com.vaadin.flow.component.charts.model.PlotOptionsLine Maven / Gradle / Ivy
/**
* 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.time.Instant;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Date;
import com.vaadin.flow.component.charts.model.style.Color;
import com.vaadin.flow.component.charts.util.Util;
public class PlotOptionsLine extends PointOptions {
private Boolean allowPointSelect;
private Boolean animation;
private Number animationLimit;
private String className;
private Boolean clip;
private Color color;
private Number colorIndex;
private String colorKey;
private Boolean connectEnds;
private Boolean connectNulls;
private Boolean crisp;
private Number cropThreshold;
private Cursor cursor;
private DashStyle dashStyle;
private DataLabels dataLabels;
private String description;
private Boolean enableMouseTracking;
private Boolean exposeElementToA11y;
private Dimension findNearestPointBy;
private Boolean getExtremesFromAll;
private ArrayList keys;
private Number lineWidth;
private String linecap;
private String linkedTo;
private Marker marker;
private Color negativeColor;
private Number opacity;
private String _fn_pointDescriptionFormatter;
private Number pointInterval;
private IntervalUnit pointIntervalUnit;
private PointPlacement pointPlacement;
private Number pointStart;
private Boolean selected;
private Boolean shadow;
private Boolean showCheckbox;
private Boolean showInLegend;
private Boolean skipKeyboardNavigation;
private Boolean softThreshold;
private Stacking stacking;
private States states;
private StepType step;
private Boolean stickyTracking;
private Number threshold;
private SeriesTooltip tooltip;
private Number turboThreshold;
private Boolean visible;
private ZoneAxis zoneAxis;
private ArrayList zones;
private Compare compare;
private Number compareBase;
private DataGrouping dataGrouping;
private Number gapSize;
private String gapUnit;
private Number legendIndex;
private PlotOptionsSeries navigatorOptions;
private Number pointRange;
private Boolean showInNavigator;
public PlotOptionsLine() {
}
@Override
public ChartType getChartType() {
return ChartType.LINE;
}
/**
* @see #setAllowPointSelect(Boolean)
*/
public Boolean getAllowPointSelect() {
return allowPointSelect;
}
/**
* Allow this series' points to be selected by clicking on the markers, bars
* or pie slices.
*
* Defaults to: false
*/
public void setAllowPointSelect(Boolean allowPointSelect) {
this.allowPointSelect = allowPointSelect;
}
/**
* @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 lipping should be always enabled when chart.zoomType is set
*
* Defaults to false
.
*/
public void setClip(Boolean clip) {
this.clip = clip;
}
/**
* @see #setColor(Color)
*/
public Color getColor() {
return color;
}
/**
*
* The main color or the series. In line type series it applies to the line
* and the point markers unless otherwise specified. In bar type series it
* applies to the bars unless a color is specified per point. The default
* value is pulled from the options.colors
array.
*
*
*
* In styled mode, the color can be defined by the
* colorIndex option. Also, the
* series color can be set with the .highcharts-series
,
* .highcharts-color-{n}
,
* .highcharts-{type}-series
or
* .highcharts-series-{n}
class, or individual classes given by
* the className
option.
*
*/
public void setColor(Color color) {
this.color = color;
}
/**
* @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 #setColorKey(String)
*/
public String getColorKey() {
return colorKey;
}
/**
* Determines what data value should be used to calculate point color if
* colorAxis
is used. Requires to set min and max if some
* custom point property is used or if approximation for data grouping is
* set to 'sum'
.
*
* Defaults to y
.
*/
public void setColorKey(String colorKey) {
this.colorKey = colorKey;
}
/**
* @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 #setConnectEnds(Boolean)
*/
public Boolean getConnectEnds() {
return connectEnds;
}
/**
* Polar charts only. Whether to connect the ends of a line series plot
* across the extremes.
