/**
* Builds dialog to query users for projection parameters.
*
* @param start starting slice to display
* @param stop last slice
*/
protected GenericDialog buildControlDialog(int start, int stop) {
GenericDialog gd = new GenericDialog("ZProjection", IJ.getInstance());
gd.addNumericField("Start slice:", startSlice, 0 /*digits*/);
gd.addNumericField("Stop slice:", stopSlice, 0 /*digits*/);
gd.addChoice("Projection type", METHODS, METHODS[method]);
if (isHyperstack && imp.getNFrames() > 1 && imp.getNSlices() > 1)
gd.addCheckbox("All time frames", allTimeFrames);
return gd;
}
public boolean beadCalibration3d() {
imp = IJ.getImage();
if (imp == null) {
IJ.noImage();
return false;
} else if (imp.getStackSize() == 1) {
IJ.error("Stack required");
return false;
} else if (imp.getType() != ImagePlus.GRAY8 && imp.getType() != ImagePlus.GRAY16) {
// In order to support 32bit images, pict[] must be changed to float[], and getPixel(x, y);
// requires a Float.intBitsToFloat() conversion
IJ.error("8 or 16 bit greyscale image required");
return false;
}
width = imp.getWidth();
height = imp.getHeight();
nslices = imp.getStackSize();
imtitle = imp.getTitle();
models[0] = "*None*";
models[1] = "line";
models[2] = "2nd degree polynomial";
models[3] = "3rd degree polynomial";
models[4] = "4th degree polynomial";
GenericDialog gd = new GenericDialog("3D PALM calibration");
gd.addNumericField("Maximum FWHM (in px)", prefs.get("QuickPALM.3Dcal_fwhm", 20), 0);
gd.addNumericField(
"Particle local threshold (% maximum intensity)", prefs.get("QuickPALM.pthrsh", 20), 0);
gd.addNumericField("Z-spacing (nm)", prefs.get("QuickPALM.z-step", 10), 2);
gd.addNumericField("Calibration Z-smoothing (radius)", prefs.get("QuickPALM.window", 1), 0);
gd.addChoice("Model", models, prefs.get("QuickPALM.model", models[3]));
gd.addCheckbox(
"Show divergence of bead positions against model",
prefs.get("QuickPALM.3Dcal_showDivergence", false));
gd.addCheckbox("Show extra particle info", prefs.get("QuickPALM.3Dcal_showExtraInfo", false));
gd.addMessage("\n\nDon't forget to save the table in the end...");
gd.showDialog();
if (gd.wasCanceled()) return false;
fwhm = gd.getNextNumber();
prefs.set("QuickPALM.QuickPALM.3Dcal_fwhm", fwhm);
pthrsh = gd.getNextNumber() / 100;
prefs.set("QuickPALM.pthrsh", pthrsh * 100);
cal_z = gd.getNextNumber();
prefs.set("QuickPALM.z-step", cal_z);
window = (int) gd.getNextNumber();
prefs.set("QuickPALM.window", window);
model = gd.getNextChoice();
prefs.set("QuickPALM.model", model);
part_divergence = gd.getNextBoolean();
prefs.set("QuickPALM.3Dcal_showDivergence", part_divergence);
part_extrainfo = gd.getNextBoolean();
prefs.set("QuickPALM.3Dcal_showExtraInfo", part_extrainfo);
return true;
}
void interpolate() {
Roi roi = imp.getRoi();
if (roi == null) {
noRoi("Interpolate");
return;
}
if (roi.getType() == Roi.POINT) return;
if (IJ.isMacro() && Macro.getOptions() == null) Macro.setOptions("interval=1");
GenericDialog gd = new GenericDialog("Interpolate");
gd.addNumericField("Interval:", 1.0, 1, 4, "pixel");
gd.addCheckbox("Smooth", IJ.isMacro() ? false : smooth);
gd.showDialog();
if (gd.wasCanceled()) return;
double interval = gd.getNextNumber();
smooth = gd.getNextBoolean();
Undo.setup(Undo.ROI, imp);
FloatPolygon poly = roi.getInterpolatedPolygon(interval, smooth);
int t = roi.getType();
int type = roi.isLine() ? Roi.FREELINE : Roi.FREEROI;
if (t == Roi.POLYGON && interval > 1.0) type = Roi.POLYGON;
if ((t == Roi.RECTANGLE || t == Roi.OVAL || t == Roi.FREEROI) && interval >= 5.0)
type = Roi.POLYGON;
if ((t == Roi.LINE || t == Roi.FREELINE) && interval >= 5.0) type = Roi.POLYLINE;
