Icard/angular-clarity-master(work.../node_modules/highcharts/modules/stock.src.js

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/**
* @license Highstock JS v11.4.1 (2024-04-04)
*
* Highcharts Stock as a plugin for Highcharts
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*/
(function (factory) {
if (typeof module === 'object' && module.exports) {
factory['default'] = factory;
module.exports = factory;
} else if (typeof define === 'function' && define.amd) {
define('highcharts/modules/stock', ['highcharts'], function (Highcharts) {
factory(Highcharts);
factory.Highcharts = Highcharts;
return factory;
});
} else {
factory(typeof Highcharts !== 'undefined' ? Highcharts : undefined);
}
}(function (Highcharts) {
'use strict';
var _modules = Highcharts ? Highcharts._modules : {};
function _registerModule(obj, path, args, fn) {
if (!obj.hasOwnProperty(path)) {
obj[path] = fn.apply(null, args);
if (typeof CustomEvent === 'function') {
window.dispatchEvent(new CustomEvent(
'HighchartsModuleLoaded',
{ detail: { path: path, module: obj[path] } }
));
}
}
}
_registerModule(_modules, 'Series/DataModifyComposition.js', [_modules['Core/Axis/Axis.js'], _modules['Core/Series/Point.js'], _modules['Core/Series/Series.js'], _modules['Core/Utilities.js']], function (Axis, Point, Series, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { tooltipFormatter: pointTooltipFormatter } = Point.prototype;
const { addEvent, arrayMax, arrayMin, correctFloat, defined, isArray, isNumber, isString, pick } = U;
/* *
*
* Composition
*
* */
var DataModifyComposition;
(function (DataModifyComposition) {
/* *
*
* Declarations
*
* */
/* *
*
* Functions
*
* */
/**
* Extends the series, axis and point classes with
* compare and cumulative support.
*
* @private
*
* @param SeriesClass
* Series class to use.
*
* @param AxisClass
* Axis class to extend.
*
* @param PointClass
* Point class to use.
*/
function compose(SeriesClass, AxisClass, PointClass) {
const axisProto = AxisClass.prototype, pointProto = PointClass.prototype, seriesProto = SeriesClass.prototype;
if (!seriesProto.setCompare) {
seriesProto.setCompare = seriesSetCompare;
seriesProto.setCumulative = seriesSetCumulative;
addEvent(SeriesClass, 'afterInit', afterInit);
addEvent(SeriesClass, 'afterGetExtremes', afterGetExtremes);
addEvent(SeriesClass, 'afterProcessData', afterProcessData);
}
if (!axisProto.setCompare) {
axisProto.setCompare = axisSetCompare;
axisProto.setModifier = setModifier;
axisProto.setCumulative = axisSetCumulative;
pointProto.tooltipFormatter = tooltipFormatter;
}
return SeriesClass;
}
DataModifyComposition.compose = compose;
/* ********************************************************************** *
* Start shared compare and cumulative logic *
* ********************************************************************** */
/**
* Shared code for the axis.setCompare() and the axis.setCumulative()
* methods. Inits the 'compare' or the 'cumulative' mode.
* @private
*/
function setModifier(mode, modeState, redraw) {
if (!this.isXAxis) {
this.series.forEach(function (series) {
if (mode === 'compare' &&
typeof modeState !== 'boolean') {
series.setCompare(modeState, false);
}
else if (mode === 'cumulative' &&
!isString(modeState)) {
series.setCumulative(modeState, false);
}
});
if (pick(redraw, true)) {
this.chart.redraw();
}
}
}
/**
* Extend the tooltip formatter by adding support for the point.change
* variable as well as the changeDecimals option.
*
* @ignore
* @function Highcharts.Point#tooltipFormatter
*
* @param {string} pointFormat
*/
function tooltipFormatter(pointFormat) {
const point = this, { numberFormatter } = point.series.chart, replace = function (value) {
pointFormat = pointFormat.replace('{point.' + value + '}', (point[value] > 0 && value === 'change' ? '+' : '') +
numberFormatter(point[value], pick(point.series.tooltipOptions.changeDecimals, 2)));
};
if (defined(point.change)) {
replace('change');
}
if (defined(point.cumulativeSum)) {
replace('cumulativeSum');
}
return pointTooltipFormatter.apply(this, [pointFormat]);
}
/**
* Extend series.init by adding a methods to modify the y values used
* for plotting on the y axis. For compare mode, this method is called both
* from the axis when finding dataMin and dataMax,
* and from the series.translate method.
*
* @ignore
* @function Highcharts.Series#init
*/
function afterInit() {
const compare = this.options.compare;
let dataModify;
if (compare === 'percent' ||
compare === 'value' ||
this.options.cumulative) {
dataModify = new Additions(this);
if (compare === 'percent' || compare === 'value') {
// Set comparison mode
dataModify.initCompare(compare);
}
else {
// Set Cumulative Sum mode
dataModify.initCumulative();
}
}
this.dataModify = dataModify;
}
/**
* Adjust the extremes (compare and cumulative modify the data).
* @private
*/
function afterGetExtremes(e) {
const dataExtremes = e.dataExtremes, activeYData = dataExtremes.activeYData;
if (this.dataModify && dataExtremes) {
let extremes;
if (this.options.compare) {
extremes = [
this.dataModify.modifyValue(dataExtremes.dataMin),
this.dataModify.modifyValue(dataExtremes.dataMax)
];
}
else if (this.options.cumulative &&
isArray(activeYData) &&
// If only one y visible, sum doesn't change
// so no need to change extremes
activeYData.length >= 2) {
extremes = Additions.getCumulativeExtremes(activeYData);
}
if (extremes) {
dataExtremes.dataMin = arrayMin(extremes);
dataExtremes.dataMax = arrayMax(extremes);
}
}
}
/* ********************************************************************** *
* End shared compare and cumulative logic *
* ********************************************************************** */
/* ********************************************************************** *
* Start value compare logic *
* ********************************************************************** */
/**
* Highcharts Stock only. Set the
* [compare](https://api.highcharts.com/highstock/plotOptions.series.compare)
* mode of the series after render time.
* In most cases it is more useful running
* {@link Axis#setCompare} on the X axis to update all its series.
*
* @function Highcharts.Series#setCompare
*
* @param {string|null} [compare]
* Can be one of `undefined` (default), `null`, `"percent"`
* or `"value"`.
*
* @param {boolean} [redraw=true]
* Whether to redraw the chart or to wait for a later call to
* {@link Chart#redraw}.
*/
function seriesSetCompare(compare, redraw) {
// Survive to export, #5485 (and for options generally)
this.options.compare = this.userOptions.compare = compare;
// Fire series.init() that will set or delete series.dataModify
this.update({}, pick(redraw, true));
if (this.dataModify && (compare === 'value' || compare === 'percent')) {
this.dataModify.initCompare(compare);
}
else {
// When disabling, clear the points
this.points.forEach((point) => {
delete point.change;
});
}
}
/**
* Extend series.processData by finding the first y value in the plot area,
* used for comparing the following values
*
* @ignore
* @function Highcharts.Series#processData
*/
function afterProcessData() {
const series = this;
if (series.xAxis && // Not pies
series.processedYData &&
series.dataModify) {
const processedXData = series.processedXData, processedYData = series.processedYData, length = processedYData.length, compareStart = series.options.compareStart === true ? 0 : 1;
let keyIndex = -1, i;
// For series with more than one value (range, OHLC etc), compare
// against close or the pointValKey (#4922, #3112, #9854)
if (series.pointArrayMap) {
keyIndex = series.pointArrayMap.indexOf(series.options.pointValKey || series.pointValKey || 'y');
}
// Find the first value for comparison
for (i = 0; i < length - compareStart; i++) {
const compareValue = processedYData[i] && keyIndex > -1 ?
processedYData[i][keyIndex] : processedYData[i];
if (isNumber(compareValue) &&
compareValue !== 0 &&
processedXData[i + compareStart] >= (series.xAxis.min || 0)) {
series.dataModify.compareValue = compareValue;
break;
}
}
}
}
/**
* Highcharts Stock only. Set the compare mode on all series
* belonging to a Y axis.
*
* @see [plotOptions.series.compare](https://api.highcharts.com/highstock/plotOptions.series.compare)
*
* @sample stock/members/axis-setcompare/
* Set compare
*
* @function Highcharts.Axis#setCompare
*
* @param {string|null} [compare]
* The compare mode. Can be one of `undefined` (default), `null`,
* `"value"` or `"percent"`.
*
* @param {boolean} [redraw=true]
* Whether to redraw the chart or to wait for a later call to
* {@link Chart#redraw}.
*/
function axisSetCompare(compare, redraw) {
this.setModifier('compare', compare, redraw);
}
/* ********************************************************************** *
* End value compare logic *
* ********************************************************************** */
/* ********************************************************************** *
* Start Cumulative Sum logic, author: Rafal Sebestjanski *
* ********************************************************************** */
/**
* Highcharts Stock only. Set the
* [cumulative](https://api.highcharts.com/highstock/plotOptions.series.cumulative)
* mode of the series after render time.
* In most cases it is more useful running
* {@link Axis#setCumulative} on the Y axis to update all its series.
*
* @function Highcharts.Series#setCumulative
*
* @param {boolean} [cumulative=false]
* Either enable or disable Cumulative Sum mode.
* Can be one of `false` (default) or `true`.
*
* @param {boolean} [redraw=true]
* Whether to redraw the chart or to wait for a later call to
* {@link Chart#redraw}.
*/
function seriesSetCumulative(cumulative, redraw) {
// Set default value to false
cumulative = pick(cumulative, false);
// Survive to export, #5485 (and for options generally)
this.options.cumulative = this.userOptions.cumulative = cumulative;
// Fire series.init() that will set or delete series.dataModify
this.update({}, pick(redraw, true));
// If should, turn on the Cumulative Sum mode
if (this.dataModify) {
this.dataModify.initCumulative();
}
else {
// When disabling, clear the points
this.points.forEach((point) => {
delete point.cumulativeSum;
});
}
}
/**
* Highcharts Stock only. Set the cumulative mode on all series
* belonging to a Y axis.
*
* @see [plotOptions.series.cumulative](https://api.highcharts.com/highstock/plotOptions.series.cumulative)
*
* @sample stock/members/axis-setcumulative/
* Set cumulative
*
* @function Highcharts.Axis#setCumulative
*
* @param {boolean} [cumulative]
* Whether to disable or enable the cumulative mode.
* Can be one of `undefined` (default, treated as `false`),
* `false` or `true`.
*
* @param {boolean} [redraw=true]
* Whether to redraw the chart or to wait for a later call to
* {@link Chart#redraw}.
*/
function axisSetCumulative(cumulative, redraw) {
this.setModifier('cumulative', cumulative, redraw);
}
/* *
*
* Classes
*
* */
/**
* @private
*/
class Additions {
/* *
*
* Constructors
*
* */
/**
* @private
*/
constructor(series) {
this.series = series;
}
/* *
*
* Functions
*
* */
/**
* @private
*/
modifyValue() {
return 0;
}
/**
* @ignore
* @function Highcharts.Series#getCumulativeExtremes
*
* @param {Array} [activeYData]
* An array cointaining all the points' y values
* in a visible range.
*/
static getCumulativeExtremes(activeYData) {
let cumulativeDataMin = Infinity, cumulativeDataMax = -Infinity;
activeYData.reduce((prev, cur) => {
const sum = prev + cur;
cumulativeDataMin = Math.min(cumulativeDataMin, sum, prev);
cumulativeDataMax = Math.max(cumulativeDataMax, sum, prev);
return sum;
});
return [cumulativeDataMin, cumulativeDataMax];
}
/**
* @ignore
* @function Highcharts.Series#initCompare
*
* @param {string} [compare]
* Can be one of `"percent"` or `"value"`.
*/
initCompare(compare) {
// Set the modifyValue method
this.modifyValue = function (value, index) {
if (value === null) {
value = 0;
}
const compareValue = this.compareValue;
if (typeof value !== 'undefined' &&
typeof compareValue !== 'undefined') { // #2601, #5814
// Get the modified value
if (compare === 'value') {
value -= compareValue;
// Compare percent
}
else {
const compareBase = this.series.options.compareBase;
value = 100 * (value / compareValue) -
(compareBase === 100 ? 0 : 100);
}
// Record for tooltip etc.
if (typeof index !== 'undefined') {
const point = this.series.points[index];
if (point) {
point.change = value;
}
}
return value;
}
return 0;
};
}
/**
* @ignore
* @function Highcharts.Series#initCumulative
*/
initCumulative() {
// Set the modifyValue method
this.modifyValue = function (value, index) {
if (value === null) {
value = 0;
}
if (value !== void 0 && index !== void 0) {
const prevPoint = index > 0 ?
this.series.points[index - 1] : null;
// Get the modified value
if (prevPoint && prevPoint.cumulativeSum) {
value = correctFloat(prevPoint.cumulativeSum + value);
}
// Record for tooltip etc.
const point = this.series.points[index];
if (point) {
point.cumulativeSum = value;
}
return value;
}
return 0;
};
}
}
DataModifyComposition.Additions = Additions;
})(DataModifyComposition || (DataModifyComposition = {}));
/* *
*
* Default Export
*
* */
/* *
*
* API Options
*
* */
/**
* Compare the values of the series against the first non-null, non-
* zero value in the visible range. The y axis will show percentage
* or absolute change depending on whether `compare` is set to `"percent"`
* or `"value"`. When this is applied to multiple series, it allows
* comparing the development of the series against each other. Adds
* a `change` field to every point object.
*
* @see [compareBase](#plotOptions.series.compareBase)
* @see [Axis.setCompare()](/class-reference/Highcharts.Axis#setCompare)
* @see [Series.setCompare()](/class-reference/Highcharts.Series#setCompare)
*
* @sample {highstock} stock/plotoptions/series-compare-percent/
* Percent
* @sample {highstock} stock/plotoptions/series-compare-value/
* Value
*
* @type {string}
* @since 1.0.1
* @product highstock
* @validvalue ["percent", "value"]
* @apioption plotOptions.series.compare
*/
/**
* Defines if comparison should start from the first point within the visible
* range or should start from the first point **before** the range.
*
* In other words, this flag determines if first point within the visible range
* will have 0% (`compareStart=true`) or should have been already calculated
* according to the previous point (`compareStart=false`).
*
* @sample {highstock} stock/plotoptions/series-comparestart/
* Calculate compare within visible range
*
* @type {boolean}
* @default false
* @since 6.0.0
* @product highstock
* @apioption plotOptions.series.compareStart
*/
/**
* When [compare](#plotOptions.series.compare) is `percent`, this option
* dictates whether to use 0 or 100 as the base of comparison.
*
* @sample {highstock} stock/plotoptions/series-comparebase/
* Compare base is 100
*
* @type {number}
* @default 0
* @since 5.0.6
* @product highstock
* @validvalue [0, 100]
* @apioption plotOptions.series.compareBase
*/
/**
* Cumulative Sum feature replaces points' values with the following formula:
* `sum of all previous points' values + current point's value`.
* Works only for points in a visible range.
* Adds the `cumulativeSum` field to each point object that can be accessed
* e.g. in the [tooltip.pointFormat](https://api.highcharts.com/highstock/tooltip.pointFormat).
*
* With `dataGrouping` enabled, default grouping approximation is set to `sum`.
*
* @see [Axis.setCumulative()](/class-reference/Highcharts.Axis#setCumulative)
* @see [Series.setCumulative()](/class-reference/Highcharts.Series#setCumulative)
*
* @sample {highstock} stock/plotoptions/series-cumulative-sum/
* Cumulative Sum
*
* @type {boolean}
* @default false
* @since 9.3.0
* @product highstock
* @apioption plotOptions.series.cumulative
*/
''; // Keeps doclets above in transpiled file
return DataModifyComposition;
});
_registerModule(_modules, 'Stock/Navigator/ChartNavigatorComposition.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { isTouchDevice } = H;
const { addEvent, merge, pick } = U;
/* *
*
* Constants
*
* */
const composedMembers = [];
/* *
*
* Variables
*
* */
let NavigatorConstructor;
/* *
*
* Functions
*
* */
/**
* @private
*/
function compose(ChartClass, NavigatorClass) {
if (U.pushUnique(composedMembers, ChartClass)) {
const chartProto = ChartClass.prototype;
NavigatorConstructor = NavigatorClass;
chartProto.callbacks.push(onChartCallback);
addEvent(ChartClass, 'afterAddSeries', onChartAfterAddSeries);
addEvent(ChartClass, 'afterSetChartSize', onChartAfterSetChartSize);
addEvent(ChartClass, 'afterUpdate', onChartAfterUpdate);
addEvent(ChartClass, 'beforeRender', onChartBeforeRender);
addEvent(ChartClass, 'beforeShowResetZoom', onChartBeforeShowResetZoom);
addEvent(ChartClass, 'update', onChartUpdate);
}
}
/**
* Handle adding new series.
* @private
*/
function onChartAfterAddSeries() {
if (this.navigator) {
// Recompute which series should be shown in navigator, and add them
this.navigator.setBaseSeries(null, false);
}
}
/**
* For stock charts, extend the Chart.setChartSize method so that we can set the
* final top position of the navigator once the height of the chart, including
* the legend, is determined. #367. We can't use Chart.getMargins, because
* labels offsets are not calculated yet.
* @private
*/
function onChartAfterSetChartSize() {
const legend = this.legend, navigator = this.navigator;
let legendOptions, xAxis, yAxis;
if (navigator) {
legendOptions = legend && legend.options;
xAxis = navigator.xAxis;
yAxis = navigator.yAxis;
const { scrollbarHeight, scrollButtonSize } = navigator;
// Compute the top position
if (this.inverted) {
navigator.left = navigator.opposite ?
this.chartWidth - scrollbarHeight -
navigator.height :
this.spacing[3] + scrollbarHeight;
navigator.top = this.plotTop + scrollButtonSize;
}
else {
navigator.left = pick(xAxis.left, this.plotLeft + scrollButtonSize);
navigator.top = navigator.navigatorOptions.top ||
this.chartHeight -
navigator.height -
scrollbarHeight -
(this.scrollbar?.options.margin || 0) -
this.spacing[2] -
(this.rangeSelector && this.extraBottomMargin ?
this.rangeSelector.getHeight() :
0) -
((legendOptions &&
legendOptions.verticalAlign === 'bottom' &&
legendOptions.layout !== 'proximate' && // #13392
legendOptions.enabled &&
!legendOptions.floating) ?
legend.legendHeight +
pick(legendOptions.margin, 10) :
0) -
(this.titleOffset ? this.titleOffset[2] : 0);
}
if (xAxis && yAxis) { // False if navigator is disabled (#904)
if (this.inverted) {
xAxis.options.left = yAxis.options.left = navigator.left;
}
else {
xAxis.options.top = yAxis.options.top = navigator.top;
}
xAxis.setAxisSize();
yAxis.setAxisSize();
}
}
}
/**
* Initialize navigator, if no scrolling exists yet.
* @private
*/
function onChartAfterUpdate(event) {
if (!this.navigator && !this.scroller &&
(this.options.navigator.enabled ||
this.options.scrollbar.enabled)) {
this.scroller = this.navigator = new NavigatorConstructor(this);
if (pick(event.redraw, true)) {
this.redraw(event.animation); // #7067
}
}
}
/**
* Initialize navigator for stock charts
* @private
*/
function onChartBeforeRender() {
const options = this.options;
if (options.navigator.enabled ||
options.scrollbar.enabled) {
this.scroller = this.navigator = new NavigatorConstructor(this);
}
}
/**
* For Stock charts. For x only zooming, do not to create the zoom button
* because X axis zooming is already allowed by the Navigator and Range
* selector. (#9285)
* @private
*/
function onChartBeforeShowResetZoom() {
const chartOptions = this.options, navigator = chartOptions.navigator, rangeSelector = chartOptions.rangeSelector;
if (((navigator && navigator.enabled) ||
(rangeSelector && rangeSelector.enabled)) &&
((!isTouchDevice &&
this.zooming.type === 'x') ||
(isTouchDevice && this.zooming.pinchType === 'x'))) {
return false;
}
}
/**
* @private
*/
function onChartCallback(chart) {
const navigator = chart.navigator;
// Initialize the navigator
if (navigator && chart.xAxis[0]) {
const extremes = chart.xAxis[0].getExtremes();
navigator.render(extremes.min, extremes.max);
}
}
/**
* Merge options, if no scrolling exists yet
* @private
*/
function onChartUpdate(e) {
const navigatorOptions = (e.options.navigator || {}), scrollbarOptions = (e.options.scrollbar || {});
if (!this.navigator && !this.scroller &&
(navigatorOptions.enabled || scrollbarOptions.enabled)) {
merge(true, this.options.navigator, navigatorOptions);
merge(true, this.options.scrollbar, scrollbarOptions);
delete e.options.navigator;
delete e.options.scrollbar;
}
}
/* *
*
* Default Export
*
* */
const ChartNavigatorComposition = {
compose
};
return ChartNavigatorComposition;
});
_registerModule(_modules, 'Core/Axis/NavigatorAxisComposition.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { isTouchDevice } = H;
const { addEvent, correctFloat, defined, isNumber, pick } = U;
/* *
*
* Functions
*
* */
/**
* @private
*/
function onAxisInit() {
const axis = this;
if (!axis.navigatorAxis) {
axis.navigatorAxis = new NavigatorAxisAdditions(axis);
}
}
/**
* For Stock charts, override selection zooming with some special features
* because X axis zooming is already allowed by the Navigator and Range
* selector.
* @private
*/
function onAxisSetExtremes(e) {
const axis = this, chart = axis.chart, chartOptions = chart.options, navigator = chartOptions.navigator, navigatorAxis = axis.navigatorAxis, pinchType = chart.zooming.pinchType, rangeSelector = chartOptions.rangeSelector, zoomType = chart.zooming.type;
let zoomed;
if (axis.isXAxis &&
(navigator?.enabled || rangeSelector?.enabled)) {
// For y only zooming, ignore the X axis completely
if (zoomType === 'y' && e.trigger === 'zoom') {
zoomed = false;
// For xy zooming, record the state of the zoom before zoom selection,
// then when the reset button is pressed, revert to this state. This
// should apply only if the chart is initialized with a range (#6612),
// otherwise zoom all the way out.
}
else if (((e.trigger === 'zoom' && zoomType === 'xy') ||
(isTouchDevice && pinchType === 'xy')) &&
axis.options.range) {
const previousZoom = navigatorAxis.previousZoom;
// Minimum defined, zooming in
if (defined(e.min)) {
navigatorAxis.previousZoom = [axis.min, axis.max];
// Minimum undefined, resetting zoom
}
else if (previousZoom) {
e.min = previousZoom[0];
e.max = previousZoom[1];
navigatorAxis.previousZoom = void 0;
}
}
}
if (typeof zoomed !== 'undefined') {
e.preventDefault();
}
}
/* *
*
* Class
*
* */
/**
* @private
* @class
*/
class NavigatorAxisAdditions {
/* *
*
* Static Functions
*
* */
/**
* @private
*/
static compose(AxisClass) {
if (!AxisClass.keepProps.includes('navigatorAxis')) {
AxisClass.keepProps.push('navigatorAxis');
addEvent(AxisClass, 'init', onAxisInit);
addEvent(AxisClass, 'setExtremes', onAxisSetExtremes);
}
}
/* *
*
* Constructors
*
* */
constructor(axis) {
this.axis = axis;
}
/* *
*
* Functions
*
* */
/**
* @private
*/
destroy() {
this.axis = void 0;
}
/**
* Add logic to normalize the zoomed range in order to preserve the pressed
* state of range selector buttons
*
* @private
* @function Highcharts.Axis#toFixedRange
*/
toFixedRange(pxMin, pxMax, fixedMin, fixedMax) {
const axis = this.axis, halfPointRange = (axis.pointRange || 0) / 2;
let newMin = pick(fixedMin, axis.translate(pxMin, true, !axis.horiz)), newMax = pick(fixedMax, axis.translate(pxMax, true, !axis.horiz));
// Add/remove half point range to/from the extremes (#1172)
if (!defined(fixedMin)) {
newMin = correctFloat(newMin + halfPointRange);
}
if (!defined(fixedMax)) {
newMax = correctFloat(newMax - halfPointRange);
}
if (!isNumber(newMin) || !isNumber(newMax)) { // #1195, #7411
newMin = newMax = void 0;
}
return {
min: newMin,
max: newMax
};
}
}
/* *
*
* Default Export
*
* */
return NavigatorAxisAdditions;
});
_registerModule(_modules, 'Stock/Navigator/NavigatorDefaults.js', [_modules['Core/Color/Color.js'], _modules['Core/Series/SeriesRegistry.js']], function (Color, SeriesRegistry) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { parse: color } = Color;
const { seriesTypes } = SeriesRegistry;
/* *
*
* Constants
*
* */
/**
* The navigator is a small series below the main series, displaying
* a view of the entire data set. It provides tools to zoom in and
* out on parts of the data as well as panning across the dataset.
*
* @product highstock gantt
* @optionparent navigator
*/
const NavigatorDefaults = {
/**
* Whether the navigator and scrollbar should adapt to updated data
* in the base X axis. When loading data async, as in the demo below,
* this should be `false`. Otherwise new data will trigger navigator
* redraw, which will cause unwanted looping. In the demo below, the
* data in the navigator is set only once. On navigating, only the main
* chart content is updated.
*
* @sample {highstock} stock/demo/lazy-loading/
* Set to false with async data loading
*
* @type {boolean}
* @default true
* @apioption navigator.adaptToUpdatedData
*/
/**
* An integer identifying the index to use for the base series, or a
* string representing the id of the series.
*
* **Note**: As of Highcharts 5.0, this is now a deprecated option.
* Prefer [series.showInNavigator](#plotOptions.series.showInNavigator).
*
* @see [series.showInNavigator](#plotOptions.series.showInNavigator)
*
* @deprecated
* @type {number|string}
* @default 0
* @apioption navigator.baseSeries
*/
/**
* Enable or disable the navigator.
*
* @sample {highstock} stock/navigator/enabled/
* Disable the navigator
*
* @type {boolean}
* @default true
* @apioption navigator.enabled
*/
/**
* When the chart is inverted, whether to draw the navigator on the
* opposite side.
*
* @type {boolean}
* @default false
* @since 5.0.8
* @apioption navigator.opposite
*/
/**
* The height of the navigator.
*
* @sample {highstock} stock/navigator/height/
* A higher navigator
*/
height: 40,
/**
* The distance from the nearest element, the X axis or X axis labels.
*
* @sample {highstock} stock/navigator/margin/
* A margin of 2 draws the navigator closer to the X axis labels
*/
margin: 25,
/**
* Whether the mask should be inside the range marking the zoomed
* range, or outside. In Highcharts Stock 1.x it was always `false`.
*
* @sample {highstock} stock/demo/maskinside-false/
* False, mask outside
*
* @since 2.0
*/
maskInside: true,
/**
* Options for the handles for dragging the zoomed area.
*
* @sample {highstock} stock/navigator/handles/
* Colored handles
*/
handles: {
/**
* Width for handles.
*
* @sample {highstock} stock/navigator/styled-handles/
* Styled handles
*
* @since 6.0.0
*/
width: 7,
/**
* Height for handles.
*
* @sample {highstock} stock/navigator/styled-handles/
* Styled handles
*
* @since 6.0.0
*/
height: 15,
/**
* Array to define shapes of handles. 0-index for left, 1-index for
* right.
*
* Additionally, the URL to a graphic can be given on this form:
* `url(graphic.png)`. Note that for the image to be applied to
* exported charts, its URL needs to be accessible by the export
* server.
*
* Custom callbacks for symbol path generation can also be added to
* `Highcharts.SVGRenderer.prototype.symbols`. The callback is then
* used by its method name, as shown in the demo.
*
* @sample {highstock} stock/navigator/styled-handles/
* Styled handles
*
* @type {Array<string>}
* @default ["navigator-handle", "navigator-handle"]
* @since 6.0.0
*/
symbols: ['navigator-handle', 'navigator-handle'],
/**
* Allows to enable/disable handles.
*
* @since 6.0.0
*/
enabled: true,
/**
* The width for the handle border and the stripes inside.
*
* @sample {highstock} stock/navigator/styled-handles/
* Styled handles
*
* @since 6.0.0
* @apioption navigator.handles.lineWidth
*/
lineWidth: 1,
/**
* The fill for the handle.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
backgroundColor: "#f2f2f2" /* Palette.neutralColor5 */,
/**
* The stroke for the handle border and the stripes inside.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
borderColor: "#999999" /* Palette.neutralColor40 */
},
/**
* The color of the mask covering the areas of the navigator series
* that are currently not visible in the main series. The default
* color is bluish with an opacity of 0.3 to see the series below.
*
* @see In styled mode, the mask is styled with the
* `.highcharts-navigator-mask` and
* `.highcharts-navigator-mask-inside` classes.
*
* @sample {highstock} stock/navigator/maskfill/
* Blue, semi transparent mask
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @default rgba(102,133,194,0.3)
*/
maskFill: color("#667aff" /* Palette.highlightColor60 */).setOpacity(0.3).get(),
/**
* The color of the line marking the currently zoomed area in the
* navigator.
*
* @sample {highstock} stock/navigator/outline/
* 2px blue outline
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @default #cccccc
*/
outlineColor: "#999999" /* Palette.neutralColor40 */,
/**
* The width of the line marking the currently zoomed area in the
* navigator.
*
* @see In styled mode, the outline stroke width is set with the
* `.highcharts-navigator-outline` class.
*
* @sample {highstock} stock/navigator/outline/
* 2px blue outline
*
* @type {number}
*/
outlineWidth: 1,
/**
* Options for the navigator series. Available options are the same
* as any series, documented at [plotOptions](#plotOptions.series)
* and [series](#series).
*
* Unless data is explicitly defined on navigator.series, the data
* is borrowed from the first series in the chart.
*
* Default series options for the navigator series are:
* ```js
* series: {
* type: 'areaspline',
* fillOpacity: 0.05,
* dataGrouping: {
* smoothed: true
* },
* lineWidth: 1,
* marker: {
* enabled: false
* }
* }
* ```
*
* @see In styled mode, the navigator series is styled with the
* `.highcharts-navigator-series` class.
*
* @sample {highstock} stock/navigator/series-data/
* Using a separate data set for the navigator
* @sample {highstock} stock/navigator/series/
* A green navigator series
*
* @type {*|Array<*>|Highcharts.SeriesOptionsType|Array<Highcharts.SeriesOptionsType>}
*/
series: {
/**
* The type of the navigator series.
*
* Heads up:
* In column-type navigator, zooming is limited to at least one
* point with its `pointRange`.
*
* @sample {highstock} stock/navigator/column/
* Column type navigator
*
* @type {string}
* @default {highstock} `areaspline` if defined, otherwise `line`
* @default {gantt} gantt
*/
type: (typeof seriesTypes.areaspline === 'undefined' ?
'line' :
'areaspline'),
/**
* The fill opacity of the navigator series.
*/
fillOpacity: 0.05,
/**
* The pixel line width of the navigator series.
*/
lineWidth: 1,
/**
* @ignore-option
*/
compare: null,
/**
* @ignore-option
*/
sonification: {
enabled: false
},
/**
* Unless data is explicitly defined, the data is borrowed from the
* first series in the chart.
*
* @type {Array<number|Array<number|string|null>|object|null>}
* @product highstock
* @apioption navigator.series.data
*/
/**
* Data grouping options for the navigator series.
*
* @extends plotOptions.series.dataGrouping
*/
dataGrouping: {
approximation: 'average',
enabled: true,
groupPixelWidth: 2,
// Replace smoothed property by anchors, #12455.
firstAnchor: 'firstPoint',
anchor: 'middle',
lastAnchor: 'lastPoint',
// Day and week differs from plotOptions.series.dataGrouping
units: [
['millisecond', [1, 2, 5, 10, 20, 25, 50, 100, 200, 500]],
['second', [1, 2, 5, 10, 15, 30]],
['minute', [1, 2, 5, 10, 15, 30]],
['hour', [1, 2, 3, 4, 6, 8, 12]],
['day', [1, 2, 3, 4]],
['week', [1, 2, 3]],
['month', [1, 3, 6]],
['year', null]
]
},
/**
* Data label options for the navigator series. Data labels are
* disabled by default on the navigator series.
*
* @extends plotOptions.series.dataLabels
*/
dataLabels: {
enabled: false,
zIndex: 2 // #1839
},
id: 'highcharts-navigator-series',
className: 'highcharts-navigator-series',
/**
* Sets the fill color of the navigator series.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @apioption navigator.series.color
*/
/**
* Line color for the navigator series. Allows setting the color
* while disallowing the default candlestick setting.
*
* @type {Highcharts.ColorString|null}
*/
lineColor: null,
marker: {
enabled: false
},
/**
* Since Highcharts Stock v8, default value is the same as default
* `pointRange` defined for a specific type (e.g. `null` for
* column type).
*
* In Highcharts Stock version < 8, defaults to 0.
*
* @extends plotOptions.series.pointRange
* @type {number|null}
* @apioption navigator.series.pointRange
*/
/**
* The threshold option. Setting it to 0 will make the default
* navigator area series draw its area from the 0 value and up.
*
* @type {number|null}
*/
threshold: null
},
/**
* Enable or disable navigator sticking to right, while adding new
* points. If `undefined`, the navigator sticks to the axis maximum only
* if it was already at the maximum prior to adding points.
*
* @type {boolean}
* @default undefined
* @since 10.2.1
* @sample {highstock} stock/navigator/sticktomax-false/
* stickToMax set to false
* @apioption navigator.stickToMax
*/
/**
* Options for the navigator X axis. Default series options for the
* navigator xAxis are:
* ```js
* xAxis: {
* tickWidth: 0,
* lineWidth: 0,
* gridLineWidth: 1,
* tickPixelInterval: 200,
* labels: {
* align: 'left',
* style: {
* color: '#888'
* },
* x: 3,
* y: -4
* }
* }
* ```
*
* @extends xAxis
* @excluding linkedTo, maxZoom, minRange, opposite, range, scrollbar,
* showEmpty, maxRange
*/
xAxis: {
/**
* Additional range on the right side of the xAxis. Works similar to
* `xAxis.maxPadding`, but the value is set in terms of axis values,
* percentage or pixels.
*
* If it's a number, it is interpreted as axis values, which in a
* datetime axis equals milliseconds.
*
* If it's a percentage string, is interpreted as percentages of the
* axis length. An overscroll of 50% will make a 100px axis 50px longer.
*
* If it's a pixel string, it is interpreted as a fixed pixel value, but
* limited to 90% of the axis length.
*
* If it's undefined, the value is inherited from `xAxis.overscroll`.
*
* Can be set for both, main xAxis and navigator's xAxis.
*
* @type {number | string | undefined}
* @since 6.0.0
* @apioption navigator.xAxis.overscroll
*/
className: 'highcharts-navigator-xaxis',
tickLength: 0,
lineWidth: 0,
gridLineColor: "#e6e6e6" /* Palette.neutralColor10 */,
gridLineWidth: 1,
tickPixelInterval: 200,
labels: {
align: 'left',
/**
* @type {Highcharts.CSSObject}
*/
style: {
/** @ignore */
color: "#000000" /* Palette.neutralColor100 */,
/** @ignore */
fontSize: '0.7em',
/** @ignore */
opacity: 0.6,
/** @ignore */
textOutline: '2px contrast'
},
x: 3,
y: -4
},
crosshair: false
},
/**
* Options for the navigator Y axis. Default series options for the
* navigator yAxis are:
* ```js
* yAxis: {
* gridLineWidth: 0,
* startOnTick: false,
* endOnTick: false,
* minPadding: 0.1,
* maxPadding: 0.1,
* labels: {
* enabled: false
* },
* title: {
* text: null
* },
* tickWidth: 0
* }
* ```
*
* @extends yAxis
* @excluding height, linkedTo, maxZoom, minRange, ordinal, range,
* showEmpty, scrollbar, top, units, maxRange, minLength,
* maxLength, resize
*/
yAxis: {
className: 'highcharts-navigator-yaxis',
gridLineWidth: 0,
startOnTick: false,
endOnTick: false,
minPadding: 0.1,
maxPadding: 0.1,
labels: {
enabled: false
},
crosshair: false,
title: {
text: null
},
tickLength: 0,
tickWidth: 0
}
};
/* *
*
* Default Export
*
* */
/* *
*
* API Options
*
* */
/**
* Maximum range which can be set using the navigator's handles.
* Opposite of [xAxis.minRange](#xAxis.minRange).
*
* @sample {highstock} stock/navigator/maxrange/
* Defined max and min range
*
* @type {number}
* @since 6.0.0
* @product highstock gantt
* @apioption xAxis.maxRange
*/
(''); // Keeps doclets above in JS file
return NavigatorDefaults;
});
_registerModule(_modules, 'Stock/Navigator/NavigatorSymbols.js', [], function () {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* Constants
*
* */
/**
* Draw one of the handles on the side of the zoomed range in the navigator.
* @private
*/
function navigatorHandle(_x, _y, width, height, options = {}) {
const halfWidth = options.width ? options.width / 2 : width, markerPosition = Math.round(halfWidth / 3) + 0.5;
height = options.height || height;
return [
['M', -halfWidth - 1, 0.5],
['L', halfWidth, 0.5],
['L', halfWidth, height + 0.5],
['L', -halfWidth - 1, height + 0.5],
['L', -halfWidth - 1, 0.5],
['M', -markerPosition, 4],
['L', -markerPosition, height - 3],
['M', markerPosition - 1, 4],
['L', markerPosition - 1, height - 3]
];
}
/* *
*
* Default Export
*
* */
const NavigatorSymbols = {
'navigator-handle': navigatorHandle
};
return NavigatorSymbols;
});
_registerModule(_modules, 'Stock/Utilities/StockUtilities.js', [_modules['Core/Utilities.js']], function (U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { defined } = U;
/* *
*
* Functions
*
* */
/**
* Sets the chart.fixedRange to the specified value. If the value is larger
* than actual range, sets it to the maximum possible range. (#20327)
*
* @private
* @function Highcharts.StockChart#setFixedRange
* @param {number|undefined} range
* Range to set in axis units.
*/
function setFixedRange(range) {
const xAxis = this.xAxis[0];
if (defined(xAxis.dataMax) &&
defined(xAxis.dataMin) &&
range) {
this.fixedRange = Math.min(range, xAxis.dataMax - xAxis.dataMin);
}
else {
this.fixedRange = range;
}
}
const StockUtilities = {
setFixedRange
};
return StockUtilities;
});
_registerModule(_modules, 'Stock/Navigator/NavigatorComposition.js', [_modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Core/Axis/NavigatorAxisComposition.js'], _modules['Stock/Navigator/NavigatorDefaults.js'], _modules['Stock/Navigator/NavigatorSymbols.js'], _modules['Core/Renderer/RendererRegistry.js'], _modules['Stock/Utilities/StockUtilities.js'], _modules['Core/Utilities.js']], function (D, H, NavigatorAxisAdditions, NavigatorDefaults, NavigatorSymbols, RendererRegistry, StockUtilities, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { setOptions } = D;
const { composed } = H;
const { getRendererType } = RendererRegistry;
const { setFixedRange } = StockUtilities;
const { addEvent, extend, pushUnique } = U;
/* *
*
* Variables
*
* */
/* *
*
* Functions
*
* */
/**
* @private
*/
function compose(ChartClass, AxisClass, SeriesClass) {
NavigatorAxisAdditions.compose(AxisClass);
if (pushUnique(composed, 'Navigator')) {
ChartClass.prototype.setFixedRange = setFixedRange;
extend(getRendererType().prototype.symbols, NavigatorSymbols);
addEvent(SeriesClass, 'afterUpdate', onSeriesAfterUpdate);
setOptions({ navigator: NavigatorDefaults });
}
}
/**
* Handle updating series
* @private
*/
function onSeriesAfterUpdate() {
if (this.chart.navigator && !this.options.isInternal) {
this.chart.navigator.setBaseSeries(null, false);
}
}
/* *
*
* Default Export
*
* */
const NavigatorComposition = {
compose
};
return NavigatorComposition;
});
_registerModule(_modules, 'Core/Axis/ScrollbarAxis.js', [_modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (H, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { composed } = H;
const { addEvent, defined, pick, pushUnique } = U;
/* *
*
* Composition
*
* */
var ScrollbarAxis;
(function (ScrollbarAxis) {
/* *
*
* Variables
*
* */
let Scrollbar;
/* *
*
* Functions
*
* */
/**
* Attaches to axis events to create scrollbars if enabled.
*
* @private
*
* @param {Highcharts.Axis} AxisClass
* Axis class to extend.
*
* @param {Highcharts.Scrollbar} ScrollbarClass
* Scrollbar class to use.
*/
function compose(AxisClass, ScrollbarClass) {
if (pushUnique(composed, 'Axis.Scrollbar')) {
Scrollbar = ScrollbarClass;
addEvent(AxisClass, 'afterGetOffset', onAxisAfterGetOffset);
addEvent(AxisClass, 'afterInit', onAxisAfterInit);
addEvent(AxisClass, 'afterRender', onAxisAfterRender);
}
}
ScrollbarAxis.compose = compose;
/** @private */
function getExtremes(axis) {
const axisMin = pick(axis.options && axis.options.min, axis.min);
const axisMax = pick(axis.options && axis.options.max, axis.max);
return {
axisMin,
axisMax,
scrollMin: defined(axis.dataMin) ?
Math.min(axisMin, axis.min, axis.dataMin, pick(axis.threshold, Infinity)) : axisMin,
scrollMax: defined(axis.dataMax) ?
Math.max(axisMax, axis.max, axis.dataMax, pick(axis.threshold, -Infinity)) : axisMax
};
}
/**
* Make space for a scrollbar.
* @private
*/
function onAxisAfterGetOffset() {
const axis = this, scrollbar = axis.scrollbar, opposite = scrollbar && !scrollbar.options.opposite, index = axis.horiz ? 2 : opposite ? 3 : 1;
if (scrollbar) {
// Reset scrollbars offsets
axis.chart.scrollbarsOffsets = [0, 0];
axis.chart.axisOffset[index] +=
scrollbar.size + (scrollbar.options.margin || 0);
}
}
/**
* Wrap axis initialization and create scrollbar if enabled.
* @private
*/
function onAxisAfterInit() {
const axis = this;
if (axis.options &&
axis.options.scrollbar &&
axis.options.scrollbar.enabled) {
// Predefined options:
axis.options.scrollbar.vertical = !axis.horiz;
axis.options.startOnTick = axis.options.endOnTick = false;
axis.scrollbar = new Scrollbar(axis.chart.renderer, axis.options.scrollbar, axis.chart);
addEvent(axis.scrollbar, 'changed', function (e) {
const { axisMin, axisMax, scrollMin: unitedMin, scrollMax: unitedMax } = getExtremes(axis), range = unitedMax - unitedMin;
let to, from;
// #12834, scroll when show/hide series, wrong extremes
if (!defined(axisMin) || !defined(axisMax)) {
return;
}
if ((axis.horiz && !axis.reversed) ||
(!axis.horiz && axis.reversed)) {
to = unitedMin + range * this.to;
from = unitedMin + range * this.from;
}
else {
// Y-values in browser are reversed, but this also
// applies for reversed horizontal axis:
to = unitedMin + range * (1 - this.from);
from = unitedMin + range * (1 - this.to);
}
if (this.shouldUpdateExtremes(e.DOMType)) {
// #17977, set animation to undefined instead of true
const animate = e.DOMType === 'mousemove' ||
e.DOMType === 'touchmove' ? false : void 0;
axis.setExtremes(from, to, true, animate, e);
}
else {
// When live redraw is disabled, don't change extremes
// Only change the position of the scrollbar thumb
this.setRange(this.from, this.to);
}
});
}
}
/**
* Wrap rendering axis, and update scrollbar if one is created.
* @private
*/
function onAxisAfterRender() {
const axis = this, { scrollMin, scrollMax } = getExtremes(axis), scrollbar = axis.scrollbar, offset = (axis.axisTitleMargin + (axis.titleOffset || 0)), scrollbarsOffsets = axis.chart.scrollbarsOffsets, axisMargin = axis.options.margin || 0;
let offsetsIndex, from, to;
if (scrollbar && scrollbarsOffsets) {
if (axis.horiz) {
// Reserve space for labels/title
if (!axis.opposite) {
scrollbarsOffsets[1] += offset;
}
scrollbar.position(axis.left, (axis.top +
axis.height +
2 +
scrollbarsOffsets[1] -
(axis.opposite ? axisMargin : 0)), axis.width, axis.height);
// Next scrollbar should reserve space for margin (if set)
if (!axis.opposite) {
scrollbarsOffsets[1] += axisMargin;
}
offsetsIndex = 1;
}
else {
// Reserve space for labels/title
if (axis.opposite) {
scrollbarsOffsets[0] += offset;
}
let xPosition;
if (!scrollbar.options.opposite) {
xPosition = axis.opposite ? 0 : axisMargin;
}
else {
xPosition = axis.left +
axis.width +
2 +
scrollbarsOffsets[0] -
(axis.opposite ? 0 : axisMargin);
}
scrollbar.position(xPosition, axis.top, axis.width, axis.height);
// Next scrollbar should reserve space for margin (if set)
if (axis.opposite) {
scrollbarsOffsets[0] += axisMargin;
}
offsetsIndex = 0;
}
scrollbarsOffsets[offsetsIndex] += scrollbar.size +
(scrollbar.options.margin || 0);
if (isNaN(scrollMin) ||
isNaN(scrollMax) ||
!defined(axis.min) ||
!defined(axis.max) ||
axis.min === axis.max // #10733
) {
// Default action: when extremes are the same or there is
// not extremes on the axis, but scrollbar exists, make it
// full size
scrollbar.setRange(0, 1);
}
else {
from = ((axis.min - scrollMin) /
(scrollMax - scrollMin));
to = ((axis.max - scrollMin) /
(scrollMax - scrollMin));
if ((axis.horiz && !axis.reversed) ||
(!axis.horiz && axis.reversed)) {
scrollbar.setRange(from, to);
}
else {
// Inverse vertical axis
scrollbar.setRange(1 - to, 1 - from);
}
}
}
}
})(ScrollbarAxis || (ScrollbarAxis = {}));
/* *
*
* Default Export
*
* */
return ScrollbarAxis;
});
_registerModule(_modules, 'Stock/Scrollbar/ScrollbarDefaults.js', [], function () {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* Constant
*
* */
/**
*
* The scrollbar is a means of panning over the X axis of a stock chart.
