/** Return the ROI Manager "Show All" list as an overlay. */
public Overlay getShowAllList() {
if (!showAllROIs) return null;
if (showAllList != null) return showAllList;
RoiManager rm = RoiManager.getInstance();
if (rm == null) return null;
Roi[] rois = rm.getRoisAsArray();
if (rois.length == 0) return null;
Overlay overlay = new Overlay();
for (int i = 0; i < rois.length; i++) overlay.add((Roi) rois[i].clone());
return overlay;
}
public boolean checkBeads() {
rmanager = RoiManager.getInstance();
if (IJ.versionLessThan("1.26i")) return false;
else if (rmanager == null) {
IJ.error("Add bead ROIs to the RoiManager first (select region then press [t]).");
return false;
}
nrois = rmanager.getCount();
if (nrois == 0) {
IJ.error("Add bead ROIs to the RoiManager first (select region then press [t]).");
return false;
}
rois = rmanager.getRoisAsArray();
return true;
}
void fromRoiManager() {
ImagePlus imp = IJ.getImage();
RoiManager rm = RoiManager.getInstance();
if (rm == null) {
IJ.error("ROI Manager is not open");
return;
}
Roi[] rois = rm.getRoisAsArray();
if (rois.length == 0) {
IJ.error("ROI Manager is empty");
return;
}
Overlay overlay = new Overlay();
for (int i = 0; i < rois.length; i++) overlay.add((Roi) rois[i].clone());
imp.setOverlay(overlay);
ImageCanvas ic = imp.getCanvas();
if (ic != null) ic.setShowAllROIs(false);
rm.setEditMode(imp, false);
imp.killRoi();
}
public void run(ImageProcessor ip) {
String[] imageNames = getOpenImageNames();
if (imageNames[0] == "None") {
IJ.error("need at least 2 binary open images");
return;
}
double previousMinOverlap = Prefs.get("BVTB.BinaryFeatureExtractor.minOverlap", 0);
boolean previousCombine = Prefs.get("BVTB.BinaryFeatureExtractor.combine", false);
GenericDialog gd = new GenericDialog("Binary Feature Extractor");
gd.addChoice("Objects image", imageNames, imageNames[0]);
gd.addChoice("Selector image", imageNames, imageNames[1]);
gd.addNumericField("Object_overlap in % (0=off)", previousMinOverlap, 0, 9, "");
gd.addCheckbox("Combine objects and selectors", previousCombine);
gd.addCheckbox("Count output", true);
gd.addCheckbox("Analysis tables", false);
gd.showDialog();
if (gd.wasCanceled()) {
return;
}
String objectsImgTitle = gd.getNextChoice();
String selectorsImgTitle = gd.getNextChoice();
double minOverlap = gd.getNextNumber();
boolean combineImages = gd.getNextBoolean();
boolean showCountOutput = gd.getNextBoolean();
boolean showAnalysis = gd.getNextBoolean();
if (gd.invalidNumber() || minOverlap < 0 || minOverlap > 100) {
IJ.error("invalid number");
return;
}
Prefs.set("BVTB.BinaryFeatureExtractor.minOverlap", minOverlap);
Prefs.set("BVTB.BinaryFeatureExtractor.combine", combineImages);
if (objectsImgTitle.equals(selectorsImgTitle)) {
IJ.error("images need to be different");
return;
}
ImagePlus objectsImp = WindowManager.getImage(objectsImgTitle);
ImageProcessor objectsIP = objectsImp.getProcessor();
ImagePlus selectorsImp = WindowManager.getImage(selectorsImgTitle);
ImageProcessor selectorsIP = selectorsImp.getProcessor();
if (!objectsIP.isBinary() || !selectorsIP.isBinary()) {
IJ.error("works with 8-bit binary images only");
return;
}
if ((objectsImp.getWidth() != selectorsImp.getWidth())
|| objectsImp.getHeight() != selectorsImp.getHeight()) {
IJ.error("images need to be of the same size");
return;
}
// close any existing RoiManager before instantiating a new one for this analysis
RoiManager oldRM = RoiManager.getInstance2();
if (oldRM != null) {
oldRM.close();
}
RoiManager objectsRM = new RoiManager(true);
ResultsTable objectsRT = new ResultsTable();
ParticleAnalyzer analyzeObjects =
new ParticleAnalyzer(analyzerOptions, measurementFlags, objectsRT, 0.0, 999999999.9);
analyzeObjects.setRoiManager(objectsRM);
analyzeObjects.analyze(objectsImp);
objectsRM.runCommand("Show None");
int objectNumber = objectsRT.getCounter();
Roi[] objectRoi = objectsRM.getRoisAsArray();
ResultsTable measureSelectorsRT = new ResultsTable();
Analyzer overlapAnalyzer = new Analyzer(selectorsImp, measurementFlags, measureSelectorsRT);
ImagePlus outputImp =
IJ.createImage("output", "8-bit black", objectsImp.getWidth(), objectsImp.getHeight(), 1);