*
* Defaults to: true
*/
public void setConnectEnds(Boolean connectEnds) {
this.connectEnds = connectEnds;
}
/**
* @see #setConnectNulls(Boolean)
*/
public Boolean getConnectNulls() {
return connectNulls;
}
/**
* Whether to connect a graph line across null points.
*
* Defaults to: false
*/
public void setConnectNulls(Boolean connectNulls) {
this.connectNulls = connectNulls;
}
/**
* @see #setCropThreshold(Number)
*/
public Number getCropThreshold() {
return cropThreshold;
}
/**
* When the series contains less points than the crop threshold, all points
* are drawn, even if the points fall outside the visible plot area at the
* current zoom. The advantage of drawing all points (including markers and
* columns), is that animation is performed on updates. On the other hand,
* when the series contains more points than the crop threshold, the series
* data is cropped to only contain points that fall within the plot area.
* The advantage of cropping away invisible points is to increase
* performance on large series.
*
* Defaults to: 300
*/
public void setCropThreshold(Number cropThreshold) {
this.cropThreshold = cropThreshold;
}
/**
* @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 #setDashStyle(DashStyle)
*/
public DashStyle getDashStyle() {
return dashStyle;
}
/**
* A name for the dash style to use for the graph. Applies only to series
* type having a graph, like line
, spline
,
* area
and scatter
in case it has a
* lineWidth
. The value for the dashStyle
include:
*
* - Solid
* - ShortDash
* - ShortDot
* - ShortDashDot
* - ShortDashDotDot
* - Dot
* - Dash
* - LongDash
* - DashDot
* - LongDashDot
* - LongDashDotDot
*
*
* Defaults to: Solid
*/
public void setDashStyle(DashStyle dashStyle) {
this.dashStyle = dashStyle;
}
/**
* @see #setDataLabels(DataLabels)
*/
public DataLabels getDataLabels() {
if (dataLabels == null) {
dataLabels = new DataLabels();
}
return dataLabels;
}
/**
*
* Options for the series data labels, appearing next to each data point.
*
*
*
* In styled mode, the data labels can be styled wtih the
* .highcharts-data-label-box
and
* .highcharts-data-label
class names (see example).
*
*/
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 #setLineWidth(Number)
*/
public Number getLineWidth() {
return lineWidth;
}
/**
* Pixel with of the graph line.
*
* Defaults to: 2
*/
public void setLineWidth(Number lineWidth) {
this.lineWidth = lineWidth;
}
/**
* @see #setLinecap(String)
*/
public String getLinecap() {
return linecap;
}
/**
* The line cap used for line ends and line joins on the graph.
*
* Defaults to: round
*/
public void setLinecap(String linecap) {
this.linecap = linecap;
}
/**
* @see #setLinkedTo(String)
*/
public String getLinkedTo() {
return linkedTo;
}
/**
* The id of another series to link to.
* Additionally, the value can be ":previous" to link to the previous
* series. When two series are linked, only the first one appears in the
* legend. Toggling the visibility of this also toggles the linked series.
*/
public void setLinkedTo(String linkedTo) {
this.linkedTo = linkedTo;
}
/**
* @see #setMarker(Marker)
*/
public Marker getMarker() {
if (marker == null) {
marker = new Marker();
}
return marker;
}
/**
*
* Options for the point markers of line-like series. Properties like
* fillColor
, lineColor
and lineWidth
* define the visual appearance of the markers. Other series types, like
* column series, don't have markers, but have visual options on the series
* level instead.
*
*
*
* In styled mode, the markers can be styled with the
* .highcharts-point
, .highcharts-point-hover
and
* .highcharts-point-select
class names.
*
*/
public void setMarker(Marker marker) {
this.marker = marker;
}
/**
* @see #setNegativeColor(Color)
*/
public Color getNegativeColor() {
return negativeColor;
}
/**
* The color for the parts of the graph or points that are below the
* threshold.