* Scrollbars can also be applied to other types of axes.
*
* Another approach to scrollable charts is the [chart.scrollablePlotArea](
* https://api.highcharts.com/highcharts/chart.scrollablePlotArea) option that
* is especially suitable for simpler cartesian charts on mobile.
*
* In styled mode, all the presentational options for the
* scrollbar are replaced by the classes `.highcharts-scrollbar-thumb`,
* `.highcharts-scrollbar-arrow`, `.highcharts-scrollbar-button`,
* `.highcharts-scrollbar-rifles` and `.highcharts-scrollbar-track`.
*
* @sample stock/yaxis/inverted-bar-scrollbar/
* A scrollbar on a simple bar chart
*
* @product highstock gantt
* @optionparent scrollbar
*
* @private
*/
const ScrollbarDefaults = {
/**
* The height of the scrollbar. If `buttonsEnabled` is true , the height
* also applies to the width of the scroll arrows so that they are always
* squares.
*
* @sample stock/scrollbar/style/
* Non-default height
*
* @type {number}
*/
height: 10,
/**
* The border rounding radius of the bar.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*/
barBorderRadius: 5,
/**
* The corner radius of the scrollbar buttons.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*/
buttonBorderRadius: 0,
/**
* Enable or disable the buttons at the end of the scrollbar.
*
* @since 11.0.0
*/
buttonsEnabled: false,
/**
* Enable or disable the scrollbar.
*
* @sample stock/scrollbar/enabled/
* Disable the scrollbar, only use navigator
*
* @type {boolean}
* @default true
* @apioption scrollbar.enabled
*/
/**
* Whether to redraw the main chart as the scrollbar or the navigator
* zoomed window is moved. Defaults to `true` for modern browsers and
* `false` for legacy IE browsers as well as mobile devices.
*
* @sample stock/scrollbar/liveredraw
* Setting live redraw to false
*
* @type {boolean}
* @since 1.3
*/
liveRedraw: void 0,
/**
* The margin between the scrollbar and its axis when the scrollbar is
* applied directly to an axis, or the navigator in case that is enabled.
* Defaults to 10 for axis, 0 for navigator.
*
* @type {number|undefined}
*/
margin: void 0,
/**
* The minimum width of the scrollbar.
*
* @since 1.2.5
*/
minWidth: 6,
/** @ignore-option */
opposite: true,
/**
* Whether to show or hide the scrollbar when the scrolled content is
* zoomed out to it full extent.
*
* @type {boolean}
* @default true
* @apioption scrollbar.showFull
*/
step: 0.2,
/**
* The z index of the scrollbar group.
*/
zIndex: 3,
/**
* The background color of the scrollbar itself.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
barBackgroundColor: "#cccccc" /* Palette.neutralColor20 */,
/**
* The width of the bar's border.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*/
barBorderWidth: 0,
/**
* The color of the scrollbar's border.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
barBorderColor: "#cccccc" /* Palette.neutralColor20 */,
/**
* The color of the small arrow inside the scrollbar buttons.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
buttonArrowColor: "#333333" /* Palette.neutralColor80 */,
/**
* The color of scrollbar buttons.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
buttonBackgroundColor: "#e6e6e6" /* Palette.neutralColor10 */,
/**
* The color of the border of the scrollbar buttons.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
buttonBorderColor: "#cccccc" /* Palette.neutralColor20 */,
/**
* The border width of the scrollbar buttons.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*/
buttonBorderWidth: 1,
/**
* The color of the small rifles in the middle of the scrollbar.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
rifleColor: 'none',
/**
* The color of the track background.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
trackBackgroundColor: 'rgba(255, 255, 255, 0.001)',
/**
* The color of the border of the scrollbar track.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
*/
trackBorderColor: "#cccccc" /* Palette.neutralColor20 */,
/**
* The corner radius of the border of the scrollbar track.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*/
trackBorderRadius: 5,
/**
* The width of the border of the scrollbar track.
*
* @sample stock/scrollbar/style/
* Scrollbar styling
*/
trackBorderWidth: 1
};
/* *
*
* Default Export
*
* */
return ScrollbarDefaults;
});
_registerModule(_modules, 'Stock/Scrollbar/Scrollbar.js', [_modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Core/Axis/ScrollbarAxis.js'], _modules['Stock/Scrollbar/ScrollbarDefaults.js'], _modules['Core/Utilities.js']], function (D, H, ScrollbarAxis, ScrollbarDefaults, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { defaultOptions } = D;
const { addEvent, correctFloat, defined, destroyObjectProperties, fireEvent, merge, pick, removeEvent } = U;
/* *
*
* Constants
*
* */
/* eslint-disable no-invalid-this, valid-jsdoc */
/**
* A reusable scrollbar, internally used in Highcharts Stock's
* navigator and optionally on individual axes.
*
* @private
* @class
* @name Highcharts.Scrollbar
* @param {Highcharts.SVGRenderer} renderer
* @param {Highcharts.ScrollbarOptions} options
* @param {Highcharts.Chart} chart
*/
class Scrollbar {
/* *
*
* Static Functions
*
* */
static compose(AxisClass) {
ScrollbarAxis.compose(AxisClass, Scrollbar);
}
/**
* When we have vertical scrollbar, rifles and arrow in buttons should be
* rotated. The same method is used in Navigator's handles, to rotate them.
*
* @function Highcharts.swapXY
*
* @param {Highcharts.SVGPathArray} path
* Path to be rotated.
*
* @param {boolean} [vertical]
* If vertical scrollbar, swap x-y values.
*
* @return {Highcharts.SVGPathArray}
* Rotated path.
*
* @requires modules/stock
*/
static swapXY(path, vertical) {
if (vertical) {
path.forEach((seg) => {
const len = seg.length;
let temp;
for (let i = 0; i < len; i += 2) {
temp = seg[i + 1];
if (typeof temp === 'number') {
seg[i + 1] = seg[i + 2];
seg[i + 2] = temp;
}
}
});
}
return path;
}
/* *
*
* Constructors
*
* */
constructor(renderer, options, chart) {
/* *
*
* Properties
*
* */
this._events = [];
this.chartX = 0;
this.chartY = 0;
this.from = 0;
this.scrollbarButtons = [];
this.scrollbarLeft = 0;
this.scrollbarStrokeWidth = 1;
this.scrollbarTop = 0;
this.size = 0;
this.to = 0;
this.trackBorderWidth = 1;
this.x = 0;
this.y = 0;
this.init(renderer, options, chart);
}
/* *
*
* Functions
*
* */
/**
* Set up the mouse and touch events for the Scrollbar
*
* @private
* @function Highcharts.Scrollbar#addEvents
*/
addEvents() {
const buttonsOrder = this.options.inverted ? [1, 0] : [0, 1], buttons = this.scrollbarButtons, bar = this.scrollbarGroup.element, track = this.track.element, mouseDownHandler = this.mouseDownHandler.bind(this), mouseMoveHandler = this.mouseMoveHandler.bind(this), mouseUpHandler = this.mouseUpHandler.bind(this);
const _events = [
// Mouse events
[
buttons[buttonsOrder[0]].element,
'click',
this.buttonToMinClick.bind(this)
],
[
buttons[buttonsOrder[1]].element,
'click',
this.buttonToMaxClick.bind(this)
],
[track, 'click', this.trackClick.bind(this)],
[bar, 'mousedown', mouseDownHandler],
[bar.ownerDocument, 'mousemove', mouseMoveHandler],
[bar.ownerDocument, 'mouseup', mouseUpHandler],
// Touch events
[bar, 'touchstart', mouseDownHandler],
[bar.ownerDocument, 'touchmove', mouseMoveHandler],
[bar.ownerDocument, 'touchend', mouseUpHandler]
];
// Add them all
_events.forEach(function (args) {
addEvent.apply(null, args);
});
this._events = _events;
}
buttonToMaxClick(e) {
const scroller = this;
const range = ((scroller.to - scroller.from) *
pick(scroller.options.step, 0.2));
scroller.updatePosition(scroller.from + range, scroller.to + range);
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMEvent: e
});
}
buttonToMinClick(e) {
const scroller = this;
const range = correctFloat(scroller.to - scroller.from) *
pick(scroller.options.step, 0.2);
scroller.updatePosition(correctFloat(scroller.from - range), correctFloat(scroller.to - range));
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMEvent: e
});
}
/**
* Get normalized (0-1) cursor position over the scrollbar
*
* @private
* @function Highcharts.Scrollbar#cursorToScrollbarPosition
*
* @param {*} normalizedEvent
* normalized event, with chartX and chartY values
*
* @return {Highcharts.Dictionary<number>}
* Local position {chartX, chartY}
*/
cursorToScrollbarPosition(normalizedEvent) {
const scroller = this, options = scroller.options, minWidthDifference = options.minWidth > scroller.calculatedWidth ?
options.minWidth :
0; // `minWidth` distorts translation
return {
chartX: (normalizedEvent.chartX - scroller.x -
scroller.xOffset) /
(scroller.barWidth - minWidthDifference),
chartY: (normalizedEvent.chartY - scroller.y -
scroller.yOffset) /
(scroller.barWidth - minWidthDifference)
};
}
/**
* Destroys allocated elements.
*
* @private
* @function Highcharts.Scrollbar#destroy
*/
destroy() {
const scroller = this, navigator = scroller.chart.scroller;
// Disconnect events added in addEvents
scroller.removeEvents();
// Destroy properties
[
'track',
'scrollbarRifles',
'scrollbar',
'scrollbarGroup',
'group'
].forEach(function (prop) {
if (scroller[prop] && scroller[prop].destroy) {
scroller[prop] = scroller[prop].destroy();
}
});
// #6421, chart may have more scrollbars
if (navigator && scroller === navigator.scrollbar) {
navigator.scrollbar = null;
// Destroy elements in collection
destroyObjectProperties(navigator.scrollbarButtons);
}
}
/**
* Draw the scrollbar buttons with arrows
*
* @private
* @function Highcharts.Scrollbar#drawScrollbarButton
* @param {number} index
* 0 is left, 1 is right
*/
drawScrollbarButton(index) {
const scroller = this, renderer = scroller.renderer, scrollbarButtons = scroller.scrollbarButtons, options = scroller.options, size = scroller.size, group = renderer.g().add(scroller.group);
scrollbarButtons.push(group);
if (options.buttonsEnabled) {
// Create a rectangle for the scrollbar button
const rect = renderer.rect()
.addClass('highcharts-scrollbar-button')
.add(group);
// Presentational attributes
if (!scroller.chart.styledMode) {
rect.attr({
stroke: options.buttonBorderColor,
'stroke-width': options.buttonBorderWidth,
fill: options.buttonBackgroundColor
});
}
// Place the rectangle based on the rendered stroke width
rect.attr(rect.crisp({
x: -0.5,
y: -0.5,
// +1 to compensate for crispifying in rect method
width: size + 1,
height: size + 1,
r: options.buttonBorderRadius
}, rect.strokeWidth()));
// Button arrow
const arrow = renderer
.path(Scrollbar.swapXY([[
'M',
size / 2 + (index ? -1 : 1),
size / 2 - 3
], [
'L',
size / 2 + (index ? -1 : 1),
size / 2 + 3
], [
'L',
size / 2 + (index ? 2 : -2),
size / 2
]], options.vertical))
.addClass('highcharts-scrollbar-arrow')
.add(scrollbarButtons[index]);
if (!scroller.chart.styledMode) {
arrow.attr({
fill: options.buttonArrowColor
});
}
}
}
/**
* @private
* @function Highcharts.Scrollbar#init
* @param {Highcharts.SVGRenderer} renderer
* @param {Highcharts.ScrollbarOptions} options
* @param {Highcharts.Chart} chart
*/
init(renderer, options, chart) {
const scroller = this;
scroller.scrollbarButtons = [];
scroller.renderer = renderer;
scroller.userOptions = options;
scroller.options = merge(ScrollbarDefaults, defaultOptions.scrollbar, options);
scroller.options.margin = pick(scroller.options.margin, 10);
scroller.chart = chart;
// Backward compatibility
scroller.size = pick(scroller.options.size, scroller.options.height);
// Init
if (options.enabled) {
scroller.render();
scroller.addEvents();
}
}
mouseDownHandler(e) {
const scroller = this, normalizedEvent = scroller.chart.pointer?.normalize(e) || e, mousePosition = scroller.cursorToScrollbarPosition(normalizedEvent);
scroller.chartX = mousePosition.chartX;
scroller.chartY = mousePosition.chartY;
scroller.initPositions = [scroller.from, scroller.to];
scroller.grabbedCenter = true;
}
/**
* Event handler for the mouse move event.
* @private
*/
mouseMoveHandler(e) {
const scroller = this, normalizedEvent = scroller.chart.pointer?.normalize(e) || e, options = scroller.options, direction = options.vertical ?
'chartY' : 'chartX', initPositions = scroller.initPositions || [];
let scrollPosition, chartPosition, change;
// In iOS, a mousemove event with e.pageX === 0 is fired when
// holding the finger down in the center of the scrollbar. This
// should be ignored.
if (scroller.grabbedCenter &&
// #4696, scrollbar failed on Android
(!e.touches || e.touches[0][direction] !== 0)) {
chartPosition = scroller.cursorToScrollbarPosition(normalizedEvent)[direction];
scrollPosition = scroller[direction];
change = chartPosition - scrollPosition;
scroller.hasDragged = true;
scroller.updatePosition(initPositions[0] + change, initPositions[1] + change);
if (scroller.hasDragged) {
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMType: e.type,
DOMEvent: e
});
}
}
}
/**
* Event handler for the mouse up event.
* @private
*/
mouseUpHandler(e) {
const scroller = this;
if (scroller.hasDragged) {
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMType: e.type,
DOMEvent: e
});
}
scroller.grabbedCenter =
scroller.hasDragged =
scroller.chartX =
scroller.chartY = null;
}
/**
* Position the scrollbar, method called from a parent with defined
* dimensions.
*
* @private
* @function Highcharts.Scrollbar#position
* @param {number} x
* x-position on the chart
* @param {number} y
* y-position on the chart
* @param {number} width
* width of the scrollbar
* @param {number} height
* height of the scrollbar
*/
position(x, y, width, height) {
const scroller = this, options = scroller.options, { buttonsEnabled, margin = 0, vertical } = options, method = scroller.rendered ? 'animate' : 'attr';
let xOffset = height, yOffset = 0;
// Make the scrollbar visible when it is repositioned, #15763.
scroller.group.show();
scroller.x = x;
scroller.y = y + this.trackBorderWidth;
scroller.width = width; // Width with buttons
scroller.height = height;
scroller.xOffset = xOffset;
scroller.yOffset = yOffset;
// If Scrollbar is a vertical type, swap options:
if (vertical) {
scroller.width = scroller.yOffset = width = yOffset = scroller.size;
scroller.xOffset = xOffset = 0;
scroller.yOffset = yOffset = buttonsEnabled ? scroller.size : 0;
// Width without buttons
scroller.barWidth = height - (buttonsEnabled ? width * 2 : 0);
scroller.x = x = x + margin;
}
else {
scroller.height = height = scroller.size;
scroller.xOffset = xOffset = buttonsEnabled ? scroller.size : 0;
// Width without buttons
scroller.barWidth = width - (buttonsEnabled ? height * 2 : 0);
scroller.y = scroller.y + margin;
}
// Set general position for a group:
scroller.group[method]({
translateX: x,
translateY: scroller.y
});
// Resize background/track:
scroller.track[method]({
width: width,
height: height
});
// Move right/bottom button to its place:
scroller.scrollbarButtons[1][method]({
translateX: vertical ? 0 : width - xOffset,
translateY: vertical ? height - yOffset : 0
});
}
/**
* Removes the event handlers attached previously with addEvents.
*
* @private
* @function Highcharts.Scrollbar#removeEvents
*/
removeEvents() {
this._events.forEach(function (args) {
removeEvent.apply(null, args);
});
this._events.length = 0;
}
/**
* Render scrollbar with all required items.
*
* @private
* @function Highcharts.Scrollbar#render
*/
render() {
const scroller = this, renderer = scroller.renderer, options = scroller.options, size = scroller.size, styledMode = scroller.chart.styledMode, group = renderer.g('scrollbar')
.attr({
zIndex: options.zIndex
})
.hide() // Initially hide the scrollbar #15863
.add();
// Draw the scrollbar group
scroller.group = group;
// Draw the scrollbar track:
scroller.track = renderer.rect()
.addClass('highcharts-scrollbar-track')
.attr({
r: options.trackBorderRadius || 0,
height: size,
width: size
}).add(group);
if (!styledMode) {
scroller.track.attr({
fill: options.trackBackgroundColor,
stroke: options.trackBorderColor,
'stroke-width': options.trackBorderWidth
});
}
const trackBorderWidth = scroller.trackBorderWidth =
scroller.track.strokeWidth();
scroller.track.attr({
x: -trackBorderWidth % 2 / 2,
y: -trackBorderWidth % 2 / 2
});
// Draw the scrollbar itself
scroller.scrollbarGroup = renderer.g().add(group);
scroller.scrollbar = renderer.rect()
.addClass('highcharts-scrollbar-thumb')
.attr({
height: size - trackBorderWidth,
width: size - trackBorderWidth,
r: options.barBorderRadius || 0
}).add(scroller.scrollbarGroup);
scroller.scrollbarRifles = renderer
.path(Scrollbar.swapXY([
['M', -3, size / 4],
['L', -3, 2 * size / 3],
['M', 0, size / 4],
['L', 0, 2 * size / 3],
['M', 3, size / 4],
['L', 3, 2 * size / 3]
], options.vertical))
.addClass('highcharts-scrollbar-rifles')
.add(scroller.scrollbarGroup);
if (!styledMode) {
scroller.scrollbar.attr({
fill: options.barBackgroundColor,
stroke: options.barBorderColor,
'stroke-width': options.barBorderWidth
});
scroller.scrollbarRifles.attr({
stroke: options.rifleColor,
'stroke-width': 1
});
}
scroller.scrollbarStrokeWidth = scroller.scrollbar.strokeWidth();
scroller.scrollbarGroup.translate(-scroller.scrollbarStrokeWidth % 2 / 2, -scroller.scrollbarStrokeWidth % 2 / 2);
// Draw the buttons:
scroller.drawScrollbarButton(0);
scroller.drawScrollbarButton(1);
}
/**
* Set scrollbar size, with a given scale.
*
* @private
* @function Highcharts.Scrollbar#setRange
* @param {number} from
* scale (0-1) where bar should start
* @param {number} to
* scale (0-1) where bar should end
*/
setRange(from, to) {
const scroller = this, options = scroller.options, vertical = options.vertical, minWidth = options.minWidth, fullWidth = scroller.barWidth, method = (this.rendered &&
!this.hasDragged &&
!(this.chart.navigator && this.chart.navigator.hasDragged)) ? 'animate' : 'attr';
if (!defined(fullWidth)) {
return;
}
const toPX = fullWidth * Math.min(to, 1);
let fromPX, newSize;
from = Math.max(from, 0);
fromPX = Math.ceil(fullWidth * from);
scroller.calculatedWidth = newSize = correctFloat(toPX - fromPX);
// We need to recalculate position, if minWidth is used
if (newSize < minWidth) {
fromPX = (fullWidth - minWidth + newSize) * from;
newSize = minWidth;
}
const newPos = Math.floor(fromPX + scroller.xOffset + scroller.yOffset);
const newRiflesPos = newSize / 2 - 0.5; // -0.5 -> rifle line width / 2
// Store current position:
scroller.from = from;
scroller.to = to;
if (!vertical) {
scroller.scrollbarGroup[method]({
translateX: newPos
});
scroller.scrollbar[method]({
width: newSize
});
scroller.scrollbarRifles[method]({
translateX: newRiflesPos
});
scroller.scrollbarLeft = newPos;
scroller.scrollbarTop = 0;
}
else {
scroller.scrollbarGroup[method]({
translateY: newPos
});
scroller.scrollbar[method]({
height: newSize
});
scroller.scrollbarRifles[method]({
translateY: newRiflesPos
});
scroller.scrollbarTop = newPos;
scroller.scrollbarLeft = 0;
}
if (newSize <= 12) {
scroller.scrollbarRifles.hide();
}
else {
scroller.scrollbarRifles.show();
}
// Show or hide the scrollbar based on the showFull setting
if (options.showFull === false) {
if (from <= 0 && to >= 1) {
scroller.group.hide();
}
else {
scroller.group.show();
}
}
scroller.rendered = true;
}
/**
* Checks if the extremes should be updated in response to a scrollbar
* change event.
*
* @private
* @function Highcharts.Scrollbar#shouldUpdateExtremes
*/
shouldUpdateExtremes(eventType) {
return (pick(this.options.liveRedraw, H.svg &&
!H.isTouchDevice &&
!this.chart.boosted) ||
// Mouseup always should change extremes
eventType === 'mouseup' ||
eventType === 'touchend' ||
// Internal events
!defined(eventType));
}
trackClick(e) {
const scroller = this;
const normalizedEvent = scroller.chart.pointer?.normalize(e) || e, range = scroller.to - scroller.from, top = scroller.y + scroller.scrollbarTop, left = scroller.x + scroller.scrollbarLeft;
if ((scroller.options.vertical && normalizedEvent.chartY > top) ||
(!scroller.options.vertical && normalizedEvent.chartX > left)) {
// On the top or on the left side of the track:
scroller.updatePosition(scroller.from + range, scroller.to + range);
}
else {
// On the bottom or the right side of the track:
scroller.updatePosition(scroller.from - range, scroller.to - range);
}
fireEvent(scroller, 'changed', {
from: scroller.from,
to: scroller.to,
trigger: 'scrollbar',
DOMEvent: e
});
}
/**
* Update the scrollbar with new options
*
* @private
* @function Highcharts.Scrollbar#update
* @param {Highcharts.ScrollbarOptions} options
*/
update(options) {
this.destroy();
this.init(this.chart.renderer, merge(true, this.options, options), this.chart);
}
/**
* Update position option in the Scrollbar, with normalized 0-1 scale
*
* @private
* @function Highcharts.Scrollbar#updatePosition
* @param {number} from
* @param {number} to
*/
updatePosition(from, to) {
if (to > 1) {
from = correctFloat(1 - correctFloat(to - from));
to = 1;
}
if (from < 0) {
to = correctFloat(to - from);
from = 0;
}
this.from = from;
this.to = to;
}
}
/* *
*
* Static Properties
*
* */
Scrollbar.defaultOptions = ScrollbarDefaults;
/* *
*
* Registry
*
* */
defaultOptions.scrollbar = merge(true, Scrollbar.defaultOptions, defaultOptions.scrollbar);
/* *
*
* Default Export
*
* */
return Scrollbar;
});
_registerModule(_modules, 'Stock/Navigator/Navigator.js', [_modules['Core/Axis/Axis.js'], _modules['Stock/Navigator/ChartNavigatorComposition.js'], _modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Core/Axis/NavigatorAxisComposition.js'], _modules['Stock/Navigator/NavigatorComposition.js'], _modules['Stock/Scrollbar/Scrollbar.js'], _modules['Core/Utilities.js']], function (Axis, ChartNavigatorComposition, D, H, NavigatorAxisAdditions, NavigatorComposition, Scrollbar, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { defaultOptions } = D;
const { isTouchDevice } = H;
const { addEvent, clamp, correctFloat, defined, destroyObjectProperties, erase, extend, find, fireEvent, isArray, isNumber, merge, pick, removeEvent, splat } = U;
/* *
*
* Functions
*
* */
/**
* Finding the min or max of a set of variables where we don't know if they are
* defined, is a pattern that is repeated several places in Highcharts. Consider
* making this a global utility method.
* @private
*/
function numExt(extreme, ...args) {
const numbers = [].filter.call(args, isNumber);
if (numbers.length) {
return Math[extreme].apply(0, numbers);
}
}
/* *
*
* Class
*
* */
/**
* The Navigator class
*
* @private
* @class
* @name Highcharts.Navigator
*
* @param {Highcharts.Chart} chart
* Chart object
*/
class Navigator {
/* *
*
* Static Properties
*
* */
static compose(ChartClass, AxisClass, SeriesClass) {
ChartNavigatorComposition.compose(ChartClass, Navigator);
NavigatorComposition.compose(ChartClass, AxisClass, SeriesClass);
}
/* *
*
* Constructor
*
* */
constructor(chart) {
this.scrollbarHeight = 0;
this.init(chart);
}
/* *
*
* Functions
*
* */
/**
* Draw one of the handles on the side of the zoomed range in the navigator.
*
* @private
* @function Highcharts.Navigator#drawHandle
*
* @param {number} x
* The x center for the handle
*
* @param {number} index
* 0 for left and 1 for right
*
* @param {boolean|undefined} inverted
* Flag for chart.inverted
*
* @param {string} verb
* Use 'animate' or 'attr'
*/
drawHandle(x, index, inverted, verb) {
const navigator = this, height = navigator.navigatorOptions.handles.height;
// Place it
navigator.handles[index][verb](inverted ? {
translateX: Math.round(navigator.left + navigator.height / 2),
translateY: Math.round(navigator.top + parseInt(x, 10) + 0.5 - height)
} : {
translateX: Math.round(navigator.left + parseInt(x, 10)),
translateY: Math.round(navigator.top + navigator.height / 2 - height / 2 - 1)
});
}
/**
* Render outline around the zoomed range
*
* @private
* @function Highcharts.Navigator#drawOutline
*
* @param {number} zoomedMin
* in pixels position where zoomed range starts
*
* @param {number} zoomedMax
* in pixels position where zoomed range ends
*
* @param {boolean|undefined} inverted
* flag if chart is inverted
*
* @param {string} verb
* use 'animate' or 'attr'
*/
drawOutline(zoomedMin, zoomedMax, inverted, verb) {
const navigator = this, maskInside = navigator.navigatorOptions.maskInside, outlineWidth = navigator.outline.strokeWidth(), halfOutline = outlineWidth / 2, outlineCorrection = (outlineWidth % 2) / 2, // #5800
scrollButtonSize = navigator.scrollButtonSize, navigatorSize = navigator.size, navigatorTop = navigator.top, height = navigator.height, lineTop = navigatorTop - halfOutline, lineBtm = navigatorTop + height;
let left = navigator.left, verticalMin, path;
if (inverted) {
verticalMin = navigatorTop + zoomedMax + outlineCorrection;
zoomedMax = navigatorTop + zoomedMin + outlineCorrection;
path = [
[
'M',
left + height,
navigatorTop - scrollButtonSize - outlineCorrection
],
// Top right of zoomed range
['L', left + height, verticalMin],
['L', left, verticalMin],
['M', left, zoomedMax],
['L', left + height, zoomedMax],
[
'L',
left + height,
navigatorTop + navigatorSize + scrollButtonSize
]
];
if (maskInside) {
path.push(
// Upper left of zoomed range
['M', left + height, verticalMin - halfOutline],
// Upper right of z.r.
[
'L',
left + height,
zoomedMax + halfOutline
]);
}
}
else {
left -= scrollButtonSize;
zoomedMin += left + scrollButtonSize - outlineCorrection;
zoomedMax += left + scrollButtonSize - outlineCorrection;
path = [
// Left
['M', left, lineTop],
// Upper left of zoomed range
['L', zoomedMin, lineTop],
// Lower left of z.r.
['L', zoomedMin, lineBtm],
// Lower right of z.r.
['M', zoomedMax, lineBtm],
// Upper right of z.r.
['L', zoomedMax, lineTop],
// Right
[
'L',
left + navigatorSize + scrollButtonSize * 2,
navigatorTop + halfOutline
]
];
if (maskInside) {
path.push(
// Upper left of zoomed range
['M', zoomedMin - halfOutline, lineTop],
// Upper right of z.r.
['L', zoomedMax + halfOutline, lineTop]);
}
}
navigator.outline[verb]({
d: path
});
}
/**
* Render outline around the zoomed range
*
* @private
* @function Highcharts.Navigator#drawMasks
*
* @param {number} zoomedMin
* in pixels position where zoomed range starts
*
* @param {number} zoomedMax
* in pixels position where zoomed range ends
*
* @param {boolean|undefined} inverted
* flag if chart is inverted
*
* @param {string} verb
* use 'animate' or 'attr'
*/
drawMasks(zoomedMin, zoomedMax, inverted, verb) {
const navigator = this, left = navigator.left, top = navigator.top, navigatorHeight = navigator.height;
let height, width, x, y;
// Determine rectangle position & size
// According to (non)inverted position:
if (inverted) {
x = [left, left, left];
y = [top, top + zoomedMin, top + zoomedMax];
width = [navigatorHeight, navigatorHeight, navigatorHeight];
height = [
zoomedMin,
zoomedMax - zoomedMin,
navigator.size - zoomedMax
];
}
else {
x = [left, left + zoomedMin, left + zoomedMax];
y = [top, top, top];
width = [
zoomedMin,
zoomedMax - zoomedMin,
navigator.size - zoomedMax
];
height = [navigatorHeight, navigatorHeight, navigatorHeight];
}
navigator.shades.forEach((shade, i) => {
shade[verb]({
x: x[i],
y: y[i],
width: width[i],
height: height[i]
});
});
}
/**
* Generate DOM elements for a navigator:
*
* - main navigator group
*
* - all shades
*
* - outline
*
* - handles
*
* @private
* @function Highcharts.Navigator#renderElements
*/
renderElements() {
const navigator = this, navigatorOptions = navigator.navigatorOptions, maskInside = navigatorOptions.maskInside, chart = navigator.chart, inverted = chart.inverted, renderer = chart.renderer, mouseCursor = {
cursor: inverted ? 'ns-resize' : 'ew-resize'
},
// Create the main navigator group
navigatorGroup = navigator.navigatorGroup = renderer
.g('navigator')
.attr({
zIndex: 8,
visibility: 'hidden'
})
.add();
// Create masks, each mask will get events and fill:
[
!maskInside,
maskInside,
!maskInside
].forEach((hasMask, index) => {
const shade = renderer.rect()
.addClass('highcharts-navigator-mask' +
(index === 1 ? '-inside' : '-outside'))
.add(navigatorGroup);
if (!chart.styledMode) {
shade.attr({
fill: hasMask ?
navigatorOptions.maskFill :
'rgba(0,0,0,0)'
});
if (index === 1) {
shade.css(mouseCursor);
}
}
navigator.shades[index] = shade;
});
// Create the outline:
navigator.outline = renderer.path()
.addClass('highcharts-navigator-outline')
.add(navigatorGroup);
if (!chart.styledMode) {
navigator.outline.attr({
'stroke-width': navigatorOptions.outlineWidth,
stroke: navigatorOptions.outlineColor
});
}
// Create the handlers:
if (navigatorOptions.handles && navigatorOptions.handles.enabled) {
const handlesOptions = navigatorOptions.handles, { height, width } = handlesOptions;
[0, 1].forEach((index) => {
navigator.handles[index] = renderer.symbol(handlesOptions.symbols[index], -width / 2 - 1, 0, width, height, handlesOptions);
if (chart.inverted) {
navigator.handles[index].attr({
rotation: 90,
rotationOriginX: Math.floor(-width / 2),
rotationOriginY: (height + width) / 2
});
}
// Z index is 6 for right handle, 7 for left. Can't be 10,
// because of the tooltip in inverted chart (#2908).
navigator.handles[index].attr({ zIndex: 7 - index })
.addClass('highcharts-navigator-handle ' +
'highcharts-navigator-handle-' +
['left', 'right'][index]).add(navigatorGroup);
if (!chart.styledMode) {
navigator.handles[index]
.attr({
fill: handlesOptions.backgroundColor,
stroke: handlesOptions.borderColor,
'stroke-width': handlesOptions.lineWidth
})
.css(mouseCursor);
}
});
}
}
/**
* Update navigator
*
* @private
* @function Highcharts.Navigator#update
*
* @param {Highcharts.NavigatorOptions} options
* Options to merge in when updating navigator
*/
update(options) {
// Remove references to old navigator series in base series
(this.series || []).forEach((series) => {
if (series.baseSeries) {
delete series.baseSeries.navigatorSeries;
}
});
// Destroy and rebuild navigator
this.destroy();
const chartOptions = this.chart.options;
merge(true, chartOptions.navigator, options);
this.init(this.chart);
}
/**
* Render the navigator
*
* @private
* @function Highcharts.Navigator#render
* @param {number} min
* X axis value minimum
* @param {number} max
* X axis value maximum
* @param {number} [pxMin]
* Pixel value minimum
* @param {number} [pxMax]
* Pixel value maximum
*/
render(min, max, pxMin, pxMax) {
const navigator = this, chart = navigator.chart, xAxis = navigator.xAxis, pointRange = xAxis.pointRange || 0, scrollbarXAxis = xAxis.navigatorAxis.fake ? chart.xAxis[0] : xAxis, navigatorEnabled = navigator.navigatorEnabled, rendered = navigator.rendered, inverted = chart.inverted, minRange = chart.xAxis[0].minRange, maxRange = chart.xAxis[0].options.maxRange, scrollButtonSize = navigator.scrollButtonSize;
let navigatorWidth, scrollbarLeft, scrollbarTop, scrollbarHeight = navigator.scrollbarHeight, navigatorSize, verb;
// Don't redraw while moving the handles (#4703).
if (this.hasDragged && !defined(pxMin)) {
return;
}
min = correctFloat(min - pointRange / 2);
max = correctFloat(max + pointRange / 2);
// Don't render the navigator until we have data (#486, #4202, #5172).
if (!isNumber(min) || !isNumber(max)) {
// However, if navigator was already rendered, we may need to resize
// it. For example hidden series, but visible navigator (#6022).
if (rendered) {
pxMin = 0;
pxMax = pick(xAxis.width, scrollbarXAxis.width);
}
else {
return;
}
}
navigator.left = pick(xAxis.left,
// In case of scrollbar only, without navigator
chart.plotLeft + scrollButtonSize +
(inverted ? chart.plotWidth : 0));
let zoomedMax = navigator.size = navigatorSize = pick(xAxis.len, (inverted ? chart.plotHeight : chart.plotWidth) -
2 * scrollButtonSize);
if (inverted) {
navigatorWidth = scrollbarHeight;
}
else {
navigatorWidth = navigatorSize + 2 * scrollButtonSize;
}
// Get the pixel position of the handles
pxMin = pick(pxMin, xAxis.toPixels(min, true));
pxMax = pick(pxMax, xAxis.toPixels(max, true));
// Verify (#1851, #2238)
if (!isNumber(pxMin) || Math.abs(pxMin) === Infinity) {
pxMin = 0;
pxMax = navigatorWidth;
}
// Are we below the minRange? (#2618, #6191)
const newMin = xAxis.toValue(pxMin, true), newMax = xAxis.toValue(pxMax, true), currentRange = Math.abs(correctFloat(newMax - newMin));
if (currentRange < minRange) {
if (this.grabbedLeft) {
pxMin = xAxis.toPixels(newMax - minRange - pointRange, true);
}
else if (this.grabbedRight) {
pxMax = xAxis.toPixels(newMin + minRange + pointRange, true);
}
}
else if (defined(maxRange) &&
correctFloat(currentRange - pointRange) > maxRange) {
if (this.grabbedLeft) {
pxMin = xAxis.toPixels(newMax - maxRange - pointRange, true);
}
else if (this.grabbedRight) {
pxMax = xAxis.toPixels(newMin + maxRange + pointRange, true);
}
}
// Handles are allowed to cross, but never exceed the plot area
navigator.zoomedMax = clamp(Math.max(pxMin, pxMax), 0, zoomedMax);
navigator.zoomedMin = clamp(navigator.fixedWidth ?
navigator.zoomedMax - navigator.fixedWidth :
Math.min(pxMin, pxMax), 0, zoomedMax);
navigator.range = navigator.zoomedMax - navigator.zoomedMin;
zoomedMax = Math.round(navigator.zoomedMax);
const zoomedMin = Math.round(navigator.zoomedMin);
if (navigatorEnabled) {
navigator.navigatorGroup.attr({
visibility: 'inherit'
});
// Place elements
verb = rendered && !navigator.hasDragged ? 'animate' : 'attr';
navigator.drawMasks(zoomedMin, zoomedMax, inverted, verb);
navigator.drawOutline(zoomedMin, zoomedMax, inverted, verb);
if (navigator.navigatorOptions.handles.enabled) {
navigator.drawHandle(zoomedMin, 0, inverted, verb);
navigator.drawHandle(zoomedMax, 1, inverted, verb);
}
}
if (navigator.scrollbar) {
if (inverted) {
scrollbarTop = navigator.top - scrollButtonSize;
scrollbarLeft = navigator.left - scrollbarHeight +
(navigatorEnabled || !scrollbarXAxis.opposite ? 0 :
// Multiple axes has offsets:
(scrollbarXAxis.titleOffset || 0) +
// Self margin from the axis.title
scrollbarXAxis.axisTitleMargin);
scrollbarHeight = navigatorSize + 2 * scrollButtonSize;
}
else {
scrollbarTop = navigator.top + (navigatorEnabled ?
navigator.height :
-scrollbarHeight);
scrollbarLeft = navigator.left - scrollButtonSize;
}
// Reposition scrollbar
navigator.scrollbar.position(scrollbarLeft, scrollbarTop, navigatorWidth, scrollbarHeight);
// Keep scale 0-1
navigator.scrollbar.setRange(
// Use real value, not rounded because range can be very small
// (#1716)
navigator.zoomedMin / (navigatorSize || 1), navigator.zoomedMax / (navigatorSize || 1));
}
navigator.rendered = true;
fireEvent(this, 'afterRender');
}
/**
* Set up the mouse and touch events for the navigator
*
* @private
* @function Highcharts.Navigator#addMouseEvents
*/
addMouseEvents() {
const navigator = this, chart = navigator.chart, container = chart.container;
let eventsToUnbind = [], mouseMoveHandler, mouseUpHandler;
/**
* Create mouse events' handlers.
* Make them as separate functions to enable wrapping them:
*/
navigator.mouseMoveHandler = mouseMoveHandler = function (e) {
navigator.onMouseMove(e);
};
navigator.mouseUpHandler = mouseUpHandler = function (e) {
navigator.onMouseUp(e);
};
// Add shades and handles mousedown events
eventsToUnbind = navigator.getPartsEvents('mousedown');
eventsToUnbind.push(
// Add mouse move and mouseup events. These are bind to doc/div,
// because Navigator.grabbedSomething flags are stored in mousedown
// events
addEvent(chart.renderTo, 'mousemove', mouseMoveHandler), addEvent(container.ownerDocument, 'mouseup', mouseUpHandler),
// Touch events
addEvent(chart.renderTo, 'touchmove', mouseMoveHandler), addEvent(container.ownerDocument, 'touchend', mouseUpHandler));
eventsToUnbind.concat(navigator.getPartsEvents('touchstart'));
navigator.eventsToUnbind = eventsToUnbind;
// Data events
if (navigator.series && navigator.series[0]) {
eventsToUnbind.push(addEvent(navigator.series[0].xAxis, 'foundExtremes', function () {
chart.navigator.modifyNavigatorAxisExtremes();
}));
}
}
/**
* Generate events for handles and masks
*
* @private
* @function Highcharts.Navigator#getPartsEvents
*
* @param {string} eventName
* Event name handler, 'mousedown' or 'touchstart'
*
* @return {Array<Function>}
* An array of functions to remove navigator functions from the
* events again.
*/
getPartsEvents(eventName) {
const navigator = this, events = [];
['shades', 'handles'].forEach(function (name) {
navigator[name].forEach(function (navigatorItem, index) {
events.push(addEvent(navigatorItem.element, eventName, function (e) {
navigator[name + 'Mousedown'](e, index);
}));
});
});
return events;
}
/**
* Mousedown on a shaded mask, either:
*
* - will be stored for future drag&drop
*
* - will directly shift to a new range
*
* @private
* @function Highcharts.Navigator#shadesMousedown
*
* @param {Highcharts.PointerEventObject} e
* Mouse event
*
* @param {number} index
* Index of a mask in Navigator.shades array
*/
shadesMousedown(e, index) {
e = this.chart.pointer?.normalize(e) || e;
const navigator = this, chart = navigator.chart, xAxis = navigator.xAxis, zoomedMin = navigator.zoomedMin, navigatorSize = navigator.size, range = navigator.range;
let navigatorPosition = navigator.left, chartX = e.chartX, fixedMax, fixedMin, ext, left;
// For inverted chart, swap some options:
if (chart.inverted) {
chartX = e.chartY;
navigatorPosition = navigator.top;
}
if (index === 1) {
// Store information for drag&drop
navigator.grabbedCenter = chartX;
navigator.fixedWidth = range;
navigator.dragOffset = chartX - zoomedMin;
}
else {
// Shift the range by clicking on shaded areas
left = chartX - navigatorPosition - range / 2;
if (index === 0) {
left = Math.max(0, left);
}
else if (index === 2 && left + range >= navigatorSize) {
left = navigatorSize - range;
if (navigator.reversedExtremes) {
// #7713
left -= range;
fixedMin = navigator.getUnionExtremes().dataMin;
}
else {
// #2293, #3543
fixedMax = navigator.getUnionExtremes().dataMax;
}
}
if (left !== zoomedMin) { // It has actually moved
navigator.fixedWidth = range; // #1370
ext = xAxis.navigatorAxis.toFixedRange(left, left + range, fixedMin, fixedMax);
if (defined(ext.min)) { // #7411
fireEvent(this, 'setRange', {
min: Math.min(ext.min, ext.max),
max: Math.max(ext.min, ext.max),
redraw: true,
eventArguments: {
trigger: 'navigator'
}
});
}
}
}
}
/**
* Mousedown on a handle mask.
* Will store necessary information for drag&drop.
*
* @private
* @function Highcharts.Navigator#handlesMousedown
* @param {Highcharts.PointerEventObject} e
* Mouse event
* @param {number} index
* Index of a handle in Navigator.handles array
*/
handlesMousedown(e, index) {
e = this.chart.pointer?.normalize(e) || e;
const navigator = this, chart = navigator.chart, baseXAxis = chart.xAxis[0],
// For reversed axes, min and max are changed,
// so the other extreme should be stored
reverse = navigator.reversedExtremes;
if (index === 0) {
// Grab the left handle
navigator.grabbedLeft = true;
navigator.otherHandlePos = navigator.zoomedMax;
navigator.fixedExtreme = reverse ? baseXAxis.min : baseXAxis.max;
}
else {
// Grab the right handle
navigator.grabbedRight = true;
navigator.otherHandlePos = navigator.zoomedMin;
navigator.fixedExtreme = reverse ? baseXAxis.max : baseXAxis.min;
}
chart.setFixedRange(void 0);
}
/**
* Mouse move event based on x/y mouse position.
*
* @private
* @function Highcharts.Navigator#onMouseMove
*
* @param {Highcharts.PointerEventObject} e
* Mouse event
*/
onMouseMove(e) {
const navigator = this, chart = navigator.chart, navigatorSize = navigator.navigatorSize, range = navigator.range, dragOffset = navigator.dragOffset, inverted = chart.inverted;
let left = navigator.left, chartX;
// In iOS, a mousemove event with e.pageX === 0 is fired when holding
// the finger down in the center of the scrollbar. This should be
// ignored.
if (!e.touches || e.touches[0].pageX !== 0) { // #4696
e = chart.pointer?.normalize(e) || e;
chartX = e.chartX;
// Swap some options for inverted chart
if (inverted) {
left = navigator.top;
chartX = e.chartY;
}
// Drag left handle or top handle
if (navigator.grabbedLeft) {
navigator.hasDragged = true;
navigator.render(0, 0, chartX - left, navigator.otherHandlePos);
// Drag right handle or bottom handle
}
else if (navigator.grabbedRight) {
navigator.hasDragged = true;
navigator.render(0, 0, navigator.otherHandlePos, chartX - left);
// Drag scrollbar or open area in navigator
}
else if (navigator.grabbedCenter) {
navigator.hasDragged = true;
if (chartX < dragOffset) { // Outside left
chartX = dragOffset;
// Outside right
}
else if (chartX >
navigatorSize + dragOffset - range) {
chartX = navigatorSize + dragOffset - range;
}
navigator.render(0, 0, chartX - dragOffset, chartX - dragOffset + range);
}
if (navigator.hasDragged &&
navigator.scrollbar &&
pick(navigator.scrollbar.options.liveRedraw,
// By default, don't run live redraw on touch
// devices or if the chart is in boost.
!isTouchDevice &&
!this.chart.boosted)) {
e.DOMType = e.type;
setTimeout(function () {
navigator.onMouseUp(e);
}, 0);
}
}
}
/**
* Mouse up event based on x/y mouse position.
