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/**
 * Copyright 2000-2024 Vaadin Ltd.
 *
 * This program is available under Vaadin Commercial License and Service Terms.
 *
 * See  {@literal }  for the full
 * license.
 */
package com.vaadin.flow.component.charts.model;

import java.util.ArrayList;
import java.util.Arrays;

/**
 * A gauge showing values using a filled arc with colors indicating the value.
 * The solid gauge plots values against the yAxis, which is
 * extended with some color options, minColor,
 * maxColor and stops,
 * to control the color of the gauge itself.
 */
public class PlotOptionsSolidgauge extends GaugeOptions {

    private Boolean animation;
    private Number animationLimit;
    private String className;
    private Boolean clip;
    private Boolean colorByPoint;
    private Number colorIndex;
    private Boolean crisp;
    private Cursor cursor;
    private DataLabels dataLabels;
    private String description;
    private Boolean enableMouseTracking;
    private Boolean exposeElementToA11y;
    private Dimension findNearestPointBy;
    private Boolean getExtremesFromAll;
    private ArrayList keys;
    private String linecap;
    private Number overshoot;
    private Number opacity;
    private String _fn_pointDescriptionFormatter;
    private Boolean rounded;
    private Boolean selected;
    private Boolean showCheckbox;
    private Boolean showInLegend;
    private Boolean skipKeyboardNavigation;
    private Boolean stickyTracking;
    private Number threshold;
    private SeriesTooltip tooltip;
    private Boolean visible;
    private Boolean wrap;

    public PlotOptionsSolidgauge() {
    }

    @Override
    public ChartType getChartType() {
        return ChartType.SOLIDGAUGE;
    }

    /**
     * @see #setAnimation(Boolean)
     */
    public Boolean getAnimation() {
        return animation;
    }

    /**
     * Enable or disable the initial animation when a series is displayed.
     * Please note that this option only applies to the initial animation of the
     * series itself. For other animations, see
     * {@link ChartModel#setAnimation(Boolean)}
     */
    public void setAnimation(Boolean animation) {
        this.animation = animation;
    }

    /**
     * @see #setAnimationLimit(Number)
     */
    public Number getAnimationLimit() {
        return animationLimit;
    }

    /**
     * For some series, there is a limit that shuts down initial animation by
     * default when the total number of points in the chart is too high. For
     * example, for a column chart and its derivatives, animation doesn't run if
     * there is more than 250 points totally. To disable this cap, set
     * animationLimit to Infinity.
     */
    public void setAnimationLimit(Number animationLimit) {
        this.animationLimit = animationLimit;
    }

    /**
     * @see #setClassName(String)
     */
    public String getClassName() {
        return className;
    }

    /**
     * A class name to apply to the series' graphical elements.
     */
    public void setClassName(String className) {
        this.className = className;
    }

    /**
     * @see #setClip(Boolean)
     */
    public Boolean getClip() {
        return clip;
    }

    /**
     * Disable this option to allow series rendering in the whole plotting area.
     * Note that clipping should be always enabled when chart.zoomType is set
     * 

* Defaults to true. */ public void setClip(Boolean clip) { this.clip = clip; } /** * @see #setColorByPoint(Boolean) */ public Boolean getColorByPoint() { return colorByPoint; } /** * Whether to give each point an individual color. *

* Defaults to true. */ public void setColorByPoint(Boolean colorByPoint) { this.colorByPoint = colorByPoint; } /** * @see #setColorIndex(Number) */ public Number getColorIndex() { return colorIndex; } /** * Styled mode only. A specific color index to use for the series, so * its graphic representations are given the class name * highcharts-color-{n}. */ public void setColorIndex(Number colorIndex) { this.colorIndex = colorIndex; } /** * @see #setCrisp(Boolean) */ public Boolean getCrisp() { return crisp; } /** * When true, each point or column edge is rounded to its nearest pixel in * order to render sharp on screen. In some cases, when there are a lot of * densely packed columns, this leads to visible difference in column widths * or distance between columns. In these cases, setting crisp * to false may look better, even though each column is * rendered blurry. *

