Xarrays);
} else {
currIndex = 0;
}
var currY = Yarrays[activeIndex][0];
var currX = Xarrays[activeIndex][0];
var diffX = Math.abs(hoverX - currX);
var diffY = Math.abs(hoverY - currY);
var diff = diffY + diffX;
Yarrays.map(function (arrY, arrIndex) {
arrY.map(function (y, innerKey) {
var newdiffY = Math.abs(hoverY - Yarrays[arrIndex][innerKey]);
var newdiffX = Math.abs(hoverX - Xarrays[arrIndex][innerKey]);
var newdiff = newdiffX + newdiffY;
if (newdiff < diff) {
diff = newdiff;
diffX = newdiffX;
diffY = newdiffY;
currIndex = arrIndex;
j = innerKey;
}
});
});
return {
index: currIndex,
j: j
};
}
}, {
key: "getFirstActiveXArray",
value: function getFirstActiveXArray(Xarrays) {
var activeIndex = 0;
var firstActiveSeriesIndex = Xarrays.map(function (xarr, index) {
return xarr.length > 0 ? index : -1;
});
for (var a = 0; a < firstActiveSeriesIndex.length; a++) {
if (firstActiveSeriesIndex[a] !== -1) {
activeIndex = firstActiveSeriesIndex[a];
break;
}
}
return activeIndex;
}
}, {
key: "closestInArray",
value: function closestInArray(val, arr) {
var curr = arr[0];
var currIndex = null;
var diff = Math.abs(val - curr);
for (var i = 0; i < arr.length; i++) {
var newdiff = Math.abs(val - arr[i]);
if (newdiff < diff) {
diff = newdiff;
currIndex = i;
}
}
return {
index: currIndex
};
}
/**
* When there are multiple series, it is possible to have different x values for each series.
* But it may be possible in those multiple series, that there is same x value for 2 or more
* series.
* @memberof Utils
* @param {int}
* - j = is the inner index of series -> (series[i][j])
* @return {bool}
*/
}, {
key: "isXoverlap",
value: function isXoverlap(j) {
var w = this.w;
var xSameForAllSeriesJArr = [];
var seriesX = w.globals.seriesX.filter(function (s) {
return typeof s[0] !== 'undefined';
});
if (seriesX.length > 0) {
for (var i = 0; i < seriesX.length - 1; i++) {
if (typeof seriesX[i][j] !== 'undefined' && typeof seriesX[i + 1][j] !== 'undefined') {
if (seriesX[i][j] !== seriesX[i + 1][j]) {
xSameForAllSeriesJArr.push('unEqual');
}
}
}
}
if (xSameForAllSeriesJArr.length === 0) {
return true;
}
return false;
}
}, {
key: "isInitialSeriesSameLen",
value: function isInitialSeriesSameLen() {
var sameLen = true;
var initialSeries = this.w.globals.initialSeries;
for (var i = 0; i < initialSeries.length - 1; i++) {
if (initialSeries[i].data.length !== initialSeries[i + 1].data.length) {
sameLen = false;
break;
}
}
return sameLen;
}
}, {
key: "getBarsHeight",
value: function getBarsHeight(allbars) {
var bars = _toConsumableArray(allbars);
var totalHeight = bars.reduce(function (acc, bar) {
return acc + bar.getBBox().height;
}, 0);
return totalHeight;
}
}, {
key: "getElMarkers",
value: function getElMarkers() {
return this.w.globals.dom.baseEl.querySelectorAll(' .apexcharts-series-markers');
}
}, {
key: "getAllMarkers",
value: function getAllMarkers() {
// first get all marker parents. This parent class contains series-index
// which helps to sort the markers as they are dynamic
var markersWraps = this.w.globals.dom.baseEl.querySelectorAll('.apexcharts-series-markers-wrap');
