/** Quit using a separate thread, hopefully avoiding thread deadlocks. */
public void run() {
quitting = true;
boolean changes = false;
int[] wList = WindowManager.getIDList();
if (wList != null) {
for (int i = 0; i < wList.length; i++) {
ImagePlus imp = WindowManager.getImage(wList[i]);
if (imp != null && imp.changes == true) {
changes = true;
break;
}
}
}
Frame[] frames = WindowManager.getNonImageWindows();
if (frames != null) {
for (int i = 0; i < frames.length; i++) {
if (frames[i] != null && (frames[i] instanceof Editor)) {
if (((Editor) frames[i]).fileChanged()) {
changes = true;
break;
}
}
}
}
if (windowClosed
&& !changes
&& Menus.window.getItemCount() > Menus.WINDOW_MENU_ITEMS
&& !(IJ.macroRunning() && WindowManager.getImageCount() == 0)) {
GenericDialog gd = new GenericDialog("ImageJ", this);
gd.addMessage("Are you sure you want to quit ImageJ?");
gd.showDialog();
quitting = !gd.wasCanceled();
windowClosed = false;
}
if (!quitting) return;
if (!WindowManager.closeAllWindows()) {
quitting = false;
return;
}
// IJ.log("savePreferences");
if (applet == null) {
saveWindowLocations();
Prefs.savePreferences();
}
IJ.cleanup();
// setVisible(false);
// IJ.log("dispose");
dispose();
if (exitWhenQuitting) System.exit(0);
}
// Conversion Options
void conversions() {
double[] weights = ColorProcessor.getWeightingFactors();
boolean weighted = !(weights[0] == 1d / 3d && weights[1] == 1d / 3d && weights[2] == 1d / 3d);
// boolean weighted = !(Math.abs(weights[0]-1d/3d)<0.0001 && Math.abs(weights[1]-1d/3d)<0.0001
// && Math.abs(weights[2]-1d/3d)<0.0001);
GenericDialog gd = new GenericDialog("Conversion Options");
gd.addCheckbox("Scale when converting", ImageConverter.getDoScaling());
String prompt = "Weighted RGB conversions";
if (weighted)
prompt +=
" (" + IJ.d2s(weights[0]) + "," + IJ.d2s(weights[1]) + "," + IJ.d2s(weights[2]) + ")";
gd.addCheckbox(prompt, weighted);
gd.showDialog();
if (gd.wasCanceled()) return;
ImageConverter.setDoScaling(gd.getNextBoolean());
Prefs.weightedColor = gd.getNextBoolean();
if (!Prefs.weightedColor) ColorProcessor.setWeightingFactors(1d / 3d, 1d / 3d, 1d / 3d);
else if (Prefs.weightedColor && !weighted)
ColorProcessor.setWeightingFactors(0.299, 0.587, 0.114);
return;
}
public void run(String arg) {
GenericDialog gd = new GenericDialog("Options");
double sfreq = 20000.0;
gd.addNumericField("Sampling Frequency?", sfreq, 1, 10, null);
String[] psfchoice = {"3D Gaussian", "Gaus-Lorentz^2", "2D Gaussian"};
gd.addChoice("PSF Type?", psfchoice, psfchoice[0]);
String[] filetypechoice = {
"Confocor 3 raw", "Short binary trajectory", "PlotWindow trajectory", "Ascii Text File"
};
gd.addChoice("File Type?", filetypechoice, filetypechoice[0]);
boolean ch2green = true;
gd.addCheckbox("Ch2 is green?", ch2green);
gd.showDialog();
if (gd.wasCanceled()) {
return;
}
sfreq = gd.getNextNumber();
int psfflag = gd.getNextChoiceIndex();
int fileflag = gd.getNextChoiceIndex();
ch2green = gd.getNextBoolean();
int nfiles = 0;
Object[] histograms = null;
int xmax = 0;
int ymax = 0;
String[] names = null;
if (fileflag < 2) {
jdataio ioclass = new jdataio();
File[] filearray = ioclass.openfiles(OpenDialog.getDefaultDirectory(), IJ.getInstance());
if (filearray.length == 0) {
return;
}