*
* @private
* @function Highcharts.Navigator#onMouseUp
* @param {Highcharts.PointerEventObject} e
* Mouse event
*/
onMouseUp(e) {
const navigator = this, chart = navigator.chart, xAxis = navigator.xAxis, scrollbar = navigator.scrollbar, DOMEvent = e.DOMEvent || e, inverted = chart.inverted, verb = navigator.rendered && !navigator.hasDragged ?
'animate' : 'attr';
let zoomedMax, zoomedMin, unionExtremes, fixedMin, fixedMax, ext;
if (
// MouseUp is called for both, navigator and scrollbar (that order),
// which causes calling afterSetExtremes twice. Prevent first call
// by checking if scrollbar is going to set new extremes (#6334)
(navigator.hasDragged && (!scrollbar || !scrollbar.hasDragged)) ||
e.trigger === 'scrollbar') {
unionExtremes = navigator.getUnionExtremes();
// When dragging one handle, make sure the other one doesn't change
if (navigator.zoomedMin === navigator.otherHandlePos) {
fixedMin = navigator.fixedExtreme;
}
else if (navigator.zoomedMax === navigator.otherHandlePos) {
fixedMax = navigator.fixedExtreme;
}
// Snap to right edge (#4076)
if (navigator.zoomedMax === navigator.size) {
fixedMax = navigator.reversedExtremes ?
unionExtremes.dataMin :
unionExtremes.dataMax;
}
// Snap to left edge (#7576)
if (navigator.zoomedMin === 0) {
fixedMin = navigator.reversedExtremes ?
unionExtremes.dataMax :
unionExtremes.dataMin;
}
ext = xAxis.navigatorAxis.toFixedRange(navigator.zoomedMin, navigator.zoomedMax, fixedMin, fixedMax);
if (defined(ext.min)) {
fireEvent(this, 'setRange', {
min: Math.min(ext.min, ext.max),
max: Math.max(ext.min, ext.max),
redraw: true,
animation: navigator.hasDragged ? false : null,
eventArguments: {
trigger: 'navigator',
triggerOp: 'navigator-drag',
DOMEvent: DOMEvent // #1838
}
});
}
}
if (e.DOMType !== 'mousemove' &&
e.DOMType !== 'touchmove') {
navigator.grabbedLeft = navigator.grabbedRight =
navigator.grabbedCenter = navigator.fixedWidth =
navigator.fixedExtreme = navigator.otherHandlePos =
navigator.hasDragged = navigator.dragOffset = null;
}
// Update position of navigator shades, outline and handles (#12573)
if (navigator.navigatorEnabled &&
isNumber(navigator.zoomedMin) &&
isNumber(navigator.zoomedMax)) {
zoomedMin = Math.round(navigator.zoomedMin);
zoomedMax = Math.round(navigator.zoomedMax);
if (navigator.shades) {
navigator.drawMasks(zoomedMin, zoomedMax, inverted, verb);
}
if (navigator.outline) {
navigator.drawOutline(zoomedMin, zoomedMax, inverted, verb);
}
if (navigator.navigatorOptions.handles.enabled &&
Object.keys(navigator.handles).length ===
navigator.handles.length) {
navigator.drawHandle(zoomedMin, 0, inverted, verb);
navigator.drawHandle(zoomedMax, 1, inverted, verb);
}
}
}
/**
* Removes the event handlers attached previously with addEvents.
*
* @private
* @function Highcharts.Navigator#removeEvents
*/
removeEvents() {
if (this.eventsToUnbind) {
this.eventsToUnbind.forEach(function (unbind) {
unbind();
});
this.eventsToUnbind = void 0;
}
this.removeBaseSeriesEvents();
}
/**
* Remove data events.
*
* @private
* @function Highcharts.Navigator#removeBaseSeriesEvents
*/
removeBaseSeriesEvents() {
const baseSeries = this.baseSeries || [];
if (this.navigatorEnabled && baseSeries[0]) {
if (this.navigatorOptions.adaptToUpdatedData !== false) {
baseSeries.forEach(function (series) {
removeEvent(series, 'updatedData', this.updatedDataHandler);
}, this);
}
// We only listen for extremes-events on the first baseSeries
if (baseSeries[0].xAxis) {
removeEvent(baseSeries[0].xAxis, 'foundExtremes', this.modifyBaseAxisExtremes);
}
}
}
/**
* Initialize the Navigator object
*
* @private
* @function Highcharts.Navigator#init
*/
init(chart) {
const chartOptions = chart.options, navigatorOptions = chartOptions.navigator || {}, navigatorEnabled = navigatorOptions.enabled, scrollbarOptions = chartOptions.scrollbar || {}, scrollbarEnabled = scrollbarOptions.enabled, height = navigatorEnabled && navigatorOptions.height || 0, scrollbarHeight = scrollbarEnabled && scrollbarOptions.height || 0, scrollButtonSize = scrollbarOptions.buttonsEnabled && scrollbarHeight || 0;
this.handles = [];
this.shades = [];
this.chart = chart;
this.setBaseSeries();
this.height = height;
this.scrollbarHeight = scrollbarHeight;
this.scrollButtonSize = scrollButtonSize;
this.scrollbarEnabled = scrollbarEnabled;
this.navigatorEnabled = navigatorEnabled;
this.navigatorOptions = navigatorOptions;
this.scrollbarOptions = scrollbarOptions;
this.opposite = pick(navigatorOptions.opposite, Boolean(!navigatorEnabled && chart.inverted)); // #6262
const navigator = this, baseSeries = navigator.baseSeries, xAxisIndex = chart.xAxis.length, yAxisIndex = chart.yAxis.length, baseXaxis = baseSeries && baseSeries[0] && baseSeries[0].xAxis ||
chart.xAxis[0] || { options: {} };
chart.isDirtyBox = true;
if (navigator.navigatorEnabled) {
// An x axis is required for scrollbar also
navigator.xAxis = new Axis(chart, merge({
// Inherit base xAxis' break, ordinal options and overscroll
breaks: baseXaxis.options.breaks,
ordinal: baseXaxis.options.ordinal,
overscroll: baseXaxis.options.overscroll
}, navigatorOptions.xAxis, {
id: 'navigator-x-axis',
yAxis: 'navigator-y-axis',
type: 'datetime',
index: xAxisIndex,
isInternal: true,
offset: 0,
keepOrdinalPadding: true,
startOnTick: false,
endOnTick: false,
minPadding: 0,
maxPadding: 0,
zoomEnabled: false
}, chart.inverted ? {
offsets: [scrollButtonSize, 0, -scrollButtonSize, 0],
width: height
} : {
offsets: [0, -scrollButtonSize, 0, scrollButtonSize],
height: height
}), 'xAxis');
navigator.yAxis = new Axis(chart, merge(navigatorOptions.yAxis, {
id: 'navigator-y-axis',
alignTicks: false,
offset: 0,
index: yAxisIndex,
isInternal: true,
reversed: pick((navigatorOptions.yAxis &&
navigatorOptions.yAxis.reversed), (chart.yAxis[0] && chart.yAxis[0].reversed), false),
zoomEnabled: false
}, chart.inverted ? {
width: height
} : {
height: height
}), 'yAxis');
// If we have a base series, initialize the navigator series
if (baseSeries || navigatorOptions.series.data) {
navigator.updateNavigatorSeries(false);
// If not, set up an event to listen for added series
}
else if (chart.series.length === 0) {
navigator.unbindRedraw = addEvent(chart, 'beforeRedraw', function () {
// We've got one, now add it as base
if (chart.series.length > 0 && !navigator.series) {
navigator.setBaseSeries();
navigator.unbindRedraw(); // Reset
}
});
}
navigator.reversedExtremes = (chart.inverted && !navigator.xAxis.reversed) || (!chart.inverted && navigator.xAxis.reversed);
// Render items, so we can bind events to them:
navigator.renderElements();
// Add mouse events
navigator.addMouseEvents();
// In case of scrollbar only, fake an x axis to get translation
}
else {
navigator.xAxis = {
chart,
navigatorAxis: {
fake: true
},
translate: function (value, reverse) {
const axis = chart.xAxis[0], ext = axis.getExtremes(), scrollTrackWidth = axis.len - 2 * scrollButtonSize, min = numExt('min', axis.options.min, ext.dataMin), valueRange = numExt('max', axis.options.max, ext.dataMax) - min;
return reverse ?
// From pixel to value
(value * valueRange / scrollTrackWidth) + min :
// From value to pixel
scrollTrackWidth * (value - min) / valueRange;
},
toPixels: function (value) {
return this.translate(value);
},
toValue: function (value) {
return this.translate(value, true);
}
};
navigator.xAxis.navigatorAxis.axis = navigator.xAxis;
navigator.xAxis.navigatorAxis.toFixedRange = (NavigatorAxisAdditions.prototype.toFixedRange.bind(navigator.xAxis.navigatorAxis));
}
// Initialize the scrollbar
if (chart.options.scrollbar.enabled) {
const options = merge(chart.options.scrollbar, { vertical: chart.inverted });
if (!isNumber(options.margin) && navigator.navigatorEnabled) {
options.margin = chart.inverted ? -3 : 3;
}
chart.scrollbar = navigator.scrollbar = new Scrollbar(chart.renderer, options, chart);
addEvent(navigator.scrollbar, 'changed', function (e) {
const range = navigator.size, to = range * this.to, from = range * this.from;
navigator.hasDragged = navigator.scrollbar.hasDragged;
navigator.render(0, 0, from, to);
if (this.shouldUpdateExtremes(e.DOMType)) {
setTimeout(function () {
navigator.onMouseUp(e);
});
}
});
}
// Add data events
navigator.addBaseSeriesEvents();
// Add redraw events
navigator.addChartEvents();
}
/**
* Get the union data extremes of the chart - the outer data extremes of the
* base X axis and the navigator axis.
*
* @private
* @function Highcharts.Navigator#getUnionExtremes
*/
getUnionExtremes(returnFalseOnNoBaseSeries) {
const baseAxis = this.chart.xAxis[0], navAxis = this.xAxis, navAxisOptions = navAxis.options, baseAxisOptions = baseAxis.options;
let ret;
if (!returnFalseOnNoBaseSeries || baseAxis.dataMin !== null) {
ret = {
dataMin: pick(// #4053
navAxisOptions && navAxisOptions.min, numExt('min', baseAxisOptions.min, baseAxis.dataMin, navAxis.dataMin, navAxis.min)),
dataMax: pick(navAxisOptions && navAxisOptions.max, numExt('max', baseAxisOptions.max, baseAxis.dataMax, navAxis.dataMax, navAxis.max))
};
}
return ret;
}
/**
* Set the base series and update the navigator series from this. With a bit
* of modification we should be able to make this an API method to be called
* from the outside
*
* @private
* @function Highcharts.Navigator#setBaseSeries
* @param {Highcharts.SeriesOptionsType} [baseSeriesOptions]
* Additional series options for a navigator
* @param {boolean} [redraw]
* Whether to redraw after update.
*/
setBaseSeries(baseSeriesOptions, redraw) {
const chart = this.chart, baseSeries = this.baseSeries = [];
baseSeriesOptions = (baseSeriesOptions ||
chart.options && chart.options.navigator.baseSeries ||
(chart.series.length ?
// Find the first non-navigator series (#8430)
find(chart.series, (s) => (!s.options.isInternal)).index :
0));
// Iterate through series and add the ones that should be shown in
// navigator.
(chart.series || []).forEach((series, i) => {
if (
// Don't include existing nav series
!series.options.isInternal &&
(series.options.showInNavigator ||
(i === baseSeriesOptions ||
series.options.id === baseSeriesOptions) &&
series.options.showInNavigator !== false)) {
baseSeries.push(series);
}
});
// When run after render, this.xAxis already exists
if (this.xAxis && !this.xAxis.navigatorAxis.fake) {
this.updateNavigatorSeries(true, redraw);
}
}
/**
* Update series in the navigator from baseSeries, adding new if does not
* exist.
*
* @private
* @function Highcharts.Navigator.updateNavigatorSeries
*/
updateNavigatorSeries(addEvents, redraw) {
const navigator = this, chart = navigator.chart, baseSeries = navigator.baseSeries, navSeriesMixin = {
enableMouseTracking: false,
index: null,
linkedTo: null,
group: 'nav',
padXAxis: false,
xAxis: 'navigator-x-axis',
yAxis: 'navigator-y-axis',
showInLegend: false,
stacking: void 0,
isInternal: true,
states: {
inactive: {
opacity: 1
}
}
},
// Remove navigator series that are no longer in the baseSeries
navigatorSeries = navigator.series =
(navigator.series || []).filter((navSeries) => {
const base = navSeries.baseSeries;
if (baseSeries.indexOf(base) < 0) { // Not in array
// If there is still a base series connected to this
// series, remove event handler and reference.
if (base) {
removeEvent(base, 'updatedData', navigator.updatedDataHandler);
delete base.navigatorSeries;
}
// Kill the nav series. It may already have been
// destroyed (#8715).
if (navSeries.chart) {
navSeries.destroy();
}
return false;
}
return true;
});
let baseOptions, mergedNavSeriesOptions, chartNavigatorSeriesOptions = navigator.navigatorOptions.series, baseNavigatorOptions;
// Go through each base series and merge the options to create new
// series
if (baseSeries && baseSeries.length) {
baseSeries.forEach((base) => {
const linkedNavSeries = base.navigatorSeries, userNavOptions = extend(
// Grab color and visibility from base as default
{
color: base.color,
visible: base.visible
}, !isArray(chartNavigatorSeriesOptions) ?
chartNavigatorSeriesOptions :
defaultOptions.navigator.series);
// Don't update if the series exists in nav and we have disabled
// adaptToUpdatedData.
if (linkedNavSeries &&
navigator.navigatorOptions.adaptToUpdatedData === false) {
return;
}
navSeriesMixin.name = 'Navigator ' + baseSeries.length;
baseOptions = base.options || {};
baseNavigatorOptions = baseOptions.navigatorOptions || {};
// The dataLabels options are not merged correctly
// if the settings are an array, #13847.
userNavOptions.dataLabels = splat(userNavOptions.dataLabels);
mergedNavSeriesOptions = merge(baseOptions, navSeriesMixin, userNavOptions, baseNavigatorOptions);
// Once nav series type is resolved, pick correct pointRange
mergedNavSeriesOptions.pointRange = pick(
// Stricte set pointRange in options
userNavOptions.pointRange, baseNavigatorOptions.pointRange,
// Fallback to default values, e.g. `null` for column
defaultOptions.plotOptions[mergedNavSeriesOptions.type || 'line'].pointRange);
// Merge data separately. Do a slice to avoid mutating the
// navigator options from base series (#4923).
const navigatorSeriesData = baseNavigatorOptions.data || userNavOptions.data;
navigator.hasNavigatorData =
navigator.hasNavigatorData || !!navigatorSeriesData;
mergedNavSeriesOptions.data =
navigatorSeriesData ||
baseOptions.data && baseOptions.data.slice(0);
// Update or add the series
if (linkedNavSeries && linkedNavSeries.options) {
linkedNavSeries.update(mergedNavSeriesOptions, redraw);
}
else {
base.navigatorSeries = chart.initSeries(mergedNavSeriesOptions);
// Set data on initial run with dataSorting enabled (#20318)
chart.setSortedData();
base.navigatorSeries.baseSeries = base; // Store ref
navigatorSeries.push(base.navigatorSeries);
}
});
}
// If user has defined data (and no base series) or explicitly defined
// navigator.series as an array, we create these series on top of any
// base series.
if (chartNavigatorSeriesOptions.data &&
!(baseSeries && baseSeries.length) ||
isArray(chartNavigatorSeriesOptions)) {
navigator.hasNavigatorData = false;
// Allow navigator.series to be an array
chartNavigatorSeriesOptions =
splat(chartNavigatorSeriesOptions);
chartNavigatorSeriesOptions.forEach((userSeriesOptions, i) => {
navSeriesMixin.name =
'Navigator ' + (navigatorSeries.length + 1);
mergedNavSeriesOptions = merge(defaultOptions.navigator.series, {
// Since we don't have a base series to pull color from,
// try to fake it by using color from series with same
// index. Otherwise pull from the colors array. We need
// an explicit color as otherwise updates will increment
// color counter and we'll get a new color for each
// update of the nav series.
color: chart.series[i] &&
!chart.series[i].options.isInternal &&
chart.series[i].color ||
chart.options.colors[i] ||
chart.options.colors[0]
}, navSeriesMixin, userSeriesOptions);
mergedNavSeriesOptions.data = userSeriesOptions.data;
if (mergedNavSeriesOptions.data) {
navigator.hasNavigatorData = true;
navigatorSeries.push(chart.initSeries(mergedNavSeriesOptions));
}
});
}
if (addEvents) {
this.addBaseSeriesEvents();
}
}
/**
* Add data events.
* For example when main series is updated we need to recalculate extremes
*
* @private
* @function Highcharts.Navigator#addBaseSeriesEvent
*/
addBaseSeriesEvents() {
const navigator = this, baseSeries = navigator.baseSeries || [];
// Bind modified extremes event to first base's xAxis only.
// In event of > 1 base-xAxes, the navigator will ignore those.
// Adding this multiple times to the same axis is no problem, as
// duplicates should be discarded by the browser.
if (baseSeries[0] && baseSeries[0].xAxis) {
baseSeries[0].eventsToUnbind.push(addEvent(baseSeries[0].xAxis, 'foundExtremes', this.modifyBaseAxisExtremes));
}
baseSeries.forEach((base) => {
// Link base series show/hide to navigator series visibility
base.eventsToUnbind.push(addEvent(base, 'show', function () {
if (this.navigatorSeries) {
this.navigatorSeries.setVisible(true, false);
}
}));
base.eventsToUnbind.push(addEvent(base, 'hide', function () {
if (this.navigatorSeries) {
this.navigatorSeries.setVisible(false, false);
}
}));
// Respond to updated data in the base series, unless explicitly
// not adapting to data changes.
if (this.navigatorOptions.adaptToUpdatedData !== false) {
if (base.xAxis) {
base.eventsToUnbind.push(addEvent(base, 'updatedData', this.updatedDataHandler));
}
}
// Handle series removal
base.eventsToUnbind.push(addEvent(base, 'remove', function () {
if (this.navigatorSeries) {
erase(navigator.series, this.navigatorSeries);
if (defined(this.navigatorSeries.options)) {
this.navigatorSeries.remove(false);
}
delete this.navigatorSeries;
}
}));
});
}
/**
* Get minimum from all base series connected to the navigator
* @private
* @param {number} currentSeriesMin
* Minium from the current series
* @return {number}
* Minimum from all series
*/
getBaseSeriesMin(currentSeriesMin) {
return this.baseSeries.reduce(function (min, series) {
// (#10193)
return Math.min(min, series.xData && series.xData.length ?
series.xData[0] : min);
}, currentSeriesMin);
}
/**
* Set the navigator x axis extremes to reflect the total. The navigator
* extremes should always be the extremes of the union of all series in the
* chart as well as the navigator series.
*
* @private
* @function Highcharts.Navigator#modifyNavigatorAxisExtremes
*/
modifyNavigatorAxisExtremes() {
const xAxis = this.xAxis;
if (typeof xAxis.getExtremes !== 'undefined') {
const unionExtremes = this.getUnionExtremes(true);
if (unionExtremes &&
(unionExtremes.dataMin !== xAxis.min ||
unionExtremes.dataMax !== xAxis.max)) {
xAxis.min = unionExtremes.dataMin;
xAxis.max = unionExtremes.dataMax;
}
}
}
/**
* Hook to modify the base axis extremes with information from the Navigator
*
* @private
* @function Highcharts.Navigator#modifyBaseAxisExtremes
*/
modifyBaseAxisExtremes() {
const baseXAxis = this, navigator = baseXAxis.chart.navigator, baseExtremes = baseXAxis.getExtremes(), baseMin = baseExtremes.min, baseMax = baseExtremes.max, baseDataMin = baseExtremes.dataMin, baseDataMax = baseExtremes.dataMax, range = baseMax - baseMin, stickToMin = navigator.stickToMin, stickToMax = navigator.stickToMax, overscroll = pick(baseXAxis.ordinal?.convertOverscroll(baseXAxis.options.overscroll), 0), navigatorSeries = navigator.series && navigator.series[0], hasSetExtremes = !!baseXAxis.setExtremes,
// When the extremes have been set by range selector button, don't
// stick to min or max. The range selector buttons will handle the
// extremes. (#5489)
unmutable = baseXAxis.eventArgs &&
baseXAxis.eventArgs.trigger === 'rangeSelectorButton';
let newMax, newMin;
if (!unmutable) {
// If the zoomed range is already at the min, move it to the right
// as new data comes in
if (stickToMin) {
newMin = baseDataMin;
newMax = newMin + range;
}
// If the zoomed range is already at the max, move it to the right
// as new data comes in
if (stickToMax) {
newMax = baseDataMax + overscroll;
// If stickToMin is true, the new min value is set above
if (!stickToMin) {
newMin = Math.max(baseDataMin, // Don't go below data extremes (#13184)
newMax - range, navigator.getBaseSeriesMin(navigatorSeries && navigatorSeries.xData ?
navigatorSeries.xData[0] :
-Number.MAX_VALUE));
}
}
// Update the extremes
if (hasSetExtremes && (stickToMin || stickToMax)) {
if (isNumber(newMin)) {
baseXAxis.min = baseXAxis.userMin = newMin;
baseXAxis.max = baseXAxis.userMax = newMax;
}
}
}
// Reset
navigator.stickToMin =
navigator.stickToMax = null;
}
/**
* Handler for updated data on the base series. When data is modified, the
* navigator series must reflect it. This is called from the Chart.redraw
* function before axis and series extremes are computed.
*
* @private
* @function Highcharts.Navigator#updateDataHandler
*/
updatedDataHandler() {
const navigator = this.chart.navigator, baseSeries = this, navigatorSeries = this.navigatorSeries, shouldStickToMax = navigator.reversedExtremes ?
Math.round(navigator.zoomedMin) === 0 :
Math.round(navigator.zoomedMax) >= Math.round(navigator.size);
// If the scrollbar is scrolled all the way to the right, keep right as
// new data comes in, unless user set navigator.stickToMax to false.
navigator.stickToMax = pick(this.chart.options.navigator &&
this.chart.options.navigator.stickToMax, shouldStickToMax);
navigator.stickToMin = navigator.shouldStickToMin(baseSeries, navigator);
// Set the navigator series data to the new data of the base series
if (navigatorSeries && !navigator.hasNavigatorData) {
navigatorSeries.options.pointStart = baseSeries.xData[0];
navigatorSeries.setData(baseSeries.options.data, false, null, false); // #5414
}
}
/**
* Detect if the zoomed area should stick to the minimum, #14742.
*
* @private
* @function Highcharts.Navigator#shouldStickToMin
*/
shouldStickToMin(baseSeries, navigator) {
const xDataMin = navigator.getBaseSeriesMin(baseSeries.xData[0]), xAxis = baseSeries.xAxis, max = xAxis.max, min = xAxis.min, range = xAxis.options.range;
let stickToMin = true;
if (isNumber(max) && isNumber(min)) {
// If range declared, stick to the minimum only if the range
// is smaller than the data set range.
if (range && max - xDataMin > 0) {
stickToMin = max - xDataMin < range;
}
else {
// If the current axis minimum falls outside the new
// updated dataset, we must adjust.
stickToMin = min <= xDataMin;
}
}
else {
stickToMin = false; // #15864
}
return stickToMin;
}
/**
* Add chart events, like redrawing navigator, when chart requires that.
*
* @private
* @function Highcharts.Navigator#addChartEvents
*/
addChartEvents() {
if (!this.eventsToUnbind) {
this.eventsToUnbind = [];
}
this.eventsToUnbind.push(
// Move the scrollbar after redraw, like after data updata even if
// axes don't redraw
addEvent(this.chart, 'redraw', function () {
const navigator = this.navigator, xAxis = navigator && (navigator.baseSeries &&
navigator.baseSeries[0] &&
navigator.baseSeries[0].xAxis ||
this.xAxis[0]); // #5709, #13114
if (xAxis) {
navigator.render(xAxis.min, xAxis.max);
}
}),
// Make room for the navigator, can be placed around the chart:
addEvent(this.chart, 'getMargins', function () {
const chart = this, navigator = chart.navigator;
let marginName = navigator.opposite ?
'plotTop' : 'marginBottom';
if (chart.inverted) {
marginName = navigator.opposite ?
'marginRight' : 'plotLeft';
}
chart[marginName] =
(chart[marginName] || 0) + (navigator.navigatorEnabled || !chart.inverted ?
navigator.height + navigator.scrollbarHeight :
0) + navigator.navigatorOptions.margin;
}), addEvent(Navigator, 'setRange', function (e) {
this.chart.xAxis[0].setExtremes(e.min, e.max, e.redraw, e.animation, e.eventArguments);
}));
}
/**
* Destroys allocated elements.
*
* @private
* @function Highcharts.Navigator#destroy
*/
destroy() {
// Disconnect events added in addEvents
this.removeEvents();
if (this.xAxis) {
erase(this.chart.xAxis, this.xAxis);
erase(this.chart.axes, this.xAxis);
}
if (this.yAxis) {
erase(this.chart.yAxis, this.yAxis);
erase(this.chart.axes, this.yAxis);
}
// Destroy series
(this.series || []).forEach((s) => {
if (s.destroy) {
s.destroy();
}
});
// Destroy properties
[
'series', 'xAxis', 'yAxis', 'shades', 'outline', 'scrollbarTrack',
'scrollbarRifles', 'scrollbarGroup', 'scrollbar', 'navigatorGroup',
'rendered'
].forEach((prop) => {
if (this[prop] && this[prop].destroy) {
this[prop].destroy();
}
this[prop] = null;
});
// Destroy elements in collection
[this.handles].forEach((coll) => {
destroyObjectProperties(coll);
});
}
}
/* *
*
* Default Export
*
* */
return Navigator;
});
_registerModule(_modules, 'Core/Axis/OrdinalAxis.js', [_modules['Core/Axis/Axis.js'], _modules['Core/Globals.js'], _modules['Core/Series/Series.js'], _modules['Core/Utilities.js']], function (Axis, H, Series, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { addEvent, correctFloat, css, defined, error, isNumber, pick, timeUnits, isString } = U;
/* *
*
* Composition
*
* */
/**
* Extends the axis with ordinal support.
* @private
*/
var OrdinalAxis;
(function (OrdinalAxis) {
/* *
*
* Declarations
*
* */
/* *
*
* Functions
*
* */
/**
* Extends the axis with ordinal support.
*
* @private
*
* @param AxisClass
* Axis class to extend.
*
* @param ChartClass
* Chart class to use.
*
* @param SeriesClass
* Series class to use.
*/
function compose(AxisClass, SeriesClass, ChartClass) {
const axisProto = AxisClass.prototype;
if (!axisProto.ordinal2lin) {
axisProto.getTimeTicks = getTimeTicks;
axisProto.index2val = index2val;
axisProto.lin2val = lin2val;
axisProto.val2lin = val2lin;
// Record this to prevent overwriting by broken-axis module (#5979)
axisProto.ordinal2lin = axisProto.val2lin;
addEvent(AxisClass, 'afterInit', onAxisAfterInit);
addEvent(AxisClass, 'foundExtremes', onAxisFoundExtremes);
addEvent(AxisClass, 'afterSetScale', onAxisAfterSetScale);
addEvent(AxisClass, 'initialAxisTranslation', onAxisInitialAxisTranslation);
addEvent(ChartClass, 'pan', onChartPan);
addEvent(SeriesClass, 'updatedData', onSeriesUpdatedData);
}
return AxisClass;
}
OrdinalAxis.compose = compose;
/**
* In an ordinal axis, there might be areas with dense concentrations of
* points, then large gaps between some. Creating equally distributed
* ticks over this entire range may lead to a huge number of ticks that
* will later be removed. So instead, break the positions up in
* segments, find the tick positions for each segment then concatenize
* them. This method is used from both data grouping logic and X axis
* tick position logic.
* @private
*/
function getTimeTicks(normalizedInterval, min, max, startOfWeek, positions = [], closestDistance = 0, findHigherRanks) {
const higherRanks = {}, tickPixelIntervalOption = this.options.tickPixelInterval, time = this.chart.time,
// Record all the start positions of a segment, to use when
// deciding what's a gap in the data.
segmentStarts = [];
let end, segmentPositions, hasCrossedHigherRank, info, outsideMax, start = 0, groupPositions = [], lastGroupPosition = -Number.MAX_VALUE;
// The positions are not always defined, for example for ordinal
// positions when data has regular interval (#1557, #2090)
if ((!this.options.ordinal && !this.options.breaks) ||
!positions ||
positions.length < 3 ||
typeof min === 'undefined') {
return time.getTimeTicks.apply(time, arguments);
}
// Analyze the positions array to split it into segments on gaps
// larger than 5 times the closest distance. The closest distance is
// already found at this point, so we reuse that instead of
// computing it again.
const posLength = positions.length;
for (end = 0; end < posLength; end++) {
outsideMax = end && positions[end - 1] > max;
if (positions[end] < min) { // Set the last position before min
start = end;
}
if (end === posLength - 1 ||
positions[end + 1] - positions[end] > closestDistance * 5 ||
outsideMax) {
// For each segment, calculate the tick positions from the
// getTimeTicks utility function. The interval will be the
// same regardless of how long the segment is.
if (positions[end] > lastGroupPosition) { // #1475
segmentPositions = time.getTimeTicks(normalizedInterval, positions[start], positions[end], startOfWeek);
// Prevent duplicate groups, for example for multiple
// segments within one larger time frame (#1475)
while (segmentPositions.length &&
segmentPositions[0] <= lastGroupPosition) {
segmentPositions.shift();
}
if (segmentPositions.length) {
lastGroupPosition =
segmentPositions[segmentPositions.length - 1];
}
segmentStarts.push(groupPositions.length);
groupPositions = groupPositions.concat(segmentPositions);
}
// Set start of next segment
start = end + 1;
}
if (outsideMax) {
break;
}
}
// Get the grouping info from the last of the segments. The info is
// the same for all segments.
if (segmentPositions) {
info = segmentPositions.info;
// Optionally identify ticks with higher rank, for example
// when the ticks have crossed midnight.
if (findHigherRanks && info.unitRange <= timeUnits.hour) {
end = groupPositions.length - 1;
// Compare points two by two
for (start = 1; start < end; start++) {
if (time.dateFormat('%d', groupPositions[start]) !==
time.dateFormat('%d', groupPositions[start - 1])) {
higherRanks[groupPositions[start]] = 'day';
hasCrossedHigherRank = true;
}
}
// If the complete array has crossed midnight, we want
// to mark the first positions also as higher rank
if (hasCrossedHigherRank) {
higherRanks[groupPositions[0]] = 'day';
}
info.higherRanks = higherRanks;
}
// Save the info
info.segmentStarts = segmentStarts;
groupPositions.info = info;
}
else {
error(12, false, this.chart);
}
// Don't show ticks within a gap in the ordinal axis, where the
// space between two points is greater than a portion of the tick
// pixel interval
if (findHigherRanks && defined(tickPixelIntervalOption)) {
const length = groupPositions.length, translatedArr = [], distances = [];
let itemToRemove, translated, lastTranslated, medianDistance, distance, i = length;
// Find median pixel distance in order to keep a reasonably even
// distance between ticks (#748)
while (i--) {
translated = this.translate(groupPositions[i]);
if (lastTranslated) {
distances[i] = lastTranslated - translated;
}
translatedArr[i] = lastTranslated = translated;
}
distances.sort();
medianDistance = distances[Math.floor(distances.length / 2)];
if (medianDistance < tickPixelIntervalOption * 0.6) {
medianDistance = null;
}
// Now loop over again and remove ticks where needed
i = groupPositions[length - 1] > max ? length - 1 : length; // #817
lastTranslated = void 0;
while (i--) {
translated = translatedArr[i];
distance = Math.abs(lastTranslated - translated);
// #4175 - when axis is reversed, the distance, is negative but
// tickPixelIntervalOption positive, so we need to compare the
// same values
// Remove ticks that are closer than 0.6 times the pixel
// interval from the one to the right, but not if it is close to
// the median distance (#748).
if (lastTranslated &&
distance < tickPixelIntervalOption * 0.8 &&
(medianDistance === null || distance < medianDistance * 0.8)) {
// Is this a higher ranked position with a normal
// position to the right?
if (higherRanks[groupPositions[i]] &&
!higherRanks[groupPositions[i + 1]]) {
// Yes: remove the lower ranked neighbour to the
// right
itemToRemove = i + 1;
lastTranslated = translated; // #709
}
else {
// No: remove this one
itemToRemove = i;
}
groupPositions.splice(itemToRemove, 1);
}
else {
lastTranslated = translated;
}
}
}
return groupPositions;
}
/**
* Get axis position of given index of the extended ordinal positions.
* Used only when panning an ordinal axis.
*
* @private
* @function Highcharts.Axis#index2val
* @param {number} index
* The index value of searched point
*/
function index2val(index) {
const axis = this, ordinal = axis.ordinal,
// Context could be changed to extendedOrdinalPositions.
ordinalPositions = ordinal.positions;
// The visible range contains only equally spaced values.
if (!ordinalPositions) {
return index;
}
let i = ordinalPositions.length - 1, distance;
if (index < 0) { // Out of range, in effect panning to the left
index = ordinalPositions[0];
}
else if (index > i) { // Out of range, panning to the right
index = ordinalPositions[i];
}
else { // Split it up
i = Math.floor(index);
distance = index - i; // The decimal
}
if (typeof distance !== 'undefined' &&
typeof ordinalPositions[i] !== 'undefined') {
return ordinalPositions[i] + (distance ?
distance *
(ordinalPositions[i + 1] - ordinalPositions[i]) :
0);
}
return index;
}
/**
* Translate from linear (internal) to axis value.
*
* @private
* @function Highcharts.Axis#lin2val
* @param {number} val
* The linear abstracted value.
*/
function lin2val(val) {
const axis = this, ordinal = axis.ordinal, localMin = axis.old ? axis.old.min : axis.min, localA = axis.old ? axis.old.transA : axis.transA;
// Always use extendedPositions (#19816)
const positions = ordinal.getExtendedPositions();
// In some cases (especially in early stages of the chart creation) the
// getExtendedPositions might return undefined.
if (positions && positions.length) {
// Convert back from modivied value to pixels. // #15970
const pixelVal = correctFloat((val - localMin) * localA +
axis.minPixelPadding), index = correctFloat(ordinal.getIndexOfPoint(pixelVal, positions)), mantissa = correctFloat(index % 1);
// Check if the index is inside position array. If true,
// read/approximate value for that exact index.
if (index >= 0 && index <= positions.length - 1) {
const leftNeighbour = positions[Math.floor(index)], rightNeighbour = positions[Math.ceil(index)], distance = rightNeighbour - leftNeighbour;
return positions[Math.floor(index)] + mantissa * distance;
}
}
// If the value is outside positions array, return initial value
return val; // #16784
}
/**
* Internal function to calculate the precise index in ordinalPositions
* array.
* @private
*/
function getIndexInArray(ordinalPositions, val) {
const index = OrdinalAxis.Additions.findIndexOf(ordinalPositions, val, true);
if (ordinalPositions[index] === val) {
return index;
}
const percent = (val - ordinalPositions[index]) /
(ordinalPositions[index + 1] - ordinalPositions[index]);
return index + percent;
}
/**
* @private
*/
function onAxisAfterInit() {
const axis = this;
if (!axis.ordinal) {
axis.ordinal = new OrdinalAxis.Additions(axis);
}
}
/**
* @private
*/
function onAxisFoundExtremes() {
const axis = this, { eventArgs, options } = axis;
if (axis.isXAxis &&
defined(options.overscroll) &&
options.overscroll !== 0 &&
isNumber(axis.max) &&
isNumber(axis.min)) {
if (axis.options.ordinal && !axis.ordinal.originalOrdinalRange) {
// Calculate the original ordinal range
axis.ordinal.getExtendedPositions(false);
}
if (axis.max === axis.dataMax &&
(
// Panning is an exception. We don't want to apply
// overscroll when panning over the dataMax
eventArgs?.trigger !== 'pan' ||
axis.isInternal) &&
// Scrollbar buttons are the other execption
eventArgs?.trigger !== 'navigator') {
const overscroll = axis.ordinal.convertOverscroll(options.overscroll);
axis.max += overscroll;
// Live data and buttons require translation for the min:
if (!axis.isInternal &&
defined(axis.userMin) &&
eventArgs?.trigger !== 'mousewheel') {
axis.min += overscroll;
}
}
}
}
/**
* For ordinal axis, that loads data async, redraw axis after data is
* loaded. If we don't do that, axis will have the same extremes as
* previously, but ordinal positions won't be calculated. See #10290
* @private
*/
function onAxisAfterSetScale() {
const axis = this;
if (axis.horiz && !axis.isDirty) {
axis.isDirty = axis.isOrdinal &&
axis.chart.navigator &&
!axis.chart.navigator.adaptToUpdatedData;
}
}
/**
* @private
*/
function onAxisInitialAxisTranslation() {
const axis = this;
if (axis.ordinal) {
axis.ordinal.beforeSetTickPositions();
axis.tickInterval = axis.ordinal.postProcessTickInterval(axis.tickInterval);
}
}
/**
* Extending the Chart.pan method for ordinal axes
* @private
*/
function onChartPan(e) {
const chart = this, xAxis = chart.xAxis[0], overscroll = xAxis.ordinal.convertOverscroll(xAxis.options.overscroll), chartX = e.originalEvent.chartX, panning = chart.options.chart.panning;
let runBase = false;
if (panning &&
panning.type !== 'y' &&
xAxis.options.ordinal &&
xAxis.series.length) {
const mouseDownX = chart.mouseDownX, extremes = xAxis.getExtremes(), dataMin = extremes.dataMin, dataMax = extremes.dataMax, min = extremes.min, max = extremes.max, hoverPoints = chart.hoverPoints, closestPointRange = (xAxis.closestPointRange ||
(xAxis.ordinal && xAxis.ordinal.overscrollPointsRange)), pointPixelWidth = (xAxis.translationSlope *
(xAxis.ordinal.slope || closestPointRange)),
// How many ordinal units did we move?
movedUnits = Math.round((mouseDownX - chartX) / pointPixelWidth),
// Get index of all the chart's points
extendedOrdinalPositions = xAxis.ordinal.getExtendedPositions(), extendedAxis = {
ordinal: {
positions: extendedOrdinalPositions,
extendedOrdinalPositions: extendedOrdinalPositions
}
}, index2val = xAxis.index2val, val2lin = xAxis.val2lin;
let trimmedRange, ordinalPositions;
// Make sure panning to the edges does not decrease the zoomed range
if ((min <= dataMin && movedUnits < 0) ||
(max + overscroll >= dataMax && movedUnits > 0)) {
return;
}
// We have an ordinal axis, but the data is equally spaced
if (!extendedAxis.ordinal.positions) {
runBase = true;
}
else if (Math.abs(movedUnits) > 1) {
// Remove active points for shared tooltip
if (hoverPoints) {
hoverPoints.forEach(function (point) {
point.setState();
});
}
// In grouped data series, the last ordinal position represents
// the grouped data, which is to the left of the real data max.
// If we don't compensate for this, we will be allowed to pan
// grouped data series passed the right of the plot area.
ordinalPositions = extendedAxis.ordinal.positions;
if (dataMax >
ordinalPositions[ordinalPositions.length - 1]) {
ordinalPositions.push(dataMax);
}
// Get the new min and max values by getting the ordinal index
// for the current extreme, then add the moved units and
// translate back to values. This happens on the extended
// ordinal positions if the new position is out of range, else
// it happens on the current x axis which is smaller and faster.
chart.setFixedRange(max - min);
trimmedRange = xAxis.navigatorAxis
.toFixedRange(void 0, void 0, index2val.apply(extendedAxis, [
val2lin.apply(extendedAxis, [min, true]) +
movedUnits
]), index2val.apply(extendedAxis, [
val2lin.apply(extendedAxis, [max, true]) +
movedUnits
]));
// Apply it if it is within the available data range
if (trimmedRange.min >= Math.min(extremes.dataMin, min) &&
trimmedRange.max <= Math.max(dataMax, max) + overscroll) {
xAxis.setExtremes(trimmedRange.min, trimmedRange.max, true, false, { trigger: 'pan' });
}
chart.mouseDownX = chartX; // Set new reference for next run
css(chart.container, { cursor: 'move' });
}
}
else {
runBase = true;
}
// Revert to the linear chart.pan version
if (runBase || (panning && /y/.test(panning.type))) {
if (overscroll) {
xAxis.max = xAxis.dataMax + overscroll;
}
}
else {
e.preventDefault();
}
}
/**
* @private
*/
function onSeriesUpdatedData() {
const xAxis = this.xAxis;
// Destroy the extended ordinal index on updated data
// and destroy extendedOrdinalPositions, #16055.
if (xAxis && xAxis.options.ordinal) {
delete xAxis.ordinal.index;
delete xAxis.ordinal.originalOrdinalRange;
}
}
/**
* Translate from a linear axis value to the corresponding ordinal axis
* position. If there are no gaps in the ordinal axis this will be the
* same. The translated value is the value that the point would have if
* the axis was linear, using the same min and max.
*
* @private
* @function Highcharts.Axis#val2lin
* @param {number} val
* The axis value.
* @param {boolean} [toIndex]
* Whether to return the index in the ordinalPositions or the new value.
*/
function val2lin(val, toIndex) {
const axis = this, ordinal = axis.ordinal, ordinalPositions = ordinal.positions;
let slope = ordinal.slope, extendedOrdinalPositions;
if (!ordinalPositions) {
return val;
}
const ordinalLength = ordinalPositions.length;
let ordinalIndex;
// If the searched value is inside visible plotArea, ivastigate the
// value basing on ordinalPositions.
if (ordinalPositions[0] <= val &&
ordinalPositions[ordinalLength - 1] >= val) {
ordinalIndex = getIndexInArray(ordinalPositions, val);
// Final return value is based on ordinalIndex
}
else {
extendedOrdinalPositions =
ordinal.getExtendedPositions &&
ordinal.getExtendedPositions();
if (!(extendedOrdinalPositions && extendedOrdinalPositions.length)) {
return val;
}
const length = extendedOrdinalPositions.length;
if (!slope) {
slope =
(extendedOrdinalPositions[length - 1] -
extendedOrdinalPositions[0]) /
length;
}
// `originalPointReference` is equal to the index of first point of
// ordinalPositions in extendedOrdinalPositions.
const originalPositionsReference = getIndexInArray(extendedOrdinalPositions, ordinalPositions[0]);
// If the searched value is outside the visiblePlotArea,
// check if it is inside extendedOrdinalPositions.
if (val >= extendedOrdinalPositions[0] &&
val <=
extendedOrdinalPositions[length - 1]) {
// Return Value
ordinalIndex = getIndexInArray(extendedOrdinalPositions, val) -
originalPositionsReference;
}
else {
if (!toIndex) {
// If the value is outside positions array,
// return initial value, #16784
return val;
}
// Since ordinal.slope is the average distance between 2
// points on visible plotArea, this can be used to calculate
// the approximate position of the point, which is outside
// the extendedOrdinalPositions.
if (val < extendedOrdinalPositions[0]) {
const diff = extendedOrdinalPositions[0] - val, approximateIndexOffset = diff / slope;
ordinalIndex =
-originalPositionsReference -
approximateIndexOffset;
}
else {
const diff = val -
extendedOrdinalPositions[length - 1], approximateIndexOffset = diff / slope;
ordinalIndex =
approximateIndexOffset +
length -
originalPositionsReference;
}
}
}
return toIndex ? ordinalIndex : slope * (ordinalIndex || 0) +
ordinal.offset;
}
/* *
*
* Classes
*
* */
/**
* @private
*/
class Additions {
/* *
*
* Constructors
*
* */
/**
* @private
*/
constructor(axis) {
this.index = {};
this.axis = axis;
}
/* *
*
* Functions
*
* */
/**
* Calculate the ordinal positions before tick positions are calculated.
* @private
*/
beforeSetTickPositions() {
const axis = this.axis, ordinal = axis.ordinal, extremes = axis.getExtremes(), min = extremes.min, max = extremes.max, hasBreaks = axis.brokenAxis?.hasBreaks, isOrdinal = axis.options.ordinal;
let len, uniqueOrdinalPositions, dist, minIndex, maxIndex, slope, i, ordinalPositions = [], overscrollPointsRange = Number.MAX_VALUE, useOrdinal = false, adjustOrdinalExtremesPoints = false, isBoosted = false;
// Apply the ordinal logic
if (isOrdinal || hasBreaks) { // #4167 YAxis is never ordinal ?
let distanceBetweenPoint = 0;
axis.series.forEach(function (series, i) {
uniqueOrdinalPositions = [];
// For an axis with multiple series, check if the distance
// between points is identical throughout all series.
if (i > 0 &&
series.options.id !== 'highcharts-navigator-series' &&
series.processedXData.length > 1) {
adjustOrdinalExtremesPoints =
distanceBetweenPoint !== series.processedXData[1] -
series.processedXData[0];
}
distanceBetweenPoint =
series.processedXData[1] - series.processedXData[0];
if (series.boosted) {
isBoosted = series.boosted;
}
if (series.reserveSpace() &&
(series
.takeOrdinalPosition !== false || hasBreaks)) {
// Concatenate the processed X data into the existing
// positions, or the empty array
ordinalPositions = ordinalPositions.concat(series.processedXData);
len = ordinalPositions.length;
// Remove duplicates (#1588)
ordinalPositions.sort(function (a, b) {
// Without a custom function it is sorted as strings
return a - b;
});
overscrollPointsRange = Math.min(overscrollPointsRange, pick(
// Check for a single-point series:
series.closestPointRange, overscrollPointsRange));
if (len) {
i = 0;
while (i < len - 1) {
if (ordinalPositions[i] !==
ordinalPositions[i + 1]) {
uniqueOrdinalPositions.push(ordinalPositions[i + 1]);
}
i++;
}
// Check first item:
if (uniqueOrdinalPositions[0] !==
ordinalPositions[0]) {
uniqueOrdinalPositions.unshift(ordinalPositions[0]);
}
ordinalPositions = uniqueOrdinalPositions;
}
}
});
if (!axis.ordinal.originalOrdinalRange) {
// Calculate current originalOrdinalRange
axis.ordinal.originalOrdinalRange =
(ordinalPositions.length - 1) * overscrollPointsRange;
}
// If the distance between points is not identical throughout
// all series, remove the first and last ordinal position to
// avoid enabling ordinal logic when it is not needed, #17405.
