def __settings(self, imgName, flag) :
"""
Allows the user to choose several parameters for the tracking.
"""
#fenetre=JFrame("Import")
#optionpane=JOptionPane("Do you want to import previous preferences ?",JOptionPane.QUESTION_MESSAGE ,JOptionPane.YES_NO_OPTION )
#optionpane.setVisible(True)
#dialog = optionpane.createDialog(fenetre, "Import")
#dialog.show()
#choice = optionpane.getValue()
#if choice==JOptionPane.YES_OPTION : self.__ImportPref()
image=self.__dictImages[imgName]
def outputpath(event) :
macrodir=IJ.getDirectory("macros")
frame = Frame("Select the macro file")
fd = FileDialog(frame)
fd.setDirectory(macrodir)
fd.show()
macrodir = fd.getDirectory()
self.__macropath = fd.getFile()
self.__text.setText(self.__macropath)
print self.__macropath
#self.__macropath=IJ.getDirectory("macros")
#self.__macropath=IJ.getDirectory("")
#self.__text.setText(self.__macropath)
panel0=Panel()
pathbutton=Button("Select macro file", actionPerformed = outputpath)
#pathbutton.actionPerformed = outputpath
self.__text = TextField(self.__macropath)
panel0.add(pathbutton)
panel0.add(self.__text)
# -------- start batch mode --------- #
if self.__batch :
pass
#self.__ImportPref(flag)
image.hide()
else :
image.show()
IJ.selectWindow(image.getID())
gd0=NonBlockingGenericDialog("Settings")
gd0.setFont(Font("Courrier", 1, 10))
gd0.addMessage("---------------- PRE-PROCESSING OPTIONS -------------------")
gd0.addCheckbox("Substract Background",self.__subback) #box 1 subback
gd0.addNumericField("Radius",self.__radius,0)
gd0.addCheckbox("Run a macro for pre processing",self.__runmacro) #box 2 runmacro
gd0.addPanel(panel0)
gd0.addMessage("-------------------------------------------")
gd0.addMessage("Tracking parameters")
gd0.addMessage("Coeffs modulate de weight of each parameter")
gd0.addMessage("Max delta set the maximum allowed change in absolute units")
gd0.addMessage(" ")
gd0.addNumericField("Coeff Area : ",self.__distparam[0],0)
gd0.addNumericField("Max deltaArea : ",self.__distparam[1],self.__nbdigits,6,"x times")
gd0.addNumericField("Coeff Angle : ",self.__distparam[2],0)
gd0.addNumericField("Max deltaAngle : ",self.__distparam[3],self.__nbdigits,6,"degrees")
gd0.addNumericField("Coeff Feret : ",self.__distparam[4],0)
gd0.addNumericField("Max deltaFeret : ",self.__distparam[5],self.__nbdigits,6,"x times")
gd0.addNumericField("Coeff PositionX : ",self.__distparam[6],0)
gd0.addNumericField("Max deltaPositionX : ",self.__distparam[7],self.__nbdigits,6,"pixels")
gd0.addNumericField("Coeff PositionY : ",self.__distparam[8],0)
gd0.addNumericField("Max deltaPositionY : ",self.__distparam[9],self.__nbdigits,6,"pixels")
gd0.addMessage("-------------------------------------------")
automethods=AutoThresholder.getMethods()
gd0.addCheckbox("Manual Threshold",self.__manthresh) #box 3 manthresh
gd0.addChoice("Threshol Method : ",automethods,self.__thresMethod)
gd0.addMessage("-------------------------------------------")
#gd0.addCheckbox("Symmetry Around 0-180",self.__optionAngle)
#gd0.addMessage("-------------------------------------------")
#gd0.addCheckbox("Save cell files", self.__optionSave)
#gd0.addMessage("-------------------------------------------")
gd0.addCheckbox("Track new cells", self.__optionNewCells) #box 4 newcells
gd0.addMessage("-------------------------------------------")
gd0.addCheckbox("Generate time list with follow time lapse interval ?", self.__optionTimelapse) #box 5 timelapse
gd0.addNumericField("Estimated time lapse : ",self.__timelapse,self.__nbdigits,6,"seconds")
#gd0.hideCancelButton()
gd0.showDialog()
if gd0.wasCanceled() : return False
#chosenstack=gd0.getNextChoice()
#self.__img=WindowManager.getImage(chosenstack)
self.__subback=gd0.getNextBoolean() #box 1 subback
self.__radius=gd0.getNextNumber()
self.__runmacro=gd0.getNextBoolean() #box 2 runmacro
for i in range(10) : self.__distparam[i]=gd0.getNextNumber()
#self.__distmethod=gd0.getNextChoice()
self.__manthresh=gd0.getNextBoolean() #box 3 manthresh
self.__thresMethod=gd0.getNextChoice()
#self.__optionAngle=gd0.getNextBoolean()
#self.__optionSave=gd0.getNextBoolean()
self.__optionNewCells=gd0.getNextBoolean() #box 4 newcells