String dir = filearray[0].getAbsolutePath();
int sepindex = dir.lastIndexOf(File.separator);
String newdir = dir.substring(0, sepindex + 1);
OpenDialog.setDefaultDirectory(newdir);
nfiles = filearray.length / 2;
if (nfiles > 25) {
nfiles = 25;
}
histograms = new Object[nfiles];
names = organize_c3_files(filearray);
for (int i = 0; i < nfiles; i++) {
try {
int length1 = (int) (((double) filearray[2 * i].length() - 128.0) / 4.0);
int length2 = (int) (((double) filearray[2 * i + 1].length() - 128.0) / 4.0);
int length3 = (int) (((double) filearray[2 * i].length()) / 2.0);
int length4 = (int) (((double) filearray[2 * i + 1].length()) / 2.0);
InputStream instream = new BufferedInputStream(new FileInputStream(filearray[2 * i]));
InputStream instream2 =
new BufferedInputStream(new FileInputStream(filearray[2 * i + 1]));
if (fileflag == 0) {
int[] pmdata = new int[length1];
int[] pmdata2 = new int[length2];
if (!ioclass.skipstreambytes(instream, 128)) {
showioerror();
instream.close();
return;
}
if (!ioclass.skipstreambytes(instream2, 128)) {
showioerror();
instream2.close();
return;
}
if (!ioclass.readintelintfile(instream, length1, pmdata)) {
showioerror();
instream.close();
return;
}
if (!ioclass.readintelintfile(instream2, length2, pmdata2)) {
showioerror();
instream2.close();
return;
}
if (ch2green) {
histograms[i] = (new pmodeconvert()).pm2pch(pmdata2, pmdata, sfreq, 20000000);
} else {
histograms[i] = (new pmodeconvert()).pm2pch(pmdata, pmdata2, sfreq, 20000000);
}
} else {
float[] tmdata = new float[length3];
float[] tmdata2 = new float[length4];
if (!ioclass.readintelshortfile(instream, length3, tmdata)) {
showioerror();
instream.close();
return;
}
if (!ioclass.readintelshortfile(instream2, length4, tmdata2)) {
showioerror();
instream2.close();
return;
}
if (ch2green) {
histograms[i] = (new pmodeconvert()).create_2Dhistogram(tmdata2, tmdata);
} else {
histograms[i] = (new pmodeconvert()).create_2Dhistogram(tmdata, tmdata2);
}
}
if (((float[][]) histograms[i]).length > xmax) {
xmax = ((float[][]) histograms[i]).length;
}
if (((float[][]) histograms[i])[0].length > ymax) {
ymax = ((float[][]) histograms[i])[0].length;
}
instream.close();
instream2.close();
} catch (IOException e) {
showioerror();
return;
}
}
} else {
if (fileflag == 2) {
ImageWindow iw = WindowManager.getCurrentWindow();
float[][] trajectories = (float[][]) jutils.runPW4VoidMethod(iw, "getYValues");
float[][] tempxvals = (float[][]) jutils.runPW4VoidMethod(iw, "getXValues");
sfreq = 1.0 / ((double) tempxvals[0][1]);
nfiles = trajectories.length / 2;
if (nfiles > 25) {
nfiles = 25;
}
names = new String[nfiles + 1];
names[nfiles] = "avg";
histograms = new Object[nfiles];
for (int i = 0; i < nfiles; i++) {
names[i] = "trajectory " + (i + 1);
if (ch2green) {
histograms[i] =
(new pmodeconvert())
.create_2Dhistogram(trajectories[2 * i + 1], trajectories[2 * i]);
} else {
histograms[i] =
(new pmodeconvert())
.create_2Dhistogram(trajectories[2 * i], trajectories[2 * i + 1]);
}
if (((float[][]) histograms[i]).length > xmax) {
xmax = ((float[][]) histograms[i]).length;
}
if (((float[][]) histograms[i])[0].length > ymax) {
ymax = ((float[][]) histograms[i])[0].length;
}
}
} else {
// here we read tab delimited lines from files