ImageProcessor outputIP = outputImp.getProcessor();
double[] measuredOverlap = new double[objectNumber];
outputIP.setValue(255.0);
for (int o = 0; o < objectNumber; o++) {
selectorsImp.killRoi();
selectorsImp.setRoi(objectRoi[o]);
overlapAnalyzer.measure();
measuredOverlap[o] = measureSelectorsRT.getValue("%Area", o);
if (minOverlap != 0.0 && measuredOverlap[o] >= minOverlap) {
outputIP.fill(objectRoi[o]);
finalCount++;
} else if (minOverlap == 0.0 && measuredOverlap[o] > 0.0) {
outputIP.fill(objectRoi[o]);
finalCount++;
}
}
// measureSelectorsRT.show("Objects");
selectorsImp.killRoi();
RoiManager selectorRM = new RoiManager(true);
ResultsTable selectorRT = new ResultsTable();
ParticleAnalyzer.setRoiManager(selectorRM);
ParticleAnalyzer analyzeSelectors =
new ParticleAnalyzer(analyzerOptions, measurementFlags, selectorRT, 0.0, 999999999.9);
analyzeSelectors.analyze(selectorsImp);
selectorRM.runCommand("Show None");
int selectorNumber = selectorRT.getCounter();
if (combineImages) {
outputImp.updateAndDraw();
Roi[] selectorRoi = selectorRM.getRoisAsArray();
ResultsTable measureObjectsRT = new ResultsTable();
Analyzer selectorAnalyzer = new Analyzer(outputImp, measurementFlags, measureObjectsRT);
double[] selectorOverlap = new double[selectorNumber];
outputIP.setValue(255.0);
for (int s = 0; s < selectorNumber; s++) {
outputImp.killRoi();
outputImp.setRoi(selectorRoi[s]);
selectorAnalyzer.measure();
selectorOverlap[s] = measureObjectsRT.getValue("%Area", s);
if (selectorOverlap[s] > 0.0d) {
outputIP.fill(selectorRoi[s]);
}
}
selectorRoi = null;
selectorAnalyzer = null;
measureObjectsRT = null;
}
// selectorRT.show("Selectors");
outputImp.killRoi();
String outputImageTitle = WindowManager.getUniqueName("Extracted_" + objectsImgTitle);
outputImp.setTitle(outputImageTitle);
outputImp.show();
outputImp.changes = true;
if (showCountOutput) {
String[] openTextWindows = WindowManager.getNonImageTitles();
boolean makeNewTable = true;
for (int w = 0; w < openTextWindows.length; w++) {
if (openTextWindows[w].equals("BFE_Results")) {
makeNewTable = false;
}
}
TextWindow existingCountTable = ResultsTable.getResultsWindow();
if (makeNewTable) {
countTable = new ResultsTable();
countTable.setPrecision(0);
countTable.setValue("Image", 0, outputImageTitle);
countTable.setValue("Objects", 0, objectNumber);
countTable.setValue("Selectors", 0, selectorNumber);
countTable.setValue("Extracted", 0, finalCount);
countTable.show("BFE_Results");
} else {
IJ.renameResults("BFE_Results", "Results");
countTable = ResultsTable.getResultsTable();
countTable.setPrecision(0);
countTable.incrementCounter();
countTable.addValue("Image", outputImageTitle);
countTable.addValue("Objects", objectNumber);
countTable.addValue("Selectors", selectorNumber);
countTable.addValue("Extracted", finalCount);
IJ.renameResults("Results", "BFE_Results");
countTable.show("BFE_Results");
}
}
if (showAnalysis) {
ResultsTable extractedRT = new ResultsTable();
ParticleAnalyzer analyzeExtracted =
new ParticleAnalyzer(
ParticleAnalyzer.CLEAR_WORKSHEET | ParticleAnalyzer.RECORD_STARTS,
measurementFlags,
extractedRT,
0.0,
999999999.9);
analyzeExtracted.analyze(outputImp);
objectsRT.show("Objects");
selectorRT.show("Selectors");
extractedRT.show("Extracted");
} else {
objectsRT = null;
selectorRT = null;
}
objectsRM = null;
measureSelectorsRT = null;
analyzeObjects = null;
overlapAnalyzer = null;
objectRoi = null;
selectorRM = null;
objectsImp.killRoi();
objectsImp.changes = false;
selectorsImp.changes = false;
}
public void run(String arg) {
String[] labels = {
"Masked_Chromosomes", "Unmixed_Image", "Spectral_Image(optional)", "Spectra(optional)"
};
ImagePlus[] imps = jutils.selectImages(true, 4, labels);
if (imps == null) {
return;
}
if (imps[0] == null) {
return;
}
float[] mask = (float[]) imps[0].getStack().getPixels(2);
findblobs3 fb = new findblobs3(imps[0].getWidth(), imps[0].getHeight());
float[] objects = fb.dofindblobs(mask, 0.5f);
WaitForUserDialog dg =
new WaitForUserDialog(
"Optional Input", "Place RoiManager Points on Chromosome Segments (if desired)");