*
* Defaults to: null
*/
public void setNegativeColor(Color negativeColor) {
this.negativeColor = negativeColor;
}
/**
* @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;
}
public String getPointDescriptionFormatter() {
return _fn_pointDescriptionFormatter;
}
public void setPointDescriptionFormatter(
String _fn_pointDescriptionFormatter) {
this._fn_pointDescriptionFormatter = _fn_pointDescriptionFormatter;
}
/**
* @see #setPointInterval(Number)
*/
public Number getPointInterval() {
return pointInterval;
}
/**
*
* If no x values are given for the points in a series, pointInterval
* defines the interval of the x values. For example, if a series contains
* one value every decade starting from year 0, set pointInterval to 10.
*
*
* Since Highcharts 4.1, it can be combined with
* pointIntervalUnit
to draw irregular intervals.
*
*
* Defaults to: 1
*/
public void setPointInterval(Number pointInterval) {
this.pointInterval = pointInterval;
}
/**
* @see #setPointIntervalUnit(IntervalUnit)
*/
public IntervalUnit getPointIntervalUnit() {
return pointIntervalUnit;
}
/**
* On datetime series, this allows for setting the
* pointInterval to
* irregular time units, day
, month
and
* year
. A day is usually the same as 24 hours, but
* pointIntervalUnit also takes the DST crossover into consideration when
* dealing with local time. Combine this option with
* pointInterval
to draw weeks, quarters, 6 months, 10 years
* etc.
*/
public void setPointIntervalUnit(IntervalUnit pointIntervalUnit) {
this.pointIntervalUnit = pointIntervalUnit;
}
/**
* @see #setPointPlacement(PointPlacement)
*/
public PointPlacement getPointPlacement() {
return pointPlacement;
}
/**
*
* Possible values: null
, "on"
,
* "between"
.
*
*
* In a column chart, when pointPlacement is "on"
, the point
* will not create any padding of the X axis. In a polar column chart this
* means that the first column points directly north. If the pointPlacement
* is "between"
, the columns will be laid out between ticks.
* This is useful for example for visualising an amount between two points
* in time or in a certain sector of a polar chart.
*
*
* Since Highcharts 3.0.2, the point placement can also be numeric, where 0
* is on the axis value, -0.5 is between this value and the previous, and
* 0.5 is between this value and the next. Unlike the textual options,
* numeric point placement options won't affect axis padding.
*
*
* Note that pointPlacement needs a
* pointRange to work. For
* column series this is computed, but for line-type series it needs to be
* set.
*
*
* Defaults to null
in cartesian charts, "between"
* in polar charts.
*/
public void setPointPlacement(PointPlacement pointPlacement) {
this.pointPlacement = pointPlacement;
}
/**
* @see #setPointStart(Number)
*/
public Number getPointStart() {
return pointStart;
}
/**
* If no x values are given for the points in a series, pointStart defines
* on what value to start. For example, if a series contains one yearly
* value starting from 1945, set pointStart to 1945.
*
* Defaults to: 0
*/
public void setPointStart(Number pointStart) {
this.pointStart = pointStart;
}
/**
* @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 #setShadow(Boolean)
*/
public Boolean getShadow() {
return shadow;
}
/**
* Whether to apply a drop shadow to the graph line. Since 2.3 the shadow
* can be an object configuration containing color
,
* offsetX
, offsetY
, opacity
and
* width
.
*
* Defaults to: false
*/
public void setShadow(Boolean shadow) {
this.shadow = shadow;
}
/**
* @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.
* The default value is true
for standalone series,
* false
for linked series.
*
* Defaults to: true
*/
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 #setSoftThreshold(Boolean)
*/
public Boolean getSoftThreshold() {
return softThreshold;
}
/**
*
* When this is true, the series will not cause the Y axis to cross the zero
* plane (or threshold option)
* unless the data actually crosses the plane.
