Пример #1
0
 void addScrollbars(ImagePlus imp) {
   ImageStack s = imp.getStack();
   int stackSize = s.getSize();
   nSlices = stackSize;
   hyperStack = imp.getOpenAsHyperStack();
   // imp.setOpenAsHyperStack(false);
   int[] dim = imp.getDimensions();
   int nDimensions = 2 + (dim[2] > 1 ? 1 : 0) + (dim[3] > 1 ? 1 : 0) + (dim[4] > 1 ? 1 : 0);
   if (nDimensions <= 3 && dim[2] != nSlices) hyperStack = false;
   if (hyperStack) {
     nChannels = dim[2];
     nSlices = dim[3];
     nFrames = dim[4];
   }
   // IJ.log("StackWindow: "+hyperStack+" "+nChannels+" "+nSlices+" "+nFrames);
   if (nSlices == stackSize) hyperStack = false;
   if (nChannels * nSlices * nFrames != stackSize) hyperStack = false;
   if (cSelector != null || zSelector != null || tSelector != null) removeScrollbars();
   ImageJ ij = IJ.getInstance();
   if (nChannels > 1) {
     cSelector = new ScrollbarWithLabel(this, 1, 1, 1, nChannels + 1, 'c');
     add(cSelector);
     if (ij != null) cSelector.addKeyListener(ij);
     cSelector.addAdjustmentListener(this);
     cSelector.setFocusable(false); // prevents scroll bar from blinking on Windows
     cSelector.setUnitIncrement(1);
     cSelector.setBlockIncrement(1);
   }
   if (nSlices > 1) {
     char label = nChannels > 1 || nFrames > 1 ? 'z' : 't';
     if (stackSize == dim[2] && imp.isComposite()) label = 'c';
     zSelector = new ScrollbarWithLabel(this, 1, 1, 1, nSlices + 1, label);
     if (label == 't') animationSelector = zSelector;
     add(zSelector);
     if (ij != null) zSelector.addKeyListener(ij);
     zSelector.addAdjustmentListener(this);
     zSelector.setFocusable(false);
     int blockIncrement = nSlices / 10;
     if (blockIncrement < 1) blockIncrement = 1;
     zSelector.setUnitIncrement(1);
     zSelector.setBlockIncrement(blockIncrement);
     sliceSelector = zSelector.bar;
   }
   if (nFrames > 1) {
     animationSelector = tSelector = new ScrollbarWithLabel(this, 1, 1, 1, nFrames + 1, 't');
     add(tSelector);
     if (ij != null) tSelector.addKeyListener(ij);
     tSelector.addAdjustmentListener(this);
     tSelector.setFocusable(false);
     int blockIncrement = nFrames / 10;
     if (blockIncrement < 1) blockIncrement = 1;
     tSelector.setUnitIncrement(1);
     tSelector.setBlockIncrement(blockIncrement);
   }
 }
Пример #2
0
  /** Performs actual projection using specified method. */
  public void doProjection() {
    if (imp == null) return;
    sliceCount = 0;
    if (method < AVG_METHOD || method > MEDIAN_METHOD) method = AVG_METHOD;
    for (int slice = startSlice; slice <= stopSlice; slice += increment) sliceCount++;
    if (method == MEDIAN_METHOD) {
      projImage = doMedianProjection();
      return;
    }

    // Create new float processor for projected pixels.
    FloatProcessor fp = new FloatProcessor(imp.getWidth(), imp.getHeight());
    ImageStack stack = imp.getStack();
    RayFunction rayFunc = getRayFunction(method, fp);
    if (IJ.debugMode == true) {
      IJ.log("\nProjecting stack from: " + startSlice + " to: " + stopSlice);
    }

    // Determine type of input image. Explicit determination of
    // processor type is required for subsequent pixel
    // manipulation.  This approach is more efficient than the
    // more general use of ImageProcessor's getPixelValue and
    // putPixel methods.
    int ptype;
    if (stack.getProcessor(1) instanceof ByteProcessor) ptype = BYTE_TYPE;
    else if (stack.getProcessor(1) instanceof ShortProcessor) ptype = SHORT_TYPE;
    else if (stack.getProcessor(1) instanceof FloatProcessor) ptype = FLOAT_TYPE;
    else {
      IJ.error("Z Project", "Non-RGB stack required");
      return;
    }

    // Do the projection.
    for (int n = startSlice; n <= stopSlice; n += increment) {
      IJ.showStatus("ZProjection " + color + ": " + n + "/" + stopSlice);
      IJ.showProgress(n - startSlice, stopSlice - startSlice);
      projectSlice(stack.getPixels(n), rayFunc, ptype);
    }