self.__optionTimelapse=gd0.getNextBoolean() #box 5 timelapse
self.__timelapse=int(gd0.getNextNumber())
# -------- start end batch mode --------- #
if self.__optionTimelapse :
self.__dictTimeStack[imgName]=range(0,image.getImageStackSize()*self.__timelapse, self.__timelapse)
if not self.__optionTimelapse and self.__source=="image" :
self.__dictTimeStack[imgName]=range(0,image.getImageStackSize())
#if option_import==True :
# temparray=
#else : temparray=self.__calRois("image1", 1)
#imp=self.__dictImages["image1"]
if self.__manthresh :
ip=image.getProcessor()
self.__maxthr=ip.getMaxThreshold()
self.__minthr=ip.getMinThreshold()
temparray=self.__calRois(image, 1)
self.__rr=RangeRois(temparray, image)
if (not self.__batch) :
image.show()
self.__params=self.__rr.showSettingsDialog().values()
if self.__batch : image.hide()
return True
def showSettingsDialog(self):
if self.__image.getOverlay() is not None : self.__image.getOverlay().clear()
rm = RoiManager.getInstance()
if (rm==None): rm = RoiManager()
#rm.runCommand("Deselect")
#for i in range(rm.getCount()) :
# rm.select(i)
# rm.runCommand("Set Color", "0000FF", 2)
IJ.resetThreshold(self.__image)
rm.runCommand("Show All")
self.__ranges.clear()
#areas, means, majors, minors=[],[],[],[]
#for roi in self.__roisArray:
# m=Morph(self.__image, roi)
# areas.append(m.Area)
# means.append(m.Mean)
# majors.append(m.Major)
# minors.append(m.Minor)
#maxarea=max(areas)*1000
#maxint=max(means)*10
#maxline=max(majors)*100
#maxminline=max(minors)*100
#minline=min(minors)
#namemeasures=["Area", "Mean", "Angle", "Major", "Minor", "Solidity", "AR", "Round", "Circ"]
#maxmeasures=[maxarea, maxint, 180*10, maxline, maxminline, 1*1000, (maxline/minline), 1*1000, 1*1000]
#set1000=Set(["Solidity", "Round", "Circ"])
#set10=Set(["Angle"])
def buttonPressed(event):
temprois=self.getIncludeRois()
for roi in temprois:
m=Morph(self.__image, roi)
IJ.log("----------------------------------")
IJ.log(roi.getName())
for r in self.__ranges.values():
IJ.log(r[0]+" min= "+str(r[1])+" < val="+str(m.__getattribute__(r[0]))+" < max= "+str(r[2]))
IJ.run(self.__image, "Remove Overlay", "")
o=Overlay()
for roi in temprois:
o.addElement(roi)
self.__image.killRoi()
self.__image.setOverlay(o)
self.__image.updateAndDraw()
def updatepressed(event):
self.__image=IJ.getImage()
rm = RoiManager.getInstance()
if (rm==None): rm = RoiManager()
rm.runCommand("reset")
self.__image.killRoi()
IJ.run("Threshold...")
IJ.setAutoThreshold(self.__image, "MaxEntropy")
rt=ResultsTable()
pa=ParticleAnalyzer(ParticleAnalyzer.ADD_TO_MANAGER+ParticleAnalyzer.CLEAR_WORKSHEET , Measurements.AREA+Measurements.ELLIPSE+Measurements.MEAN, rt, 0.00, 10000.00, 0.00, 1.00)
pa.analyze(self.__image)
self.__roisArray=[]
self.__roisArray=rm.getRoisAsArray()
#for i in range(rm.getCount()) :
# rm.select(i)
# rm.runCommand("Set Color", "0000FF", 2)
IJ.resetThreshold(self.__image)
rt.show("tempRT")
areas=rt.getColumn(ResultsTable.AREA)
means=rt.getColumn(ResultsTable.MEAN)
majors=rt.getColumn(ResultsTable.MAJOR)
minors=rt.getColumn(ResultsTable.MINOR)
#print 0
if self.__slidersDict["Area_max"].getMaximum() < int(max(areas)+1):
# print 1
self.__slidersDict["Area_max"].setMaximum(int(max(areas))+1)
if self.__slidersDict["Area_min"].getMaximum() < int(max(areas)+1):
# print 2
self.__slidersDict["Area_min"].setMaximum(int(max(areas))+1)
if self.__slidersDict["Mean_max"].getMaximum() < int(max(means)+1):
# print 3
self.__slidersDict["Mean_max"].setMaximum(int(max(means))+1)
if self.__slidersDict["Mean_min"].getMaximum() < int(max(means)+1):
# print 4
self.__slidersDict["Mean_min"].setMaximum(int(max(means))+1)
if self.__slidersDict["Major_max"].getMaximum() < int(max(majors)):
# print 5
self.__slidersDict["Major_max"].setMaximum(int(max(majors))+1)
if self.__slidersDict["Major_min"].getMaximum() < int(max(majors)+1):
# print 6
self.__slidersDict["Major_min"].setMaximum(int(max(majors))+1)
if self.__slidersDict["Minor_max"].getMaximum() < int(max(minors)+1):
# print 7
self.__slidersDict["Minor_max"].setMaximum(int(max(minors))+1)
if self.__slidersDict["Minor_min"].getMaximum() < int(max(minors)+1):