if (t == Roi.POLYLINE && interval >= 1.0) type = Roi.POLYLINE;
ImageCanvas ic = imp.getCanvas();
if (poly.npoints <= 150 && ic != null && ic.getMagnification() >= 12.0)
type = roi.isLine() ? Roi.POLYLINE : Roi.POLYGON;
Roi p = new PolygonRoi(poly, type);
if (roi.getStroke() != null) p.setStrokeWidth(roi.getStrokeWidth());
p.setStrokeColor(roi.getStrokeColor());
p.setName(roi.getName());
transferProperties(roi, p);
imp.setRoi(p);
}
// Input/Output options
void io() {
GenericDialog gd = new GenericDialog("I/O Options");
gd.addNumericField("JPEG quality (0-100):", FileSaver.getJpegQuality(), 0, 3, "");
gd.addNumericField("GIF and PNG transparent index:", Prefs.getTransparentIndex(), 0, 3, "");
gd.addStringField(
"File extension for tables (.txt, .xls or .csv):", Prefs.get("options.ext", ".csv"), 4);
gd.addCheckbox("Use JFileChooser to open/save", Prefs.useJFileChooser);
if (!IJ.isMacOSX())
gd.addCheckbox("Use_file chooser to import sequences", Prefs.useFileChooser);
gd.addCheckbox("Save TIFF and raw in Intel byte order", Prefs.intelByteOrder);
gd.addCheckbox("Skip dialog when opening .raw files", Prefs.skipRawDialog);
gd.setInsets(15, 20, 0);
gd.addMessage("Results Table Options");
gd.setInsets(3, 40, 0);
gd.addCheckbox("Copy_column headers", Prefs.copyColumnHeaders);
gd.setInsets(0, 40, 0);
gd.addCheckbox("Copy_row numbers", !Prefs.noRowNumbers);
gd.setInsets(0, 40, 0);
gd.addCheckbox("Save_column headers", !Prefs.dontSaveHeaders);
gd.setInsets(0, 40, 0);
gd.addCheckbox("Save_row numbers", !Prefs.dontSaveRowNumbers);
gd.showDialog();
if (gd.wasCanceled()) return;
int quality = (int) gd.getNextNumber();
if (quality < 0) quality = 0;
if (quality > 100) quality = 100;
FileSaver.setJpegQuality(quality);
int transparentIndex = (int) gd.getNextNumber();
Prefs.setTransparentIndex(transparentIndex);
String extension = gd.getNextString();
if (!extension.startsWith(".")) extension = "." + extension;
Prefs.set("options.ext", extension);
Prefs.useJFileChooser = gd.getNextBoolean();
if (!IJ.isMacOSX()) Prefs.useFileChooser = gd.getNextBoolean();
Prefs.intelByteOrder = gd.getNextBoolean();
Prefs.skipRawDialog = gd.getNextBoolean();
Prefs.copyColumnHeaders = gd.getNextBoolean();
Prefs.noRowNumbers = !gd.getNextBoolean();
Prefs.dontSaveHeaders = !gd.getNextBoolean();
Prefs.dontSaveRowNumbers = !gd.getNextBoolean();
return;
}
private boolean showDialog() {
String[] types = {"RAW", "JPEG", "ZLIB"};
GenericDialog gd = new GenericDialog("Generate Bricks");
gd.addChoice("FileType", types, filetype);
gd.addNumericField("JPEG quality", jpeg_quality, 0);
gd.addNumericField("Max file size (MB)", bdsizelimit, 0);
int[] wlist = WindowManager.getIDList();
if (wlist == null) return false;
String[] titles = new String[wlist.length];
for (int i = 0; i < wlist.length; i++) titles[i] = "";
int tnum = 0;
for (int i = 0; i < wlist.length; i++) {
ImagePlus imp = WindowManager.getImage(wlist[i]);
if (imp != null) {
titles[tnum] = imp.getTitle();
tnum++;
}
}
gd.addChoice("Source image: ", titles, titles[0]);
gd.showDialog();
if (gd.wasCanceled()) return false;
filetype = types[gd.getNextChoiceIndex()];
jpeg_quality = (int) gd.getNextNumber();
if (jpeg_quality > 100) jpeg_quality = 100;
if (jpeg_quality < 0) jpeg_quality = 0;
bdsizelimit = (int) gd.getNextNumber();
int id = gd.getNextChoiceIndex();
lvImgTitle = new ArrayList<String>();
lvImgTitle.add(titles[id]);
Prefs.set("filetype.string", filetype);
Prefs.set("jpeg_quality.int", jpeg_quality);
Prefs.set("bdsizelimit.int", bdsizelimit);
return true;
}
private void makeBand(ImagePlus imp) {
Roi roi = imp.getRoi();
if (roi == null) {
noRoi("Make Band");
