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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.Date;

import com.fasterxml.jackson.annotation.JsonIgnore;
import com.vaadin.flow.component.charts.model.style.Color;
import com.vaadin.flow.component.charts.util.Util;

public abstract class Axis extends AbstractConfigurationObject {

    private static final long serialVersionUID = 1L;

    public static final String MINOR_TICK_INTERVAL_AUTO = "auto";

    protected Number min;
    protected Number max;

    private Integer axisIndex;

    @JsonIgnore
    private ChartConfiguration configuration;

    public void setAxisIndex(int i) {
        axisIndex = i;
    }

    protected Integer getAxisIndex() {
        return axisIndex;
    }

    /**
     * @see #setMin(Number)
     * @return the minimum value of the axis or null
     */
    public Number getMin() {
        return min;
    }

    /**
     * The minimum value of the axis. If null the min value is automatically
     * calculated. If the startOnTick option is true, the min value might be
     * rounded down.
     *
     * @param min
     */
    public void setMin(Number min) {
        this.min = min;
    }

    /**
     * The minimum value of the axis as Date.
     *
     * @param min
     * @see #setMin(Number)
     */
    public void setMin(Date min) {
        this.min = Util.toHighchartsTS(min);
    }

    /**
     * @see #setMax(Number)
     * @return Maximum value of axis or null
     */
    public Number getMax() {
        return max;
    }

    /**
     * The maximum value of the axis. If null, the max value is automatically
     * calculated. If the endOnTick option is true, the max value might be
     * rounded up. The actual maximum value is also influenced by
     * chart.alignTicks.
     *
     * @param max
     */
    public void setMax(Number max) {
        this.max = max;
    }

    /**
     * The maximum value of the axis as Date.
     *
     * @param max
     * @see #setMax(Number)
     */
    public void setMax(Date max) {
        this.max = Util.toHighchartsTS(max);
    }

    /**
     * Sets the minimum and maximum of the axes after rendering has finished. If
     * the startOnTick and endOnTick options are true, the minimum and maximum
     * values are rounded off to the nearest tick. To prevent this, these
     * options can be set to false before calling setExtremes.
     *
     * @param min
     *            The new minimum value
     * @param max
     *            The new maximum value
     */
    public void setExtremes(Number min, Number max) {
        this.setExtremes(min, max, true, true);
    }

    /**
     * The minimum and maximum value of the axis as Date.
     *
     * @see #setExtremes(Number, Number)
     */
    public void setExtremes(Date min, Date max) {
        this.setExtremes(min, max, true, true);
    }

    /**
     * Sets the extremes at runtime.
     *
     * @param min
     *            Minimum.
     * @param max
     *            Maximum.
     * @param redraw
     *            Whether or not to redraw the chart.
     */
    public void setExtremes(Number min, Number max, boolean redraw) {
        this.setExtremes(min, max, redraw, true);
    }

    /**
     * The minimum and maximum value of the axis as Date.
     *
     * @see #setExtremes(Number, Number, boolean)
     */
    public void setExtremes(Date min, Date max, boolean redraw) {
        this.setExtremes(min, max, redraw, true);
    }

    /**
     * Run-time modification of the axis extremes.
     *
     * @param minimum
     *            New minimum value.
     * @param maximum
     *            New maximum value.
     * @param redraw
     *            Whether or not to redraw the chart.
     * @param animate
     *            Whether or not to animate the rescaling.
     */
    public void setExtremes(Number minimum, Number maximum, boolean redraw,
            boolean animate) {
        min = minimum;
        max = maximum;
        if (configuration != null) {
            configuration.fireAxesRescaled(this, minimum, maximum, redraw,
                    animate);
        }
    }

    /**
     * The minimum and maximum value of the axis as Date.
     *
     * @see #setExtremes(Number, Number, boolean, boolean)
     */
    public void setExtremes(Date minimum, Date maximum, boolean redraw,
            boolean animate) {
        setMin(minimum);
        setMax(maximum);
        if (configuration != null) {
            configuration.fireAxesRescaled(this, min, max, redraw, animate);
        }
    }

