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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;

import com.vaadin.flow.component.charts.model.style.Color;

/**
 * 

* The Y axis or value axis. In case of multiple axes, the yAxis node is an * array of configuration objects. *

*

* See the Axis object for * programmatic access to the axis. *

*/ public class YAxis extends Axis { private Boolean allowDecimals; private Color alternateGridColor; private Number angle; private Breaks[] breaks; private ArrayList categories; private Number ceiling; private String className; private Crosshair crosshair; private DateTimeLabelFormats dateTimeLabelFormats; private String description; private Boolean endOnTick; private Number floor; private Color gridLineColor; private DashStyle gridLineDashStyle; private String gridLineInterpolation; private Number gridLineWidth; private Number gridZIndex; private String id; private Labels labels; private Color lineColor; private Number lineWidth; private Number linkedTo; private Color maxColor; private Number maxPadding; private Color minColor; private Number minPadding; private Number minRange; private Number minTickInterval; private Color minorGridLineColor; private DashStyle minorGridLineDashStyle; private Number minorGridLineWidth; private Color minorTickColor; private String minorTickInterval; private Number minorTickLength; private TickPosition minorTickPosition; private Number minorTickWidth; private Number offset; private Boolean opposite; private ArrayList plotBands; private ArrayList plotLines; private Boolean reversed; private Boolean reversedStacks; private Boolean showEmpty; private Boolean showFirstLabel; private Boolean showLastLabel; private Number softMax; private Number softMin; private StackLabels stackLabels; private Number startOfWeek; private Boolean startOnTick; private Number tickAmount; private Color tickColor; private Number tickInterval; private Number tickLength; private Number tickPixelInterval; private TickPosition tickPosition; private Number[] tickPositions; private Number tickWidth; private TickmarkPlacement tickmarkPlacement; private AxisTitle title; private AxisType type; private Boolean uniqueNames; private ArrayList units; private Boolean visible; private String height; private Boolean ordinal; private Number range; private Scrollbar scrollbar; private String top; private Number pane; private ArrayList stops; public YAxis() { } /** * @see #setAllowDecimals(Boolean) */ public Boolean getAllowDecimals() { return allowDecimals; } /** * Whether to allow decimals in this axis' ticks. When counting integers, * like persons or hits on a web page, decimals should be avoided in the * labels. *

* Defaults to: true */ public void setAllowDecimals(Boolean allowDecimals) { this.allowDecimals = allowDecimals; } /** * @see #setAlternateGridColor(Color) */ public Color getAlternateGridColor() { return alternateGridColor; } /** * When using an alternate grid color, a band is painted across the plot * area between every other grid line. */ public void setAlternateGridColor(Color alternateGridColor) { this.alternateGridColor = alternateGridColor; } /** * @see #setAngle(Number) */ public Number getAngle() { return angle; } /** * In a polar chart, this is the angle of the Y axis in degrees, where 0 is * up and 90 is right. The angle determines the position of the axis line * and the labels, though the coordinate system is unaffected. *

* Defaults to: 0 */ public void setAngle(Number angle) { this.angle = angle; } /** * @see #setBreaks(Breaks[]) */ public Breaks[] getBreaks() { return breaks; } /** * An array defining breaks in the axis, the sections defined will be left * out and all the points shifted closer to each other. Requires that the * broken-axis.js module is loaded. */ public void setBreaks(Breaks[] breaks) { this.breaks = breaks; } /** * @see #setCategories(String...) */ public String[] getCategories() { if (categories == null) { return new String[] {}; } String[] arr = new String[categories.size()]; categories.toArray(arr); return arr; } /** *

* If categories are present for the xAxis, 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']
     * 
* * Defaults to null *

