package ij.plugin.filter;
import java.awt.*;
import java.awt.image.IndexColorModel;
import java.util.Properties;
import ij.*;
import ij.gui.*;
import ij.process.*;
import ij.measure.*;
import ij.text.*;
import ij.plugin.filter.Analyzer;
import ij.plugin.frame.Recorder;
import ij.plugin.frame.RoiManager;
import ij.plugin.Colors;
import ij.macro.Interpreter;
import ij.util.Tools;
public class ParticleAnalyzer implements PlugInFilter, Measurements {
public static final int SHOW_RESULTS = 1;
public static final int SHOW_SUMMARY = 2;
public static final int SHOW_OUTLINES = 4;
public static final int EXCLUDE_EDGE_PARTICLES = 8;
public static final int SHOW_ROI_MASKS = 16;
public static final int SHOW_PROGRESS = 32;
public static final int CLEAR_WORKSHEET = 64;
public static final int RECORD_STARTS = 128;
public static final int DISPLAY_SUMMARY = 256;
public static final int SHOW_NONE = 512;
public static final int INCLUDE_HOLES = 1024;
public static final int ADD_TO_MANAGER = 2048;
public static final int SHOW_MASKS = 4096;
public static final int FOUR_CONNECTED = 8192;
public static final int IN_SITU_SHOW = 16384;
public static final int SHOW_OVERLAY_OUTLINES = 32768;
public static final int SHOW_OVERLAY_MASKS = 65536;
static final String OPTIONS = "ap.options";
static final int BYTE=0, SHORT=1, FLOAT=2, RGB=3;
static final double DEFAULT_MIN_SIZE = 0.0;
static final double DEFAULT_MAX_SIZE = Double.POSITIVE_INFINITY;
private static double staticMinSize = 0.0;
private static double staticMaxSize = DEFAULT_MAX_SIZE;
private static boolean pixelUnits;
private static int staticOptions = Prefs.getInt(OPTIONS,CLEAR_WORKSHEET);
private static String[] showStrings = {"Nothing", "Outlines", "Bare Outlines", "Ellipses", "Masks", "Count Masks", "Overlay", "Overlay Masks"};
private static double staticMinCircularity=0.0, staticMaxCircularity=1.0;
protected static final int NOTHING=0, OUTLINES=1, BARE_OUTLINES=2, ELLIPSES=3, MASKS=4, ROI_MASKS=5,
OVERLAY_OUTLINES=6, OVERLAY_MASKS=7;
protected static int staticShowChoice;
protected ImagePlus imp;
protected ResultsTable rt;
protected Analyzer analyzer;
protected int slice;
protected boolean processStack;
protected boolean showResults,excludeEdgeParticles,showSizeDistribution,
resetCounter,showProgress, recordStarts, displaySummary, floodFill,
addToManager, inSituShow;
private boolean showResultsWindow = true;
private double level1, level2;
private double minSize, maxSize;
private double minCircularity, maxCircularity;
private int showChoice;
private int options;
private int measurements;
private Calibration calibration;
private String arg;
private double fillColor;
private boolean thresholdingLUT;
private ImageProcessor drawIP;
private int width,height;
private boolean canceled;
private ImageStack outlines;
private IndexColorModel customLut;
private int particleCount;
private int maxParticleCount = 0;
private int totalCount;
private ResultsTable summaryTable;
private Wand wand;
private int imageType, imageType2;
private boolean roiNeedsImage;
private int minX, maxX, minY, maxY;
private ImagePlus redirectImp;
private ImageProcessor redirectIP;
private PolygonFiller pf;
private Roi saveRoi;
private int beginningCount;
private Rectangle r;
private ImageProcessor mask;
private double totalArea;
private FloodFiller ff;
private Polygon polygon;
private RoiManager roiManager;
private static RoiManager staticRoiManager;
private static ResultsTable staticResultsTable;
private ImagePlus outputImage;
private boolean hideOutputImage;
private int roiType;
private int wandMode = Wand.LEGACY_MODE;
private Overlay overlay;
boolean blackBackground;
private static int defaultFontSize = 9;
private static int nextFontSize = defaultFontSize;
private static Color defaultFontColor = Color.red;
private static Color nextFontColor = defaultFontColor;
private static int nextLineWidth = 1;
private int fontSize = nextFontSize;
private Color fontColor = nextFontColor;
private int lineWidth = nextLineWidth;
private boolean noThreshold;
