def start(self):
        
                ### some of this should go in preloop functions
        
                ###do queries
                sessiondata = apDatabase.getSessionDataFromSessionName(self.params['sessionname'])
                self.sessiondata = sessiondata
                tiltseriesdata = apDatabase.getTiltSeriesDataFromTiltNumAndSessionId(self.params['tiltseries'],sessiondata)
                tiltseriessettings= apTomo.getTomographySettings(sessiondata,tiltseriesdata)
                tiltdata=apTomo.getImageList([tiltseriesdata])
                description = self.params['description']
                apDisplay.printMsg("getting imagelist")
                print "ordering list"
                tilts,ordered_imagelist,ordered_mrc_files,refimg = apTomo.orderImageList(tiltdata)
                #tilts are tilt angles, ordered_imagelist are imagedata, ordered_mrc_files are paths to files, refimg is an int

                ###set up files
                seriesname=self.params['seriesname']
                print type(seriesname)
#               param_out=seriesname+'.param'

                ###insert protomo run params
                print "first insert"
                protomodata = apProTomo.insertProtomoParams(seriesname)

                print "second insert"
                alignrun = apTomo.insertTomoAlignmentRun(sessiondata,tiltseriessettings,None,protomodata,None,1,self.params['runname'],self.params['rundir'],self.params['description'])

                ###insert protomo alignment

                ###hack to get around need to parse protomo param file
                #should read imgref from tlt file
                refineparamdict={'alismp':None,'alibox_x':None,'alibox_y':None,'cormod':None,'imgref':None}
                ###
                self.params['goodcycle']=None
                if self.params['goodrange'] is None:
                        self.params['goodstart']=1
                        self.params['goodend']=len(tilts)
                alignerdata = apProTomo.insertAlignIteration(alignrun, protomodata, self.params, refineparamdict,ordered_imagelist[refimg])

                # read tlt file
                print "third insert"
                alignmentdict, geometrydict, seriesname = apProTomo.parseTilt(self.params['tltfile'])

                # insert geometry model
                modeldata = apProTomo.insertModel2(alignerdata, geometrydict)

                #insert image alignments
                for i,imagedata in enumerate(ordered_imagelist):
                        #Caution...assumes ordered_imagelist is in same order as tlt file
                        apProTomo.insertTiltAlignment(alignerdata,imagedata,i,alignmentdict[i+1],center=None)

                print "fourth insert"
                apTomo.insertTiltsInAlignRun(alignrun, tiltseriesdata,tiltseriessettings,True)
Beispiel #2
0
	def start(self):
		commit = self.params['commit']
		tiltdatalist = apTomo.getTiltdataList(self.params['tiltseries'],self.params['othertiltseries'])
		sessiondata = tiltdatalist[0]['session']
		description = self.params['description']
		alignsample = self.params['sample']
		cycle = self.params['cycle']
		alignmethod = self.params['alignmethod']
		apDisplay.printMsg("getting imagelist")
		imagelist = apTomo.getImageList(tiltdatalist)
		tilts,ordered_imagelist,ordered_mrc_files,refimg = apTomo.orderImageList(imagelist)
		
		# This parameter is needed for protomo, but not protomo2
		if self.params['refimg']:
			refimg = self.params['refimg']

		if alignmethod != 'protomo2':
			for file in ordered_mrc_files:
				# protomo can not function with a negative origin
				# protomo2 CAN function with negative origin
				apImage.shiftMRCStartToZero(file)
				
			apDisplay.printMsg("getting pixelsize")
			pixelsize = apTomo.getTomoPixelSize(ordered_imagelist[refimg])
			if pixelsize is None:
				apDisplay.printError('Pixel Size not retrieved. Invalid tilt series for processing')

		imgshape = apTomo.getTomoImageShape(ordered_imagelist[refimg])
		corr_bin = apTomo.getCorrelatorBinning(imgshape)
		center = {'x':imgshape[1]/2,'y':imgshape[0]/2}
		default_azimuth = apTomo.getDefaultAzimuthFromLeginon(ordered_imagelist[refimg])

		processdir = os.path.abspath(self.params['rundir'])
		imodseriesname = apTomo.getFilename(tiltdatalist)
		
		# protomo2 does not write out text files, intermediate info is in memory and the final result is binary
		seriesname = 'tomo'+ imodseriesname
		# Write tilt series stack images and tilt angles, not needed for protomo2
		if alignmethod != 'protomo2':
			stackdir = self.params['tiltseriesdir']
			stackname = imodseriesname+".st"
			apTomo.writeTiltSeriesStack(stackdir,stackname,ordered_mrc_files,1e10*pixelsize)
			apImod.writeRawtltFile(stackdir,imodseriesname,tilts)
		
		leginonxcorrlist = []
		for tiltdata in tiltdatalist:
			settingsdata = apTomo.getTomographySettings(sessiondata,tiltdata)
			leginonxcorrlist.append(settingsdata)
			
		# Run protomo2 
		if alignmethod == 'protomo2':
			self.runProtomo2(sessiondata, processdir, seriesname, ordered_imagelist, refimg, center, corr_bin, commit, tilts)
			
