static Node createScatterChart() { final Random RANDOM = new Random(29782198273l); NumberAxis xAxis = new NumberAxis("X-Axis", 0, 8, 1); NumberAxis yAxis = new NumberAxis("Y-Axis", -5, 5, 1); ObservableList<XYChart.Series> data = FXCollections.observableArrayList(); for (int s=0; s<8; s++) { ObservableList<ScatterChart.Data> seriesData = FXCollections.<ScatterChart.Data>observableArrayList(); for (int d=0; d<(8*(RANDOM.nextDouble()*10)); d++) { seriesData.add(new XYChart.Data(8*RANDOM.nextDouble(), -5+(10*RANDOM.nextDouble()))); } data.add(new ScatterChart.Series("Product "+(s+1),seriesData)); } return new ScatterChart(xAxis, yAxis, data); } }
static NumberAxis getNumberAxis(NumberColumn numberColumn) { final NumberAxis numberAxis = new NumberAxis(); numberAxis.setLabel(numberColumn.name()); return numberAxis; }
static Node createBubbleChart(boolean useRightTopAxis) { final Random RANDOM = new Random(29782198273l); NumberAxis xAxis = new NumberAxis(); xAxis.setLabel("Product"); NumberAxis yAxis = new NumberAxis(); yAxis.setLabel("Number Bought/Sold"); if (useRightTopAxis) { xAxis.setSide(Side.TOP); yAxis.setSide(Side.RIGHT); } ObservableList<BubbleChart.Series> bubbleChartData = FXCollections.observableArrayList(); for (int s=0; s<8; s++) { ObservableList<BubbleChart.Data> seriesData = FXCollections.<BubbleChart.Data>observableArrayList(); for (int d=0; d<(8*(RANDOM.nextDouble()*10)); d++) { seriesData.add(new XYChart.Data(100*RANDOM.nextDouble(), -50+(150*RANDOM.nextDouble()), 5+(10*RANDOM.nextDouble()) )); } bubbleChartData.add(new ScatterChart.Series("Product "+(s+1),seriesData)); } return new BubbleChart(xAxis, yAxis, bubbleChartData); }
/** * Create the charts. * * @param timeRange * the max time range * @return the {@link LineChart} */ public static LineChart<Number, Number> createDerivativeLineChart(final int timeRange) { final NumberAxis x2Axis = new NumberAxis("Space", -100, 100, 1); final NumberAxis x1Axis = new NumberAxis("Time", 0, timeRange, 1); final LineChart<Number, Number> lineChart = new LineChart<>(x1Axis, x2Axis); lineChart.getYAxis().setAutoRanging(false); lineChart.getYAxis().setAutoRanging(false); lineChart.setAnimated(false); return lineChart; }
NumberAxis yAxis = new NumberAxis(); yAxis.setLabel("Units Sold"); ObservableList<BarChart.Series> barChartData = FXCollections.observableArrayList();
public TPSChart() { final NumberAxis yAxis = new NumberAxis(); this.xAxis = new NumberAxis( 0, 512, 1000 ); this.xAxis.setAutoRanging( false ); this.chart = new LineChart<>( xAxis, yAxis ); this.chart.setAnimated( false ); this.chart.setCreateSymbols( false ); this.chart.setLegendVisible( false ); this.fullTimeSeries = new XYChart.Series<>(); this.actualTimeSeries = new XYChart.Series<>(); this.averageTimeSeries = new XYChart.Series<>(); this.scrollBar = new ScrollBar(); this.scrollBar.valueProperty().addListener( new ChangeListener<Number>() { @Override public void changed( ObservableValue<? extends Number> observable, Number oldValue, Number newValue ) { currentDataStart = (int) ( newValue.floatValue() * ( TimeUnit.SECONDS.toNanos( 1 ) / tickNanos ) * 60 ); updateChart(); } } ); }
final NumberAxis yAxis = new NumberAxis();
public static BarChart<String, Number> chart( String title, StringColumn x, NumberColumn y) { final CategoryAxis xAxis = new CategoryAxis(); final NumberAxis yAxis = new NumberAxis(); xAxis.setLabel(x.name()); yAxis.setLabel(y.name()); Table t = Table.create("", x, y); t = t.sortDescendingOn(y.name()); final BarChart<String, Number> bar = new BarChart<>(xAxis, yAxis); bar.setTitle(title); List<XYChart.Data<String, Number>> d2 = new ArrayList<>(x.size()); for (int i = 0; i < x.size(); i++) { d2.add(new XYChart.Data<>(t.stringColumn(0).get(i), t.nCol(1).get(i))); } XYChart.Series<String, Number> series1 = new XYChart.Series<>(FXCollections.observableList(d2)); series1.setName(y.name()); bar.setLegendVisible(false); bar.setCategoryGap(0.0); bar.setBarGap(0.1); bar.setBackground(Background.EMPTY); bar.setVerticalGridLinesVisible(false); bar.getData().add(series1); return bar; }
static Node createLineChart() { NumberAxis xAxis = new NumberAxis("Values for X-Axis", 0, 3, 1); NumberAxis yAxis = new NumberAxis("Values for Y-Axis", 0, 3, 1); ObservableList<XYChart.Series<Double,Double>> lineChartData = FXCollections.observableArrayList( new LineChart.Series<Double,Double>("Series 1", FXCollections.observableArrayList( new XYChart.Data<Double,Double>(0.0, 1.0), new XYChart.Data<Double,Double>(1.2, 1.4), new XYChart.Data<Double,Double>(2.2, 1.9), new XYChart.Data<Double,Double>(2.7, 2.3), new XYChart.Data<Double,Double>(2.9, 0.5) )), new LineChart.Series<Double,Double>("Series 2", FXCollections.observableArrayList( new XYChart.Data<Double,Double>(0.0, 1.6), new XYChart.Data<Double,Double>(0.8, 0.4), new XYChart.Data<Double,Double>(1.4, 2.9), new XYChart.Data<Double,Double>(2.1, 1.3), new XYChart.Data<Double,Double>(2.6, 0.9) )) ); return new LineChart(xAxis, yAxis, lineChartData); }
static Node createAreaChart(Boolean stacked) { NumberAxis xAxis = new NumberAxis("X Values", 1.0d, 9.0d, 2.0d); xAxis.setTickLength(12.0f); NumberAxis yAxis = new NumberAxis(); yAxis.setLabel("Y Values"); ObservableList<AreaChart.Series> areaChartData = FXCollections.observableArrayList(
if (showTickMarks) { if (tickLine == null) { tickLine = new NumberAxis(); tickLine.tickLabelFormatterProperty().bind(getSkinnable().labelFormatterProperty()); tickLine.setAnimated(false);