private boolean calledByPlugin;
private boolean hyperstack;
public ParticleAnalyzer(int options, int measurements, ResultsTable rt, double minSize, double maxSize, double minCirc, double maxCirc) {
this.options = options;
this.measurements = measurements;
this.rt = rt;
if (this.rt==null)
this.rt = new ResultsTable();
this.minSize = minSize;
this.maxSize = maxSize;
this.minCircularity = minCirc;
this.maxCircularity = maxCirc;
slice = 1;
if ((options&SHOW_ROI_MASKS)!=0)
showChoice = ROI_MASKS;
if ((options&SHOW_OVERLAY_OUTLINES)!=0)
showChoice = OVERLAY_OUTLINES;
if ((options&SHOW_OVERLAY_MASKS)!=0)
showChoice = OVERLAY_MASKS;
if ((options&SHOW_OUTLINES)!=0)
showChoice = OUTLINES;
if ((options&SHOW_MASKS)!=0)
showChoice = MASKS;
if ((options&SHOW_NONE)!=0)
showChoice = NOTHING;
if ((options&FOUR_CONNECTED)!=0) {
wandMode = Wand.FOUR_CONNECTED;
options |= INCLUDE_HOLES;
}
nextFontSize = defaultFontSize;
nextFontColor = defaultFontColor;
nextLineWidth = 1;
calledByPlugin = true;
}
public ParticleAnalyzer(int options, int measurements, ResultsTable rt, double minSize, double maxSize) {
this(options, measurements, rt, minSize, maxSize, 0.0, 1.0);
}
public ParticleAnalyzer() {
slice = 1;
}
public int setup(String arg, ImagePlus imp) {
this.arg = arg;
this.imp = imp;
IJ.register(ParticleAnalyzer.class);
if (imp==null) {
IJ.noImage();
return DONE;
}
if (imp.getBitDepth()==24 && !isThresholdedRGB(imp)) {
IJ.error("Particle Analyzer",
"RGB images must be thresholded using\n"
+"Image>Adjust>Color Threshold.");
return DONE;
}
if (!showDialog())
return DONE;
int baseFlags = DOES_ALL+NO_CHANGES+NO_UNDO;
int flags = IJ.setupDialog(imp, baseFlags);
processStack = (flags&DOES_STACKS)!=0;
slice = 0;
saveRoi = imp.getRoi();
if (saveRoi!=null && saveRoi.getType()!=Roi.RECTANGLE && saveRoi.isArea())
polygon = saveRoi.getPolygon();
imp.startTiming();
nextFontSize = defaultFontSize;
nextFontColor = defaultFontColor;
nextLineWidth = 1;
return flags;
}
public void run(ImageProcessor ip) {
if (canceled)
return;
slice++;
if (imp.getStackSize()>1 && processStack)
imp.setSlice(slice);
if (imp.getType()==ImagePlus.COLOR_RGB) {
ip = (ImageProcessor)imp.getProperty("Mask");
ip.setThreshold(255, 255, ImageProcessor.NO_LUT_UPDATE);
ip.setRoi(imp.getRoi());
}
if (!analyze(imp, ip))
canceled = true;
if (slice==imp.getStackSize()) {
imp.updateAndDraw();
if (saveRoi!=null) imp.setRoi(saveRoi);
}
}
public boolean showDialog() {
Calibration cal = imp!=null?imp.getCalibration():(new Calibration());
double unitSquared = cal.pixelWidth*cal.pixelHeight;
if (pixelUnits)
unitSquared = 1.0;
if (Macro.getOptions()!=null) {
boolean oldMacro = updateMacroOptions();
if (oldMacro) unitSquared = 1.0;
staticMinSize = 0.0; staticMaxSize = DEFAULT_MAX_SIZE;
staticMinCircularity=0.0; staticMaxCircularity=1.0;
staticShowChoice = NOTHING;
}
GenericDialog gd = new GenericDialog("Analyze Particles");
minSize = staticMinSize;
maxSize = staticMaxSize;
minCircularity = staticMinCircularity;
maxCircularity = staticMaxCircularity;
showChoice = staticShowChoice;
if (maxSize==999999)
maxSize = DEFAULT_MAX_SIZE;
options = staticOptions;
String unit = cal.getUnit();
boolean scaled = cal.scaled();
String units = unit+"^2";
int places = 0;
double cmin = minSize*unitSquared;
if ((int)cmin!=cmin) places = 2;
double cmax = maxSize*unitSquared;
if ((int)cmax!=cmax && cmax!=DEFAULT_MAX_SIZE) places = 2;
String minStr = ResultsTable.d2s(cmin,places);
if (minStr.indexOf("-")!=-1) {
for (int i=places; i<=6; i++) {
minStr = ResultsTable.d2s(cmin, i);
if (minStr.indexOf("-")==-1) break;
}
}
String maxStr = ResultsTable.d2s(cmax, places);
if (maxStr.indexOf("-")!=-1) {
for (int i=places; i<=6; i++) {
maxStr = ResultsTable.d2s(cmax, i);
if (maxStr.indexOf("-")==-1) break;
}
}
if (scaled)
gd.setInsets(5, 0, 0);
gd.addStringField("Size ("+units+"):", minStr+"-"+maxStr, 12);
if (scaled) {
gd.setInsets(0, 40, 5);
gd.addCheckbox("Pixel units", pixelUnits);
}
gd.addStringField("Circularity:", IJ.d2s(minCircularity)+"-"+IJ.d2s(maxCircularity), 12);
