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); }
/* Sets the LUT of the current channel. */ public void setChannelLut(LUT table) { int c = getChannelIndex(); double min = lut[c].min; double max = lut[c].max; lut[c] = table; lut[c].min = min; lut[c].max = max; if (mode == COMPOSITE && cip != null && c < cip.length) { cip[c].setColorModel(lut[c]); imageSource = null; newPixels = true; img = null; } currentChannel = -1; getProcessor().setLut(table); customLuts = true; if (!IJ.isMacro()) ContrastAdjuster.update(); }
void checkForCalibrationConflict(ImagePlus imp, Calibration cal) { Calibration gcal = imp.getGlobalCalibration(); if (gcal == null || !showConflictMessage || IJ.isMacro()) return; if (cal.pixelWidth == gcal.pixelWidth && cal.getUnit().equals(gcal.getUnit())) return; GenericDialog gd = new GenericDialog(imp.getTitle()); gd.addMessage("The calibration of this image conflicts\nwith the current global calibration."); gd.addCheckbox("Disable_Global Calibration", true); gd.addCheckbox("Disable_these Messages", false); gd.showDialog(); if (gd.wasCanceled()) return; boolean disable = gd.getNextBoolean(); if (disable) { imp.setGlobalCalibration(null); imp.setCalibration(cal); WindowManager.repaintImageWindows(); } boolean dontShow = gd.getNextBoolean(); if (dontShow) showConflictMessage = false; }
public synchronized void updateImage() { int imageSize = width * height; int nChannels = getNChannels(); int redValue, greenValue, blueValue; int ch = getChannel(); // IJ.log("updateImage: "+ch+"/"+nChannels+" "+currentSlice+" "+currentFrame); if (ch > nChannels) ch = nChannels; boolean newChannel = false; if (ch - 1 != currentChannel) { previousChannel = currentChannel; currentChannel = ch - 1; newChannel = true; } ImageProcessor ip = getProcessor(); if (mode != COMPOSITE) { if (newChannel) { setupLuts(nChannels); LUT cm = lut[currentChannel]; if (mode == COLOR) ip.setColorModel(cm); if (!(cm.min == 0.0 && cm.max == 0.0)) ip.setMinAndMax(cm.min, cm.max); if (!IJ.isMacro()) ContrastAdjuster.update(); for (int i = 0; i < MAX_CHANNELS; i++) active[i] = i == currentChannel ? true : false; Channels.updateChannels(); } if (ip != null) img = ip.createImage(); return; } if (nChannels == 1) { cip = null; rgbPixels = null; awtImage = null; if (ip != null) img = ip.createImage(); return; } if (cip == null || cip[0].getWidth() != width || cip[0].getHeight() != height || getBitDepth() != bitDepth) { setup(nChannels, getImageStack()); rgbPixels = null; rgbSampleModel = null; if (currentChannel >= nChannels) { setSlice(1); currentChannel = 0; newChannel = true; } bitDepth = getBitDepth(); } if (newChannel) { getProcessor().setMinAndMax(cip[currentChannel].getMin(), cip[currentChannel].getMax()); if (!IJ.isMacro()) ContrastAdjuster.update(); } // IJ.log(nChannels+" "+ch+" "+currentChannel+" "+newChannel); if (getSlice() != currentSlice || getFrame() != currentFrame) { currentSlice = getSlice(); currentFrame = getFrame(); int position = getStackIndex(1, currentSlice, currentFrame); if (cip == null) return; for (int i = 0; i < nChannels; ++i) cip[i].setPixels(getImageStack().getProcessor(position + i).getPixels()); } if (rgbPixels == null) { rgbPixels = new int[imageSize]; newPixels = true; imageSource = null; rgbRaster = null; rgbImage = null; } cip[currentChannel].setMinAndMax(ip.getMin(), ip.getMax()); if (singleChannel && nChannels <= 3) { switch (currentChannel) { case 0: cip[0].updateComposite(rgbPixels, 1); break; case 1: cip[1].updateComposite(rgbPixels, 2); break; case 2: cip[2].updateComposite(rgbPixels, 3); break; } } else { if (cip == null) return; if (syncChannels) { ImageProcessor ip2 = getProcessor(); double min = ip2.getMin(), max = ip2.getMax(); for (int i = 0; i < nChannels; i++) { cip[i].setMinAndMax(min, max); lut[i].min = min; lut[i].max = max; } syncChannels = false; } if (active[0]) cip[0].updateComposite(rgbPixels, 4); else { for (int i = 1; i < imageSize; i++) rgbPixels[i] = 0; } if (cip == null || nChannels > cip.length) return; for (int i = 1; i < nChannels; i++) if (active[i]) cip[i].updateComposite(rgbPixels, 5); } if (IJ.isJava16()) createBufferedImage(); else createImage(); if (img == null && awtImage != null) img = awtImage; singleChannel = false; }