# print 8
self.__slidersDict["Minor_min"].setMaximum(int(max(minors))+1)
if self.__slidersDict["AR_max"].getMaximum() < int((max(majors)+1)/min(minors)+1):
# print 9
self.__slidersDict["AR_max"].setMaximum(int((max(majors)+1)/(min(minors))))
if self.__slidersDict["AR_min"].getMaximum() < int((max(majors)+1)/min(minors)):
# print 10
self.__slidersDict["AR_min"].setMaximum(int((max(majors)+1)/(min(minors))))
#print 11
for sb in self.__slidersDict.values():
sb.repaint()
#rm.runCommand("reset")
#temprois=self.getIncludeRois()
#IJ.run(self.__image, "Remove Overlay", "")
#o=Overlay()
#for roi in temprois:
# o.addElement(roi)
#self.__image.killRoi()
#self.__image.setOverlay(o)
self.__image.updateAndDraw()
def resetpressed(event):
self.__ranges.clear()
self.__image=IJ.getImage()
rm = RoiManager.getInstance()
if (rm==None): rm = RoiManager()
rm.runCommand("reset")
self.__image.killRoi()
IJ.setAutoThreshold(self.__image, "MaxEntropy")
rt=ResultsTable()
pa=ParticleAnalyzer(ParticleAnalyzer.ADD_TO_MANAGER+ParticleAnalyzer.CLEAR_WORKSHEET , Measurements.AREA+Measurements.ELLIPSE+Measurements.MEAN, rt, 0.00, 10000.00, 0.00, 1.00)
pa.analyze(self.__image)
self.__roisArray=[]
self.__roisArray=rm.getRoisAsArray()
#rm.runCommand("Show All")
#rm.runCommand("Select All")
#rm.runCommand("Set Color", "blue")
IJ.resetThreshold(self.__image)
keys=self.__slidersDict.keys()
for k in keys:
if k.endswith("min"):
self.__slidersDict[k].setValue(0)
self.__slidersDict[k].repaint()
else:
self.__slidersDict[k].setValue(self.__slidersDict[k].getMaximum())
self.__slidersDict[k].repaint()
def valueChanged(event):
name=event.getSource().getName()
names=name.split("_")
factor=1
if names[0] in self.__set1000: factor=0.001
if names[0] in self.__set10:factor=0.1
value=event.getSource().getValue()*factor
if names[1]=="min":
self.__ranges[names[0]]=(names[0], value, self.__slidersDict[names[0]+"_max"].getValue()*factor, self.__boxesDict[names[0]].getState())
#self.__ranges[names[0]]=(names[0], value, self.__slidersDict[names[0]+"_max"].getValue()*factor)
else: self.__ranges[names[0]]=(names[0], self.__slidersDict[names[0]+"_min"].getValue()*factor, value, self.__boxesDict[names[0]].getState())
#self.__ranges[names[0]]=(names[0], self.__slidersDict[names[0]+"_min"].getValue()*factor, value)
temprois=self.getIncludeRois()
IJ.run(self.__image, "Remove Overlay", "")
o=Overlay()
for roi in temprois:
o.addElement(roi)
self.__image.killRoi()
self.__image.setOverlay(o)
self.__image.updateAndDraw()
def selectAll(event):
name=event.getSource().getLabel()
names=name.split("_")
factor=1
if names[0] in self.__set1000: factor=0.001
if names[0] in self.__set10:factor=0.1
name=event.getSource().getLabel()
names=name.split("_")
value=event.getSource().getState()
self.__ranges[names[0]]=(names[0], self.__slidersDict[names[0]+"_min"].getValue()*factor, self.__slidersDict[names[0]+"_max"].getValue()*factor, value)
gd0=NonBlockingGenericDialog("settings")
gd0.setResizable(True)
gd0.setFont(Font("Courrier", 1, 8))
count=0
self.__slidersDict={}
self.__boxesDict={}
self.__boxesDict.clear()
self.__slidersDict.clear()
for i in range(len(self.__namemeasures)):
gd0.setInsets(-10,0,0)
gd0.addSlider("Min"+self.__namemeasures[i], 0, self.__maxmeasures[i], 0)
gd0.getSliders().get(count).adjustmentValueChanged = valueChanged
gd0.getSliders().get(count).setName(self.__namemeasures[i]+"_min")
self.__slidersDict[self.__namemeasures[i]+"_min"]=gd0.getSliders().get(count)
gd0.addSlider("Max"+self.__namemeasures[i], 0, self.__maxmeasures[i], self.__maxmeasures[i])
gd0.getSliders().get(count+1).adjustmentValueChanged = valueChanged
gd0.getSliders().get(count+1).setName(self.__namemeasures[i]+"_max")
self.__slidersDict[self.__namemeasures[i]+"_max"]=gd0.getSliders().get(count+1)
gd0.addCheckbox("all", True)
gd0.getCheckboxes().get(i).itemStateChanged = selectAll
gd0.getCheckboxes().get(i).setLabel(self.__namemeasures[i]+"_all")
self.__boxesDict[self.__namemeasures[i]]=gd0.getCheckboxes().get(i)
gd0.setInsets(-10,0,0)
#gd0.addMessage("...........................................................................")