gd.addChoice("Show:", showStrings, showStrings[showChoice]);
String[] labels = new String[8];
boolean[] states = new boolean[8];
labels[0]="Display results"; states[0] = (options&SHOW_RESULTS)!=0;
labels[1]="Exclude on edges"; states[1]=(options&EXCLUDE_EDGE_PARTICLES)!=0;
labels[2]="Clear results"; states[2]=(options&CLEAR_WORKSHEET)!=0;
labels[3]="Include holes"; states[3]=(options&INCLUDE_HOLES)!=0;
labels[4]="Summarize"; states[4]=(options&DISPLAY_SUMMARY)!=0;
labels[5]="Record starts"; states[5]=false;
labels[6]="Add to Manager"; states[6]=(options&ADD_TO_MANAGER)!=0;
labels[7]="In_situ Show"; states[7]=(options&IN_SITU_SHOW)!=0;
gd.addCheckboxGroup(4, 2, labels, states);
gd.addHelp(IJ.URL+"/docs/menus/analyze.html#ap");
gd.showDialog();
if (gd.wasCanceled())
return false;
gd.setSmartRecording(minSize==0.0&&maxSize==Double.POSITIVE_INFINITY);
String size = gd.getNextString(); if (scaled)
pixelUnits = gd.getNextBoolean();
if (pixelUnits)
unitSquared = 1.0;
else
unitSquared = cal.pixelWidth*cal.pixelHeight;
String[] minAndMax = Tools.split(size, " -");
double mins = minAndMax.length>=1?gd.parseDouble(minAndMax[0]):0.0;
double maxs = minAndMax.length==2?gd.parseDouble(minAndMax[1]):Double.NaN;
minSize = Double.isNaN(mins)?DEFAULT_MIN_SIZE:mins/unitSquared;
maxSize = Double.isNaN(maxs)?DEFAULT_MAX_SIZE:maxs/unitSquared;
if (minSize<DEFAULT_MIN_SIZE) minSize = DEFAULT_MIN_SIZE;
if (maxSize<minSize) maxSize = DEFAULT_MAX_SIZE;
staticMinSize = minSize;
staticMaxSize = maxSize;
gd.setSmartRecording(minCircularity==0.0&&maxCircularity==1.0);
minAndMax = Tools.split(gd.getNextString(), " -"); double minc = minAndMax.length>=1?gd.parseDouble(minAndMax[0]):0.0;
double maxc = minAndMax.length==2?gd.parseDouble(minAndMax[1]):Double.NaN;
minCircularity = Double.isNaN(minc)?0.0:minc;
maxCircularity = Double.isNaN(maxc)?1.0:maxc;
if (minCircularity<0.0) minCircularity = 0.0;
if (minCircularity>maxCircularity && maxCircularity==1.0) minCircularity = 0.0;
if (minCircularity>maxCircularity) minCircularity = maxCircularity;
if (maxCircularity<minCircularity) maxCircularity = minCircularity;
if (minCircularity==1.0 && maxCircularity==1.0) minCircularity = 0.0;
staticMinCircularity = minCircularity;
staticMaxCircularity = maxCircularity;
if (gd.invalidNumber()) {
IJ.error("Bins invalid.");
canceled = true;
return false;
}
gd.setSmartRecording(showChoice==0);
showChoice = gd.getNextChoiceIndex();
gd.setSmartRecording(false);
staticShowChoice = showChoice;
if (gd.getNextBoolean())
options |= SHOW_RESULTS; else options &= ~SHOW_RESULTS;
if (gd.getNextBoolean())
options |= EXCLUDE_EDGE_PARTICLES; else options &= ~EXCLUDE_EDGE_PARTICLES;
if (gd.getNextBoolean())
options |= CLEAR_WORKSHEET; else options &= ~CLEAR_WORKSHEET;
if (gd.getNextBoolean())
options |= INCLUDE_HOLES; else options &= ~INCLUDE_HOLES;
if (gd.getNextBoolean())
options |= DISPLAY_SUMMARY; else options &= ~DISPLAY_SUMMARY;
if (gd.getNextBoolean())
options |= RECORD_STARTS; else options &= ~RECORD_STARTS;
if (gd.getNextBoolean())
options |= ADD_TO_MANAGER; else options &= ~ADD_TO_MANAGER;
if (gd.getNextBoolean())
options |= IN_SITU_SHOW; else options &= ~IN_SITU_SHOW;
staticOptions = options;
options |= SHOW_PROGRESS;
if ((options&DISPLAY_SUMMARY)!=0)
Analyzer.setMeasurements(Analyzer.getMeasurements()|AREA);
return true;
}
private boolean isThresholdedRGB(ImagePlus imp) {
Object obj = imp.getProperty("Mask");
if (obj==null || !(obj instanceof ImageProcessor))
return false;
ImageProcessor mask = (ImageProcessor)obj;
return mask.getWidth()==imp.getWidth() && mask.getHeight()==imp.getHeight();
}
boolean updateMacroOptions() {
String options = Macro.getOptions();
options = options.replace("show=[Overlay Outlines]", "show=Overlay");
Macro.setOptions(options);
int index = options.indexOf("maximum=");
if (index==-1)
return false;
index +=8;
int len = options.length();
while (index<len-1 && options.charAt(index)!=' ')
index++;
if (index==len-1)
return false;
