List of usage examples for org.jfree.chart.renderer.xy XYBarRenderer setBasePositiveItemLabelPosition
public void setBasePositiveItemLabelPosition(ItemLabelPosition position)
From source file:pisco.batch.visu.BatchingChartFactory.java
public static XYPlot createLatenessPlot(Batch[] batches) { final Paint[] palette = makePalette(batches.length); XYBarRenderer renderer = new XYBarRendererPaletteBySeries(palette); renderer.setUseYInterval(true);/*from ww w .ja v a 2 s . c o m*/ renderer.setDrawBarOutline(true); final LatenessLabelToolTipGenerator bpg = new LatenessLabelToolTipGenerator(batches); renderer.setBaseItemLabelGenerator(bpg); renderer.setBaseItemLabelsVisible(true); renderer.setBaseToolTipGenerator(bpg); renderer.setBasePositiveItemLabelPosition(new ItemLabelPosition(ItemLabelAnchor.CENTER, TextAnchor.CENTER)); XYPlot plot = new XYPlot(createLatenessDataset(batches), null, createIntegerAxis("Batches"), renderer); plot.setRangeGridlinesVisible(false); makeDueDateMarkers(plot, batches, palette); return plot; }
From source file:org.talend.dataprofiler.chart.util.TopChartFactory.java
public static JFreeChart createBlockingBarChart(String title, HistogramDataset dataset) { ChartFactory.setChartTheme(StandardChartTheme.createLegacyTheme()); JFreeChart chart = ChartFactory.createHistogram(null, title, "Key frequency", dataset, //$NON-NLS-1$ PlotOrientation.VERTICAL, false, true, false); XYPlot plot = chart.getXYPlot();//from w w w .j av a 2 s.c om plot.getRangeAxis().setUpperMargin(0.08); // plot.getRangeAxis().setLowerBound(-0.08); decorateCategoryPlot(chart); plot.setRangeGridlinesVisible(true); XYBarRenderer renderer = new XYBarRenderer() { private static final long serialVersionUID = 4168794048090452033L; @Override public Paint getItemPaint(int row, int column) { return ChartDecorator.COLOR_LIST.get(0); } }; renderer.setBaseItemLabelsVisible(true); renderer.setBaseItemLabelGenerator(new StandardXYItemLabelGenerator()); renderer.setBasePositiveItemLabelPosition( new ItemLabelPosition(ItemLabelAnchor.OUTSIDE12, TextAnchor.BASELINE_LEFT)); renderer.setBaseNegativeItemLabelPosition( new ItemLabelPosition(ItemLabelAnchor.OUTSIDE12, TextAnchor.BASELINE_LEFT)); renderer.setShadowVisible(Boolean.FALSE); plot.setRenderer(renderer); return chart; }
From source file:org.locationtech.udig.processingtoolbox.tools.HistogramDialog.java
private void updateChart(SimpleFeatureCollection features, String field) { int bin = spinner.getSelection(); double[] values = getValues(features, field); HistogramDataset dataset = new HistogramDataset(); dataset.addSeries(field, values, bin, minMaxVisitor.getMinX(), minMaxVisitor.getMaxX()); dataset.setType(histogramType);/*from w w w .j a va 2 s . c om*/ JFreeChart chart = ChartFactory.createHistogram(EMPTY, null, null, dataset, PlotOrientation.VERTICAL, false, false, false); // 1. Create a single plot containing both the scatter and line chart.setBackgroundPaint(java.awt.Color.WHITE); chart.setBorderVisible(false); XYPlot plot = (XYPlot) chart.getPlot(); plot.setForegroundAlpha(0.85F); plot.setBackgroundPaint(java.awt.Color.WHITE); plot.setOrientation(PlotOrientation.VERTICAL); plot.setDomainGridlinePaint(java.awt.Color.LIGHT_GRAY); plot.setRangeGridlinePaint(java.awt.Color.LIGHT_GRAY); int fontStyle = java.awt.Font.BOLD; FontData fontData = getShell().getDisplay().getSystemFont().getFontData()[0]; NumberAxis valueAxis = new NumberAxis(cboField.getText()); valueAxis.setLabelFont(new Font(fontData.getName(), fontStyle, 12)); valueAxis.setTickLabelFont(new Font(fontData.getName(), fontStyle, 10)); valueAxis.setAutoRange(false); valueAxis.setRange(minMaxVisitor.getMinX(), minMaxVisitor.getMaxX()); String rangeAxisLabel = histogramType == HistogramType.FREQUENCY ? "Frequency" : "Ratio"; //$NON-NLS-1$ //$NON-NLS-2$ NumberAxis rangeAxis = new NumberAxis(rangeAxisLabel); rangeAxis.setLabelFont(new Font(fontData.getName(), fontStyle, 12)); rangeAxis.setTickLabelFont(new Font(fontData.getName(), fontStyle, 10)); if (histogramType == HistogramType.FREQUENCY) { rangeAxis.setStandardTickUnits(NumberAxis.createIntegerTickUnits()); } XYBarRenderer renderer = (XYBarRenderer) plot.getRenderer(); renderer.setShadowVisible(false); CustomXYBarPainter.selectedColumn = -1; // init renderer.setBarPainter(new CustomXYBarPainter()); renderer.setAutoPopulateSeriesFillPaint(true); renderer.setAutoPopulateSeriesPaint(true); renderer.setShadowXOffset(3); renderer.setMargin(0.01); renderer.setBaseItemLabelsVisible(true); ItemLabelPosition pos = new ItemLabelPosition(ItemLabelAnchor.CENTER, TextAnchor.TOP_CENTER); renderer.setBasePositiveItemLabelPosition(pos); XYToolTipGenerator plotToolTip = new StandardXYToolTipGenerator(); renderer.setBaseToolTipGenerator(plotToolTip); // color GradientPaint gp0 = new GradientPaint(0.0f, 0.0f, java.awt.Color.GRAY, 0.0f, 0.0f, java.awt.Color.LIGHT_GRAY); renderer.setSeriesPaint(0, gp0); plot.setDomainAxis(0, valueAxis); plot.setRangeAxis(0, rangeAxis); // 3. Setup line // Create the line data, renderer, and axis XYItemRenderer lineRenderer = new XYLineAndShapeRenderer(true, false); // Lines only lineRenderer.setSeriesPaint(0, java.awt.Color.RED); lineRenderer.setSeriesStroke(0, new BasicStroke(2f)); // Set the line data, renderer, and axis into plot NumberAxis xLineAxis = new NumberAxis(EMPTY); xLineAxis.setTickMarksVisible(false); xLineAxis.setTickLabelsVisible(false); xLineAxis.setAutoRange(false); NumberAxis yLineAxis = new NumberAxis(EMPTY); yLineAxis.setTickMarksVisible(false); yLineAxis.setTickLabelsVisible(false); yLineAxis.setAutoRange(false); double maxYValue = Double.MIN_VALUE; for (int i = 0; i < dataset.getItemCount(0); i++) { maxYValue = Math.max(maxYValue, dataset.getYValue(0, i)); } XYSeriesCollection lineDatset = new XYSeriesCollection(); // Vertical Average XYSeries vertical = new XYSeries("Average"); //$NON-NLS-1$ vertical.add(minMaxVisitor.getAverageX(), 0); vertical.add(minMaxVisitor.getAverageX(), maxYValue); lineDatset.addSeries(vertical); plot.setDataset(1, lineDatset); plot.setRenderer(1, lineRenderer); plot.setDomainAxis(1, xLineAxis); plot.setRangeAxis(1, yLineAxis); // Map the line to the second Domain and second Range plot.mapDatasetToDomainAxis(1, 0); plot.mapDatasetToRangeAxis(1, 0); chartComposite.setChart(chart); chartComposite.forceRedraw(); }
From source file:no.met.jtimeseries.chart.ChartPlotter.java
/** * Show bar values at the top of the bar * //from w w w . jav a 2 s . co m * @param plotIndex * @param offSet */ private void showBarValuesOnTop(int plotIndex, double offSet) { XYBarRenderer renderer = (XYBarRenderer) plot.getRenderer(plotIndex); renderer.setBaseItemLabelGenerator(new StandardXYItemLabelGenerator()); renderer.setBaseItemLabelsVisible(true); renderer.setBasePositiveItemLabelPosition( new ItemLabelPosition(ItemLabelAnchor.OUTSIDE12, TextAnchor.CENTER)); renderer.setItemLabelAnchorOffset(offSet); // renderer.setItemLabelFont(new Font("arial",Font.BOLD,9)); renderer.setBaseItemLabelFont(new Font("arial", Font.BOLD, 8)); renderer.setBaseItemLabelsVisible(true); }
From source file:no.met.jtimeseries.chart.ChartPlotter.java
/** * Show bar value at the bottom of the bar * /*from w ww . j av a 2 s . c om*/ * @param plotIndex * @param offSet */ private void showBarValuesOnBottom(int plotIndex, double offSet) { XYBarRenderer renderer = (XYBarRenderer) plot.getRenderer(plotIndex); renderer.setBaseItemLabelGenerator(new StandardXYItemLabelGenerator()); renderer.setBaseItemLabelsVisible(true); renderer.setBasePositiveItemLabelPosition( new ItemLabelPosition(ItemLabelAnchor.OUTSIDE6, TextAnchor.TOP_CENTER)); renderer.setItemLabelAnchorOffset(offSet); // renderer.setItemLabelFont(new Font("arial",Font.BOLD,9)); renderer.setBaseItemLabelFont(new Font("arial", Font.BOLD, 8)); renderer.setBaseItemLabelsVisible(true); }
From source file:it.cnr.istc.iloc.gui.StateVariableVisualizer.java