    /**
     * Returns the configuration this axis is bound to.
     *
     * @return The configuration.
     */
    public ChartConfiguration getConfiguration() {
        return configuration;
    }

    /**
     * Sets the configuration this axis is bound to. This method is
     * automatically called by configuration, when the axis is added to it.
     *
     * @param configuration
     *            Configuration this object is linked to.
     */
    public void setConfiguration(ChartConfiguration configuration) {
        this.configuration = configuration;
    }

    /**
     * @see #setAllowDecimals(Boolean)
     */
    public abstract Boolean getAllowDecimals();

    /**
     * Whether to allow decimals in this axis' ticks. When counting integers,
     * like persons or hits on a web page, decimals must be avoided in the axis
     * tick labels.
     */
    public abstract void setAllowDecimals(Boolean allowDecimals);

    /**
     * @see #setAlternateGridColor(Color)
     */
    public abstract Color getAlternateGridColor();

    /**
     * When using an alternate grid color, a band is painted across the plot
     * area between every other grid line.
     */
    public abstract void setAlternateGridColor(Color alternateGridColor);

    /**
     * @see #setCategories(String...)
     */
    public abstract String[] getCategories();

    /**
     * 

* If categories are present for the axis, names are used instead of numbers * for that axis. Since Highcharts 3.0, categories can also be extracted by * giving each point a name and setting axis type to * category. However, if you have multiple series, best * practice remains defining the categories array. *

* *

* Example: * *

     * categories: ['Apples', 'Bananas', 'Oranges']
     * 
*

*/ public abstract void setCategories(String... categories); /** * Adds category to the categories array * * @param category * to add * @see #setCategories(String...) */ public abstract void addCategory(String category); /** * Removes first occurrence of category in categories array * * @param category * to remove * @see #setCategories(String...) */ public abstract void removeCategory(String category); /** * @see #setCeiling(Number) */ public abstract Number getCeiling(); /** * The highest allowed value for automatically computed axis extremes. */ public abstract void setCeiling(Number ceiling); /** * @see #setClassName(String) */ public abstract String getClassName(); /** * A class name that opens for styling the axis by CSS. */ public abstract void setClassName(String className); /** * @see #setCrosshair(Crosshair) */ public abstract Crosshair getCrosshair(); /** * Configure a crosshair that follows either the mouse pointer or the * hovered point. */ public abstract void setCrosshair(Crosshair crosshair); /** * @see #setDateTimeLabelFormats(DateTimeLabelFormats) */ public abstract DateTimeLabelFormats getDateTimeLabelFormats(); /** * For a datetime axis, the scale will automatically adjust to the * appropriate unit. This member gives the default string representations * used for each unit. For an overview of the replacement codes, see * dateFormat. */ public abstract void setDateTimeLabelFormats( DateTimeLabelFormats dateTimeLabelFormats); /** * @see #setDescription(String) */ public abstract String getDescription(); /** * Description of the axis to screen reader users. */ public abstract void setDescription(String description); /** * @see #setEndOnTick(Boolean) */ public abstract Boolean getEndOnTick(); /** * Whether to force the axis to end on a tick. Use this option with the * maxPadding option to control the axis end. */ public abstract void setEndOnTick(Boolean endOnTick); /** * @see #setFloor(Number) */ public abstract Number getFloor(); /** * The lowest allowed value for automatically computed axis extremes. */ public abstract void setFloor(Number floor); /** * @see #setGridZIndex(Number) */ public abstract Number getGridZIndex(); /** * The Z index of the grid lines. */ public abstract void setGridZIndex(Number gridZIndex); /** * @see #setId(String) */ public abstract String getId(); /** * An id for the axis. This can be used after render time to get a pointer * to the axis object through chart.get(). */ public abstract void setId(String id); /** * @see #setLabels(Labels) */ public abstract Labels getLabels(); /** * The axis labels show the number or category for each tick. */ public abstract void setLabels(Labels labels); /** * @see #setLineColor(Color) */ public abstract Color getLineColor(); /** * The color of the line marking the axis itself. */ public abstract void setLineColor(Color lineColor); /** * @see #setLineWidth(Number) */ public abstract Number getLineWidth(); /** * The width of the line marking the axis itself. */ public abstract void setLineWidth(Number lineWidth); /** * @see #setLinkedTo(Number) */ public abstract Number getLinkedTo(); /** * Index of another axis that this axis is linked to. When an axis is linked * to a master axis, it will take the same extremes as the master, but as * assigned by min or max or by setExtremes. It can be used to show * additional info, or to ease reading the chart by duplicating the scales. */ public abstract void setLinkedTo(Number linkedTo); /** * @see #setMaxPadding(Number) */ public abstract Number getMaxPadding(); /** * Padding of the max value relative to the length of the axis. A padding of * 0.05 will make a 100px axis 5px longer. This is useful when you don't * want the highest data value to appear on the edge of the plot area. When * the axis' max option is set or a max extreme is set using * axis.setExtremes(), the maxPadding will be ignored. */ public abstract void setMaxPadding(Number maxPadding); /** * @see #setMinPadding(Number) */ public abstract Number getMinPadding(); /** * Padding of the min value relative to the length of the axis. A padding of * 0.05 will make a 100px axis 5px longer. This is useful when you don't * want the lowest data value to appear on the edge of the plot area. When * the axis' min option is set or a min extreme is set using * axis.setExtremes(), the minPadding will be ignored. */ public abstract void setMinPadding(Number minPadding); /** * @see #setMinRange(Number) */ public abstract Number getMinRange(); /** *

