highcharts
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JavaScript charting framework
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JavaScript
/**
*
* (c) 2010-2025 Wojciech Chmiel
*
* License: www.highcharts.com/license
*
* !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
*
* */
;
import SeriesRegistry from '../../Core/Series/SeriesRegistry.js';
const { sma: { prototype: smaProto } } = SeriesRegistry.seriesTypes;
import U from '../../Core/Utilities.js';
const { defined, error, merge } = U;
/* *
*
* Composition
*
* */
var MultipleLinesComposition;
(function (MultipleLinesComposition) {
/* *
*
* Declarations
*
* */
/* *
*
* Constants
*
* */
/**
* Additional lines DOCS names. Elements of linesApiNames array should
* be consistent with DOCS line names defined in your implementation.
* Notice that linesApiNames should have decreased amount of elements
* relative to pointArrayMap (without pointValKey).
*
* @private
* @type {Array<string>}
*/
const linesApiNames = ['bottomLine'];
/**
* Lines ids. Required to plot appropriate amount of lines.
* Notice that pointArrayMap should have more elements than
* linesApiNames, because it contains main line and additional lines ids.
* Also it should be consistent with amount of lines calculated in
* getValues method from your implementation.
*
* @private
* @type {Array<string>}
*/
const pointArrayMap = ['top', 'bottom'];
/**
* Names of the lines, between which the area should be plotted.
* If the drawing of the area should
* be disabled for some indicators, leave this option as an empty array.
* Names should be the same as the names in the pointArrayMap.
*
* @private
* @type {Array<string>}
*/
const areaLinesNames = ['top'];
/**
* Main line id.
*
* @private
* @type {string}
*/
const pointValKey = 'top';
/* *
*
* Functions
*
* */
/**
* Composition useful for all indicators that have more than one line.
* Compose it with your implementation where you will provide the
* `getValues` method appropriate to your indicator and `pointArrayMap`,
* `pointValKey`, `linesApiNames` properties. Notice that `pointArrayMap`
* should be consistent with the amount of lines calculated in the
* `getValues` method.
*
* @private
*/
function compose(IndicatorClass) {
const proto = IndicatorClass.prototype;
proto.linesApiNames = (proto.linesApiNames ||
linesApiNames.slice());
proto.pointArrayMap = (proto.pointArrayMap ||
pointArrayMap.slice());
proto.pointValKey = (proto.pointValKey ||
pointValKey);
proto.areaLinesNames = (proto.areaLinesNames ||
areaLinesNames.slice());
proto.drawGraph = indicatorDrawGraph;
proto.getGraphPath = indicatorGetGraphPath;
proto.toYData = indicatorToYData;
proto.translate = indicatorTranslate;
return IndicatorClass;
}
MultipleLinesComposition.compose = compose;
/**
* Generate the API name of the line
*
* @private
* @param propertyName name of the line
*/
function getLineName(propertyName) {
return ('plot' +
propertyName.charAt(0).toUpperCase() +
propertyName.slice(1));
}
/**
* Create translatedLines Collection based on pointArrayMap.
*
* @private
* @param {string} [excludedValue]
* Main line id
* @return {Array<string>}
* Returns translated lines names without excluded value.
*/
function getTranslatedLinesNames(indicator, excludedValue) {
const translatedLines = [];
(indicator.pointArrayMap || []).forEach((propertyName) => {
if (propertyName !== excludedValue) {
translatedLines.push(getLineName(propertyName));
}
});
return translatedLines;
}
/**
* Draw main and additional lines.
*
* @private
*/
function indicatorDrawGraph() {
const indicator = this, pointValKey = indicator.pointValKey, linesApiNames = indicator.linesApiNames, areaLinesNames = indicator.areaLinesNames, mainLinePoints = indicator.points, mainLineOptions = indicator.options, mainLinePath = indicator.graph, gappedExtend = {
options: {
gapSize: mainLineOptions.gapSize
}
},
// Additional lines point place holders:
secondaryLines = [], secondaryLinesNames = getTranslatedLinesNames(indicator, pointValKey);
let pointsLength = mainLinePoints.length, point;
// Generate points for additional lines:
secondaryLinesNames.forEach((plotLine, index) => {
// Create additional lines point place holders
secondaryLines[index] = [];
while (pointsLength--) {
point = mainLinePoints[pointsLength];
secondaryLines[index].push({
x: point.x,
plotX: point.plotX,
plotY: point[plotLine],
isNull: !defined(point[plotLine])
});
}
pointsLength = mainLinePoints.length;
});
// Modify options and generate area fill:
if (indicator.userOptions.fillColor && areaLinesNames.length) {
const index = secondaryLinesNames.indexOf(getLineName(areaLinesNames[0])), secondLinePoints = secondaryLines[index], firstLinePoints = areaLinesNames.length === 1 ?
