''' HYPERSTACK GENERATOR in Fiji Read all tif images from an experiment inFolder that contains tif images for the different wells, channel, slices and timepoints The script will automatically reads the field from the Filename (using index in the string - FOLLOWING ACQUIFER-IM04 NAMING CONVENTION ex: -A001--...) to generate the well's stack Images are supposed to be untouched (same sizes, original names). TO DO : - Make plate montage for each time point and/or Z-slice with slider that update the full plate display ''' #@ PrefService prefs #@ ImageJ imagej import os, ij from ij import IJ, VirtualStack from ij.plugin import HyperStackConverter,ZProjector from ij.WindowManager import getCurrentImage, getCurrentWindow from fiji.util.gui import GenericDialogPlus from java.awt.event import ActionListener from loci.formats import ChannelSeparator # builtin in Fiji def dimensionsOf(path): '''Helper function: get dimension of an image without opening it by reading the tif header''' fr = None try: fr = ChannelSeparator() fr.setGroupFiles(False) fr.setId(path) return fr.getSizeX(), fr.getSizeY() except: # Print the error, if any print sys.exc_info() finally: fr.close() class ButtonClic(ActionListener): # extends action listener '''Class which unique task is to handle button clics''' def actionPerformed(this, event): '''Called when any of the button is called''' global Win Source = event.getSource() if Source.label == "Select all": for checkbox in Win.getCheckboxes()[-96:]: checkbox.setState(True) elif Source.label == "Select none": for checkbox in Win.getCheckboxes()[-96:]: checkbox.setState(False) # Recover input from persistence Path0 = prefs.get("ImageDirectory","MyPath") Channel0 = prefs.get("Channels","") Slice0 = prefs.get("Slices","") Time0 = prefs.get("Times","") subPos0 = prefs.get("subPos","") ShowStack0 = prefs.getInt("ShowStack",True) SaveStack0 = prefs.getInt("SaveStack",False) doProj0 = prefs.getInt("doProj", False) ProjMethod0 = prefs.get("ProjMethod","max") ShowProj0 = prefs.getInt("ShowProj",False) SaveProj0 = prefs.getInt("SaveProj",False) BoolWells0 = map(eval, prefs.getList(imagej.class, "BoolWells") ) # Input GUI window Win = GenericDialogPlus("Hyperstack generator") # Title of the window # Add Acquifer Logo image LogoPath = os.path.join(IJ.getDirectory("ImageJ"), "lib", "Acquifer_Logo.png") Logo = IJ.openImage(LogoPath) Win.addImage(Logo) Win.addDirectoryField("Image directory", Path0) Win.addStringField("Use specific channel(s) separated by , (from 1 to 6) :", Channel0) Win.addStringField("Use specific Z-slice(s):", Slice0) Win.addStringField("Use specific timepoint(s) separated by ',' :", Time0) Win.addStringField("Use specific subposition(s) separated by ',' :", subPos0) Win.addCheckbox("Show stack ?", ShowStack0) Win.addCheckbox("Save stack ?", SaveStack0) Win.addCheckbox("Make Z-projection ?",doProj0) Win.addToSameRow() Win.addChoice("Method",['avg','sd','max','min','sum','median'], ProjMethod0) Win.addToSameRow() Win.addCheckbox("Show projection ?",ShowProj0) Win.addToSameRow() Win.addCheckbox("Save projection ?",SaveProj0) # Generate tick box with plate layout to select well Wells = [] for letter in ['A','B','C','D','E','F','G','H']: for column in range(1,13): Wells.append(letter+'%(column)03d' %{"column":column}) # force max 3 digits and leading 0 BoolWells0 = [True]*96 if not BoolWells0 else BoolWells0 # 1st run peristence is empty hence we initialise with True Win.addCheckboxGroup(8,12,Wells, BoolWells0) # Add result from persistence here Win.addButton('Select all' , ButtonClic() ) # add an instance of our ButtonClic listener class to the button. Button clicked -> event -> call actionPerformed(event) Win.addButton('Select none', ButtonClic() ) Disclaimer = "https://doi.org/10.5281/zenodo.3368135" # Help button should point to the Zenodo page Win.addHelp(Disclaimer) Win.addMessage("This plugin is freely provided