markersWraps = _toConsumableArray(markersWraps);
markersWraps.sort(function (a, b) {
return Number(b.getAttribute('data:realIndex')) < Number(a.getAttribute('data:realIndex')) ? 0 : -1;
});
var markers = [];
markersWraps.forEach(function (m) {
markers.push(m.querySelector('.apexcharts-marker'));
});
return markers;
}
}, {
key: "hasMarkers",
value: function hasMarkers() {
var markers = this.getElMarkers();
return markers.length > 0;
}
}, {
key: "getElBars",
value: function getElBars() {
return this.w.globals.dom.baseEl.querySelectorAll('.apexcharts-bar-series, .apexcharts-candlestick-series, .apexcharts-boxPlot-series, .apexcharts-rangebar-series');
}
}, {
key: "hasBars",
value: function hasBars() {
var bars = this.getElBars();
return bars.length > 0;
}
}, {
key: "getHoverMarkerSize",
value: function getHoverMarkerSize(index) {
var w = this.w;
var hoverSize = w.config.markers.hover.size;
if (hoverSize === undefined) {
hoverSize = w.globals.markers.size[index] + w.config.markers.hover.sizeOffset;
}
return hoverSize;
}
}, {
key: "toggleAllTooltipSeriesGroups",
value: function toggleAllTooltipSeriesGroups(state) {
var w = this.w;
var ttCtx = this.ttCtx;
if (ttCtx.allTooltipSeriesGroups.length === 0) {
ttCtx.allTooltipSeriesGroups = w.globals.dom.baseEl.querySelectorAll('.apexcharts-tooltip-series-group');
}
var allTooltipSeriesGroups = ttCtx.allTooltipSeriesGroups;
for (var i = 0; i < allTooltipSeriesGroups.length; i++) {
if (state === 'enable') {
allTooltipSeriesGroups[i].classList.add('apexcharts-active');
allTooltipSeriesGroups[i].style.display = w.config.tooltip.items.display;
} else {
allTooltipSeriesGroups[i].classList.remove('apexcharts-active');
allTooltipSeriesGroups[i].style.display = 'none';
}
}
}
}]);
return Utils$1;
}();
/**
* ApexCharts Tooltip.Labels Class to draw texts on the tooltip.
*
* @module Tooltip.Labels
**/
var Labels = /*#__PURE__*/function () {
function Labels(tooltipContext) {
_classCallCheck(this, Labels);
this.w = tooltipContext.w;
this.ctx = tooltipContext.ctx;
this.ttCtx = tooltipContext;
this.tooltipUtil = new Utils$1(tooltipContext);
}
_createClass(Labels, [{
key: "drawSeriesTexts",
value: function drawSeriesTexts(_ref) {
var _ref$shared = _ref.shared,
shared = _ref$shared === void 0 ? true : _ref$shared,
ttItems = _ref.ttItems,
_ref$i = _ref.i,
i = _ref$i === void 0 ? 0 : _ref$i,
_ref$j = _ref.j,
j = _ref$j === void 0 ? null : _ref$j,
y1 = _ref.y1,
y2 = _ref.y2,
e = _ref.e;
var w = this.w;
if (w.config.tooltip.custom !== undefined) {
this.handleCustomTooltip({
i: i,
j: j,
y1: y1,
y2: y2,
w: w
});
} else {
this.toggleActiveInactiveSeries(shared);
}
var values = this.getValuesToPrint({
i: i,
j: j
});
this.printLabels({
i: i,
j: j,
values: values,
ttItems: ttItems,
shared: shared,
e: e
}); // Re-calculate tooltip dimensions now that we have drawn the text
var tooltipEl = this.ttCtx.getElTooltip();
this.ttCtx.tooltipRect.ttWidth = tooltipEl.getBoundingClientRect().width;
this.ttCtx.tooltipRect.ttHeight = tooltipEl.getBoundingClientRect().height;
}
}, {
key: "printLabels",
value: function printLabels(_ref2) {
