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/*
* Copyright (c) 2010, 2017, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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package javafx.scene.chart;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import javafx.animation.FadeTransition;
import javafx.animation.Interpolator;
import javafx.animation.KeyFrame;
import javafx.animation.KeyValue;
import javafx.animation.Timeline;
import javafx.animation.Animation;
import javafx.application.Platform;
import javafx.beans.NamedArg;
import javafx.beans.property.BooleanProperty;
import javafx.beans.property.DoubleProperty;
import javafx.beans.property.ObjectProperty;
import javafx.beans.property.ObjectPropertyBase;
import javafx.beans.property.SimpleDoubleProperty;
import javafx.beans.value.WritableValue;
import javafx.collections.FXCollections;
import javafx.collections.ListChangeListener;
import javafx.collections.ObservableList;
import javafx.scene.AccessibleRole;
import javafx.scene.Node;
import javafx.scene.layout.StackPane;
import javafx.scene.shape.LineTo;
import javafx.scene.shape.MoveTo;
import javafx.scene.shape.Path;
import javafx.scene.shape.PathElement;
import javafx.scene.shape.StrokeLineJoin;
import javafx.util.Duration;
import com.sun.javafx.charts.Legend.LegendItem;
import javafx.css.StyleableBooleanProperty;
import javafx.css.CssMetaData;
import javafx.css.converter.BooleanConverter;
import java.util.*;
import javafx.css.Styleable;
import javafx.css.StyleableProperty;
/**
* Line Chart plots a line connecting the data points in a series. The data points
* themselves can be represented by symbols optionally. Line charts are usually used
* to view data trends over time or category.
* @since JavaFX 2.0
*/
public class LineChart extends XYChart {
// -------------- PRIVATE FIELDS ------------------------------------------
/** A multiplier for the Y values that we store for each series, it is used to animate in a new series */
private Map, DoubleProperty> seriesYMultiplierMap = new HashMap<>();
private Timeline dataRemoveTimeline;
private Series seriesOfDataRemoved = null;
private Data dataItemBeingRemoved = null;
private FadeTransition fadeSymbolTransition = null;
private Map, Double> XYValueMap =
new HashMap, Double>();
private Timeline seriesRemoveTimeline = null;
// -------------- PUBLIC PROPERTIES ----------------------------------------
/** When true, CSS styleable symbols are created for any data items that don't have a symbol node specified. */
private BooleanProperty createSymbols = new StyleableBooleanProperty(true) {
@Override protected void invalidated() {
for (int seriesIndex=0; seriesIndex < getData().size(); seriesIndex ++) {
Series series = getData().get(seriesIndex);
for (int itemIndex=0; itemIndex < series.getData().size(); itemIndex ++) {
Data item = series.getData().get(itemIndex);
Node symbol = item.getNode();
if(get() && symbol == null) { // create any symbols
symbol = createSymbol(series, getData().indexOf(series), item, itemIndex);
getPlotChildren().add(symbol);
} else if (!get() && symbol != null) { // remove symbols
getPlotChildren().remove(symbol);
symbol = null;
item.setNode(null);
}
}
}
requestChartLayout();
}
public Object getBean() {
return LineChart.this;
}
public String getName() {
return "createSymbols";
}
public CssMetaData,Boolean> getCssMetaData() {
return StyleableProperties.CREATE_SYMBOLS;
}
};
/**
* Indicates whether symbols for data points will be created or not.
*
* @return true if symbols for data points will be created and false otherwise.
*/
public final boolean getCreateSymbols() { return createSymbols.getValue(); }
public final void setCreateSymbols(boolean value) { createSymbols.setValue(value); }
public final BooleanProperty createSymbolsProperty() { return createSymbols; }
/**
* Indicates whether the data passed to LineChart should be sorted by natural order of one of the axes.
* If this is set to {@link SortingPolicy#NONE}, the order in {@link #dataProperty()} will be used.
*
* @since JavaFX 8u40
* @see SortingPolicy
* @defaultValue SortingPolicy#X_AXIS
*/
private ObjectProperty axisSortingPolicy = new ObjectPropertyBase(SortingPolicy.X_AXIS) {
@Override protected void invalidated() {
requestChartLayout();
}
public Object getBean() {
return LineChart.this;
}
public String getName() {
return "axisSortingPolicy";
}
};
public final SortingPolicy getAxisSortingPolicy() { return axisSortingPolicy.getValue(); }
public final void setAxisSortingPolicy(SortingPolicy value) { axisSortingPolicy.setValue(value); }
public final ObjectProperty axisSortingPolicyProperty() { return axisSortingPolicy; }
// -------------- CONSTRUCTORS ----------------------------------------------
/**
* Construct a new LineChart with the given axis.