by ACQUIFER.") doiPath = os.path.join(IJ.getDirectory("ImageJ"), "lib", "BadgeDOI_Hyperstack.png") DOI=IJ.openImage(doiPath) Win.addImage(DOI) Win.showDialog() ## Recover input if (Win.wasOKed()): inFolder = Win.getNextString() Bool = [checkbox.getState() for checkbox in Win.getCheckboxes()] ChoiceChannel = Win.getNextString() ChoiceSlice = Win.getNextString() ChoiceTime = Win.getNextString() ChoiceSubPos = Win.getNextString() i=0 ShowStack = Bool[i] i+=1 SaveStack = Bool[i] i+=1 doProj = Bool[i] ProjMethod = Win.getNextChoice() i+=1 ShowProj = Bool[i] i+=1 SaveProj = Bool[i] i+=1 BoolWells = Bool[i:] Selection = {well:choice for well,choice in zip(Wells,BoolWells)} # create a dictionnary associating a well to a boolean . Chosen or not #print Selection #print len(Wells) # OK 96 # Save input into memory/persistence prefs.put("ImageDirectory",inFolder) prefs.put("Channels", ChoiceChannel) prefs.put("Slices", ChoiceSlice) prefs.put("Times", ChoiceTime) prefs.put("subPos", ChoiceSubPos) prefs.put("ShowStack", ShowStack) prefs.put("SaveStack", SaveStack) prefs.put("doProj", doProj) prefs.put("ProjMethod", ProjMethod) prefs.put("ShowProj", ShowProj) prefs.put("SaveProj", SaveProj) prefs.put(imagej.class, "BoolWells", map(str, BoolWells) ) # persitence for list works with string only (hence map str) # Stop execution if no well selected if BoolWells == [False]*96: IJ.error("No well selected") # Reformat input to list after the input has been saved in memory ChoiceChannel = map( int, ChoiceChannel.split(",") ) if ChoiceChannel else [] ChoiceTime = map( int, ChoiceTime.split(",") ) if ChoiceTime else [] ChoiceSlice = map( int, ChoiceSlice.split(",") ) if ChoiceSlice else [] ChoiceSubPos = map( int, ChoiceSubPos.split(",") ) if ChoiceSubPos else [] # Find image files for the given channel #inFolder = str(inFolder) # convert Filename object to string object setWell = set() # full list of well to know how many iteration for stacking setTime = set() setChannel = set() setSlice = set() setSubPos = set() listMain = [] # contains tuple with (Filename, Well, TimePoint, Channel, Z-Slice) for fname in os.listdir(inFolder): # extract metadata from image Filename if fname.endswith(".tif"): # first extract the well field well = fname[1:5] # if well is selected in the gui, then extract the other metadata if Selection[well]: # read True/False value from the dict Selection with Well:Choice try : # int conversion throw an error if the argument string is empty, hence the try subPos = int(fname[9:11]) time = int(fname[15:18]) channel = int(fname[22:23]) sliceIdx = int(fname[27:30]) except : IJ.error("Could not get experimental parameters from Filename. Check Filename pattern (IM04 convention)") #raise Exception("Could not get experimental parameters from Filename. Check Filename pattern (IM04 convention)") setWell.add(well) ## Discover CHANNEL from filename if ChoiceChannel==[]: # No precise channel specified: We add this particular channel to the list setChannel.add(channel) elif Channel in ChoiceChannel: # This particular channel was selected setChannel.add(channel) else: # This particular channel was not selected continue ## Discover TIME from filename if ChoiceTime==[]: # No precise time specified: We add this particular time to the list setTime.add(time) elif Time in ChoiceTime: # This particular timepoint was selected setTime.add(time) else: # This particular timepoint was not selected continue ## Discover Z-SLICE from filename if ChoiceSlice==[]: # No precise slice specified: We add this particular slice to the list setSlice.add(sliceIdx) elif Slice in ChoiceSlice: # This particular slice was selected setSlice.add(sliceIdx) else: # This particular slice was not selected continue ## Discover SUBPOSITION from filename if ChoiceSubPos==[]: # No precise subPosition specified: We add this particular subPosition to the list setSubPos.add(subPos) elif subPos