int min = (int)Tools.parseDouble(Macro.getValue(options, "minimum", "1"));
int max = (int)Tools.parseDouble(Macro.getValue(options, "maximum", "999999"));
options = "size="+min+"-"+max+options.substring(index, len);
Macro.setOptions(options);
return true;
}
public boolean analyze(ImagePlus imp) {
return analyze(imp, imp.getProcessor());
}
public boolean analyze(ImagePlus imp, ImageProcessor ip) {
if (this.imp==null) this.imp = imp;
showResults = (options&SHOW_RESULTS)!=0;
excludeEdgeParticles = (options&EXCLUDE_EDGE_PARTICLES)!=0;
resetCounter = (options&CLEAR_WORKSHEET)!=0;
showProgress = (options&SHOW_PROGRESS)!=0;
floodFill = (options&INCLUDE_HOLES)==0;
recordStarts = (options&RECORD_STARTS)!=0;
addToManager = (options&ADD_TO_MANAGER)!=0;
if (staticRoiManager!=null) {
addToManager = true;
roiManager = staticRoiManager;
staticRoiManager = null;
}
hyperstack = imp.isHyperStack();
if (staticResultsTable!=null) {
rt = staticResultsTable;
staticResultsTable = null;
showResultsWindow = false;
}
displaySummary = (options&DISPLAY_SUMMARY)!=0 || (options&SHOW_SUMMARY)!=0;
inSituShow = (options&IN_SITU_SHOW)!=0;
outputImage = null;
ip.snapshot();
ip.setProgressBar(null);
if (Analyzer.isRedirectImage()) {
redirectImp = Analyzer.getRedirectImage(imp);
if (redirectImp==null) return false;
int depth = redirectImp.getStackSize();
if (depth>1 && depth==imp.getStackSize()) {
ImageStack redirectStack = redirectImp.getStack();
redirectIP = redirectStack.getProcessor(imp.getCurrentSlice());
} else
redirectIP = redirectImp.getProcessor();
} else if (imp.getType()==ImagePlus.COLOR_RGB) {
ImagePlus original = (ImagePlus)imp.getProperty("OriginalImage");
if (original!=null && original.getWidth()==imp.getWidth() && original.getHeight()==imp.getHeight()) {
redirectImp = original;
redirectIP = original.getProcessor();
}
}
if (!setThresholdLevels(imp, ip))
return false;
width = ip.getWidth();
height = ip.getHeight();
if (!(showChoice==NOTHING||showChoice==OVERLAY_OUTLINES||showChoice==OVERLAY_MASKS)) {
blackBackground = Prefs.blackBackground && inSituShow;
if (slice==1)
outlines = new ImageStack(width, height);
if (showChoice==ROI_MASKS)
drawIP = new ShortProcessor(width, height);
else
drawIP = new ByteProcessor(width, height);
drawIP.setLineWidth(lineWidth);
if (showChoice==ROI_MASKS)
{} else if (showChoice==MASKS&&!blackBackground)
drawIP.invertLut();
else if (showChoice==OUTLINES) {
if (!inSituShow) {
if (customLut==null)
makeCustomLut();
drawIP.setColorModel(customLut);
}
drawIP.setFont(new Font("SansSerif", Font.PLAIN, fontSize));
if (fontSize>12 && inSituShow)
drawIP.setAntialiasedText(true);
}
outlines.addSlice(null, drawIP);
if (showChoice==ROI_MASKS || blackBackground) {
drawIP.setColor(Color.black);
drawIP.fill();
drawIP.setColor(Color.white);
} else {
drawIP.setColor(Color.white);
drawIP.fill();
drawIP.setColor(Color.black);
}
}
calibration = redirectImp!=null?redirectImp.getCalibration():imp.getCalibration();
if (measurements==0)
measurements = Analyzer.getMeasurements();
measurements &= ~LIMIT; if (rt==null) {
Frame table = WindowManager.getFrame("Results");
if (!showResults && table!=null) {
rt = new ResultsTable();
if (resetCounter && table instanceof TextWindow) {
IJ.run("Clear Results");
((TextWindow)table).close();
rt = Analyzer.getResultsTable();
}
} else
rt = Analyzer.getResultsTable();
}
analyzer = new Analyzer(imp, measurements, rt);
if (resetCounter && slice==1 && rt.getCounter()>0) {
if (!Analyzer.resetCounter())
return false;
}
beginningCount = Analyzer.getCounter();
byte[] pixels = null;
if (ip instanceof ByteProcessor)
pixels = (byte[])ip.getPixels();
if (r==null) {
r = ip.getRoi();
mask = ip.getMask();
if (displaySummary) {
if (mask!=null)
totalArea = ImageStatistics.getStatistics(ip, AREA, calibration).area;
else
totalArea = r.width*calibration.pixelWidth*r.height*calibration.pixelHeight;
}
}
minX=r.x; maxX=r.x+r.width; minY=r.y; maxY=r.y+r.height;
if (r.width<width || r.height<height || mask!=null) {
if (!eraseOutsideRoi(ip, r, mask)) return false;
}
int offset;
