com.vaadin.flow.component.charts.model.PointOptions Maven / Gradle / Ivy
package com.vaadin.flow.component.charts.model;
/*
* #%L
* Vaadin Charts
* %%
* Copyright (C) 2012 - 2016 Vaadin Ltd
* %%
* This program is available under Commercial Vaadin Add-On License 3.0
* (CVALv3).
*
* See the file licensing.txt distributed with this software for more
* information about licensing.
*
* You should have received a copy of the CVALv3 along with this program.
* If not, see .
* #L%
*/
import java.time.Instant;
import java.util.Date;
public abstract class PointOptions extends AbstractPlotOptions {
@Override
public abstract ChartType getChartType();
/**
* @see #setAllowPointSelect(Boolean)
*/
public abstract Boolean getAllowPointSelect();
/**
* Allow this series' points to be selected by clicking on the markers, bars
* or pie slices.
*/
public abstract void setAllowPointSelect(Boolean allowPointSelect);
/**
* @see #setAnimation(Boolean)
*/
public abstract Boolean getAnimation();
/**
*
* Enable or disable the initial animation when a series is displayed. The
* animation can also be set as a configuration object. Please note that
* this option only applies to the initial animation of the series itself.
*
* Due to poor performance, animation is disabled in old IE browsers for
* column charts and polar charts.
*
*/
public abstract void setAnimation(Boolean animation);
/**
* @see #setAnimationLimit(Number)
*/
public abstract Number getAnimationLimit();
/**
* 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 abstract void setAnimationLimit(Number animationLimit);
/**
* @see #setClassName(String)
*/
public abstract String getClassName();
/**
* A class name to apply to the series' graphical elements.
*/
public abstract void setClassName(String className);
/**
* @see #setColorIndex(Number)
*/
public abstract Number getColorIndex();
/**
* A specific color index to use for the series, so
* its graphic representations are given the class name
* highcharts-color-{n}.
*/
public abstract void setColorIndex(Number colorIndex);
/**
* @see #setCropThreshold(Number)
*/
public abstract Number getCropThreshold();
/**
* 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.
*/
public abstract void setCropThreshold(Number cropThreshold);
/**
* @see #setCursor(Cursor)
*/
public abstract Cursor getCursor();
/**
* 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 abstract void setCursor(Cursor cursor);
/**
* @see #setDataLabels(DataLabels)
*/
public abstract DataLabels getDataLabels();
/**
* Specific data labels configuration for a series type
*
* @param dataLabels
*/
public abstract void setDataLabels(DataLabels dataLabels);
/**
* @see #setDescription(String)
*/
public abstract String getDescription();
/**
* A description of the series to add to the screen reader information about
* the series.
*/
public abstract void setDescription(String description);
/**
* @see #setEnableMouseTracking(Boolean)
*/
public abstract Boolean getEnableMouseTracking();
/**
* 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.
*/
public abstract void setEnableMouseTracking(Boolean enableMouseTracking);
/**
* @see #setExposeElementToA11y(Boolean)
*/
public abstract Boolean getExposeElementToA11y();
/**
* 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.
*/
public abstract void setExposeElementToA11y(Boolean exposeElementToA11y);
/**
* @see #setFindNearestPointBy(Dimension)
*/
public abstract Dimension getFindNearestPointBy();
/**
*
* 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 abstract void setFindNearestPointBy(Dimension findNearestPointBy);
/**
* @see #setGetExtremesFromAll(Boolean)
*/
public abstract Boolean getGetExtremesFromAll();
/**
* 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.
*/
public abstract void setGetExtremesFromAll(Boolean getExtremesFromAll);
/**
* @see #setKeys(String...)
*/
public abstract String[] getKeys();
/**
* 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 abstract void setKeys(String... keys);
/**
* Adds key to the keys array
*
* @param key
* to add
* @see #setKeys(String...)
*/
public abstract void addKey(String key);
/**
* Removes first occurrence of key in keys array
*
* @param key
* to remove
* @see #setKeys(String...)
*/
public abstract void removeKey(String key);
/**
* @see #setLinkedTo(String)
*/
public abstract String getLinkedTo();
/**
* 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 abstract void setLinkedTo(String linkedTo);
/**
* @see #setMarker(Marker)
*/
public abstract Marker getMarker();
/**
* Options for the point markers of line-like series.
*/
public abstract void setMarker(Marker marker);
public abstract String getPointDescriptionFormatter();
public abstract void setPointDescriptionFormatter(
String _fn_pointDescriptionFormatter);
/**
* @see #setPointInterval(Number)
*/
public abstract Number getPointInterval();
/**
*
* 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.
*
*
* It can be combined with pointIntervalUnit to draw irregular
* intervals.
*
*/
public abstract void setPointInterval(Number pointInterval);
/**
* @see #setPointIntervalUnit(IntervalUnit)
*/
public abstract IntervalUnit getPointIntervalUnit();
/**
* 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 abstract void setPointIntervalUnit(IntervalUnit pointIntervalUnit);
/**
* @see #setPointStart(Number)
*/
public abstract Number getPointStart();
/**
* 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.
*/
public abstract void setPointStart(Number pointStart);
/**
* @see #setSelected(Boolean)
*/
public abstract Boolean getSelected();
/**
* Whether to select the series initially. If showCheckbox is
* true, the checkbox next to the series name will be checked for a selected
* series.
*/
public abstract void setSelected(Boolean selected);
/**
* @see #setShadow(Boolean)
*/
public abstract Boolean getShadow();
/**
* Whether to apply a drop shadow to the graph line.
