Example 1 with ImageCanvas
use of ij.gui.ImageCanvas in project mcib3d-core by mcib3d.
the class ImageHandler method zoom.
public static void zoom(ImagePlus image, double magnitude) {
ImageCanvas ic = image.getCanvas();
if (ic == null) {
return;
}
ic.zoom100Percent();
if (magnitude > 1) {
for (int i = 0; i < (int) (magnitude + 0.5); i++) {
ic.zoomIn(image.getWidth() / 2, image.getHeight() / 2);
}
} else if (magnitude > 0 && magnitude < 1) {
for (int i = 0; i < (int) (1 / magnitude + 0.5); i++) {
ic.zoomOut(image.getWidth() / 2, image.getHeight() / 2);
}
}
}
Also used :
ImageCanvas(ij.gui.ImageCanvas)
Example 2 with ImageCanvas
use of ij.gui.ImageCanvas in project imagingbook-common by imagingbook.
the class ImagePlusForAntialiasedFlattening method flatten.
/**
* Returns a "flattened" version of this image, in RGB format.
*/
@Override
public ImagePlus flatten() {
ImagePlus imp2 = createImagePlus();
String title = "Flat_" + getTitle();
ImageCanvas ic2 = new ImageCanvas(imp2);
// imp2.flatteningCanvas = ic2;
imp2.setRoi(getRoi());
if (getStackSize() > 1) {
imp2.setStack(getStack());
imp2.setSlice(getCurrentSlice());
if (isHyperStack()) {
imp2.setDimensions(getNChannels(), getNSlices(), getNFrames());
imp2.setPosition(getChannel(), getSlice(), getFrame());
imp2.setOpenAsHyperStack(true);
}
}
ImageCanvas ic = getCanvas();
Overlay overlay2 = getOverlay();
ic2.setOverlay(overlay2);
if (ic != null) {
ic2.setShowAllROIs(ic.getShowAllROIs());
// double mag = ic.getMagnification();
// if (mag<1.0) ic2.setMagnification(mag);
}
BufferedImage bi = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
Graphics g = bi.getGraphics();
// start of Wilhelm's changes: ------------------------------------------------
Graphics2D gg = (Graphics2D) g;
gg.setRenderingHint(RenderingHints.KEY_ANTIALIASING, (antialiasRendering) ? RenderingHints.VALUE_ANTIALIAS_ON : RenderingHints.VALUE_ANTIALIAS_OFF);
gg.drawImage(getImage(), 0, 0, null);
ic2.paint(gg);
// imp2.flatteningCanvas = null;
if (Recorder.record)
Recorder.recordCall("imp = IJ.getImage().flatten();");
return new ImagePlus(title, new ColorProcessor(bi));
}
Also used :
Graphics(java.awt.Graphics)
ColorProcessor(ij.process.ColorProcessor)
ImageCanvas(ij.gui.ImageCanvas)
Overlay(ij.gui.Overlay)
ImagePlus(ij.ImagePlus)
BufferedImage(java.awt.image.BufferedImage)
Graphics2D(java.awt.Graphics2D)
Example 3 with ImageCanvas
use of ij.gui.ImageCanvas in project GDSC-SMLM by aherbert.
the class PsfCreator method runUsingAlignment.
private void runUsingAlignment() {
if (!showAlignmentDialog()) {
return;
}
boxRadius = (int) Math.ceil(settings.getRadius());
final CalibrationReader calibration = new CalibrationReader(settings.getCalibration());
// Limit this
final int halfBoxRadius = boxRadius / 2;
settings.setAnalysisWindow(Math.min(settings.getAnalysisWindow(), halfBoxRadius));
// Find the selected PSF spots x,y,z centre
// We offset the centre to the middle of pixel.