// Only for boosted series because changes are negligible.
if (adjustOrdinalExtremesPoints && isBoosted) {
ordinalPositions.pop();
ordinalPositions.shift();
}
// Cache the length
len = ordinalPositions.length;
// Check if we really need the overhead of mapping axis data
// against the ordinal positions. If the series consist of
// evenly spaced data any way, we don't need any ordinal logic.
if (len > 2) { // Two points have equal distance by default
dist = ordinalPositions[1] - ordinalPositions[0];
i = len - 1;
while (i-- && !useOrdinal) {
if (ordinalPositions[i + 1] - ordinalPositions[i] !==
dist) {
useOrdinal = true;
}
}
// When zooming in on a week, prevent axis padding for
// weekends even though the data within the week is evenly
// spaced.
if (!axis.options.keepOrdinalPadding &&
(ordinalPositions[0] - min > dist ||
(max -
ordinalPositions[ordinalPositions.length - 1]) > dist)) {
useOrdinal = true;
}
}
else if (axis.options.overscroll) {
if (len === 2) {
// Exactly two points, distance for overscroll is fixed:
overscrollPointsRange =
ordinalPositions[1] - ordinalPositions[0];
}
else if (len === 1) {
// We have just one point, closest distance is unknown.
// Assume then it is last point and overscrolled range:
overscrollPointsRange = axis.ordinal.convertOverscroll(axis.options.overscroll);
ordinalPositions = [
ordinalPositions[0],
ordinalPositions[0] + overscrollPointsRange
];
}
else {
// In case of zooming in on overscrolled range, stick to
// the old range:
overscrollPointsRange = ordinal.overscrollPointsRange;
}
}
// Record the slope and offset to compute the linear values from
// the array index. Since the ordinal positions may exceed the
// current range, get the start and end positions within it
// (#719, #665b)
if (useOrdinal || axis.forceOrdinal) {
if (axis.options.overscroll) {
ordinal.overscrollPointsRange = overscrollPointsRange;
ordinalPositions = ordinalPositions.concat(ordinal.getOverscrollPositions());
}
// Register
ordinal.positions = ordinalPositions;
// This relies on the ordinalPositions being set. Use
// Math.max and Math.min to prevent padding on either sides
// of the data.
minIndex = axis.ordinal2lin(// #5979
Math.max(min, ordinalPositions[0]), true);
maxIndex = Math.max(axis.ordinal2lin(Math.min(max, ordinalPositions[ordinalPositions.length - 1]), true), 1); // #3339
// Set the slope and offset of the values compared to the
// indices in the ordinal positions.
ordinal.slope = slope =
(max - min) / (maxIndex - minIndex);
ordinal.offset = min - (minIndex * slope);
}
else {
ordinal.overscrollPointsRange = pick(axis.closestPointRange, ordinal.overscrollPointsRange);
ordinal.positions = axis.ordinal.slope = ordinal.offset =
void 0;
}
}
axis.isOrdinal = isOrdinal && useOrdinal; // #3818, #4196, #4926
ordinal.groupIntervalFactor = null; // Reset for next run
}
/**
* Faster way of using the Array.indexOf method.
* Works for sorted arrays only with unique values.
*
* @param {Array} sortedArray
* The sorted array inside which we are looking for.
* @param {number} key
* The key to being found.
* @param {boolean} indirectSearch
* In case of lack of the point in the array, should return
* value be equal to -1 or the closest smaller index.
* @private
*/
static findIndexOf(sortedArray, key, indirectSearch) {
let start = 0, end = sortedArray.length - 1, middle;
while (start < end) {
middle = Math.ceil((start + end) / 2);
// Key found as the middle element.
if (sortedArray[middle] <= key) {
// Continue searching to the right.
start = middle;
}
else {
// Continue searching to the left.
end = middle - 1;
}
}
if (sortedArray[start] === key) {
return start;
}
// Key could not be found.
return !indirectSearch ? -1 : start;
}
/**
* Get the ordinal positions for the entire data set. This is necessary
* in chart panning because we need to find out what points or data
* groups are available outside the visible range. When a panning
* operation starts, if an index for the given grouping does not exists,
* it is created and cached. This index is deleted on updated data, so
* it will be regenerated the next time a panning operation starts.
* @private
*/
getExtendedPositions(withOverscroll = true) {
const ordinal = this, axis = ordinal.axis, axisProto = axis.constructor.prototype, chart = axis.chart, grouping = axis.series[0]?.currentDataGrouping, key = grouping ?
grouping.count + grouping.unitName :
'raw', overscroll = withOverscroll ?
axis.ordinal.convertOverscroll(axis.options.overscroll) : 0, extremes = axis.getExtremes();
let fakeAxis, fakeSeries = void 0, ordinalIndex = ordinal.index;
// If this is the first time, or the ordinal index is deleted by
// updatedData,
// create it.
if (!ordinalIndex) {
ordinalIndex = ordinal.index = {};
}
if (!ordinalIndex[key]) {
// Create a fake axis object where the extended ordinal
// positions are emulated
fakeAxis = {
series: [],
chart: chart,
forceOrdinal: false,
getExtremes: function () {
return {
min: extremes.dataMin,
max: extremes.dataMax + overscroll
};
},
applyGrouping: axisProto.applyGrouping,
getGroupPixelWidth: axisProto.getGroupPixelWidth,
getTimeTicks: axisProto.getTimeTicks,
options: {
ordinal: true
},
ordinal: {
getGroupIntervalFactor: this.getGroupIntervalFactor
},
ordinal2lin: axisProto.ordinal2lin,
getIndexOfPoint: axisProto.getIndexOfPoint,
val2lin: axisProto.val2lin // #2590
};
fakeAxis.ordinal.axis = fakeAxis;
// Add the fake series to hold the full data, then apply
// processData to it
axis.series.forEach(function (series) {
fakeSeries = {
xAxis: fakeAxis,
xData: series.xData.slice(),
chart: chart,
groupPixelWidth: series.groupPixelWidth,
destroyGroupedData: H.noop,
getProcessedData: Series.prototype.getProcessedData,
applyGrouping: Series.prototype.applyGrouping,
reserveSpace: Series.prototype.reserveSpace,
visible: series.visible
};
if (withOverscroll) {
fakeSeries.xData = fakeSeries.xData.concat(ordinal.getOverscrollPositions());
}
fakeSeries.options = {
dataGrouping: grouping ? {
firstAnchor: series.options.dataGrouping?.firstAnchor,
anchor: series.options.dataGrouping?.anchor,
lastAnchor: series.options.dataGrouping?.firstAnchor,
enabled: true,
forced: true,
// Doesn't matter which, use the fastest
approximation: 'open',
units: [[
grouping.unitName,
[grouping.count]
]]
} : {
enabled: false
}
};
fakeAxis.series.push(fakeSeries);
series.processData.apply(fakeSeries);
});
fakeAxis.applyGrouping({ hasExtremesChanged: true });
// Force to use the ordinal when points are evenly spaced (e.g.
// weeks), #3825.
if ((fakeSeries?.closestPointRange !==
fakeSeries?.basePointRange) &&
fakeSeries.currentDataGrouping) {
fakeAxis.forceOrdinal = true;
}
// Run beforeSetTickPositions to compute the ordinalPositions
axis.ordinal.beforeSetTickPositions.apply({ axis: fakeAxis });
if (!axis.ordinal.originalOrdinalRange &&
fakeAxis.ordinal.originalOrdinalRange) {
axis.ordinal.originalOrdinalRange =
fakeAxis.ordinal.originalOrdinalRange;
}
// Cache it
ordinalIndex[key] = fakeAxis.ordinal.positions;
}
return ordinalIndex[key];
}
/**
* Find the factor to estimate how wide the plot area would have been if
* ordinal gaps were included. This value is used to compute an imagined
* plot width in order to establish the data grouping interval.
*
* A real world case is the intraday-candlestick example. Without this
* logic, it would show the correct data grouping when viewing a range
* within each day, but once moving the range to include the gap between
* two days, the interval would include the cut-away night hours and the
* data grouping would be wrong. So the below method tries to compensate
* by identifying the most common point interval, in this case days.
*
* An opposite case is presented in issue #718. We have a long array of
* daily data, then one point is appended one hour after the last point.
* We expect the data grouping not to change.
*
* In the future, if we find cases where this estimation doesn't work
* optimally, we might need to add a second pass to the data grouping
* logic, where we do another run with a greater interval if the number
* of data groups is more than a certain fraction of the desired group
* count.
* @private
*/
getGroupIntervalFactor(xMin, xMax, series) {
const ordinal = this, processedXData = series.processedXData, len = processedXData.length, distances = [];
let median, i, groupIntervalFactor = ordinal.groupIntervalFactor;
// Only do this computation for the first series, let the other
// inherit it (#2416)
if (!groupIntervalFactor) {
// Register all the distances in an array
for (i = 0; i < len - 1; i++) {
distances[i] = (processedXData[i + 1] -
processedXData[i]);
}
// Sort them and find the median
distances.sort(function (a, b) {
return a - b;
});
median = distances[Math.floor(len / 2)];
// Compensate for series that don't extend through the entire
// axis extent. #1675.
xMin = Math.max(xMin, processedXData[0]);
xMax = Math.min(xMax, processedXData[len - 1]);
ordinal.groupIntervalFactor = groupIntervalFactor =
(len * median) / (xMax - xMin);
}
// Return the factor needed for data grouping
return groupIntervalFactor;
}
/**
* Get index of point inside the ordinal positions array.
*
* @private
* @param {number} val
* The pixel value of a point.
*
* @param {Array<number>} [ordinalArray]
* An array of all points available on the axis for the given data set.
* Either ordinalPositions if the value is inside the plotArea or
* extendedOrdinalPositions if not.
*/
getIndexOfPoint(val, ordinalArray) {
const ordinal = this, axis = ordinal.axis;
let firstPointVal = 0;
// Check whether the series has at least one point inside the chart
const hasPointsInside = function (series) {
const { min, max } = axis;
if (defined(min) && defined(max)) {
return series.points.some((point) => point.x >= min && point.x <= max);
}
return false;
};
let firstPointX;
// When more series assign to axis, find the smallest one, #15987.
axis.series.forEach((series) => {
const firstPoint = series.points?.[0];
if (defined(firstPoint?.plotX) &&
(firstPoint.plotX < firstPointX ||
!defined(firstPointX)) &&
hasPointsInside(series)) {
firstPointX = firstPoint.plotX;
firstPointVal = firstPoint.x;
}
});
// If undefined, give a default value
firstPointX ?? (firstPointX = axis.minPixelPadding);
// Distance in pixels between two points on the ordinal axis in the
// current zoom.
const ordinalPointPixelInterval = axis.translationSlope * (ordinal.slope ||
axis.closestPointRange ||
ordinal.overscrollPointsRange),
// `toValue` for the first point.
shiftIndex = correctFloat((val - firstPointX) / ordinalPointPixelInterval);
return Additions.findIndexOf(ordinalArray, firstPointVal, true) + shiftIndex;
}
/**
* Get ticks for an ordinal axis within a range where points don't
* exist. It is required when overscroll is enabled. We can't base on
* points, because we may not have any, so we use approximated
* pointRange and generate these ticks between Axis.dataMax,
* Axis.dataMax + Axis.overscroll evenly spaced. Used in panning and
* navigator scrolling.
* @private
*/
getOverscrollPositions() {
const ordinal = this, axis = ordinal.axis, extraRange = ordinal.convertOverscroll(axis.options.overscroll), distance = ordinal.overscrollPointsRange, positions = [];
let max = axis.dataMax;
if (defined(distance)) {
// Max + pointRange because we need to scroll to the last
while (max <= axis.dataMax + extraRange) {
max += distance;
positions.push(max);
}
}
return positions;
}
/**
* Make the tick intervals closer because the ordinal gaps make the
* ticks spread out or cluster.
* @private
*/
postProcessTickInterval(tickInterval) {
// Problem: https://jsfiddle.net/highcharts/FQm4E/1/. This is a case
// where this algorithm doesn't work optimally. In this case, the
// tick labels are spread out per week, but all the gaps reside
// within weeks. So we have a situation where the labels are courser
// than the ordinal gaps, and thus the tick interval should not be
// altered.
const ordinal = this, axis = ordinal.axis, ordinalSlope = ordinal.slope;
let ret;
if (ordinalSlope) {
if (!axis.options.breaks) {
ret = (tickInterval /
(ordinalSlope / axis.closestPointRange));
}
else {
ret = axis.closestPointRange || tickInterval; // #7275
}
}
else {
ret = tickInterval;
}
return ret;
}
/**
* If overscroll is pixel or pecentage value, convert it to axis range.
*
* @private
* @param {number | string} overscroll
* Overscroll value in axis range, pixels or percentage value.
* @return {number}
* Overscroll value in axis range.
*/
convertOverscroll(overscroll = 0) {
const ordinal = this, axis = ordinal.axis, calculateOverscroll = function (overscrollPercentage) {
return pick(ordinal.originalOrdinalRange, defined(axis.dataMax) && defined(axis.dataMin) ?
axis.dataMax - axis.dataMin : 0) * overscrollPercentage;
};
if (isString(overscroll)) {
const overscrollValue = parseInt(overscroll, 10);
if (/%$/.test(overscroll)) {
// If overscroll is percentage
return calculateOverscroll(overscrollValue / 100);
}
if (/px/.test(overscroll)) {
// If overscroll is pixels, it is limited to 90% of the axis
// length to prevent division by zero
const limitedOverscrollValue = Math.min(overscrollValue, axis.len * 0.9), pixelToPercent = limitedOverscrollValue / axis.len;
return calculateOverscroll(pixelToPercent / (1 - pixelToPercent));
}
// If overscroll is a string but not pixels or percentage,
// return 0 as no overscroll
return 0;
}
return overscroll;
}
}
OrdinalAxis.Additions = Additions;
})(OrdinalAxis || (OrdinalAxis = {}));
/* *
*
* Default Export
*
* */
return OrdinalAxis;
});
_registerModule(_modules, 'Stock/RangeSelector/RangeSelectorDefaults.js', [], function () {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* Declarations
*
* */
/**
* Language object. The language object is global and it can't be set
* on each chart initialization. Instead, use `Highcharts.setOptions` to
* set it before any chart is initialized.
*
* ```js
* Highcharts.setOptions({
* lang: {
* months: [
* 'Janvier', 'Février', 'Mars', 'Avril',
* 'Mai', 'Juin', 'Juillet', 'Août',
* 'Septembre', 'Octobre', 'Novembre', 'Décembre'
* ],
* weekdays: [
* 'Dimanche', 'Lundi', 'Mardi', 'Mercredi',
* 'Jeudi', 'Vendredi', 'Samedi'
* ]
* }
* });
* ```
*
* @optionparent lang
*/
const lang = {
/**
* The text for the label for the range selector buttons.
*
* @product highstock gantt
*/
rangeSelectorZoom: 'Zoom',
/**
* The text for the label for the "from" input box in the range
* selector. Since v9.0, this string is empty as the label is not
* rendered by default.
*
* @product highstock gantt
*/
rangeSelectorFrom: '',
/**
* The text for the label for the "to" input box in the range selector.
*
* @product highstock gantt
*/
rangeSelectorTo: '→'
};
/**
* The range selector is a tool for selecting ranges to display within
* the chart. It provides buttons to select preconfigured ranges in
* the chart, like 1 day, 1 week, 1 month etc. It also provides input
* boxes where min and max dates can be manually input.
*
* @product highstock gantt
* @optionparent rangeSelector
*/
const rangeSelector = {
/**
* Whether to enable all buttons from the start. By default buttons are
* only enabled if the corresponding time range exists on the X axis,
* but enabling all buttons allows for dynamically loading different
* time ranges.
*
* @sample {highstock} stock/rangeselector/allbuttonsenabled-true/
* All buttons enabled
*
* @since 2.0.3
*/
allButtonsEnabled: false,
/**
* An array of configuration objects for the buttons.
*
* Defaults to:
* ```js
* buttons: [{
* type: 'month',
* count: 1,
* text: '1m',
* title: 'View 1 month'
* }, {
* type: 'month',
* count: 3,
* text: '3m',
* title: 'View 3 months'
* }, {
* type: 'month',
* count: 6,
* text: '6m',
* title: 'View 6 months'
* }, {
* type: 'ytd',
* text: 'YTD',
* title: 'View year to date'
* }, {
* type: 'year',
* count: 1,
* text: '1y',
* title: 'View 1 year'
* }, {
* type: 'all',
* text: 'All',
* title: 'View all'
* }]
* ```
*
* @sample {highstock} stock/demo/rangeselector-datagrouping/
* Data grouping by buttons
*
* @type {Array<*>}
*/
buttons: void 0,
/**
* How many units of the defined type the button should span. If `type`
* is "month" and `count` is 3, the button spans three months.
*
* @type {number}
* @default 1
* @apioption rangeSelector.buttons.count
*/
/**
* Fires when clicking on the rangeSelector button. One parameter,
* event, is passed to the function, containing common event
* information.
*
* ```js
* click: function(e) {
* console.log(this);
* }
* ```
*
* Return false to stop default button's click action.
*
* @sample {highstock} stock/rangeselector/button-click/
* Click event on the button
*
* @type {Highcharts.RangeSelectorClickCallbackFunction}
* @apioption rangeSelector.buttons.events.click
*/
/**
* Additional range (in milliseconds) added to the end of the calculated
* time span.
*
* @sample {highstock} stock/rangeselector/min-max-offsets/
* Button offsets
*
* @type {number}
* @default 0
* @since 6.0.0
* @apioption rangeSelector.buttons.offsetMax
*/
/**
* Additional range (in milliseconds) added to the start of the
* calculated time span.
*
* @sample {highstock} stock/rangeselector/min-max-offsets/
* Button offsets
*
* @type {number}
* @default 0
* @since 6.0.0
* @apioption rangeSelector.buttons.offsetMin
*/
/**
* When buttons apply dataGrouping on a series, by default zooming
* in/out will deselect buttons and unset dataGrouping. Enable this
* option to keep buttons selected when extremes change.
*
* @sample {highstock} stock/rangeselector/preserve-datagrouping/
* Different preserveDataGrouping settings
*
* @type {boolean}
* @default false
* @since 6.1.2
* @apioption rangeSelector.buttons.preserveDataGrouping
*/
/**
* A custom data grouping object for each button.
*
* @see [series.dataGrouping](#plotOptions.series.dataGrouping)
*
* @sample {highstock} stock/demo/rangeselector-datagrouping/
* Data grouping by range selector buttons
*
* @type {*}
* @extends plotOptions.series.dataGrouping
* @apioption rangeSelector.buttons.dataGrouping
*/
/**
* The text for the button itself.
*
* @type {string}
* @apioption rangeSelector.buttons.text
*/
/**
* Explanation for the button, shown as a tooltip on hover, and used by
* assistive technology.
*
* @type {string}
* @apioption rangeSelector.buttons.title
*/
/**
* Defined the time span for the button. Can be one of `millisecond`,
* `second`, `minute`, `hour`, `day`, `week`, `month`, `year`, `ytd`,
* and `all`.
*
* @type {Highcharts.RangeSelectorButtonTypeValue}
* @apioption rangeSelector.buttons.type
*/
/**
* The space in pixels between the buttons in the range selector.
*/
buttonSpacing: 5,
/**
* Whether to collapse the range selector buttons into a dropdown when
* there is not enough room to show everything in a single row, instead
* of dividing the range selector into multiple rows.
* Can be one of the following:
* - `always`: Always collapse
* - `responsive`: Only collapse when there is not enough room
* - `never`: Never collapse
*
* @sample {highstock} stock/rangeselector/dropdown/
* Dropdown option
*
* @validvalue ["always", "responsive", "never"]
* @since 9.0.0
*/
dropdown: 'responsive',
/**
* Enable or disable the range selector. Default to `true` for stock
* charts, using the `stockChart` factory.
*
* @sample {highstock} stock/rangeselector/enabled/
* Disable the range selector
*
* @type {boolean|undefined}
* @default {highstock} true
*/
enabled: void 0,
/**
* The vertical alignment of the rangeselector box. Allowed properties
* are `top`, `middle`, `bottom`.
*
* @sample {highstock} stock/rangeselector/vertical-align-middle/
* Middle
* @sample {highstock} stock/rangeselector/vertical-align-bottom/
* Bottom
*
* @type {Highcharts.VerticalAlignValue}
* @since 6.0.0
*/
verticalAlign: 'top',
/**
* A collection of attributes for the buttons. The object takes SVG
* attributes like `fill`, `stroke`, `stroke-width`, as well as `style`,
* a collection of CSS properties for the text.
*
* The object can also be extended with states, so you can set
* presentational options for `hover`, `select` or `disabled` button
* states.
*
* CSS styles for the text label.
*
* In styled mode, the buttons are styled by the
* `.highcharts-range-selector-buttons .highcharts-button` rule with its
* different states.
*
* @sample {highstock} stock/rangeselector/styling/
* Styling the buttons and inputs
*
* @type {Highcharts.SVGAttributes}
*/
buttonTheme: {
/** @ignore */
width: 28,
/** @ignore */
height: 18,
/** @ignore */
padding: 2,
/** @ignore */
zIndex: 7 // #484, #852
},
/**
* When the rangeselector is floating, the plot area does not reserve
* space for it. This opens for positioning anywhere on the chart.
*
* @sample {highstock} stock/rangeselector/floating/
* Placing the range selector between the plot area and the
* navigator
*
* @since 6.0.0
*/
floating: false,
/**
* The x offset of the range selector relative to its horizontal
* alignment within `chart.spacingLeft` and `chart.spacingRight`.
*
* @since 6.0.0
*/
x: 0,
/**
* The y offset of the range selector relative to its horizontal
* alignment within `chart.spacingLeft` and `chart.spacingRight`.
*
* @since 6.0.0
*/
y: 0,
/**
* Deprecated. The height of the range selector. Currently it is
* calculated dynamically.
*
* @deprecated
* @type {number|undefined}
* @since 2.1.9
*/
height: void 0,
/**
* The border color of the date input boxes.
*
* @sample {highstock} stock/rangeselector/styling/
* Styling the buttons and inputs
*
* @type {Highcharts.ColorString}
* @since 1.3.7
*/
inputBoxBorderColor: 'none',
/**
* The pixel height of the date input boxes.
*
* @sample {highstock} stock/rangeselector/styling/
* Styling the buttons and inputs
*
* @since 1.3.7
*/
inputBoxHeight: 17,
/**
* The pixel width of the date input boxes. When `undefined`, the width
* is fitted to the rendered content.
*
* @sample {highstock} stock/rangeselector/styling/
* Styling the buttons and inputs
*
* @type {number|undefined}
* @since 1.3.7
*/
inputBoxWidth: void 0,
/**
* The date format in the input boxes when not selected for editing.
* Defaults to `%e %b %Y`.
*
* This is used to determine which type of input to show,
* `datetime-local`, `date` or `time` and falling back to `text` when
* the browser does not support the input type or the format contains
* milliseconds.
*
* @sample {highstock} stock/rangeselector/input-type/
* Input types
* @sample {highstock} stock/rangeselector/input-format/
* Milliseconds in the range selector
*
*/
inputDateFormat: '%e %b %Y',
/**
* A custom callback function to parse values entered in the input boxes
* and return a valid JavaScript time as milliseconds since 1970.
* The first argument passed is a value to parse,
* second is a boolean indicating use of the UTC time.
*
* This will only get called for inputs of type `text`. Since v8.2.3,
* the input type is dynamically determined based on the granularity
* of the `inputDateFormat` and the browser support.
*
* @sample {highstock} stock/rangeselector/input-format/
* Milliseconds in the range selector
*
* @type {Highcharts.RangeSelectorParseCallbackFunction}
* @since 1.3.3
*/
inputDateParser: void 0,
/**
* The date format in the input boxes when they are selected for
* editing. This must be a format that is recognized by JavaScript
* Date.parse.
*
* This will only be used for inputs of type `text`. Since v8.2.3,
* the input type is dynamically determined based on the granularity
* of the `inputDateFormat` and the browser support.
*
* @sample {highstock} stock/rangeselector/input-format/
* Milliseconds in the range selector
*
*/
inputEditDateFormat: '%Y-%m-%d',
/**
* Enable or disable the date input boxes.
*/
inputEnabled: true,
/**
* Positioning for the input boxes. Allowed properties are `align`,
* `x` and `y`.
*
* @since 1.2.4
*/
inputPosition: {
/**
* The alignment of the input box. Allowed properties are `left`,
* `center`, `right`.
*
* @sample {highstock} stock/rangeselector/input-button-position/
* Alignment
*
* @type {Highcharts.AlignValue}
* @since 6.0.0
*/
align: 'right',
/**
* X offset of the input row.
*/
x: 0,
/**
* Y offset of the input row.
*/
y: 0
},
/**
* The space in pixels between the labels and the date input boxes in
* the range selector.
*
* @since 9.0.0
*/
inputSpacing: 5,
/**
* The index of the button to appear pre-selected. If the selected range
* exceeds the total data range and the 'all' option is available,
* the 'all' option, showing the full range, is automatically selected.
*
* @type {number}
*/
selected: void 0,
/**
* Positioning for the button row.
*
* @since 1.2.4
*/
buttonPosition: {
/**
* The alignment of the input box. Allowed properties are `left`,
* `center`, `right`.
*
* @sample {highstock} stock/rangeselector/input-button-position/
* Alignment
*
* @type {Highcharts.AlignValue}
* @since 6.0.0
*/
align: 'left',
/**
* X offset of the button row.
*/
x: 0,
/**
* Y offset of the button row.
*/
y: 0
},
/**
* CSS for the HTML inputs in the range selector.
*
* In styled mode, the inputs are styled by the
* `.highcharts-range-input text` rule in SVG mode, and
* `input.highcharts-range-selector` when active.
*
* @sample {highstock} stock/rangeselector/styling/
* Styling the buttons and inputs
*
* @type {Highcharts.CSSObject}
* @apioption rangeSelector.inputStyle
*/
inputStyle: {
/** @ignore */
color: "#334eff" /* Palette.highlightColor80 */,
/** @ignore */
cursor: 'pointer',
/** @ignore */
fontSize: '0.8em'
},
/**
* CSS styles for the labels - the Zoom, From and To texts.
*
* In styled mode, the labels are styled by the
* `.highcharts-range-label` class.
*
* @sample {highstock} stock/rangeselector/styling/
* Styling the buttons and inputs
*
* @type {Highcharts.CSSObject}
*/
labelStyle: {
/** @ignore */
color: "#666666" /* Palette.neutralColor60 */,
/** @ignore */
fontSize: '0.8em'
}
};
/* *
*
* Default Export
*
* */
const RangeSelectorDefaults = {
lang,
rangeSelector
};
return RangeSelectorDefaults;
});
_registerModule(_modules, 'Stock/RangeSelector/RangeSelectorComposition.js', [_modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Stock/RangeSelector/RangeSelectorDefaults.js'], _modules['Core/Utilities.js']], function (D, H, RangeSelectorDefaults, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { defaultOptions } = D;
const { composed } = H;
const { addEvent, defined, extend, find, isNumber, merge, pick, pushUnique } = U;
/* *
*
* Constants
*
* */
const chartDestroyEvents = [];
/* *
*
* Variables
*
* */
let RangeSelectorConstructor;
/* *
*
* Functions
*
* */
/**
* Get the axis min value based on the range option and the current max. For
* stock charts this is extended via the {@link RangeSelector} so that if the
* selected range is a multiple of months or years, it is compensated for
* various month lengths.
*
* @private
* @function Highcharts.Axis#minFromRange
* @return {number|undefined}
* The new minimum value.
*/
function axisMinFromRange() {
const rangeOptions = this.range, type = rangeOptions.type, max = this.max, time = this.chart.time,
// Get the true range from a start date
getTrueRange = function (base, count) {
const timeName = type === 'year' ?
'FullYear' : 'Month';
const date = new time.Date(base);
const basePeriod = time.get(timeName, date);
time.set(timeName, date, basePeriod + count);
if (basePeriod === time.get(timeName, date)) {
time.set('Date', date, 0); // #6537
}
return date.getTime() - base;
};
let min, range;
if (isNumber(rangeOptions)) {
min = max - rangeOptions;
range = rangeOptions;
}
else if (rangeOptions) {
min = max + getTrueRange(max, -(rangeOptions.count || 1));
// Let the fixedRange reflect initial settings (#5930)
if (this.chart) {
this.chart.setFixedRange(max - min);
}
}
const dataMin = pick(this.dataMin, Number.MIN_VALUE);
if (!isNumber(min)) {
min = dataMin;
}
if (min <= dataMin) {
min = dataMin;
if (typeof range === 'undefined') { // #4501
range = getTrueRange(min, rangeOptions.count);
}
this.newMax = Math.min(min + range, pick(this.dataMax, Number.MAX_VALUE));
}
if (!isNumber(max)) {
min = void 0;
}
else if (!isNumber(rangeOptions) &&
rangeOptions &&
rangeOptions._offsetMin) {
min += rangeOptions._offsetMin;
}
return min;
}
/**
* @private
*/
function compose(AxisClass, ChartClass, RangeSelectorClass) {
RangeSelectorConstructor = RangeSelectorClass;
if (pushUnique(composed, 'RangeSelector')) {
const chartProto = ChartClass.prototype;
AxisClass.prototype.minFromRange = axisMinFromRange;
addEvent(ChartClass, 'afterGetContainer', onChartAfterGetContainer);
addEvent(ChartClass, 'beforeRender', onChartBeforeRender);
addEvent(ChartClass, 'destroy', onChartDestroy);
addEvent(ChartClass, 'getMargins', onChartGetMargins);
addEvent(ChartClass, 'render', onChartRender);
addEvent(ChartClass, 'update', onChartUpdate);
chartProto.callbacks.push(onChartCallback);
extend(defaultOptions, { rangeSelector: RangeSelectorDefaults.rangeSelector });
extend(defaultOptions.lang, RangeSelectorDefaults.lang);
}
}
/**
* Initialize rangeselector for stock charts
* @private
*/
function onChartAfterGetContainer() {
if (this.options.rangeSelector &&
this.options.rangeSelector.enabled) {
this.rangeSelector = new RangeSelectorConstructor(this);
}
}
/**
* @private
*/
function onChartBeforeRender() {
const chart = this, axes = chart.axes, rangeSelector = chart.rangeSelector;
if (rangeSelector) {
if (isNumber(rangeSelector.deferredYTDClick)) {
rangeSelector.clickButton(rangeSelector.deferredYTDClick);
delete rangeSelector.deferredYTDClick;
}
axes.forEach((axis) => {
axis.updateNames();
axis.setScale();
});
chart.getAxisMargins();
rangeSelector.render();
const verticalAlign = rangeSelector.options.verticalAlign;
if (!rangeSelector.options.floating) {
if (verticalAlign === 'bottom') {
this.extraBottomMargin = true;
}
else if (verticalAlign !== 'middle') {
this.extraTopMargin = true;
}
}
}
}
/**
* @private
*/
function onChartCallback(chart) {
let extremes, legend, alignTo, verticalAlign;
const rangeSelector = chart.rangeSelector, redraw = () => {
if (rangeSelector) {
extremes = chart.xAxis[0].getExtremes();
legend = chart.legend;
verticalAlign = (rangeSelector &&
rangeSelector.options.verticalAlign);
if (isNumber(extremes.min)) {
rangeSelector.render(extremes.min, extremes.max);
}
// Re-align the legend so that it's below the rangeselector
if (legend.display &&
verticalAlign === 'top' &&
verticalAlign === legend.options.verticalAlign) {
// Create a new alignment box for the legend.
alignTo = merge(chart.spacingBox);
if (legend.options.layout === 'vertical') {
alignTo.y = chart.plotTop;
}
else {
alignTo.y += rangeSelector.getHeight();
}
legend.group.placed = false; // Don't animate the alignment.
legend.align(alignTo);
}
}
};
if (rangeSelector) {
const events = find(chartDestroyEvents, (e) => e[0] === chart);
if (!events) {
chartDestroyEvents.push([chart, [
// Redraw the scroller on setExtremes
addEvent(chart.xAxis[0], 'afterSetExtremes', function (e) {
if (rangeSelector) {
rangeSelector.render(e.min, e.max);
}
}),
// Redraw the scroller chart resize
addEvent(chart, 'redraw', redraw)
]]);
}
// Do it now
redraw();
}
}
/**
* Remove resize/afterSetExtremes at chart destroy.
* @private
*/
function onChartDestroy() {
for (let i = 0, iEnd = chartDestroyEvents.length; i < iEnd; ++i) {
const events = chartDestroyEvents[i];
if (events[0] === this) {
events[1].forEach((unbind) => unbind());
chartDestroyEvents.splice(i, 1);
return;
}
}
}
/**
*
*/
function onChartGetMargins() {
const rangeSelector = this.rangeSelector;
if (rangeSelector) {
const rangeSelectorHeight = rangeSelector.getHeight();
if (this.extraTopMargin) {
this.plotTop += rangeSelectorHeight;
}
if (this.extraBottomMargin) {
this.marginBottom += rangeSelectorHeight;
}
}
}
/**
* @private
*/
function onChartRender() {
const chart = this, rangeSelector = chart.rangeSelector;
if (rangeSelector && !rangeSelector.options.floating) {
rangeSelector.render();
const verticalAlign = rangeSelector.options.verticalAlign;
if (verticalAlign === 'bottom') {
this.extraBottomMargin = true;
}
else if (verticalAlign !== 'middle') {
this.extraTopMargin = true;
}
}
}
/**
* @private
*/
function onChartUpdate(e) {
const chart = this, options = e.options, optionsRangeSelector = options.rangeSelector, extraBottomMarginWas = this.extraBottomMargin, extraTopMarginWas = this.extraTopMargin;
let rangeSelector = chart.rangeSelector;
if (optionsRangeSelector &&
optionsRangeSelector.enabled &&
!defined(rangeSelector) &&
this.options.rangeSelector) {
this.options.rangeSelector.enabled = true;
this.rangeSelector = rangeSelector = new RangeSelectorConstructor(this);
}
this.extraBottomMargin = false;
this.extraTopMargin = false;
if (rangeSelector) {
onChartCallback(this);
const verticalAlign = (optionsRangeSelector &&
optionsRangeSelector.verticalAlign) || (rangeSelector.options && rangeSelector.options.verticalAlign);
if (!rangeSelector.options.floating) {
if (verticalAlign === 'bottom') {
this.extraBottomMargin = true;
}
else if (verticalAlign !== 'middle') {
this.extraTopMargin = true;
}
}
if (this.extraBottomMargin !== extraBottomMarginWas ||
this.extraTopMargin !== extraTopMarginWas) {
this.isDirtyBox = true;
}
}
}
/* *
*
* Default Export
*
* */
const RangeSelectorComposition = {
compose
};
return RangeSelectorComposition;
});
_registerModule(_modules, 'Stock/RangeSelector/RangeSelector.js', [_modules['Core/Axis/Axis.js'], _modules['Core/Defaults.js'], _modules['Core/Globals.js'], _modules['Stock/RangeSelector/RangeSelectorComposition.js'], _modules['Core/Renderer/SVG/SVGElement.js'], _modules['Core/Utilities.js']], function (Axis, D, H, RangeSelectorComposition, SVGElement, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { defaultOptions } = D;
const { addEvent, createElement, css, defined, destroyObjectProperties, discardElement, extend, fireEvent, isNumber, merge, objectEach, pad, pick, pInt, splat } = U;
/* *
*
* Functions
*
* */
/**
* Get the preferred input type based on a date format string.
*
* @private
* @function preferredInputType
*/
function preferredInputType(format) {
const ms = format.indexOf('%L') !== -1;
if (ms) {
return 'text';
}
const date = ['a', 'A', 'd', 'e', 'w', 'b', 'B', 'm', 'o', 'y', 'Y']
.some((char) => format.indexOf('%' + char) !== -1);
const time = ['H', 'k', 'I', 'l', 'M', 'S']
.some((char) => format.indexOf('%' + char) !== -1);
if (date && time) {
return 'datetime-local';
}
if (date) {
return 'date';
}
if (time) {
return 'time';
}
return 'text';
}
/* *
*
* Class
*
* */
/**
* The range selector.
*
* @private
* @class
* @name Highcharts.RangeSelector
* @param {Highcharts.Chart} chart
*/
class RangeSelector {
/* *
*
* Static Functions
*
* */
/**
* @private
*/
static compose(AxisClass, ChartClass) {
RangeSelectorComposition.compose(AxisClass, ChartClass, RangeSelector);
}
/* *
*
* Constructor
*
* */
constructor(chart) {
this.buttonOptions = RangeSelector.prototype.defaultButtons;
this.initialButtonGroupWidth = 0;
this.chart = chart;
this.init(chart);
}
/* *
*
* Functions
*
* */
/**
* The method to run when one of the buttons in the range selectors is
* clicked
*
* @private
* @function Highcharts.RangeSelector#clickButton
* @param {number} i
* The index of the button
* @param {boolean} [redraw]
*/
clickButton(i, redraw) {
const rangeSelector = this, chart = rangeSelector.chart, rangeOptions = rangeSelector.buttonOptions[i], baseAxis = chart.xAxis[0], unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || baseAxis || {}, type = rangeOptions.type, dataGrouping = rangeOptions.dataGrouping;
let dataMin = unionExtremes.dataMin, dataMax = unionExtremes.dataMax, newMin, newMax = baseAxis && Math.round(Math.min(baseAxis.max, pick(dataMax, baseAxis.max))), // #1568
baseXAxisOptions, range = rangeOptions._range, rangeMin, minSetting, rangeSetting, ctx, ytdExtremes, addOffsetMin = true;
// Chart has no data, base series is removed
if (dataMin === null || dataMax === null) {
return;
}
rangeSelector.setSelected(i);
// Apply dataGrouping associated to button
if (dataGrouping) {
this.forcedDataGrouping = true;
Axis.prototype.setDataGrouping.call(baseAxis || { chart: this.chart }, dataGrouping, false);
this.frozenStates = rangeOptions.preserveDataGrouping;
}
// Apply range
if (type === 'month' || type === 'year') {
if (!baseAxis) {
// This is set to the user options and picked up later when the
// axis is instantiated so that we know the min and max.
range = rangeOptions;
}
else {
ctx = {
range: rangeOptions,
max: newMax,
chart: chart,
dataMin: dataMin,
dataMax: dataMax
};
newMin = baseAxis.minFromRange.call(ctx);
if (isNumber(ctx.newMax)) {
newMax = ctx.newMax;
}
// #15799: offsetMin is added in minFromRange so that it works
// with pre-selected buttons as well
addOffsetMin = false;
}
// Fixed times like minutes, hours, days
}
else if (range) {
newMin = Math.max(newMax - range, dataMin);
newMax = Math.min(newMin + range, dataMax);
addOffsetMin = false;
}
else if (type === 'ytd') {
// On user clicks on the buttons, or a delayed action running from
// the beforeRender event (below), the baseAxis is defined.
if (baseAxis) {
// When "ytd" is the pre-selected button for the initial view,
// its calculation is delayed and rerun in the beforeRender
// event (below). When the series are initialized, but before
// the chart is rendered, we have access to the xData array
// (#942).
if (typeof dataMax === 'undefined' ||
typeof dataMin === 'undefined') {
dataMin = Number.MAX_VALUE;
dataMax = Number.MIN_VALUE;
chart.series.forEach((series) => {
// Reassign it to the last item
const xData = series.xData;
if (xData) {
dataMin = Math.min(xData[0], dataMin);
dataMax = Math.max(xData[xData.length - 1], dataMax);
}
});
redraw = false;
}
ytdExtremes = rangeSelector.getYTDExtremes(dataMax, dataMin, chart.time.useUTC);
newMin = rangeMin = ytdExtremes.min;
newMax = ytdExtremes.max;
// "ytd" is pre-selected. We don't yet have access to processed
// point and extremes data (things like pointStart and pointInterval
// are missing), so we delay the process (#942)
}
else {
rangeSelector.deferredYTDClick = i;
return;
}
}
else if (type === 'all' && baseAxis) {
// If the navigator exist and the axis range is declared reset that
// range and from now on only use the range set by a user, #14742.
if (chart.navigator && chart.navigator.baseSeries[0]) {
chart.navigator.baseSeries[0].xAxis.options.range = void 0;
}
newMin = dataMin;
newMax = dataMax;
}
if (addOffsetMin && rangeOptions._offsetMin && defined(newMin)) {
newMin += rangeOptions._offsetMin;
}
if (rangeOptions._offsetMax && defined(newMax)) {
newMax += rangeOptions._offsetMax;
}
if (this.dropdown) {
this.dropdown.selectedIndex = i + 1;
}
// Update the chart
if (!baseAxis) {
// Axis not yet instantiated. Temporarily set min and range
// options and remove them on chart load (#4317).
baseXAxisOptions = splat(chart.options.xAxis)[0];
rangeSetting = baseXAxisOptions.range;
baseXAxisOptions.range = range;
minSetting = baseXAxisOptions.min;
baseXAxisOptions.min = rangeMin;
addEvent(chart, 'load', function resetMinAndRange() {
chart.setFixedRange(rangeOptions._range);
baseXAxisOptions.range = rangeSetting;
baseXAxisOptions.min = minSetting;
});
}
else {
// Existing axis object. Set extremes after render time.
baseAxis.setExtremes(newMin, newMax, pick(redraw, true), void 0, // Auto animation
{
trigger: 'rangeSelectorButton',
rangeSelectorButton: rangeOptions
});
chart.setFixedRange(rangeOptions._range);
}
fireEvent(this, 'afterBtnClick');
}
/**
* Set the selected option. This method only sets the internal flag, it
* doesn't update the buttons or the actual zoomed range.
*
* @private
* @function Highcharts.RangeSelector#setSelected
* @param {number} [selected]
*/
setSelected(selected) {
this.selected = this.options.selected = selected;
}
/**
* Initialize the range selector
*
* @private
* @function Highcharts.RangeSelector#init
* @param {Highcharts.Chart} chart
*/
init(chart) {
const rangeSelector = this, options = chart.options.rangeSelector, buttonOptions = (options.buttons || rangeSelector.defaultButtons.slice()), selectedOption = options.selected, blurInputs = function () {
const minInput = rangeSelector.minInput, maxInput = rangeSelector.maxInput;
// #3274 in some case blur is not defined
if (minInput && !!minInput.blur) {
fireEvent(minInput, 'blur');
}
if (maxInput && !!maxInput.blur) {
fireEvent(maxInput, 'blur');
}
};
rangeSelector.chart = chart;
rangeSelector.options = options;
rangeSelector.buttons = [];
rangeSelector.buttonOptions = buttonOptions;
this.eventsToUnbind = [];
this.eventsToUnbind.push(addEvent(chart.container, 'mousedown', blurInputs));
this.eventsToUnbind.push(addEvent(chart, 'resize', blurInputs));
// Extend the buttonOptions with actual range
buttonOptions.forEach(rangeSelector.computeButtonRange);
// Zoomed range based on a pre-selected button index
if (typeof selectedOption !== 'undefined' &&
buttonOptions[selectedOption]) {
this.clickButton(selectedOption, false);
}
this.eventsToUnbind.push(addEvent(chart, 'load', function () {
// If a data grouping is applied to the current button, release it
// when extremes change
if (chart.xAxis && chart.xAxis[0]) {
addEvent(chart.xAxis[0], 'setExtremes', function (e) {
if (isNumber(this.max) &&
isNumber(this.min) &&
this.max - this.min !== chart.fixedRange &&
e.trigger !== 'rangeSelectorButton' &&
e.trigger !== 'updatedData' &&
rangeSelector.forcedDataGrouping &&
!rangeSelector.frozenStates) {
this.setDataGrouping(false, false);
}
});
}
}));
}
/**
* Dynamically update the range selector buttons after a new range has been
* set
*
* @private
* @function Highcharts.RangeSelector#updateButtonStates
*/
updateButtonStates() {
const rangeSelector = this, chart = this.chart, dropdown = this.dropdown, baseAxis = chart.xAxis[0], actualRange = Math.round(baseAxis.max - baseAxis.min), hasNoData = !baseAxis.hasVisibleSeries, day = 24 * 36e5, // A single day in milliseconds
unionExtremes = (chart.scroller &&
chart.scroller.getUnionExtremes()) || baseAxis, dataMin = unionExtremes.dataMin, dataMax = unionExtremes.dataMax, ytdExtremes = rangeSelector.getYTDExtremes(dataMax, dataMin, chart.time.useUTC), ytdMin = ytdExtremes.min, ytdMax = ytdExtremes.max, selected = rangeSelector.selected, allButtonsEnabled = rangeSelector.options.allButtonsEnabled, buttons = rangeSelector.buttons;
let selectedExists = isNumber(selected), isSelectedTooGreat = false;
rangeSelector.buttonOptions.forEach((rangeOptions, i) => {
const range = rangeOptions._range, type = rangeOptions.type, count = rangeOptions.count || 1, button = buttons[i], offsetRange = rangeOptions._offsetMax -
rangeOptions._offsetMin, isSelected = i === selected,
// Disable buttons where the range exceeds what is allowed in
// the current view
isTooGreatRange = range >
dataMax - dataMin,
// Disable buttons where the range is smaller than the minimum
// range
isTooSmallRange = range < baseAxis.minRange;
let state = 0,
// Do not select the YTD button if not explicitly told so
isYTDButNotSelected = false,
// Disable the All button if we're already showing all
isAllButAlreadyShowingAll = false, isSameRange = range === actualRange;
if (isSelected && isTooGreatRange) {
isSelectedTooGreat = true;
}
if (baseAxis.isOrdinal &&
baseAxis.ordinal?.positions &&
range &&
actualRange < range) {
// Handle ordinal ranges
const positions = baseAxis.ordinal.positions;
if (positions[positions.length - 1] - positions[0] > range) {
isSameRange = true;
}
}
else if (
// Months and years have variable range so we check the extremes
(type === 'month' || type === 'year') &&
(actualRange + 36e5 >=
{ month: 28, year: 365 }[type] * day * count - offsetRange) &&
(actualRange - 36e5 <=
{ month: 31, year: 366 }[type] * day * count + offsetRange)) {
isSameRange = true;
}
else if (type === 'ytd') {
isSameRange = (ytdMax - ytdMin + offsetRange) === actualRange;
isYTDButNotSelected = !isSelected;
}
else if (type === 'all') {
isSameRange = (baseAxis.max - baseAxis.min >=
dataMax - dataMin);
isAllButAlreadyShowingAll = (!isSelected &&
selectedExists &&
isSameRange);
}
// The new zoom area happens to match the range for a button - mark
// it selected. This happens when scrolling across an ordinal gap.