double value;
int inc = Math.max(r.height/25, 1);
int mi = 0;
ImageWindow win = imp.getWindow();
if (win!=null)
win.running = true;
if (showChoice==ELLIPSES)
measurements |= ELLIPSE;
roiNeedsImage = (measurements&PERIMETER)!=0 || (measurements&SHAPE_DESCRIPTORS)!=0 || (measurements&FERET)!=0;
particleCount = 0;
wand = new Wand(ip);
pf = new PolygonFiller();
if (floodFill) {
ImageProcessor ipf = ip.duplicate();
ipf.setValue(fillColor);
ff = new FloodFiller(ipf);
}
roiType = Wand.allPoints()?Roi.FREEROI:Roi.TRACED_ROI;
boolean done = false;
for (int y=r.y; y<(r.y+r.height); y++) {
offset = y*width;
for (int x=r.x; x<(r.x+r.width); x++) {
if (pixels!=null)
value = pixels[offset+x]&255;
else if (imageType==SHORT)
value = ip.getPixel(x, y);
else
value = ip.getPixelValue(x, y);
if (value>=level1 && value<=level2 && !done) {
analyzeParticle(x, y, imp, ip);
done = level1==0.0&&level2==255.0&&imp.getBitDepth()==8;
}
}
if (showProgress && ((y%inc)==0))
IJ.showProgress((double)(y-r.y)/r.height);
if (win!=null)
canceled = !win.running;
if (canceled) {
Macro.abort();
break;
}
}
if (showProgress)
IJ.showProgress(1.0);
if (showResults && showResultsWindow && rt.getCounter()>0)
rt.updateResults();
imp.deleteRoi();
ip.resetRoi();
ip.reset();
if (displaySummary && IJ.getInstance()!=null)
updateSliceSummary();
if (addToManager && roiManager!=null)
roiManager.setEditMode(imp, true);
maxParticleCount = (particleCount > maxParticleCount) ? particleCount : maxParticleCount;
totalCount += particleCount;
if (!canceled)
showResults();
return true;
}
void updateSliceSummary() {
int slices = imp.getStackSize();
if (slices==1) {
Frame frame = WindowManager.getFrame("Summary");
if (frame!=null && (frame instanceof TextWindow)) {
TextWindow tw = (TextWindow)frame;
ResultsTable table = tw.getTextPanel().getResultsTable();
if (table!= null)
summaryTable = table;
}
} else {
Frame frame = WindowManager.getFrame("Summary of "+imp.getTitle());
if (frame!=null && (frame instanceof TextWindow)) {
TextWindow tw = (TextWindow)frame;
ResultsTable table = tw.getTextPanel().getResultsTable();
if (table!= null)
summaryTable = table;
}
}
if (summaryTable==null) {
summaryTable = new ResultsTable();
summaryTable.showRowNumbers(false);
}
float[] areas = rt.getColumn(ResultsTable.AREA);
if (areas==null)
areas = new float[0];
String label = imp.getTitle();
if (slices>1) {
if (processStack)
label = imp.getStack().getShortSliceLabel(slice);
else
label = imp.getStack().getShortSliceLabel(imp.getCurrentSlice());
label = label!=null&&!label.equals("")?label:""+slice;
}
summaryTable.incrementCounter();
summaryTable.addValue("Slice", label);
double sum = 0.0;
int start = areas.length-particleCount;
if (start<0)
return;
for (int i=start; i<areas.length; i++)
sum += areas[i];
int places = Analyzer.getPrecision();
Calibration cal = imp.getCalibration();
summaryTable.addValue("Count", particleCount);
summaryTable.addValue("Total Area", sum);
summaryTable.addValue("Average Size", sum/particleCount);
summaryTable.addValue("%Area", sum*100.0/totalArea);
addMeans(areas.length>0?start:-1);
String title = slices==1?"Summary":"Summary of "+imp.getTitle();
summaryTable.show(title);
}
void addMeans(int start) {
if ((measurements&MEAN)!=0) addMean(ResultsTable.MEAN, start);
if ((measurements&MODE)!=0) addMean(ResultsTable.MODE, start);
if ((measurements&PERIMETER)!=0)
addMean(ResultsTable.PERIMETER, start);
if ((measurements&ELLIPSE)!=0) {
addMean(ResultsTable.MAJOR, start);
addMean(ResultsTable.MINOR, start);
addMean(ResultsTable.ANGLE, start);
}
if ((measurements&SHAPE_DESCRIPTORS)!=0) {
addMean(ResultsTable.CIRCULARITY, start);
addMean(ResultsTable.SOLIDITY, start);
}
if ((measurements&FERET)!=0) {
addMean(ResultsTable.FERET, start);
addMean(ResultsTable.FERET_X, start);
addMean(ResultsTable.FERET_Y, start);
addMean(ResultsTable.FERET_ANGLE, start);
addMean(ResultsTable.MIN_FERET, start);
}
if ((measurements&INTEGRATED_DENSITY)!=0)
addMean(ResultsTable.INTEGRATED_DENSITY, start);
if ((measurements&MEDIAN)!=0)