return;
}
if (!roi.isArea()) {
IJ.error("Make Band", "Area selection required");
return;
}
Calibration cal = imp.getCalibration();
double pixels = bandSize;
double size = pixels * cal.pixelWidth;
int decimalPlaces = 0;
if ((int) size != size) decimalPlaces = 2;
GenericDialog gd = new GenericDialog("Make Band");
gd.addNumericField("Band Size:", size, decimalPlaces, 4, cal.getUnits());
gd.showDialog();
if (gd.wasCanceled()) return;
size = gd.getNextNumber();
if (Double.isNaN(size)) {
IJ.error("Make Band", "invalid number");
return;
}
int n = (int) Math.round(size / cal.pixelWidth);
if (n > 255) {
IJ.error("Make Band", "Cannot make bands wider that 255 pixels");
return;
}
int width = imp.getWidth();
int height = imp.getHeight();
Rectangle r = roi.getBounds();
ImageProcessor ip = roi.getMask();
if (ip == null) {
ip = new ByteProcessor(r.width, r.height);
ip.invert();
}
ImageProcessor mask = new ByteProcessor(width, height);
mask.insert(ip, r.x, r.y);
ImagePlus edm = new ImagePlus("mask", mask);
boolean saveBlackBackground = Prefs.blackBackground;
Prefs.blackBackground = false;
IJ.run(edm, "Distance Map", "");
Prefs.blackBackground = saveBlackBackground;
ip = edm.getProcessor();
ip.setThreshold(0, n, ImageProcessor.NO_LUT_UPDATE);
int xx = -1, yy = -1;
for (int x = r.x; x < r.x + r.width; x++) {
for (int y = r.y; y < r.y + r.height; y++) {
if (ip.getPixel(x, y) < n) {
xx = x;
yy = y;
break;
}
}
if (xx >= 0 || yy >= 0) break;
}
int count = IJ.doWand(edm, xx, yy, 0, null);
if (count <= 0) {
IJ.error("Make Band", "Unable to make band");
return;
}
ShapeRoi roi2 = new ShapeRoi(edm.getRoi());
if (!(roi instanceof ShapeRoi)) roi = new ShapeRoi(roi);
ShapeRoi roi1 = (ShapeRoi) roi;
roi2 = roi2.not(roi1);
imp.setRoi(roi2);
bandSize = n;
}
public boolean analyseParticles(MyFunctions f) {
GenericDialog gd = new GenericDialog("Analyse PALM/STORM Particles");
gd.addNumericField("Minimum SNR", prefs.get("QuickPALM.snr", 5), 2);
gd.addNumericField("Maximum FWHM (in px)", prefs.get("QuickPALM.fwhm", 4), 0);
gd.addNumericField("Image plane pixel size (nm)", prefs.get("QuickPALM.pixelsize", 106), 2);
gd.addCheckbox("Smart SNR", prefs.get("QuickPALM.smartsnr", true));
gd.addCheckbox(
"3D PALM (astigmatism) - will require calibration file",
prefs.get("QuickPALM.is3d", false));
gd.addCheckbox("Online rendering", prefs.get("QuickPALM.view", true));
gd.addCheckbox("Attach to running acquisition", prefs.get("QuickPALM.attach", false));
gd.addCheckbox("Stream particle info directly into file", prefs.get("QuickPALM.stream", true));
gd.addMessage("\n");
// -----------------------------------------
gd.addMessage("-- Online rendering settings (used only if selected) --");
gd.addMessage("\n");
gd.addNumericField("Pixel size of rendered image (nm)", 30, 2);
gd.addNumericField("Accumulate last (0 to accumulate all frames)", 0, 0);
gd.addNumericField("Update every (frames)", 10, 0);
// gd.addNumericField("Allow color saturation (%)", 50, 0);
gd.addMessage("\n");
// -----------------------------------------
gd.addMessage("-- Attach to running acquisition settings (used only if selected) --");
gd.addMessage("\n");
gd.addStringField(
"_Image name pattern (NN...NN represents the numerical change)",
prefs.get("QuickPALM.pattern", "imgNNNNNNNNN.tif"),
20);
gd.addNumericField("Start NN...NN with", 0, 0);
gd.addNumericField("In acquisition max. wait time for new image (ms)", 50, 0);
gd.addMessage("\n");
// -----------------------------------------
gd.addMessage("-- Advanced settings (don't normally need to be changed) --");
gd.addMessage("\n");
gd.addNumericField("_Minimum symmetry (%)", prefs.get("QuickPALM.symmetry", 50), 0);