count=count+2
panel0=Panel()
#trybutton=Button("Try")
#trybutton.setActionCommand("DrawOverlay")
#trybutton.actionPerformed = buttonPressed
#updatebutton=Button("Update")
#updatebutton.setActionCommand("Update")
#updatebutton.actionPerformed = updatepressed
#resetbutton=Button("Reset")
#resetbutton.setActionCommand("Reset")
#resetbutton.actionPerformed = resetpressed
#panel0.add(trybutton)
#panel0.add(updatebutton)
#panel0.add(resetbutton)
#gd0.addPanel(panel0)
gd0.setResizable(True)
gd0.showDialog()
#self.__image.setSlice(self.__firstslice)
#self.__image.updateAndDraw()
if gd0.wasOKed():
#for key in self.__ranges.keys(): IJ.log("Measure : "+str(self.__ranges[key][0])+" min = "+str(self.__ranges[key][1])+" max = "+str(self.__ranges[key][2]))
return self.__ranges
def __settings(self, imgName) :
"""
Lets the user to choose different measures to make, and displays it following the choice of the user.
"""
try : dico=self.__dictCells[imgName]
except KeyError :
try : dico=self.__dictCells[imgName[:-4]]
except KeyError : return False
else : imgName=imgName[:-4]
dico=self.__dictCells[imgName]
for cellname in dico.keys() :
self.__dictMeasures[dico[cellname]]={}
# Represents the datas on a diagram
def diagrambuttonPressed(event) :
IJ.showMessage("Push 'Auto' button each time you want to see the diagram")
x1=10
y1=20
x2=100
y2=50
x3=60
y3=30
xr=10
yr=20
wr=20
hr=20
rect=Rectangle(xr,yr,wr,hr)
#img=IJ.getImage()
#nbslices=self.__img.getImageStackSize()
nbslices=self.__maxLife
IJ.run("Hyperstack...", "title=Diagram type=32-bit display=Color width="+str(x2+(nbslices+1)*x3)+" height="+str(y2+y3*len(dico))+" channels=1 slices="+str(len(self.__measures))+" frames=1")
im=IJ.getImage()
ip=im.getProcessor()
for i in range(len(self.__measures)) :
indiceligne=0
maxvalue=0
minvalue=1000000
im.setPosition(1,i+1,1)
for cellname in self.__listcellname :
indiceligne+=1
for indicecolonne in range(1,nbslices+1):
rect.setLocation(x2+indicecolonne*x3+int(x3/6),(y1+indiceligne*y3-int(y3/2)))
# we create at the first iteration a dictionary with the rectangles (for a future use)
if i==0 :
self.__gridrectangle[(indiceligne,indicecolonne)]=Rectangle(rect)
im.setRoi(rect)
ipr=im.getProcessor()
# we find the min and max values of the datas for a measure given.
if self.__dictMeasures[dico[cellname]][self.__measures[i]][indicecolonne-1]>maxvalue :
maxvalue=self.__dictMeasures[dico[cellname]][self.__measures[i]][indicecolonne-1]
if self.__dictMeasures[dico[cellname]][self.__measures[i]][indicecolonne-1]<minvalue :
minvalue=self.__dictMeasures[dico[cellname]][self.__measures[i]][indicecolonne-1]
# we fill the rectangle with the value of the measure
ipr.setValue(self.__dictMeasures[dico[cellname]][self.__measures[i]][indicecolonne-1])
ipr.fill()
# we write the names and the n of slices on the image with the maxvalue.
ip.setValue(maxvalue)
ip.moveTo(x1,y1)
ip.drawString(self.__measures[i])
for j in range(1,nbslices+1) :
ip.moveTo(x2+j*x3,y1)
ip.drawString("Slice "+str(j))
j=0
for cellname in self.__listcellname :
ip.moveTo(x1,y2+j*y3)
ip.drawString(cellname)
j+=1
im.killRoi()
im=IJ.run(im,"Fire","")
IJ.run("Brightness/Contrast...", "")
#im.setMinAndMax(minvalue,maxvalue)
#im.updateImage()
#we add a mouse listener in order to be able to show the roi corresponding to a rectangle when the user clicks on it.