BasePoint[] centres = getSpots(0.5f, false);
if (centres.length == 0) {
IJ.error(TITLE, "No PSFs");
return;
}
CameraModel cameraModel = null;
if (calibration.isScmos()) {
cameraModel = CameraModelManager.load(calibration.getCameraModelName());
if (cameraModel == null) {
IJ.error(TITLE, "No camera model");
return;
}
cameraModel = PeakFit.cropCameraModel(cameraModel, IJImageSource.getBounds(imp), null, true);
} else {
cameraModel = new CcdCameraModel(calibration.getBias(), 1);
}
// Extract the image data for processing as float
final float[][] image = CreateData.extractImageStack(imp, 0, imp.getStackSize() - 1);
for (final float[] data : image) {
cameraModel.removeBiasAndGain(data);
}
zSelector = new PsfCentreSelector();
// Relocate the initial centres
ImageJUtils.showStatus("Relocating initial centres");
centres = relocateCentres(image, centres);
if (centres == null) {
return;
}
zRadius = (int) Math.ceil(settings.getAlignmentZRadius());
// Check the region overlap in 3D and exclude overlapping PSFs
boolean[] bad = findSpotOverlap(centres, null);
centres = getNonBadSpots(centres, bad);
if (centres.length == 0) {
IJ.error(TITLE, "No PSFs without neighbours within the box region");
return;
}
// Multi-thread for speed
if (threadPool == null) {
threadPool = Executors.newFixedThreadPool(Prefs.getThreads());
}
// Extract each PSF into a scaled PSF
ImageJUtils.showStatus(String.format("[%d] Extracting PSFs", 0));
ExtractedPsf[] psfs = extractPsfs(image, centres);
Point location = null;
// Iterate until centres have converged
boolean converged = false;
for (int iter = 0; !converged && iter < settings.getMaxIterations(); iter++) {
if (ImageJUtils.isInterrupted()) {
return;
}
// Combine all PSFs
ImageJUtils.showStatus(String.format("[%d] Aligning PSFs", iter + 1));
final ExtractedPsf combined = combine(psfs);
combined.createProjections();
// Get the current combined z-centre.
// This is used to get the centre of mass for repositioning.
// It also effects the alignment so do it for the first iteration.
zSelector.setPsf(combined);
if (iter == 0) {
// TODO - check if the z-centre should be guessed here.
// We assume that the combined PSF may be easier to guess if the initial
// guess for each individual PSF was OK. It may not be necessary since all
// the PSFs are combined around their z-centres. Once alignment has
// started we skip this step.
zSelector.analyse();
zSelector.guessZCentre();
}
if (settings.getInteractiveMode()) {
if (iter != 0) {
zSelector.analyse();
}
// zSelector.guessZCentre();
final double dz = zSelector.run("Update combined PSF z-centre", true, false, false, null);
if (dz < 0) {
return;
}
}
// Align each to the combined PSF
final float[][] translation = align(combined, psfs);
if (ImageJUtils.isInterrupted()) {
return;
}
// Find the new centre using the old centre plus the alignment shift
for (int j = 0; j < psfs.length; j++) {
centres[j] = psfs[j].updateCentre(translation[j]);
// Update to get the correct scale
translation[j][0] = centres[j].getX() - psfs[j].centre.getX();
translation[j][1] = centres[j].getY() - psfs[j].centre.getY();
translation[j][2] = centres[j].getZ() - psfs[j].centre.getZ();
ImageJUtils.log("[%d] Centre %d : Shift X = %s : Shift Y = %s : Shift Z = %s", iter, j + 1, rounder.toString(translation[j][0]), rounder.toString(translation[j][1]), rounder.toString(translation[j][2]));
}
final boolean[] excluded = new boolean[psfs.length];
if (checkAlignments) {
combined.show(TITLE_PSF);
// Ask about each centre in turn.
// Update Point ROI using float coordinates and set image slice to
// correct z-centre.