*/ public void setCategories(String... categories) { this.categories = new ArrayList(Arrays.asList(categories)); } /** * Adds category to the categories array * * @param category * to add * @see #setCategories(String...) */ public void addCategory(String category) { if (this.categories == null) { this.categories = new ArrayList(); } this.categories.add(category); } /** * Removes first occurrence of category in categories array * * @param category * to remove * @see #setCategories(String...) */ public void removeCategory(String category) { this.categories.remove(category); } /** * @see #setCeiling(Number) */ public Number getCeiling() { return ceiling; } /** * The highest allowed value for automatically computed axis extremes. */ public void setCeiling(Number ceiling) { this.ceiling = ceiling; } /** * @see #setClassName(String) */ public String getClassName() { return className; } /** * A class name that opens for styling the axis by CSS, especially in * Highcharts styled mode. The class name is applied to group elements for the * grid, axis elements and labels. */ public void setClassName(String className) { this.className = className; } /** * @see #setCrosshair(Crosshair) */ public Crosshair getCrosshair() { if (crosshair == null) { crosshair = new Crosshair(); } return crosshair; } /** *

* Configure a crosshair that follows either the mouse pointer or the * hovered point. *

* *

* In styled mode, the crosshairs are styled in the * .highcharts-crosshair, * .highcharts-crosshair-thin or * .highcharts-xaxis-category classes. *

*

* Defaults to: false */ public void setCrosshair(Crosshair crosshair) { this.crosshair = crosshair; } /** * @see #setDateTimeLabelFormats(DateTimeLabelFormats) */ public DateTimeLabelFormats getDateTimeLabelFormats() { if (dateTimeLabelFormats == null) { dateTimeLabelFormats = new DateTimeLabelFormats(); } return dateTimeLabelFormats; } /** * 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 intermediate values, different units may be used, * for example the day unit can be used on midnight and * hour unit be used for intermediate values on the same axis. * For an overview of the replacement codes, see * dateFormat. * * Defaults to: * *

     * {
     * 		millisecond: '%H:%M:%S.%L',
     * 		second: '%H:%M:%S',
     * 		minute: '%H:%M',
     * 		hour: '%H:%M',
     * 		day: '%e. %b',
     * 		week: '%e. %b',
     * 		month: '%b \'%y',
     * 		year: '%Y'
     * 	}
     * 
*/ public void setDateTimeLabelFormats( DateTimeLabelFormats dateTimeLabelFormats) { this.dateTimeLabelFormats = dateTimeLabelFormats; } /** * @see #setDescription(String) */ public String getDescription() { return description; } /** *

* Requires Accessibility module *

* *

* Description of the axis to screen reader users. *

*

* Defaults to: undefined */ public void setDescription(String description) { this.description = description; } /** * @see #setEndOnTick(Boolean) */ public Boolean getEndOnTick() { return endOnTick; } /** * Whether to force the axis to end on a tick. Use this option with the * maxPadding option to control the axis end. *

* Defaults to: true */ public void setEndOnTick(Boolean endOnTick) { this.endOnTick = endOnTick; } /** * @see #setFloor(Number) */ public Number getFloor() { return floor; } /** * The lowest allowed value for automatically computed axis extremes. *

* Defaults to: null */ public void setFloor(Number floor) { this.floor = floor; } /** * @see #setGridLineColor(Color) */ public Color getGridLineColor() { return gridLineColor; } /** *

* Color of the grid lines extending the ticks across the plot area. *

* *

* In styled mode, the stroke is given in the * .highcharts-grid-line class. *

*

* Defaults to: #e6e6e6 */ public void setGridLineColor(Color gridLineColor) { this.gridLineColor = gridLineColor; } /** * @see #setGridLineDashStyle(DashStyle) */ public DashStyle getGridLineDashStyle() { return gridLineDashStyle; } /** * The dash or dot style of the grid lines. For possible values, see * this demonstration. *