*
* @param xAxis The x axis to use
* @param yAxis The y axis to use
*/
public LineChart(@NamedArg("xAxis") Axis xAxis, @NamedArg("yAxis") Axis yAxis) {
this(xAxis, yAxis, FXCollections.>observableArrayList());
}
/**
* Construct a new LineChart with the given axis and data.
*
* @param xAxis The x axis to use
* @param yAxis The y axis to use
* @param data The data to use, this is the actual list used so any changes to it will be reflected in the chart
*/
public LineChart(@NamedArg("xAxis") Axis xAxis, @NamedArg("yAxis") Axis yAxis, @NamedArg("data") ObservableList> data) {
super(xAxis,yAxis);
setData(data);
}
// -------------- METHODS ------------------------------------------------------------------------------------------
/** {@inheritDoc} */
@Override protected void updateAxisRange() {
final Axis xa = getXAxis();
final Axis ya = getYAxis();
List xData = null;
List yData = null;
if(xa.isAutoRanging()) xData = new ArrayList();
if(ya.isAutoRanging()) yData = new ArrayList();
if(xData != null || yData != null) {
for(Series series : getData()) {
for(Data data: series.getData()) {
if(xData != null) xData.add(data.getXValue());
if(yData != null) yData.add(data.getYValue());
}
}
// RT-32838 No need to invalidate range if there is one data item - whose value is zero.
if(xData != null && !(xData.size() == 1 && getXAxis().toNumericValue(xData.get(0)) == 0)) {
xa.invalidateRange(xData);
}
if(yData != null && !(yData.size() == 1 && getYAxis().toNumericValue(yData.get(0)) == 0)) {
ya.invalidateRange(yData);
}
}
}
@Override protected void dataItemAdded(final Series series, int itemIndex, final Data item) {
final Node symbol = createSymbol(series, getData().indexOf(series), item, itemIndex);
if (shouldAnimate()) {
if (dataRemoveTimeline != null && dataRemoveTimeline.getStatus().equals(Animation.Status.RUNNING)) {
if (seriesOfDataRemoved == series) {
dataRemoveTimeline.stop();
dataRemoveTimeline = null;
getPlotChildren().remove(dataItemBeingRemoved.getNode());
removeDataItemFromDisplay(seriesOfDataRemoved, dataItemBeingRemoved);
seriesOfDataRemoved = null;
dataItemBeingRemoved = null;
}
}
boolean animate = false;
if (itemIndex > 0 && itemIndex < (series.getData().size()-1)) {
animate = true;
Data p1 = series.getData().get(itemIndex - 1);
Data p2 = series.getData().get(itemIndex + 1);
if (p1 != null && p2 != null) {
double x1 = getXAxis().toNumericValue(p1.getXValue());
double y1 = getYAxis().toNumericValue(p1.getYValue());
double x3 = getXAxis().toNumericValue(p2.getXValue());
double y3 = getYAxis().toNumericValue(p2.getYValue());
double x2 = getXAxis().toNumericValue(item.getXValue());
//double y2 = getYAxis().toNumericValue(item.getYValue());
if (x2 > x1 && x2 < x3) {
//1. y intercept of the line : y = ((y3-y1)/(x3-x1)) * x2 + (x3y1 - y3x1)/(x3 -x1)
double y = ((y3-y1)/(x3-x1)) * x2 + (x3*y1 - y3*x1)/(x3-x1);
item.setCurrentY(getYAxis().toRealValue(y));
item.setCurrentX(getXAxis().toRealValue(x2));
} else {
//2. we can simply use the midpoint on the line as well..
