/** * Creates an {@link XYDataset} by sampling the specified function over a * fixed range. * * @param f the function (<code>null</code> not permitted). * @param start the start value for the range. * @param end the end value for the range. * @param samples the number of sample points (must be > 1). * @param seriesKey the key to give the resulting series * (<code>null</code> not permitted). * * @return A dataset. */ public static XYDataset sampleFunction2D(Function2D f, double start, double end, int samples, Comparable seriesKey) { // defer argument checking XYSeries series = sampleFunction2DToSeries(f, start, end, samples, seriesKey); XYSeriesCollection collection = new XYSeriesCollection(series); return collection; }
private XYIntervalSeries computeRegressionData(double xStart, double xEnd) { if (scatterpointsDataset.getItemCount(0) > 1) { final double[] coefficients = Regression.getOLSRegression(scatterpointsDataset, 0); final Function2D curve = new LineFunction2D(coefficients[0], coefficients[1]); final XYSeries regressionData = DatasetUtilities.sampleFunction2DToSeries( curve, xStart, xEnd, 100, "regression line"); final XYIntervalSeries xyIntervalRegression = new XYIntervalSeries(regressionData.getKey()); final List<XYDataItem> regressionDataItems = regressionData.getItems(); for (XYDataItem item : regressionDataItems) { final double x = item.getXValue(); final double y = item.getYValue(); xyIntervalRegression.add(x, x, x, y, y, y); } return xyIntervalRegression; } else { JOptionPane.showMessageDialog(this, "Unable to compute regression line.\n" + "At least 2 values are needed to compute regression coefficients."); return null; } }
private XYIntervalSeries computeAcceptableDeviationData(double lowerBound, double upperBound) { final Function2D identityFunction = new Function2D() { @Override public double getValue(double x) { return x; } }; final XYSeries identity = DatasetUtilities.sampleFunction2DToSeries(identityFunction, lowerBound, upperBound, 100, "1:1 line"); final XYIntervalSeries xyIntervalSeries = new XYIntervalSeries(identity.getKey()); final List<XYDataItem> items = identity.getItems(); for (XYDataItem item : items) { final double x = item.getXValue(); final double y = item.getYValue(); if (scatterPlotModel.showAcceptableDeviation) { final double acceptableDeviation = scatterPlotModel.acceptableDeviationInterval; final double xOff = acceptableDeviation * x / 100; final double yOff = acceptableDeviation * y / 100; xyIntervalSeries.add(x, x - xOff, x + xOff, y, y - yOff, y + yOff); } else { xyIntervalSeries.add(x, x, x, y, y, y); } } return xyIntervalSeries; }
private XYIntervalSeries computeAcceptableDeviationData(double lowerBound, double upperBound) { final XYSeries identity = DatasetUtilities.sampleFunction2DToSeries(x -> x, lowerBound, upperBound, 100, "1:1 line"); final XYIntervalSeries xyIntervalSeries = new XYIntervalSeries(identity.getKey()); for (int i = 0; i < identity.getItemCount(); i++) { XYDataItem item = identity.getDataItem(i); final double x = item.getXValue(); final double y = item.getYValue(); if (scatterPlotModel.showAcceptableDeviation) { final double acceptableDeviation = scatterPlotModel.acceptableDeviationInterval; final double xOff = acceptableDeviation * x / 100; final double yOff = acceptableDeviation * y / 100; xyIntervalSeries.add(x, x - xOff, x + xOff, y, y - yOff, y + yOff); } else { xyIntervalSeries.add(x, x, x, y, y, y); } } return xyIntervalSeries; }
private XYIntervalSeries computeRegressionData(double xStart, double xEnd) { if (scatterpointsDataset.getItemCount(0) > 1) { final double[] coefficients = Regression.getOLSRegression(scatterpointsDataset, 0); final Function2D curve = new LineFunction2D(coefficients[0], coefficients[1]); final XYSeries regressionData = DatasetUtilities.sampleFunction2DToSeries(curve, xStart, xEnd, 100, "regression line"); final XYIntervalSeries xyIntervalRegression = new XYIntervalSeries(regressionData.getKey()); for (int i = 0; i < regressionData.getItemCount(); i++) { XYDataItem item = regressionData.getDataItem(i); final double x = item.getXValue(); final double y = item.getYValue(); xyIntervalRegression.add(x, x, x, y, y, y); } return xyIntervalRegression; } else { Dialogs.showInformation("Unable to compute regression line.\n" + "At least 2 values are needed to compute regression coefficients."); return null; } }