* Defaults to: Solid */ public void setGridLineDashStyle(DashStyle gridLineDashStyle) { this.gridLineDashStyle = gridLineDashStyle; } /** * @see #setGridLineInterpolation(String) */ public String getGridLineInterpolation() { return gridLineInterpolation; } /** * Polar charts only. Whether the grid lines should draw as a polygon with * straight lines between categories, or as circles. Can be either * circle or polygon. *

* Defaults to: null */ public void setGridLineInterpolation(String gridLineInterpolation) { this.gridLineInterpolation = gridLineInterpolation; } /** * @see #setGridLineWidth(Number) */ public Number getGridLineWidth() { return gridLineWidth; } /** * The width of the grid lines extending the ticks across the plot area. *

* Defaults to: 1 */ public void setGridLineWidth(Number gridLineWidth) { this.gridLineWidth = gridLineWidth; } /** * @see #setGridZIndex(Number) */ public Number getGridZIndex() { return gridZIndex; } /** * The Z index of the grid lines. *

* Defaults to: 1 */ public void setGridZIndex(Number gridZIndex) { this.gridZIndex = gridZIndex; } /** * @see #setId(String) */ public String getId() { return id; } /** * An id for the axis. This can be used after render time to get a pointer * to the axis object through chart.get(). */ public void setId(String id) { this.id = id; } /** * @see #setLabels(Labels) */ public Labels getLabels() { if (labels == null) { labels = new Labels(); } return labels; } public void setLabels(Labels labels) { this.labels = labels; } /** * @see #setLineColor(Color) */ public Color getLineColor() { return lineColor; } /** *

* The color of the line marking the axis itself. *

* *

* In styled mode, the line stroke is given in the * .highcharts-axis-line or .highcharts-xaxis-line * class. *

*

* Defaults to: #ccd6eb */ public void setLineColor(Color lineColor) { this.lineColor = lineColor; } /** * @see #setLineWidth(Number) */ public Number getLineWidth() { return lineWidth; } /** * The width of the line marking the axis itself. *

* Defaults to: 0 */ public void setLineWidth(Number lineWidth) { this.lineWidth = lineWidth; } /** * @see #setLinkedTo(Number) */ public Number getLinkedTo() { return linkedTo; } /** * 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 void setLinkedTo(Number linkedTo) { this.linkedTo = linkedTo; } /** * @see #setMaxColor(Color) */ public Color getMaxColor() { return maxColor; } /** * Solid gauge only. Unless stops are set, the * color to represent the maximum value of the Y axis. *

* Defaults to: #003399 */ public void setMaxColor(Color maxColor) { this.maxColor = maxColor; } /** * @see #setMaxPadding(Number) */ public Number getMaxPadding() { return maxPadding; } /** * 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. *

* Defaults to: 0.05 */ public void setMaxPadding(Number maxPadding) { this.maxPadding = maxPadding; } /** * @see #setMinColor(Color) */ public Color getMinColor() { return minColor; } /** * Solid gauge only. Unless stops are set, the * color to represent the minimum value of the Y axis. *

* Defaults to: #e6ebf5 */ public void setMinColor(Color minColor) { this.minColor = minColor; } /** * @see #setMinPadding(Number) */ public Number getMinPadding() { return minPadding; } /** * 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. *

* Defaults to: 0.05 */ public void setMinPadding(Number minPadding) { this.minPadding = minPadding; } /** * @see #setMinRange(Number) */ public Number getMinRange() { return minRange; } /** *

* 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 void setMinRange(Number minRange) { this.minRange = minRange; } /** * @see #setMinTickInterval(Number) */ public Number getMinTickInterval() { return minTickInterval; } /** * 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. Defaults to the closest distance between two points on the * axis. */ public void setMinTickInterval(Number minTickInterval) { this.minTickInterval = minTickInterval; } /** * @see #setMinorGridLineColor(Color) */ public Color getMinorGridLineColor() { return minorGridLineColor; } /** *

* Color of the minor, secondary grid lines. *

* * *

* In styled mode, the stroke width is given in the * .highcharts-minor-grid-line class. *