* Defaults to true. */ public void setCrisp(Boolean crisp) { this.crisp = crisp; } /** * @see #setCursor(Cursor) */ public Cursor getCursor() { return cursor; } /** * You can set the cursor to "pointer" if you have click events attached to * the series, to signal to the user that the points and lines can be * clicked. */ public void setCursor(Cursor cursor) { this.cursor = cursor; } /** * @see #setDataLabels(DataLabels) */ public DataLabels getDataLabels() { if (dataLabels == null) { dataLabels = new DataLabels(); } return dataLabels; } /** * Data labels for the gauge. For gauges, the data labels are enabled by * default and shown in a bordered box below the point. */ public void setDataLabels(DataLabels dataLabels) { this.dataLabels = dataLabels; } /** * @see #setDescription(String) */ public String getDescription() { return description; } /** *

* Requires Accessibility module *

*

* A description of the series to add to the screen reader information about * the series. *

*

* Defaults to: undefined */ public void setDescription(String description) { this.description = description; } /** * @see #setEnableMouseTracking(Boolean) */ public Boolean getEnableMouseTracking() { return enableMouseTracking; } /** * Enable or disable the mouse tracking for a specific series. This includes * point tooltips and click events on graphs and points. For large datasets * it improves performance. *

* Defaults to: true */ public void setEnableMouseTracking(Boolean enableMouseTracking) { this.enableMouseTracking = enableMouseTracking; } /** * @see #setExposeElementToA11y(Boolean) */ public Boolean getExposeElementToA11y() { return exposeElementToA11y; } /** *

* By default, series are exposed to screen readers as regions. By enabling * this option, the series element itself will be exposed in the same way as * the data points. This is useful if the series is not used as a grouping * entity in the chart, but you still want to attach a description to the * series. *

*

* Requires the Accessibility module. *

*

* Defaults to: undefined */ public void setExposeElementToA11y(Boolean exposeElementToA11y) { this.exposeElementToA11y = exposeElementToA11y; } /** * @see #setFindNearestPointBy(Dimension) */ public Dimension getFindNearestPointBy() { return findNearestPointBy; } /** *

* Determines whether the series should look for the nearest point in both * dimensions or just the x-dimension when hovering the series. Defaults to * 'xy' for scatter series and 'x' for most other * series. If the data has duplicate x-values, it is recommended to set this * to 'xy' to allow hovering over all points. *

*

* Applies only to series types using nearest neighbor search (not direct * hover) for tooltip. *

*/ public void setFindNearestPointBy(Dimension findNearestPointBy) { this.findNearestPointBy = findNearestPointBy; } /** * @see #setGetExtremesFromAll(Boolean) */ public Boolean getGetExtremesFromAll() { return getExtremesFromAll; } /** * Whether to use the Y extremes of the total chart width or only the zoomed * area when zooming in on parts of the X axis. By default, the Y axis * adjusts to the min and max of the visible data. Cartesian series only. *

* Defaults to: false */ public void setGetExtremesFromAll(Boolean getExtremesFromAll) { this.getExtremesFromAll = getExtremesFromAll; } /** * @see #setKeys(String...) */ public String[] getKeys() { if (keys == null) { return new String[] {}; } String[] arr = new String[keys.size()]; keys.toArray(arr); return arr; } /** * An array specifying which option maps to which key in the data point * array. This makes it convenient to work with unstructured data arrays * from different sources. */ public void setKeys(String... keys) { this.keys = new ArrayList(Arrays.asList(keys)); } /** * Adds key to the keys array * * @param key * to add * @see #setKeys(String...) */ public void addKey(String key) { if (this.keys == null) { this.keys = new ArrayList(); } this.keys.add(key); } /** * Removes first occurrence of key in keys array * * @param key * to remove * @see #setKeys(String...) */ public void removeKey(String key) { this.keys.remove(key); } /** * @see #setOpacity(Number) */ public Number getOpacity() { return opacity; } /** * Opacity of a series parts: line, fill (e.g. area) and dataLabels. *

* Defaults to 1. */ public void setOpacity(Number opacity) { this.opacity = opacity; } /** * @see #setLinecap(String) */ public String getLinecap() { return linecap; } /** * Whether the strokes of the solid gauge should be round or * square. *