mainLinePoints :
secondaryLines[secondaryLinesNames.indexOf(getLineName(areaLinesNames[1]))], originalColor = indicator.color;
indicator.points = firstLinePoints;
indicator.nextPoints = secondLinePoints;
indicator.color = indicator.userOptions.fillColor;
indicator.options = merge(mainLinePoints, gappedExtend);
indicator.graph = indicator.area;
indicator.fillGraph = true;
smaProto.drawGraph.call(indicator);
indicator.area = indicator.graph;
// Clean temporary properties:
delete indicator.nextPoints;
delete indicator.fillGraph;
indicator.color = originalColor;
}
// Modify options and generate additional lines:
linesApiNames.forEach((lineName, i) => {
if (secondaryLines[i]) {
indicator.points = secondaryLines[i];
if (mainLineOptions[lineName]) {
indicator.options = merge(mainLineOptions[lineName].styles, gappedExtend);
}
else {
error('Error: "There is no ' + lineName +
' in DOCS options declared. Check if linesApiNames' +
' are consistent with your DOCS line names."');
}
indicator.graph = indicator['graph' + lineName];
smaProto.drawGraph.call(indicator);
// Now save lines:
indicator['graph' + lineName] = indicator.graph;
}
else {
error('Error: "' + lineName + ' doesn\'t have equivalent ' +
'in pointArrayMap. To many elements in linesApiNames ' +
'relative to pointArrayMap."');
}
});
// Restore options and draw a main line:
indicator.points = mainLinePoints;
indicator.options = mainLineOptions;
indicator.graph = mainLinePath;
smaProto.drawGraph.call(indicator);
}
/**
* Create the path based on points provided as argument.
* If indicator.nextPoints option is defined, create the areaFill.
*
* @private
* @param points Points on which the path should be created
*/
function indicatorGetGraphPath(points) {
let areaPath, path = [], higherAreaPath = [];
points = points || this.points;
// Render Span
if (this.fillGraph && this.nextPoints) {
areaPath = smaProto.getGraphPath.call(this, this.nextPoints);
if (areaPath && areaPath.length) {
areaPath[0][0] = 'L';
path = smaProto.getGraphPath.call(this, points);
higherAreaPath = areaPath.slice(0, path.length);
// Reverse points, so that the areaFill will start from the end:
for (let i = higherAreaPath.length - 1; i >= 0; i--) {
path.push(higherAreaPath[i]);
}
}
}
else {
path = smaProto.getGraphPath.apply(this, arguments);
}
return path;
}
/**
* @private
* @param {Highcharts.Point} point
* Indicator point
* @return {Array<number>}
* Returns point Y value for all lines
*/
function indicatorToYData(point) {
const pointColl = [];
(this.pointArrayMap || []).forEach((propertyName) => {
pointColl.push(point[propertyName]);
});
return pointColl;
}
/**
* Add lines plot pixel values.
*
* @private
*/
function indicatorTranslate() {
const pointArrayMap = this.pointArrayMap;
let LinesNames = [], value;
LinesNames = getTranslatedLinesNames(this);
smaProto.translate.apply(this, arguments);
this.points.forEach((point) => {
pointArrayMap.forEach((propertyName, i) => {
value = point[propertyName];
// If the modifier, like for example compare exists,
// modified the original value by that method, #15867.
if (this.dataModify) {
value = this.dataModify.modifyValue(value);
}
if (value !== null) {
point[LinesNames[i]] = this.yAxis.toPixels(value, true);
}
});
});
}
})(MultipleLinesComposition || (MultipleLinesComposition = {}));
/* *
*
* Default Export
*
* */
export default MultipleLinesComposition;