var _this = this;
var i = _ref2.i,
j = _ref2.j,
values = _ref2.values,
ttItems = _ref2.ttItems,
shared = _ref2.shared,
e = _ref2.e;
var w = this.w;
var val;
var goalVals = [];
var hasGoalValues = function hasGoalValues(gi) {
return w.globals.seriesGoals[gi] && w.globals.seriesGoals[gi][j] && Array.isArray(w.globals.seriesGoals[gi][j]);
};
var xVal = values.xVal,
zVal = values.zVal,
xAxisTTVal = values.xAxisTTVal;
var seriesName = '';
var pColor = w.globals.colors[i];
if (j !== null && w.config.plotOptions.bar.distributed) {
pColor = w.globals.colors[j];
}
var _loop = function _loop(t, inverset) {
var f = _this.getFormatters(i);
seriesName = _this.getSeriesName({
fn: f.yLbTitleFormatter,
index: i,
seriesIndex: i,
j: j
});
if (w.config.chart.type === 'treemap') {
seriesName = f.yLbTitleFormatter(String(w.config.series[i].data[j].x), {
series: w.globals.series,
seriesIndex: i,
dataPointIndex: j,
w: w
});
}
var tIndex = w.config.tooltip.inverseOrder ? inverset : t;
if (w.globals.axisCharts) {
var getValBySeriesIndex = function getValBySeriesIndex(index) {
return f.yLbFormatter(w.globals.series[index][j], {
series: w.globals.series,
seriesIndex: index,
dataPointIndex: j,
w: w
});
};
if (shared) {
f = _this.getFormatters(tIndex);
seriesName = _this.getSeriesName({
fn: f.yLbTitleFormatter,
index: tIndex,
seriesIndex: i,
j: j
});
pColor = w.globals.colors[tIndex];
val = getValBySeriesIndex(tIndex);
if (hasGoalValues(tIndex)) {
goalVals = w.globals.seriesGoals[tIndex][j].map(function (goal) {
return {
attrs: goal,
val: f.yLbFormatter(goal.value, {
seriesIndex: tIndex,
dataPointIndex: j,
w: w
})
};
});
}
} else {
if (e && e.target && e.target.getAttribute('fill')) {
pColor = e.target.getAttribute('fill');
}
val = getValBySeriesIndex(i);
if (hasGoalValues(i) && Array.isArray(w.globals.seriesGoals[i][j])) {
goalVals = w.globals.seriesGoals[i][j].map(function (goal) {
return {
attrs: goal,
val: f.yLbFormatter(goal.value, {
seriesIndex: i,
dataPointIndex: j,
w: w
})
};
});
}
}
} // for pie / donuts
if (j === null) {
val = f.yLbFormatter(w.globals.series[i], _objectSpread2(_objectSpread2({}, w), {}, {
seriesIndex: i,
dataPointIndex: i
}));
}
_this.DOMHandling({
i: i,
t: tIndex,
j: j,
ttItems: ttItems,
values: {
val: val,
goalVals: goalVals,
xVal: xVal,
xAxisTTVal: xAxisTTVal,
zVal: zVal
},
seriesName: seriesName,
shared: shared,
pColor: pColor
});
};
for (var t = 0, inverset = w.globals.series.length - 1; t < w.globals.series.length; t++, inverset--) {
_loop(t, inverset);
}
}
}, {
key: "getFormatters",
value: function getFormatters(i) {
var w = this.w;
var yLbFormatter = w.globals.yLabelFormatters[i];
var yLbTitleFormatter;
if (w.globals.ttVal !== undefined) {
if (Array.isArray(w.globals.ttVal)) {
yLbFormatter = w.globals.ttVal[i] && w.globals.ttVal[i].formatter;
yLbTitleFormatter = w.globals.ttVal[i] && w.globals.ttVal[i].title && w.globals.ttVal[i].title.formatter;
} else {
yLbFormatter = w.globals.ttVal.formatter;
if (typeof w.globals.ttVal.title.formatter === 'function') {
yLbTitleFormatter = w.globals.ttVal.title.formatter;
}
}
} else {