// imp.saveRoi();
imp.killRoi();
final ImageCanvas ic = imp.getCanvas();
// ic.setMagnification(16);
int reject = 0;
final float box = boxRadius + 0.5f;
final int n = imp.getStackSize();
for (int j = 0; j < centres.length; j++) {
psfs[j].show(TITLE_SPOT_PSF);
final Overlay o = new Overlay();
o.add(createRoi(psfs[j].centre.getX(), psfs[j].centre.getY(), Color.RED));
final float cx = centres[j].getX();
final float cy = centres[j].getY();
o.add(createRoi(cx, cy, Color.GREEN));
final Roi roi = new Roi(cx - box, cy - box, 2 * box, 2 * box);
o.add(roi);
// The centre is absolute within the original stack
imp.setSlice(MathUtils.clip(1, n, Math.round(centres[j].getZ())));
final Rectangle r = ic.getSrcRect();
final int x = centres[j].getXint();
final int y = centres[j].getYint();
if (!r.contains(x, y)) {
r.x = x - r.width / 2;
r.y = y - r.height / 2;
ic.setSourceRect(r);
}
imp.setOverlay(o);
imp.updateAndDraw();
final NonBlockingExtendedGenericDialog gd = new NonBlockingExtendedGenericDialog(TITLE);
ImageJUtils.addMessage(gd, "Shift X = %s\nShift Y = %s\nShift Z = %s", rounder.toString(translation[j][0]), rounder.toString(translation[j][1]), rounder.toString(translation[j][2]));
final int spotIndex = j;
gd.addAndGetButton("Exclude spot", event -> {
if (excluded[spotIndex]) {
ImageJUtils.log("Included spot %d", spotIndex + 1);
excluded[spotIndex] = false;
} else {
ImageJUtils.log("Excluded spot %d", spotIndex + 1);
excluded[spotIndex] = true;
}
});
gd.enableYesNoCancel("Accept", "Reject");
if (location != null) {
gd.setLocation(location.x, location.y);
}
gd.showDialog();
if (gd.wasCanceled()) {
resetImp();
return;
}
final boolean failed = excluded[spotIndex] || !gd.wasOKed();
if (failed) {
reject++;
centres[j] = psfs[j].centre;
// For RMSD computation
Arrays.fill(translation[j], 0f);
}
location = gd.getLocation();
}
resetImp();
if (reject == psfs.length) {
IJ.error(TITLE, "No PSF translations were accepted");
return;
}
}
bad = findSpotOverlap(centres, excluded);
final int badCount = count(bad);
final int excludedCount = count(excluded);
int ok = bad.length - badCount - excludedCount;
if (ok < bad.length) {
if (badCount != 0 && settings.getInteractiveMode()) {
final ExtendedGenericDialog gd = new ExtendedGenericDialog(TITLE);
gd.addMessage("Warning: Regions now overlap!");
gd.addMessage("OK = " + TextUtils.pleural(ok, "PSF"));
gd.addMessage("Overlapping = " + TextUtils.pleural(badCount, "PSF"));
// gd.addMessage("Excluded = " + TextUtils.pleural(excludedCount, "PSF"));
gd.enableYesNoCancel("Exclude", "Include");
if (location != null) {
gd.setLocation(location.x, location.y);
}
gd.showDialog();
if (gd.wasCanceled()) {
resetImp();
return;
}
if (!gd.wasOKed()) {
// allow bad spots
Arrays.fill(bad, false);
ok = bad.length;
}
location = gd.getLocation();
}
if (ok == 0) {
IJ.error(TITLE, "No PSFs remaining");
resetImp();
return;
}
}
// Merge bad and excluded to get new centres
for (int i = 0; i < bad.length; i++) {
if (excluded[i]) {
bad[i] = true;
}
}
ok = bad.length - count(bad);
final BasePoint[] newCentres = getNonBadSpots(centres, bad);
// Find the change in centres
final double[] rmsd = new double[2];
for (int j = 0; j < psfs.length; j++) {
if (bad[j]) {
continue;
}
rmsd[0] += MathUtils.pow2(translation[j][0]) + MathUtils.pow2(translation[j][1]);
rmsd[1] += MathUtils.pow2(translation[j][2]);
}
for (int j = 0; j < 2; j++) {
rmsd[j] = Math.sqrt(rmsd[j] / ok);
}
ImageJUtils.showStatus(String.format("[%d] Checking combined PSF", iter + 1));
// Compute CoM shift using the current z-centre and z-window
final double[] shift = combined.getCentreOfMassXyShift(zSelector.getCentreSlice());
final double shiftd = Math.sqrt(shift[0] * shift[0] + shift[1] * shift[1]);
ImageJUtils.log("[%d] RMSD XY = %s : RMSD Z = %s : Combined CoM shift = %s,%s (%s)", iter, rounder.toString(rmsd[0]), rounder.toString(rmsd[1]), rounder.toString(shift[0]), rounder.toString(shift[1]), rounder.toString(shiftd));
if (settings.getInteractiveMode()) {
// Ask if OK to continue?