listener = ML()
listener.name=imgName
for imp in map(WindowManager.getImage, WindowManager.getIDList()):
if imp.getTitle().startswith("Diagram") :
win = imp.getWindow()
if win is None:
continue
win.getCanvas().addMouseListener(listener)
# Represents the datas on a series of graphs.
def graphbuttonPressed(event) :
colors=[]
#img=IJ.getImage()
#nbslices=self.__img.getImageStackSize()
nbslices=self.__maxLife
acell=dico.values()[0]
if self.__useTime :
x = acell.getListTimes()
namex="Time sec"
else :
x = range(1,nbslices+1)
namex = "Frame"
maxx=max(x)
minx=min(x)
#x=[i for i in range(1,nbslices+1)]
font=Font("new", Font.BOLD, 14)
tempname = WindowManager.getUniqueName(self.__img.getShortTitle())
for i in range(len(self.__measures)) :
#print "i", i, self.__measures[i]
yarray=[]
flag=True
miny=10000000000
maxy=-1000000000
#we find the min and max values in order to set the scale.
for cellname in self.__listcellname :
colors.append(dico[cellname].getColor())
yarray.append(self.__dictMeasures[dico[cellname]][self.__measures[i]])
#for meas in self.__dictMeasures[dico[cellname]][self.__measures[i]] :
for meas in yarray[-1] :
if (meas<miny) and (Double.isNaN(meas)==False) :
miny=meas
if max(yarray[-1])>maxy : maxy=max(yarray[-1])
miny-=0.1*miny
maxy+=0.1*maxy
count=0.05
for j in range(len(yarray)) :
if j==0 :
if len(self.__measures)>1 :
plot=Plot("Plots-"+str(self.__measures[i]),namex,str(self.__measures[i]),x,yarray[j])
else :
plot=Plot("Plot-"+tempname,namex,str(self.__measures[i]),x,yarray[j])
plot.setLimits(minx,maxx,miny,maxy)
plot.setColor(colors[j])
plot.changeFont(font)
plot.addLabel(0.05, count, self.__listcellname[j])
else :
plot.setColor(colors[j])
plot.setLineWidth(3)
plot.addPoints(x,yarray[j],Plot.LINE)
plot.addLabel(0.05, count, self.__listcellname[j])
count+=0.05
plot.setColor(colors[0])
plot.show()
if len(self.__measures)>1 :
IJ.run("Images to Stack", "name="+tempname+"-plots title=Plots- use")
#def histbuttonPressed(event) :
#
# pass
# Represents the values in a tab.
def tabbuttonPressed(event) :
tab="\t"
headings=[]
measures=[]
#img=IJ.getImage()
#for i in range(self.__img.getImageStackSize()+1) :
for i in range(self.__maxLife+1) :
headings.append("Slice "+str(i))
headings[0]=WindowManager.getUniqueName(self.__img.getShortTitle())
#for m in self.__measurescompl :
for m in self.__dictMeasures[dico[self.__listcellname[0]]].keys() :
headstring=""
for head in headings:
headstring+=head+tab
tw=TextWindow(self.__listfiles[0]+"-"+m,headstring,"",800,600)
tp=tw.getTextPanel()
#for cellname in dico.keys() :
for cellname in self.__listcellname :
line=[]
line=[str(meas)+tab for meas in self.__dictMeasures[dico[cellname]][m]]
line.insert(0, cellname+tab)
linestr=""
for s in line: linestr+=s
tp.appendLine(linestr)
tp.updateDisplay()
if self.__measuresparambool_global[0] :
tw=TextWindow("Latency","cell\tLatency", "",800,600)
tp=tw.getTextPanel()
for i in range(len(self.__listcellname)) :
#if latencies[i][0] : line=self.__listcellname[i]+"\t"+str(latencies[i][1])
#else : line=self.__listcellname[i]+"\t"+"NaN"
line=self.__listcellname[i]+"\t"+str(latencies[i][1])
tp.appendLine(line)
tp.updateDisplay()
def helpbuttonPressed(event) :
IJ.showMessage("TO DO")
def newsetPressed(event) :
gd0.dispose()
self.__settings()
def alignbuttonPressed(event) :
IJ.showMessage("TO DO")
def mergebuttonPressed(event) :
IJ.showMessage("TO DO")
def saveResults() :
#if len(self.__listcellname) == 0 :
nbslices=self.__maxLife
acell=dico.values()[0]