yLbTitleFormatter = w.config.tooltip.y.title.formatter;
}
if (typeof yLbFormatter !== 'function') {
if (w.globals.yLabelFormatters[0]) {
yLbFormatter = w.globals.yLabelFormatters[0];
} else {
yLbFormatter = function yLbFormatter(label) {
return label;
};
}
}
if (typeof yLbTitleFormatter !== 'function') {
yLbTitleFormatter = function yLbTitleFormatter(label) {
return label;
};
}
return {
yLbFormatter: yLbFormatter,
yLbTitleFormatter: yLbTitleFormatter
};
}
}, {
key: "getSeriesName",
value: function getSeriesName(_ref3) {
var fn = _ref3.fn,
index = _ref3.index,
seriesIndex = _ref3.seriesIndex,
j = _ref3.j;
var w = this.w;
return fn(String(w.globals.seriesNames[index]), {
series: w.globals.series,
seriesIndex: seriesIndex,
dataPointIndex: j,
w: w
});
}
}, {
key: "DOMHandling",
value: function DOMHandling(_ref4) {
var i = _ref4.i,
t = _ref4.t,
j = _ref4.j,
ttItems = _ref4.ttItems,
values = _ref4.values,
seriesName = _ref4.seriesName,
shared = _ref4.shared,
pColor = _ref4.pColor;
var w = this.w;
var ttCtx = this.ttCtx;
Object.keys(values).forEach(function (key) {
if (typeof values[key] === 'string') values[key] = Utils.sanitizeDom(values[key]);
});
var val = values.val,
goalVals = values.goalVals,
xVal = values.xVal,
xAxisTTVal = values.xAxisTTVal,
zVal = values.zVal;
var ttItemsChildren = null;
ttItemsChildren = ttItems[t].children;
if (w.config.tooltip.fillSeriesColor) {
// elTooltip.style.backgroundColor = pColor
ttItems[t].style.backgroundColor = pColor;
ttItemsChildren[0].style.display = 'none';
}
if (ttCtx.showTooltipTitle) {
if (ttCtx.tooltipTitle === null) {
// get it once if null, and store it in class property
ttCtx.tooltipTitle = w.globals.dom.baseEl.querySelector('.apexcharts-tooltip-title');
}
ttCtx.tooltipTitle.innerHTML = xVal;
} // if xaxis tooltip is constructed, we need to replace the innerHTML
if (ttCtx.blxaxisTooltip) {
ttCtx.xaxisTooltipText.innerHTML = xAxisTTVal !== '' ? xAxisTTVal : xVal;
}
var ttYLabel = ttItems[t].querySelector('.apexcharts-tooltip-text-y-label');
if (ttYLabel) {
ttYLabel.innerHTML = seriesName ? Utils.sanitizeDom(seriesName) : '';
}
var ttYVal = ttItems[t].querySelector('.apexcharts-tooltip-text-y-value');
if (ttYVal) {
ttYVal.innerHTML = typeof val !== 'undefined' ? val : '';
}
if (ttItemsChildren[0] && ttItemsChildren[0].classList.contains('apexcharts-tooltip-marker')) {
if (w.config.tooltip.marker.fillColors && Array.isArray(w.config.tooltip.marker.fillColors)) {
pColor = w.config.tooltip.marker.fillColors[t];
}
ttItemsChildren[0].style.backgroundColor = pColor;
}
if (!w.config.tooltip.marker.show) {
ttItemsChildren[0].style.display = 'none';
}
var ttGLabel = ttItems[t].querySelector('.apexcharts-tooltip-text-goals-label');
var ttGVal = ttItems[t].querySelector('.apexcharts-tooltip-text-goals-value');
if (goalVals.length && w.globals.seriesGoals[t]) {
var createGoalsHtml = function createGoalsHtml() {
var gLabels = '';
var gVals = '
';
goalVals.forEach(function (goal, gi) {
gLabels += "
").concat(goal.attrs.name, "
");
gVals += "
".concat(goal.val, "
");
});
ttGLabel.innerHTML = gLabels + "
";
ttGVal.innerHTML = gVals + "