			# protomo2 does not need anything beyond this point, so exit
			return
			
		if cycle != 1 or alignmethod != 'protomo':
			cycles=[cycle,]
		else:
			# also process and commit protomo cycle 0 if doing cycle 1
			cycles=[0,1]
		for cycle in cycles:
			if alignmethod == 'protomo' or alignmethod == 'leginon':
				self.params['aligndir'],self.params['imagedir'] =	apProTomo.setProtomoDir(self.params['rundir'],cycle)
				aligndir = self.params['aligndir']
				# Link images into rundir/raw
				rawimagenames = apProTomo.linkImageFiles(ordered_imagelist,self.params['imagedir'])
				tltfile = os.path.join(aligndir,seriesname+'-%02d-itr.tlt' % (cycle,))
				if cycle == 0:
					# get initial shift alignment from leginon tiltcorrelator
					# Assume all tiltdata have the same tomography settings
					shifts = apTomo.getGlobalShift(ordered_imagelist, corr_bin, refimg)
					tltparams = apProTomo.convertShiftsToParams(tilts,shifts,center,default_azimuth,rawimagenames)
					apProTomo.writeTiltFile(tltfile,seriesname, tltparams[0], tltparams[1])
					refineparamdict=apProTomo.createRefineDefaults(len(tilts),
							os.path.join(processdir,'raw'),os.path.join(processdir,'out'))
					refineparamdict = apProTomo.updateRefineParams(refineparamdict,imgshape,alignsample,100,refimg)
				else:
					lasttltfile = os.path.join(aligndir,seriesname+'-%02d-fitted.tlt' % (cycle-1,))
					if self.params['goodcycle']:
						if (self.params['goodstart'] == 0 and self.params['goodend'] == len(ordered_imagelist) - 1):
							# revert goodcycle related params since nothing will be reset
							self.params['goodcycle'] = None
							self.params['goodstart'] = None
							self.params['goodend'] = None
					if not self.params['goodcycle']:
						#default uses last cycle
						shutil.copy(lasttltfile,tltfile)
					else:
						if not (self.params['goodstart'] or self.params['goodend']):
							shutil.copy(lasttltfile,tltfile)
						else:
							# Reset bad ending tilts before alignment cycle
							goodtltfile = os.path.join(aligndir,seriesname+'-%02d-fitted.tlt' % (self.params['goodcycle'],))
							goodtltparams = apProTomo.parseTilt(goodtltfile)
							lasttltparams = apProTomo.parseTilt(lasttltfile)
							tltparams = apProTomo.resetTiltParams(lasttltparams,goodtltparams,self.params['goodstart'],self.params['goodend'])
							apProTomo.writeTiltFile(tltfile,seriesname, tltparams[0], tltparams[1])
					lastrefineparamfile = os.path.join(aligndir,seriesname+'-%02d.param' % (cycle-1,))
					refineparamdict = apProTomo.parseRefineParamFile(lastrefineparamfile)
					refineparamdict = apProTomo.updateRefineParams(refineparamdict,imgshape,alignsample,self.params['region'],refimg)
				# Write param file in rundir/align
				paramfilepath = os.path.join(seriesname+'-%02d.param' % (cycle))
				fullparamfilepath = os.path.join(aligndir,paramfilepath)
				apProTomo.writeRefineParamFile(refineparamdict,fullparamfilepath)
				# run porjalign script
				os.chdir(aligndir)
				if cycle > 0:
					self.runProjalign(paramfilepath)
				else:
					lasttltfile = os.path.join(aligndir,seriesname+'-%02d-itr.tlt' % (cycle,))
					newtltfile = os.path.join(aligndir,seriesname+'-%02d-fitted.tlt' % (cycle,))
					shutil.copy(lasttltfile,newtltfile)
				# convert to imod alignment
				alignpathprefix = os.path.join(processdir, seriesname)
				centertuple = (center['x'],center['y'])
				apProTomo.convertGlobalTransformProtomoToImod(seriesname+'-%02d' %(cycle),imodseriesname, centertuple)
			elif alignmethod == 'imod-shift':
				# Correlation by Coarse correlation in IMOD
				aligndir = processdir
				imodxcorrdata = apImod.coarseAlignment(stackdir, processdir, imodseriesname, commit)
				# Global Transformation
				gtransforms = apImod.convertToGlobalAlignment(processdir, imodseriesname)
			# Create Aligned Stack for record
			bin = int(math.ceil(min(imgshape) / 512.0))
			apImod.createAlignedStack(stackdir, aligndir, imodseriesname,bin)
			if alignmethod == 'protomo' or alignmethod == 'leginon':
				alifilename = imodseriesname+'-%02d.ali' % cycle
				os.rename(imodseriesname+'.ali',alifilename)
			else:
				alifilename = imodseriesname+'.ali'
			alifilepath = os.path.join(aligndir,alifilename)
			# commit to database
			if commit:
				if alignmethod == 'protomo' or alignmethod == 'leginon':
					# -- Commit Parameters --
					protomodata = apProTomo.insertProtomoParams(seriesname)
					alignrun = apTomo.insertTomoAlignmentRun(sessiondata,leginonxcorrlist[0],None,protomodata,None,1,self.params['runname'],self.params['rundir'],self.params['description'])
					self.cycle_description = self.params['description']
					self.params['cycle'] = cycle
					if cycle == 0:
						# temporarily change aligner description on the initial 0 cycle
						self.params['description'] = 'leginon correlation results'
					# insert sample and window size and all the other user defined params into ApProtomoRefinementParamsData
					alignerdata = apProTomo.insertAlignIteration(alignrun, protomodata, self.params, refineparamdict,ordered_imagelist[refimg])
					# -- Commit Results --
					resulttltfile = os.path.join(aligndir,seriesname+'-%02d-fitted.tlt' % (cycle,))
					resulttltparams = apProTomo.parseTilt(resulttltfile)
					if resulttltparams:
						# commit the geometry parameters (psi, theta, phi, azimuth)
						modeldata = apProTomo.insertModel(alignerdata, resulttltparams)
						# insert results into ApProtomoAlignmentData (also used by imod) for each image
						for i,imagedata in enumerate(ordered_imagelist):
							apProTomo.insertTiltAlignment(alignerdata,imagedata,i,resulttltparams[0][i],center)
					self.params['description'] = self.cycle_description
				else:
					alignrun = apTomo.insertTomoAlignmentRun(sessiondata,None,imodxcorrdata,None,None,1,self.params['runname'],self.params['rundir'],self.params['description'])
					alignerdata = apTomo.insertAlignerParams(alignrun,self.params)
					#results
					prexgfile = os.path.join(aligndir,imodseriesname+'.prexg')
					shifts = apImod.readShiftPrexgFile(aligndir, imodseriesname)
					resulttltparams = apProTomo.convertShiftsToParams(tilts,shifts,center,default_azimuth)
					if resulttltparams:
						modeldata = apProTomo.insertModel(alignerdata, resulttltparams)
						for i,imagedata in enumerate(ordered_imagelist):
							apProTomo.insertTiltAlignment(alignerdata,imagedata,i,resulttltparams[0][i],center)
				# multiple tilt series in one alignrun
				for i in range(0,len(tiltdatalist)):
					if i == 0:
						primary = True
					else:
						primary = False
					apTomo.insertTiltsInAlignRun(alignrun, tiltdatalist[i],leginonxcorrlist[i],primary)
			apTomo.makeAlignStackMovie(alifilepath)
			os.chdir(processdir)
    def start(self):