final GenericDialog gd = new GenericDialog(TITLE);
ImageJUtils.addMessage(gd, "RMSD XY = %s\nRMSD Z = %s\nCombined CoM shift = %s,%s (%s)", rounder.toString(rmsd[0]), rounder.toString(rmsd[1]), rounder.toString(shift[0]), rounder.toString(shift[1]), rounder.toString(shiftd));
// Check if we can do more iterations
if (iter + 1 < settings.getMaxIterations()) {
gd.enableYesNoCancel("Continue", "Converged");
} else {
gd.setOKLabel("Converged");
}
gd.showDialog();
if (gd.wasCanceled()) {
return;
}
converged = !gd.wasOKed();
} else {
// Check convergence thresholds
converged = rmsd[0] < settings.getRmsdXyThreshold() && rmsd[1] < settings.getRmsdZThreshold() && shiftd < settings.getComShiftThreshold();
}
// For the next round we move to the non-overlapping spots
centres = newCentres;
// Update the centres using the centre-of-mass of the combined PSF
centres = updateUsingCentreOfMassXyShift(shift, shiftd, combined, centres);
// Extract each PSF into a scaled PSF
ImageJUtils.showStatus(String.format("[%d] Extracting PSFs", iter + 1));
psfs = extractPsfs(image, centres);
}
// Combine all
ExtractedPsf combined = combine(psfs);
// Show an interactive dialog for cropping the PSF and choosing the
// final output
final PsfOutputSelector cropSelector = new PsfOutputSelector(combined);
combined = cropSelector.run();
if (combined == null) {
return;
}
if (settings.getUpdateRoi()) {
final float[] ox = new float[centres.length];
final float[] oy = new float[centres.length];
for (int i = 0; i < centres.length; i++) {
ox[i] = centres[i].getX();
oy[i] = centres[i].getY();
}
imp.setRoi(new OffsetPointRoi(ox, oy));
}
// For an image PSF we can just enlarge the PSF and window.
// For a CSpline then we already have the 3D cubic spline function.
// However we want to post-process the function to allow windowing and
// normalisation. So we enlarge by 3 in each dimension.
// The CSpline can be created by solving the coefficients for the
// 4x4x4 (64) sampled points on each node.
int magnification;
if (settings.getOutputType() == OUTPUT_TYPE_IMAGE_PSF) {
magnification = settings.getPsfMagnification();
} else {
magnification = 3;
}
// Enlarge the combined PSF for final processing
ExtractedPsf finalPsf = combined.enlarge(magnification, threadPool);
// Show a dialog to collect final z-centre interactively
ImageJUtils.showStatus("Analysing PSF");
zSelector.setPsf(finalPsf);
zSelector.analyse();
// zSelector.guessZCentre(); // No need to guess the centre
final double dz = zSelector.run("Finalise PSF", true, true, true, null);
if (dz < 0) {
return;
}
zCentre = zSelector.getCentreSlice();
if (settings.getCropToZCentre()) {
finalPsf = finalPsf.cropToZCentre(zCentre);
// Back to 1-based index
zCentre = finalPsf.stackZCentre + 1;
}
// When click ok the background is subtracted from the PSF
// All pixels below the background are set to zero
// Apply a Tukey window to roll-off to zero at the outer pixels
ImageJUtils.showStatus("Windowing PSF");
final double[] wx = ImageWindow.tukeyEdge(finalPsf.maxx, settings.getWindow());
final double[] wz = ImageWindow.tukeyEdge(finalPsf.psf.length, settings.getWindow());
// Normalisation so the max intensity frame is one
final float[][] psf = finalPsf.psf;
final int maxz = psf.length;
final double[] sum = new double[maxz];
for (int z = 0; z < maxz; z++) {
sum[z] = applyWindow(psf[z], z, wx, wz, zSelector.background);
}
// Smooth the intensity
ImageJUtils.showStatus("Normalising PSF");
final Smoother smoother = zSelector.ssmoother;
final double[] ssum = smoother.smooth(sum).getDSmooth();
// Compute normalisation and apply.