addMean(ResultsTable.MEDIAN, start);
if ((measurements&SKEWNESS)!=0)
addMean(ResultsTable.SKEWNESS, start);
if ((measurements&KURTOSIS)!=0)
addMean(ResultsTable.KURTOSIS, start);
}
private void addMean(int column, int start) {
double value = Double.NaN;
if (start!=-1) {
float[] c = column>=0?rt.getColumn(column):null;
if (c!=null) {
ImageProcessor ip = new FloatProcessor(c.length, 1, c, null);
if (ip==null) return;
ip.setRoi(start, 0, ip.getWidth()-start, 1);
ip = ip.crop();
ImageStatistics stats = new FloatStatistics(ip);
if (stats==null)
return;
value = stats.mean;
}
}
summaryTable.addValue(ResultsTable.getDefaultHeading(column), value);
}
boolean eraseOutsideRoi(ImageProcessor ip, Rectangle r, ImageProcessor mask) {
int width = ip.getWidth();
int height = ip.getHeight();
ip.setRoi(r);
if (excludeEdgeParticles && polygon!=null) {
ImageStatistics stats = ImageStatistics.getStatistics(ip, MIN_MAX, null);
if (fillColor>=stats.min && fillColor<=stats.max) {
double replaceColor = level1-1.0;
if (replaceColor<0.0 || replaceColor==fillColor) {
replaceColor = level2+1.0;
int maxColor = imageType==BYTE?255:65535;
if (replaceColor>maxColor || replaceColor==fillColor) {
IJ.error("Particle Analyzer", "Unable to remove edge particles");
return false;
}
}
for (int y=minY; y<maxY; y++) {
for (int x=minX; x<maxX; x++) {
int v = ip.getPixel(x, y);
if (v==fillColor) ip.putPixel(x, y, (int)replaceColor);
}
}
}
}
ip.setValue(fillColor);
if (mask!=null) {
mask = mask.duplicate();
mask.invert();
ip.fill(mask);
}
ip.setRoi(0, 0, r.x, height);
ip.fill();
ip.setRoi(r.x, 0, r.width, r.y);
ip.fill();
ip.setRoi(r.x, r.y+r.height, r.width, height-(r.y+r.height));
ip.fill();
ip.setRoi(r.x+r.width, 0, width-(r.x+r.width), height);
ip.fill();
ip.resetRoi();
return true;
}
boolean setThresholdLevels(ImagePlus imp, ImageProcessor ip) {
double t1 = ip.getMinThreshold();
double t2 = ip.getMaxThreshold();
boolean invertedLut = imp.isInvertedLut();
boolean byteImage = ip instanceof ByteProcessor;
if (ip instanceof ShortProcessor)
imageType = SHORT;
else if (ip instanceof FloatProcessor)
imageType = FLOAT;
else
imageType = BYTE;
if (t1==ImageProcessor.NO_THRESHOLD) {
noThreshold = true;
ImageStatistics stats = imp.getStatistics();
if (imageType!=BYTE || (stats.histogram[0]+stats.histogram[255]!=stats.pixelCount)) {
IJ.error("Particle Analyzer",
"A thresholded image or 8-bit binary image is\n"
+"required. Threshold levels can be set using\n"
+"the Image->Adjust->Threshold tool.");
canceled = true;
return false;
}
boolean threshold255 = invertedLut;
if (Prefs.blackBackground)
threshold255 = !threshold255;
if (threshold255) {
level1 = 255;
level2 = 255;
fillColor = 64;
} else {
level1 = 0;
level2 = 0;
fillColor = 192;
}
} else {
level1 = t1;
level2 = t2;
if (imageType==BYTE) {
if (level1>0)
fillColor = 0;
else if (level2<255)
fillColor = 255;
} else if (imageType==SHORT) {
if (level1>0)
fillColor = 0;
else if (level2<65535)
fillColor = 65535;
} else if (imageType==FLOAT)
fillColor = -Float.MAX_VALUE;
else
return false;
}
imageType2 = imageType;
if (redirectIP!=null) {
if (redirectIP instanceof ShortProcessor)
imageType2 = SHORT;
else if (redirectIP instanceof FloatProcessor)
imageType2 = FLOAT;
else if (redirectIP instanceof ColorProcessor)
imageType2 = RGB;
else
imageType2 = BYTE;
}
return true;
}
int counter = 0;
void analyzeParticle(int x, int y, ImagePlus imp, ImageProcessor ip) {
ImageProcessor ip2 = redirectIP!=null?redirectIP:ip;
wand.autoOutline(x, y, level1, level2, wandMode);
if (wand.npoints==0)
{IJ.log("wand error: "+x+" "+y); return;}
Roi roi = new PolygonRoi(wand.xpoints, wand.ypoints, wand.npoints, roiType);
Rectangle r = roi.getBounds();
if (r.width>1 && r.height>1) {
PolygonRoi proi = (PolygonRoi)roi;
pf.setPolygon(proi.getXCoordinates(), proi.getYCoordinates(), proi.getNCoordinates());
ip2.setMask(pf.getMask(r.width, r.height));
if (floodFill) ff.particleAnalyzerFill(x, y, level1, level2, ip2.getMask(), r);
}
ip2.setRoi(r);
ip.setValue(fillColor);
