private static JFreeChart createDistributionViewChart() { XYPlot plot = new XYPlot(); XYLineAndShapeRenderer dRenderer = new XYSplineRenderer(); dRenderer.setBaseShapesVisible(false); dRenderer.setAutoPopulateSeriesPaint(false); dRenderer.setAutoPopulateSeriesStroke(false); dRenderer.setBaseStroke(TsCharts.getStrongStroke(LinesThickness.Thin)); dRenderer.setDrawSeriesLineAsPath(true); // not sure if useful plot.setDataset(DISTRIBUTION_INDEX, Charts.emptyXYDataset()); plot.setRenderer(DISTRIBUTION_INDEX, dRenderer); XYBarRenderer hRenderer = new XYBarRenderer(); hRenderer.setShadowVisible(false); hRenderer.setDrawBarOutline(true); hRenderer.setAutoPopulateSeriesPaint(false); hRenderer.setAutoPopulateSeriesOutlinePaint(false); hRenderer.setBaseSeriesVisibleInLegend(false); plot.setDataset(HISTOGRAM_INDEX, Charts.emptyXYDataset()); plot.setRenderer(HISTOGRAM_INDEX, hRenderer); NumberAxis domainAxis = new NumberAxis(); domainAxis.setTickLabelPaint(TsCharts.CHART_TICK_LABEL_COLOR); plot.setDomainAxis(domainAxis); plot.setDomainGridlinesVisible(false); NumberAxis rangeAxis = new NumberAxis(); rangeAxis.setTickLabelPaint(TsCharts.CHART_TICK_LABEL_COLOR); rangeAxis.setTickUnit(new NumberTickUnit(0.05)); rangeAxis.setNumberFormatOverride(new DecimalFormat("0.###")); plot.setRangeAxis(rangeAxis); plot.mapDatasetToDomainAxis(0, 0); plot.mapDatasetToRangeAxis(0, 0); plot.mapDatasetToDomainAxis(1, 0); plot.mapDatasetToRangeAxis(1, 0); JFreeChart result = new JFreeChart("", JFreeChart.DEFAULT_TITLE_FONT, plot, true); result.setPadding(TsCharts.CHART_PADDING); result.getTitle().setFont(TsCharts.CHART_TITLE_FONT); result.getLegend().setFrame(BlockBorder.NONE); result.getLegend().setBackgroundPaint(null); return result; }
protected void onDataChange() { XYPlot plot = chartPanel.getChart().getXYPlot(); if (data != DEFAULT_DATA) { DescriptiveStatistics stats = new DescriptiveStatistics(new DataBlock(data)); double m = 0, M = 0, dv = 1; if (adjustDistribution && distribution != DEFAULT_DISTRIBUTION) { m = stats.getAverage(); M = distribution.getExpectation(); double v = stats.getVar(); double V = distribution.getVariance(); dv = Math.sqrt(v / V); } final double xmin = stats.getMin() < lBound ? stats.getMin() : lBound; final double xmax = stats.getMax() > rBound ? stats.getMax() : rBound; final int n = hCount != 0 ? hCount : (int) Math.ceil(Math.sqrt(stats.getObservationsCount())); final double xstep = (xmax - xmin) / n; // distribution > if (distribution != DEFAULT_DISTRIBUTION) { Function2D density = new Function2D() { @Override public double getValue(double x) { return distribution.getDensity(x); } }; final double zmin = distribution.hasLeftBound() != BoundaryType.None ? distribution.getLeftBound() : ((xmin - xstep - m) / dv + M); final double zmax = distribution.hasRightBound() != BoundaryType.None ? distribution.getRightBound() : ((xmax + xstep - m) / dv + M); // TODO: create IDistribution#getName() method String name = distribution.getClass().getSimpleName(); ((XYLineAndShapeRenderer) plot.getRenderer(DISTRIBUTION_INDEX)) .setLegendItemToolTipGenerator(getTooltipGenerator(distribution)); plot.setDataset( DISTRIBUTION_INDEX, DatasetUtilities.sampleFunction2D(density, zmin, zmax, n, name)); } else { plot.setDataset(DISTRIBUTION_INDEX, Charts.emptyXYDataset()); } // < distribution // histogram > XYSeries hSeries = new XYSeries(""); double nobs = stats.getObservationsCount(); for (int i = 0; i <= n; ++i) { double x0 = xmin + i * xstep; double x1 = x0 + xstep; double y = stats.countBetween(x0, x1) / (nobs * xstep / dv); hSeries.add(((x0 + x1) / 2 - m) / dv + M, y); } plot.setDataset( HISTOGRAM_INDEX, new XYBarDataset(new XYSeriesCollection(hSeries), xstep / dv + M)); // < histogram } else { plot.setDataset(HISTOGRAM_INDEX, Charts.emptyXYDataset()); plot.setDataset(DISTRIBUTION_INDEX, Charts.emptyXYDataset()); } onColorSchemeChange(); }