private void showioerror() { IJ.showMessage("Error in file io"); }
public boolean get_errors(double[] params, int[] fixes) { GenericDialog gd = new GenericDialog("Error Options"); String[] methods = {"Support Plane", "Monte Carlo"}; gd.addChoice("Method", methods, methods[0]); float conf = 0.67f; gd.addNumericField("SP_Confidence Limit (%)", (int) (conf * 100.0f), 5, 10, null); String[] labels = {"P1", "P2", "P3", "P4", "P5", "P6", "P7", "P8", "P9", "P10"}; gd.addChoice("SP_Parameter", labels, labels[0]); double spacing = 0.01; gd.addNumericField("SP_Chi^2_plot_spacing (% of value)?", spacing * 100.0, 2, 10, null); int ntrials = 100; gd.addNumericField("MC_#_Trials", ntrials, 0); gd.showDialog(); if (gd.wasCanceled()) { return false; } int methodindex = gd.getNextChoiceIndex(); conf = 0.01f * (float) gd.getNextNumber(); int paramindex = gd.getNextChoiceIndex(); spacing = 0.01 * gd.getNextNumber(); ntrials = (int) gd.getNextNumber(); if (methodindex == 0) { support_plane_errors_v2 erclass = new support_plane_errors_v2(this, 0.0001, 50, false, 0.1); int errindex = paramindex; int nfit = 0; for (int i = 0; i < labels.length; i++) { if (fixes[i] == 0) { nfit++; } } int npts = tempdata.length; int dofnum = npts - (nfit - 1) - 1; int dofden = npts - nfit - 1; double flim = (new jdist()).FLimit(dofnum, dofden, (double) conf); IJ.log("FLimit = " + (float) flim); if (flim == Double.NaN && flim < 1.0) { IJ.showMessage("Invalid Limiting F Value"); return false; } double truespacing = Math.abs(params[errindex] * spacing); double[][] c2plot = erclass.geterrors( params, fixes, constraints, tempdata, weights, flim, truespacing, errindex); IJ.log("upper limit = " + c2plot[1][0] + " lower limit = " + c2plot[0][0]); IJ.log( "upper error = " + (c2plot[1][0] - params[errindex]) + " lower error = " + (params[errindex] - c2plot[0][0])); int templength = c2plot[0].length; float[][] c2plotf = new float[2][templength - 1]; for (int i = 0; i < (templength - 1); i++) { c2plotf[0][i] = (float) c2plot[0][i + 1]; c2plotf[1][i] = (float) c2plot[1][i + 1]; } new PlotWindow4("c2 plot", labels[errindex], "Chi^2", c2plotf[0], c2plotf[1]).draw(); } else { StringBuffer sb = new StringBuffer(); sb.append("Trial\t"); for (int i = 0; i < labels.length; i++) { if (fixes[i] == 0) sb.append(labels[i] + "\t"); } sb.append("chi^2"); tw = new TextWindow("Monte Carlo Results", sb.toString(), "", 400, 400); redirect = true; monte_carlo_errors_v2 erclass = new monte_carlo_errors_v2(this, 0.0001, 50, false, 0.1); double[][] errors = erclass.geterrors(params, fixes, constraints, tempdata, weights, ntrials); sb = new StringBuffer(); sb.append("StDev\t"); for (int i = 0; i < errors.length; i++) { float[] ferr = new float[errors[0].length]; for (int j = 0; j < ferr.length; j++) ferr[j] = (float) errors[i][j]; float stdev = jstatistics.getstatistic("StDev", ferr, null); sb.append("" + stdev); if (i < (errors.length - 1)) sb.append("\t"); } tw.append(sb.toString()); redirect = false; } return true; }
private void geterrors() { GenericDialog gd = new GenericDialog("Options"); float conf = 0.67f; gd.addNumericField("Confidence Limit", (int) (conf * 100.0f), 5, 10, null); gd.addChoice("Error Parameter", paramsnames, paramsnames[0]); double spacing = 0.01; gd.addNumericField("Chi^2 plot spacing (% of value)?", spacing * 100.0, 2, 10, null); boolean globalerror = false; gd.addCheckbox("Global Fit Error?", globalerror); int dataset = 0; gd.addNumericField("Data Set (for Global Error)", dataset, 0); gd.showDialog(); if (gd.wasCanceled()) { return; } conf = 0.01f * (float) gd.getNextNumber(); int paramindex = (int) gd.getNextChoiceIndex(); spacing = 0.01 * gd.getNextNumber(); globalerror = gd.getNextBoolean(); dataset = (int) gd.getNextNumber(); if (globalerror) { support_plane_errors erclass = new support_plane_errors(this, 0.0001, 50, true, 0.1); int[] erindeces = {paramindex, dataset}; // need to set up all the matrices int nsel = 0; int nparams = 11; for (int i = 0; i < ncurves; i++) { if (include[i]) { nsel++; } } double[][] params = new double[nsel][nparams]; String[][] tempformulas = new String[nsel][nparams]; double[][][] constraints = new double[2][nsel][nparams]; int[][] vflmatrix = new int[nsel][nparams]; float[][] tempdata = new float[nsel][xpts * ypts]; float[][] tempweights = new float[nsel][xpts * ypts]; int nfit = 0; int counter = 0; for (int i = 0; i < ncurves; i++) { if (include[i]) { for (int j = 0; j < nparams; j++) { params[counter][j] = globalparams[i][j]; tempformulas[counter][j] = globalformulas[i][j]; constraints[0][counter][j] = globalconstraints[0][i][j]; constraints[1][counter][j] = globalconstraints[1][i][j]; vflmatrix[counter][j] = globalvflmatrix[i][j]; if (vflmatrix[counter][j] == 0 || (j == 0 && vflmatrix[counter][j] == 2)) { nfit++; } } for (int j = 0; j < xpts; j++) { for (int k = 0; k < ypts; k++) { tempdata[counter][j + k * xpts] = (float) ((double) pch[i][j][k] / (double) nmeas[i]); tempweights[counter][j + k * xpts] = weights[i][j][k]; } } counter++; } } int dofnum = xpts * ypts * nsel - (nfit - 1) - 1; int dofden = xpts * ypts * nsel - nfit - 1; // double flim=FLimit(dofnum,dofden,(double)conf); double flim = (new jdist()).FLimit(dofnum, dofden, (double) conf); IJ.log("FLimit = " + (float) flim); if (flim == Double.NaN && flim < 1.0) { IJ.showMessage("Invalid Limiting F Value"); return; } double truespacing = Math.abs(params[erindeces[1]][erindeces[0]] * spacing); double[][] c2plot = erclass.geterrorsglobal( params, vflmatrix, tempformulas, paramsnames, constraints, tempdata, tempweights, flim, truespacing, erindeces); IJ.log("upper limit = " + c2plot[1][0] + " lower limit = " + c2plot[0][0]); int templength = c2plot[0].length; float[][] c2plotf = new float[2][templength - 1]; for (int i = 0; i < (templength - 1); i++) { c2plotf[0][i] = (float) c2plot[0][i + 1]; c2plotf[1][i] = (float) c2plot[1][i + 1]; } new PlotWindow4( "c2 plot", paramsnames[paramindex] + "[" + dataset + "]", "Chi^2", c2plotf[0], c2plotf[1]) .draw(); } else { support_plane_errors erclass = new support_plane_errors(this, 0.0001, 50, false, 0.1); int errindex = paramindex; float[] tempdata = new float[xpts * ypts]; float[] tempweights = new float[xpts * ypts]; for (int i = 0; i < xpts; i++) { for (int j = 0; j < ypts; j++) { tempdata[i + j * xpts] = (float) ((double) avg[i][j] / (double) nmeas[ncurves]); tempweights[i + j * xpts] = avgweights[i][j]; } } int nfit = 0; for (int i = 0; i < 7; i++) { if (avgfixes[i] == 0) { nfit++; } } int dofnum = xpts * ypts - (nfit - 1) - 1; int dofden = xpts * ypts - nfit - 1; double flim = (new jdist()).FLimit(dofnum, dofden, (double) conf); IJ.log("FLimit = " + (float) flim); if (flim == Double.NaN && flim < 1.0) { IJ.showMessage("Invalid Limiting F Value"); return; } double truespacing = Math.abs(avgparams[errindex] * spacing); double[][] c2plot = erclass.geterrors( avgparams, avgfixes, avgconstraints, tempdata, tempweights, flim, truespacing, errindex); IJ.log("upper limit = " + c2plot[1][0] + " lower limit = " + c2plot[0][0]); int templength = c2plot[0].length; float[][] c2plotf = new float[2][templength - 1]; for (int i = 0; i < (templength - 1); i++) { c2plotf[0][i] = (float) c2plot[0][i + 1]; c2plotf[1][i] = (float) c2plot[1][i + 1]; } new PlotWindow4("c2 plot", paramsnames[errindex], "Chi^2", c2plotf[0], c2plotf[1]).draw(); } }
public void run(String arg) { Frame[] niframes = WindowManager.getNonImageWindows(); String[] titles = new String[niframes.length + 1]; for (int i = 0; i < niframes.length; i++) { titles[i] = niframes[i].getTitle(); } titles[niframes.length] = "Clipboard"; GenericDialog gd = new GenericDialog("Windows"); boolean importfile = false; gd.addCheckbox("Import from file?", importfile); gd.addChoice("Windows", titles, titles[0]); boolean hasxvals = false; gd.addCheckbox("X Vals Column?", hasxvals); boolean multix = false; gd.addCheckbox("Multi_X_Columns?", multix); boolean skipendzeros = false; gd.addCheckbox("Skip_end_zeros?", skipendzeros); String[] delimiters = {"Tab", "Comma", "Space"}; gd.addChoice("Delimiter", delimiters, delimiters[0]); gd.showDialog(); if (gd.wasCanceled()) { return; } importfile = gd.getNextBoolean(); int index = gd.getNextChoiceIndex(); hasxvals = gd.getNextBoolean(); multix = gd.getNextBoolean(); skipendzeros = gd.getNextBoolean(); int delimindex = gd.getNextChoiceIndex(); if (multix) hasxvals = true; String textdata = ""; if (importfile) { OpenDialog od = new OpenDialog("Open File", "", ".txt"); String directory = od.getDirectory(); String name = od.getFileName(); if (name == null) { return; } try { File infile = new File(directory + name); BufferedReader b = new BufferedReader(new FileReader(infile)); textdata = (new jdataio()).readstringfile(b); b.close(); } catch (IOException e) { return; } } else { if (index == niframes.length) { // here we get the data from the clipboard Transferable t = Toolkit.getDefaultToolkit().getSystemClipboard().getContents(null); try { if (t != null && t.isDataFlavorSupported(DataFlavor.stringFlavor)) { textdata = (String) t.getTransferData(DataFlavor.stringFlavor); } } catch (UnsupportedFlavorException e) { } catch (IOException e) { } if (textdata.equals("")) { IJ.error("Error copying from clipboard."); return; } } else { if (niframes[index] instanceof Editor) { Editor tw = (Editor) niframes[index]; textdata = tw.getText(); } else { if (niframes[index] instanceof TextWindow) { TextWindow tw = (TextWindow) niframes[index]; textdata = tw.getTextPanel().getText(); } else { IJ.showMessage("Not a valid text window"); return; } } } } if (textdata == null) { IJ.showMessage("Error in Obtaining String"); return; } if (textdata.indexOf("\r") >= 0) { textdata = textdata.replace('\r', '\n'); } char[] delims = {'\t', ',', ' '}; delimit_string ds = new delimit_string(delims[delimindex]); String[] rows = ds.getrows(textdata); int lines = rows.length; int columns = ds.getnumcolumns(rows[0]); int ycolumns = columns; if (hasxvals) { if (multix) { ycolumns /= 2; } else { ycolumns--; } } if (multix) { float[][] ydata = new float[ycolumns][lines]; float[][] xdata = new float[ycolumns][lines]; for (int i = 0; i < lines; i++) { float[] temp = ds.delim2float(rows[i], columns); for (int j = 0; j < ycolumns; j++) { ydata[j][i] = temp[2 * j + 1]; xdata[j][i] = temp[2 * j]; } } int[] npts = new int[ycolumns]; for (int i = 0; i < ycolumns; i++) { npts[i] = lines; } if (skipendzeros) { for (int i = 0; i < ycolumns; i++) { int counter = lines - 1; while ((xdata[i][counter] == 0.0f || Float.isNaN(xdata[i][counter])) && counter > 0) { xdata[i][counter] = 0.0f; ydata[i][counter] = 0.0f; npts[i]--; counter--; } } } (new PlotWindow4("Text Plot", "x", "y", xdata, ydata, npts)).draw(); } else { float[][] tempydata = new float[ycolumns][lines]; float[] tempxdata = new float[lines]; float[][] xdata = null; float[][] ydata = null; int startcolumn = 0; if (hasxvals) startcolumn = 1; for (int i = 0; i < lines; i++) { float[] temp = ds.delim2float(rows[i], columns); if (hasxvals) { tempxdata[i] = temp[0]; } else { tempxdata[i] = (float) (i + 1); } for (int j = 0; j < ycolumns; j++) { tempydata[j][i] = temp[j + startcolumn]; } } int[] npts = new int[ycolumns]; npts[0] = lines; if (skipendzeros) { int maxpts = 0; for (int i = 0; i < ycolumns; i++) { int counter = lines - 1; npts[i] = lines; while ((tempydata[i][counter] == 0.0f || Float.isNaN(tempydata[i][counter])) && counter > 0) { npts[i]--; counter--; } if (npts[i] > maxpts) maxpts = npts[i]; IJ.log("" + npts[i]); } ydata = new float[ycolumns][maxpts]; xdata = new float[ycolumns][maxpts]; for (int i = 0; i < ycolumns; i++) { // npts[i]=npts[0]; System.arraycopy(tempxdata, 0, xdata[i], 0, npts[i]); System.arraycopy(tempydata[i], 0, ydata[i], 0, npts[i]); } } else { ydata = tempydata; xdata = new float[ycolumns][]; for (int i = 0; i < ycolumns; i++) { npts[i] = npts[0]; xdata[i] = tempxdata.clone(); } } (new PlotWindow4("Text Plot", "x", "y", xdata, ydata, npts)).draw(); } }