jdataio ioclass = new jdataio();
File[] filearray = ioclass.openfiles(OpenDialog.getDefaultDirectory(), IJ.getInstance());
if (filearray.length == 0) {
return;
}
String dir = filearray[0].getAbsolutePath();
int sepindex = dir.lastIndexOf(File.separator);
String newdir = dir.substring(0, sepindex + 1);
OpenDialog.setDefaultDirectory(newdir);
nfiles = filearray.length;
if (nfiles > 25) {
nfiles = 25;
}
histograms = new Object[nfiles];
names = new String[nfiles + 1];
names[nfiles] = "avg";
for (int i = 0; i < nfiles; i++) {
try {
names[i] = filearray[i].getName();
BufferedReader d = new BufferedReader(new FileReader(filearray[i]));
String[] lines = new String[256];
int counter = 0;
do {
lines[counter] = d.readLine();
counter++;
} while ((lines[counter - 1] != null && lines[counter - 1] != "") && counter < 256);
int numcolumns = 0;
for (int j = 0; j < counter - 1; j++) {
int temp = getncolumns(lines[j]);
if (temp > numcolumns) {
numcolumns = temp;
}
}
float[][] temphist2 = null;
if (ch2green) {
temphist2 = new float[numcolumns][counter - 1];
} else {
temphist2 = new float[counter - 1][numcolumns];
}
for (int k = 0; k < counter - 1; k++) {
float[] temp = tab_delim2float(lines[k]);
for (int j = 0; j < numcolumns; j++) {
if (ch2green) {
temphist2[j][k] = temp[j];
} else {
temphist2[k][j] = temp[j];
}
}
}
histograms[i] = temphist2;
d.close();
} catch (IOException e) {
showioerror();
return;
}
}
for (int i = 0; i < nfiles; i++) {
if (((float[][]) histograms[i]).length > xmax) {
xmax = ((float[][]) histograms[i]).length;
}
if (((float[][]) histograms[i])[0].length > ymax) {
ymax = ((float[][]) histograms[i])[0].length;
}
}
}
}
// note that here x is green and y is red
float[][][] pch = new float[nfiles][xmax][ymax];
for (int i = 0; i < nfiles; i++) {
for (int j = 0; j < ((float[][]) histograms[i]).length; j++) {
for (int k = 0; k < ((float[][]) histograms[i])[j].length; k++) {
pch[i][j][k] = ((float[][]) histograms[i])[j][k];
}
}
}
final PCH2DFitWindow cw = new PCH2DFitWindow();
cw.init(names, pch, psfflag);
final Frame f = new Frame("PCH 2D Analysis");
f.setLocation(10, 10);
f.addWindowListener(
new WindowAdapter() {
public void windowClosing(WindowEvent e) {
f.dispose();
}
});
f.add(cw);
f.pack();
f.setResizable(false);
Insets ins = f.getInsets();
cw.totalSize.height = PCH2DFitWindow.H + ins.bottom + ins.top + 65;
cw.totalSize.width = PCH2DFitWindow.WR + ins.left + ins.right;
f.setSize(cw.totalSize);
f.setVisible(true);
cw.requestFocus();
}
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();
}
}
// 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;
}
// Miscellaneous Options
void miscOptions() {
String key = IJ.isMacintosh() ? "command" : "control";
GenericDialog gd = new GenericDialog("Miscellaneous Options", IJ.getInstance());
gd.addStringField("Divide by zero value:", "" + FloatBlitter.divideByZeroValue, 10);
gd.addCheckbox("Use pointer cursor", Prefs.usePointerCursor);
gd.addCheckbox("Hide \"Process Stack?\" dialog", IJ.hideProcessStackDialog);
gd.addCheckbox("Require " + key + " key for shortcuts", Prefs.requireControlKey);
gd.addCheckbox("Move isolated plugins to Misc. menu", Prefs.moveToMisc);
if (!IJ.isMacOSX()) gd.addCheckbox("Run single instance listener", Prefs.runSocketListener);