double x = (x3 + x1)/2;
double y = (y3 + y1)/2;
item.setCurrentX(getXAxis().toRealValue(x));
item.setCurrentY(getYAxis().toRealValue(y));
}
}
} else if (itemIndex == 0 && series.getData().size() > 1) {
animate = true;
item.setCurrentX(series.getData().get(1).getXValue());
item.setCurrentY(series.getData().get(1).getYValue());
} else if (itemIndex == (series.getData().size() - 1) && series.getData().size() > 1) {
animate = true;
int last = series.getData().size() - 2;
item.setCurrentX(series.getData().get(last).getXValue());
item.setCurrentY(series.getData().get(last).getYValue());
} else if(symbol != null) {
// fade in new symbol
symbol.setOpacity(0);
getPlotChildren().add(symbol);
FadeTransition ft = new FadeTransition(Duration.millis(500),symbol);
ft.setToValue(1);
ft.play();
}
if (animate) {
animate(
new KeyFrame(Duration.ZERO,
(e) -> { if (symbol != null && !getPlotChildren().contains(symbol)) getPlotChildren().add(symbol); },
new KeyValue(item.currentYProperty(),
item.getCurrentY()),
new KeyValue(item.currentXProperty(),
item.getCurrentX())),
new KeyFrame(Duration.millis(700), new KeyValue(item.currentYProperty(),
item.getYValue(), Interpolator.EASE_BOTH),
new KeyValue(item.currentXProperty(),
item.getXValue(), Interpolator.EASE_BOTH))
);
}
} else {
if (symbol != null) getPlotChildren().add(symbol);
}
}
@Override protected void dataItemRemoved(final Data item, final Series series) {
final Node symbol = item.getNode();
if (symbol != null) {
symbol.focusTraversableProperty().unbind();
}
// remove item from sorted list
int itemIndex = series.getItemIndex(item);
if (shouldAnimate()) {
XYValueMap.clear();
boolean animate = false;
// dataSize represents size of currently visible data. After this operation, the number will decrement by 1
final int dataSize = series.getDataSize();
// This is the size of current data list in Series. Note that it might be totaly different from dataSize as
// some big operation might have happened on the list.
final int dataListSize = series.getData().size();
if (itemIndex > 0 && itemIndex < dataSize - 1) {
animate = true;
Data p1 = series.getItem(itemIndex - 1);
Data p2 = series.getItem(itemIndex + 1);
double x1 = getXAxis().toNumericValue(p1.getXValue());
double y1 = getYAxis().toNumericValue(p1.getYValue());
double x3 = getXAxis().toNumericValue(p2.getXValue());
double y3 = getYAxis().toNumericValue(p2.getYValue());
double x2 = getXAxis().toNumericValue(item.getXValue());
double y2 = getYAxis().toNumericValue(item.getYValue());
if (x2 > x1 && x2 < x3) {
// //1. y intercept of the line : y = ((y3-y1)/(x3-x1)) * x2 + (x3y1 - y3x1)/(x3 -x1)
double y = ((y3-y1)/(x3-x1)) * x2 + (x3*y1 - y3*x1)/(x3-x1);
item.setCurrentX(getXAxis().toRealValue(x2));
item.setCurrentY(getYAxis().toRealValue(y2));
item.setXValue(getXAxis().toRealValue(x2));
item.setYValue(getYAxis().toRealValue(y));
} else {
//2. we can simply use the midpoint on the line as well..
double x = (x3 + x1)/2;
double y = (y3 + y1)/2;
item.setCurrentX(getXAxis().toRealValue(x));
item.setCurrentY(getYAxis().toRealValue(y));
}
} else if (itemIndex == 0 && dataListSize > 1) {
animate = true;
item.setXValue(series.getData().get(0).getXValue());
item.setYValue(series.getData().get(0).getYValue());
} else if (itemIndex == (dataSize - 1) && dataListSize > 1) {
animate = true;
int last = dataListSize - 1;
item.setXValue(series.getData().get(last).getXValue());
item.setYValue(series.getData().get(last).getYValue());
} else if (symbol != null) {
// fade out symbol
fadeSymbolTransition = new FadeTransition(Duration.millis(500),symbol);
fadeSymbolTransition.setToValue(0);
fadeSymbolTransition.setOnFinished(actionEvent -> {
item.setSeries(null);
getPlotChildren().remove(symbol);
removeDataItemFromDisplay(series, item);
symbol.setOpacity(1.0);
});
fadeSymbolTransition.play();
} else {
item.setSeries(null);
removeDataItemFromDisplay(series, item);
}
if (animate) {
dataRemoveTimeline = createDataRemoveTimeline(item, symbol, series);
seriesOfDataRemoved = series;
dataItemBeingRemoved = item;
dataRemoveTimeline.play();
}
} else {
item.setSeries(null);
if (symbol != null) getPlotChildren().remove(symbol);
removeDataItemFromDisplay(series, item);
}
//Note: better animation here, point should move from old position to new position at center point between prev and next symbols
}
/** {@inheritDoc} */
@Override protected void dataItemChanged(Data item) {
}
@Override protected void seriesChanged(ListChangeListener.Change c) {
// Update style classes for all series lines and symbols
// Note: is there a more efficient way of doing this?