*

* Defaults to: #f2f2f2 */ public void setMinorGridLineColor(Color minorGridLineColor) { this.minorGridLineColor = minorGridLineColor; } /** * @see #setMinorGridLineDashStyle(DashStyle) */ public DashStyle getMinorGridLineDashStyle() { return minorGridLineDashStyle; } /** * The dash or dot style of the minor grid lines. For possible values, see * this demonstration. *

* Defaults to: Solid */ public void setMinorGridLineDashStyle(DashStyle minorGridLineDashStyle) { this.minorGridLineDashStyle = minorGridLineDashStyle; } /** * @see #setMinorGridLineWidth(Number) */ public Number getMinorGridLineWidth() { return minorGridLineWidth; } /** *

* Width of the minor, secondary grid lines. *

* *

* In styled mode, the stroke width is given in the * .highcharts-grid-line class. *

*

* Defaults to: 1 */ public void setMinorGridLineWidth(Number minorGridLineWidth) { this.minorGridLineWidth = minorGridLineWidth; } /** * @see #setMinorTickColor(Color) */ public Color getMinorTickColor() { return minorTickColor; } /** * Color for the minor tick marks. *

* Defaults to: #999999 */ public void setMinorTickColor(Color minorTickColor) { this.minorTickColor = minorTickColor; } /** * @see #setMinorTickInterval(String) */ public String getMinorTickInterval() { return minorTickInterval; } /** *

* 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 void setMinorTickInterval(String minorTickInterval) { this.minorTickInterval = minorTickInterval; } /** * @see #setMinorTickLength(Number) */ public Number getMinorTickLength() { return minorTickLength; } /** * The pixel length of the minor tick marks. *

* Defaults to: 2 */ public void setMinorTickLength(Number minorTickLength) { this.minorTickLength = minorTickLength; } /** * @see #setMinorTickPosition(TickPosition) */ public TickPosition getMinorTickPosition() { return minorTickPosition; } /** * The position of the minor tick marks relative to the axis line. Can be * one of inside and outside. *

* Defaults to: outside */ public void setMinorTickPosition(TickPosition minorTickPosition) { this.minorTickPosition = minorTickPosition; } /** * @see #setMinorTickWidth(Number) */ public Number getMinorTickWidth() { return minorTickWidth; } /** * The pixel width of the minor tick mark. *

* Defaults to: 0 */ public void setMinorTickWidth(Number minorTickWidth) { this.minorTickWidth = minorTickWidth; } /** * @see #setOffset(Number) */ public Number getOffset() { return offset; } /** * 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. With multiple axes the offset is dynamically * adjusted to avoid collision, this can be overridden by setting offset * explicitly. *

* Defaults to: 0 */ public void setOffset(Number offset) { this.offset = offset; } /** * @see #setOpposite(Boolean) */ public Boolean getOpposite() { return opposite; } /** * 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. *

