/// <summary> /// Returns a string representation of the given argument. //// public String ToString(IHistogram1D h) { String columnAxisName = null; //"X"; String rowAxisName = null; Hep.Aida.Bin.BinFunction1D[] aggr = null; //{Hep.Aida.Bin.BinFunctions1D.sum}; String format = "G"; //"%G" //String format = "%1.2G"; Cern.Colt.Matrix.Former f = new Cern.Colt.Matrix.Implementation.FormerFactory().Create(format); String sep = "\n\r"; //"\n\r"; //System.getProperty("line.separator"); int[] minMaxBins = h.MinMaxBins; String title = h.Title + ":" + sep + " Entries=" + Form(f, h.Entries) + ", ExtraEntries=" + Form(f, h.ExtraEntries) + sep + " Mean=" + Form(f, h.Mean) + ", Rms=" + Form(f, h.Rms) + sep + " MinBinHeight=" + Form(f, h.BinHeight(minMaxBins[0])) + ", MaxBinHeight=" + Form(f, h.BinHeight(minMaxBins[1])) + sep + " Axis: " + "Bins=" + Form(f, h.XAxis.Bins) + ", Min=" + Form(f, h.XAxis.LowerEdge) + ", Max=" + Form(f, h.XAxis.UpperEdge); String[] xEdges = new String[h.XAxis.Bins]; for (int i = 0; i < h.XAxis.Bins; i++) { xEdges[i] = Form(f, h.XAxis.BinLowerEdge(i)); } String[] yEdges = new[] { "Data" }; Cern.Colt.Matrix.DoubleMatrix2D heights = new DenseDoubleMatrix2D(1, h.XAxis.Bins); heights.ViewRow(0).Assign(ToArrayHeights(h)); //Cern.Colt.Matrix.DoubleMatrix2D errors = new Cern.Colt.Matrix.DenseDoubleMatrix2D(1,h.XAxis.Bins); //errors.ViewRow(0).Assign(toArrayErrors(h)); return(title + sep + "Heights:" + sep + new Formatter().ToTitleString(heights, yEdges, xEdges, rowAxisName, columnAxisName, null, aggr)); /* + sep + + "Errors:" + sep + + new Cern.Colt.Matrix.doublealgo.Formatter().ToTitleString( + errors,yEdges,xEdges,rowAxisName,columnAxisName,null,aggr); */ }
/// <summary> /// Returns a string representation of the given argument. //// public String ToString(IHistogram3D h) { String columnAxisName = "X"; String rowAxisName = "Y"; String sliceAxisName = "Z"; Hep.Aida.Bin.BinFunction1D[] aggr = { Hep.Aida.Bin.BinFunctions1D.Sum }; String format = "G"; //"%G" //String format = "%1.2G"; Cern.Colt.Matrix.Former f = new Cern.Colt.Matrix.Implementation.FormerFactory().Create(format); String sep = "\n\r"; //System.getProperty("line.separator"); int[] minMaxBins = h.MinMaxBins; String title = h.Title + ":" + sep + " Entries=" + Form(f, h.Entries) + ", ExtraEntries=" + Form(f, h.ExtraEntries) + sep + " MeanX=" + Form(f, h.MeanX) + ", RmsX=" + Form(f, h.RmsX) + sep + " MeanY=" + Form(f, h.MeanY) + ", RmsY=" + Form(f, h.RmsX) + sep + " MeanZ=" + Form(f, h.MeanZ) + ", RmsZ=" + Form(f, h.RmsZ) + sep + " MinBinHeight=" + Form(f, h.BinHeight(minMaxBins[0], minMaxBins[1], minMaxBins[2])) + ", MaxBinHeight=" + Form(f, h.BinHeight(minMaxBins[3], minMaxBins[4], minMaxBins[5])) + sep + " xAxis: " + "Bins=" + Form(f, h.XAxis.Bins) + ", Min=" + Form(f, h.XAxis.LowerEdge) + ", Max=" + Form(f, h.XAxis.UpperEdge) + sep + " yAxis: " + "Bins=" + Form(f, h.YAxis.Bins) + ", Min=" + Form(f, h.YAxis.LowerEdge) + ", Max=" + Form(f, h.YAxis.UpperEdge) + sep + " zAxis: " + "Bins=" + Form(f, h.ZAxis.Bins) + ", Min=" + Form(f, h.ZAxis.LowerEdge) + ", Max=" + Form(f, h.ZAxis.UpperEdge); String[] xEdges = new String[h.XAxis.Bins]; for (int i = 0; i < h.XAxis.Bins; i++) { xEdges[i] = Form(f, h.XAxis.BinLowerEdge(i)); } String[] yEdges = new String[h.YAxis.Bins]; for (int i = 0; i < h.YAxis.Bins; i++) { yEdges[i] = Form(f, h.YAxis.BinLowerEdge(i)); } new List <Object>(yEdges).Reverse(); // keep coordd system String[] zEdges = new String[h.ZAxis.Bins]; for (int i = 0; i < h.ZAxis.Bins; i++) { zEdges[i] = Form(f, h.ZAxis.BinLowerEdge(i)); } new List <Object>(zEdges).Reverse(); // keep coordd system DoubleMatrix3D heights = new DenseDoubleMatrix3D(ToArrayHeights(h)); heights = heights.ViewDice(2, 1, 0).ViewSliceFlip().ViewRowFlip(); // keep the histo coordd system //heights = heights.ViewPart(1,1,heights.Rows()-2,heights.columns()-2); // ignore under&overflows //Cern.Colt.Matrix.DoubleMatrix2D errors = new Cern.Colt.Matrix.DenseDoubleMatrix2D(toArrayErrors(h)); //errors = errors.ViewDice().ViewRowFlip(); // keep the histo coord system ////errors = errors.ViewPart(1,1,errors.Rows()-2,errors.columns()-2); // ignore under&overflows return(title + sep + "Heights:" + sep + new Formatter().ToTitleString( heights, zEdges, yEdges, xEdges, sliceAxisName, rowAxisName, columnAxisName, "", aggr)); /* + sep + + "Errors:" + sep + + new Cern.Colt.Matrix.doublealgo.Formatter().ToTitleString( + errors,yEdges,xEdges,rowAxisName,columnAxisName,null,aggr); */ }