    // Finish up projection.
    if (method == SUM_METHOD) {
      fp.resetMinAndMax();
      projImage = new ImagePlus(makeTitle(), fp);
    } else if (method == SD_METHOD) {
      rayFunc.postProcess();
      fp.resetMinAndMax();
      projImage = new ImagePlus(makeTitle(), fp);
    } else {
      rayFunc.postProcess();
      projImage = makeOutputImage(imp, fp, ptype);
    }

    if (projImage == null) IJ.error("Z Project", "Error computing projection.");
  }
Пример #3
0
 void createNewStack(ImagePlus imp, ImageProcessor ip) {
   int nSlices = imp.getStackSize();
   int w = imp.getWidth(), h = imp.getHeight();
   ImagePlus imp2 = imp.createImagePlus();
   Rectangle r = ip.getRoi();
   boolean crop = r.width != imp.getWidth() || r.height != imp.getHeight();
   ImageStack stack1 = imp.getStack();
   ImageStack stack2 = new ImageStack(newWidth, newHeight);
   ImageProcessor ip1, ip2;
   int method = interpolationMethod;
   if (w == 1 || h == 1) method = ImageProcessor.NONE;
   for (int i = 1; i <= nSlices; i++) {
     IJ.showStatus("Scale: " + i + "/" + nSlices);
     ip1 = stack1.getProcessor(i);
     String label = stack1.getSliceLabel(i);
     if (crop) {
       ip1.setRoi(r);
       ip1 = ip1.crop();
     }
     ip1.setInterpolationMethod(method);
     ip2 = ip1.resize(newWidth, newHeight, averageWhenDownsizing);
     if (ip2 != null) stack2.addSlice(label, ip2);
     IJ.showProgress(i, nSlices);
   }
   imp2.setStack(title, stack2);
   Calibration cal = imp2.getCalibration();
   if (cal.scaled()) {
     cal.pixelWidth *= 1.0 / xscale;
     cal.pixelHeight *= 1.0 / yscale;
   }
   IJ.showProgress(1.0);
   int[] dim = imp.getDimensions();
   imp2.setDimensions(dim[2], dim[3], dim[4]);
   if (imp.isComposite()) {
     imp2 = new CompositeImage(imp2, ((CompositeImage) imp).getMode());
     ((CompositeImage) imp2).copyLuts(imp);
   }
   if (imp.isHyperStack()) imp2.setOpenAsHyperStack(true);
   if (newDepth > 0 && newDepth != oldDepth)
     imp2 = (new Resizer()).zScale(imp2, newDepth, interpolationMethod);
   if (imp2 != null) {
     imp2.show();
     imp2.changes = true;
   }
 }
Пример #4
0
 public void doHyperStackProjection(boolean allTimeFrames) {
   int start = startSlice;
   int stop = stopSlice;
   int firstFrame = 1;
   int lastFrame = imp.getNFrames();
   if (!allTimeFrames) firstFrame = lastFrame = imp.getFrame();
   ImageStack stack = new ImageStack(imp.getWidth(), imp.getHeight());
   int channels = imp.getNChannels();
   int slices = imp.getNSlices();
   if (slices == 1) {
     slices = imp.getNFrames();
     firstFrame = lastFrame = 1;
   }
   int frames = lastFrame - firstFrame + 1;
   increment = channels;
   boolean rgb = imp.getBitDepth() == 24;
   for (int frame = firstFrame; frame <= lastFrame; frame++) {
     for (int channel = 1; channel <= channels; channel++) {
       startSlice = (frame - 1) * channels * slices + (start - 1) * channels + channel;
       stopSlice = (frame - 1) * channels * slices + (stop - 1) * channels + channel;
       if (rgb) doHSRGBProjection(imp);
       else doProjection();
       stack.addSlice(null, projImage.getProcessor());
     }
   }
   projImage = new ImagePlus(makeTitle(), stack);
   projImage.setDimensions(channels, 1, frames);
   if (channels > 1) {
     projImage = new CompositeImage(projImage, 0);