for (int i = 0; i < getDataSize(); i++) {
final Series s = getData().get(i);
Node seriesNode = s.getNode();
if (seriesNode != null) seriesNode.getStyleClass().setAll("chart-series-line", "series" + i, s.defaultColorStyleClass);
for (int j=0; j < s.getData().size(); j++) {
final Node symbol = s.getData().get(j).getNode();
if (symbol != null) symbol.getStyleClass().setAll("chart-line-symbol", "series" + i, "data" + j, s.defaultColorStyleClass);
}
}
}
@Override protected void seriesAdded(Series series, int seriesIndex) {
// create new path for series
Path seriesLine = new Path();
seriesLine.setStrokeLineJoin(StrokeLineJoin.BEVEL);
series.setNode(seriesLine);
// create series Y multiplier
DoubleProperty seriesYAnimMultiplier = new SimpleDoubleProperty(this, "seriesYMultiplier");
seriesYMultiplierMap.put(series, seriesYAnimMultiplier);
// handle any data already in series
if (shouldAnimate()) {
seriesLine.setOpacity(0);
seriesYAnimMultiplier.setValue(0d);
} else {
seriesYAnimMultiplier.setValue(1d);
}
getPlotChildren().add(seriesLine);
List keyFrames = new ArrayList();
if (shouldAnimate()) {
// animate in new series
keyFrames.add(new KeyFrame(Duration.ZERO,
new KeyValue(seriesLine.opacityProperty(), 0),
new KeyValue(seriesYAnimMultiplier, 0)
));
keyFrames.add(new KeyFrame(Duration.millis(200),
new KeyValue(seriesLine.opacityProperty(), 1)
));
keyFrames.add(new KeyFrame(Duration.millis(500),
new KeyValue(seriesYAnimMultiplier, 1)
));
}
for (int j=0; j item = series.getData().get(j);
final Node symbol = createSymbol(series, seriesIndex, item, j);
if(symbol != null) {
if (shouldAnimate()) symbol.setOpacity(0);
getPlotChildren().add(symbol);
if (shouldAnimate()) {
// fade in new symbol
keyFrames.add(new KeyFrame(Duration.ZERO, new KeyValue(symbol.opacityProperty(), 0)));
keyFrames.add(new KeyFrame(Duration.millis(200), new KeyValue(symbol.opacityProperty(), 1)));
}
}
}
if (shouldAnimate()) animate(keyFrames.toArray(new KeyFrame[keyFrames.size()]));
}
@Override protected void seriesRemoved(final Series series) {
// remove all symbol nodes
seriesYMultiplierMap.remove(series);
if (shouldAnimate()) {
seriesRemoveTimeline = new Timeline(createSeriesRemoveTimeLine(series, 900));
seriesRemoveTimeline.play();
} else {
getPlotChildren().remove(series.getNode());
for (Data d:series.getData()) getPlotChildren().remove(d.getNode());
removeSeriesFromDisplay(series);
}
}
/** {@inheritDoc} */
@Override protected void layoutPlotChildren() {
List constructedPath = new ArrayList<>(getDataSize());
for (int seriesIndex=0; seriesIndex < getDataSize(); seriesIndex++) {
Series series = getData().get(seriesIndex);
final DoubleProperty seriesYAnimMultiplier = seriesYMultiplierMap.get(series);
final Node seriesNode = series.getNode();
if (seriesNode instanceof Path) {
AreaChart.makePaths(this, series,
constructedPath, null, (Path) seriesNode,
seriesYAnimMultiplier.get(), getAxisSortingPolicy());
}
}
}
/** {@inheritDoc} */
@Override void dataBeingRemovedIsAdded(Data item, Series series) {
if (fadeSymbolTransition != null) {
fadeSymbolTransition.setOnFinished(null);
fadeSymbolTransition.stop();
}
if (dataRemoveTimeline != null) {
dataRemoveTimeline.setOnFinished(null);
dataRemoveTimeline.stop();
}
final Node symbol = item.getNode();
if (symbol != null) getPlotChildren().remove(symbol);
item.setSeries(null);
removeDataItemFromDisplay(series, item);
// restore values to item
Double value = XYValueMap.get(item);
if (value != null) {
item.setYValue(value);
item.setCurrentY(value);
}
XYValueMap.clear();
}
/** {@inheritDoc} */
@Override void seriesBeingRemovedIsAdded(Series series) {
if (seriesRemoveTimeline != null) {
seriesRemoveTimeline.setOnFinished(null);
seriesRemoveTimeline.stop();
getPlotChildren().remove(series.getNode());
for (Data d:series.getData()) getPlotChildren().remove(d.getNode());
removeSeriesFromDisplay(series);
}
}
private Timeline createDataRemoveTimeline(final Data item, final Node symbol, final Series series) {
Timeline t = new Timeline();
// save data values in case the same data item gets added immediately.