// It can be seen in the intraday demos when selecting 1h and scroll
// across the night gap.
const disable = (!allButtonsEnabled &&
!(isSelectedTooGreat && type === 'all') &&
(isTooGreatRange ||
isTooSmallRange ||
isAllButAlreadyShowingAll ||
hasNoData));
const select = ((isSelectedTooGreat && type === 'all') ||
(isSelected && isSameRange) ||
(isSameRange && !selectedExists && !isYTDButNotSelected) ||
(isSelected && rangeSelector.frozenStates));
if (disable) {
state = 3;
}
else if (select) {
selectedExists = true; // Only one button can be selected
state = 2;
}
// If state has changed, update the button
if (button.state !== state) {
button.setState(state);
if (dropdown) {
dropdown.options[i + 1].disabled = disable;
if (state === 2) {
dropdown.selectedIndex = i + 1;
}
}
// Reset (#9209)
if (state === 0 && selected === i) {
rangeSelector.setSelected();
}
else if ((state === 2 && !defined(selected)) ||
isSelectedTooGreat) {
rangeSelector.setSelected(i);
}
}
});
}
/**
* Compute and cache the range for an individual button
*
* @private
* @function Highcharts.RangeSelector#computeButtonRange
* @param {Highcharts.RangeSelectorButtonsOptions} rangeOptions
*/
computeButtonRange(rangeOptions) {
const type = rangeOptions.type, count = rangeOptions.count || 1,
// These time intervals have a fixed number of milliseconds, as
// opposed to month, ytd and year
fixedTimes = {
millisecond: 1,
second: 1000,
minute: 60 * 1000,
hour: 3600 * 1000,
day: 24 * 3600 * 1000,
week: 7 * 24 * 3600 * 1000
};
// Store the range on the button object
if (fixedTimes[type]) {
rangeOptions._range = fixedTimes[type] * count;
}
else if (type === 'month' || type === 'year') {
rangeOptions._range = {
month: 30,
year: 365
}[type] * 24 * 36e5 * count;
}
rangeOptions._offsetMin = pick(rangeOptions.offsetMin, 0);
rangeOptions._offsetMax = pick(rangeOptions.offsetMax, 0);
rangeOptions._range +=
rangeOptions._offsetMax - rangeOptions._offsetMin;
}
/**
* Get the unix timestamp of a HTML input for the dates
*
* @private
* @function Highcharts.RangeSelector#getInputValue
*/
getInputValue(name) {
const input = name === 'min' ? this.minInput : this.maxInput;
const options = this.chart.options
.rangeSelector;
const time = this.chart.time;
if (input) {
return ((input.type === 'text' && options.inputDateParser) ||
this.defaultInputDateParser)(input.value, time.useUTC, time);
}
return 0;
}
/**
* Set the internal and displayed value of a HTML input for the dates
*
* @private
* @function Highcharts.RangeSelector#setInputValue
*/
setInputValue(name, inputTime) {
const options = this.options, time = this.chart.time, input = name === 'min' ? this.minInput : this.maxInput, dateBox = name === 'min' ? this.minDateBox : this.maxDateBox;
if (input) {
const hcTimeAttr = input.getAttribute('data-hc-time');
let updatedTime = defined(hcTimeAttr) ? Number(hcTimeAttr) : void 0;
if (defined(inputTime)) {
const previousTime = updatedTime;
if (defined(previousTime)) {
input.setAttribute('data-hc-time-previous', previousTime);
}
input.setAttribute('data-hc-time', inputTime);
updatedTime = inputTime;
}
input.value = time.dateFormat((this.inputTypeFormats[input.type] ||
options.inputEditDateFormat), updatedTime);
if (dateBox) {
dateBox.attr({
text: time.dateFormat(options.inputDateFormat, updatedTime)
});
}
}
}
/**
* Set the min and max value of a HTML input for the dates
*
* @private
* @function Highcharts.RangeSelector#setInputExtremes
*/
setInputExtremes(name, min, max) {
const input = name === 'min' ? this.minInput : this.maxInput;
if (input) {
const format = this.inputTypeFormats[input.type];
const time = this.chart.time;
if (format) {
const newMin = time.dateFormat(format, min);
if (input.min !== newMin) {
input.min = newMin;
}
const newMax = time.dateFormat(format, max);
if (input.max !== newMax) {
input.max = newMax;
}
}
}
}
/**
* @private
* @function Highcharts.RangeSelector#showInput
* @param {string} name
*/
showInput(name) {
const dateBox = name === 'min' ? this.minDateBox : this.maxDateBox, input = name === 'min' ? this.minInput : this.maxInput;
if (input && dateBox && this.inputGroup) {
const isTextInput = input.type === 'text', { translateX = 0, translateY = 0 } = this.inputGroup, { x = 0, width = 0, height = 0 } = dateBox, { inputBoxWidth } = this.options;
css(input, {
width: isTextInput ?
((width + (inputBoxWidth ? -2 : 20)) + 'px') :
'auto',
height: (height - 2) + 'px',
border: '2px solid silver'
});
if (isTextInput && inputBoxWidth) {
css(input, {
left: (translateX + x) + 'px',
top: translateY + 'px'
});
// Inputs of types date, time or datetime-local should be centered
// on top of the dateBox
}
else {
css(input, {
left: Math.min(Math.round(x +
translateX -
(input.offsetWidth - width) / 2), this.chart.chartWidth - input.offsetWidth) + 'px',
top: (translateY - (input.offsetHeight - height) / 2) + 'px'
});
}
}
}
/**
* @private
* @function Highcharts.RangeSelector#hideInput
* @param {string} name
*/
hideInput(name) {
const input = name === 'min' ? this.minInput : this.maxInput;
if (input) {
css(input, {
top: '-9999em',
border: 0,
width: '1px',
height: '1px'
});
}
}
/**
* @private
* @function Highcharts.RangeSelector#defaultInputDateParser
*/
defaultInputDateParser(inputDate, useUTC, time) {
const hasTimezone = (str) => str.length > 6 &&
(str.lastIndexOf('-') === str.length - 6 ||
str.lastIndexOf('+') === str.length - 6);
let input = inputDate.split('/').join('-').split(' ').join('T');
if (input.indexOf('T') === -1) {
input += 'T00:00';
}
if (useUTC) {
input += 'Z';
}
else if (H.isSafari && !hasTimezone(input)) {
const offset = new Date(input).getTimezoneOffset() / 60;
input += offset <= 0 ? `+${pad(-offset)}:00` : `-${pad(offset)}:00`;
}
let date = Date.parse(input);
// If the value isn't parsed directly to a value by the
// browser's Date.parse method, try
// parsing it a different way
if (!isNumber(date)) {
const parts = inputDate.split('-');
date = Date.UTC(pInt(parts[0]), pInt(parts[1]) - 1, pInt(parts[2]));
}
if (time && useUTC && isNumber(date)) {
date += time.getTimezoneOffset(date);
}
return date;
}
/**
* Draw either the 'from' or the 'to' HTML input box of the range selector
*
* @private
* @function Highcharts.RangeSelector#drawInput
*/
drawInput(name) {
const { chart, div, inputGroup } = this;
const rangeSelector = this, chartStyle = chart.renderer.style || {}, renderer = chart.renderer, options = chart.options.rangeSelector, lang = defaultOptions.lang, isMin = name === 'min';
/**
* @private
*/
function updateExtremes() {
const { maxInput, minInput } = rangeSelector, chartAxis = chart.xAxis[0], unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || chartAxis, dataMin = unionExtremes.dataMin, dataMax = unionExtremes.dataMax;
let value = rangeSelector.getInputValue(name);
if (value !== Number(input.getAttribute('data-hc-time-previous')) &&
isNumber(value)) {
input.setAttribute('data-hc-time-previous', value);
// Validate the extremes. If it goes beyond the data min or
// max, use the actual data extreme (#2438).
if (isMin && maxInput && isNumber(dataMin)) {
if (value > Number(maxInput.getAttribute('data-hc-time'))) {
value = void 0;
}
else if (value < dataMin) {
value = dataMin;
}
}
else if (minInput && isNumber(dataMax)) {
if (value < Number(minInput.getAttribute('data-hc-time'))) {
value = void 0;
}
else if (value > dataMax) {
value = dataMax;
}
}
// Set the extremes
if (typeof value !== 'undefined') { // @todo typeof undefined
chartAxis.setExtremes(isMin ? value : chartAxis.min, isMin ? chartAxis.max : value, void 0, void 0, { trigger: 'rangeSelectorInput' });
}
}
}
// Create the text label
const text = lang[isMin ? 'rangeSelectorFrom' : 'rangeSelectorTo'] || '';
const label = renderer
.label(text, 0)
.addClass('highcharts-range-label')
.attr({
padding: text ? 2 : 0,
height: text ? options.inputBoxHeight : 0
})
.add(inputGroup);
// Create an SVG label that shows updated date ranges and records click
// events that bring in the HTML input.
const dateBox = renderer
.label('', 0)
.addClass('highcharts-range-input')
.attr({
padding: 2,
width: options.inputBoxWidth,
height: options.inputBoxHeight,
'text-align': 'center'
})
.on('click', function () {
// If it is already focused, the onfocus event doesn't fire
// (#3713)
rangeSelector.showInput(name);
rangeSelector[name + 'Input'].focus();
});
if (!chart.styledMode) {
dateBox.attr({
stroke: options.inputBoxBorderColor,
'stroke-width': 1
});
}
dateBox.add(inputGroup);
// Create the HTML input element. This is rendered as 1x1 pixel then set
// to the right size when focused.
const input = createElement('input', {
name: name,
className: 'highcharts-range-selector'
}, void 0, div);
// #14788: Setting input.type to an unsupported type throws in IE, so
// we need to use setAttribute instead
input.setAttribute('type', preferredInputType(options.inputDateFormat || '%e %b %Y'));
if (!chart.styledMode) {
// Styles
label.css(merge(chartStyle, options.labelStyle));
dateBox.css(merge({
color: "#333333" /* Palette.neutralColor80 */
}, chartStyle, options.inputStyle));
css(input, extend({
position: 'absolute',
border: 0,
boxShadow: '0 0 15px rgba(0,0,0,0.3)',
width: '1px',
height: '1px',
padding: 0,
textAlign: 'center',
fontSize: chartStyle.fontSize,
fontFamily: chartStyle.fontFamily,
top: '-9999em' // #4798
}, options.inputStyle));
}
// Blow up the input box
input.onfocus = () => {
rangeSelector.showInput(name);
};
// Hide away the input box
input.onblur = () => {
// Update extremes only when inputs are active
if (input === H.doc.activeElement) { // Only when focused
// Update also when no `change` event is triggered, like when
// clicking inside the SVG (#4710)
updateExtremes();
}
// #10404 - move hide and blur outside focus
rangeSelector.hideInput(name);
rangeSelector.setInputValue(name);
input.blur(); // #4606
};
let keyDown = false;
// Handle changes in the input boxes
input.onchange = () => {
// Update extremes and blur input when clicking date input calendar
if (!keyDown) {
updateExtremes();
rangeSelector.hideInput(name);
input.blur();
}
};
input.onkeypress = (event) => {
// IE does not fire onchange on enter
if (event.keyCode === 13) {
updateExtremes();
}
};
input.onkeydown = (event) => {
keyDown = true;
// Arrow keys
if (event.keyCode === 38 || event.keyCode === 40) {
updateExtremes();
}
};
input.onkeyup = () => {
keyDown = false;
};
return { dateBox, input, label };
}
/**
* Get the position of the range selector buttons and inputs. This can be
* overridden from outside for custom positioning.
*
* @private
* @function Highcharts.RangeSelector#getPosition
*/
getPosition() {
const chart = this.chart, options = chart.options.rangeSelector, top = options.verticalAlign === 'top' ?
chart.plotTop - chart.axisOffset[0] :
0; // Set offset only for verticalAlign top
return {
buttonTop: top + options.buttonPosition.y,
inputTop: top + options.inputPosition.y - 10
};
}
/**
* Get the extremes of YTD. Will choose dataMax if its value is lower than
* the current timestamp. Will choose dataMin if its value is higher than
* the timestamp for the start of current year.
*
* @private
* @function Highcharts.RangeSelector#getYTDExtremes
* @return {*}
* Returns min and max for the YTD
*/
getYTDExtremes(dataMax, dataMin, useUTC) {
const time = this.chart.time, now = new time.Date(dataMax), year = time.get('FullYear', now), startOfYear = useUTC ?
time.Date.UTC(year, 0, 1) : // eslint-disable-line new-cap
+new time.Date(year, 0, 1), min = Math.max(dataMin, startOfYear), ts = now.getTime();
return {
max: Math.min(dataMax || ts, ts),
min
};
}
/**
* Render the range selector including the buttons and the inputs. The first
* time render is called, the elements are created and positioned. On
* subsequent calls, they are moved and updated.
*
* @private
* @function Highcharts.RangeSelector#render
* @param {number} [min]
* X axis minimum
* @param {number} [max]
* X axis maximum
*/
render(min, max) {
const chart = this.chart, renderer = chart.renderer, container = chart.container, chartOptions = chart.options, options = chartOptions.rangeSelector,
// Place inputs above the container
inputsZIndex = pick(chartOptions.chart.style &&
chartOptions.chart.style.zIndex, 0) + 1, inputEnabled = options.inputEnabled, rendered = this.rendered;
if (options.enabled === false) {
return;
}
// Create the elements
if (!rendered) {
this.group = renderer.g('range-selector-group')
.attr({
zIndex: 7
})
.add();
this.div = createElement('div', void 0, {
position: 'relative',
height: 0,
zIndex: inputsZIndex
});
if (this.buttonOptions.length) {
this.renderButtons();
}
// First create a wrapper outside the container in order to make
// the inputs work and make export correct
if (container.parentNode) {
container.parentNode.insertBefore(this.div, container);
}
if (inputEnabled) {
// Create the group to keep the inputs
this.inputGroup = renderer.g('input-group').add(this.group);
const minElems = this.drawInput('min');
this.minDateBox = minElems.dateBox;
this.minLabel = minElems.label;
this.minInput = minElems.input;
const maxElems = this.drawInput('max');
this.maxDateBox = maxElems.dateBox;
this.maxLabel = maxElems.label;
this.maxInput = maxElems.input;
}
}
if (inputEnabled) {
// Set or reset the input values
this.setInputValue('min', min);
this.setInputValue('max', max);
const unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || chart.xAxis[0] || {};
if (defined(unionExtremes.dataMin) &&
defined(unionExtremes.dataMax)) {
const minRange = chart.xAxis[0].minRange || 0;
this.setInputExtremes('min', unionExtremes.dataMin, Math.min(unionExtremes.dataMax, this.getInputValue('max')) - minRange);
this.setInputExtremes('max', Math.max(unionExtremes.dataMin, this.getInputValue('min')) + minRange, unionExtremes.dataMax);
}
// Reflow
if (this.inputGroup) {
let x = 0;
[
this.minLabel,
this.minDateBox,
this.maxLabel,
this.maxDateBox
].forEach((label) => {
if (label) {
const { width } = label.getBBox();
if (width) {
label.attr({ x });
x += width + options.inputSpacing;
}
}
});
}
}
this.alignElements();
this.rendered = true;
}
/**
* Render the range buttons. This only runs the first time, later the
* positioning is laid out in alignElements.
*
* @private
* @function Highcharts.RangeSelector#renderButtons
*/
renderButtons() {
const { buttons, chart, options } = this;
const lang = defaultOptions.lang;
const renderer = chart.renderer;
const buttonTheme = merge(options.buttonTheme);
const states = buttonTheme && buttonTheme.states;
// Prevent the button from resetting the width when the button state
// changes since we need more control over the width when collapsing
// the buttons
const width = buttonTheme.width || 28;
delete buttonTheme.width;
delete buttonTheme.states;
this.buttonGroup = renderer.g('range-selector-buttons').add(this.group);
const dropdown = this.dropdown = createElement('select', void 0, {
position: 'absolute',
width: '1px',
height: '1px',
padding: 0,
border: 0,
top: '-9999em',
cursor: 'pointer',
opacity: 0.0001
}, this.div);
// Prevent page zoom on iPhone
addEvent(dropdown, 'touchstart', () => {
dropdown.style.fontSize = '16px';
});
// Forward events from select to button
[
[H.isMS ? 'mouseover' : 'mouseenter'],
[H.isMS ? 'mouseout' : 'mouseleave'],
['change', 'click']
].forEach(([from, to]) => {
addEvent(dropdown, from, () => {
const button = buttons[this.currentButtonIndex()];
if (button) {
fireEvent(button.element, to || from);
}
});
});
this.zoomText = renderer
.label((lang && lang.rangeSelectorZoom) || '', 0)
.attr({
padding: options.buttonTheme.padding,
height: options.buttonTheme.height,
paddingLeft: 0,
paddingRight: 0
})
.add(this.buttonGroup);
if (!this.chart.styledMode) {
this.zoomText.css(options.labelStyle);
buttonTheme['stroke-width'] = pick(buttonTheme['stroke-width'], 0);
}
createElement('option', {
textContent: this.zoomText.textStr,
disabled: true
}, void 0, dropdown);
this.buttonOptions.forEach((rangeOptions, i) => {
createElement('option', {
textContent: rangeOptions.title || rangeOptions.text
}, void 0, dropdown);
buttons[i] = renderer
.button(rangeOptions.text, 0, 0, (e) => {
// Extract events from button object and call
const buttonEvents = (rangeOptions.events && rangeOptions.events.click);
let callDefaultEvent;
if (buttonEvents) {
callDefaultEvent =
buttonEvents.call(rangeOptions, e);
}
if (callDefaultEvent !== false) {
this.clickButton(i);
}
this.isActive = true;
}, buttonTheme, states && states.hover, states && states.select, states && states.disabled)
.attr({
'text-align': 'center',
width
})
.add(this.buttonGroup);
if (rangeOptions.title) {
buttons[i].attr('title', rangeOptions.title);
}
});
}
/**
* Align the elements horizontally and vertically.
*
* @private
* @function Highcharts.RangeSelector#alignElements
*/
alignElements() {
const { buttonGroup, buttons, chart, group, inputGroup, options, zoomText } = this;
const chartOptions = chart.options;
const navButtonOptions = (chartOptions.exporting &&
chartOptions.exporting.enabled !== false &&
chartOptions.navigation &&
chartOptions.navigation.buttonOptions);
const { buttonPosition, inputPosition, verticalAlign } = options;
// Get the X offset required to avoid overlapping with the exporting
// button. This is used both by the buttonGroup and the inputGroup.
const getXOffsetForExportButton = (group, position) => {
if (navButtonOptions &&
this.titleCollision(chart) &&
verticalAlign === 'top' &&
position.align === 'right' && ((position.y -
group.getBBox().height - 12) <
((navButtonOptions.y || 0) +
(navButtonOptions.height || 0) +
chart.spacing[0]))) {
return -40;
}
return 0;
};
let plotLeft = chart.plotLeft;
if (group && buttonPosition && inputPosition) {
let translateX = buttonPosition.x - chart.spacing[3];
if (buttonGroup) {
this.positionButtons();
if (!this.initialButtonGroupWidth) {
let width = 0;
if (zoomText) {
width += zoomText.getBBox().width + 5;
}
buttons.forEach((button, i) => {
width += button.width || 0;
if (i !== buttons.length - 1) {
width += options.buttonSpacing;
}
});
this.initialButtonGroupWidth = width;
}
plotLeft -= chart.spacing[3];
this.updateButtonStates();
// Detect collision between button group and exporting
const xOffsetForExportButton = getXOffsetForExportButton(buttonGroup, buttonPosition);
this.alignButtonGroup(xOffsetForExportButton);
// Skip animation
group.placed = buttonGroup.placed = chart.hasLoaded;
}
let xOffsetForExportButton = 0;
if (inputGroup) {
// Detect collision between the input group and exporting button
xOffsetForExportButton = getXOffsetForExportButton(inputGroup, inputPosition);
if (inputPosition.align === 'left') {
translateX = plotLeft;
}
else if (inputPosition.align === 'right') {
translateX = -Math.max(chart.axisOffset[1], -xOffsetForExportButton);
}
// Update the alignment to the updated spacing box
inputGroup.align({
y: inputPosition.y,
width: inputGroup.getBBox().width,
align: inputPosition.align,
// Fix wrong getBBox() value on right align
x: inputPosition.x + translateX - 2
}, true, chart.spacingBox);
// Skip animation
inputGroup.placed = chart.hasLoaded;
}
this.handleCollision(xOffsetForExportButton);
// Vertical align
group.align({
verticalAlign
}, true, chart.spacingBox);
const alignTranslateY = group.alignAttr.translateY;
// Set position
let groupHeight = group.getBBox().height + 20; // # 20 padding
let translateY = 0;
// Calculate bottom position
if (verticalAlign === 'bottom') {
const legendOptions = chart.legend && chart.legend.options;
const legendHeight = (legendOptions &&
legendOptions.verticalAlign === 'bottom' &&
legendOptions.enabled &&
!legendOptions.floating ?
(chart.legend.legendHeight +
pick(legendOptions.margin, 10)) :
0);
groupHeight = groupHeight + legendHeight - 20;
translateY = (alignTranslateY -
groupHeight -
(options.floating ? 0 : options.y) -
(chart.titleOffset ? chart.titleOffset[2] : 0) -
10 // 10 spacing
);
}
if (verticalAlign === 'top') {
if (options.floating) {
translateY = 0;
}
if (chart.titleOffset && chart.titleOffset[0]) {
translateY = chart.titleOffset[0];
}
translateY += ((chart.margin[0] - chart.spacing[0]) || 0);
}
else if (verticalAlign === 'middle') {
if (inputPosition.y === buttonPosition.y) {
translateY = alignTranslateY;
}
else if (inputPosition.y || buttonPosition.y) {
if (inputPosition.y < 0 ||
buttonPosition.y < 0) {
translateY -= Math.min(inputPosition.y, buttonPosition.y);
}
else {
translateY = alignTranslateY - groupHeight;
}
}
}
group.translate(options.x, options.y + Math.floor(translateY));
// Translate HTML inputs
const { minInput, maxInput, dropdown } = this;
if (options.inputEnabled && minInput && maxInput) {
minInput.style.marginTop = group.translateY + 'px';
maxInput.style.marginTop = group.translateY + 'px';
}
if (dropdown) {
dropdown.style.marginTop = group.translateY + 'px';
}
}
}
/**
* Align the button group horizontally and vertically.
*
* @private
* @function Highcharts.RangeSelector#alignButtonGroup
* @param {number} xOffsetForExportButton
* @param {number} [width]
*/
alignButtonGroup(xOffsetForExportButton, width) {
const { chart, options, buttonGroup } = this;
const { buttonPosition } = options;
const plotLeft = chart.plotLeft - chart.spacing[3];
let translateX = buttonPosition.x - chart.spacing[3];
if (buttonPosition.align === 'right') {
translateX += xOffsetForExportButton - plotLeft; // #13014
}
else if (buttonPosition.align === 'center') {
translateX -= plotLeft / 2;
}
if (buttonGroup) {
// Align button group
buttonGroup.align({
y: buttonPosition.y,
width: pick(width, this.initialButtonGroupWidth),
align: buttonPosition.align,
x: translateX
}, true, chart.spacingBox);
}
}
/**
* @private
* @function Highcharts.RangeSelector#positionButtons
*/
positionButtons() {
const { buttons, chart, options, zoomText } = this;
const verb = chart.hasLoaded ? 'animate' : 'attr';
const { buttonPosition } = options;
const plotLeft = chart.plotLeft;
let buttonLeft = plotLeft;
if (zoomText && zoomText.visibility !== 'hidden') {
// #8769, allow dynamically updating margins
zoomText[verb]({
x: pick(plotLeft + buttonPosition.x, plotLeft)
});
// Button start position
buttonLeft += buttonPosition.x +
zoomText.getBBox().width + 5;
}
for (let i = 0, iEnd = this.buttonOptions.length; i < iEnd; ++i) {
if (buttons[i].visibility !== 'hidden') {
buttons[i][verb]({ x: buttonLeft });
// Increase the button position for the next button
buttonLeft += (buttons[i].width || 0) + options.buttonSpacing;
}
else {
buttons[i][verb]({ x: plotLeft });
}
}
}
/**
* Handle collision between the button group and the input group
*
* @private
* @function Highcharts.RangeSelector#handleCollision
*
* @param {number} xOffsetForExportButton
* The X offset of the group required to make room for the
* exporting button
*/
handleCollision(xOffsetForExportButton) {
const { chart, buttonGroup, inputGroup } = this;
const { buttonPosition, dropdown, inputPosition } = this.options;
const maxButtonWidth = () => {
let buttonWidth = 0;
this.buttons.forEach((button) => {
const bBox = button.getBBox();
if (bBox.width > buttonWidth) {
buttonWidth = bBox.width;
}
});
return buttonWidth;
};
const groupsOverlap = (buttonGroupWidth) => {
if (inputGroup && buttonGroup) {
const inputGroupX = (inputGroup.alignAttr.translateX +
inputGroup.alignOptions.x -
xOffsetForExportButton +
// `getBBox` for detecing left margin
inputGroup.getBBox().x +
// 2px padding to not overlap input and label
2);
const inputGroupWidth = inputGroup.alignOptions.width;
const buttonGroupX = buttonGroup.alignAttr.translateX +
buttonGroup.getBBox().x;
return (buttonGroupX + buttonGroupWidth > inputGroupX) &&
(inputGroupX + inputGroupWidth > buttonGroupX) &&
(buttonPosition.y <
(inputPosition.y +
inputGroup.getBBox().height));
}
return false;
};
const moveInputsDown = () => {
if (inputGroup && buttonGroup) {
inputGroup.attr({
translateX: inputGroup.alignAttr.translateX + (chart.axisOffset[1] >= -xOffsetForExportButton ?
0 :
-xOffsetForExportButton),
translateY: inputGroup.alignAttr.translateY +
buttonGroup.getBBox().height + 10
});
}
};
if (buttonGroup) {
if (dropdown === 'always') {
this.collapseButtons(xOffsetForExportButton);
if (groupsOverlap(maxButtonWidth())) {
// Move the inputs down if there is still a collision
// after collapsing the buttons
moveInputsDown();
}
return;
}
if (dropdown === 'never') {
this.expandButtons();
}
}
// Detect collision
if (inputGroup && buttonGroup) {
if ((inputPosition.align === buttonPosition.align) ||
// 20 is minimal spacing between elements
groupsOverlap(this.initialButtonGroupWidth + 20)) {
if (dropdown === 'responsive') {
this.collapseButtons(xOffsetForExportButton);
if (groupsOverlap(maxButtonWidth())) {
moveInputsDown();
}
}
else {
moveInputsDown();
}
}
else if (dropdown === 'responsive') {
this.expandButtons();
}
}
else if (buttonGroup && dropdown === 'responsive') {
if (this.initialButtonGroupWidth > chart.plotWidth) {
this.collapseButtons(xOffsetForExportButton);
}
else {
this.expandButtons();
}
}
}
/**
* Collapse the buttons and put the select element on top.
*
* @private
* @function Highcharts.RangeSelector#collapseButtons
* @param {number} xOffsetForExportButton
*/
collapseButtons(xOffsetForExportButton) {
const { buttons, buttonOptions, chart, dropdown, options, zoomText } = this;
// If the buttons are already collapsed do nothing.
if (this.isCollapsed === true) {
return;
}
this.isCollapsed = true;
const userButtonTheme = (chart.userOptions.rangeSelector &&
chart.userOptions.rangeSelector.buttonTheme) || {};
const getAttribs = (text) => ({
text: text ? `${text}` : '▾',
width: 'auto',
paddingLeft: pick(options.buttonTheme.paddingLeft, userButtonTheme.padding, 8),
paddingRight: pick(options.buttonTheme.paddingRight, userButtonTheme.padding, 8)
});
if (zoomText) {
zoomText.hide();
}
let hasActiveButton = false;
buttonOptions.forEach((rangeOptions, i) => {
const button = buttons[i];
if (button.state !== 2) {
button.hide();
}
else {
button.show();
button.attr(getAttribs(rangeOptions.text));
hasActiveButton = true;
}
});
if (!hasActiveButton) {
if (dropdown) {
dropdown.selectedIndex = 0;
}
buttons[0].show();
buttons[0].attr(getAttribs(this.zoomText && this.zoomText.textStr));
}
const { align } = options.buttonPosition;
this.positionButtons();
if (align === 'right' || align === 'center') {
this.alignButtonGroup(xOffsetForExportButton, buttons[this.currentButtonIndex()].getBBox().width);
}
this.showDropdown();
}
/**
* Show all the buttons and hide the select element.
*
* @private
* @function Highcharts.RangeSelector#expandButtons
*/
expandButtons() {
const { buttons, buttonOptions, options, zoomText } = this;
this.hideDropdown();
// If buttons are already not collapsed, do nothing.
if (this.isCollapsed === false) {
return;
}
this.isCollapsed = false;
if (zoomText) {
zoomText.show();
}
buttonOptions.forEach((rangeOptions, i) => {
const button = buttons[i];
button.show();
button.attr({
text: rangeOptions.text,
width: options.buttonTheme.width || 28,
paddingLeft: pick(options.buttonTheme.paddingLeft, 'unset'),
paddingRight: pick(options.buttonTheme.paddingRight, 'unset')
});
if (button.state < 2) {
button.setState(0);
}
});
this.positionButtons();
}
/**
* Get the index of the visible button when the buttons are collapsed.
*
* @private
* @function Highcharts.RangeSelector#currentButtonIndex
*/
currentButtonIndex() {
const { dropdown } = this;
if (dropdown && dropdown.selectedIndex > 0) {
return dropdown.selectedIndex - 1;
}
return 0;
}
/**
* Position the select element on top of the button.
*
* @private
* @function Highcharts.RangeSelector#showDropdown
*/
showDropdown() {
const { buttonGroup, buttons, chart, dropdown } = this;
if (buttonGroup && dropdown) {
const { translateX = 0, translateY = 0 } = buttonGroup, bBox = buttons[this.currentButtonIndex()].getBBox();
css(dropdown, {
left: (chart.plotLeft + translateX) + 'px',
top: (translateY + 0.5) + 'px',
width: bBox.width + 'px',
height: bBox.height + 'px'
});
this.hasVisibleDropdown = true;
}
}
/**
* @private
* @function Highcharts.RangeSelector#hideDropdown
*/
hideDropdown() {
const { dropdown } = this;
if (dropdown) {
css(dropdown, {
top: '-9999em',
width: '1px',
height: '1px'
});
this.hasVisibleDropdown = false;
}
}
/**
* Extracts height of range selector
*
* @private
* @function Highcharts.RangeSelector#getHeight
* @return {number}
* Returns rangeSelector height
*/
getHeight() {
const rangeSelector = this, options = rangeSelector.options, rangeSelectorGroup = rangeSelector.group, inputPosition = options.inputPosition, buttonPosition = options.buttonPosition, yPosition = options.y, buttonPositionY = buttonPosition.y, inputPositionY = inputPosition.y;
let rangeSelectorHeight = 0;
if (options.height) {
return options.height;
}
// Align the elements before we read the height in case we're switching
// between wrapped and non-wrapped layout
this.alignElements();
rangeSelectorHeight = rangeSelectorGroup ?
// 13px to keep back compatibility
(rangeSelectorGroup.getBBox(true).height) + 13 +
yPosition :
0;
const minPosition = Math.min(inputPositionY, buttonPositionY);
if ((inputPositionY < 0 && buttonPositionY < 0) ||
(inputPositionY > 0 && buttonPositionY > 0)) {
rangeSelectorHeight += Math.abs(minPosition);
}
return rangeSelectorHeight;
}
/**
* Detect collision with title or subtitle
*
* @private
* @function Highcharts.RangeSelector#titleCollision
* @return {boolean}
* Returns collision status
*/
titleCollision(chart) {
return !(chart.options.title.text ||
chart.options.subtitle.text);
}
/**
* Update the range selector with new options
*
* @private
* @function Highcharts.RangeSelector#update
* @param {Highcharts.RangeSelectorOptions} options
*/
update(options) {
const chart = this.chart;
merge(true, chart.options.rangeSelector, options);
this.destroy();
this.init(chart);
this.render();
}
/**
* Destroys allocated elements.
*
* @private
* @function Highcharts.RangeSelector#destroy
*/
destroy() {
const rSelector = this, minInput = rSelector.minInput, maxInput = rSelector.maxInput;
if (rSelector.eventsToUnbind) {
rSelector.eventsToUnbind.forEach((unbind) => unbind());
rSelector.eventsToUnbind = void 0;
}
// Destroy elements in collections
destroyObjectProperties(rSelector.buttons);
// Clear input element events
if (minInput) {
minInput.onfocus = minInput.onblur = minInput.onchange = null;
}
if (maxInput) {
maxInput.onfocus = maxInput.onblur = maxInput.onchange = null;
}
// Destroy HTML and SVG elements
objectEach(rSelector, function (val, key) {
if (val && key !== 'chart') {
if (val instanceof SVGElement) {
// SVGElement
val.destroy();
}
else if (val instanceof window.HTMLElement) {
// HTML element
discardElement(val);
}
}
if (val !== RangeSelector.prototype[key]) {
rSelector[key] = null;
}
}, this);
}
}
extend(RangeSelector.prototype, {
/**
* The default buttons for pre-selecting time frames.
* @private
*/
defaultButtons: [{
type: 'month',
count: 1,
text: '1m',
title: 'View 1 month'
}, {
type: 'month',
count: 3,
text: '3m',
title: 'View 3 months'
}, {
type: 'month',
count: 6,
text: '6m',
title: 'View 6 months'
}, {
type: 'ytd',
text: 'YTD',
title: 'View year to date'
}, {
type: 'year',
count: 1,
text: '1y',
title: 'View 1 year'
}, {
type: 'all',
text: 'All',
title: 'View all'
}],
/**
* The date formats to use when setting min, max and value on date inputs.
* @private
*/
inputTypeFormats: {
'datetime-local': '%Y-%m-%dT%H:%M:%S',
'date': '%Y-%m-%d',
'time': '%H:%M:%S'
}
});
/* *
*
* Default Export
*
* */
/* *
*
* API Options
*
* */
/**
* Define the time span for the button
*
* @typedef {"all"|"day"|"hour"|"millisecond"|"minute"|"month"|"second"|"week"|"year"|"ytd"} Highcharts.RangeSelectorButtonTypeValue
*/
/**
* Callback function to react on button clicks.
*
* @callback Highcharts.RangeSelectorClickCallbackFunction
*
* @param {global.Event} e
* Event arguments.
*
* @param {boolean|undefined}
* Return false to cancel the default button event.
*/
/**
* Callback function to parse values entered in the input boxes and return a
* valid JavaScript time as milliseconds since 1970.
*
* @callback Highcharts.RangeSelectorParseCallbackFunction
*
* @param {string} value
* Input value to parse.
*
* @return {number}
* Parsed JavaScript time value.
*/
(''); // Keeps doclets above in JS file
return RangeSelector;
});
_registerModule(_modules, 'Core/Chart/StockChart.js', [_modules['Core/Chart/Chart.js'], _modules['Core/Templating.js'], _modules['Core/Defaults.js'], _modules['Stock/Navigator/NavigatorDefaults.js'], _modules['Stock/RangeSelector/RangeSelectorDefaults.js'], _modules['Stock/Scrollbar/ScrollbarDefaults.js'], _modules['Stock/Utilities/StockUtilities.js'], _modules['Core/Utilities.js']], function (Chart, F, D, NavigatorDefaults, RangeSelectorDefaults, ScrollbarDefaults, StockUtilities, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { format } = F;
const { getOptions } = D;
const { setFixedRange } = StockUtilities;
const { addEvent, clamp, defined, extend, find, isNumber, isString, merge, pick, splat } = U;
/* *
*
* Functions
*
* */
/**
* Get stock-specific default axis options.
*
* @private
* @function getDefaultAxisOptions
*/
function getDefaultAxisOptions(coll, options, defaultOptions) {
if (coll === 'xAxis') {
return {
minPadding: 0,
maxPadding: 0,
overscroll: 0,
ordinal: true
};
}
if (coll === 'yAxis') {
return {
labels: {
y: -2
},
opposite: defaultOptions.opposite ?? options.opposite ?? true,
showLastLabel: !!(
// #6104, show last label by default for category axes
options.categories ||
options.type === 'category'),
title: {
text: defaultOptions.title?.text !== 'Values' ?
defaultOptions.title?.text :
null
}
};
}
return {};
}
/**
* Get stock-specific forced axis options.
*
* @private
* @function getForcedAxisOptions
*/
function getForcedAxisOptions(type, chartOptions) {
if (type === 'xAxis') {
// Always disable startOnTick:true on the main axis when the navigator
// is enabled (#1090)
const navigatorEnabled = pick(chartOptions.navigator && chartOptions.navigator.enabled, NavigatorDefaults.enabled, true);
const axisOptions = {
type: 'datetime',
categories: void 0
};
if (navigatorEnabled) {
axisOptions.startOnTick = false;
axisOptions.endOnTick = false;
}
return axisOptions;
}
return {};
}
/* *
*
* Class
*
* */
/**
* Stock-optimized chart. Use {@link Highcharts.Chart|Chart} for common charts.
*
* @requires modules/stock
*
* @class
* @name Highcharts.StockChart
* @extends Highcharts.Chart
*/
class StockChart extends Chart {
/* *
*
* Functions
*
* */
/**
* Initializes the chart. The constructor's arguments are passed on
* directly.
*
* @function Highcharts.StockChart#init
*
* @param {Highcharts.Options} userOptions
* Custom options.
*
* @param {Function} [callback]
* Function to run when the chart has loaded and all external
* images are loaded.
*
*
* @emits Highcharts.StockChart#event:init
* @emits Highcharts.StockChart#event:afterInit
*/
init(userOptions, callback) {
const defaultOptions = getOptions(), xAxisOptions = userOptions.xAxis, yAxisOptions = userOptions.yAxis,
// Always disable startOnTick:true on the main axis when the
// navigator is enabled (#1090)
navigatorEnabled = pick(userOptions.navigator && userOptions.navigator.enabled, NavigatorDefaults.enabled, true);
// Avoid doing these twice
userOptions.xAxis = userOptions.yAxis = void 0;
const options = merge({
chart: {
panning: {
enabled: true,
type: 'x'
},
zooming: {
pinchType: 'x',
mouseWheel: {
type: 'x'
}
}
},
navigator: {
enabled: navigatorEnabled
},
scrollbar: {
// #4988 - check if setOptions was called
enabled: pick(ScrollbarDefaults.enabled, true)
},
rangeSelector: {
// #4988 - check if setOptions was called
enabled: pick(RangeSelectorDefaults.rangeSelector.enabled, true)
},
title: {
text: null
},
tooltip: {
split: pick(defaultOptions.tooltip && defaultOptions.tooltip.split, true),
crosshairs: true
},
legend: {
enabled: false
}
}, userOptions, // User's options
{
isStock: true // Internal flag
});
userOptions.xAxis = xAxisOptions;
userOptions.yAxis = yAxisOptions;
// Apply X axis options to both single and multi y axes
options.xAxis = splat(userOptions.xAxis || {}).map((xAxisOptions) => merge(getDefaultAxisOptions('xAxis', xAxisOptions, defaultOptions.xAxis),
// #7690
xAxisOptions, // User options
getForcedAxisOptions('xAxis', userOptions)));
// Apply Y axis options to both single and multi y axes
options.yAxis = splat(userOptions.yAxis || {}).map((yAxisOptions) => merge(getDefaultAxisOptions('yAxis', yAxisOptions, defaultOptions.yAxis),
// #7690
yAxisOptions // User options
));
super.init(options, callback);
}
/**
* Factory for creating different axis types.
* Extended to add stock defaults.
*
* @private
* @function Highcharts.StockChart#createAxis
* @param {string} coll
* An axis type.
* @param {Chart.CreateAxisOptionsObject} options
* The axis creation options.
*/
createAxis(coll, options) {
options.axis = merge(getDefaultAxisOptions(coll, options.axis, getOptions()[coll]), options.axis, getForcedAxisOptions(coll, this.userOptions));
return super.createAxis(coll, options);
}
}
addEvent(Chart, 'update', function (e) {
const chart = this, options = e.options;
// Use case: enabling scrollbar from a disabled state.
// Scrollbar needs to be initialized from a controller, Navigator in this
// case (#6615)
if ('scrollbar' in options && chart.navigator) {
merge(true, chart.options.scrollbar, options.scrollbar);
chart.navigator.update({});
delete options.scrollbar;
}
});
/* *
*
* Composition
*
* */
(function (StockChart) {
/* *
*
* Functions
*
* */
/** @private */
function compose(ChartClass, AxisClass, SeriesClass, SVGRendererClass) {
const seriesProto = SeriesClass.prototype;
if (!seriesProto.forceCropping) {
addEvent(AxisClass, 'afterDrawCrosshair', onAxisAfterDrawCrosshair);
addEvent(AxisClass, 'afterHideCrosshair', onAxisAfterHideCrosshair);
addEvent(AxisClass, 'autoLabelAlign', onAxisAutoLabelAlign);
addEvent(AxisClass, 'destroy', onAxisDestroy);
addEvent(AxisClass, 'getPlotLinePath', onAxisGetPlotLinePath);
ChartClass.prototype.setFixedRange = setFixedRange;
seriesProto.forceCropping = seriesForceCropping;
addEvent(SeriesClass, 'setOptions', onSeriesSetOptions);
SVGRendererClass.prototype.crispPolyLine = svgRendererCrispPolyLine;
}
}
StockChart.compose = compose;
/**
* Extend crosshairs to also draw the label.
* @private
*/
function onAxisAfterDrawCrosshair(event) {
const axis = this;
// Check if the label has to be drawn
if (!axis.crosshair ||
!axis.crosshair.label ||
!axis.crosshair.label.enabled ||
!axis.cross ||
!isNumber(axis.min) ||
!isNumber(axis.max)) {
return;
}
const chart = axis.chart, log = axis.logarithmic, options = axis.crosshair.label, // The label's options
horiz = axis.horiz, // Axis orientation
opposite = axis.opposite, // Axis position
left = axis.left, // Left position
top = axis.top, // Top position
width = axis.width, tickInside = axis.options.tickPosition === 'inside', snap = axis.crosshair.snap !== false, e = event.e || (axis.cross && axis.cross.e), point = event.point;
let crossLabel = axis.crossLabel, // The svgElement
posx, posy, formatOption = options.format, formatFormat = '', limit, offset = 0,
// Use last available event (#5287)
min = axis.min, max = axis.max;
if (log) {
min = log.lin2log(axis.min);
max = log.lin2log(axis.max);
}
const align = (horiz ? 'center' : opposite ?
(axis.labelAlign === 'right' ? 'right' : 'left') :
(axis.labelAlign === 'left' ? 'left' : 'center'));
// If the label does not exist yet, create it.
if (!crossLabel) {
crossLabel = axis.crossLabel = chart.renderer
.label('', 0, void 0, options.shape || 'callout')
.addClass('highcharts-crosshair-label highcharts-color-' + (point && point.series ?
point.series.colorIndex :
axis.series[0] && this.series[0].colorIndex))
.attr({
align: options.align || align,
padding: pick(options.padding, 8),
r: pick(options.borderRadius, 3),
zIndex: 2
})
.add(axis.labelGroup);
// Presentational
if (!chart.styledMode) {
crossLabel
.attr({
fill: options.backgroundColor ||
( // #14888
point && point.series &&
point.series.color) ||
"#666666" /* Palette.neutralColor60 */,
stroke: options.borderColor || '',
'stroke-width': options.borderWidth || 0
})
.css(extend({
color: "#ffffff" /* Palette.backgroundColor */,
fontWeight: 'normal',
fontSize: '0.7em',
textAlign: 'center'
}, options.style || {}));
}
}
if (horiz) {
posx = snap ? (point.plotX || 0) + left : e.chartX;
posy = top + (opposite ? 0 : axis.height);
}
else {
posx = left + axis.offset + (opposite ? width : 0);
posy = snap ? (point.plotY || 0) + top : e.chartY;
}
if (!formatOption && !options.formatter) {
if (axis.dateTime) {
formatFormat = '%b %d, %Y';
}
formatOption =
'{value' + (formatFormat ? ':' + formatFormat : '') + '}';
}
// Show the label
const value = snap ?