* The minimum range to display on this axis. The entire axis will not be * allowed to span over a smaller interval than this. For example, for a * datetime axis the main unit is milliseconds. If minRange is set to * 3600000, you can't zoom in more than to one hour. *

* *

* The default minRange for the x axis is five times the smallest interval * between any of the data points. *

* *

* On a logarithmic axis, the unit for the minimum range is the power. So a * minRange of 1 means that the axis can be zoomed to 10-100, 100-1000, * 1000-10000 etc. *

* *

* Note that the minPadding, maxPadding, * startOnTick and endOnTick settings also affect * how the extremes of the axis are computed. *

*/ public abstract void setMinRange(Number minRange); /** * @see #setMinTickInterval(Number) */ public abstract Number getMinTickInterval(); /** * The minimum tick interval allowed in axis values. For example on zooming * in on an axis with daily data, this can be used to prevent the axis from * showing hours. */ public abstract void setMinTickInterval(Number minTickInterval); /** * @see #setMinorTickInterval(String) */ public abstract String getMinorTickInterval(); /** *

* Tick interval in scale units for the minor ticks. On a linear axis, if * "auto", the minor tick interval is calculated as a fifth of * the tickInterval. If null, minor ticks are not shown. *

*

* On logarithmic axes, the unit is the power of the value. For example, * setting the minorTickInterval to 1 puts one tick on each of 0.1, 1, 10, * 100 etc. Setting the minorTickInterval to 0.1 produces 9 ticks between 1 * and 10, 10 and 100 etc. A minorTickInterval of "auto" on a log axis * results in a best guess, attempting to enter approximately 5 minor ticks * between each major tick. *

* *

* If user settings dictate minor ticks to become too dense, they don't make * sense, and will be ignored to prevent performance problems. * *

* On axes using categories, minor ticks are not supported. *

*/ public abstract void setMinorTickInterval(String minorTickInterval); /** * @see #setMinorTickLength(Number) */ public abstract Number getMinorTickLength(); /** * The pixel length of the minor tick marks. */ public abstract void setMinorTickLength(Number minorTickLength); /** * @see #setMinorTickPosition(TickPosition) */ public abstract TickPosition getMinorTickPosition(); /** * The position of the minor tick marks relative to the axis line. Can be * one of inside and outside. */ public abstract void setMinorTickPosition(TickPosition minorTickPosition); /** * @see #setOffset(Number) */ public abstract Number getOffset(); /** * The distance in pixels from the plot area to the axis line. A positive * offset moves the axis with it's line, labels and ticks away from the plot * area. This is typically used when two or more axes are displayed on the * same side of the plot. */ public abstract void setOffset(Number offset); /** * @see #setOpposite(Boolean) */ public abstract Boolean getOpposite(); /** * Whether to display the axis on the opposite side of the normal. The * normal is on the left side for vertical axes and bottom for horizontal, * so the opposite sides will be right and top respectively. This is * typically used with dual or multiple axes. */ public abstract void setOpposite(Boolean opposite); /** * @see #setPlotBands(PlotBand...) */ public abstract PlotBand[] getPlotBands(); /** *