gd.addNumericField(
"Local threshold (% maximum intensity)", prefs.get("QuickPALM.lthreshold", 20), 0);
gd.addNumericField("_Maximum iterations per frame", prefs.get("QuickPALM.maxiter", 1000), 0);
gd.addNumericField(
"Threads (each takes ~3*[frame size] in memory)", prefs.get("QuickPALM.nthreads", 50), 0);
gd.addMessage("\n\nDon't forget to save the table in the end...");
gd.showDialog();
if (gd.wasCanceled()) return false;
snr = (int) gd.getNextNumber();
prefs.set("QuickPALM.snr", snr);
fwhm = gd.getNextNumber();
prefs.set("QuickPALM.fwhm", fwhm);
pixelsize = gd.getNextNumber();
prefs.set("QuickPALM.pixelsize", pixelsize);
smartsnr = gd.getNextBoolean();
prefs.set("QuickPALM.smartsnr", smartsnr);
is3d = gd.getNextBoolean();
prefs.set("QuickPALM.is3d", is3d);
view = gd.getNextBoolean();
prefs.set("QuickPALM.view", view);
attach = gd.getNextBoolean();
prefs.set("QuickPALM.attach", attach);
if (gd.getNextBoolean()) {
f.psave = new ParticleSaver();
f.psave.setup();
prefs.set("QuickPALM.stream", true);
} else prefs.set("QuickPALM.stream", false);
// --
magn = pixelsize / gd.getNextNumber();
viewer_accumulate = (int) gd.getNextNumber();
viewer_update = (int) gd.getNextNumber();
// --
pattern = gd.getNextString().trim();
prefs.set("QuickPALM.pattern", pattern);
prefix = pattern.substring(0, pattern.indexOf("N"));
sufix = pattern.substring(pattern.lastIndexOf("N") + 1, pattern.length());
nimchars = pattern.split("N").length - 1;
nimstart = (int) gd.getNextNumber();
waittime = (int) gd.getNextNumber();
// --
symmetry = gd.getNextNumber() / 100;
prefs.set("QuickPALM.symmetry", symmetry);
pthrsh = gd.getNextNumber() / 100;
prefs.set("QuickPALM.lthreshold", pthrsh * 100);
maxpart = (int) gd.getNextNumber();
prefs.set("QuickPALM.maxiter", maxpart);
threads = (int) gd.getNextNumber();
prefs.set("QuickPALM.nthreads", threads);
return true;
}
public boolean reconstructDataset() {
view_modes[0] = "3D color";
view_modes[1] = "2D histogram";
view_modes[2] = "2D particle intensity (16-bit)";
view_modes[3] = "2D particle intensity (8-bit)";
GenericDialog gd = new GenericDialog("Reconstruct PALM/STORM Dataset");
gd.addNumericField(
"Target pixel size for the rendered image (nm)",
prefs.get("QuickPALM.viewer_tpixelsize", 30),
2);
gd.addNumericField("Original image width (px)", prefs.get("QuickPALM.viewer_owidth", 512), 2);
gd.addNumericField("Original image height (px)", prefs.get("QuickPALM.viewer_oheight", 512), 2);
gd.addChoice("View mode", view_modes, prefs.get("QuickPALM.view_mode", view_modes[1]));
// gd.addNumericField("Allow image saturation (%)", prefs.get("QuickPALM.saturation", 50), 0);
gd.addCheckbox(
"Simulate sub-difraction spot (gaussian convolution - only 2D)",
prefs.get("QuickPALM.viewer_doConvolve", true));
// gd.addCheckbox("Make 3D stack", prefs.get("QuickPALM.viewer_do3d", false));
// gd.addCheckbox("Make movie", prefs.get("QuickPALM.viewer_doMovie", false));
gd.addCheckbox("Make 3D stack", false);
gd.addCheckbox("Make movie", false);
// gd.addCheckbox("Save only and don't show", prefs.get("QuickPALM.viewer_doSave", false));
gd.addMessage("\n");
// -----------------------------------------
gd.addMessage("-- Simulate sub-difraction spot settings (used only if selected) --");
gd.addNumericField("FWHM of the spot", prefs.get("QuickPALM.viewer_fwhm", 30), 2);
gd.addMessage("\n");
// -----------------------------------------
gd.addMessage("-- Make 3D stack settings (used only if selected) --");
gd.addNumericField("Z-spacing between slices (nm)", prefs.get("QuickPALM.viewer_zstep", 50), 2);
gd.addNumericField(
"Merge particle Z-position above (nm - 0 for full Z range)",
