Exemplo n.º 1
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    def splitAngles(self, job, verbose=True):
        """
        splitAngles: Split the job in the "angle" way (binary split)
        @param job: job
        @type job: L{pytom.localization.peak_job.PeakJob}
        """
        from pytom.localization.peak_job import PeakJob

        totalNum = job.rotations.numberRotations()

        #        # initialize the jobInfo structure
        #        self.jobInfo["numDoneJobs"] = 0
        #        self.jobInfo["numJobs"] = 0
        #        self.jobInfo["originalJobID"] = job.jobID
        #        self.jobInfo["splitType"] = "Ang"
        originalJobID = job.jobID

        while self.members > 1 and totalNum > 1:
            numEach = totalNum // self.members
            subMem1 = self.members // 2
            subMem2 = self.members - self.members // 2

            from pytom.angles.angleList import AngleList
            subRot1 = AngleList(job.rotations[:numEach * subMem1])
            subRot2 = AngleList(job.rotations[numEach * subMem1:])

            # avoid the collision of the job id
            subJob1 = PeakJob(job.volume, job.reference, job.mask, job.wedge,
                              subRot1, job.score, job.jobID * 10 + 1, subMem1,
                              self.dstDir, job.bandpass)
            subJob2 = PeakJob(job.volume, job.reference, job.mask, job.wedge,
                              subRot2, job.score, job.jobID * 10 + 2, subMem2,
                              self.dstDir, job.bandpass)

            if verbose == True:
                print(self.name + ': send number of %d rotations to node %d' %
                      (subJob2.rotations.numberRotations(),
                       self.mpi_id + subMem1))
            subJob2.send(self.mpi_id, self.mpi_id + subMem1)

            #            self.jobInfo["numJobs"] = self.jobInfo["numJobs"] + 1
            #            # set offset
            #            self.jobInfo[subJob1.jobID] = 0
            #            self.jobInfo[subJob2.jobID] = numEach*subMem1
            self.jobInfoPool["numJobsA"] = self.jobInfoPool["numJobsA"] + 1
            from pytom.localization.peak_job import JobInfo
            info = JobInfo(subJob1.jobID, originalJobID, "Ang")
            info.angleOffset = 0
            self.jobInfoPool[subJob1.jobID] = info

            info = JobInfo(subJob2.jobID, originalJobID, "Ang")
            info.angleOffset = numEach * subMem1
            self.jobInfoPool[subJob2.jobID] = info

            job = subJob1
            totalNum = job.rotations.numberRotations()
            self.setJob(job)

#        self.jobInfo["numJobs"] = self.jobInfo["numJobs"] + 1
        self.jobInfoPool["numJobsA"] = self.jobInfoPool["numJobsA"] + 1
Exemplo n.º 2
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def determineRotationsByClassAssignment(classifiedParticleList,
                                        rotationsParticleList):
    """
    determineRotationsByClassAssignment: Will determine rotations (stored in rotationsParticleList) \
    to clusters determined in classifiedParticleList

    @param classifiedParticleList:
    @param rotationsParticleList:
    @return: [rotationsParticleList clustered according to classifiedParticleList, \
    list of L{pytom.angles.angleList.AngleList} storing the only cluster rotations]

    @author: Thomas Hrabe     
    """

    from pytom.angles.angleList import AngleList

    rotationsCopy = rotationsParticleList.copy()
    rotationsCopy.setClassesFromList(classifiedParticleList)

    classLists = rotationsCopy.splitByClass()

    clusteredRotations = []

    for classMembers in classLists:

        angleList = AngleList()

        for particle in classMembers:
            angleList.append(particle.getRotation())

        clusteredRotations.append(angleList)

    return [classLists, clusteredRotations]
Exemplo n.º 3
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def extractClusterRotationsFromParticleList(particleList):
    """
    extractClusterRotationsFromParticleList: Splits a particleList according to the clusters stored
    @param particleList: The particleList 
    @type particleList: either str or L{pytom.alignment.structures.ParticleList}. 
    @return: Returns a list of  L{pytom.angles.angleList.AngleList} storing cluster rotations 
    """
    from pytom.angles.angleList import AngleList