if self.__useTime :
x = acell.getListTimes()
namex="Time_sec"
else :
x = range(1,nbslices+1)
namex = "Frame"
if not path.exists(self.__rootpath+"Results"+os.path.sep) : os.makedirs(self.__rootpath+os.path.sep+"Results"+os.path.sep, mode=0777)
tab="\t"
nl="\n"
measures=[]
headstring=""
#if self.__savemode : mode = "a"
#else : mode ="w"
mode = "a"
#for i in range(1, self.__maxLife+1) :headstring += "Slice_"+str(i)+tab
for i in range(self.__maxLife) :headstring += str(x[i])+tab
#for m in self.__measurescompl :
for m in self.__dictMeasures[dico[self.__listcellname[0]]].keys() :
f = open(self.__rootpath+"Results"+os.path.sep+m+".txt", mode)
#f.write(m+nl)
f.write(imgName+"-"+self.__time+"-"+m+"-"+namex+tab+headstring+nl)
if len(self.__listcellname) == 0 : f.write("no cells")
else :
for cellname in self.__listcellname :
linestr=cellname+tab
for measure in self.__dictMeasures[dico[cellname]][m] :
#print m, cellname, measure
linestr += str(measure)+tab
linestr+=nl
f.write(linestr)
f.close()
if self.__measuresparambool_global[0] :
m = "Latency"
f = open(self.__rootpath+"Results"+os.path.sep+m+".txt", mode)
f.write(imgName+"-"+self.__time+"-"+m+nl)
for i in range(len(self.__listcellname)) :
#if latencies[i][0] : line=self.__listcellname[i]+"\t"+str(latencies[i][1])
#else : line=self.__listcellname[i]+"\t"+"NaN"
line=self.__listcellname[i]+"\t"+str(latencies[i][1])
line+=nl
f.write(line)
f.close()
#
# ----------- main measures dialog -------------------------
#
# Allows the user to choose the measures to make, etc..
measureslabels_indep=["MaxFeret","MinFeret","AngleFeret","XFeret","YFeret","Area","Angle","Major","Minor","Solidity","AR","Round","Circ","XC","YC","FerCoord","FerAxis","MidAxis"]
measureslabels_dep=["Mean","StdDev","IntDen","Kurt","Skew","XM","YM","Fprofil","MidProfil","NFoci","ListFoci","ListAreaFoci","ListPeaksFoci","ListMeanFoci"]
measureslabels_global=["Latency", "velocity", "cumulatedDist"]
measureslabels_dep_tabonly=set(["MidAxis","FerCoord","FerAxis","Fprofil","MidProfil","ListFoci","ListAreaFoci","ListPeaksFoci","ListMeanFoci"])
ens_measures_global=set(measureslabels_global)
ens_measures_indep=set(measureslabels_indep)
ens_measures_dep=set(measureslabels_dep)
measureslabels=[]
for label in measureslabels_indep :
measureslabels.append(label)
for label in measureslabels_dep :
measureslabels.append(label)
#self.__defaultmeasures=[False for i in range(len(measureslabels))]
#self.__defaultmeasures_global=[False for i in range(len(measureslabels_global))]
gdmeasures=NonBlockingGenericDialog("MeasuresChoice")
gdmeasures.setFont(Font("Courrier", 1, 10))
gdmeasures.addMessage("******* TIME SETTINGS *******")
gdmeasures.addCheckbox("Only starting at begining :", self.__onlystart) # 1 only start
gdmeasures.addNumericField("Minimal Lifetime : ",self.__minLife,0)
gdmeasures.addNumericField("Maximal Lifetime : ",self.__maxLife,0)
#gdmeasures.addNumericField("Maximal Lifetime : ",self.__img.getImageStackSize(),0)
gdmeasures.addCheckbox("x axis in seconds", self.__useTime) # 2 use time
gdmeasures.addMessage("")
gdmeasures.addMessage("")
gdmeasures.addMessage("Choose the measures to make on the cells : ")
gdmeasures.addMessage("******* TIME MEASURES *******")
gdmeasures.addCheckboxGroup(4,8,measureslabels,self.__defaultmeasures)
gdmeasures.addMessage("")
gdmeasures.addMessage("******* GLOBAL MEASURES *******")
gdmeasures.addMessage("PLEASE : If you have selected movement parameters you MUST to select XC and YC !")