* Defaults to: round */ public void setLinecap(String linecap) { this.linecap = linecap; } /** * @see #setOvershoot(Number) */ public Number getOvershoot() { return overshoot; } /** * Allow the dial to overshoot the end of the perimeter axis by this many * degrees. Say if the gauge axis goes from 0 to 60, a value of 100, or * 1000, will show 5 degrees beyond the end of the axis. *

* Defaults to: 0 */ public void setOvershoot(Number overshoot) { this.overshoot = overshoot; } public String getPointDescriptionFormatter() { return _fn_pointDescriptionFormatter; } public void setPointDescriptionFormatter( String _fn_pointDescriptionFormatter) { this._fn_pointDescriptionFormatter = _fn_pointDescriptionFormatter; } /** * @see #setRounded(Boolean) */ public Boolean getRounded() { return rounded; } /** * Wether to draw rounded edges on the gauge. *

* Defaults to: false */ public void setRounded(Boolean rounded) { this.rounded = rounded; } /** * @see #setSelected(Boolean) */ public Boolean getSelected() { return selected; } /** * Whether to select the series initially. If showCheckbox is * true, the checkbox next to the series name will be checked for a selected * series. *

* Defaults to: false */ public void setSelected(Boolean selected) { this.selected = selected; } /** * @see #setShowCheckbox(Boolean) */ public Boolean getShowCheckbox() { return showCheckbox; } /** * If true, a checkbox is displayed next to the legend item to allow * selecting the series. The state of the checkbox is determined by the * selected option. *

* Defaults to: false */ public void setShowCheckbox(Boolean showCheckbox) { this.showCheckbox = showCheckbox; } /** * @see #setShowInLegend(Boolean) */ public Boolean getShowInLegend() { return showInLegend; } /** * Whether to display this particular series or series type in the legend. * Defaults to false for gauge series. */ public void setShowInLegend(Boolean showInLegend) { this.showInLegend = showInLegend; } /** * @see #setSkipKeyboardNavigation(Boolean) */ public Boolean getSkipKeyboardNavigation() { return skipKeyboardNavigation; } /** * If set to True, the accessibility module will skip past the * points in this series for keyboard navigation. */ public void setSkipKeyboardNavigation(Boolean skipKeyboardNavigation) { this.skipKeyboardNavigation = skipKeyboardNavigation; } /** * @see #setStickyTracking(Boolean) */ public Boolean getStickyTracking() { return stickyTracking; } /** * Sticky tracking of mouse events. When true, the mouseOut * event on a series isn't triggered until the mouse moves over another * series, or out of the plot area. When false, the mouseOut * event on a series is triggered when the mouse leaves the area around the * series' graph or markers. This also implies the tooltip. When * stickyTracking is false and tooltip.shared is * false, the tooltip will be hidden when moving the mouse between series. * Defaults to true for line and area type series, but to false for columns, * pies etc. *

* Defaults to: true */ public void setStickyTracking(Boolean stickyTracking) { this.stickyTracking = stickyTracking; } /** * @see #setThreshold(Number) */ public Number getThreshold() { return threshold; } /** * The threshold or base level for the gauge. *

* Defaults to: null */ public void setThreshold(Number threshold) { this.threshold = threshold; } /** * @see #setTooltip(SeriesTooltip) */ public SeriesTooltip getTooltip() { if (tooltip == null) { tooltip = new SeriesTooltip(); } return tooltip; } /** * A configuration object for the tooltip rendering of each single series. * Properties are inherited from tooltip, but only * the following properties can be defined on a series level. */ public void setTooltip(SeriesTooltip tooltip) { this.tooltip = tooltip; } /** * @see #setVisible(Boolean) */ public Boolean getVisible() { return visible; } /** * Set the initial visibility of the series. *

* Defaults to: true */ public void setVisible(Boolean visible) { this.visible = visible; } /** * @see #setWrap(Boolean) */ public Boolean getWrap() { return wrap; } /** * When this option is true, the dial will wrap around the * axes. For instance, in a full-range gauge going from 0 to 360, a value of * 400 will point to 40. When wrap is false, the * dial stops at 360. *

* Defaults to: true */ public void setWrap(Boolean wrap) { this.wrap = wrap; } }





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