        ### some of this should go in preloop functions

        ###do queries
        sessiondata = apDatabase.getSessionDataFromSessionName(
            self.params['sessionname'])
        self.sessiondata = sessiondata
        tiltseriesdata = apDatabase.getTiltSeriesDataFromTiltNumAndSessionId(
            self.params['tiltseries'], sessiondata)
        tiltseriessettings = apTomo.getTomographySettings(
            sessiondata, tiltseriesdata)
        tiltdata = apTomo.getImageList([tiltseriesdata])
        description = self.params['description']
        apDisplay.printMsg("getting imagelist")
        print "ordering list"
        tilts, ordered_imagelist, ordered_mrc_files, refimg = apTomo.orderImageList(
            tiltdata)
        #tilts are tilt angles, ordered_imagelist are imagedata, ordered_mrc_files are paths to files, refimg is an int

        ###set up files
        seriesname = self.params['seriesname']
        print type(seriesname)
        #		param_out=seriesname+'.param'

        ###insert protomo run params
        print "first insert"
        protomodata = apProTomo.insertProtomoParams(seriesname)

        print "second insert"
        alignrun = apTomo.insertTomoAlignmentRun(sessiondata,
                                                 tiltseriessettings, None,
                                                 protomodata, None, 1,
                                                 self.params['runname'],
                                                 self.params['rundir'],
                                                 self.params['description'])

        ###insert protomo alignment

        ###hack to get around need to parse protomo param file
        #should read imgref from tlt file
        refineparamdict = {
            'alismp': None,
            'alibox_x': None,
            'alibox_y': None,
            'cormod': None,
            'imgref': None
        }
        ###
        self.params['goodcycle'] = None
        if self.params['goodrange'] is None:
            self.params['goodstart'] = 1
            self.params['goodend'] = len(tilts)
        alignerdata = apProTomo.insertAlignIteration(alignrun, protomodata,
                                                     self.params,
                                                     refineparamdict,
                                                     ordered_imagelist[refimg])

        # read tlt file
        print "third insert"
        alignmentdict, geometrydict, seriesname = apProTomo.parseTilt(
            self.params['tltfile'])

        # insert geometry model
        modeldata = apProTomo.insertModel2(alignerdata, geometrydict)

        #insert image alignments
        for i, imagedata in enumerate(ordered_imagelist):
            #Caution...assumes ordered_imagelist is in same order as tlt file
            apProTomo.insertTiltAlignment(alignerdata,
                                          imagedata,
                                          i,
                                          alignmentdict[i + 1],
                                          center=None)

        print "fourth insert"
        apTomo.insertTiltsInAlignRun(alignrun, tiltseriesdata,
                                     tiltseriessettings, True)