* An array of colored bands stretching across the plot area marking an * interval on the axis. *

*/ public abstract void setPlotBands(PlotBand... plotBands); /** * Adds plotBand to the plotBands array * * @param plotBand * to add * @see #setPlotBands(PlotBand...) */ public abstract void addPlotBand(PlotBand plotBand); /** * Removes first occurrence of plotBand in plotBands array * * @param plotBand * to remove * @see #setPlotBands(PlotBand...) */ public abstract void removePlotBand(PlotBand plotBand); /** * @see #setPlotLines(PlotLine...) */ public abstract PlotLine[] getPlotLines(); /** * An array of lines stretching across the plot area, marking a specific * value on one of the axes. */ public abstract void setPlotLines(PlotLine... plotLines); /** * Adds plotLine to the plotLines array * * @param plotLine * to add * @see #setPlotLines(PlotLine...) */ public abstract void addPlotLine(PlotLine plotLine); /** * Removes first occurrence of plotLine in plotLines array * * @param plotLine * to remove * @see #setPlotLines(PlotLine...) */ public abstract void removePlotLine(PlotLine plotLine); /** * @see #setReversed(Boolean) */ public abstract Boolean getReversed(); /** * Whether to reverse the axis so that the highest number is closest to the * origin. */ public abstract void setReversed(Boolean reversed); /** * @see #setShowEmpty(Boolean) */ public abstract Boolean getShowEmpty(); /** * Whether to show the axis line and title when the axis has no data. */ public abstract void setShowEmpty(Boolean showEmpty); /** * @see #setShowFirstLabel(Boolean) */ public abstract Boolean getShowFirstLabel(); /** * Whether to show the first tick label. */ public abstract void setShowFirstLabel(Boolean showFirstLabel); /** * @see #setShowLastLabel(Boolean) */ public abstract Boolean getShowLastLabel(); /** * Whether to show the last tick label. */ public abstract void setShowLastLabel(Boolean showLastLabel); /** * @see #setSoftMax(Number) */ public abstract Number getSoftMax(); /** * A soft maximum for the axis. If the series data maximum is less than * this, the axis will stay at this maximum, but if the series data maximum * is higher, the axis will flex to show all data. */ public abstract void setSoftMax(Number softMax); /** * @see #setSoftMin(Number) */ public abstract Number getSoftMin(); /** * A soft minimum for the axis. If the series data minimum is greater than * this, the axis will stay at this minimum, but if the series data minimum * is lower, the axis will flex to show all data. */ public abstract void setSoftMin(Number softMin); /** * @see #setStartOfWeek(Number) */ public abstract Number getStartOfWeek(); /** * For datetime axes, this decides where to put the tick between weeks. 0 = * Sunday, 1 = Monday. */ public abstract void setStartOfWeek(Number startOfWeek); /** * @see #setStartOnTick(Boolean) */ public abstract Boolean getStartOnTick(); /** * Whether to force the axis to start on a tick. Use this option with the * minPadding option to control the axis start. */ public abstract void setStartOnTick(Boolean startOnTick); /** * @see #setTickAmount(Number) */ public abstract Number getTickAmount(); /** *

* The amount of ticks to draw on the axis. This opens up for aligning the * ticks of multiple charts or panes within a chart. This option overrides * the tickPixelInterval option. *

*

* This option only has an effect on linear axes. Datetime, logarithmic or * category axes are not affected. *

*/ public abstract void setTickAmount(Number tickAmount); /** * @see #setTickColor(Color) */ public abstract Color getTickColor(); /** * Color for the main tick marks. */ public abstract void setTickColor(Color tickColor); /** * @see #setTickInterval(Number) */ public abstract Number getTickInterval(); /** *