*
*
*
* For example, if softThreshold
is false
, a
* series of 0, 1, 2, 3 will make the Y axis show negative values according
* to the minPadding
option. If softThreshold
is
* true
, the Y axis starts at 0.
*
*
* Defaults to: true
*/
public void setSoftThreshold(Boolean softThreshold) {
this.softThreshold = softThreshold;
}
/**
* @see #setStacking(Stacking)
*/
public Stacking getStacking() {
return stacking;
}
/**
* Whether to stack the values of each series on top of each other. Possible
* values are null to disable, "normal" to stack by value or "percent". When
* stacking is enabled, data must be sorted in ascending X order.
*/
public void setStacking(Stacking stacking) {
this.stacking = stacking;
}
/**
* @see #setStates(States)
*/
public States getStates() {
if (states == null) {
states = new States();
}
return states;
}
/**
* A wrapper object for all the series options in specific states.
*/
public void setStates(States states) {
this.states = states;
}
/**
* @see #setStep(StepType)
*/
public StepType getStep() {
return step;
}
/**
* Whether to apply steps to the line. Possible values are left
* , center
and right
. Prior to 2.3.5, only
* left
was supported.
*
* Defaults to: false
*/
public void setStep(StepType step) {
this.step = step;
}
/**
* @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, also called zero level or base level. For line type series
* this is only used in conjunction with
* negativeColor.
*
* Defaults to: 0
*/
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 #setTurboThreshold(Number)
*/
public Number getTurboThreshold() {
return turboThreshold;
}
/**
* When a series contains a data array that is longer than this, only one
* dimensional arrays of numbers, or two dimensional arrays with x and y
* values are allowed. Also, only the first point is tested, and the rest
* are assumed to be the same format. This saves expensive data checking and
* indexing in long series. Set it to 0
disable.
*
* Defaults to: 1000
*/
public void setTurboThreshold(Number turboThreshold) {
this.turboThreshold = turboThreshold;
}
/**
* @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 #setZoneAxis(ZoneAxis)
*/
public ZoneAxis getZoneAxis() {
return zoneAxis;
}
/**
* Defines the Axis on which the zones are applied.
*
* Defaults to: y
*/
public void setZoneAxis(ZoneAxis zoneAxis) {
this.zoneAxis = zoneAxis;
}
/**
* @see #setZones(Zones...)
*/
public Zones[] getZones() {
if (zones == null) {
return new Zones[] {};
}
Zones[] arr = new Zones[zones.size()];
zones.toArray(arr);
return arr;
}
/**
*
* An array defining zones within a series. Zones can be applied to the X
* axis, Y axis or Z axis for bubbles, according to the
* zoneAxis
option.
*
*
*
* In styled mode, the color zones are styled with the
* .highcharts-zone-{n}
class, or custom classed from the
* className
option (view live demo).
*
*/
public void setZones(Zones... zones) {
this.zones = new ArrayList(Arrays.asList(zones));
}
/**
* Adds zone to the zones array
*
* @param zone
* to add
* @see #setZones(Zones...)
*/
public void addZone(Zones zone) {
if (this.zones == null) {
this.zones = new ArrayList();
}
this.zones.add(zone);
}
/**
* Removes first occurrence of zone in zones array
*
* @param zone
* to remove
* @see #setZones(Zones...)
*/
public void removeZone(Zones zone) {
this.zones.remove(zone);
}
/**
* @see #setCompare(Compare)
*/
public Compare getCompare() {
return compare;
}
/**
* Compare the values of the series against the first non-null, non-zero
* value in the visible range. The y axis will show percentage or absolute
* change depending on whether compare
is set to
* "percent"
or "value"
. When this is applied to
* multiple series, it allows comparing the development of the series
* against each other.
*
* Defaults to: undefined
*/
public void setCompare(Compare compare) {
this.compare = compare;
}
/**
* @see #setCompareBase(Number)
*/
public Number getCompareBase() {
return compareBase;
}
/**
* When compare is
* percent
, this option dictates whether to use 0 or 100 as the
* base of comparison.