ImageStatistics stats = getStatistics(ip2, measurements, calibration);
boolean include = true;
if (excludeEdgeParticles) {
if (r.x==minX||r.y==minY||r.x+r.width==maxX||r.y+r.height==maxY)
include = false;
if (polygon!=null) {
Rectangle bounds = roi.getBounds();
int x1=bounds.x+wand.xpoints[wand.npoints-1];
int y1=bounds.y+wand.ypoints[wand.npoints-1];
int x2, y2;
for (int i=0; i<wand.npoints; i++) {
x2=bounds.x+wand.xpoints[i];
y2=bounds.y+wand.ypoints[i];
if (!polygon.contains(x2, y2))
{include = false; break;}
if ((x1==x2 && ip.getPixel(x1,y1-1)==fillColor) || (y1==y2 && ip.getPixel(x1-1,y1)==fillColor))
{include = false; break;}
x1=x2; y1=y2;
}
}
}
ImageProcessor mask = ip2.getMask();
if (minCircularity>0.0 || maxCircularity!=1.0) {
double perimeter = roi.getLength();
double circularity = perimeter==0.0?0.0:4.0*Math.PI*(stats.pixelCount/(perimeter*perimeter));
if (circularity>1.0 && maxCircularity<=1.0) circularity = 1.0;
if (circularity<minCircularity || circularity>maxCircularity) include = false;
}
if (stats.pixelCount>=minSize && stats.pixelCount<=maxSize && include) {
particleCount++;
if (roiNeedsImage)
roi.setImage(imp);
stats.xstart=x; stats.ystart=y;
saveResults(stats, roi);
if (showChoice!=NOTHING)
drawParticle(drawIP, roi, stats, mask);
}
if (redirectIP!=null)
ip.setRoi(r);
ip.fill(mask);
}
ImageStatistics getStatistics(ImageProcessor ip, int mOptions, Calibration cal) {
switch (imageType2) {
case BYTE:
return new ByteStatistics(ip, mOptions, cal);
case SHORT:
return new ShortStatistics(ip, mOptions, cal);
case FLOAT:
return new FloatStatistics(ip, mOptions, cal);
case RGB:
return new ColorStatistics(ip, mOptions, cal);
default:
return null;
}
}
protected void saveResults(ImageStatistics stats, Roi roi) {
analyzer.saveResults(stats, roi);
if (maxCircularity>1.0 && rt.columnExists("Circ.") && rt.getValue("Circ.", rt.size()-1)==1.0) {
double perimeter = roi.getLength();
double circularity = perimeter==0.0?0.0:4.0*Math.PI*(stats.pixelCount/(perimeter*perimeter));
rt.addValue("Circ.", circularity);
}
if (recordStarts) {
rt.addValue("XStart", stats.xstart);
rt.addValue("YStart", stats.ystart);
}
if (addToManager) {
if (roiManager==null) {
if (Macro.getOptions()!=null && Interpreter.isBatchMode())
roiManager = Interpreter.getBatchModeRoiManager();
if (roiManager==null) {
Frame frame = WindowManager.getFrame("ROI Manager");
if (frame==null)
IJ.run("ROI Manager...");
frame = WindowManager.getFrame("ROI Manager");
if (frame==null || !(frame instanceof RoiManager))
{addToManager=false; return;}
roiManager = (RoiManager)frame;
}
if (resetCounter)
roiManager.runCommand("reset");
}
if (imp.getStackSize()>1) {
int n = imp.getCurrentSlice();
if (hyperstack) {
int[] pos = imp.convertIndexToPosition(n);
roi.setPosition(pos[0],pos[1],pos[2]);
} else
roi.setPosition(n);
}
if (lineWidth!=1)
roi.setStrokeWidth(lineWidth);
roiManager.add(imp, roi, rt.getCounter());
}
if (showResultsWindow && showResults)
rt.addResults();
}
protected void drawParticle(ImageProcessor drawIP, Roi roi,
ImageStatistics stats, ImageProcessor mask) {
switch (showChoice) {
case MASKS: drawFilledParticle(drawIP, roi, mask); break;
case OUTLINES: case BARE_OUTLINES: case OVERLAY_OUTLINES: case OVERLAY_MASKS:
drawOutline(drawIP, roi, rt.getCounter()); break;
case ELLIPSES: drawEllipse(drawIP, stats, rt.getCounter()); break;
case ROI_MASKS: drawRoiFilledParticle(drawIP, roi, mask, rt.getCounter()); break;
default:
}
}
void drawFilledParticle(ImageProcessor ip, Roi roi, ImageProcessor mask) {
ip.setRoi(roi.getBounds());
ip.fill(mask);
}
void drawOutline(ImageProcessor ip, Roi roi, int count) {
if (showChoice==OVERLAY_OUTLINES || showChoice==OVERLAY_MASKS) {
if (overlay==null) {
overlay = new Overlay();
overlay.drawLabels(true);
overlay.setLabelFont(new Font("SansSerif", Font.PLAIN, fontSize));
}
Roi roi2 = (Roi)roi.clone();
roi2.setStrokeColor(Color.cyan);
if (lineWidth!=1)
roi2.setStrokeWidth(lineWidth);
if (showChoice==OVERLAY_MASKS)
roi2.setFillColor(Color.cyan);
if (processStack) {
if (hyperstack) {