(axis.isXAxis ? point.x : point.y) :
axis.toValue(horiz ? e.chartX : e.chartY);
// Crosshair should be rendered within Axis range (#7219) and the point
// of currentPriceIndicator should be inside the plot area (#14879).
const isInside = point && point.series ?
point.series.isPointInside(point) :
(isNumber(value) && value > min && value < max);
let text = '';
if (formatOption) {
text = format(formatOption, { value }, chart);
}
else if (options.formatter && isNumber(value)) {
text = options.formatter.call(axis, value);
}
crossLabel.attr({
text,
x: posx,
y: posy,
visibility: isInside ? 'inherit' : 'hidden'
});
const crossBox = crossLabel.getBBox();
// Now it is placed we can correct its position
if (isNumber(crossLabel.x) && !horiz && !opposite) {
posx = crossLabel.x - (crossBox.width / 2);
}
if (isNumber(crossLabel.y)) {
if (horiz) {
if ((tickInside && !opposite) || (!tickInside && opposite)) {
posy = crossLabel.y - crossBox.height;
}
}
else {
posy = crossLabel.y - (crossBox.height / 2);
}
}
// Check the edges
if (horiz) {
limit = {
left,
right: left + axis.width
};
}
else {
limit = {
left: axis.labelAlign === 'left' ? left : 0,
right: axis.labelAlign === 'right' ?
left + axis.width :
chart.chartWidth
};
}
const translateX = crossLabel.translateX || 0;
// Left edge
if (translateX < limit.left) {
offset = limit.left - translateX;
}
// Right edge
if (translateX + crossBox.width >= limit.right) {
offset = -(translateX + crossBox.width - limit.right);
}
// Show the crosslabel
crossLabel.attr({
x: posx + offset,
y: posy,
// First set x and y, then anchorX and anchorY, when box is actually
// calculated, #5702
anchorX: horiz ?
posx :
(axis.opposite ? 0 : chart.chartWidth),
anchorY: horiz ?
(axis.opposite ? chart.chartHeight : 0) :
posy + crossBox.height / 2
});
}
/**
* Wrapper to hide the label.
* @private
*/
function onAxisAfterHideCrosshair() {
const axis = this;
if (axis.crossLabel) {
axis.crossLabel = axis.crossLabel.hide();
}
}
/**
* Override the automatic label alignment so that the first Y axis' labels
* are drawn on top of the grid line, and subsequent axes are drawn outside.
* @private
*/
function onAxisAutoLabelAlign(e) {
const axis = this, chart = axis.chart, options = axis.options, panes = chart._labelPanes = chart._labelPanes || {}, labelOptions = options.labels;
if (chart.options.isStock && axis.coll === 'yAxis') {
const key = options.top + ',' + options.height;
// Do it only for the first Y axis of each pane
if (!panes[key] && labelOptions.enabled) {
if (labelOptions.distance === 15 && // Default
axis.side === 1) {
labelOptions.distance = 0;
}
if (typeof labelOptions.align === 'undefined') {
labelOptions.align = 'right';
}
panes[key] = axis;
e.align = 'right';
e.preventDefault();
}
}
}
/**
* Clear axis from label panes. (#6071)
* @private
*/
function onAxisDestroy() {
const axis = this, chart = axis.chart, key = (axis.options &&
(axis.options.top + ',' + axis.options.height));
if (key && chart._labelPanes && chart._labelPanes[key] === axis) {
delete chart._labelPanes[key];
}
}
/**
* Override getPlotLinePath to allow for multipane charts.
* @private
*/
function onAxisGetPlotLinePath(e) {
const axis = this, series = (axis.isLinked && !axis.series && axis.linkedParent ?
axis.linkedParent.series :
axis.series), chart = axis.chart, renderer = chart.renderer, axisLeft = axis.left, axisTop = axis.top, result = [], translatedValue = e.translatedValue, value = e.value, force = e.force,
/**
* Return the other axis based on either the axis option or on
* related series.
* @private
*/
getAxis = (coll) => {
const otherColl = coll === 'xAxis' ? 'yAxis' : 'xAxis', opt = axis.options[otherColl];
// Other axis indexed by number
if (isNumber(opt)) {
return [chart[otherColl][opt]];
}
// Other axis indexed by id (like navigator)
if (isString(opt)) {
return [chart.get(opt)];
}
// Auto detect based on existing series
return series.map((s) => s[otherColl]);
};
let x1, y1, x2, y2, axes = [], // #3416 need a default array
axes2, uniqueAxes, transVal;
if ( // For stock chart, by default render paths across the panes
// except the case when `acrossPanes` is disabled by user (#6644)
(chart.options.isStock && e.acrossPanes !== false) &&
// Ignore in case of colorAxis or zAxis. #3360, #3524, #6720
axis.coll === 'xAxis' || axis.coll === 'yAxis') {
e.preventDefault();
// Get the related axes based on series
axes = getAxis(axis.coll);
// Get the related axes based options.*Axis setting #2810
axes2 = (axis.isXAxis ? chart.yAxis : chart.xAxis);
for (const A of axes2) {
if (defined(A.options.id) ?
A.options.id.indexOf('navigator') === -1 :
true) {
const a = (A.isXAxis ? 'yAxis' : 'xAxis'), rax = (defined(A.options[a]) ?
chart[a][A.options[a]] :
chart[a][0]);
if (axis === rax) {
axes.push(A);
}
}
}
// Remove duplicates in the axes array. If there are no axes in the
// axes array, we are adding an axis without data, so we need to
// populate this with grid lines (#2796).
uniqueAxes = axes.length ?
[] :
[axis.isXAxis ? chart.yAxis[0] : chart.xAxis[0]]; // #3742
for (const axis2 of axes) {
if (uniqueAxes.indexOf(axis2) === -1 &&
// Do not draw on axis which overlap completely. #5424
!find(uniqueAxes, (unique) => (unique.pos === axis2.pos &&
unique.len === axis2.len))) {
uniqueAxes.push(axis2);
}
}
transVal = pick(translatedValue, axis.translate(value || 0, void 0, void 0, e.old));
if (isNumber(transVal)) {
if (axis.horiz) {
for (const axis2 of uniqueAxes) {
let skip;
y1 = axis2.pos;
y2 = y1 + axis2.len;
x1 = x2 = Math.round(transVal + axis.transB);
// Outside plot area
if (force !== 'pass' &&
(x1 < axisLeft || x1 > axisLeft + axis.width)) {
if (force) {
x1 = x2 = clamp(x1, axisLeft, axisLeft + axis.width);
}
else {
skip = true;
}
}
if (!skip) {
result.push(['M', x1, y1], ['L', x2, y2]);
}
}
}
else {
for (const axis2 of uniqueAxes) {
let skip;
x1 = axis2.pos;
x2 = x1 + axis2.len;
y1 = y2 = Math.round(axisTop + axis.height - transVal);
// Outside plot area
if (force !== 'pass' &&
(y1 < axisTop || y1 > axisTop + axis.height)) {
if (force) {
y1 = y2 = clamp(y1, axisTop, axisTop + axis.height);
}
else {
skip = true;
}
}
if (!skip) {
result.push(['M', x1, y1], ['L', x2, y2]);
}
}
}
}
e.path = result.length > 0 ?
renderer.crispPolyLine(result, e.lineWidth || 1) :
// #3557 getPlotLinePath in regular Highcharts also returns null
void 0;
}
}
/**
* Handle som Stock-specific series defaults, override the plotOptions
* before series options are handled.
* @private
*/
function onSeriesSetOptions(e) {
const series = this;
if (series.chart.options.isStock) {
let overrides;
if (series.is('column') || series.is('columnrange')) {
overrides = {
borderWidth: 0,
shadow: false
};
}
else if (!series.is('scatter') && !series.is('sma')) {
overrides = {
marker: {
enabled: false,
radius: 2
}
};
}
if (overrides) {
e.plotOptions[series.type] = merge(e.plotOptions[series.type], overrides);
}
}
}
/**
* Based on the data grouping options decides whether
* the data should be cropped while processing.
*
* @ignore
* @function Highcharts.Series#forceCropping
*/
function seriesForceCropping() {
const series = this, chart = series.chart, options = series.options, dataGroupingOptions = options.dataGrouping, groupingEnabled = (series.allowDG !== false &&
dataGroupingOptions &&
pick(dataGroupingOptions.enabled, chart.options.isStock));
return groupingEnabled;
}
/* eslint-disable jsdoc/check-param-names */
/**
* Factory function for creating new stock charts. Creates a new
* {@link Highcharts.StockChart|StockChart} object with different default
* options than the basic Chart.
*
* @example
* let chart = Highcharts.stockChart('container', {
* series: [{
* data: [1, 2, 3, 4, 5, 6, 7, 8, 9],
* pointInterval: 24 * 60 * 60 * 1000
* }]
* });
*
* @function Highcharts.stockChart
*
* @param {string|Highcharts.HTMLDOMElement} [renderTo]
* The DOM element to render to, or its id.
*
* @param {Highcharts.Options} options
* The chart options structure as described in the
* [options reference](https://api.highcharts.com/highstock).
*
* @param {Highcharts.ChartCallbackFunction} [callback]
* A function to execute when the chart object is finished
* rendering and all external image files (`chart.backgroundImage`,
* `chart.plotBackgroundImage` etc) are loaded. Defining a
* [chart.events.load](https://api.highcharts.com/highstock/chart.events.load)
* handler is equivalent.
*
* @return {Highcharts.StockChart}
* The chart object.
*/
function stockChart(a, b, c) {
return new StockChart(a, b, c);
}
StockChart.stockChart = stockChart;
/* eslint-enable jsdoc/check-param-names */
/**
* Function to crisp a line with multiple segments
*
* @private
* @function Highcharts.SVGRenderer#crispPolyLine
*/
function svgRendererCrispPolyLine(points, width) {
// Points format: [['M', 0, 0], ['L', 100, 0]]
// normalize to a crisp line
for (let i = 0; i < points.length; i = i + 2) {
const start = points[i], end = points[i + 1];
if (start[1] === end[1]) {
// Subtract due to #1129. Now bottom and left axis gridlines
// behave the same.
start[1] = end[1] =
Math.round(start[1]) - (width % 2 / 2);
}
if (start[2] === end[2]) {
start[2] = end[2] =
Math.round(start[2]) + (width % 2 / 2);
}
}
return points;
}
})(StockChart || (StockChart = {}));
/* *
*
* Default Export
*
* */
return StockChart;
});
_registerModule(_modules, 'Series/HLC/HLCPoint.js', [_modules['Core/Series/SeriesRegistry.js']], function (SeriesRegistry) {
/* *
*
* (c) 2010-2024 Pawel Lysy
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { column: { prototype: { pointClass: ColumnPoint } } } = SeriesRegistry.seriesTypes;
/* *
*
* Class
*
* */
class HLCPoint extends ColumnPoint {
}
/* *
*
* Default Export
*
* */
return HLCPoint;
});
_registerModule(_modules, 'Series/HLC/HLCSeriesDefaults.js', [], function () {
/* *
*
* (c) 2010-2024 Pawel Lysy
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* API Options
*
* */
/**
* An HLC chart is a style of financial chart used to describe price
* movements over time. It displays high, low and close values per
* data point.
*
* @sample stock/demo/hlc/
* HLC chart
*
* @extends plotOptions.column
* @excluding borderColor, borderRadius, borderWidth, crisp, stacking,
* stack
* @product highstock
* @optionparent plotOptions.hlc
*/
const HLCSeriesDefaults = {
/**
* The approximate pixel width of each group. If for example a series
* with 30 points is displayed over a 600 pixel wide plot area, no
* grouping is performed. If however the series contains so many points
* that the spacing is less than the groupPixelWidth, Highcharts will
* try to group it into appropriate groups so that each is more or less
* two pixels wide. Defaults to `5`.
*
* @type {number}
* @default 5
* @product highstock
* @apioption plotOptions.hlc.dataGrouping.groupPixelWidth
*/
/**
* @type {Highcharts.DataGroupingApproximationValue|Function}
* @default hlc
* @product highstock
* @apioption plotOptions.hlc.dataGrouping.approximation
*/
/**
* @default close
* @apioption plotOptions.hlc.colorKey
*/
/**
* The pixel width of the line/border. Defaults to `1`.
*
* @sample {highstock} stock/plotoptions/hlc-linewidth/
* A greater line width
*
* @type {number}
* @default 1
* @product highstock
*
* @public
*/
lineWidth: 1,
tooltip: {
pointFormat: '<span style="color:{point.color}">\u25CF</span> ' +
'<b> {series.name}</b><br/>' +
'High: {point.high}<br/>' +
'Low: {point.low}<br/>' +
'Close: {point.close}<br/>'
},
/**
* @type {number|null}
*/
threshold: null,
states: {
/**
* @extends plotOptions.column.states.hover
* @product highstock
*/
hover: {
/**
* The pixel width of the line representing the HLC point.
*
* @type {number}
* @default 3
* @product highstock
*/
lineWidth: 3
}
},
/**
* Determines which one of `high`, `low`, `close` values should
* be represented as `point.y`, which is later used to set dataLabel
* position and [compare](#plotOptions.series.compare).
*
* @sample {highstock} stock/plotoptions/hlc-pointvalkey/
* Possible values
*
* @declare Highcharts.OptionsHLCPointValKeyValue
* @type {string}
* @default close
* @validvalue ["high", "low", "close"]
* @product highstock
* @apioption plotOptions.hlc.pointValKey
*/
/**
* @default close
* @apioption plotOptions.hlc.colorKey
*/
stickyTracking: true
};
/**
* A `hlc` series. If the [type](#series.hlc.type) option is not
* specified, it is inherited from [chart.type](#chart.type).
*
* @extends series,plotOptions.hlc
* @excluding dataParser, dataURL
* @product highstock
* @apioption series.hlc
*/
/**
* An array of data points for the series. For the `hlc` series type,
* points can be given in the following ways:
*
* 1. An array of arrays with 4 or 3 values. In this case, the values correspond
* to `x,high,low,close`. If the first value is a string, it is applied
* as the name of the point, and the `x` value is inferred. The `x` value can
* also be omitted, in which case the inner arrays should be of length of 3\.
* Then the `x` value is automatically calculated, either starting at 0 and
* incremented by 1, or from `pointStart` and `pointInterval` given in the
* series options.
* ```js
* data: [
* [0, 5, 6, 7],
* [1, 4, 8, 2],
* [2, 3, 4, 10]
* ]
* ```
*
* 2. An array of objects with named values. The following snippet shows only a
* few settings, see the complete options set below. If the total number of
* data points exceeds the series'
* [turboThreshold](#series.hlc.turboThreshold), this option is not
* available.
* ```js
* data: [{
* x: 1,
* high: 4,
* low: 5,
* close: 2,
* name: "Point2",
* color: "#00FF00"
* }, {
* x: 1,
* high: 3,
* low: 6,
* close: 7,
* name: "Point1",
* color: "#FF00FF"
* }]
* ```
*
* @type {Array<Array<(number|string),number,number>|Array<(number|string),number,number,number>|*>}
* @extends series.arearange.data
* @excluding y, marker
* @product highstock
* @apioption series.hlc.data
*/
/**
* The closing value of each data point.
*
* @type {number}
* @product highstock
* @apioption series.hlc.data.close
*/
(''); // Keeps doclets above in JS file
/* *
*
* Default Export
*
* */
return HLCSeriesDefaults;
});
_registerModule(_modules, 'Series/HLC/HLCSeries.js', [_modules['Series/HLC/HLCPoint.js'], _modules['Series/HLC/HLCSeriesDefaults.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (HLCPoint, HLCSeriesDefaults, SeriesRegistry, U) {
/* *
*
* (c) 2010-2024 Pawel Lysy
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { column: ColumnSeries } = SeriesRegistry.seriesTypes;
const { extend, merge } = U;
/* *
*
* Class
*
* */
/**
* The hlc series type.
*
* @private
* @class
* @name Highcharts.seriesTypes.hlc
*
* @augments Highcharts.Series
*/
class HLCSeries extends ColumnSeries {
/* *
*
* Functions
*
* */
/**
* Extend the path if close is not between high and low.
*
* @param {SVGPath} path the path array of the point
* @param {number} halfStrokeWidth
* @param {number} value value of the point to which the stem should be extended
*/
extendStem(path, halfStrokeWidth, value) {
const start = path[0];
const end = path[1];
// We don't need to worry about crisp - close value
// is already crisped and halfStrokeWidth should remove it.
if (typeof start[2] === 'number') {
start[2] = Math.max(value + halfStrokeWidth, start[2]);
}
if (typeof end[2] === 'number') {
end[2] = Math.min(value - halfStrokeWidth, end[2]);
}
}
/**
* Function to create SVGPath of the point based on the
* plot positions of this point.
* @private
*/
getPointPath(point, graphic) {
// Crisp vector coordinates
const strokeWidth = graphic.strokeWidth(), series = point.series, crispCorr = (strokeWidth % 2) / 2,
// #2596:
crispX = Math.round(point.plotX) - crispCorr, halfWidth = Math.round(point.shapeArgs.width / 2);
let plotClose = point.plotClose;
// The vertical stem
const path = [
['M', crispX, Math.round(point.yBottom)],
['L', crispX, Math.round(point.plotHigh)]
];
// Close
if (point.close !== null) {
plotClose = Math.round(point.plotClose) + crispCorr;
path.push(['M', crispX, plotClose], ['L', crispX + halfWidth, plotClose]);
series.extendStem(path, strokeWidth / 2, plotClose);
}
return path;
}
/**
* Draw single point
* @private
*/
drawSinglePoint(point) {
const series = point.series, chart = series.chart;
let path, graphic = point.graphic;
if (typeof point.plotY !== 'undefined') {
// Create and/or update the graphic
if (!graphic) {
point.graphic = graphic = chart.renderer.path()
.add(series.group);
}
if (!chart.styledMode) {
graphic.attr(series.pointAttribs(point, (point.selected && 'select'))); // #3897
}
// Crisp vector coordinates
path = series.getPointPath(point, graphic);
graphic[!graphic ? 'attr' : 'animate']({ d: path })
.addClass(point.getClassName(), true);
}
}
/**
* Draw the data points
* @private
*/
drawPoints() {
this.points.forEach(this.drawSinglePoint);
}
/**
* @private
* @function Highcharts.seriesTypes.hlc#init
*/
init() {
super.init.apply(this, arguments);
this.options.stacking = void 0; // #8817
}
/**
* Postprocess mapping between options and SVG attributes
* @private
*/
pointAttribs(point, state) {
const attribs = super.pointAttribs.call(this, point, state);
delete attribs.fill;
return attribs;
}
toYData(point) {
// Return a plain array for speedy calculation
return [point.high, point.low, point.close];
}
/**
* Translate data points from raw values x and y to plotX and plotY
*
* @private
* @function Highcharts.seriesTypes.hlc#translate
*/
translate() {
const series = this, yAxis = series.yAxis, names = (this.pointArrayMap && this.pointArrayMap.slice()) || [], translated = names.map((name) => `plot${name.charAt(0).toUpperCase() + name.slice(1)}`);
translated.push('yBottom');
names.push('low');
super.translate.apply(series);
// Do the translation
series.points.forEach(function (point) {
names.forEach(function (name, i) {
let value = point[name];
if (value !== null) {
if (series.dataModify) {
value = series.dataModify.modifyValue(value);
}
point[translated[i]] =
yAxis.toPixels(value, true);
}
});
// Align the tooltip to the high value to avoid covering the
// point
point.tooltipPos[1] =
point.plotHigh + yAxis.pos - series.chart.plotTop;
});
}
}
/* *
*
* Static Properties
*
* */
HLCSeries.defaultOptions = merge(ColumnSeries.defaultOptions, HLCSeriesDefaults);
extend(HLCSeries.prototype, {
pointClass: HLCPoint,
animate: null,
directTouch: false,
pointArrayMap: ['high', 'low', 'close'],
pointAttrToOptions: {
stroke: 'color',
'stroke-width': 'lineWidth'
},
pointValKey: 'close'
});
SeriesRegistry.registerSeriesType('hlc', HLCSeries);
/* *
*
* Default Export
*
* */
return HLCSeries;
});
_registerModule(_modules, 'Series/OHLC/OHLCPoint.js', [_modules['Core/Series/SeriesRegistry.js']], function (SeriesRegistry) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { seriesTypes: { hlc: HLCSeries } } = SeriesRegistry;
/* *
*
* Class
*
* */
class OHLCPoint extends HLCSeries.prototype.pointClass {
/* *
*
* Functions
*
* */
/**
* Extend the parent method by adding up or down to the class name.
* @private
* @function Highcharts.seriesTypes.ohlc#getClassName
*/
getClassName() {
return super.getClassName.call(this) +
(this.open < this.close ?
' highcharts-point-up' :
' highcharts-point-down');
}
/**
* Save upColor as point color (#14826).
* @private
* @function Highcharts.seriesTypes.ohlc#resolveUpColor
*/
resolveUpColor() {
if (this.open < this.close &&
!this.options.color &&
this.series.options.upColor) {
this.color = this.series.options.upColor;
}
}
/**
* Extend the parent method by saving upColor.
* @private
* @function Highcharts.seriesTypes.ohlc#resolveColor
*/
resolveColor() {
super.resolveColor();
if (!this.series.is('heikinashi')) {
this.resolveUpColor();
}
}
/**
* Extend the parent method by saving upColor.
* @private
* @function Highcharts.seriesTypes.ohlc#getZone
*
* @return {Highcharts.SeriesZonesOptionsObject}
* The zone item.
*/
getZone() {
const zone = super.getZone();
this.resolveUpColor();
return zone;
}
/**
* Extend the parent method by resolving up/down colors (#15849)
* @private
**/
applyOptions() {
super.applyOptions.apply(this, arguments);
if (this.resolveColor) {
this.resolveColor();
}
return this;
}
}
/* *
*
* Default Export
*
* */
return OHLCPoint;
});
_registerModule(_modules, 'Series/OHLC/OHLCSeriesDefaults.js', [], function () {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* API Options
*
* */
/**
* An OHLC chart is a style of financial chart used to describe price
* movements over time. It displays open, high, low and close values per
* data point.
*
* @sample stock/demo/ohlc
* OHLC chart
*
* @extends plotOptions.hlc
* @product highstock
* @optionparent plotOptions.ohlc
*/
const OHLCSeriesDefaults = {
/**
* @type {Highcharts.DataGroupingApproximationValue|Function}
* @default ohlc
* @product highstock
* @apioption plotOptions.ohlc.dataGrouping.approximation
*/
/**
* Determines which one of `open`, `high`, `low`, `close` values should
* be represented as `point.y`, which is later used to set dataLabel
* position and [compare](#plotOptions.series.compare).
*
* @declare Highcharts.OptionsPointValKeyValue
* @default close
* @validvalue ["open", "high", "low", "close"]
* @product highstock
* @apioption plotOptions.ohlc.pointValKey
*/
/**
* Line color for up points.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @product highstock
* @apioption plotOptions.ohlc.upColor
*/
tooltip: {
pointFormat: '<span style="color:{point.color}">\u25CF</span> ' +
'<b> {series.name}</b><br/>' +
'Open: {point.open}<br/>' +
'High: {point.high}<br/>' +
'Low: {point.low}<br/>' +
'Close: {point.close}<br/>'
}
};
/**
* The parameter allows setting line series type and use OHLC indicators.
* Data in OHLC format is required.
*
* @sample {highstock} stock/indicators/use-ohlc-data
* Use OHLC data format to plot line chart
*
* @type {boolean}
* @product highstock
* @apioption plotOptions.line.useOhlcData
*/
/**
* A `ohlc` series. If the [type](#series.ohlc.type) option is not
* specified, it is inherited from [chart.type](#chart.type).
*
* @extends series,plotOptions.ohlc
* @excluding dataParser, dataURL
* @product highstock
* @apioption series.ohlc
*/
/**
* An array of data points for the series. For the `ohlc` series type,
* points can be given in the following ways:
*
* 1. An array of arrays with 5 or 4 values. In this case, the values correspond
* to `x,open,high,low,close`. If the first value is a string, it is applied
* as the name of the point, and the `x` value is inferred. The `x` value can
* also be omitted, in which case the inner arrays should be of length 4\.
* Then the `x` value is automatically calculated, either starting at 0 and
* incremented by 1, or from `pointStart` and `pointInterval` given in the
* series options.
* ```js
* data: [
* [0, 6, 5, 6, 7],
* [1, 9, 4, 8, 2],
* [2, 6, 3, 4, 10]
* ]
* ```
*
* 2. An array of objects with named values. The following snippet shows only a
* few settings, see the complete options set below. If the total number of
* data points exceeds the series'
* [turboThreshold](#series.ohlc.turboThreshold), this option is not
* available.
* ```js
* data: [{
* x: 1,
* open: 3,
* high: 4,
* low: 5,
* close: 2,
* name: "Point2",
* color: "#00FF00"
* }, {
* x: 1,
* open: 4,
* high: 3,
* low: 6,
* close: 7,
* name: "Point1",
* color: "#FF00FF"
* }]
* ```
*
* @type {Array<Array<(number|string),number,number,number>|Array<(number|string),number,number,number,number>|*>}
* @extends series.arearange.data
* @excluding y, marker
* @product highstock
* @apioption series.ohlc.data
*/
/**
* The closing value of each data point.
*
* @type {number}
* @product highstock
* @apioption series.ohlc.data.close
*/
/**
* The opening value of each data point.
*
* @type {number}
* @product highstock
* @apioption series.ohlc.data.open
*/
''; // Adds doclets above to transpiled
/* *
*
* Default Export
*
* */
return OHLCSeriesDefaults;
});
_registerModule(_modules, 'Series/OHLC/OHLCSeries.js', [_modules['Core/Globals.js'], _modules['Series/OHLC/OHLCPoint.js'], _modules['Series/OHLC/OHLCSeriesDefaults.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (H, OHLCPoint, OHLCSeriesDefaults, SeriesRegistry, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { composed } = H;
const { hlc: HLCSeries } = SeriesRegistry.seriesTypes;
const { addEvent, extend, merge, pushUnique } = U;
/* *
*
* Functions
*
* */
/**
* @private
*/
function onSeriesAfterSetOptions(e) {
const options = e.options, dataGrouping = options.dataGrouping;
if (dataGrouping &&
options.useOhlcData &&
options.id !== 'highcharts-navigator-series') {
dataGrouping.approximation = 'ohlc';
}
}
/**
* Add useOhlcData option
* @private
*/
function onSeriesInit(eventOptions) {
// eslint-disable-next-line no-invalid-this
const series = this, options = eventOptions.options;
if (options.useOhlcData &&
options.id !== 'highcharts-navigator-series') {
extend(series, {
pointValKey: OHLCSeries.prototype.pointValKey,
// Keys: ohlcProto.keys, // @todo potentially nonsense
pointArrayMap: OHLCSeries.prototype.pointArrayMap,
toYData: OHLCSeries.prototype.toYData
});
}
}
/* *
*
* Class
*
* */
/**
* The ohlc series type.
*
* @private
* @class
* @name Highcharts.seriesTypes.ohlc
*
* @augments Highcharts.Series
*/
class OHLCSeries extends HLCSeries {
/* *
*
* Static Functions
*
* */
static compose(SeriesClass, ..._args) {
if (pushUnique(composed, 'OHLCSeries')) {
addEvent(SeriesClass, 'afterSetOptions', onSeriesAfterSetOptions);
addEvent(SeriesClass, 'init', onSeriesInit);
}
}
/* *
*
* Functions
*
* */
getPointPath(point, graphic) {
const path = super.getPointPath(point, graphic), strokeWidth = graphic.strokeWidth(), crispCorr = (strokeWidth % 2) / 2, crispX = Math.round(point.plotX) - crispCorr, halfWidth = Math.round(point.shapeArgs.width / 2);
let plotOpen = point.plotOpen;
// Crisp vector coordinates
if (point.open !== null) {
plotOpen = Math.round(point.plotOpen) + crispCorr;
path.push(['M', crispX, plotOpen], ['L', crispX - halfWidth, plotOpen]);
super.extendStem(path, strokeWidth / 2, plotOpen);
}
return path;
}
/**
* Postprocess mapping between options and SVG attributes
* @private
*/
pointAttribs(point, state) {
const attribs = super.pointAttribs.call(this, point, state), options = this.options;
delete attribs.fill;
if (!point.options.color &&
options.upColor &&
point.open < point.close) {
attribs.stroke = options.upColor;
}
return attribs;
}
toYData(point) {
// Return a plain array for speedy calculation
return [point.open, point.high, point.low, point.close];
}
}
/* *
*
* Static Properties
*
* */
OHLCSeries.defaultOptions = merge(HLCSeries.defaultOptions, OHLCSeriesDefaults);
extend(OHLCSeries.prototype, {
pointClass: OHLCPoint,
pointArrayMap: ['open', 'high', 'low', 'close']
});
SeriesRegistry.registerSeriesType('ohlc', OHLCSeries);
/* *
*
* Default Export
*
* */
return OHLCSeries;
});
_registerModule(_modules, 'Series/Candlestick/CandlestickSeriesDefaults.js', [], function () {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* API Options
*
* */
/**
* A candlestick chart is a style of financial chart used to describe
* price movements over time.
*
* @sample stock/demo/candlestick/
* Candlestick chart
*
* @extends plotOptions.ohlc
* @excluding borderColor,borderRadius,borderWidth
* @product highstock
* @optionparent plotOptions.candlestick
*/
const CandlestickSeriesDefaults = {
/**
* The specific line color for up candle sticks. The default is to
* inherit the general `lineColor` setting.
*
* @sample {highstock} stock/plotoptions/candlestick-linecolor/
* Candlestick line colors
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @since 1.3.6
* @product highstock
* @apioption plotOptions.candlestick.upLineColor
*/
states: {
/**
* @extends plotOptions.column.states.hover
* @product highstock
*/
hover: {
/**
* The pixel width of the line/border around the
* candlestick.
*
* @product highstock
*/
lineWidth: 2
}
},
/**
* @type {number|null}
* @product highstock
*/
threshold: null,
/**
* The color of the line/border of the candlestick.
*
* In styled mode, the line stroke can be set with the
* `.highcharts-candlestick-series .highcahrts-point` rule.
*
* @see [upLineColor](#plotOptions.candlestick.upLineColor)
*
* @sample {highstock} stock/plotoptions/candlestick-linecolor/
* Candlestick line colors
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @default #000000
* @product highstock
*/
lineColor: "#000000" /* Palette.neutralColor100 */,
/**
* The pixel width of the candlestick line/border. Defaults to `1`.
*
*
* In styled mode, the line stroke width can be set with the
* `.highcharts-candlestick-series .highcahrts-point` rule.
*
* @product highstock
*/
lineWidth: 1,
/**
* The fill color of the candlestick when values are rising.
*
* In styled mode, the up color can be set with the
* `.highcharts-candlestick-series .highcharts-point-up` rule.
*
* @sample {highstock} stock/plotoptions/candlestick-color/
* Custom colors
* @sample {highstock} highcharts/css/candlestick/
* Colors in styled mode
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @default #ffffff
* @product highstock
*/
upColor: "#ffffff" /* Palette.backgroundColor */,
/**
* @product highstock
*/
stickyTracking: true
};
/**
* A `candlestick` series. If the [type](#series.candlestick.type)
* option is not specified, it is inherited from [chart.type](
* #chart.type).
*
* @type {*}
* @extends series,plotOptions.candlestick
* @excluding dataParser, dataURL, marker
* @product highstock
* @apioption series.candlestick
*/
/**
* An array of data points for the series. For the `candlestick` series
* type, points can be given in the following ways:
*
* 1. An array of arrays with 5 or 4 values. In this case, the values correspond
* to `x,open,high,low,close`. If the first value is a string, it is applied
* as the name of the point, and the `x` value is inferred. The `x` value can
* also be omitted, in which case the inner arrays should be of length 4.
* Then the `x` value is automatically calculated, either starting at 0 and
* incremented by 1, or from `pointStart` and `pointInterval` given in the
* series options.
* ```js
* data: [
* [0, 7, 2, 0, 4],
* [1, 1, 4, 2, 8],
* [2, 3, 3, 9, 3]
* ]
* ```
*
* 2. An array of objects with named values. The following snippet shows only a
* few settings, see the complete options set below. If the total number of
* data points exceeds the series'
* [turboThreshold](#series.candlestick.turboThreshold), this option is not
* available.
* ```js
* data: [{
* x: 1,
* open: 9,
* high: 2,
* low: 4,
* close: 6,
* name: "Point2",
* color: "#00FF00"
* }, {
* x: 1,
* open: 1,
* high: 4,
* low: 7,
* close: 7,
* name: "Point1",
* color: "#FF00FF"
* }]
* ```
*
* @type {Array<Array<(number|string),number,number,number>|Array<(number|string),number,number,number,number>|*>}
* @extends series.ohlc.data
* @excluding y
* @product highstock
* @apioption series.candlestick.data
*/
''; // Adds doclets above to transpiled
/* *
*
* Default Export
*
* */
return CandlestickSeriesDefaults;
});
_registerModule(_modules, 'Series/Candlestick/CandlestickSeries.js', [_modules['Series/Candlestick/CandlestickSeriesDefaults.js'], _modules['Core/Defaults.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (CandlestickSeriesDefaults, D, SeriesRegistry, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { defaultOptions } = D;
const { column: ColumnSeries, ohlc: OHLCSeries } = SeriesRegistry.seriesTypes;
const { merge } = U;
/* *
*
* Class
*
* */
/**
* The candlestick series type.
*
* @private
* @class
* @name Highcharts.seriesTypes.candlestick
*
* @augments Highcharts.seriesTypes.ohlc
*/
class CandlestickSeries extends OHLCSeries {
/* *
*
* Functions
*
* */
/**
* Postprocess mapping between options and SVG attributes
*
* @private
* @function Highcharts.seriesTypes.candlestick#pointAttribs
*/
pointAttribs(point, state) {
const attribs = ColumnSeries.prototype.pointAttribs.call(this, point, state), options = this.options, isUp = point.open < point.close, stroke = options.lineColor || this.color, color = point.color || this.color; // (#14826)
attribs['stroke-width'] = options.lineWidth;
attribs.fill = point.options.color ||
(isUp ? (options.upColor || color) : color);
attribs.stroke = point.options.lineColor ||
(isUp ? (options.upLineColor || stroke) : stroke);
// Select or hover states
if (state) {
const stateOptions = options.states[state];
attribs.fill = stateOptions.color || attribs.fill;
attribs.stroke = stateOptions.lineColor || attribs.stroke;
attribs['stroke-width'] =
stateOptions.lineWidth || attribs['stroke-width'];
}
return attribs;
}
/**
* Draw the data points.
*
* @private
* @function Highcharts.seriesTypes.candlestick#drawPoints
*/
drawPoints() {
const series = this, points = series.points, chart = series.chart, reversedYAxis = series.yAxis.reversed;
for (const point of points) {
let graphic = point.graphic, plotOpen, plotClose, topBox, bottomBox, hasTopWhisker, hasBottomWhisker, crispCorr, crispX, path, halfWidth;
const isNew = !graphic;
if (typeof point.plotY !== 'undefined') {
if (!graphic) {
point.graphic = graphic = chart.renderer.path()
.add(series.group);
}
if (!series.chart.styledMode) {
graphic
.attr(series.pointAttribs(point, (point.selected && 'select'))) // #3897
.shadow(series.options.shadow);
}
// Crisp vector coordinates
crispCorr = (graphic.strokeWidth() % 2) / 2;
// #2596:
crispX = Math.round(point.plotX) - crispCorr;
plotOpen = point.plotOpen;
plotClose = point.plotClose;
topBox = Math.min(plotOpen, plotClose);
bottomBox = Math.max(plotOpen, plotClose);
halfWidth = Math.round(point.shapeArgs.width / 2);
hasTopWhisker = reversedYAxis ?
bottomBox !== point.yBottom :
Math.round(topBox) !==
Math.round(point.plotHigh);
hasBottomWhisker = reversedYAxis ?
Math.round(topBox) !==
Math.round(point.plotHigh) :
bottomBox !== point.yBottom;
topBox = Math.round(topBox) + crispCorr;
bottomBox = Math.round(bottomBox) + crispCorr;
// Create the path. Due to a bug in Chrome 49, the path is
// first instantiated with no values, then the values
// pushed. For unknown reasons, instantiating the path array
// with all the values would lead to a crash when updating
// frequently (#5193).
path = [];
path.push(['M', crispX - halfWidth, bottomBox], ['L', crispX - halfWidth, topBox], ['L', crispX + halfWidth, topBox], ['L', crispX + halfWidth, bottomBox], ['Z'], // Ensure a nice rectangle #2602
['M', crispX, topBox], [
'L',
// #460, #2094
crispX,
hasTopWhisker ?
Math.round(reversedYAxis ?
point.yBottom :
point.plotHigh) :
topBox
], ['M', crispX, bottomBox], [
'L',
// #460, #2094
crispX,
hasBottomWhisker ?
Math.round(reversedYAxis ?
point.plotHigh :
point.yBottom) :
bottomBox
]);
graphic[isNew ? 'attr' : 'animate']({ d: path })
.addClass(point.getClassName(), true);
}
}
}
}
/* *
*
* Static Properties
*
* */
CandlestickSeries.defaultOptions = merge(OHLCSeries.defaultOptions, defaultOptions.plotOptions, { tooltip: OHLCSeries.defaultOptions.tooltip }, CandlestickSeriesDefaults);
SeriesRegistry.registerSeriesType('candlestick', CandlestickSeries);
/* *
*
* Default Export
*
* */
return CandlestickSeries;
});
_registerModule(_modules, 'Series/Flags/FlagsPoint.js', [_modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (SeriesRegistry, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { column: { prototype: { pointClass: ColumnPoint } } } = SeriesRegistry.seriesTypes;
const { isNumber } = U;
/* *
*
* Class
*
* */
class FlagsPoint extends ColumnPoint {
constructor() {
/* *
*
* Properties
*
* */
super(...arguments);
this.ttBelow = false;
}
/* *
*
* Functions
*
* */
/**
* @private
*/
isValid() {
// #9233 - Prevent from treating flags as null points (even if
// they have no y values defined).
return isNumber(this.y) || typeof this.y === 'undefined';
}
/**
* @private
*/
hasNewShapeType() {
const shape = this.options.shape || this.series.options.shape;
return this.graphic && shape && shape !== this.graphic.symbolKey;
}
}
/* *
*
* Default Export
*
* */
return FlagsPoint;
});
_registerModule(_modules, 'Series/Flags/FlagsSeriesDefaults.js', [], function () {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* API Options
*
* */
/**
* Flags are used to mark events in stock charts. They can be added on the
* timeline, or attached to a specific series.
*
* @sample stock/demo/flags-general/
* Flags on a line series
*
* @extends plotOptions.column
* @excluding animation, borderColor, borderWidth,
* colorByPoint, cropThreshold, dataGrouping, pointPadding,
* pointWidth, turboThreshold
* @product highstock
* @optionparent plotOptions.flags
*/
const FlagsSeriesDefaults = {
/**
* The corner radius of the border surrounding each flag. For `squarepin`
* shaped flags only. A number signifies pixels. A percentage string, like
* for example 50%, signifies a relative size.
*/
borderRadius: 0,
/**
* In case the flag is placed on a series, on what point key to place
* it. Line and columns have one key, `y`. In range or OHLC-type series,
* however, the flag can optionally be placed on the `open`, `high`,
* `low` or `close` key.
*
* @sample {highstock} stock/plotoptions/flags-onkey/
* Range series, flag on high
*
* @type {string}
* @default y
* @since 4.2.2
* @product highstock
* @validvalue ["y", "open", "high", "low", "close"]
* @apioption plotOptions.flags.onKey
*/
/**
* The id of the series that the flags should be drawn on. If no id
* is given, the flags are drawn on the x axis.
*
* @sample {highstock} stock/plotoptions/flags/
* Flags on series and on x axis
*
* @type {string}
* @product highstock
* @apioption plotOptions.flags.onSeries
*/
pointRange: 0,
/**
* Whether the flags are allowed to overlap sideways. If `false`, the
* flags are moved sideways using an algorithm that seeks to place every
* flag as close as possible to its original position.
*
* @sample {highstock} stock/plotoptions/flags-allowoverlapx
* Allow sideways overlap
*
* @since 6.0.4
*/
allowOverlapX: false,
/**
* The shape of the marker. Can be one of "flag", "circlepin",
* "squarepin", or an image of the format `url(/path-to-image.jpg)`.
* Individual shapes can also be set for each point.
*
* @sample {highstock} stock/plotoptions/flags/
* Different shapes
*
* @type {Highcharts.FlagsShapeValue}
* @product highstock
*/
shape: 'flag',
/**
* When multiple flags in the same series fall on the same value, this
* number determines the vertical offset between them.
*
* @sample {highstock} stock/plotoptions/flags-stackdistance/
* A greater stack distance
*
* @product highstock
*/
stackDistance: 12,
/**
* Text alignment for the text inside the flag.
*
* @since 5.0.0
* @product highstock
* @validvalue ["left", "center", "right"]
*/
textAlign: 'center',
/**
* Specific tooltip options for flag series. Flag series tooltips are
* different from most other types in that a flag doesn't have a data
* value, so the tooltip rather displays the `text` option for each
* point.
*
* @extends plotOptions.series.tooltip
* @excluding changeDecimals, valueDecimals, valuePrefix, valueSuffix
* @product highstock
*/
tooltip: {
pointFormat: '{point.text}'
},
/**
* @type {number|null}
*/
threshold: null,
/**
* The text to display on each flag. This can be defined on series
* level, or individually for each point. Defaults to `"A"`.
*
* @type {string}
* @default A
* @product highstock
* @apioption plotOptions.flags.title
*/
/**
* The y position of the top left corner of the flag relative to either
* the series (if onSeries is defined), or the x axis. Defaults to
* `-30`.
*
* @product highstock
*/
y: -30,
/**
* Whether to use HTML to render the flag texts. Using HTML allows for
* advanced formatting, images and reliable bi-directional text
* rendering. Note that exported images won't respect the HTML, and that
* HTML won't respect Z-index settings.
*
* @type {boolean}
* @default false
* @since 1.3
* @product highstock
* @apioption plotOptions.flags.useHTML
*/
/**
* Fixed width of the flag's shape. By default, width is autocalculated
* according to the flag's title.
*
* @sample {highstock} stock/demo/flags-shapes/
* Flags with fixed width
*
* @type {number}
* @product highstock
* @apioption plotOptions.flags.width
*/
/**
* Fixed height of the flag's shape. By default, height is
* autocalculated according to the flag's title.
*
* @type {number}
* @product highstock
* @apioption plotOptions.flags.height
*/
/**
* The fill color for the flags.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @product highstock
*/
fillColor: "#ffffff" /* Palette.backgroundColor */,
/**
* The color of the line/border of the flag.
*
* In styled mode, the stroke is set in the
* `.highcharts-flag-series.highcharts-point` rule.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @default #000000
* @product highstock
* @apioption plotOptions.flags.lineColor
*/
/**
* The pixel width of the flag's line/border.
*
* @product highstock
*/
lineWidth: 1,
states: {
/**
* @extends plotOptions.column.states.hover
* @product highstock
*/
hover: {
/**
* The color of the line/border of the flag.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @product highstock
*/
lineColor: "#000000" /* Palette.neutralColor100 */,
/**
* The fill or background color of the flag.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @product highstock
*/
fillColor: "#ccd3ff" /* Palette.highlightColor20 */
}
},
/**
* The text styles of the flag.
*
* In styled mode, the styles are set in the
* `.highcharts-flag-series .highcharts-point` rule.
*
* @type {Highcharts.CSSObject}
* @default {"fontSize": "11px", "fontWeight": "bold"}
* @product highstock
*/
style: {
/** @ignore-option */
fontSize: '0.7em',
/** @ignore-option */
fontWeight: 'bold'
}
};
/**
* A `flags` series. If the [type](#series.flags.type) option is not
* specified, it is inherited from [chart.type](#chart.type).
*
* @extends series,plotOptions.flags
* @excluding animation, borderColor, borderRadius, borderWidth, colorByPoint,
* connectNulls, cropThreshold, dashStyle, dataGrouping, dataParser,
* dataURL, gapSize, gapUnit, linecap, lineWidth, marker,
* pointPadding, pointWidth, step, turboThreshold, useOhlcData
* @product highstock
* @apioption series.flags
*/
/**
* An array of data points for the series. For the `flags` series type,
* points can be given in the following ways:
*
* 1. An array of objects with named values. The following snippet shows only a
* few settings, see the complete options set below. If the total number of
* data points exceeds the series'
* [turboThreshold](#series.flags.turboThreshold), this option is not
* available.
