Beispiel #1
0
	def start(self):
		"""
		this is the main component of the script
		where all the processing is done
		"""
		### initialize some variables
		self.runq = None
		self.apix = apStack.getStackPixelSizeFromStackId(self.params['stackid'])
		apDisplay.printMsg("Pixel size: %.5f"%(self.apix))
		self.boxsize = apStack.getStackBoxsize(self.params['stackid'])
		apDisplay.printMsg("Box size: %d"%(self.boxsize))

		self.checkResults()
		self.stackmapping = apRecon.partnum2defid(self.params['stackid'])
		self.numiter = self.getNumberOfIterations()
		for i in range(self.numiter):
			iternum = i+1
			apDisplay.printColor("\nUploading iteration %d of %d\n"%(iternum, self.numiter), "green")
			self.uploadIteration(iternum)

		reconrunid = apRecon.getReconRunIdFromNamePath(self.params['runname'], self.params['rundir'])
		if reconrunid:
			apDisplay.printMsg("calculating euler jumpers for recon="+str(reconrunid))
			eulerjump = apEulerJump.ApEulerJump()
			eulerjump.calculateEulerJumpsForEntireRecon(reconrunid, self.params['stackid'])
			apRecon.setGoodBadParticlesFromReconId(reconrunid)
		else:
			apDisplay.printWarning("Could not find recon run id")
Beispiel #2
0
    def calculateEulerJumpsAndGoodBadParticles(self, uploadIterations):
        ''' calculate euler jumps for entire recon, currently based on EMAN ZXZ convention '''

        if self.params['commit'] is True:
            reconrunid = self.refinerunq.dbid

            ### make table entries of good-bad particles
            apRecon.setGoodBadParticlesFromReconId(reconrunid)

            ### verify completed refinements and iterations
            refinecomplete = self.verifyNumberOfCompletedRefinements(
                multiModelRefinementRun=self.multiModelRefinementRun)

            if self.multiModelRefinementRun is True:
                ### Euler jumpers calculated from ApMultiModelRefineRunData in multi-model case, looping over values in all single-model refinements
                multimodelrunid = self.multimodelq.dbid
                if len(uploadIterations) > 1:
                    apDisplay.printMsg(
                        "calculating euler jumpers for multi-model refinement="
                        + str(multimodelrunid))
                    eulerjump = apEulerJump.ApEulerJump()
                    ### TECHNICALLY, IT DOESN'T MAKE SENSE TO PASS THE RECONRUNID, SINCE PARTICLES CAN BE JUMPING,
                    ### BUT AS FAR AS I CAN TELL, IT DOESN'T MAKE A DIFFERENCE IN THE RESULTING QUERY, SINCE THE VARIABLE
                    ### IS ONLY USED TO QUERY FOR STACK PARTICLES, WHICH ARE IDENTICAL IN MULTI-MODEL AND SINGLE-MODEL REFINEMENT
                    ### CASES. THEREFORE, THE LAST RECONRUNID IS PASSES ... * DMITRY
                    eulerjump.calculateEulerJumpsForEntireRecon(
                        reconrunid,
                        self.runparams['stackid'],
                        multimodelrunid=multimodelrunid)
            else:
                ### Euler jumpers calculated from ApRefineRunData in single-model case
                if len(uploadIterations) > 1 or \
                (refinecomplete.itervalues().next()[-1] == self.runparams['numiter'] and len(refinecomplete.itervalues().next())>1):
                    apDisplay.printMsg("calculating euler jumpers for recon=" +
                                       str(reconrunid))
                    eulerjump = apEulerJump.ApEulerJump()
                    eulerjump.calculateEulerJumpsForEntireRecon(
                        reconrunid, self.runparams['stackid'])

        return
Beispiel #3
0
    def start(self):
        if self.params['rundir'] is None or not os.path.isdir(
                self.params['rundir']):
            apDisplay.printError("upload directory does not exist: " +
                                 str(self.params['rundir']))

        ### create temp directory for extracting data
        self.params['tmpdir'] = os.path.join(self.params['rundir'], "temp")
        apParam.createDirectory(self.params['tmpdir'], warning=True)

        ### make sure that the stack & model IDs exist in database
        emanJobFile = self.findEmanJobFile()
        self.params['stack'] = apStack.getOnlyStackData(self.params['stackid'])
        self.stackmapping = apRecon.partnum2defid(self.params['stackid'])
        self.params['model'] = appiondata.ApInitialModelData.direct_query(
            self.params['modelid'])
        self.params['boxsize'] = apStack.getStackBoxsize(
            self.params['stackid'])

        ### parse out the refinement parameters from the log file
        self.parseLogFile()

        ### parse out the message passing subclassification parameters from the job/log file
        if self.params['package'] == 'EMAN/MsgP':
            self.parseMsgPassingParams()