int[] pos = imp.convertIndexToPosition(slice);
roi2.setPosition(pos[0],pos[1],pos[2]);
} else
roi2.setPosition(slice);
}
overlay.add(roi2);
} else {
Rectangle r = roi.getBounds();
int nPoints = ((PolygonRoi)roi).getNCoordinates();
int[] xp = ((PolygonRoi)roi).getXCoordinates();
int[] yp = ((PolygonRoi)roi).getYCoordinates();
int x=r.x, y=r.y;
if (!inSituShow)
ip.setValue(0.0);
ip.moveTo(x+xp[0], y+yp[0]);
for (int i=1; i<nPoints; i++)
ip.lineTo(x+xp[i], y+yp[i]);
ip.lineTo(x+xp[0], y+yp[0]);
if (showChoice!=BARE_OUTLINES) {
String s = ResultsTable.d2s(count,0);
ip.moveTo(r.x+r.width/2-ip.getStringWidth(s)/2, r.y+r.height/2+fontSize/2);
if (!inSituShow)
ip.setValue(1.0);
ip.drawString(s);
}
}
}
void drawEllipse(ImageProcessor ip, ImageStatistics stats, int count) {
stats.drawEllipse(ip);
}
void drawRoiFilledParticle(ImageProcessor ip, Roi roi, ImageProcessor mask, int count) {
int grayLevel = (count < 65535) ? count : 65535;
ip.setValue((double) grayLevel);
ip.setRoi(roi.getBounds());
ip.fill(mask);
}
void showResults() {
int count = rt.getCounter();
boolean lastSlice = !processStack||slice==imp.getStackSize();
if ((showChoice==OVERLAY_OUTLINES||showChoice==OVERLAY_MASKS) && count>0 && (!processStack||slice==imp.getStackSize()))
imp.setOverlay(overlay);
else if (outlines!=null && lastSlice) {
String title = imp!=null?imp.getTitle():"Outlines";
String prefix;
if (showChoice == MASKS)
prefix = "Mask of ";
else if (showChoice == ROI_MASKS)
prefix = "Count Masks of ";
else
prefix = "Drawing of ";
outlines.update(drawIP);
outputImage = new ImagePlus(prefix+title, outlines);
outputImage.setCalibration(imp.getCalibration());
if (inSituShow) {
if (imp.getStackSize()==1)
Undo.setup(Undo.TRANSFORM, imp);
ImageStack outputStack = outputImage.getStack();
if (imp.getStackSize()>1 && outputStack.getSize()==1 && imp.getBitDepth()==8)
imp.setProcessor(outputStack.getProcessor(1));
else
imp.setStack(null, outputStack);
} else if (!hideOutputImage)
outputImage.show();
}
if (showResults && !processStack) {
if (showResultsWindow && rt.getCounter()>0) {
TextPanel tp = IJ.getTextPanel();
if (beginningCount>0 && tp!=null && tp.getLineCount()!=count)
rt.show("Results");
}
Analyzer.firstParticle = beginningCount;
Analyzer.lastParticle = Analyzer.getCounter()-1;
} else
Analyzer.firstParticle = Analyzer.lastParticle = 0;
if (showResults && rt.getCounter()==0 && !(IJ.isMacro()||calledByPlugin) && (!processStack||slice==imp.getStackSize())) {
int digits = (int)level1==level1&&(int)level2==level2?0:2;
String range = IJ.d2s(level1,digits)+"-"+IJ.d2s(level2,digits);
String assummed = noThreshold?"assumed":"";
IJ.showMessage("Particle Analyzer", "No particles were detected. The "+assummed+"\nthreshold ("+range+") may not be correct.");
}
}
public ImagePlus getOutputImage() {
return outputImage;
}
public void setHideOutputImage(boolean hideOutputImage) {
this.hideOutputImage = hideOutputImage;
}
public static void setFontSize(int size) {
nextFontSize = size;
}
public static void setFontColor(String color) {
nextFontColor = Colors.decode(color, defaultFontColor);
}
public static void setLineWidth(int width) {
nextLineWidth = width;
}
public static void setRoiManager(RoiManager manager) {
staticRoiManager = manager;
}
public static void setResultsTable(ResultsTable rt) {
staticResultsTable = rt;
}
int getColumnID(String name) {
int id = rt.getFreeColumn(name);
if (id==ResultsTable.COLUMN_IN_USE)
id = rt.getColumnIndex(name);
return id;
}
void makeCustomLut() {
IndexColorModel cm = (IndexColorModel)LookUpTable.createGrayscaleColorModel(false);
byte[] reds = new byte[256];
byte[] greens = new byte[256];
byte[] blues = new byte[256];
cm.getReds(reds);
cm.getGreens(greens);
cm.getBlues(blues);
reds[1] =(byte)fontColor.getRed();
greens[1] = (byte)fontColor.getGreen();;
blues[1] = (byte)fontColor.getBlue();;
customLut = new IndexColorModel(8, 256, reds, greens, blues);
}
public static void savePreferences(Properties prefs) {
prefs.put(OPTIONS, Integer.toString(staticOptions));
}
}