* ```js
* data: [{
* x: 1,
* title: "A",
* text: "First event"
* }, {
* x: 1,
* title: "B",
* text: "Second event"
* }]
* ```
*
* @type {Array<*>}
* @extends series.line.data
* @excluding dataLabels, marker, name, y
* @product highstock
* @apioption series.flags.data
*/
/**
* The fill color of an individual flag. By default it inherits from
* the series color.
*
* @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
* @product highstock
* @apioption series.flags.data.fillColor
*/
/**
* The longer text to be shown in the flag's tooltip.
*
* @type {string}
* @product highstock
* @apioption series.flags.data.text
*/
/**
* The short text to be shown on the flag.
*
* @type {string}
* @product highstock
* @apioption series.flags.data.title
*/
''; // Keeps doclets above in transpiled file
/* *
*
* Default Export
*
* */
return FlagsSeriesDefaults;
});
_registerModule(_modules, 'Series/Flags/FlagsSymbols.js', [_modules['Core/Renderer/RendererRegistry.js']], function (RendererRegistry) {
/* *
*
* Imports
*
* */
/* *
*
* Composition
*
* */
var FlagsSymbols;
(function (FlagsSymbols) {
/* *
*
* Constants
*
* */
const modifiedMembers = [];
/* *
*
* Functions
*
* */
/* eslint-disable valid-jsdoc */
/**
* @private
*/
function compose(SVGRendererClass) {
if (modifiedMembers.indexOf(SVGRendererClass) === -1) {
modifiedMembers.push(SVGRendererClass);
const symbols = SVGRendererClass.prototype.symbols;
symbols.flag = flag;
createPinSymbol(symbols, 'circle');
createPinSymbol(symbols, 'square');
}
const RendererClass = RendererRegistry.getRendererType();
// The symbol callbacks are generated on the SVGRenderer object in all
// browsers.
if (modifiedMembers.indexOf(RendererClass)) {
modifiedMembers.push(RendererClass);
}
}
FlagsSymbols.compose = compose;
/**
* Create the flag icon with anchor.
* @private
*/
function flag(x, y, w, h, options) {
const anchorX = (options && options.anchorX) || x, anchorY = (options && options.anchorY) || y;
// To do: unwanted any cast because symbols.circle has wrong type, it
// actually returns an SVGPathArray
const path = this.circle(anchorX - 1, anchorY - 1, 2, 2);
path.push(['M', anchorX, anchorY], ['L', x, y + h], ['L', x, y], ['L', x + w, y], ['L', x + w, y + h], ['L', x, y + h], ['Z']);
return path;
}
/**
* Create the circlepin and squarepin icons with anchor.
* @private
*/
function createPinSymbol(symbols, shape) {
symbols[(shape + 'pin')] = function (x, y, w, h, options) {
const anchorX = options && options.anchorX, anchorY = options && options.anchorY;
let path;
// For single-letter flags, make sure circular flags are not taller
// than their width
if (shape === 'circle' && h > w) {
x -= Math.round((h - w) / 2);
w = h;
}
path = (symbols[shape])(x, y, w, h, options);
if (anchorX && anchorY) {
/**
* If the label is below the anchor, draw the connecting line
* from the top edge of the label, otherwise start drawing from
* the bottom edge
*/
let labelX = anchorX;
if (shape === 'circle') {
labelX = x + w / 2;
}
else {
const startSeg = path[0];
const endSeg = path[1];
if (startSeg[0] === 'M' && endSeg[0] === 'L') {
labelX = (startSeg[1] + endSeg[1]) / 2;
}
}
const labelY = (y > anchorY) ? y : y + h;
path.push([
'M',
labelX,
labelY
], [
'L',
anchorX,
anchorY
]);
path = path.concat(symbols.circle(anchorX - 1, anchorY - 1, 2, 2));
}
return path;
};
}
})(FlagsSymbols || (FlagsSymbols = {}));
/* *
*
* Default Export
*
* */
return FlagsSymbols;
});
_registerModule(_modules, 'Series/OnSeriesComposition.js', [_modules['Series/Column/ColumnSeries.js'], _modules['Core/Globals.js'], _modules['Core/Series/Series.js'], _modules['Core/Utilities.js']], function (ColumnSeries, H, Series, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { composed } = H;
const { prototype: columnProto } = ColumnSeries;
const { prototype: seriesProto } = Series;
const { defined, pushUnique, stableSort } = U;
/* *
*
* Composition
*
* */
var OnSeriesComposition;
(function (OnSeriesComposition) {
/* *
*
* Declarations
*
* */
/* *
*
* Functions
*
* */
/**
* @private
*/
function compose(SeriesClass) {
if (pushUnique(composed, 'OnSeries')) {
const seriesProto = SeriesClass.prototype;
seriesProto.getPlotBox = getPlotBox;
seriesProto.translate = translate;
}
return SeriesClass;
}
OnSeriesComposition.compose = compose;
/**
* Override getPlotBox. If the onSeries option is valid, return the plot box
* of the onSeries, otherwise proceed as usual.
*
* @private
*/
function getPlotBox(name) {
return seriesProto.getPlotBox.call((this.options.onSeries &&
this.chart.get(this.options.onSeries)) || this, name);
}
OnSeriesComposition.getPlotBox = getPlotBox;
/**
* Extend the translate method by placing the point on the related series
*
* @private
*/
function translate() {
columnProto.translate.apply(this);
const series = this, options = series.options, chart = series.chart, points = series.points, optionsOnSeries = options.onSeries, onSeries = (optionsOnSeries &&
chart.get(optionsOnSeries)), step = onSeries && onSeries.options.step, onData = (onSeries && onSeries.points), inverted = chart.inverted, xAxis = series.xAxis, yAxis = series.yAxis;
let cursor = points.length - 1, point, lastPoint, onKey = options.onKey || 'y', i = onData && onData.length, xOffset = 0, leftPoint, lastX, rightPoint, currentDataGrouping, distanceRatio;
// Relate to a master series
if (onSeries && onSeries.visible && i) {
xOffset = (onSeries.pointXOffset || 0) + (onSeries.barW || 0) / 2;
currentDataGrouping = onSeries.currentDataGrouping;
lastX = (onData[i - 1].x +
(currentDataGrouping ? currentDataGrouping.totalRange : 0)); // #2374
// sort the data points
stableSort(points, (a, b) => (a.x - b.x));
onKey = 'plot' + onKey[0].toUpperCase() + onKey.substr(1);
while (i-- && points[cursor]) {
leftPoint = onData[i];
point = points[cursor];
point.y = leftPoint.y;
if (leftPoint.x <= point.x &&
typeof leftPoint[onKey] !== 'undefined') {
if (point.x <= lastX) { // #803
point.plotY = leftPoint[onKey];
// Interpolate between points, #666
if (leftPoint.x < point.x &&
!step) {
rightPoint = onData[i + 1];
if (rightPoint &&
typeof rightPoint[onKey] !== 'undefined') {
// If the series is spline, calculate Y of the
// point on the bezier line. #19264
if (defined(point.plotX) &&
onSeries.is('spline')) {
leftPoint = leftPoint;
rightPoint = rightPoint;
const p0 = [
leftPoint.plotX || 0,
leftPoint.plotY || 0
], p3 = [
rightPoint.plotX || 0,
rightPoint.plotY || 0
], p1 = (leftPoint.controlPoints?.high ||
p0), p2 = (rightPoint.controlPoints?.low ||
p3), pixelThreshold = 0.25, maxIterations = 100, calculateCoord = (t, key) => (
// The parametric formula for the
// cubic Bezier curve.
Math.pow(1 - t, 3) * p0[key] +
3 * (1 - t) * (1 - t) * t *
p1[key] + 3 * (1 - t) * t * t *
p2[key] + t * t * t * p3[key]);
let tMin = 0, tMax = 1, t;
// Find `t` of the parametric function of
// the bezier curve for the given `plotX`.
for (let i = 0; i < maxIterations; i++) {
const tMid = (tMin + tMax) / 2;
const xMid = calculateCoord(tMid, 0);
if (xMid === null) {
break;
}
if (Math.abs(xMid - point.plotX) < pixelThreshold) {
t = tMid;
break;
}
if (xMid < point.plotX) {
tMin = tMid;
}
else {
tMax = tMid;
}
}
if (defined(t)) {
point.plotY =
calculateCoord(t, 1);
point.y =
yAxis.toValue(point.plotY, true);
}
}
else {
// The distance ratio, between 0 and 1
distanceRatio =
(point.x - leftPoint.x) /
(rightPoint.x - leftPoint.x);
point.plotY +=
distanceRatio *
// The plotY distance
(rightPoint[onKey] - leftPoint[onKey]);
point.y +=
distanceRatio *
(rightPoint.y - leftPoint.y);
}
}
}
}
cursor--;
i++; // Check again for points in the same x position
if (cursor < 0) {
break;
}
}
}
}
// Add plotY position and handle stacking
points.forEach((point, i) => {
let stackIndex;
point.plotX += xOffset; // #2049
// Undefined plotY means the point is either on axis, outside series
// range or hidden series. If the series is outside the range of the
// x axis it should fall through with an undefined plotY, but then
// we must remove the shapeArgs (#847). For inverted charts, we need
// to calculate position anyway, because series.invertGroups is not
// defined
if (typeof point.plotY === 'undefined' || inverted) {
if (point.plotX >= 0 &&
point.plotX <= xAxis.len) {
// We're inside xAxis range
if (inverted) {
point.plotY = xAxis.translate(point.x, 0, 1, 0, 1);
point.plotX = defined(point.y) ?
yAxis.translate(point.y, 0, 0, 0, 1) :
0;
}
else {
point.plotY = (xAxis.opposite ? 0 : series.yAxis.len) +
xAxis.offset; // For the windbarb demo
}
}
else {
point.shapeArgs = {}; // 847
}
}
// If multiple flags appear at the same x, order them into a stack
lastPoint = points[i - 1];
if (lastPoint && lastPoint.plotX === point.plotX) {
if (typeof lastPoint.stackIndex === 'undefined') {
lastPoint.stackIndex = 0;
}
stackIndex = lastPoint.stackIndex + 1;
}
point.stackIndex = stackIndex; // #3639
});
this.onSeries = onSeries;
}
OnSeriesComposition.translate = translate;
})(OnSeriesComposition || (OnSeriesComposition = {}));
/* *
*
* Default Export
*
* */
return OnSeriesComposition;
});
_registerModule(_modules, 'Series/Flags/FlagsSeries.js', [_modules['Series/Flags/FlagsPoint.js'], _modules['Series/Flags/FlagsSeriesDefaults.js'], _modules['Series/Flags/FlagsSymbols.js'], _modules['Core/Globals.js'], _modules['Series/OnSeriesComposition.js'], _modules['Core/Renderer/RendererUtilities.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Renderer/SVG/SVGElement.js'], _modules['Core/Utilities.js']], function (FlagsPoint, FlagsSeriesDefaults, FlagsSymbols, H, OnSeriesComposition, R, SeriesRegistry, SVGElement, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { noop } = H;
const { distribute } = R;
const { series: Series, seriesTypes: { column: ColumnSeries } } = SeriesRegistry;
const { addEvent, defined, extend, isNumber, merge, objectEach, wrap } = U;
/* *
*
* Classes
*
* */
/**
* The Flags series.
*
* @private
* @class
* @name Highcharts.seriesTypes.flags
*
* @augments Highcharts.Series
*/
class FlagsSeries extends ColumnSeries {
/* *
*
* Functions
*
* */
/**
* Disable animation, but keep clipping (#8546).
* @private
*/
animate(init) {
if (init) {
this.setClip();
}
}
/**
* Draw the markers.
* @private
*/
drawPoints() {
const series = this, points = series.points, chart = series.chart, renderer = chart.renderer, inverted = chart.inverted, options = series.options, optionsY = options.y, yAxis = series.yAxis, boxesMap = {}, boxes = [], borderRadius = isNumber(options.borderRadius) ?
options.borderRadius : 0;
let plotX, plotY, shape, i, point, graphic, stackIndex, anchorY, attribs, outsideRight, centered;
i = points.length;
while (i--) {
point = points[i];
outsideRight =
(inverted ? point.plotY : point.plotX) >
series.xAxis.len;
plotX = point.plotX;
stackIndex = point.stackIndex;
shape = point.options.shape || options.shape;
plotY = point.plotY;
if (typeof plotY !== 'undefined') {
plotY = point.plotY + optionsY -
(typeof stackIndex !== 'undefined' &&
(stackIndex * options.stackDistance));
}
// Skip connectors for higher level stacked points
point.anchorX = stackIndex ? void 0 : point.plotX;
anchorY = stackIndex ? void 0 : point.plotY;
centered = shape !== 'flag';
graphic = point.graphic;
// Only draw the point if y is defined and the flag is within
// the visible area
if (typeof plotY !== 'undefined' &&
plotX >= 0 &&
!outsideRight) {
// #15384
if (graphic && point.hasNewShapeType()) {
graphic = graphic.destroy();
}
// Create the flag
if (!graphic) {
graphic = point.graphic = renderer.label('', 0, void 0, shape, void 0, void 0, options.useHTML)
.addClass('highcharts-point')
.add(series.markerGroup);
// Add reference to the point for tracker (#6303)
if (point.graphic.div) {
point.graphic.div.point = point;
}
graphic.isNew = true;
}
graphic.attr({
align: centered ? 'center' : 'left',
width: options.width,
height: options.height,
'text-align': options.textAlign,
r: borderRadius
});
if (!chart.styledMode) {
graphic
.attr(series.pointAttribs(point))
.css(merge(options.style, point.style))
.shadow(options.shadow);
}
if (plotX > 0) { // #3119
plotX -= graphic.strokeWidth() % 2; // #4285
}
// Plant the flag
attribs = {
y: plotY,
anchorY: anchorY
};
if (options.allowOverlapX) {
attribs.x = plotX;
attribs.anchorX = point.anchorX;
}
graphic.attr({
text: point.options.title || options.title || 'A'
})[graphic.isNew ? 'attr' : 'animate'](attribs);
// Rig for the distribute function
if (!options.allowOverlapX) {
if (!boxesMap[point.plotX]) {
boxesMap[point.plotX] = {
align: centered ? 0.5 : 0,
size: graphic.width || 0,
target: plotX,
anchorX: plotX
};
}
else {
boxesMap[point.plotX].size = Math.max(boxesMap[point.plotX].size, graphic.width || 0);
}
}
// Set the tooltip anchor position
point.tooltipPos = [
plotX,
plotY + yAxis.pos - chart.plotTop
]; // #6327
}
else if (graphic) {
point.graphic = graphic.destroy();
}
}
// Handle X-dimension overlapping
if (!options.allowOverlapX) {
let maxDistance = 100;
objectEach(boxesMap, function (box) {
box.plotX = box.anchorX;
boxes.push(box);
maxDistance = Math.max(box.size, maxDistance);
});
// If necessary (for overlapping or long labels) distribute it
// depending on the label width or a hardcoded value, #16041.
distribute(boxes, inverted ? yAxis.len : this.xAxis.len, maxDistance);
for (const point of points) {
const plotX = point.plotX, graphic = point.graphic, box = graphic && boxesMap[plotX];
if (box && graphic) {
// Hide flag when its box position is not specified
// (#8573, #9299)
if (!defined(box.pos)) {
graphic.hide().isNew = true;
}
else {
graphic[graphic.isNew ? 'attr' : 'animate']({
x: box.pos + (box.align || 0) * box.size,
anchorX: point.anchorX
}).show().isNew = false;
}
}
}
}
// Can be a mix of SVG and HTML and we need events for both (#6303)
if (options.useHTML && series.markerGroup) {
wrap(series.markerGroup, 'on', function (proceed) {
return SVGElement.prototype.on.apply(
// For HTML
// eslint-disable-next-line no-invalid-this
proceed.apply(this, [].slice.call(arguments, 1)),
// And for SVG
[].slice.call(arguments, 1));
});
}
}
/**
* Extend the column trackers with listeners to expand and contract
* stacks.
* @private
*/
drawTracker() {
const series = this, points = series.points;
super.drawTracker();
/* *
* Bring each stacked flag up on mouse over, this allows readability
* of vertically stacked elements as well as tight points on the x
* axis. #1924.
*/
for (const point of points) {
const graphic = point.graphic;
if (graphic) {
if (point.unbindMouseOver) {
point.unbindMouseOver();
}
point.unbindMouseOver = addEvent(graphic.element, 'mouseover', function () {
// Raise this point
if (point.stackIndex > 0 &&
!point.raised) {
point._y = graphic.y;
graphic.attr({
y: point._y - 8
});
point.raised = true;
}
// Revert other raised points
for (const otherPoint of points) {
if (otherPoint !== point &&
otherPoint.raised &&
otherPoint.graphic) {
otherPoint.graphic.attr({
y: otherPoint._y
});
otherPoint.raised = false;
}
}
});
}
}
}
/**
* Get presentational attributes
* @private
*/
pointAttribs(point, state) {
const options = this.options, color = (point && point.color) || this.color;
let lineColor = options.lineColor, lineWidth = (point && point.lineWidth), fill = (point && point.fillColor) || options.fillColor;
if (state) {
fill = options.states[state].fillColor;
lineColor = options.states[state].lineColor;
lineWidth = options.states[state].lineWidth;
}
return {
fill: fill || color,
stroke: lineColor || color,
'stroke-width': lineWidth || options.lineWidth || 0
};
}
/**
* @private
*/
setClip() {
Series.prototype.setClip.apply(this, arguments);
if (this.options.clip !== false &&
this.sharedClipKey &&
this.markerGroup) {
this.markerGroup.clip(this.chart.sharedClips[this.sharedClipKey]);
}
}
}
/* *
*
* Static Properties
*
* */
FlagsSeries.compose = FlagsSymbols.compose;
FlagsSeries.defaultOptions = merge(ColumnSeries.defaultOptions, FlagsSeriesDefaults);
OnSeriesComposition.compose(FlagsSeries);
extend(FlagsSeries.prototype, {
allowDG: false,
forceCrop: true,
invertible: false,
noSharedTooltip: true,
pointClass: FlagsPoint,
sorted: false,
takeOrdinalPosition: false,
trackerGroups: ['markerGroup'],
buildKDTree: noop,
/**
* Inherit the initialization from base Series.
* @private
*/
init: Series.prototype.init
});
SeriesRegistry.registerSeriesType('flags', FlagsSeries);
/* *
*
* Default Export
*
* */
/* *
*
* API Declarations
*
* */
/**
* @typedef {"circlepin"|"flag"|"squarepin"} Highcharts.FlagsShapeValue
*/
''; // Detach doclets above
return FlagsSeries;
});
_registerModule(_modules, 'Core/Axis/BrokenAxis.js', [_modules['Core/Axis/Stacking/StackItem.js'], _modules['Core/Utilities.js']], function (StackItem, U) {
/* *
*
* (c) 2009-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { addEvent, find, fireEvent, isArray, isNumber, pick } = U;
/* *
*
* Composition
*
* */
/**
* Axis with support of broken data rows.
* @private
*/
var BrokenAxis;
(function (BrokenAxis) {
/* *
*
* Declarations
*
* */
/* *
*
* Functions
*
* */
/**
* Adds support for broken axes.
* @private
*/
function compose(AxisClass, SeriesClass) {
if (!AxisClass.keepProps.includes('brokenAxis')) {
AxisClass.keepProps.push('brokenAxis');
addEvent(AxisClass, 'init', onAxisInit);
addEvent(AxisClass, 'afterInit', onAxisAfterInit);
addEvent(AxisClass, 'afterSetTickPositions', onAxisAfterSetTickPositions);
addEvent(AxisClass, 'afterSetOptions', onAxisAfterSetOptions);
const seriesProto = SeriesClass.prototype;
seriesProto.drawBreaks = seriesDrawBreaks;
seriesProto.gappedPath = seriesGappedPath;
addEvent(SeriesClass, 'afterGeneratePoints', onSeriesAfterGeneratePoints);
addEvent(SeriesClass, 'afterRender', onSeriesAfterRender);
}
return AxisClass;
}
BrokenAxis.compose = compose;
/**
* @private
*/
function onAxisAfterInit() {
if (typeof this.brokenAxis !== 'undefined') {
this.brokenAxis.setBreaks(this.options.breaks, false);
}
}
/**
* Force Axis to be not-ordinal when breaks are defined.
* @private
*/
function onAxisAfterSetOptions() {
const axis = this;
if (axis.brokenAxis?.hasBreaks) {
axis.options.ordinal = false;
}
}
/**
* @private
*/
function onAxisAfterSetTickPositions() {
const axis = this, brokenAxis = axis.brokenAxis;
if (brokenAxis?.hasBreaks) {
const tickPositions = axis.tickPositions, info = axis.tickPositions.info, newPositions = [];
for (let i = 0; i < tickPositions.length; i++) {
if (!brokenAxis.isInAnyBreak(tickPositions[i])) {
newPositions.push(tickPositions[i]);
}
}
axis.tickPositions = newPositions;
axis.tickPositions.info = info;
}
}
/**
* @private
*/
function onAxisInit() {
const axis = this;
if (!axis.brokenAxis) {
axis.brokenAxis = new Additions(axis);
}
}
/**
* @private
*/
function onSeriesAfterGeneratePoints() {
const { isDirty, options: { connectNulls }, points, xAxis, yAxis } = this;
// Set, or reset visibility of the points. Axis.setBreaks marks
// the series as isDirty
if (isDirty) {
let i = points.length;
while (i--) {
const point = points[i];
// Respect nulls inside the break (#4275)
const nullGap = point.y === null && connectNulls === false;
const isPointInBreak = (!nullGap && (xAxis?.brokenAxis?.isInAnyBreak(point.x, true) ||
yAxis?.brokenAxis?.isInAnyBreak(point.y, true)));
// Set point.visible if in any break.
// If not in break, reset visible to original value.
point.visible = isPointInBreak ?
false :
point.options.visible !== false;
}
}
}
/**
* @private
*/
function onSeriesAfterRender() {
this.drawBreaks(this.xAxis, ['x']);
this.drawBreaks(this.yAxis, pick(this.pointArrayMap, ['y']));
}
/**
* @private
*/
function seriesDrawBreaks(axis, keys) {
const series = this, points = series.points;
let breaks, threshold, y;
if (axis?.brokenAxis?.hasBreaks) {
const brokenAxis = axis.brokenAxis;
keys.forEach(function (key) {
breaks = brokenAxis?.breakArray || [];
threshold = axis.isXAxis ?
axis.min :
pick(series.options.threshold, axis.min);
// Array of breaks that have been "zoomed-out" which means that
// they were shown previously, but now after zoom, they are not
// (#19885).
const breaksOutOfRange = axis?.options?.breaks?.filter(function (brk) {
let isOut = true;
// Iterate to see if "brk" is in axis range
for (let i = 0; i < breaks.length; i++) {
const otherBreak = breaks[i];
if (otherBreak.from === brk.from &&
otherBreak.to === brk.to) {
isOut = false;
break;
}
}
return isOut;
});
points.forEach(function (point) {
y = pick(point['stack' + key.toUpperCase()], point[key]);
breaks.forEach(function (brk) {
if (isNumber(threshold) && isNumber(y)) {
let eventName = '';
if ((threshold < brk.from && y > brk.to) ||
(threshold > brk.from && y < brk.from)) {
eventName = 'pointBreak';
}
else if ((threshold < brk.from &&
y > brk.from &&
y < brk.to) || (threshold > brk.from &&
y > brk.to &&
y < brk.from)) {
eventName = 'pointInBreak';
}
if (eventName) {
fireEvent(axis, eventName, { point, brk });
}
}
});
breaksOutOfRange?.forEach(function (brk) {
fireEvent(axis, 'pointOutsideOfBreak', { point, brk });
});
});
});
}
}
/**
* Extend getGraphPath by identifying gaps in the data so that we
* can draw a gap in the line or area. This was moved from ordinal
* axis module to broken axis module as of #5045.
*
* @private
* @function Highcharts.Series#gappedPath
*
* @return {Highcharts.SVGPathArray}
* Gapped path
*/
function seriesGappedPath() {
const currentDataGrouping = this.currentDataGrouping, groupingSize = currentDataGrouping?.gapSize, points = this.points.slice(), yAxis = this.yAxis;
let gapSize = this.options.gapSize, i = points.length - 1, stack;
/**
* Defines when to display a gap in the graph, together with the
* [gapUnit](plotOptions.series.gapUnit) option.
*
* In case when `dataGrouping` is enabled, points can be grouped
* into a larger time span. This can make the grouped points to
* have a greater distance than the absolute value of `gapSize`
* property, which will result in disappearing graph completely.
* To prevent this situation the mentioned distance between
* grouped points is used instead of previously defined
* `gapSize`.
*
* In practice, this option is most often used to visualize gaps
* in time series. In a stock chart, intraday data is available
* for daytime hours, while gaps will appear in nights and
* weekends.
*
* @see [gapUnit](plotOptions.series.gapUnit)
* @see [xAxis.breaks](#xAxis.breaks)
*
* @sample {highstock} stock/plotoptions/series-gapsize/
* Setting the gap size to 2 introduces gaps for weekends in
* daily datasets.
*
* @type {number}
* @default 0
* @product highstock
* @requires modules/broken-axis
* @apioption plotOptions.series.gapSize
*/
/**
* Together with [gapSize](plotOptions.series.gapSize), this
* option defines where to draw gaps in the graph.
*
* When the `gapUnit` is `"relative"` (default), a gap size of 5
* means that if the distance between two points is greater than
* 5 times that of the two closest points, the graph will be
* broken.
*
* When the `gapUnit` is `"value"`, the gap is based on absolute
* axis values, which on a datetime axis is milliseconds. This
* also applies to the navigator series that inherits gap
* options from the base series.
*
* @see [gapSize](plotOptions.series.gapSize)
*
* @type {string}
* @default relative
* @since 5.0.13
* @product highstock
* @validvalue ["relative", "value"]
* @requires modules/broken-axis
* @apioption plotOptions.series.gapUnit
*/
if (gapSize && i > 0) { // #5008
// Gap unit is relative
if (this.options.gapUnit !== 'value') {
gapSize *= this.basePointRange;
}
// Setting a new gapSize in case dataGrouping is enabled
// (#7686)
if (groupingSize &&
groupingSize > gapSize &&
// Except when DG is forced (e.g. from other series)
// and has lower granularity than actual points (#11351)
groupingSize >= this.basePointRange) {
gapSize = groupingSize;
}
// Extension for ordinal breaks
let current, next;
while (i--) {
// Reassign next if it is not visible
if (!(next && next.visible !== false)) {
next = points[i + 1];
}
current = points[i];
// Skip iteration if one of the points is not visible
if (next.visible === false || current.visible === false) {
continue;
}
if (next.x - current.x > gapSize) {
const xRange = (current.x + next.x) / 2;
points.splice(// Insert after this one
i + 1, 0, {
isNull: true,
x: xRange
});
// For stacked chart generate empty stack items, #6546
if (yAxis.stacking && this.options.stacking) {
stack = yAxis.stacking.stacks[this.stackKey][xRange] = new StackItem(yAxis, yAxis.options.stackLabels, false, xRange, this.stack);
stack.total = 0;
}
}
// Assign current to next for the upcoming iteration
next = current;
}
}
// Call base method
return this.getGraphPath(points);
}
/* *
*
* Class
*
* */
/**
* Provides support for broken axes.
* @private
* @class
*/
class Additions {
/* *
*
* Static Functions
*
* */
/**
* @private
*/
static isInBreak(brk, val) {
const repeat = brk.repeat || Infinity, from = brk.from, length = brk.to - brk.from, test = (val >= from ?
(val - from) % repeat :
repeat - ((from - val) % repeat));
let ret;
if (!brk.inclusive) {
ret = test < length && test !== 0;
}
else {
ret = test <= length;
}
return ret;
}
/**
* @private
*/
static lin2Val(val) {
const axis = this;
const brokenAxis = axis.brokenAxis;
const breakArray = brokenAxis && brokenAxis.breakArray;
if (!breakArray || !isNumber(val)) {
return val;
}
let nval = val, brk, i;
for (i = 0; i < breakArray.length; i++) {
brk = breakArray[i];
if (brk.from >= nval) {
break;
}
else if (brk.to < nval) {
nval += brk.len;
}
else if (Additions.isInBreak(brk, nval)) {
nval += brk.len;
}
}
return nval;
}
/**
* @private
*/
static val2Lin(val) {
const axis = this;
const brokenAxis = axis.brokenAxis;
const breakArray = brokenAxis && brokenAxis.breakArray;
if (!breakArray || !isNumber(val)) {
return val;
}
let nval = val, brk, i;
for (i = 0; i < breakArray.length; i++) {
brk = breakArray[i];
if (brk.to <= val) {
nval -= brk.len;
}
else if (brk.from >= val) {
break;
}
else if (Additions.isInBreak(brk, val)) {
nval -= (val - brk.from);
break;
}
}
return nval;
}
/* *
*
* Constructors
*
* */
constructor(axis) {
this.hasBreaks = false;
this.axis = axis;
}
/* *
*
* Functions
*
* */
/**
* Returns the first break found where the x is larger then break.from
* and smaller then break.to.
*
* @param {number} x
* The number which should be within a break.
*
* @param {Array<Highcharts.XAxisBreaksOptions>} breaks
* The array of breaks to search within.
*
* @return {Highcharts.XAxisBreaksOptions|undefined}
* Returns the first break found that matches, returns false if no break
* is found.
*/
findBreakAt(x, breaks) {
return find(breaks, function (b) {
return b.from < x && x < b.to;
});
}
/**
* @private
*/
isInAnyBreak(val, testKeep) {
const brokenAxis = this, axis = brokenAxis.axis, breaks = axis.options.breaks || [];
let i = breaks.length, inbrk, keep, ret;
if (i && isNumber(val)) {
while (i--) {
if (Additions.isInBreak(breaks[i], val)) {
inbrk = true;
if (!keep) {
keep = pick(breaks[i].showPoints, !axis.isXAxis);
}
}
}
if (inbrk && testKeep) {
ret = inbrk && !keep;
}
else {
ret = inbrk;
}
}
return ret;
}
/**
* Dynamically set or unset breaks in an axis. This function in lighter
* than using Axis.update, and it also preserves animation.
*
* @private
* @function Highcharts.Axis#setBreaks
*
* @param {Array<Highcharts.XAxisBreaksOptions>} [breaks]
* The breaks to add. When `undefined` it removes existing breaks.
*
* @param {boolean} [redraw=true]
* Whether to redraw the chart immediately.
*/
setBreaks(breaks, redraw) {
const brokenAxis = this;
const axis = brokenAxis.axis;
const hasBreaks = isArray(breaks) &&
!!breaks.length &&
!!Object.keys(breaks[0]).length; // Check for [{}], #16368.
axis.isDirty = brokenAxis.hasBreaks !== hasBreaks;
brokenAxis.hasBreaks = hasBreaks;
if (breaks !== axis.options.breaks) {
axis.options.breaks = axis.userOptions.breaks = breaks;
}
axis.forceRedraw = true; // Force recalculation in setScale
// Recalculate series related to the axis.
axis.series.forEach(function (series) {
series.isDirty = true;
});
if (!hasBreaks && axis.val2lin === Additions.val2Lin) {
// Revert to prototype functions
delete axis.val2lin;
delete axis.lin2val;
}
if (hasBreaks) {
axis.userOptions.ordinal = false;
axis.lin2val = Additions.lin2Val;
axis.val2lin = Additions.val2Lin;
axis.setExtremes = function (newMin, newMax, redraw, animation, eventArguments) {
// If trying to set extremes inside a break, extend min to
// after, and max to before the break ( #3857 )
if (brokenAxis.hasBreaks) {
const breaks = (this.options.breaks || []);
let axisBreak;
while ((axisBreak = brokenAxis.findBreakAt(newMin, breaks))) {
newMin = axisBreak.to;
}
while ((axisBreak = brokenAxis.findBreakAt(newMax, breaks))) {
newMax = axisBreak.from;
}
// If both min and max is within the same break.
if (newMax < newMin) {
newMax = newMin;
}
}
axis.constructor.prototype.setExtremes.call(this, newMin, newMax, redraw, animation, eventArguments);
};
axis.setAxisTranslation = function () {
axis.constructor.prototype.setAxisTranslation.call(this);
brokenAxis.unitLength = void 0;
if (brokenAxis.hasBreaks) {
const breaks = axis.options.breaks || [],
// Temporary one:
breakArrayT = [], breakArray = [], pointRangePadding = pick(axis.pointRangePadding, 0);
let length = 0, inBrk, repeat, min = axis.userMin || axis.min, max = axis.userMax || axis.max, start, i;
// Min & max check (#4247)
breaks.forEach(function (brk) {
repeat = brk.repeat || Infinity;
if (isNumber(min) && isNumber(max)) {
if (Additions.isInBreak(brk, min)) {
min += ((brk.to % repeat) -
(min % repeat));
}
if (Additions.isInBreak(brk, max)) {
max -= ((max % repeat) -
(brk.from % repeat));
}
}
});
// Construct an array holding all breaks in the axis
breaks.forEach(function (brk) {
start = brk.from;
repeat = brk.repeat || Infinity;
if (isNumber(min) && isNumber(max)) {
while (start - repeat > min) {
start -= repeat;
}
while (start < min) {
start += repeat;
}
for (i = start; i < max; i += repeat) {
breakArrayT.push({
value: i,
move: 'in'
});
breakArrayT.push({
value: i + brk.to - brk.from,
move: 'out',
size: brk.breakSize
});
}
}
});
breakArrayT.sort(function (a, b) {
return ((a.value === b.value) ?
((a.move === 'in' ? 0 : 1) -
(b.move === 'in' ? 0 : 1)) :
a.value - b.value);
});
// Simplify the breaks
inBrk = 0;
start = min;
breakArrayT.forEach(function (brk) {
inBrk += (brk.move === 'in' ? 1 : -1);
if (inBrk === 1 && brk.move === 'in') {
start = brk.value;
}
if (inBrk === 0 && isNumber(start)) {
breakArray.push({
from: start,
to: brk.value,
len: brk.value - start - (brk.size || 0)
});
length += (brk.value -
start -
(brk.size || 0));
}
});
brokenAxis.breakArray = breakArray;
// Used with staticScale, and below the actual axis
// length, when breaks are subtracted.
if (isNumber(min) &&
isNumber(max) &&
isNumber(axis.min)) {
brokenAxis.unitLength = max - min - length +
pointRangePadding;
fireEvent(axis, 'afterBreaks');
if (axis.staticScale) {
axis.transA = axis.staticScale;
}
else if (brokenAxis.unitLength) {
axis.transA *=
(max - axis.min + pointRangePadding) /
brokenAxis.unitLength;
}
if (pointRangePadding) {
axis.minPixelPadding =
axis.transA * (axis.minPointOffset || 0);
}
axis.min = min;
axis.max = max;
}
}
};
}
if (pick(redraw, true)) {
axis.chart.redraw();
}
}
}
BrokenAxis.Additions = Additions;
})(BrokenAxis || (BrokenAxis = {}));
/* *
*
* Default Export
*
* */
return BrokenAxis;
});
_registerModule(_modules, 'masters/modules/broken-axis.src.js', [_modules['Core/Globals.js'], _modules['Core/Axis/BrokenAxis.js']], function (Highcharts, BrokenAxis) {
const G = Highcharts;
G.BrokenAxis = G.BrokenAxis || BrokenAxis;
G.BrokenAxis.compose(G.Axis, G.Series);
return Highcharts;
});
_registerModule(_modules, 'Extensions/DataGrouping/ApproximationRegistry.js', [], function () {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* Constants
*
* */
/**
* Define the available approximation types. The data grouping
* approximations takes an array or numbers as the first parameter. In case
* of ohlc, four arrays are sent in as four parameters. Each array consists
* only of numbers. In case null values belong to the group, the property
* .hasNulls will be set to true on the array.
*
* @product highstock
*
* @private
*/
const ApproximationRegistry = {
// Approximations added programmatically
};
/* *
*
* Default Export
*
* */
return ApproximationRegistry;
});
_registerModule(_modules, 'Extensions/DataGrouping/ApproximationDefaults.js', [_modules['Extensions/DataGrouping/ApproximationRegistry.js'], _modules['Core/Utilities.js']], function (ApproximationRegistry, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { arrayMax, arrayMin, correctFloat, extend, isNumber } = U;
/* *
*
* Functions
*
* */
/**
* @private
*/
function average(arr) {
const len = arr.length;
let ret = sum(arr);
// If we have a number, return it divided by the length. If not,
// return null or undefined based on what the sum method finds.
if (isNumber(ret) && len) {
ret = correctFloat(ret / len);
}
return ret;
}
/**
* The same as average, but for series with multiple values, like area ranges.
* @private
*/
function averages() {
const ret = [];
[].forEach.call(arguments, function (arr) {
ret.push(average(arr));
});
// Return undefined when first elem. is undefined and let
// sum method handle null (#7377)
return typeof ret[0] === 'undefined' ? void 0 : ret;
}
/**
* @private
*/
function close(arr) {
return arr.length ?
arr[arr.length - 1] :
(arr.hasNulls ? null : void 0);
}
/**
* @private
*/
function high(arr) {
return arr.length ?
arrayMax(arr) :
(arr.hasNulls ? null : void 0);
}
/**
* HLC, OHLC and range are special cases where a multidimensional array is input
* and an array is output.
* @private
*/
function hlc(high, low, close) {
high = ApproximationRegistry.high(high);
low = ApproximationRegistry.low(low);
close = ApproximationRegistry.close(close);
if (isNumber(high) ||
isNumber(low) ||
isNumber(close)) {
return [high, low, close];
}
}
/**
* @private
*/
function low(arr) {
return arr.length ?
arrayMin(arr) :
(arr.hasNulls ? null : void 0);
}
/**
* @private
*/
function ohlc(open, high, low, close) {
open = ApproximationRegistry.open(open);
high = ApproximationRegistry.high(high);
low = ApproximationRegistry.low(low);
close = ApproximationRegistry.close(close);
if (isNumber(open) ||
isNumber(high) ||
isNumber(low) ||
isNumber(close)) {
return [open, high, low, close];
}
}
/**
* @private
*/
function open(arr) {
return arr.length ? arr[0] : (arr.hasNulls ? null : void 0);
}
/**
* @private
*/
function range(low, high) {
low = ApproximationRegistry.low(low);
high = ApproximationRegistry.high(high);
if (isNumber(low) || isNumber(high)) {
return [low, high];
}
if (low === null && high === null) {
return null;
}
// Else, return is undefined
}
/**
* @private
*/
function sum(arr) {
let len = arr.length, ret;
// 1. it consists of nulls exclusive
if (!len && arr.hasNulls) {
ret = null;
// 2. it has a length and real values
}
else if (len) {
ret = 0;
while (len--) {
ret += arr[len];
}
}
// 3. it has zero length, so just return undefined
// => doNothing()
return ret;
}
/* *
*
* Default Export
*
* */
const ApproximationDefaults = {
average,
averages,
close,
high,
hlc,
low,
ohlc,
open,
range,
sum
};
extend(ApproximationRegistry, ApproximationDefaults);
return ApproximationDefaults;
});
_registerModule(_modules, 'Extensions/DataGrouping/DataGroupingDefaults.js', [], function () {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
/* *
*
* Constants
*
* */
/**
* Common options
* @private
*/
const common = {
/// enabled: null, // (true for stock charts, false for basic),
// forced: undefined,
groupPixelWidth: 2,
// The first one is the point or start value, the second is the start
// value if we're dealing with range, the third one is the end value if
// dealing with a range
dateTimeLabelFormats: {
millisecond: [
'%A, %e %b, %H:%M:%S.%L',
'%A, %e %b, %H:%M:%S.%L',
'-%H:%M:%S.%L'
],
second: [
'%A, %e %b, %H:%M:%S',
'%A, %e %b, %H:%M:%S',
'-%H:%M:%S'
],
minute: [
'%A, %e %b, %H:%M',
'%A, %e %b, %H:%M',
'-%H:%M'
],
hour: [
'%A, %e %b, %H:%M',
'%A, %e %b, %H:%M',
'-%H:%M'
],
day: [
'%A, %e %b %Y',
'%A, %e %b',
'-%A, %e %b %Y'
],
week: [
'Week from %A, %e %b %Y',
'%A, %e %b',
'-%A, %e %b %Y'
],
month: [
'%B %Y',
'%B',
'-%B %Y'
],
year: [
'%Y',
'%Y',
'-%Y'
]
}
/// smoothed = false, // enable this for navigator series only
};
/**
* Extends common options
* @private
*/
const seriesSpecific = {
line: {},
spline: {},
area: {},
areaspline: {},
arearange: {},
column: {
groupPixelWidth: 10
},
columnrange: {
groupPixelWidth: 10
},
candlestick: {
groupPixelWidth: 10
},
ohlc: {
groupPixelWidth: 5
},
hlc: {
groupPixelWidth: 5
// Move to HeikinAshiSeries.ts after refactoring data grouping.
},
heikinashi: {
groupPixelWidth: 10
}
};
/**
* Units are defined in a separate array to allow complete overriding in
* case of a user option.
* @private
*/
const units = [
[
'millisecond',
[1, 2, 5, 10, 20, 25, 50, 100, 200, 500] // Allowed multiples
], [
'second',
[1, 2, 5, 10, 15, 30]
], [
'minute',
[1, 2, 5, 10, 15, 30]
], [
'hour',
[1, 2, 3, 4, 6, 8, 12]
], [
'day',
[1]
], [
'week',
[1]
], [
'month',
[1, 3, 6]
], [
'year',
null
]
];
/* *
*
* Default Export
*
* */
const DataGroupingDefaults = {
common,
seriesSpecific,
units
};
return DataGroupingDefaults;
});
_registerModule(_modules, 'Extensions/DataGrouping/DataGroupingAxisComposition.js', [_modules['Extensions/DataGrouping/DataGroupingDefaults.js'], _modules['Core/Utilities.js']], function (DataGroupingDefaults, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { addEvent, extend, merge, pick } = U;
/* *
*
* Variables
*
* */
let AxisConstructor;
/* *
*
* Functions
*
* */
/**
* Check the groupPixelWidth and apply the grouping if needed.
* Fired only after processing the data.
*
* @product highstock
*
* @function Highcharts.Axis#applyGrouping
*/
function applyGrouping(e) {
const axis = this, series = axis.series;
// Reset the groupPixelWidth for all series, #17141.
series.forEach(function (series) {
series.groupPixelWidth = void 0; // #2110
});
series.forEach(function (series) {
series.groupPixelWidth = (axis.getGroupPixelWidth &&
axis.getGroupPixelWidth());
if (series.groupPixelWidth) {
series.hasProcessed = true; // #2692
}
// Fire independing on series.groupPixelWidth to always set a proper
// dataGrouping state, (#16238)
series.applyGrouping(!!e.hasExtremesChanged);
});
}
/**
* @private
*/
function compose(AxisClass) {
AxisConstructor = AxisClass;
const axisProto = AxisClass.prototype;
if (!axisProto.applyGrouping) {
addEvent(AxisClass, 'afterSetScale', onAfterSetScale);
// When all series are processed, calculate the group pixel width and
// then if this value is different than zero apply groupings.
addEvent(AxisClass, 'postProcessData', applyGrouping);
extend(axisProto, {
applyGrouping,
getGroupPixelWidth,
setDataGrouping
});
}
}
/**
* Get the data grouping pixel width based on the greatest defined individual
* width of the axis' series, and if whether one of the axes need grouping.
* @private
*/
function getGroupPixelWidth() {
const series = this.series;
let i = series.length, groupPixelWidth = 0, doGrouping = false, dataLength, dgOptions;
// If one of the series needs grouping, apply it to all (#1634)
while (i--) {
dgOptions = series[i].options.dataGrouping;
if (dgOptions) { // #2692
// If multiple series are compared on the same x axis, give them the
// same group pixel width (#334)
groupPixelWidth = Math.max(groupPixelWidth,
// Fallback to commonOptions (#9693)
pick(dgOptions.groupPixelWidth, DataGroupingDefaults.common.groupPixelWidth));
dataLength = (series[i].processedXData || series[i].data).length;
// Execute grouping if the amount of points is greater than the
// limit defined in groupPixelWidth
if (series[i].groupPixelWidth ||
(dataLength >
(this.chart.plotSizeX / groupPixelWidth)) ||
(dataLength && dgOptions.forced)) {
doGrouping = true;
}
}
}
return doGrouping ? groupPixelWidth : 0;
}
/**
* When resetting the scale reset the hasProcessed flag to avoid taking
* previous data grouping of neighbour series into account when determining
* group pixel width (#2692).
* @private
*/
function onAfterSetScale() {
this.series.forEach(function (series) {
series.hasProcessed = false;
});
}
/**
* Highcharts Stock only. Force data grouping on all the axis' series.
*
* @product highstock
*
* @function Highcharts.Axis#setDataGrouping
*
* @param {boolean|Highcharts.DataGroupingOptionsObject} [dataGrouping]
* A `dataGrouping` configuration. Use `false` to disable data grouping
* dynamically.
*
* @param {boolean} [redraw=true]
* Whether to redraw the chart or wait for a later call to
* {@link Chart#redraw}.