gd.addCheckbox("Enhanced line tool", Prefs.enhancedLineTool);
gd.addCheckbox("Reverse CZT order of \">\" and \"<\"", Prefs.reverseNextPreviousOrder);
gd.addCheckbox("Debug mode", IJ.debugMode);
gd.addHelp(IJ.URL + "/docs/menus/edit.html#misc");
gd.showDialog();
if (gd.wasCanceled()) return;
String divValue = gd.getNextString();
if (divValue.equalsIgnoreCase("infinity") || divValue.equalsIgnoreCase("infinite"))
FloatBlitter.divideByZeroValue = Float.POSITIVE_INFINITY;
else if (divValue.equalsIgnoreCase("NaN")) FloatBlitter.divideByZeroValue = Float.NaN;
else if (divValue.equalsIgnoreCase("max")) FloatBlitter.divideByZeroValue = Float.MAX_VALUE;
else {
Float f;
try {
f = new Float(divValue);
} catch (NumberFormatException e) {
f = null;
}
if (f != null) FloatBlitter.divideByZeroValue = f.floatValue();
}
IJ.register(FloatBlitter.class);
Prefs.usePointerCursor = gd.getNextBoolean();
IJ.hideProcessStackDialog = gd.getNextBoolean();
Prefs.requireControlKey = gd.getNextBoolean();
Prefs.moveToMisc = gd.getNextBoolean();
if (!IJ.isMacOSX()) Prefs.runSocketListener = gd.getNextBoolean();
Prefs.enhancedLineTool = gd.getNextBoolean();
Prefs.reverseNextPreviousOrder = gd.getNextBoolean();
IJ.setDebugMode(gd.getNextBoolean());
}
// DICOM options
void dicom() {
GenericDialog gd = new GenericDialog("DICOM Options");
gd.addCheckbox("Open as 32-bit float", Prefs.openDicomsAsFloat);
// gd.addCheckbox("Calculate voxel depth", Prefs.calculateDicomVoxelDepth);
gd.addMessage("Orthogonal Views");
gd.setInsets(5, 40, 0);
gd.addCheckbox("Rotate YZ", Prefs.rotateYZ);
gd.setInsets(0, 40, 0);
gd.addCheckbox("Flip XZ", Prefs.flipXZ);
gd.showDialog();
if (gd.wasCanceled()) return;
Prefs.openDicomsAsFloat = gd.getNextBoolean();
// Prefs.calculateDicomVoxelDepth = gd.getNextBoolean();
Prefs.rotateYZ = gd.getNextBoolean();
Prefs.flipXZ = gd.getNextBoolean();
}
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 openDirectory(File f, String path) {
if (path == null) return;
if (!(path.endsWith(File.separator) || path.endsWith("/"))) path += File.separator;
String[] names = f.list();
names = (new FolderOpener()).trimFileList(names);
if (names == null) return;
String msg = "Open all " + names.length + " images in \"" + f.getName() + "\" as a stack?";
GenericDialog gd = new GenericDialog("Open Folder");
gd.setInsets(10, 5, 0);
gd.addMessage(msg);
gd.setInsets(15, 35, 0);
gd.addCheckbox("Convert to RGB", convertToRGB);
gd.setInsets(0, 35, 0);
gd.addCheckbox("Use Virtual Stack", virtualStack);
gd.enableYesNoCancel();
gd.showDialog();
if (gd.wasCanceled()) return;
if (gd.wasOKed()) {
convertToRGB = gd.getNextBoolean();
virtualStack = gd.getNextBoolean();
String options = " sort";
if (convertToRGB) options += " convert_to_rgb";
if (virtualStack) options += " use";
IJ.run("Image Sequence...", "open=[" + path + "]" + options);
DirectoryChooser.setDefaultDirectory(path);
} else {
for (int k = 0; k < names.length; k++) {
IJ.redirectErrorMessages();
if (!names[k].startsWith(".")) (new Opener()).open(path + names[k]);
}
}
IJ.register(DragAndDrop.class);
}
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();
}
}
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;
}
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;
}
