package jas.hist.util; import jas.hist.HasScatterPlotData; import jas.hist.Rebinnable2DHistogramData; import jas.hist.ScatterEnumeration; import jas.hist.ScatterPlotSource; /** * An adaptor that converts a ScatterPlotSource to a DataSource that implements both * Rebinnable2DHistogramData and HasScatterPlotData */ public class ScatterTwoDAdapter extends ScatterSourceAdapter implements Rebinnable2DHistogramData, HasScatterPlotData { public ScatterTwoDAdapter(ScatterPlotSource source) { super(source); } public double[][][] rebin(int Xbins, double Xmin, double Xmax, int Ybins, double Ymin, double Ymax, boolean wantErrors, boolean hurry, boolean overflow) { double[][] hist = new double[Xbins + (overflow?2:0)][Ybins + (overflow?2:0)]; double XbinWidth = (Xmax - Xmin)/Xbins; double YbinWidth = (Ymax - Ymin)/Ybins; ScatterEnumeration e = overflow ? source.startEnumeration() : source.startEnumeration(Xmin,Xmax,Ymin,Ymax); double[] point = new double[2]; while (e.getNextPoint(point)) { // Note Math.floor returns the largest integer value <= the argument int Xbin = (int) Math.floor((point[0] - Xmin)/XbinWidth); int Ybin = (int) Math.floor((point[1] - Ymin)/YbinWidth); if (Xbin>=0 && Xbin=0 && YbinXbins) Xbin = Xbins+1; if (Ybin < 0 ) Ybin = Ybins; if (Ybin >Ybins) Ybin = Ybins+1; hist[Xbin][Ybin] += 1; } } double[][][] result = new double[1][][]; result[0] = hist; return result; } public int getXBins() { return 40; } public int getYBins() { return 40; } public boolean isRebinnable() { return true; } public String[] getXAxisLabels() { return null; } public String[] getYAxisLabels() { return null; } public boolean hasScatterPlotData() { return true; } }