SimpleArrayUtils.multiply(ssum, 1.0 / MathUtils.max(ssum));
for (int z = 0; z < psf.length; z++) {
if (sum[z] != 0) {
SimpleArrayUtils.multiply(psf[z], ssum[z] / sum[z]);
}
sum[z] = MathUtils.sum(psf[z]);
}
// Show the final intensity profile
final double[] slice = SimpleArrayUtils.newArray(maxz, 1, 1.0);
final Plot plot = new Plot(TITLE_SIGNAL, "Slice", "Signal");
final double[] range = MathUtils.limits(sum);
plot.setLimits(1, maxz, range[0], range[1]);
plot.setColor(Color.black);
plot.addPoints(slice, sum, Plot.LINE);
ImageJUtils.display(TITLE_SIGNAL, plot);
// Create a new extracted PSF and show
ImageJUtils.showStatus("Displaying PSF");
magnification = finalPsf.magnification;
finalPsf = new ExtractedPsf(psf, finalPsf.maxx, finalPsf.centre, magnification);
finalPsf.createProjections();
psfOut = finalPsf.show(TITLE_PSF, zCentre);
psfImp = psfOut[0];
// Add image info
final int imageCount = centres.length;
final ImagePSF.Builder imagePsf = ImagePsfHelper.create(zCentre, nmPerPixel / magnification, settings.getNmPerSlice() / magnification, imageCount, 0, createNote()).toBuilder();
// Add the CoM
// Find the XY centre around the z centre
final double[] com = getCentreOfMassXy(finalPsf.psf, finalPsf.maxx, finalPsf.maxy, zCentre - 1, settings.getComWindow(), getComXyBorder(finalPsf.maxx, finalPsf.maxy));
imagePsf.setXCentre(com[0]);
imagePsf.setYCentre(com[1]);
imagePsf.setZCentre(zCentre - 1);
psfImp.setProperty("Info", ImagePsfHelper.toString(imagePsf));
psfImp.setRoi(new OffsetPointRoi(com[0], com[1]));
psfImp.setSlice(zCentre);
psfImp.resetDisplayRange();
psfImp.updateAndDraw();
ImageJUtils.log("Final Centre-of-mass = %s,%s\n", rounder.toString(com[0]), rounder.toString(com[1]));
ImageJUtils.log("%s : z-centre = %d, nm/Pixel = %s, nm/Slice = %s, %d images\n", psfImp.getTitle(), zCentre, MathUtils.rounded(imagePsf.getPixelSize(), 3), MathUtils.rounded(imagePsf.getPixelDepth(), 3), imageCount);
if (settings.getOutputType() == OUTPUT_TYPE_CSPLINE) {
// Ask this again as it is important
// if (TextUtils.isNullOrEmpty(settings.getSplineFilename()))
// {
final ExtendedGenericDialog gd = new ExtendedGenericDialog(TITLE);
gd.addFilenameField("Spline_filename", settings.getSplineFilename());
gd.showDialog(true);
if (gd.wasCanceled()) {
return;
}
settings.setSplineFilename(gd.getNextString());
// }
if (!TextUtils.isNullOrEmpty(settings.getSplineFilename())) {
// Save the result ...
IJ.showStatus("Creating cubic spline");
final CubicSplinePsf cubicSplinePsf = CubicSplineManager.createCubicSpline(imagePsf, psfImp.getImageStack(), settings.getSinglePrecision());
IJ.showStatus("Saving cubic spline");
CubicSplineManager.save(cubicSplinePsf, settings.getSplineFilename());
final String msg = "Spline saved to " + settings.getSplineFilename();
IJ.showStatus(msg);
IJ.log(msg);
// To leave the status message
return;
}
}
IJ.showStatus("");
}
Also used :
CameraModel(uk.ac.sussex.gdsc.smlm.model.camera.CameraModel)
CcdCameraModel(uk.ac.sussex.gdsc.smlm.model.camera.CcdCameraModel)
CcdCameraModel(uk.ac.sussex.gdsc.smlm.model.camera.CcdCameraModel)
BasePoint(uk.ac.sussex.gdsc.core.match.BasePoint)
Rectangle(java.awt.Rectangle)