gdmeasures.addCheckboxGroup(3,1,measureslabels_global,self.__defaultmeasures_global)
gdmeasures.addNumericField("Noise value for maxima finder: ",self.__noise,0)
gdmeasures.addMessage("")
gdmeasures.addMessage("******* OPTIONS *******")
gdmeasures.addCheckbox("Select the cells in next dialog ?", self.__onlyselect) # 3 only select
gdmeasures.addCheckbox("Save results to text files ?", self.__savetables) # 4 save files
#gdmeasures.addCheckbox("Append mode ?", self.__savemode) # 5 append mode
gdmeasures.addCheckbox("Analyse in batch mode ?", self.__batchanalyse) # 6 analysis batch mode
gdmeasures.addCheckbox("Update overlay ?", self.__updateoverlay) # 7 update overlay
gdmeasures.addMessage("")
gdmeasures.addMessage("")
help_panel=Panel()
helpbutton=Button("HELP")
helpbutton.actionPerformed = helpbuttonPressed
help_panel.add(helpbutton)
gdmeasures.addPanel(help_panel)
gdmeasures.hideCancelButton()
if not self.__batchanalyse :
gdmeasures.showDialog()
self.__onlystart=gdmeasures.getNextBoolean() # 1 only start
self.__minLife=gdmeasures.getNextNumber()
self.__maxLife=gdmeasures.getNextNumber()
self.__useTime=gdmeasures.getNextBoolean() # 2 use time
self.__measuresparambool=[]
self.__measuresparambool_global=[]
for i in range(len(measureslabels)) :
self.__measuresparambool.append(gdmeasures.getNextBoolean())
self.__defaultmeasures[i]=self.__measuresparambool[-1]
for i in range(len(measureslabels_global)) :
self.__measuresparambool_global.append(gdmeasures.getNextBoolean())
self.__defaultmeasures_global[i] = self.__measuresparambool_global[i]
self.__noise=gdmeasures.getNextNumber()
self.__onlyselect=gdmeasures.getNextBoolean() # 3 only select
self.__savetables = gdmeasures.getNextBoolean() # 4 save files
#self.__savemode = gdmeasures.getNextBoolean() # 5 append mode
self.__batchanalyse = gdmeasures.getNextBoolean() # 6 analyse mode
self.__updateoverlay = gdmeasures.getNextBoolean() # 7 update overlay
# we update a list of all cells that have a lifetime corresponding to what the user chose.
if len (self.__allcells) == 0 :
for cellname in dico.keys() :
if dico[cellname].getLifeTime()>=self.__minLife : #and dico[cellname].getLifeTime()<=self.__maxLife :
if self.__onlystart :
if dico[cellname].getSlideInit()<2 : self.__allcells.append(cellname)
else : self.__allcells.append(cellname)
if self.__noise == 0 : self.__noise = None
if self.__batchanalyse : self.__onlyselect = False
if self.__onlyselect :
try :
self.__gw
except AttributeError :
if not path.exists(self.__pathdir+"Selected-Cells"+os.path.sep) : os.makedirs(self.__pathdir+os.path.sep+"Selected-Cells"+os.path.sep, mode=0777)
self.__gw = CellsSelection()
self.__gw.setTitle(imgName)
self.__gw.run(self.__allcells, self.__pathdir+"ROIs"+os.path.sep)
self.__gw.show()
self.__gw.setSelected(self.__allcells)
while not self.__gw.oked and self.__gw.isShowing() :
self.__gw.setLabel("Validate selection with OK !!")
self.__listcellname = list(self.__gw.getSelected())
self.__gw.resetok()
self.__gw.setLabel("...")
self.__gw.hide()
else :
if self.__gw.getTitle() == imgName :
self.__gw.show()
self.__gw.setSelected(self.__listcellname)
self.__listcellname[:]=[]
while not self.__gw.oked and self.__gw.isShowing() :
self.__gw.setLabel("Validate selection with OK !!")
self.__listcellname = list(self.__gw.getSelected())
self.__gw.resetok()
self.__gw.setLabel("...")
self.__gw.hide()
else :
self.__gw.dispose()
if not path.exists(self.__pathdir+"Selected-Cells"+os.path.sep) : os.makedirs(self.__pathdir+os.path.sep+"Selected-Cells"+os.path.sep, mode=0777)
self.__gw = CellsSelection()
self.__gw.setTitle(imgName)
self.__gw.run(self.__allcells, self.__pathdir+"ROIs"+os.path.sep)
self.__gw.show()
self.__gw.setSelected(self.__allcells)
self.__listcellname[:]=[]
while not self.__gw.oked and self.__gw.isShowing() :
self.__gw.setLabel("Validate selection with OK !!")
self.__listcellname = list(self.__gw.getSelected())
self.__gw.resetok()
self.__gw.setLabel("...")