* Defaults to: false */ public void setOpposite(Boolean opposite) { this.opposite = opposite; } /** * @see #setPlotBands(PlotBand...) */ public PlotBand[] getPlotBands() { if (plotBands == null) { return new PlotBand[] {}; } PlotBand[] arr = new PlotBand[plotBands.size()]; plotBands.toArray(arr); return arr; } /** * An array of objects defining plot bands on the Y axis. */ public void setPlotBands(PlotBand... plotBands) { this.plotBands = new ArrayList(Arrays.asList(plotBands)); } /** * Adds plotBand to the plotBands array * * @param plotBand * to add * @see #setPlotBands(PlotBand...) */ public void addPlotBand(PlotBand plotBand) { if (this.plotBands == null) { this.plotBands = new ArrayList(); } this.plotBands.add(plotBand); } /** * Removes first occurrence of plotBand in plotBands array * * @param plotBand * to remove * @see #setPlotBands(PlotBand...) */ public void removePlotBand(PlotBand plotBand) { this.plotBands.remove(plotBand); } /** * @see #setPlotLines(PlotLine...) */ public PlotLine[] getPlotLines() { if (plotLines == null) { return new PlotLine[] {}; } PlotLine[] arr = new PlotLine[plotLines.size()]; plotLines.toArray(arr); return arr; } /** * An array of objects representing plot lines on the X axis */ public void setPlotLines(PlotLine... plotLines) { this.plotLines = new ArrayList(Arrays.asList(plotLines)); } /** * Adds plotLine to the plotLines array * * @param plotLine * to add * @see #setPlotLines(PlotLine...) */ public void addPlotLine(PlotLine plotLine) { if (this.plotLines == null) { this.plotLines = new ArrayList(); } this.plotLines.add(plotLine); } /** * Removes first occurrence of plotLine in plotLines array * * @param plotLine * to remove * @see #setPlotLines(PlotLine...) */ public void removePlotLine(PlotLine plotLine) { this.plotLines.remove(plotLine); } /** * @see #setReversed(Boolean) */ public Boolean getReversed() { return reversed; } /** * Whether to reverse the axis so that the highest number is closest to the * origin. If the chart is inverted, the x axis is reversed by default. *

* Defaults to: false */ public void setReversed(Boolean reversed) { this.reversed = reversed; } /** * @see #setReversedStacks(Boolean) */ public Boolean getReversedStacks() { return reversedStacks; } /** * If true, the first series in a stack will be drawn on top in * a positive, non-reversed Y axis. If false, the first series * is in the base of the stack. *

* Defaults to: true */ public void setReversedStacks(Boolean reversedStacks) { this.reversedStacks = reversedStacks; } /** * @see #setShowEmpty(Boolean) */ public Boolean getShowEmpty() { return showEmpty; } /** * Whether to show the axis line and title when the axis has no data. *

* Defaults to: true */ public void setShowEmpty(Boolean showEmpty) { this.showEmpty = showEmpty; } /** * @see #setShowFirstLabel(Boolean) */ public Boolean getShowFirstLabel() { return showFirstLabel; } /** * Whether to show the first tick label. *

* Defaults to: true */ public void setShowFirstLabel(Boolean showFirstLabel) { this.showFirstLabel = showFirstLabel; } /** * @see #setShowLastLabel(Boolean) */ public Boolean getShowLastLabel() { return showLastLabel; } /** * Whether to show the last tick label. Defaults to true on * cartesian charts, and false on polar charts. */ public void setShowLastLabel(Boolean showLastLabel) { this.showLastLabel = showLastLabel; } /** * @see #setSoftMax(Number) */ public Number getSoftMax() { return softMax; } /** * 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 void setSoftMax(Number softMax) { this.softMax = softMax; } /** * @see #setSoftMin(Number) */ public Number getSoftMin() { return softMin; } /** * 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 void setSoftMin(Number softMin) { this.softMin = softMin; } /** * @see #setStackLabels(StackLabels) */ public StackLabels getStackLabels() { if (stackLabels == null) { stackLabels = new StackLabels(); } return stackLabels; } /** * The stack labels show the total value for each bar in a stacked column or * bar chart. The label will be placed on top of positive columns and below * negative columns. In case of an inverted column chart or a bar chart the * label is placed to the right of positive bars and to the left of negative * bars. */ public void setStackLabels(StackLabels stackLabels) { this.stackLabels = stackLabels; } /** * @see #setStartOfWeek(Number) */ public Number getStartOfWeek() { return startOfWeek; } /** * For datetime axes, this decides where to put the tick between weeks. 0 = * Sunday, 1 = Monday. *

* Defaults to: 1 */ public void setStartOfWeek(Number startOfWeek) { this.startOfWeek = startOfWeek; } /** * @see #setStartOnTick(Boolean) */ public Boolean getStartOnTick() { return startOnTick; } /** * Whether to force the axis to start on a tick. Use this option with the * maxPadding option to control the axis start. *