CubicSplinePsf(uk.ac.sussex.gdsc.smlm.ij.plugins.CubicSplineManager.CubicSplinePsf)
ImageCanvas(ij.gui.ImageCanvas)
ImagePSF(uk.ac.sussex.gdsc.smlm.data.config.PSFProtos.ImagePSF)
GenericDialog(ij.gui.GenericDialog)
NonBlockingExtendedGenericDialog(uk.ac.sussex.gdsc.core.ij.gui.NonBlockingExtendedGenericDialog)
ExtendedGenericDialog(uk.ac.sussex.gdsc.core.ij.gui.ExtendedGenericDialog)
Overlay(ij.gui.Overlay)
OffsetPointRoi(uk.ac.sussex.gdsc.core.ij.gui.OffsetPointRoi)
Plot(ij.gui.Plot)
NonBlockingExtendedGenericDialog(uk.ac.sussex.gdsc.core.ij.gui.NonBlockingExtendedGenericDialog)
Point(java.awt.Point)
BasePoint(uk.ac.sussex.gdsc.core.match.BasePoint)
NonBlockingExtendedGenericDialog(uk.ac.sussex.gdsc.core.ij.gui.NonBlockingExtendedGenericDialog)
ExtendedGenericDialog(uk.ac.sussex.gdsc.core.ij.gui.ExtendedGenericDialog)
CalibrationReader(uk.ac.sussex.gdsc.smlm.data.config.CalibrationReader)
OffsetPointRoi(uk.ac.sussex.gdsc.core.ij.gui.OffsetPointRoi)
Roi(ij.gui.Roi)
Point(java.awt.Point)
BasePoint(uk.ac.sussex.gdsc.core.match.BasePoint)
Example 4 with ImageCanvas
use of ij.gui.ImageCanvas in project GDSC-SMLM by aherbert.
the class NucleusMask method createMouseAdapter.
private MouseAdapter createMouseAdapter() {
return new MouseAdapter() {
@Override
public void mouseClicked(MouseEvent event) {
if (event == null) {
return;
}
final ImageCanvas ic = imp.getCanvas();
final int cx = ic.offScreenX(event.getX());
final int cy = ic.offScreenY(event.getY());
final int radius = (int) Math.ceil(diameter * 500 / nmPerPixel);
final int radiusz = (int) Math.ceil(diameter * 500 / nmPerSlice);
if (sphere == null) {
final int inc = 2 * radius + 1;
final int incz = 2 * radiusz + 1;
sphere = createEllipsoid(inc, inc, incz);
}
final int xloc = cx - radius;
final int yloc = cy - radius;
final int offset = imp.getCurrentSlice() - radiusz;
final ImageStack stack = imp.getImageStack();
for (int slice = 1; slice <= sphere.getSize(); slice++) {
final int i = slice + offset;
if (i < 1 || i > stack.getSize()) {
continue;
}
final ImageProcessor ip = stack.getProcessor(i);
final ImageProcessor ip2 = sphere.getProcessor(slice);
ip.copyBits(ip2, xloc, yloc, Blitter.MAX);
}
imp.updateAndDraw();
}
};
}
Also used :
ImageProcessor(ij.process.ImageProcessor)
MouseEvent(java.awt.event.MouseEvent)
ImageStack(ij.ImageStack)
MouseAdapter(java.awt.event.MouseAdapter)
ImageCanvas(ij.gui.ImageCanvas)
Aggregations
ImageCanvas (ij.gui.ImageCanvas)4
Overlay (ij.gui.Overlay)2
ImagePlus (ij.ImagePlus)1
ImageStack (ij.ImageStack)1
GenericDialog (ij.gui.GenericDialog)1
Plot (ij.gui.Plot)1
Roi (ij.gui.Roi)1
ColorProcessor (ij.process.ColorProcessor)1
ImageProcessor (ij.process.ImageProcessor)1
Graphics (java.awt.Graphics)1
Graphics2D (java.awt.Graphics2D)1
Point (java.awt.Point)1
Rectangle (java.awt.Rectangle)1
MouseAdapter (java.awt.event.MouseAdapter)1
MouseEvent (java.awt.event.MouseEvent)1
BufferedImage (java.awt.image.BufferedImage)1
ExtendedGenericDialog (uk.ac.sussex.gdsc.core.ij.gui.ExtendedGenericDialog)1
NonBlockingExtendedGenericDialog (uk.ac.sussex.gdsc.core.ij.gui.NonBlockingExtendedGenericDialog)1
OffsetPointRoi (uk.ac.sussex.gdsc.core.ij.gui.OffsetPointRoi)1
BasePoint (uk.ac.sussex.gdsc.core.match.BasePoint)1