in ChoiceSubPos: # This particular subPosition was selected setSubPos.add(subPos) else: # This particular subPosition was not selected continue # Append to main list only if it managed to pass the previous if (ie it did not come across a continue statement) listMain.append({"Filename":fname, "well":well, "subPos":subPos, "TimePoint":time, "Channel":channel, "Slice":sliceIdx}) else : # the well was not selected in the GUI, go for the next image Filename continue if len(listMain) < 1: IJ.error("No image files found in %s satisfying the channel/slice/time selection. Check if extension match and if Filenames match IM04 naming convention" % inFolder) #raise Exception("No image files found in %s satisfying the channel/slice/time selection. Check if extension match and if Filenames match IM04 naming convention" % inFolder) # Turn sets into ordered list listWell = sorted(setWell) listSubPos = sorted(setSubPos) listTime = sorted(setTime) listChannel = sorted(setChannel) listSlice = sorted(setSlice) # Verification print 'Well : ', listWell print 'Subpositions : ', listSubPos print 'Time : ', listTime print 'ChannelIdx : ', listChannel print 'Z-Slice : ' , listSlice listMain.sort(key = lambda dico:(dico["well"], dico["subPos"], dico["TimePoint"], dico["Slice"], -dico["Channel"]) ) # sort by Well, SubPositions, Time, Z-slice then Channel (- to have C06 ie BF first) since the hyperstack is created following the default "xyczt" order ''' for i in listMain : print i ''' ## Loop over wells to do stack and projection for well in listWell: # - TO DO: Add another level in listMain : one per well for subPos in listSubPos: # Gather images for a given well, and put them into a sublist (like a GroupBy) IJ.showStatus('Process well : '+well+'...') allSlices = [dico for dico in listMain if (dico["well"]==well and dico["subPos"]==subPos) ] # Sublist containing (fname1,Well, subPos ,Time1,ChannelX,Slice),(fname2,Well, subPos, Time2,ChannelX,Slice) for one given well ex: only A001 #print 'StackSize : ',len(SubList) # Get image dimensions of the first image in the list to initialise VStack width, height = dimensionsOf( os.path.join(inFolder, allSlices[0]['Filename']) ) # Initialise Virtual Stack for this well VStack = VirtualStack(width, height, None, inFolder) # Append slices in the VStack for dico in allSlices: Filename = dico["Filename"] VStack.addSlice(Filename) # conversion to ImageProcessor object to append to stack # Once we have finished appending slices, we reconvert back to an ImagePlus object to be able to show and save it ImpName = well + "_subPos" + str(subPos) ImpStack = ij.ImagePlus(ImpName, VStack) # well is the title of this hyperstack - Reminder : 1 hyperstack/well #print ImpStack #Stack.show() # Good ## Make a hyperstack out of the ImagePlus virtual stack if ImpStack.getStackSize()==1: HyperStack = ImpStack # issue when a single slice in the Hyperstack else: HyperStack = HyperStackConverter.toHyperStack(ImpStack, len(listChannel), len(listSlice), len(listTime),"xyczt","grayscale") # convert PROPERLY ORDERED Stack to Hyperstack ## Display resulting stack if ShowStack : HyperStack.show() ## Save resulting stack if SaveStack : outFolder = os.path.join(inFolder,'HyperStack') if not os.path.exists(outFolder): os.makedirs(outFolder) # create folder if it does not exist (for the first image to save basicly) outPath = os.path.join(outFolder,well+'.tif') IJ.save(HyperStack,outPath) ## PROJECTION if doProj : IJ.showStatus('Do projection') Projected = ZProjector.run(HyperStack, ProjMethod) # Display projection (automatic with the stack focuser) if ShowProj: Projected.show() # Save projection if SaveProj: outFolder = os.path.join(inFolder,'Projected') if not os.path.exists(outFolder): os.makedirs(outFolder) # create folder if it does not exist (for the first image to save basicly) outPath = os.path.join(outFolder,well+'.tif') IJ.save(Projected,outPath)