self.__gw.hide()
filestodelet=glob.glob(self.__pathdir+"Selected-Cells"+os.path.sep+"*.cell")
for f in filestodelet : os.remove(f)
for cell in self.__listcellname :
sourcestr = self.__pathdir+"Cells"+os.path.sep+cell+".cell"
deststr = self.__pathdir+"Selected-Cells"+os.path.sep+cell+".cell"
#os.system("copy "+sourcestr+", "+deststr)
#shutil.copy(self.__pathdir+"Cells"+os.path.sep+cell+".cell",self.__pathdir+"Selected-Cells"+os.path.sep+cell+".cell")
shutil.copy(sourcestr,deststr)
self.__dictNcells[imgName] = len(self.__listcellname)
else :
self.__listcellname = list(self.__allcells)
self.__dictNcells[imgName] = len(self.__listcellname)
if len(self.__listcellname) == 0 :
self.__dictNcells[imgName] = 0
return False
self.__img.hide()
# we make the measures.
for i in range(len(measureslabels)) :
IJ.showProgress(i, len(measureslabels))
if self.__measuresparambool[i]==True :
self.__measurescompl.append(measureslabels[i])
if (measureslabels[i] in measureslabels_dep_tabonly)==False :
self.__measures.append(measureslabels[i])
if (i<18) and (measureslabels[i] in ens_measures_indep) :
self.__measureAll(self.__img,measureslabels[i],False, imgName, self.__noise)
ens_measures_indep.discard(measureslabels[i])
if i>=18 :
self.__measureAll(self.__img,measureslabels[i],True, imgName, self.__noise)
if self.__measuresparambool_global[0] : # calculate latency
latencies=[]
for i in range(len(self.__listcellname)) :
IJ.showProgress(i, len(self.__listcellname))
latencies.append(self.latencie(self.__listcellname[i], self.__img, imgName, self.__useTime))
if self.__measuresparambool_global[1] : # calculate velocity
self.__measures.append("velocity")
#velocities=[]
for i in range(len(self.__listcellname)) :
IJ.showProgress(i, len(self.__listcellname))
self.__measureVelocity(self.__img,imgName)
if self.__measuresparambool_global[2] : # calculate cumulatedDistance
self.__measures.append("cumulatedDist")
#velocities=[]
for i in range(len(self.__listcellname)) :
IJ.showProgress(i, len(self.__listcellname))
self.__measurecumulDist(self.__img,imgName)
self.__img.show()
self.__img.getProcessor().resetThreshold()
if self.__updateoverlay :
if self.__img.getOverlay() is not None : self.__img.getOverlay().clear()
outputrois=[]
cellnames=[]
self.__img.hide()
for cellname in self.__listcellname :
for r in dico[cellname].getListRoi():
if isinstance(r,Roi) :
pos=r.getPosition()
#print "MC overlay", cellname, r.getName(), pos
#r.setPosition(0)
#overlay.add(r)
outputrois.append(r)
if "cell" in r.getName() : cellnames.append(r.getName())
else : cellnames.append(str(pos)+"-"+cellname)
#print cellnames[-1]
rm = RoiManager.getInstance()
if (rm==None): rm = RoiManager()
rm.show()
self.__img.show()
IJ.selectWindow(self.__img.getTitle())
rm.runCommand("reset")
for i in range(len(outputrois)) :
outputrois[i].setName(cellnames[i])
rm.addRoi(outputrois[i])
rm.select(rm.getCount()-1)
rm.runCommand("Rename", cellnames[i])
IJ.run("Show Overlay", "")
rm.runCommand("UseNames", "true")
rm.runCommand("Associate", "true")
IJ.run(self.__img, "Labels...", "color=red font=12 show use")
IJ.run(self.__img, "From ROI Manager", "")
rm.runCommand("Show None")
rm.runCommand("Show All")
# ----------- batch analyse ------------------------
if self.__batchanalyse :
if self.__savetables : saveResults()
self.__dictMeasures.clear()
self.__allcells[:]=[]
self.__measurescompl[:]=[]
self.__measures[:]=[]
return False
# ---------- display methodes dialog ----------------
# Allows the user to choose how to see the results of the measures.
gd0=NonBlockingGenericDialog("Display")
gd0.addMessage("How do you want to see the results ?")
panel0=Panel()
diagrambutton=Button("Diagram")
diagrambutton.actionPerformed = diagrambuttonPressed
panel0.add(diagrambutton)
graphbutton=Button("Graph")
graphbutton.actionPerformed = graphbuttonPressed
panel0.add(graphbutton)
tabbutton=Button("Tab")
tabbutton.actionPerformed = tabbuttonPressed
panel0.add(tabbutton)
gd0.addPanel(panel0)
gd0.addCheckbox("Analyse next stack ?", self.__nextstack)
gd0.hideCancelButton()
gd0.showDialog()
self.__nextstack = gd0.getNextBoolean()
# ---------- save tables ---------------------------
if self.__savetables : saveResults()
# --------- re-start analysis -------------------
self.__dictMeasures.clear()
#self.__listcellname[:]=[]
self.__allcells[:]=[]
self.__measurescompl[:]=[]
self.__measures[:]=[]
if self.__nextstack : return False
else : return True