*/
function setDataGrouping(dataGrouping, redraw) {
const axis = this;
let i;
redraw = pick(redraw, true);
if (!dataGrouping) {
dataGrouping = {
forced: false,
units: null
};
}
// Axis is instantiated, update all series
if (this instanceof AxisConstructor) {
i = this.series.length;
while (i--) {
this.series[i].update({
dataGrouping: dataGrouping
}, false);
}
// Axis not yet instantiated, alter series options
}
else {
this.chart.options.series.forEach(function (seriesOptions) {
// Merging dataGrouping options with already defined options #16759
seriesOptions.dataGrouping = typeof dataGrouping === 'boolean' ?
dataGrouping :
merge(dataGrouping, seriesOptions.dataGrouping);
});
}
// Clear ordinal slope, so we won't accidentally use the old one (#7827)
if (axis.ordinal) {
axis.ordinal.slope = void 0;
}
if (redraw) {
this.chart.redraw();
}
}
/* *
*
* Default Export
*
* */
const DataGroupingAxisComposition = {
compose
};
return DataGroupingAxisComposition;
});
_registerModule(_modules, 'Extensions/DataGrouping/DataGroupingSeriesComposition.js', [_modules['Extensions/DataGrouping/ApproximationRegistry.js'], _modules['Extensions/DataGrouping/DataGroupingDefaults.js'], _modules['Core/Axis/DateTimeAxis.js'], _modules['Core/Defaults.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (ApproximationRegistry, DataGroupingDefaults, DateTimeAxis, D, SeriesRegistry, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { series: { prototype: seriesProto } } = SeriesRegistry;
const { addEvent, defined, error, extend, isNumber, merge, pick } = U;
/* *
*
* Constants
*
* */
const baseGeneratePoints = seriesProto.generatePoints;
/* *
*
* Functions
*
* */
/**
* @private
*/
function adjustExtremes(xAxis, groupedXData) {
// Make sure the X axis extends to show the first group (#2533)
// But only for visible series (#5493, #6393)
if (defined(groupedXData[0]) &&
isNumber(xAxis.min) &&
isNumber(xAxis.dataMin) &&
groupedXData[0] < xAxis.min) {
if ((!defined(xAxis.options.min) &&
xAxis.min <= xAxis.dataMin) ||
xAxis.min === xAxis.dataMin) {
xAxis.min = Math.min(groupedXData[0], xAxis.min);
}
xAxis.dataMin = Math.min(groupedXData[0], xAxis.dataMin);
}
// When the last anchor set, change the extremes that
// the last point is visible (#12455).
if (defined(groupedXData[groupedXData.length - 1]) &&
isNumber(xAxis.max) &&
isNumber(xAxis.dataMax) &&
groupedXData[groupedXData.length - 1] > xAxis.max) {
if ((!defined(xAxis.options.max) &&
isNumber(xAxis.dataMax) &&
xAxis.max >= xAxis.dataMax) || xAxis.max === xAxis.dataMax) {
xAxis.max = Math.max(groupedXData[groupedXData.length - 1], xAxis.max);
}
xAxis.dataMax = Math.max(groupedXData[groupedXData.length - 1], xAxis.dataMax);
}
}
/**
* @private
*/
function anchorPoints(series, groupedXData, xMax) {
const options = series.options, dataGroupingOptions = options.dataGrouping, totalRange = (series.currentDataGrouping && series.currentDataGrouping.gapSize);
if (!(dataGroupingOptions &&
series.xData &&
totalRange &&
series.groupMap)) {
return;
}
const groupedDataLastIndex = groupedXData.length - 1, anchor = dataGroupingOptions.anchor, firstAnchor = dataGroupingOptions.firstAnchor, lastAnchor = dataGroupingOptions.lastAnchor;
let anchorIndexIterator = groupedXData.length - 1, anchorFirstIndex = 0;
// Change the first point position, but only when it is
// the first point in the data set not in the current zoom.
if (firstAnchor && series.xData[0] >= groupedXData[0]) {
anchorFirstIndex++;
const groupStart = series.groupMap[0].start, groupLength = series.groupMap[0].length;
let firstGroupEnd;
if (isNumber(groupStart) && isNumber(groupLength)) {
firstGroupEnd = groupStart + (groupLength - 1);
}
groupedXData[0] = {
start: groupedXData[0],
middle: groupedXData[0] + 0.5 * totalRange,
end: groupedXData[0] + totalRange,
firstPoint: series.xData[0],
lastPoint: firstGroupEnd && series.xData[firstGroupEnd]
}[firstAnchor];
}
// Change the last point position but only when it is
// the last point in the data set not in the current zoom,
// or if it is not the 1st point simultaneously.
if (groupedDataLastIndex > 0 &&
lastAnchor &&
totalRange &&
groupedXData[groupedDataLastIndex] >= xMax - totalRange) {
anchorIndexIterator--;
const lastGroupStart = series.groupMap[series.groupMap.length - 1].start;
groupedXData[groupedDataLastIndex] = {
start: groupedXData[groupedDataLastIndex],
middle: groupedXData[groupedDataLastIndex] + 0.5 * totalRange,
end: groupedXData[groupedDataLastIndex] + totalRange,
firstPoint: lastGroupStart && series.xData[lastGroupStart],
lastPoint: series.xData[series.xData.length - 1]
}[lastAnchor];
}
if (anchor && anchor !== 'start') {
const shiftInterval = (totalRange *
{ middle: 0.5, end: 1 }[anchor]);
// Anchor the rest of the points apart from the ones, that were
// previously moved.
while (anchorIndexIterator >= anchorFirstIndex) {
groupedXData[anchorIndexIterator] += shiftInterval;
anchorIndexIterator--;
}
}
}
/**
* For the processed data, calculate the grouped data if needed.
*
* @private
* @function Highcharts.Series#applyGrouping
*/
function applyGrouping(hasExtremesChanged) {
const series = this, chart = series.chart, options = series.options, dataGroupingOptions = options.dataGrouping, groupingEnabled = series.allowDG !== false && dataGroupingOptions &&
pick(dataGroupingOptions.enabled, chart.options.isStock), reserveSpace = series.reserveSpace(), lastDataGrouping = this.currentDataGrouping;
let currentDataGrouping, croppedData, revertRequireSorting = false;
// Data needs to be sorted for dataGrouping
if (groupingEnabled && !series.requireSorting) {
series.requireSorting = revertRequireSorting = true;
}
// Skip if skipDataGrouping method returns false or if grouping is disabled
// (in that order).
const skip = skipDataGrouping(series, hasExtremesChanged) === false || !groupingEnabled;
// Revert original requireSorting value if changed
if (revertRequireSorting) {
series.requireSorting = false;
}
if (skip) {
return;
}
series.destroyGroupedData();
const processedXData = dataGroupingOptions.groupAll ?
series.xData :
series.processedXData, processedYData = dataGroupingOptions.groupAll ?
series.yData :
series.processedYData, plotSizeX = chart.plotSizeX, xAxis = series.xAxis, ordinal = xAxis.options.ordinal, groupPixelWidth = series.groupPixelWidth;
let i, hasGroupedData;
// Execute grouping if the amount of points is greater than the limit
// defined in groupPixelWidth
if (groupPixelWidth &&
processedXData &&
processedXData.length &&
plotSizeX) {
hasGroupedData = true;
// Force recreation of point instances in series.translate, #5699
series.isDirty = true;
series.points = null; // #6709
const extremes = xAxis.getExtremes(), xMin = extremes.min, xMax = extremes.max, groupIntervalFactor = (ordinal &&
xAxis.ordinal &&
xAxis.ordinal.getGroupIntervalFactor(xMin, xMax, series)) || 1, interval = (groupPixelWidth * (xMax - xMin) / plotSizeX) *
groupIntervalFactor, groupPositions = xAxis.getTimeTicks(DateTimeAxis.Additions.prototype.normalizeTimeTickInterval(interval, dataGroupingOptions.units ||
DataGroupingDefaults.units),
// Processed data may extend beyond axis (#4907)
Math.min(xMin, processedXData[0]), Math.max(xMax, processedXData[processedXData.length - 1]), xAxis.options.startOfWeek, processedXData, series.closestPointRange), groupedData = seriesProto.groupData.apply(series, [
processedXData,
processedYData,
groupPositions,
dataGroupingOptions.approximation
]);
let groupedXData = groupedData.groupedXData, groupedYData = groupedData.groupedYData, gapSize = 0;
// The smoothed option is deprecated, instead, there is a fallback
// to the new anchoring mechanism. #12455.
if (dataGroupingOptions &&
dataGroupingOptions.smoothed &&
groupedXData.length) {
dataGroupingOptions.firstAnchor = 'firstPoint';
dataGroupingOptions.anchor = 'middle';
dataGroupingOptions.lastAnchor = 'lastPoint';
error(32, false, chart, {
'dataGrouping.smoothed': 'use dataGrouping.anchor'
});
}
// Record what data grouping values were used
for (i = 1; i < groupPositions.length; i++) {
// The grouped gapSize needs to be the largest distance between
// the group to capture varying group sizes like months or DST
// crossing (#10000). Also check that the gap is not at the
// start of a segment.
if (!groupPositions.info.segmentStarts ||
groupPositions.info.segmentStarts.indexOf(i) === -1) {
gapSize = Math.max(groupPositions[i] - groupPositions[i - 1], gapSize);
}
}
currentDataGrouping = groupPositions.info;
currentDataGrouping.gapSize = gapSize;
series.closestPointRange = groupPositions.info.totalRange;
series.groupMap = groupedData.groupMap;
series.currentDataGrouping = currentDataGrouping;
anchorPoints(series, groupedXData, xMax);
if (reserveSpace) {
adjustExtremes(xAxis, groupedXData);
}
// We calculated all group positions but we should render
// only the ones within the visible range
if (dataGroupingOptions.groupAll) {
// Keep the reference to all grouped points
// for further calculation (eg. heikinashi).
series.allGroupedData = groupedYData;
croppedData = series.cropData(groupedXData, groupedYData, xAxis.min, xAxis.max);
groupedXData = croppedData.xData;
groupedYData = croppedData.yData;
series.cropStart = croppedData.start; // #15005
}
// Set series props
series.processedXData = groupedXData;
series.processedYData = groupedYData;
}
else {
series.groupMap = null;
}
series.hasGroupedData = hasGroupedData;
series.preventGraphAnimation =
(lastDataGrouping && lastDataGrouping.totalRange) !==
(currentDataGrouping && currentDataGrouping.totalRange);
}
/**
* @private
*/
function compose(SeriesClass) {
const seriesProto = SeriesClass.prototype;
if (!seriesProto.applyGrouping) {
const PointClass = SeriesClass.prototype.pointClass;
// Override point prototype to throw a warning when trying to update
// grouped points.
addEvent(PointClass, 'update', function () {
if (this.dataGroup) {
error(24, false, this.series.chart);
return false;
}
});
addEvent(SeriesClass, 'afterSetOptions', onAfterSetOptions);
addEvent(SeriesClass, 'destroy', destroyGroupedData);
extend(seriesProto, {
applyGrouping,
destroyGroupedData,
generatePoints,
getDGApproximation,
groupData
});
}
}
/**
* Destroy the grouped data points. #622, #740
* @private
*/
function destroyGroupedData() {
// Clear previous groups
if (this.groupedData) {
this.groupedData.forEach(function (point, i) {
if (point) {
this.groupedData[i] = point.destroy ?
point.destroy() : null;
}
}, this);
// Clears all:
// - `this.groupedData`
// - `this.points`
// - `preserve` object in series.update()
this.groupedData.length = 0;
delete this.allGroupedData; // #19892
}
}
/**
* Override the generatePoints method by adding a reference to grouped data
* @private
*/
function generatePoints() {
baseGeneratePoints.apply(this);
// Record grouped data in order to let it be destroyed the next time
// processData runs
this.destroyGroupedData(); // #622
this.groupedData = this.hasGroupedData ? this.points : null;
}
/**
* Set default approximations to the prototypes if present. Properties are
* inherited down. Can be overridden for individual series types.
* @private
*/
function getDGApproximation() {
if (this.is('arearange')) {
return 'range';
}
if (this.is('ohlc')) {
return 'ohlc';
}
if (this.is('hlc')) {
return 'hlc';
}
if (
// #18974, default approximation for cumulative
// should be `sum` when `dataGrouping` is enabled
this.is('column') ||
this.options.cumulative) {
return 'sum';
}
return 'average';
}
/**
* Highcharts Stock only. Takes parallel arrays of x and y data and groups the
* data into intervals defined by groupPositions, a collection of starting x
* values for each group.
*
* @product highstock
*
* @function Highcharts.Series#groupData
* @param {Array<number>} xData
* Parallel array of x data.
* @param {Array<(number|null|undefined)>|Array<Array<(number|null|undefined)>>} yData
* Parallel array of y data.
* @param {Array<number>} groupPositions
* Group positions.
* @param {string|Function} [approximation]
* Approximation to use.
* @return {Highcharts.DataGroupingResultObject}
* Mapped groups.
*/
function groupData(xData, yData, groupPositions, approximation) {
const series = this, data = series.data, dataOptions = series.options && series.options.data, groupedXData = [], groupedYData = [], groupMap = [], dataLength = xData.length,
// When grouping the fake extended axis for panning, we don't need to
// consider y
handleYData = !!yData, values = [], pointArrayMap = series.pointArrayMap, pointArrayMapLength = pointArrayMap && pointArrayMap.length, extendedPointArrayMap = ['x'].concat(pointArrayMap || ['y']), groupAll = (this.options.dataGrouping &&
this.options.dataGrouping.groupAll);
let pointX, pointY, groupedY, pos = 0, start = 0;
const approximationFn = (typeof approximation === 'function' ?
approximation :
approximation && ApproximationRegistry[approximation] ?
ApproximationRegistry[approximation] :
ApproximationRegistry[(series.getDGApproximation && series.getDGApproximation() ||
'average')]);
// Calculate values array size from pointArrayMap length
if (pointArrayMapLength) {
let len = pointArrayMap.length;
while (len--) {
values.push([]);
}
}
else {
values.push([]);
}
const valuesLen = pointArrayMapLength || 1;
for (let i = 0; i <= dataLength; i++) {
// Start with the first point within the X axis range (#2696)
if (xData[i] < groupPositions[0]) {
continue; // With next point
}
// When a new group is entered, summarize and initialize
// the previous group
while ((typeof groupPositions[pos + 1] !== 'undefined' &&
xData[i] >= groupPositions[pos + 1]) ||
i === dataLength) { // Get the last group
// get group x and y
pointX = groupPositions[pos];
series.dataGroupInfo = {
start: groupAll ? start : (series.cropStart + start),
length: values[0].length,
groupStart: pointX
};
groupedY = approximationFn.apply(series, values);
// By default, let options of the first grouped point be passed over
// to the grouped point. This allows preserving properties like
// `name` and `color` or custom properties. Implementers can
// override this from the approximation function, where they can
// write custom options to `this.dataGroupInfo.options`.
if (series.pointClass && !defined(series.dataGroupInfo.options)) {
// Convert numbers and arrays into objects
series.dataGroupInfo.options = merge(series.pointClass.prototype
.optionsToObject.call({ series: series }, series.options.data[series.cropStart + start]));
// Make sure the raw data (x, y, open, high etc) is not copied
// over and overwriting approximated data.
extendedPointArrayMap.forEach(function (key) {
delete series.dataGroupInfo.options[key];
});
}
// Push the grouped data
if (typeof groupedY !== 'undefined') {
groupedXData.push(pointX);
groupedYData.push(groupedY);
groupMap.push(series.dataGroupInfo);
}
// Reset the aggregate arrays
start = i;
for (let j = 0; j < valuesLen; j++) {
values[j].length = 0; // Faster than values[j] = []
values[j].hasNulls = false;
}
// Advance on the group positions
pos += 1;
// Don't loop beyond the last group
if (i === dataLength) {
break;
}
}
// Break out
if (i === dataLength) {
break;
}
// For each raw data point, push it to an array that contains all values
// for this specific group
if (pointArrayMap) {
const index = (series.options.dataGrouping &&
series.options.dataGrouping.groupAll ?
i : series.cropStart + i), point = (data && data[index]) ||
series.pointClass.prototype.applyOptions.apply({
series: series
}, [dataOptions[index]]);
let val;
for (let j = 0; j < pointArrayMapLength; j++) {
val = point[pointArrayMap[j]];
if (isNumber(val)) {
values[j].push(val);
}
else if (val === null) {
values[j].hasNulls = true;
}
}
}
else {
pointY = handleYData ? yData[i] : null;
if (isNumber(pointY)) {
values[0].push(pointY);
}
else if (pointY === null) {
values[0].hasNulls = true;
}
}
}
return {
groupedXData,
groupedYData,
groupMap
};
}
/**
* Handle default options for data grouping. This must be set at runtime because
* some series types are defined after this.
* @private
*/
function onAfterSetOptions(e) {
const options = e.options, type = this.type, plotOptions = this.chart.options.plotOptions,
// External series, for example technical indicators should also inherit
// commonOptions which are not available outside this module
baseOptions = (this.useCommonDataGrouping &&
DataGroupingDefaults.common), seriesSpecific = DataGroupingDefaults.seriesSpecific;
let defaultOptions = D.defaultOptions.plotOptions[type].dataGrouping;
if (plotOptions && (seriesSpecific[type] || baseOptions)) { // #1284
const rangeSelector = this.chart.rangeSelector;
if (!defaultOptions) {
defaultOptions = merge(DataGroupingDefaults.common, seriesSpecific[type]);
}
options.dataGrouping = merge(baseOptions, defaultOptions, plotOptions.series && plotOptions.series.dataGrouping, // #1228
// Set by the StockChart constructor:
plotOptions[type].dataGrouping, this.userOptions.dataGrouping, !options.isInternal &&
rangeSelector &&
isNumber(rangeSelector.selected) &&
rangeSelector.buttonOptions[rangeSelector.selected].dataGrouping);
}
}
/**
* @private
*/
function skipDataGrouping(series, force) {
return !(series.isCartesian &&
!series.isDirty &&
!series.xAxis.isDirty &&
!series.yAxis.isDirty &&
!force);
}
/* *
*
* Default Export
*
* */
const DataGroupingSeriesComposition = {
compose,
groupData
};
return DataGroupingSeriesComposition;
});
_registerModule(_modules, 'Extensions/DataGrouping/DataGrouping.js', [_modules['Extensions/DataGrouping/DataGroupingAxisComposition.js'], _modules['Extensions/DataGrouping/DataGroupingDefaults.js'], _modules['Extensions/DataGrouping/DataGroupingSeriesComposition.js'], _modules['Core/Templating.js'], _modules['Core/Globals.js'], _modules['Core/Utilities.js']], function (DataGroupingAxisComposition, DataGroupingDefaults, DataGroupingSeriesComposition, F, H, U) {
/* *
*
* (c) 2010-2024 Torstein Honsi
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { format } = F;
const { composed } = H;
const { addEvent, extend, isNumber, pick, pushUnique } = U;
/* *
*
* Functions
*
* */
/**
* @private
*/
function compose(AxisClass, SeriesClass, TooltipClass) {
DataGroupingAxisComposition.compose(AxisClass);
DataGroupingSeriesComposition.compose(SeriesClass);
if (TooltipClass &&
pushUnique(composed, 'DataGrouping')) {
addEvent(TooltipClass, 'headerFormatter', onTooltipHeaderFormatter);
}
}
/**
* Extend the original method, make the tooltip's header reflect the grouped
* range.
* @private
*/
function onTooltipHeaderFormatter(e) {
const chart = this.chart, time = chart.time, labelConfig = e.labelConfig, series = labelConfig.series, point = labelConfig.point, options = series.options, tooltipOptions = series.tooltipOptions, dataGroupingOptions = options.dataGrouping, xAxis = series.xAxis;
let xDateFormat = tooltipOptions.xDateFormat, xDateFormatEnd, currentDataGrouping, dateTimeLabelFormats, labelFormats, formattedKey, formatString = tooltipOptions[e.isFooter ? 'footerFormat' : 'headerFormat'];
// Apply only to grouped series
if (xAxis &&
xAxis.options.type === 'datetime' &&
dataGroupingOptions &&
isNumber(labelConfig.key)) {
// Set variables
currentDataGrouping = series.currentDataGrouping;
dateTimeLabelFormats = dataGroupingOptions.dateTimeLabelFormats ||
// Fallback to commonOptions (#9693)
DataGroupingDefaults.common.dateTimeLabelFormats;
// If we have grouped data, use the grouping information to get the
// right format
if (currentDataGrouping) {
labelFormats = dateTimeLabelFormats[currentDataGrouping.unitName];
if (currentDataGrouping.count === 1) {
xDateFormat = labelFormats[0];
}
else {
xDateFormat = labelFormats[1];
xDateFormatEnd = labelFormats[2];
}
// If not grouped, and we don't have set the xDateFormat option, get the
// best fit, so if the least distance between points is one minute, show
// it, but if the least distance is one day, skip hours and minutes etc.
}
else if (!xDateFormat && dateTimeLabelFormats && xAxis.dateTime) {
xDateFormat = xAxis.dateTime.getXDateFormat(labelConfig.x, tooltipOptions.dateTimeLabelFormats);
}
const groupStart = pick(series.groupMap?.[point.index].groupStart, labelConfig.key), groupEnd = groupStart + currentDataGrouping?.totalRange - 1;
formattedKey = time.dateFormat(xDateFormat, groupStart);
if (xDateFormatEnd) {
formattedKey += time.dateFormat(xDateFormatEnd, groupEnd);
}
// Replace default header style with class name
if (series.chart.styledMode) {
formatString = this.styledModeFormat(formatString);
}
// Return the replaced format
e.text = format(formatString, {
point: extend(labelConfig.point, { key: formattedKey }),
series: series
}, chart);
e.preventDefault();
}
}
/* *
*
* Default Export
*
* */
const DataGroupingComposition = {
compose,
groupData: DataGroupingSeriesComposition.groupData
};
/* *
*
* API Declarations
*
* */
/**
* @typedef {"average"|"averages"|"open"|"high"|"low"|"close"|"sum"} Highcharts.DataGroupingApproximationValue
*/
/**
* The position of the point inside the group.
*
* @typedef {"start"|"middle"|"end"} Highcharts.DataGroupingAnchor
*/
/**
* The position of the first or last point in the series inside the group.
*
* @typedef {"start"|"middle"|"end"|"firstPoint"|"lastPoint"} Highcharts.DataGroupingAnchorExtremes
*/
/**
* Highcharts Stock only.
*
* @product highstock
* @interface Highcharts.DataGroupingInfoObject
*/ /**
* @name Highcharts.DataGroupingInfoObject#length
* @type {number}
*/ /**
* @name Highcharts.DataGroupingInfoObject#options
* @type {Highcharts.SeriesOptionsType|undefined}
*/ /**
* @name Highcharts.DataGroupingInfoObject#start
* @type {number}
*/
/**
* Highcharts Stock only.
*
* @product highstock
* @interface Highcharts.DataGroupingResultObject
*/ /**
* @name Highcharts.DataGroupingResultObject#groupedXData
* @type {Array<number>}
*/ /**
* @name Highcharts.DataGroupingResultObject#groupedYData
* @type {Array<(number|null|undefined)>|Array<Array<(number|null|undefined)>>}
*/ /**
* @name Highcharts.DataGroupingResultObject#groupMap
* @type {Array<DataGroupingInfoObject>}
*/
/**
* Highcharts Stock only. If a point object is created by data
* grouping, it doesn't reflect actual points in the raw
* data. In this case, the `dataGroup` property holds
* information that points back to the raw data.
*
* - `dataGroup.start` is the index of the first raw data
* point in the group.
*
* - `dataGroup.length` is the amount of points in the
* group.
*
* @sample stock/members/point-datagroup
* Click to inspect raw data points
*
* @product highstock
*
* @name Highcharts.Point#dataGroup
* @type {Highcharts.DataGroupingInfoObject|undefined}
*/
(''); // Detach doclets above
/* *
*
* API Options
*
* */
/**
* Data grouping is the concept of sampling the data values into larger
* blocks in order to ease readability and increase performance of the
* JavaScript charts. Highcharts Stock by default applies data grouping when
* the points become closer than a certain pixel value, determined by
* the `groupPixelWidth` option.
*
* If data grouping is applied, the grouping information of grouped
* points can be read from the [Point.dataGroup](
* /class-reference/Highcharts.Point#dataGroup). If point options other than
* the data itself are set, for example `name` or `color` or custom properties,
* the grouping logic doesn't know how to group it. In this case the options of
* the first point instance are copied over to the group point. This can be
* altered through a custom `approximation` callback function.
*
* @declare Highcharts.DataGroupingOptionsObject
* @product highstock
* @requires product:highstock
* @requires module:modules/datagrouping
* @apioption plotOptions.series.dataGrouping
*/
/**
* Specifies how the points should be located on the X axis inside the group.
* Points that are extremes can be set separately. Available options:
*
* - `start` places the point at the beginning of the group
* (e.g. range 00:00:00 - 23:59:59 -> 00:00:00)
*
* - `middle` places the point in the middle of the group
* (e.g. range 00:00:00 - 23:59:59 -> 12:00:00)
*
* - `end` places the point at the end of the group
* (e.g. range 00:00:00 - 23:59:59 -> 23:59:59)
*
* @sample {highstock} stock/plotoptions/series-datagrouping-anchor
* Changing the point x-coordinate inside the group.
*
* @see [dataGrouping.firstAnchor](#plotOptions.series.dataGrouping.firstAnchor)
* @see [dataGrouping.lastAnchor](#plotOptions.series.dataGrouping.lastAnchor)
*
* @type {Highcharts.DataGroupingAnchor}
* @since 9.1.0
* @default start
* @apioption plotOptions.series.dataGrouping.anchor
*/
/**
* The method of approximation inside a group. When for example 30 days
* are grouped into one month, this determines what value should represent
* the group. Possible values are "average", "averages", "open", "high",
* "low", "close" and "sum". For OHLC and candlestick series the approximation
* is "ohlc" by default, which finds the open, high, low and close values
* within all the grouped data. For ranges, the approximation is "range",
* which finds the low and high values. For multi-dimensional data,
* like ranges and OHLC, "averages" will compute the average for each
* dimension.
*
* Custom aggregate methods can be added by assigning a callback function
* as the approximation. This function takes a numeric array as the
* argument and should return a single numeric value or `null`. Note
* that the numeric array will never contain null values, only true
* numbers. Instead, if null values are present in the raw data, the
* numeric array will have an `.hasNulls` property set to `true`. For
* single-value data sets the data is available in the first argument
* of the callback function. For OHLC data sets, all the open values
* are in the first argument, all high values in the second etc.
*
* Since v4.2.7, grouping meta data is available in the approximation
* callback from `this.dataGroupInfo`. It can be used to extract information
* from the raw data.
*
* Defaults to `average` for line-type series, `sum` for columns, `range`
* for range series, `hlc` for HLC, and `ohlc` for OHLC and candlestick.
*
* @sample {highstock} stock/plotoptions/series-datagrouping-approximation
* Approximation callback with custom data
* @sample {highstock} stock/plotoptions/series-datagrouping-simple-approximation
* Simple approximation demo
*
* @type {Highcharts.DataGroupingApproximationValue|Function}
* @apioption plotOptions.series.dataGrouping.approximation
*/
/**
* Datetime formats for the header of the tooltip in a stock chart.
* The format can vary within a chart depending on the currently selected
* time range and the current data grouping.
*
* The default formats are:
* ```js
* {
* millisecond: [
* '%A, %e %b, %H:%M:%S.%L', '%A, %e %b, %H:%M:%S.%L', '-%H:%M:%S.%L'
* ],
* second: ['%A, %e %b, %H:%M:%S', '%A, %e %b, %H:%M:%S', '-%H:%M:%S'],
* minute: ['%A, %e %b, %H:%M', '%A, %e %b, %H:%M', '-%H:%M'],
* hour: ['%A, %e %b, %H:%M', '%A, %e %b, %H:%M', '-%H:%M'],
* day: ['%A, %e %b %Y', '%A, %e %b', '-%A, %e %b %Y'],
* week: ['Week from %A, %e %b %Y', '%A, %e %b', '-%A, %e %b %Y'],
* month: ['%B %Y', '%B', '-%B %Y'],
* year: ['%Y', '%Y', '-%Y']
* }
* ```
*
* For each of these array definitions, the first item is the format
* used when the active time span is one unit. For instance, if the
* current data applies to one week, the first item of the week array
* is used. The second and third items are used when the active time
* span is more than two units. For instance, if the current data applies
* to two weeks, the second and third item of the week array are used,
* and applied to the start and end date of the time span.
*
* @type {Object}
* @apioption plotOptions.series.dataGrouping.dateTimeLabelFormats
*/
/**
* Enable or disable data grouping.
*
* @type {boolean}
* @default true
* @apioption plotOptions.series.dataGrouping.enabled
*/
/**
* Specifies how the first grouped point is positioned on the xAxis.
* If firstAnchor and/or lastAnchor are defined, then those options take
* precedence over anchor for the first and/or last grouped points.
* Available options:
*
* -`start` places the point at the beginning of the group
* (e.g. range 00:00:00 - 23:59:59 -> 00:00:00)
*
* -`middle` places the point in the middle of the group
* (e.g. range 00:00:00 - 23:59:59 -> 12:00:00)
*
* -`end` places the point at the end of the group
* (e.g. range 00:00:00 - 23:59:59 -> 23:59:59)
*
* -`firstPoint` the first point in the group
* (e.g. points at 00:13, 00:35, 00:59 -> 00:13)
*
* -`lastPoint` the last point in the group
* (e.g. points at 00:13, 00:35, 00:59 -> 00:59)
*
* @sample {highstock} stock/plotoptions/series-datagrouping-first-anchor
* Applying first and last anchor.
*
* @see [dataGrouping.anchor](#plotOptions.series.dataGrouping.anchor)
*
* @type {Highcharts.DataGroupingAnchorExtremes}
* @since 9.1.0
* @default start
* @apioption plotOptions.series.dataGrouping.firstAnchor
*/
/**
* When data grouping is forced, it runs no matter how small the intervals
* are. This can be handy for example when the sum should be calculated
* for values appearing at random times within each hour.
*
* @type {boolean}
* @default false
* @apioption plotOptions.series.dataGrouping.forced
*/
/**
* The approximate pixel width of each group. If for example a series
* with 30 points is displayed over a 600 pixel wide plot area, no grouping
* is performed. If however the series contains so many points that
* the spacing is less than the groupPixelWidth, Highcharts will try
* to group it into appropriate groups so that each is more or less
* two pixels wide. If multiple series with different group pixel widths
* are drawn on the same x axis, all series will take the greatest width.
* For example, line series have 2px default group width, while column
* series have 10px. If combined, both the line and the column will
* have 10px by default.
*
* @type {number}
* @default 2
* @apioption plotOptions.series.dataGrouping.groupPixelWidth
*/
/**
* By default only points within the visible range are grouped. Enabling this
* option will force data grouping to calculate all grouped points for a given
* dataset. That option prevents for example a column series from calculating
* a grouped point partially. The effect is similar to
* [Series.getExtremesFromAll](#plotOptions.series.getExtremesFromAll) but does
* not affect yAxis extremes.
*
* @sample {highstock} stock/plotoptions/series-datagrouping-groupall/
* Two series with the same data but different groupAll setting
*
* @type {boolean}
* @default false
* @since 6.1.0
* @apioption plotOptions.series.dataGrouping.groupAll
*/
/**
* Specifies how the last grouped point is positioned on the xAxis.
* If firstAnchor and/or lastAnchor are defined, then those options take
* precedence over anchor for the first and/or last grouped points.
* Available options:
*
* -`start` places the point at the beginning of the group
* (e.g. range 00:00:00 - 23:59:59 -> 00:00:00)
*
* -`middle` places the point in the middle of the group
* (e.g. range 00:00:00 - 23:59:59 -> 12:00:00)
*
* -`end` places the point at the end of the group
* (e.g. range 00:00:00 - 23:59:59 -> 23:59:59)
*
* -`firstPoint` the first point in the group
* (e.g. points at 00:13, 00:35, 00:59 -> 00:13)
*
* -`lastPoint` the last point in the group
* (e.g. points at 00:13, 00:35, 00:59 -> 00:59)
*
* @sample {highstock} stock/plotoptions/series-datagrouping-first-anchor
* Applying first and last anchor.
*
* @sample {highstock} stock/plotoptions/series-datagrouping-last-anchor
* Applying the last anchor in the chart with live data.
*
* @see [dataGrouping.anchor](#plotOptions.series.dataGrouping.anchor)
*
* @type {Highcharts.DataGroupingAnchorExtremes}
* @since 9.1.0
* @default start
* @apioption plotOptions.series.dataGrouping.lastAnchor
*/
/**
* Normally, a group is indexed by the start of that group, so for example
* when 30 daily values are grouped into one month, that month's x value
* will be the 1st of the month. This apparently shifts the data to
* the left. When the smoothed option is true, this is compensated for.
* The data is shifted to the middle of the group, and min and max
* values are preserved. Internally, this is used in the Navigator series.
*
* @type {boolean}
* @default false
* @deprecated
* @apioption plotOptions.series.dataGrouping.smoothed
*/
/**
* An array determining what time intervals the data is allowed to be
* grouped to. Each array item is an array where the first value is
* the time unit and the second value another array of allowed multiples.
*
* Defaults to:
* ```js
* units: [[
* 'millisecond', // unit name
* [1, 2, 5, 10, 20, 25, 50, 100, 200, 500] // allowed multiples
* ], [
* 'second',
* [1, 2, 5, 10, 15, 30]
* ], [
* 'minute',
* [1, 2, 5, 10, 15, 30]
* ], [
* 'hour',
* [1, 2, 3, 4, 6, 8, 12]
* ], [
* 'day',
* [1]
* ], [
* 'week',
* [1]
* ], [
* 'month',
* [1, 3, 6]
* ], [
* 'year',
* null
* ]]
* ```
*
* @type {Array<Array<string,(Array<number>|null)>>}
* @apioption plotOptions.series.dataGrouping.units
*/
/**
* The approximate pixel width of each group. If for example a series
* with 30 points is displayed over a 600 pixel wide plot area, no grouping
* is performed. If however the series contains so many points that
* the spacing is less than the groupPixelWidth, Highcharts will try
* to group it into appropriate groups so that each is more or less
* two pixels wide. Defaults to `10`.
*
* @sample {highstock} stock/plotoptions/series-datagrouping-grouppixelwidth/
* Two series with the same data density but different groupPixelWidth
*
* @type {number}
* @default 10
* @apioption plotOptions.column.dataGrouping.groupPixelWidth
*/
''; // Required by JSDoc parsing
return DataGroupingComposition;
});
_registerModule(_modules, 'masters/modules/datagrouping.src.js', [_modules['Core/Globals.js'], _modules['Extensions/DataGrouping/ApproximationDefaults.js'], _modules['Extensions/DataGrouping/ApproximationRegistry.js'], _modules['Extensions/DataGrouping/DataGrouping.js']], function (Highcharts, ApproximationDefaults, ApproximationRegistry, DataGrouping) {
const G = Highcharts;
G.dataGrouping = G.dataGrouping || {};
G.dataGrouping.approximationDefaults = (G.dataGrouping.approximationDefaults ||
ApproximationDefaults);
G.dataGrouping.approximations = (G.dataGrouping.approximations ||
ApproximationRegistry);
DataGrouping.compose(G.Axis, G.Series, G.Tooltip);
return Highcharts;
});
_registerModule(_modules, 'Extensions/Annotations/NavigationBindingsUtilities.js', [_modules['Core/Utilities.js']], function (U) {
/* *
*
* (c) 2009-2024 Highsoft, Black Label
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { defined, isNumber, pick } = U;
/* *
*
* Constants
*
* */
/**
* Define types for editable fields per annotation. There is no need to define
* numbers, because they won't change their type to string.
* @private
*/
const annotationsFieldsTypes = {
backgroundColor: 'string',
borderColor: 'string',
borderRadius: 'string',
color: 'string',
fill: 'string',
fontSize: 'string',
labels: 'string',
name: 'string',
stroke: 'string',
title: 'string'
};
/* *
*
* Functions
*
* */
/**
* Returns the first xAxis or yAxis that was clicked with its value.
*
* @private
*
* @param {Array<Highcharts.PointerAxisCoordinateObject>} coords
* All the chart's x or y axes with a current pointer's axis value.
*
* @return {Highcharts.PointerAxisCoordinateObject}
* Object with a first found axis and its value that pointer
* is currently pointing.
*/
function getAssignedAxis(coords) {
return coords.filter((coord) => {
const extremes = coord.axis.getExtremes(), axisMin = extremes.min, axisMax = extremes.max,
// Correct axis edges when axis has series
// with pointRange (like column)
minPointOffset = pick(coord.axis.minPointOffset, 0);
return isNumber(axisMin) && isNumber(axisMax) &&
coord.value >= (axisMin - minPointOffset) &&
coord.value <= (axisMax + minPointOffset) &&
// Don't count navigator axis
!coord.axis.options.isInternal;
})[0]; // If the axes overlap, return the first axis that was found.
}
/**
* Get field type according to value
*
* @private
*
* @param {'boolean'|'number'|'string'} value
* Atomic type (one of: string, number, boolean)
*
* @return {'checkbox'|'number'|'text'}
* Field type (one of: text, number, checkbox)
*/
function getFieldType(key, value) {
const predefinedType = annotationsFieldsTypes[key];
let fieldType = typeof value;
if (defined(predefinedType)) {
fieldType = predefinedType;
}
return {
'string': 'text',
'number': 'number',
'boolean': 'checkbox'
}[fieldType];
}
/* *
*
* Default Export
*
* */
const NavigationBindingUtilities = {
annotationsFieldsTypes,
getAssignedAxis,
getFieldType
};
return NavigationBindingUtilities;
});
_registerModule(_modules, 'Extensions/MouseWheelZoom/MouseWheelZoom.js', [_modules['Core/Utilities.js'], _modules['Extensions/Annotations/NavigationBindingsUtilities.js']], function (U, NBU) {
/* *
*
* (c) 2023 Torstein Honsi, Askel Eirik Johansson
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
const { addEvent, isObject, pick, defined, merge } = U;
const { getAssignedAxis } = NBU;
/* *
*
* Constants
*
* */
const composedClasses = [], defaultOptions = {
enabled: true,
sensitivity: 1.1
};
let wheelTimer;
/* *
*
* Functions
*
* */
/**
* @private
*/
const optionsToObject = (options) => {
if (!isObject(options)) {
options = {
enabled: options ?? true
};
}
return merge(defaultOptions, options);
};
/**
* @private
*/
const zoomBy = function (chart, howMuch, xAxis, yAxis, mouseX, mouseY, options) {
const type = pick(options.type, chart.zooming.type, '');
let axes = [];
if (type === 'x') {
axes = xAxis;
}
else if (type === 'y') {
axes = yAxis;
}
else if (type === 'xy') {
axes = chart.axes;
}
const hasZoomed = chart.transform({
axes,
// Create imaginary reference and target rectangles around the mouse
// point that scales up or down with `howMuch`;
to: {
x: mouseX - 5,
y: mouseY - 5,
// Must use 10 to get passed the limit for too small reference.
// Below this, the transform will default to a pan.
width: 10,
height: 10
},
from: {
x: mouseX - 5 * howMuch,
y: mouseY - 5 * howMuch,
width: 10 * howMuch,
height: 10 * howMuch
},
trigger: 'mousewheel'
});
if (hasZoomed) {
if (defined(wheelTimer)) {
clearTimeout(wheelTimer);
}
// Some time after the last mousewheel event, run drop. In case any of
// the affected axes had `startOnTick` or `endOnTick`, they will be
// re-adjusted now.
wheelTimer = setTimeout(() => {
chart.pointer?.drop();
}, 400);
}
return hasZoomed;
};
/**
* @private
*/
function onAfterGetContainer() {
const wheelZoomOptions = optionsToObject(this.zooming.mouseWheel);
if (wheelZoomOptions.enabled) {
addEvent(this.container, 'wheel', (e) => {
e = this.pointer?.normalize(e) || e;
const { pointer } = this, allowZoom = pointer && !pointer.inClass(e.target, 'highcharts-no-mousewheel');
// Firefox uses e.detail, WebKit and IE uses deltaX, deltaY, deltaZ.
if (this.isInsidePlot(e.chartX - this.plotLeft, e.chartY - this.plotTop) && allowZoom) {
const wheelSensitivity = wheelZoomOptions.sensitivity || 1.1, delta = e.detail || ((e.deltaY || 0) / 120), xAxisCoords = getAssignedAxis(pointer.getCoordinates(e).xAxis), yAxisCoords = getAssignedAxis(pointer.getCoordinates(e).yAxis);
const hasZoomed = zoomBy(this, Math.pow(wheelSensitivity, delta), xAxisCoords ? [xAxisCoords.axis] : this.xAxis, yAxisCoords ? [yAxisCoords.axis] : this.yAxis, e.chartX, e.chartY, wheelZoomOptions);
// Prevent page scroll
if (hasZoomed) {
e.preventDefault?.();
}
}
});
}
}
/**
* @private
*/
function compose(ChartClass) {
if (composedClasses.indexOf(ChartClass) === -1) {
composedClasses.push(ChartClass);
addEvent(ChartClass, 'afterGetContainer', onAfterGetContainer);
}
}
/* *
*
* Default Export
*
* */
const MouseWheelZoomComposition = {
compose
};
/* *
*
* API Options
*
* */
/**
* The mouse wheel zoom is a feature included in Highcharts Stock, but is also
* available for Highcharts Core as a module. Zooming with the mouse wheel is
* enabled by default in Highcharts Stock. In Highcharts Core it is enabled if
* [chart.zooming.type](chart.zooming.type) is set. It can be disabled by
* setting this option to `false`.
*
* @type {boolean|object}
* @since 11.1.0
* @requires modules/mouse-wheel-zoom
* @sample {highcharts} highcharts/mouse-wheel-zoom/enabled
* Enable or disable
* @sample {highstock} stock/mouse-wheel-zoom/enabled
* Enable or disable
* @apioption chart.zooming.mouseWheel
*/
/**
* Zooming with the mouse wheel can be disabled by setting this option to
* `false`.
*
* @type {boolean}
* @default true
* @since 11.1.0
* @requires modules/mouse-wheel-zoom
* @apioption chart.zooming.mouseWheel.enabled
*/
/**
* Adjust the sensitivity of the zoom. Sensitivity of mouse wheel or trackpad
* scrolling. `1` is no sensitivity, while with `2`, one mouse wheel delta will
* zoom in `50%`.
*
* @type {number}
* @default 1.1
* @since 11.1.0
* @requires modules/mouse-wheel-zoom
* @sample {highcharts} highcharts/mouse-wheel-zoom/sensitivity
* Change mouse wheel zoom sensitivity
* @sample {highstock} stock/mouse-wheel-zoom/sensitivity
* Change mouse wheel zoom sensitivity
* @apioption chart.zooming.mouseWheel.sensitivity
*/
/**
* Decides in what dimensions the user can zoom scrolling the wheel. Can be one
* of `x`, `y` or `xy`. In Highcharts Core, if not specified here, it will
* inherit the type from [chart.zooming.type](chart.zooming.type). In Highcharts
* Stock, it defaults to `x`.
*
* Note that particularly with mouse wheel in the y direction, the zoom is
* affected by the default [yAxis.startOnTick](#yAxis.startOnTick) and
* [endOnTick]((#yAxis.endOnTick)) settings. In order to respect these settings,
* the zoom level will adjust after the user has stopped zooming. To prevent
* this, consider setting `startOnTick` and `endOnTick` to `false`.
*
* @type {string}
* @default {highcharts} undefined
* @default {highstock} x
* @validvalue ["x", "y", "xy"]
* @since 11.1.0
* @requires modules/mouse-wheel-zoom
* @apioption chart.zooming.mouseWheel.type
*/
(''); // Keeps doclets above in JS file
return MouseWheelZoomComposition;
});
_registerModule(_modules, 'masters/modules/mouse-wheel-zoom.src.js', [_modules['Core/Globals.js'], _modules['Extensions/MouseWheelZoom/MouseWheelZoom.js']], function (Highcharts, MouseWheelZoom) {
const G = Highcharts;
G.MouseWheelZoom = G.MouseWheelZoom || MouseWheelZoom;
G.MouseWheelZoom.compose(G.Chart);
return Highcharts;
});
_registerModule(_modules, 'masters/modules/stock.src.js', [_modules['Core/Globals.js'], _modules['Series/DataModifyComposition.js'], _modules['Stock/Navigator/Navigator.js'], _modules['Core/Axis/OrdinalAxis.js'], _modules['Stock/RangeSelector/RangeSelector.js'], _modules['Stock/Scrollbar/Scrollbar.js'], _modules['Core/Chart/StockChart.js'], _modules['Series/OHLC/OHLCSeries.js'], _modules['Series/Flags/FlagsSeries.js']], function (Highcharts, DataModifyComposition, Navigator, OrdinalAxis, RangeSelector, Scrollbar, StockChart, OHLCSeries, FlagsSeries) {
const G = Highcharts;
// Classes
G.Navigator = G.Navigator || Navigator;
G.OrdinalAxis = G.OrdinalAxis || OrdinalAxis;
G.RangeSelector = G.RangeSelector || RangeSelector;
G.Scrollbar = G.Scrollbar || Scrollbar;
// Functions
G.stockChart = G.stockChart || StockChart.stockChart;
G.StockChart = G.StockChart || G.stockChart;
G.extend(G.StockChart, StockChart);
// Compositions
DataModifyComposition.compose(G.Series, G.Axis, G.Point);
FlagsSeries.compose(G.Renderer);
OHLCSeries.compose(G.Series);
G.Navigator.compose(G.Chart, G.Axis, G.Series);
G.OrdinalAxis.compose(G.Axis, G.Series, G.Chart);
G.RangeSelector.compose(G.Axis, G.Chart);
G.Scrollbar.compose(G.Axis);
G.StockChart.compose(G.Chart, G.Axis, G.Series, G.SVGRenderer);
return Highcharts;
});
}));