* Defaults to: true */ public void setStartOnTick(Boolean startOnTick) { this.startOnTick = startOnTick; } /** * @see #setTickAmount(Number) */ public Number getTickAmount() { return tickAmount; } /** *

* 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 void setTickAmount(Number tickAmount) { this.tickAmount = tickAmount; } /** * @see #setTickColor(Color) */ public Color getTickColor() { return tickColor; } /** *

* Color for the main tick marks. *

* *

* In styled mode, the stroke is given in the * .highcharts-tick class. *

*

* Defaults to: #ccd6eb */ public void setTickColor(Color tickColor) { this.tickColor = tickColor; } /** * @see #setTickInterval(Number) */ public Number getTickInterval() { return tickInterval; } /** *

* 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. *

* *

* If the chart has multiple axes, the * alignTicks option may interfere with the * tickInterval setting. *

*/ public void setTickInterval(Number tickInterval) { this.tickInterval = tickInterval; } /** * @see #setTickLength(Number) */ public Number getTickLength() { return tickLength; } /** * The pixel length of the main tick marks. *

* Defaults to: 10 */ public void setTickLength(Number tickLength) { this.tickLength = tickLength; } /** * @see #setTickPixelInterval(Number) */ public Number getTickPixelInterval() { return tickPixelInterval; } /** *

* If tickInterval is null this option sets the approximate * pixel interval of the tick marks. Not applicable to categorized axis. *

* *

* The tick interval is also influenced by the * minTickInterval option, that, by * default prevents ticks from being denser than the data points. *

* *

* Defaults to 72 for the Y axis and 100 for the X * axis. *

*/ public void setTickPixelInterval(Number tickPixelInterval) { this.tickPixelInterval = tickPixelInterval; } /** * @see #setTickPosition(TickPosition) */ public TickPosition getTickPosition() { return tickPosition; } /** * The position of the major tick marks relative to the axis line. Can be * one of inside and outside. *

* Defaults to: outside */ public void setTickPosition(TickPosition tickPosition) { this.tickPosition = tickPosition; } /** * @see #setTickPositions(Number[]) */ public Number[] getTickPositions() { return tickPositions; } /** * An array defining where the ticks are laid out on the axis. This * overrides the default behaviour of * tickPixelInterval and * tickInterval. */ public void setTickPositions(Number[] tickPositions) { this.tickPositions = tickPositions; } /** * @see #setTickWidth(Number) */ public Number getTickWidth() { return tickWidth; } /** * The pixel width of the major tick marks. *

* Defaults to: 0 */ public void setTickWidth(Number tickWidth) { this.tickWidth = tickWidth; } /** * @see #setTickmarkPlacement(TickmarkPlacement) */ public TickmarkPlacement getTickmarkPlacement() { return tickmarkPlacement; } /** * 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. *

* Defaults to: null */ public void setTickmarkPlacement(TickmarkPlacement tickmarkPlacement) { this.tickmarkPlacement = tickmarkPlacement; } /** * @see #setTitle(AxisTitle) */ public AxisTitle getTitle() { if (title == null) { title = new AxisTitle(); } return title; } public void setTitle(AxisTitle title) { this.title = title; } /** * @see #setType(AxisType) */ public AxisType getType() { return type; } /** * 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. *

* Defaults to: linear */ public void setType(AxisType type) { this.type = type; } /** * @see #setUniqueNames(Boolean) */ public Boolean getUniqueNames() { return uniqueNames; } /** * 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. *

* Defaults to: true */ public void setUniqueNames(Boolean uniqueNames) { this.uniqueNames = uniqueNames; } /** * @see #setUnits(TimeUnitMultiples...) */ public TimeUnitMultiples[] getUnits() { if (units == null) { return new TimeUnitMultiples[] {}; } TimeUnitMultiples[] arr = new TimeUnitMultiples[units.size()]; units.toArray(arr); return arr; } /** * 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. * Defaults to: * *