XYValueMap.put(item, ((Number)item.getYValue()).doubleValue());
t.getKeyFrames().addAll(new KeyFrame(Duration.ZERO, new KeyValue(item.currentYProperty(),
item.getCurrentY()), new KeyValue(item.currentXProperty(),
item.getCurrentX())),
new KeyFrame(Duration.millis(500), actionEvent -> {
if (symbol != null) getPlotChildren().remove(symbol);
removeDataItemFromDisplay(series, item);
XYValueMap.clear();
},
new KeyValue(item.currentYProperty(),
item.getYValue(), Interpolator.EASE_BOTH),
new KeyValue(item.currentXProperty(),
item.getXValue(), Interpolator.EASE_BOTH))
);
return t;
}
private Node createSymbol(Series series, int seriesIndex, final Data item, int itemIndex) {
Node symbol = item.getNode();
// check if symbol has already been created
if (symbol == null && getCreateSymbols()) {
symbol = new StackPane();
symbol.setAccessibleRole(AccessibleRole.TEXT);
symbol.setAccessibleRoleDescription("Point");
symbol.focusTraversableProperty().bind(Platform.accessibilityActiveProperty());
item.setNode(symbol);
}
// set symbol styles
if (symbol != null) symbol.getStyleClass().addAll("chart-line-symbol", "series" + seriesIndex,
"data" + itemIndex, series.defaultColorStyleClass);
return symbol;
}
@Override
LegendItem createLegendItemForSeries(Series series, int seriesIndex) {
LegendItem legendItem = new LegendItem(series.getName());
legendItem.getSymbol().getStyleClass().addAll("chart-line-symbol", "series" + seriesIndex,
series.defaultColorStyleClass);
return legendItem;
}
// -------------- STYLESHEET HANDLING --------------------------------------
private static class StyleableProperties {
private static final CssMetaData,Boolean> CREATE_SYMBOLS =
new CssMetaData,Boolean>("-fx-create-symbols",
BooleanConverter.getInstance(), Boolean.TRUE) {
@Override
public boolean isSettable(LineChart node) {
return node.createSymbols == null || !node.createSymbols.isBound();
}
@Override
public StyleableProperty getStyleableProperty(LineChart node) {
return (StyleableProperty)(WritableValue)node.createSymbolsProperty();
}
};
private static final List> STYLEABLES;
static {
final List> styleables =
new ArrayList>(XYChart.getClassCssMetaData());
styleables.add(CREATE_SYMBOLS);
STYLEABLES = Collections.unmodifiableList(styleables);
}
}
/**
* @return The CssMetaData associated with this class, which may include the
* CssMetaData of its superclasses.
* @since JavaFX 8.0
*/
public static List> getClassCssMetaData() {
return StyleableProperties.STYLEABLES;
}
/**
* {@inheritDoc}
* @since JavaFX 8.0
*/
@Override
public List> getCssMetaData() {
return getClassCssMetaData();
}
/**
* This enum defines a policy for {@link LineChart#axisSortingPolicyProperty()}.
* @since JavaFX 8u40
*/
public static enum SortingPolicy {
/**
* The data should be left in the order defined by the list in {@link javafx.scene.chart.LineChart#dataProperty()}.
*/
NONE,
/**
* The data is ordered by x axis.
*/
X_AXIS,
/**
* The data is ordered by y axis.
*/
Y_AXIS
}
}