prefs.get("QuickPALM.viewer_mergeabove", 0),
2);
gd.addNumericField(
"Merge particle Z-position bellow (nm - 0 for full Z range)",
prefs.get("QuickPALM.viewer_mergebellow", 0),
2);
gd.addMessage("\n");
// -----------------------------------------
gd.addMessage("-- Make movie settings (used only if selected) --");
gd.addNumericField(
"Make a reconstruction in every N frames", prefs.get("QuickPALM.viewer_update", 10), 0);
gd.addNumericField(
"Accumulate N neighboring frames for each reconstruction\n(set to 0 to accumulate all the preceding frames)",
prefs.get("QuickPALM.viewer_accumulate", 100),
0);
gd.showDialog();
if (gd.wasCanceled()) return false;
viewer_tpixelsize = gd.getNextNumber();
prefs.set("QuickPALM.viewer_tpixelsize", viewer_tpixelsize);
viewer_owidth = (int) gd.getNextNumber();
prefs.set("QuickPALM.viewer_owidth", viewer_owidth);
viewer_oheight = (int) gd.getNextNumber();
prefs.set("QuickPALM.viewer_oheight", viewer_oheight);
view_mode = gd.getNextChoice();
prefs.set("QuickPALM.view_mode", view_mode);
viewer_doConvolve = gd.getNextBoolean();
prefs.set("QuickPALM.viewer_doConvolve", viewer_doConvolve);
viewer_do3d = gd.getNextBoolean();
prefs.set("QuickPALM.viewer_do3d", viewer_do3d);
viewer_doMovie = gd.getNextBoolean();
prefs.set("QuickPALM.viewer_doMovie", viewer_doMovie);
// viewer_doSave = gd.getNextBoolean();
// prefs.set("QuickPALM.viewer_doSave", viewer_doSave);
// -- Simulate sub-difraction spot
viewer_fwhm = gd.getNextNumber();
prefs.set("QuickPALM.viewer_fwhm", viewer_fwhm);
// -- Show B&W
// viewer_is8bit = gd.getNextBoolean();
// prefs.set("QuickPALM.viewer_is8bit", viewer_is8bit);
// -- Make 3D stack
viewer_zstep = gd.getNextNumber();
prefs.set("QuickPALM.viewer_zstep", viewer_zstep);
viewer_mergeabove = gd.getNextNumber();
prefs.set("QuickPALM.viewer_mergeabove", viewer_mergeabove);
viewer_mergebellow = gd.getNextNumber();
prefs.set("QuickPALM.viewer_mergebellow", viewer_mergebellow);
// -- Make Movie
viewer_update = (int) gd.getNextNumber();
prefs.set("QuickPALM.viewer_update", viewer_update);
viewer_accumulate = (int) gd.getNextNumber();
prefs.set("QuickPALM.viewer_accumulate", viewer_accumulate);
return true;
}
/** Ask for parameters and then execute. */
public void run(String arg) {
// 1 - Obtain the currently active image:
ImagePlus imp = IJ.getImage();
if (null == imp) {
IJ.showMessage("There must be at least one image open");
return;
}
if (imp.getBitDepth() != 8) {
IJ.showMessage("Error", "Only 8-bit images are supported");
return;
}
// 2 - Ask for parameters:
GenericDialog gd = new GenericDialog("Auto Local Threshold");
String[] methods = {
"Try all",
"Bernsen",
"Contrast",
"Mean",
"Median",
"MidGrey",
"Niblack",
"Otsu",
"Phansalkar",
"Sauvola"
};
gd.addMessage("Auto Local Threshold v1.5");
gd.addChoice("Method", methods, methods[0]);
gd.addNumericField("Radius", 15, 0);
gd.addMessage("Special paramters (if different from default)");
gd.addNumericField("Parameter_1", 0, 0);
gd.addNumericField("Parameter_2", 0, 0);
gd.addCheckbox("White objects on black background", true);
if (imp.getStackSize() > 1) {
gd.addCheckbox("Stack", false);
}
gd.addMessage("Thresholded result is always shown in white [255].");
gd.showDialog();
if (gd.wasCanceled()) return;
// 3 - Retrieve parameters from the dialog
String myMethod = gd.getNextChoice();
int radius = (int) gd.getNextNumber();
double par1 = (double) gd.getNextNumber();
double par2 = (double) gd.getNextNumber();
boolean doIwhite = gd.getNextBoolean();
boolean doIstack = false;
int stackSize = imp.getStackSize();
if (stackSize > 1) doIstack = gd.getNextBoolean();
// 4 - Execute!