@Override public Collection<XYPlot> getPlots(Type type) { Collection<IItem> instances = type.getInstances(); Collection<XYPlot> plots = new ArrayList<>(instances.size()); Map<IItem, Collection<Atom>> sv_atoms = new IdentityHashMap<>(instances.size()); for (IItem i : type.getInstances()) { sv_atoms.put(i, new ArrayList<>()); }//from w w w.ja v a2 s . c om for (Atom atom : ((StateVariable) type).getDefinedPredicates().stream() .flatMap(p -> p.getInstances().stream()).map(a -> (Atom) a) .filter(a -> a.state.evaluate().isSingleton() && a.state.evaluate().contains(AtomState.Active)) .collect(Collectors.toList())) { for (IItem i : ((IEnumItem) atom.get(SCOPE)).getEnumVar().evaluate().getAllowedValues()) { if (sv_atoms.containsKey(i)) { sv_atoms.get(i).add(atom); } } } for (IItem sv : instances) { Collection<Atom> atoms = sv_atoms.get(sv); // For each pulse the atoms starting at that pulse Map<Double, Collection<Atom>> starting_atoms = new HashMap<>(atoms.size()); // For each pulse the atoms ending at that pulse Map<Double, Collection<Atom>> ending_atoms = new HashMap<>(atoms.size()); // The pulses of the timeline Set<Double> c_pulses = new HashSet<>(atoms.size() * 2); for (Atom atom : atoms) { double start = sv.getCore().evaluate(((IArithItem) atom.get("start")).getArithVar()); double end = sv.getCore().evaluate(((IArithItem) atom.get("end")).getArithVar()); if (!starting_atoms.containsKey(start)) { starting_atoms.put(start, new ArrayList<>()); } starting_atoms.get(start).add(atom); if (!ending_atoms.containsKey(end)) { ending_atoms.put(end, new ArrayList<>()); } ending_atoms.get(end).add(atom); c_pulses.add(start); c_pulses.add(end); } // we sort current pulses.. Double[] c_pulses_array = c_pulses.toArray(new Double[c_pulses.size()]); Arrays.sort(c_pulses_array); XYIntervalSeriesCollection collection = new XYIntervalSeriesCollection(); ValueXYIntervalSeries undefined = new ValueXYIntervalSeries("Undefined"); ValueXYIntervalSeries sv_values = new ValueXYIntervalSeries("Values"); ValueXYIntervalSeries conflicts = new ValueXYIntervalSeries("Conflicts"); List<Atom> overlapping_atoms = new ArrayList<>(); for (int i = 0; i < c_pulses_array.length - 1; i++) { if (starting_atoms.containsKey(c_pulses_array[i])) { overlapping_atoms.addAll(starting_atoms.get(c_pulses_array[i])); } if (ending_atoms.containsKey(c_pulses_array[i])) { overlapping_atoms.removeAll(ending_atoms.get(c_pulses_array[i])); } switch (overlapping_atoms.size()) { case 0: undefined.add(c_pulses_array[i], c_pulses_array[i], c_pulses_array[i + 1], 0, 0, 1, new Atom[0]); break; case 1: sv_values.add(c_pulses_array[i], c_pulses_array[i], c_pulses_array[i + 1], 0, 0, 1, overlapping_atoms.toArray(new Atom[overlapping_atoms.size()])); break; default: conflicts.add(c_pulses_array[i], c_pulses_array[i], c_pulses_array[i + 1], 0, 0, 1, overlapping_atoms.toArray(new Atom[overlapping_atoms.size()])); break; } } collection.addSeries(undefined); collection.addSeries(sv_values); collection.addSeries(conflicts); XYBarRenderer renderer = new XYBarRenderer(); renderer.setSeriesPaint(0, Color.lightGray); renderer.setSeriesPaint(1, new Color(100, 250, 100)); renderer.setSeriesPaint(2, Color.pink); renderer.setBarPainter(new ReverseGradientXYBarPainter()); renderer.setDrawBarOutline(true); renderer.setShadowXOffset(2); renderer.setShadowYOffset(2); renderer.setUseYInterval(true); renderer.setBaseItemLabelsVisible(true); renderer.setBaseItemLabelPaint(Color.black); Font font = new Font("SansSerif", Font.PLAIN, 9); renderer.setBaseItemLabelFont(font); XYItemLabelGenerator generator = (XYDataset dataset, int series, int item) -> toString(((ValueXYIntervalDataItem) ((XYIntervalSeriesCollection) dataset) .getSeries(series).getDataItem(item)).atoms); ItemLabelPosition itLabPos = new ItemLabelPosition(ItemLabelAnchor.CENTER, TextAnchor.CENTER); renderer.setBasePositiveItemLabelPosition(itLabPos); for (int i = 0; i < collection.getSeriesCount(); i++) { renderer.setSeriesItemLabelGenerator(i, generator); renderer.setSeriesItemLabelsVisible(i, true); renderer.setSeriesItemLabelPaint(i, Color.black); renderer.setSeriesItemLabelFont(i, font); renderer.setSeriesPositiveItemLabelPosition(i, itLabPos); renderer.setSeriesToolTipGenerator(i, (XYDataset dataset, int series, int item) -> toString( ((ValueXYIntervalDataItem) ((XYIntervalSeriesCollection) dataset).getSeries(series) .getDataItem(item)).atoms)); } XYPlot plot = new XYPlot(collection, null, new NumberAxis(""), renderer); plot.getRangeAxis().setVisible(false); plot.setDatasetRenderingOrder(DatasetRenderingOrder.FORWARD); plots.add(plot); } return plots; }