import { NumberRange } from "../../Core/NumberRange"; import { NumberArray } from "../../types/NumberArray"; import { SCRTDoubleVector, TSciChart } from "../../types/TSciChart"; import { EYRangeMode } from "../../types/YRangeMode"; import { BaseDataSeries, IBaseDataSeriesOptions } from "./BaseDataSeries"; import { EDataSeriesType, EDataSeriesValueType } from "./IDataSeries"; import { IPointMetadata } from "./IPointMetadata"; /** * Options to pass to the {@link XyDataSeries} constructor */ export interface IXyyDataSeriesOptions extends IBaseDataSeriesOptions { /** * The X-values array to pre-populate the {@link XyyDataSeries} */ xValues?: NumberArray; /** * The Y1-values array to pre-populate the {@link XyyDataSeries} */ yValues?: NumberArray; /** * The Y2-values array to pre-populate the {@link XyyDataSeries} */ y1Values?: NumberArray; } /** * XyyDataSeries is a DataSeries for holding X, Y1, Y2 data in SciChart's 2D * {@link https://www.scichart.com/javascript-chart-features | JavaScript Charts} * @remarks * The XyyDataSeries is primarily used with our {@link FastBandRenderableSeries | JavaScript Band Chart}, * which draws a High-Low fill between two lines, where the fill changes color depending on whether line Y2 > Y1 * * A DataSeries stores the data to render. This is independent from the {@link IRenderableSeries | RenderableSeries} * which defines how that data should be rendered. * * See derived types of {@link BaseDataSeries} to find out what data-series are available. * See derived types of {@link IRenderableSeries} to find out what 2D JavaScript Chart types are available. * * --- * 📚 Docs: {@link https://www.scichart.com/documentation/js/v4/2d-charts/chart-types/data-series-api/data-series-api-overview/} */ export declare class XyyDataSeries extends BaseDataSeries { /** @inheritDoc */ readonly type = EDataSeriesType.Xyy; /** * Creates an instance of {@link XyyDataSeries} * @param webAssemblyContext the {@link TSciChart | SciChart WebAssembly Context} containing native methods * and access to our underlying WebGL2 rendering engine * @param options the {@link IXyyDataSeriesOptions} which can be passed to configure the DataSeries at construct time * * --- * 📚 Docs: {@link https://www.scichart.com/documentation/js/v4/2d-charts/chart-types/data-series-api/data-series-api-overview/} */ constructor(webAssemblyContext: TSciChart, options?: IXyyDataSeriesOptions); get yValues(): SCRTDoubleVector; get y1Values(): SCRTDoubleVector; /** * Gets a native / WebAssembly vector of Y1-values in the DataSeries */ getNativeY1Values(): SCRTDoubleVector; /** * Appends a single X, Y, Y1 point to the DataSeries * @remarks * For best performance on drawing large datasets, use the {@link appendRange} method * * Any changes of the DataSeries will trigger a redraw on the parent {@link SciChartSurface} * @param x The X-value * @param y The Y1-value * @param y1 The Y2-value * @param metadata The point metadata */ append(x: number, y: number, y1: number, metadata?: IPointMetadata): void; /** * Appends a range of X, Y, Y1 points to the DataSeries * @remarks * This method is considerably higher performance than {@link append} which appends a single point * * Any changes of the DataSeries will trigger a redraw on the parent {@link SciChartSurface} * @param xValues The X-values * @param yValues The Y-values * @param y1Values The Y1-values * @param metadata The array of point metadata */ appendRange(xValues: NumberArray, yValues: NumberArray, y1Values: NumberArray, metadata?: IPointMetadata[]): void; /** * Updates a single Y, Y1-value by X-index * @remarks Any changes of the DataSeries will trigger a redraw on the parent {@link SciChartSurface} * @param index the index to update * @param y The new Y value * @param y1 The new Y1 value * @param metadata The point metadata */ update(index: number, y: number, y1: number, metadata?: IPointMetadata): void; /** * Updates a single X, Y, Y1-value by X-index. Might also need to set isSorted = false * @remarks Any changes of the DataSeries will trigger a redraw on the parent {@link SciChartSurface} * @param index the index to update * @param x The new X value * @param y The new Y value * @param y1 The new Y1 value * @param metadata The point metadata */ updateXyy1(index: number, x: number, y: number, y1: number, metadata?: IPointMetadata): void; /** * Inserts a single X,Y1,Y2 value at the start index * @remarks * For best performance on drawing large datasets, use the {@link insertRange} method * * Any changes of the DataSeries will trigger a redraw on the parent {@link SciChartSurface} * @param startIndex the index to insert at * @param x the Xvalue * @param y the Y1Value * @param y1 the Y2Value * @param metadata The point metadata */ insert(startIndex: number, x: number, y: number, y1: number, metadata?: IPointMetadata): void; /** * Inserts a ragne of X,Y1,Y2 values at the startIndex * @remarks * Any changes of the DataSeries will trigger a redraw on the parent {@link SciChartSurface} * @param startIndex the index to insert at * @param xValues the XValues * @param yValues the YValues * @param y1Values the Y1Values * @param metadata The array of point metadata */ insertRange(startIndex: number, xValues: NumberArray, yValues: NumberArray, y1Values: NumberArray, metadata?: IPointMetadata[]): void; /** @inheritDoc */ getWindowedYRange(xRange: NumberRange, getPositiveRange: boolean, isXCategoryAxis?: boolean, dataSeriesValueType?: EDataSeriesValueType, yRangeMode?: EYRangeMode): NumberRange; /** @inheritDoc */ protected getOptions(excludeData?: boolean): IXyyDataSeriesOptions; private getYY1Values; } export declare function getYyYRange(webAssemblyContext: TSciChart, indicesRange: NumberRange, yValues: SCRTDoubleVector, y1Values: SCRTDoubleVector, containsNaN: boolean): NumberRange;