// long start = System.currentTimeMillis();
if (myMethod.equals("Try all")) {
ImageProcessor ip = imp.getProcessor();
int xe = ip.getWidth();
int ye = ip.getHeight();
int ml = methods.length;
ImagePlus imp2, imp3;
ImageStack tstack = null, stackNew;
if (stackSize > 1 && doIstack) {
boolean doItAnyway = true;
if (stackSize > 25) {
YesNoCancelDialog d =
new YesNoCancelDialog(
IJ.getInstance(),
"Auto Local Threshold",
"You might run out of memory.\n \nDisplay "
+ stackSize
+ " slices?\n \n \'No\' will process without display and\noutput results to the log window.");
if (!d.yesPressed()) {
// doIlog=true; //will show in the log window
doItAnyway = false;
}
if (d.cancelPressed()) return;
}
for (int j = 1; j <= stackSize; j++) {
imp.setSlice(j);
ip = imp.getProcessor();
tstack = new ImageStack(xe, ye);
for (int k = 1; k < ml; k++) tstack.addSlice(methods[k], ip.duplicate());
imp2 = new ImagePlus("Auto Threshold", tstack);
imp2.updateAndDraw();
for (int k = 1; k < ml; k++) {
imp2.setSlice(k);
Object[] result = exec(imp2, methods[k], radius, par1, par2, doIwhite);
}
// if (doItAnyway){
CanvasResizer cr = new CanvasResizer();
stackNew = cr.expandStack(tstack, (xe + 2), (ye + 18), 1, 1);
imp3 = new ImagePlus("Auto Threshold", stackNew);
imp3.updateAndDraw();
MontageMaker mm = new MontageMaker();
mm.makeMontage(imp3, 3, 3, 1.0, 1, (ml - 1), 1, 0, true); // 3 columns and 3 rows
}
imp.setSlice(1);
// if (doItAnyway)
IJ.run("Images to Stack", "method=[Copy (center)] title=Montage");
return;
} else { // single image try all
tstack = new ImageStack(xe, ye);
for (int k = 1; k < ml; k++) tstack.addSlice(methods[k], ip.duplicate());
imp2 = new ImagePlus("Auto Threshold", tstack);
imp2.updateAndDraw();
for (int k = 1; k < ml; k++) {
imp2.setSlice(k);
// IJ.log("analyzing slice with "+methods[k]);
Object[] result = exec(imp2, methods[k], radius, par1, par2, doIwhite);
}
// imp2.setSlice(1);
CanvasResizer cr = new CanvasResizer();
stackNew = cr.expandStack(tstack, (xe + 2), (ye + 18), 1, 1);
imp3 = new ImagePlus("Auto Threshold", stackNew);
imp3.updateAndDraw();
MontageMaker mm = new MontageMaker();
mm.makeMontage(imp3, 3, 3, 1.0, 1, (ml - 1), 1, 0, true);
return;
}
} else { // selected a method
if (stackSize > 1 && doIstack) { // whole stack
// if (doIstackHistogram) {// one global histogram
// Object[] result = exec(imp, myMethod, noWhite, noBlack, doIwhite, doIset, doIlog,
// doIstackHistogram );
// }
// else{ // slice by slice
for (int k = 1; k <= stackSize; k++) {
imp.setSlice(k);
Object[] result = exec(imp, myMethod, radius, par1, par2, doIwhite);
}
// }
imp.setSlice(1);
} else { // just one slice
Object[] result = exec(imp, myMethod, radius, par1, par2, doIwhite);
}
// 5 - If all went well, show the image:
// not needed here as the source image is binarised
}
}