*/
public abstract void setShadow(Boolean shadow);
/**
* @see #setShowCheckbox(Boolean)
*/
public abstract Boolean getShowCheckbox();
/**
* 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.
*/
public abstract void setShowCheckbox(Boolean showCheckbox);
/**
* @see #setShowInLegend(Boolean)
*/
public abstract Boolean getShowInLegend();
/**
* Whether to display this particular series or series type in the legend.
* The default value is true for standalone series,
* false for linked series.
*/
public abstract void setShowInLegend(Boolean showInLegend);
/**
* @see #setSkipKeyboardNavigation(Boolean)
*/
public abstract Boolean getSkipKeyboardNavigation();
/**
* Whether or not to skip past the
* points in this series for keyboard navigation.
*/
public abstract void setSkipKeyboardNavigation(Boolean skipKeyboardNavigation);
/**
* @see #setSoftThreshold(Boolean)
*/
public abstract Boolean getSoftThreshold();
/**
*
* When this is true, the series will not cause the Y axis to cross the zero
* plane 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.
*
*/
public abstract void setSoftThreshold(Boolean softThreshold);
/**
* @see #setStates(States)
*/
public abstract States getStates();
/**
* A wrapper object for all the series options in specific states.
*/
public abstract void setStates(States states);
/**
* @see #setStickyTracking(Boolean)
*/
public abstract Boolean getStickyTracking();
/**
* 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.
*/
public abstract void setStickyTracking(Boolean stickyTracking);
/**
* @see #setThreshold(Number)
*/
public abstract Number getThreshold();
/**
* The threshold, also called zero level or base level. For line type series
* this is only used in conjunction with negativeColor.
*/
public abstract void setThreshold(Number threshold);
/**
* @see #setTooltip(SeriesTooltip)
*/
public abstract SeriesTooltip getTooltip();
/**
* A configuration object for the tooltip rendering of each single series.
*/
public abstract void setTooltip(SeriesTooltip tooltip);
/**
* @see #setTurboThreshold(Number)
*/
public abstract Number getTurboThreshold();
/**
* 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.
*/
public abstract void setTurboThreshold(Number turboThreshold);
/**
* @see #setVisible(Boolean)
*/
public abstract Boolean getVisible();
/**
* Set the initial visibility of the series.
*/
public abstract void setVisible(Boolean visible);
/**
* @see #setZoneAxis(ZoneAxis)
*/
public abstract ZoneAxis getZoneAxis();
/**
* Defines the Axis on which the zones are applied.
*/
public abstract void setZoneAxis(ZoneAxis zoneAxis);
/**
* @see #setZones(Zones...)
*/
public abstract Zones[] getZones();
/**
* 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.
*/
public abstract void setZones(Zones... zones);
/**
* Adds zone to the zones array
*
* @param zone
* to add
* @see #setZones(Zones...)
*/
public abstract void addZone(Zones zone);
/**
* Removes first occurrence of zone in zones array
*
* @param zone
* to remove
* @see #setZones(Zones...)
*/
public abstract void removeZone(Zones zone);
/**
* @see #setCompare(Compare)
*/
public abstract Compare getCompare();
/**
* 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.
*/
public abstract void setCompare(Compare compare);
/**
* @see #setCompareBase(Number)
*/
public abstract Number getCompareBase();
/**
* This option dictates whether to use 0 or 100 as the
* base of comparison.
*/
public abstract void setCompareBase(Number compareBase);
/**
* @see #setDataGrouping(DataGrouping)
*/
public abstract DataGrouping getDataGrouping();
/**
* Data grouping is the concept of sampling the data values into larger
* blocks in order to ease readability and increase performance of the
* charts.
*/
public abstract void setDataGrouping(DataGrouping dataGrouping);
/**
* @see #setGapUnit(String)
*/
public abstract String getGapUnit();
/**
* Together with gapSize, this option defines where to draw
* gaps in the graph.
*/
public abstract void setGapUnit(String gapUnit);
/**
* @see #setLegendIndex(Number)
*/
public abstract Number getLegendIndex();
/**
* The sequential index of the series within the legend.
*/
public abstract void setLegendIndex(Number legendIndex);
/**
* @see #setNavigatorOptions(PlotOptionsSeries)
*/
public abstract PlotOptionsSeries getNavigatorOptions();
/**
* Options for the corresponding navigator series if
* showInNavigator is true for this series.
*/
public abstract void setNavigatorOptions(PlotOptionsSeries navigatorOptions);
/**
* @see #setPointPlacement(PointPlacement)
*/
public abstract PointPlacement getPointPlacement();
/**
*
* 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.
*
*
* Note that pointPlacement needs a pointRange to work. For column series
* this is computed, but for line-type series it needs to be set.
*
*/
public abstract void setPointPlacement(PointPlacement pointPlacement);
/**
* @see #setPointRange(Number)
*/
public abstract Number getPointRange();
/**
* 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.
*/
public abstract void setPointRange(Number pointRange);
/**
* @see #setShowInNavigator(Boolean)
*/
public abstract Boolean getShowInNavigator();
/**
* Whether or not to show the series in the navigator.
*/
public abstract void setShowInNavigator(Boolean showInNavigator);
/**
* @see #setStacking(Stacking)
*/
public abstract Stacking getStacking();
/**
* 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".
*/
public abstract void setStacking(Stacking stacking);
/**
* @see #setPointStart(Number)
*/
@Deprecated
public abstract void setPointStart(Date date);
/**
* @see #setPointStart(Number)
*/
public abstract void setPointStart(Instant instant);
}