     ((CompositeImage) projImage).copyLuts(imp);
     if (method == SUM_METHOD || method == SD_METHOD)
       ((CompositeImage) projImage).resetDisplayRanges();
   }
   if (frames > 1) projImage.setOpenAsHyperStack(true);
   Overlay overlay = imp.getOverlay();
   if (overlay != null) {
     startSlice = start;
     stopSlice = stop;
     if (imp.getType() == ImagePlus.COLOR_RGB)
       projImage.setOverlay(projectRGBHyperStackRois(overlay));
     else projImage.setOverlay(projectHyperStackRois(overlay));
   }
   IJ.showProgress(1, 1);
 }
Пример #5
0
 private void doHSRGBProjection(ImagePlus rgbImp) {
   ImageStack stack = rgbImp.getStack();
   ImageStack stack2 = new ImageStack(stack.getWidth(), stack.getHeight());
   for (int i = startSlice; i <= stopSlice; i++) stack2.addSlice(null, stack.getProcessor(i));
   startSlice = 1;
   stopSlice = stack2.getSize();
   doRGBProjection(stack2);
 }
Пример #6
0
 void createNewStack(ImagePlus imp, ImageProcessor ip) {
   Rectangle r = ip.getRoi();
   boolean crop = r.width != imp.getWidth() || r.height != imp.getHeight();
   int nSlices = imp.getStackSize();
   ImageStack stack1 = imp.getStack();
   ImageStack stack2 = new ImageStack(newWidth, newHeight);
   ImageProcessor ip1, ip2;
   boolean interp = interpolate;
   if (imp.getWidth() == 1 || imp.getHeight() == 1) interp = false;
   for (int i = 1; i <= nSlices; i++) {
     IJ.showStatus("Scale: " + i + "/" + nSlices);
     ip1 = stack1.getProcessor(i);
     String label = stack1.getSliceLabel(i);
     if (crop) {
       ip1.setRoi(r);
       ip1 = ip1.crop();
     }
     ip1.setInterpolate(interp);
     ip2 = ip1.resize(newWidth, newHeight);
     if (ip2 != null) stack2.addSlice(label, ip2);
     IJ.showProgress(i, nSlices);
   }
   ImagePlus imp2 = imp.createImagePlus();
   imp2.setStack(title, stack2);
   Calibration cal = imp2.getCalibration();
   if (cal.scaled()) {
     cal.pixelWidth *= 1.0 / xscale;
     cal.pixelHeight *= 1.0 / yscale;
   }
   int[] dim = imp.getDimensions();
   imp2.setDimensions(dim[2], dim[3], dim[4]);
   IJ.showProgress(1.0);
   if (imp.isComposite()) {
     imp2 = new CompositeImage(imp2, 0);
     ((CompositeImage) imp2).copyLuts(imp);
   }
   if (imp.isHyperStack()) imp2.setOpenAsHyperStack(true);
   imp2.show();
   imp2.changes = true;
 }
Пример #7
0
 ImagePlus doMedianProjection() {
   IJ.showStatus("Calculating median...");
   ImageStack stack = imp.getStack();
   ImageProcessor[] slices = new ImageProcessor[sliceCount];
   int index = 0;
   for (int slice = startSlice; slice <= stopSlice; slice += increment)
     slices[index++] = stack.getProcessor(slice);
   ImageProcessor ip2 = slices[0].duplicate();
   ip2 = ip2.convertToFloat();
   float[] values = new float[sliceCount];
   int width = ip2.getWidth();
   int height = ip2.getHeight();
   int inc = Math.max(height / 30, 1);
   for (int y = 0; y < height; y++) {
     if (y % inc == 0) IJ.showProgress(y, height - 1);
     for (int x = 0; x < width; x++) {
       for (int i = 0; i < sliceCount; i++) values[i] = slices[i].getPixelValue(x, y);
       ip2.putPixelValue(x, y, median(values));
     }
   }
   if (imp.getBitDepth() == 8) ip2 = ip2.convertToByte(false);
   IJ.showProgress(1, 1);
   return new ImagePlus(makeTitle(), ip2);
 }
Пример #8
0
    ImageProcessor setup(ImagePlus imp) {