* The interval of the tick marks in axis units. When null, the * tick interval is computed to approximately follow the * tickPixelInterval on linear and datetime axes. On * categorized axes, a null tickInterval will default to 1, one * category. Note that datetime axes are based on milliseconds, so for * example an interval of one day is expressed as * 24 * 3600 * 1000. *

*

* On logarithmic axes, the tickInterval is based on powers, so a * tickInterval of 1 means one tick on each of 0.1, 1, 10, 100 etc. A * tickInterval of 2 means a tick of 0.1, 10, 1000 etc. A tickInterval of * 0.2 puts a tick on 0.1, 0.2, 0.4, 0.6, 0.8, 1, 2, 4, 6, 8, 10, 20, 40 * etc. *

*

* If the tickInterval is too dense for labels to be drawn, Highcharts may * remove ticks. *

*/ public abstract void setTickInterval(Number tickInterval); /** * @see #setTickLength(Number) */ public abstract Number getTickLength(); /** * The pixel length of the main tick marks. */ public abstract void setTickLength(Number tickLength); /** * @see #setTickPixelInterval(Number) */ public abstract Number getTickPixelInterval(); /** * If tickInterval is null this option sets the approximate * pixel interval of the tick marks. Not applicable to categorized axis. */ public abstract void setTickPixelInterval(Number tickPixelInterval); /** * @see #setTickPosition(TickPosition) */ public abstract TickPosition getTickPosition(); /** * The position of the major tick marks relative to the axis line. Can be * one of inside and outside. */ public abstract void setTickPosition(TickPosition tickPosition); /** * @see #setTickPositions(Number[]) */ public abstract Number[] getTickPositions(); /** * An array defining where the ticks are laid out on the axis. This * overrides the default behaviour of tickPixelInterval and * tickInterval. */ public abstract void setTickPositions(Number[] tickPositions); /** * @see #setTickmarkPlacement(TickmarkPlacement) */ public abstract TickmarkPlacement getTickmarkPlacement(); /** * For categorized axes only. If on the tick mark is placed in * the center of the category, if between the tick mark is * placed between categories. The default is between if the * tickInterval is 1, else on. */ public abstract void setTickmarkPlacement( TickmarkPlacement tickmarkPlacement); /** * @see #setTitle(AxisTitle) */ public abstract AxisTitle getTitle(); /** * The axis title, showing next to the axis line. */ public abstract void setTitle(AxisTitle title); /** * @see #setType(AxisType) */ public abstract AxisType getType(); /** * The type of axis. Can be one of "linear", * "logarithmic", "datetime" or * "category". In a datetime axis, the numbers are given in * milliseconds, and tick marks are placed on appropriate values like full * hours or days. In a category axis, the point names of the chart's series * are used for categories, if not a categories array is defined. */ public abstract void setType(AxisType type); /** * @see #setUniqueNames(Boolean) */ public abstract Boolean getUniqueNames(); /** * Applies only when the axis type is category. * When uniqueNames is true, points are placed on the X axis * according to their names. If the same point name is repeated in the same * or another series, the point is placed on the same X position as other * points of the same name. When uniqueNames is false, the * points are laid out in increasing X positions regardless of their names, * and the X axis category will take the name of the last point in each * position. */ public abstract void setUniqueNames(Boolean uniqueNames); /** * @see #setUnits(TimeUnitMultiples...) */ public abstract TimeUnitMultiples[] getUnits(); /** * Datetime axis only. An array determining what time intervals the ticks * are allowed to fall on. Each array item is an array where the first value * is the time unit and the second value another array of allowed multiples. */ public abstract void setUnits(TimeUnitMultiples... units); /** * Adds unit to the units array * * @param unit * to add * @see #setUnits(TimeUnitMultiples...) */ public abstract void addUnit(TimeUnitMultiples unit); /** * Removes first occurrence of unit in units array * * @param unit * to remove * @see #setUnits(TimeUnitMultiples...) */ public abstract void removeUnit(TimeUnitMultiples unit); /** * @see #setVisible(Boolean) */ public abstract Boolean getVisible(); /** * Whether axis, including axis title, line, ticks and labels, should be * visible. */ public abstract void setVisible(Boolean visible); public abstract void setTitle(String title); }




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