        ### convert class average files from old to new format
        self.convertClassAvgFiles()

        ### get a list of the files in the directory
        self.listFiles()

        ### create a refinementRun entry in the database
        self.insertRefinementRun()

        if self.params['euleronly'] is False:
            ### insert the Iteration info
            for iteration in self.iterationdatas:
                ### if only uploading one iteration, skip to that one
                if self.params['oneiter'] and int(
                        iteration['num']) != self.params['oneiter']:
                    continue
                ### if beginning at later iteration, skip to that one
                if self.params['startiter'] and int(
                        iteration['num']) < self.params['startiter']:
                    continue
                ### if beginning at later iteration, skip to that one
                if self.params['enditer'] and int(
                        iteration['num']) > self.params['enditer']:
                    continue
                apDisplay.printColor(
                    "\nUploading iteration " + str(iteration['num']) + " of " +
                    str(len(self.iterationdatas)) + "\n", "green")
                for i in range(75):
                    sys.stderr.write("#")
                sys.stderr.write("\n")
                self.insertIteration(iteration)

        ### calculate euler jumps
        if self.params['commit'] is True:
            reconrunid = self.params['refineRun'].dbid
            stackid = self.params['stack'].dbid
            if self.params['oneiter'] is None and len(self.iterationdatas) > 1:
                apDisplay.printMsg("calculating euler jumpers for recon=" +
                                   str(reconrunid))
                eulerjump = apEulerJump.ApEulerJump()
                eulerjump.calculateEulerJumpsForEntireRecon(
                    reconrunid, stackid)
            ### coran keep plot
            if self.params['package'] == 'EMAN/SpiCoran':
                apCoranPlot.makeCoranKeepPlot(reconrunid)
            apRecon.setGoodBadParticlesFromReconId(reconrunid)
    def removePtclsByJumps(self, particles, rejectlst):
        eulerjump = apEulerJump.ApEulerJump()
        numparts = len(particles)
        apDisplay.printMsg("finding euler jumps for " + str(numparts) +
                           " particles")

        ### check symmetry
        symmetry = eulerjump.getSymmetry(self.params['reconid'], msg=True)
        if not re.match("^[cd][0-9]+$", symmetry.lower()) and not re.match(
                "^icos", symmetry.lower()):
            apDisplay.printError(
                "Cannot calculate euler jumps for symmetry: " + symmetry)
            return
        self.params['sym'] = symmetry.lower()

        ### prepare file
        f = open('jumps.txt', 'w', 0666)
        f.write("#pnum\t")
        headerlist = ('mean', 'median', 'stdev', 'min', 'max')
        for key in headerlist:
            f.write(key + "\t")
        f.write("\n")

        ### get stack particles
        stackparts = apStack.getStackParticlesFromId(self.params['stackid'])

        ### start loop
        t0 = time.time()
        medians = []
        count = 0
        apDisplay.printMsg("processing euler jumps for recon run=" +
                           str(self.params['reconid']))
        for stackpart in stackparts:
            count += 1
            partnum = stackpart['particleNumber']
            f.write('%d\t' % partnum)
            jumpdata = eulerjump.getEulerJumpData(
                self.params['reconid'],
                stackpartid=stackpart.dbid,
                stackid=self.params['stackid'],
                sym=symmetry)
            medians.append(jumpdata['median'])
            if (jumpdata['median'] >
                    self.params['avgjump']) and partnum not in rejectlst:
                rejectlst.append(partnum)
            for key in headerlist:
                f.write("%.3f\t" % (jumpdata[key]))
            f.write("\n")
            if count % 1000 == 0:
                timeremain = (time.time() - t0) / (count + 1) * (numparts -
                                                                 count)
                apDisplay.printMsg(
                    "particle=% 5d; median jump=% 3.2f, remain time= %s" %
                    (partnum, jumpdata['median'],
                     apDisplay.timeString(timeremain)))
                #f.flush()
        ### print stats
        apDisplay.printMsg("-- median euler jumper stats --")
        medians = numpy.asarray(medians, dtype=numpy.float32)
        apDisplay.printMsg("mean/std :: " + str(round(medians.mean(), 2)) +
                           " +/- " + str(round(medians.std(), 2)))
        apDisplay.printMsg("min/max  :: " + str(round(medians.min(), 2)) +
                           " <> " + str(round(medians.max(), 2)))

        perrej = round(
            100.0 * float(numparts - len(rejectlst)) / float(numparts), 2)
        apDisplay.printMsg("keeping " + str(numparts - len(rejectlst)) +
                           " of " + str(numparts) + " particles (" +
                           str(perrej) + "%) so far " + " in " +
                           apDisplay.timeString(time.time() - t0))

        return rejectlst