     * 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
     * 	]]
     * 
*/ public void setUnits(TimeUnitMultiples... units) { this.units = new ArrayList(Arrays.asList(units)); } /** * Adds unit to the units array * * @param unit * to add * @see #setUnits(TimeUnitMultiples...) */ public void addUnit(TimeUnitMultiples unit) { if (this.units == null) { this.units = new ArrayList(); } this.units.add(unit); } /** * Removes first occurrence of unit in units array * * @param unit * to remove * @see #setUnits(TimeUnitMultiples...) */ public void removeUnit(TimeUnitMultiples unit) { this.units.remove(unit); } /** * @see #setVisible(Boolean) */ public Boolean getVisible() { return visible; } /** * Whether axis, including axis title, line, ticks and labels, should be * visible. *

* Defaults to: true */ public void setVisible(Boolean visible) { this.visible = visible; } /** * @see #setHeight(String) */ public String getHeight() { return height; } /** *

* The height of the Y axis. If it's a number, it is interpreted as pixels. *

*

* Since Highstock 2: If it's a percentage string, it is interpreted as * percentages of the total plot height. *

*

* Defaults to: null */ public void setHeight(String height) { this.height = height; } /** * @see #setOrdinal(Boolean) */ public Boolean getOrdinal() { return ordinal; } /** * In an ordinal axis, the points are equally spaced in the chart regardless * of the actual time or x distance between them. This means that missing * data for nights or weekends will not take up space in the chart. *

* Defaults to: true */ public void setOrdinal(Boolean ordinal) { this.ordinal = ordinal; } /** * @see #setRange(Number) */ public Number getRange() { return range; } /** * The zoomed range to display when only defining one or none of * min or max. For example, to show the latest * month, a range of one month can be set. *

* Defaults to: undefined */ public void setRange(Number range) { this.range = range; } /** * @see #setScrollbar(Scrollbar) */ public Scrollbar getScrollbar() { if (scrollbar == null) { scrollbar = new Scrollbar(); } return scrollbar; } /** *

* An optional scrollbar to display on the Y axis in response to limiting * the minimum an maximum of the axis values. *

* *

* 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. *

*/ public void setScrollbar(Scrollbar scrollbar) { this.scrollbar = scrollbar; } /** * @see #setTop(String) */ public String getTop() { return top; } /** *

* The top position of the Y axis. If it's a number, it is interpreted as * pixel position relative to the chart. *

*

* Since Highstock 2: If it's a percentage string, it is interpreted as * percentages of the plot height, offset from plot area top. *

*

* Defaults to: null */ public void setTop(String top) { this.top = top; } public Number getPane() { return pane; } public void setPane(Number pane) { this.pane = pane; } public void setPane(Pane pane) { if (pane.getPaneIndex() == null) { throw new IllegalStateException( "Pane must be attached to configuration"); } this.pane = pane.getPaneIndex(); } public void setTitle(String title) { AxisTitle t = new AxisTitle(); t.setText(title); this.setTitle(t); } public void setLinkedTo(YAxis axis) { linkedTo = axis.getAxisIndex(); } /** * @see #setStops(Stop...) */ public Stop[] getStops() { if (stops == null) { return new Stop[] {}; } Stop[] arr = new Stop[stops.size()]; stops.toArray(arr); return arr; } public void setStops(Stop... stops) { this.stops = new ArrayList(Arrays.asList(stops)); } /** * Adds stop to the stops array * * @param stop * to add * @see #setStops(Stop...) */ public void addStop(Stop stop) { if (this.stops == null) { this.stops = new ArrayList(); } this.stops.add(stop); } /** * Removes first occurrence of stop in stops array * * @param stop * to remove * @see #setStops(Stop...) */ public void removeStop(Stop stop) { this.stops.remove(stop); } }





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