      ImageProcessor ip;
      int type = imp.getType();
      if (type != ImagePlus.COLOR_RGB) return null;
      ip = imp.getProcessor();
      int id = imp.getID();
      int slice = imp.getCurrentSlice();

      if ((id != previousImageID) | (slice != previousSlice) | (flag)) {
        flag = false; // if true, flags a change from HSB to RGB or viceversa
        numSlices = imp.getStackSize();
        stack = imp.getStack();
        width = stack.getWidth();
        height = stack.getHeight();
        numPixels = width * height;

        hSource = new byte[numPixels];
        sSource = new byte[numPixels];
        bSource = new byte[numPixels];

        // restore = (int[])ip.getPixelsCopy(); //This runs into trouble sometimes, so do it the
        // long way:
        int[] temp = (int[]) ip.getPixels();
        restore = new int[numPixels];
        for (int i = 0; i < numPixels; i++) restore[i] = temp[i];

        fillMask = new int[numPixels];

        // Get hsb or rgb from image.
        ColorProcessor cp = (ColorProcessor) ip;
        IJ.showStatus("Gathering data");

        if (isRGB) cp.getRGB(hSource, sSource, bSource);
        else cp.getHSB(hSource, sSource, bSource);

        IJ.showStatus("done");

        // Create a spectrum ColorModel for the Hue histogram plot.
        Color c;
        byte[] reds = new byte[256];
        byte[] greens = new byte[256];
        byte[] blues = new byte[256];
        for (int i = 0; i < 256; i++) {
          c = Color.getHSBColor(i / 255f, 1f, 1f);

          reds[i] = (byte) c.getRed();
          greens[i] = (byte) c.getGreen();
          blues[i] = (byte) c.getBlue();
        }
        ColorModel cm = new IndexColorModel(8, 256, reds, greens, blues);

        // Make an image with just the hue from the RGB image and the spectrum LUT.
        // This is just for a hue histogram for the plot.  Do not show it.
        // ByteProcessor bpHue = new ByteProcessor(width,height,h,cm);
        ByteProcessor bpHue = new ByteProcessor(width, height, hSource, cm);
        ImagePlus impHue = new ImagePlus("Hue", bpHue);
        // impHue.show();

        ByteProcessor bpSat = new ByteProcessor(width, height, sSource, cm);
        ImagePlus impSat = new ImagePlus("Sat", bpSat);
        // impSat.show();

        ByteProcessor bpBri = new ByteProcessor(width, height, bSource, cm);
        ImagePlus impBri = new ImagePlus("Bri", bpBri);
        // impBri.show();

        plot.setHistogram(impHue, 0);
        splot.setHistogram(impSat, 1);
        bplot.setHistogram(impBri, 2);

        updateLabels();
        updatePlot();
        updateScrollBars();
        imp.updateAndDraw();
      }
      previousImageID = id;
      previousSlice = slice;
      return ip;
    }
Пример #9
0
  /*------------------------------------------------------------------*/
  public void run(String arg) {
    ImagePlus imp = WindowManager.getCurrentImage();
    this.imp = imp;
    if (imp == null) {
      IJ.noImage();
      return;
    }
    if ((1 < imp.getStackSize()) && (imp.getType() == imp.COLOR_256)) {
      IJ.error("Stack of color images not supported (use grayscale)");
      return;
    }
    if (1 < imp.getStackSize()) {
      if (imp.getStack().isRGB()) {
        IJ.error("RGB color images not supported (use grayscale)");
        return;
      }
    }
    if (1 < imp.getStackSize()) {
      if (imp.getStack().isHSB()) {
        IJ.error("HSB color images not supported (use grayscale)");
        return;
      }
    }
    if (imp.getType() == imp.COLOR_256) {
      IJ.error("Indexed color images not supported (use grayscale)");
      return;
    }
    if (imp.getType() == imp.COLOR_RGB) {
      IJ.error("Color images not supported (use grayscale)");
      return;
    }

    differentialsDialog dialog =
        new differentialsDialog(IJ.getInstance(), "Differentials", true, operation);
    GUI.center(dialog);
    dialog.setVisible(true);
    cancel = dialog.getCancel();
    operation = dialog.getOperation();
    dialog.dispose();
    if (cancel) {
      return;
    }

    imp.startTiming();
    if (1 < imp.getStackSize()) {
      if (!(imp.getProcessor().getPixels() instanceof float[])) {
        new StackConverter(imp).convertToGray32();
      }
    } else {
      if (!(imp.getProcessor().getPixels() instanceof float[])) {
        new ImageConverter(imp).convertToGray32();
      }
    }
    ImageStack stack = imp.getStack();
    stackSize = stack.getSize();
    Undo.reset();

    setupProgressBar();
    resetProgressBar();

    for (int i = 1; (i <= stackSize); i++) {
      ImageProcessor ip = stack.getProcessor(i);
      doIt(ip);
      imp.getProcessor().resetMinAndMax();
      imp.setSlice(i);
      imp.updateAndRepaintWindow();
    }
    imp.getProcessor().resetMinAndMax();
    imp.setSlice(1);
    imp.updateAndRepaintWindow();
    cleanUpProgressBar();
    IJ.showTime(imp, imp.getStartTime(), "Differentials: ");
    ImageWindow win = imp.getWindow();
    if (win != null) {
      win.running = false;
    }
  } /* end run */