*
* Defaults to: 0
*/
public void setCompareBase(Number compareBase) {
this.compareBase = compareBase;
}
/**
* @see #setDataGrouping(DataGrouping)
*/
public DataGrouping getDataGrouping() {
if (dataGrouping == null) {
dataGrouping = new DataGrouping();
}
return dataGrouping;
}
/**
*
* Data grouping is the concept of sampling the data values into larger
* blocks in order to ease readability and increase performance of the
* JavaScript charts. Highstock by default applies data grouping when the
* points become closer than a certain pixel value, determined by the
* groupPixelWidth
option.
*
*
*
* If data grouping is applied, the grouping information of grouped points
* can be read from the Point.dataGroup.
*
*/
public void setDataGrouping(DataGrouping dataGrouping) {
this.dataGrouping = dataGrouping;
}
/**
* @see #setGapSize(Number)
*/
public Number getGapSize() {
return gapSize;
}
/**
*
* Defines when to display a gap in the graph. A gap size of 5 means that if
* the distance between two points is greater than five times that of the
* two closest points, the graph will be broken.
*
*
*
* In practice, this option is most often used to visualize gaps in time
* series. In a stock chart, intraday data is available for daytime hours,
* while gaps will appear in nights and weekends.
*
*
* Defaults to: 0
*/
public void setGapSize(Number gapSize) {
this.gapSize = gapSize;
}
/**
* @see #setGapUnit(String)
*/
public String getGapUnit() {
return gapUnit;
}
/**
* Together with gapSize
, this option defines where to draw
* gaps in the graph.
*
* Defaults to: relative
*/
public void setGapUnit(String gapUnit) {
this.gapUnit = gapUnit;
}
/**
* @see #setLegendIndex(Number)
*/
public Number getLegendIndex() {
return legendIndex;
}
/**
* The sequential index of the series within the legend.
*
* Defaults to: 0
*/
public void setLegendIndex(Number legendIndex) {
this.legendIndex = legendIndex;
}
/**
* @see #setNavigatorOptions(PlotOptionsSeries)
*/
public PlotOptionsSeries getNavigatorOptions() {
return navigatorOptions;
}
/**
*
* Options for the corresponding navigator series if
* showInNavigator
is true
for this series.
* Available options are the same as any series, documented at
* plotOptions and
* series.
*
*
*
* These options are merged with options in
* navigator.series, and will take
* precedence if the same option is defined both places.
*
*
* Defaults to: undefined
*/
public void setNavigatorOptions(PlotOptionsSeries navigatorOptions) {
this.navigatorOptions = navigatorOptions;
}
/**
* @see #setPointRange(Number)
*/
public Number getPointRange() {
return pointRange;
}
/**
* The width of each point on the x axis. For example in a column chart with
* one value each day, the pointRange would be 1 day (= 24 * 3600 * 1000
* milliseconds). This is normally computed automatically, but this option
* can be used to override the automatic value.
*
* Defaults to: 0
*/
public void setPointRange(Number pointRange) {
this.pointRange = pointRange;
}
/**
* @see #setShowInNavigator(Boolean)
*/
public Boolean getShowInNavigator() {
return showInNavigator;
}
/**
* Whether or not to show the series in the navigator. Takes precedence over
* navigator.baseSeries if defined.
*
* Defaults to: undefined
*/
public void setShowInNavigator(Boolean showInNavigator) {
this.showInNavigator = showInNavigator;
}
/**
* @deprecated as of 4.0. Use {@link #setPointStart(Instant)}
*/
@Deprecated
public void setPointStart(Date date) {
this.pointStart = Util.toHighchartsTS(date);
}
/**
* @see #setPointStart(Number)
*/
public void setPointStart(Instant instant) {
this.pointStart = Util.toHighchartsTS(instant);
}
}