dg.show();
if (!dg.escPressed()) {
RoiManager rman = RoiManager.getInstance();
while (rman != null && rman.getCount() > 1) {
Roi[] rois = rman.getRoisAsArray();
int[] ids = new int[rois.length];
for (int i = 0; i < rois.length; i++) {
Rectangle r = rois[i].getBounds();
ids[i] = (int) objects[r.x + fb.width * r.y];
}
objects = fb.link_objects(objects, ids);
rman.reset();
dg =
new WaitForUserDialog(
"Optional Input",
"Place More RoiManager Points on Chromosome Segments (if desired)");
dg.show();
if (dg.escPressed()) break;
}
}
int[] areas = fb.get_areas(objects);
int[] temprank = jsort.get_javasort_order(areas);
int[] arearank = jsort.get_javasort_order(temprank);
for (int i = 0; i < fb.nobjects; i++) {
arearank[i] = fb.nobjects - arearank[i] - 1;
}
// if the spectra are available, get them
float[][][] spectra = null;
Object[] data = null;
if (imps[1] != null && imps[2] != null && imps[3] != null) {
ImageWindow iw = imps[3].getWindow();
if (iw.getClass().getName().equals("jguis.PlotWindow4")) {
float[][] yvals = (float[][]) jutils.runPW4VoidMethod(iw, "getYValues");
data = jutils.stack2array(imps[2].getStack());
Object[] coef = jutils.stack2array(imps[1].getStack());
spectra = new float[fb.nobjects][2][];
for (int i = 0; i < fb.nobjects; i++) {
spectra[i][0] = fb.get_object_spectrum(objects, (i + 1), data, "Sum");
spectra[i][1] = new float[yvals[0].length];
float[] tempcoef = fb.get_object_spectrum(objects, (i + 1), coef, "Sum");
for (int j = 0; j < yvals[0].length; j++) {
for (int k = 0; k < 5; k++) {
spectra[i][1][j] += tempcoef[k] * yvals[k][j];
}
}
}
}
}
CompositeImage imp = (CompositeImage) imps[0];
imp.setPosition(1, 1, 1);
LUT graylut = jutils.get_lut_for_color(Color.white);
imp.setChannelColorModel(graylut);
imp.setPosition(2, 1, 1);
LUT redlut = jutils.get_lut_for_color(Color.red);
imp.setChannelColorModel(redlut);
imp.setPosition(1, 1, 1);
imp.updateAndRepaintWindow();
SkyPanel_v3 sp = new SkyPanel_v3();
int skychan = 6;
if (imps[1] != null) skychan = imps[1].getNChannels();
// assume that the sky image has 6 channels and that the second is the unknown green
// shift the unknown green to the end
ImagePlus skyimp = null;
if (imps[1] != null) {
Object[] skystack = jutils.stack2array(imps[1].getStack());
// Object[]
// skystack2={skystack[0],skystack[2],skystack[3],skystack[4],skystack[5],skystack[1]};
Object[] skystack2 = null;
if (skychan == 6)
skystack2 = new Object[] {skystack[0], skystack[2], skystack[3], skystack[4], skystack[5]};
else
skystack2 = new Object[] {skystack[0], skystack[1], skystack[2], skystack[3], skystack[4]};
skyimp =
new ImagePlus(
"rearranged", jutils.array2stack(skystack2, imps[1].getWidth(), imps[1].getHeight()));
}
int nch = 5;
if (skyimp != null) nch = skyimp.getStack().getSize();
GenericDialog gd2 = new GenericDialog("Options");
gd2.addNumericField("Area Accuracy (percent)", 30, 0);
for (int i = 0; i < nch; i++) {
gd2.addNumericField("Ch_" + (i + 1) + "_Contr_Thresh", 0.35, 5, 15, null);
}
// gd2.addNumericField("Contribution Threshold",0.35,5,15,null);
gd2.addCheckbox("Mouse?", false);
gd2.addNumericField("Box_Width", 150, 0);
gd2.addNumericField("Box_Height", 100, 0);
gd2.showDialog();
if (gd2.wasCanceled()) {
return;
}
sp.areathresh = (float) gd2.getNextNumber();
sp.objthresh2 = new float[nch];
for (int i = 0; i < nch; i++) sp.objthresh2[i] = (float) gd2.getNextNumber();
// sp.objthresh=(float)gd2.getNextNumber();
boolean mouse = gd2.getNextBoolean();
int bwidth = (int) gd2.getNextNumber();
int bheight = (int) gd2.getNextNumber();
int[] colorindices = {4, 1, 2, 6, 3};
GenericDialog gd3 = new GenericDialog("Color Options");
for (int i = 0; i < 5; i++)
gd3.addChoice(
"Ch" + (i + 1) + " Color",
SkyPanel_v3.colornames,
SkyPanel_v3.colornames[colorindices[i]]);
gd3.showDialog();
if (gd3.wasCanceled()) return;
for (int i = 0; i < 5; i++) colorindices[i] = gd3.getNextChoiceIndex();
sp.colorindices = colorindices;
sp.nch = 5;
sp.dapilast = false;
sp.cellwidth = bwidth;
sp.cellheight = bheight;
sp.init(imps[0], skyimp, objects, areas, arearank, fb, true, spectra, data, mouse);
SkyPanel_v3.launch_frame(sp);
}