    particleClasses = particleList.splitByClass()

    classes = []

    for i in range(len(particleClasses)):
        className = particleClasses[i][0].getClassName()
        classes.append(className)

    classRotations = []

    for className in classes:

        particles = particleList.particleFromClass(className)
        angleList = AngleList()

        for particle in particles:
            angleList.append(particle.getRotation())

        classRotations.append(angleList)

    return classRotations
Exemplo n.º 4
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    def __init__(self,
                 particle='',
                 reference=-1.0,
                 score=-1.0,
                 shift=-1.0,
                 rotation=-1.0,
                 angleObject=-1):

        from pytom.basic.structures import Particle, Reference, Shift, Rotation
        from numpy import long

        if particle.__class__ == str:
            self._particle = Particle(particle)
        elif particle.__class__ == Particle:
            self._particle = particle
        else:
            self._particle = Particle()

        if reference.__class__ == str:
            self._reference = Reference(reference)
        elif reference.__class__ == Reference:
            self._reference = reference
        else:
            self._reference = Reference()

        if shift.__class__ == list:
            self._shift = Shift(shift)
        elif shift.__class__ == float:
            self._shift = Shift()
        else:
            self._shift = shift

        if rotation.__class__ == list:
            self._rotation = Rotation(rotation)
        elif rotation.__class__ == Rotation:
            self._rotation = rotation
        else:
            self._rotation = Rotation()

        if score.__class__ == float:
            from pytom.score.score import xcfScore
            self._score = xcfScore()
        else:
            self._score = score

        if angleObject.__class__ == float or isinstance(
                angleObject, (int, long)):
            from pytom.angles.angleList import AngleList
            self._angleObject = AngleList()
        else:
            self._angleObject = angleObject
Exemplo n.º 5
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 def __init__(self,particleList=None,angleObject=None,maskFile=None,scoreObject=None,startClassNumber=0,destinationDirectory='.',preprocessing = None):
     
     from pytom.tools.files import checkDirExists
     from pytom.angles.angleList import AngleList
     from pytom.basic.structures import ParticleList
     
     self._particleList = particleList or ParticleList('/')
     self._angleObject = angleObject or AngleList()
     self._startClassNumber = startClassNumber
     self._maskFile = maskFile or None
     
     if preprocessing:
         self._preprocessing = preprocessing
     else:
         from pytom.alignment.preprocessing import Preprocessing
         self._preprocessing = Preprocessing()
     
     
     if self._maskFile.__class__ == str:
         from pytom.basic.structures import Mask 
         self._maskFile = Mask(self.maskFile)
         
     self._score = scoreObject
     
     if not checkDirExists(destinationDirectory):
         raise Exception('Destination directory ' + destinationDirectory + ' does not exist.')
     
     if not destinationDirectory[len(destinationDirectory)-1] == '/':
         destinationDirectory = destinationDirectory + '/'
     
     self._destinationDirectory = destinationDirectory
Exemplo n.º 6
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    def PeakJob_Test(self):
        from pytom.localization.peak_job import PeakJob
        from pytom.basic.structures import Mask, Reference, WedgeInfo
        from pytom.localization.structures import Volume
        from pytom.score.score import FLCFScore
        from pytom.angles.angleList import AngleList

        v = Volume(self.testfilename)
        ref = Reference(self.testfilename)
        m = Mask(self.testfilename)
        w = WedgeInfo(30)
        s = FLCFScore()

        rot = AngleList([[1, 1, 1], [2, 2, 2], [3, 3, 3]])

        a = PeakJob(v, ref, m, w, rot, s, 1)
        xmlObj = a.toXML()
        b = PeakJob()
        b.fromXML(xmlObj)

        self.assertTrue(b.volume.getFilename() == a.volume.getFilename(),
                        msg='')
        self.assertTrue(b.jobID == a.jobID, msg='')
        self.assertTrue(b.reference.getReferenceFilename() ==
                        a.reference.getReferenceFilename(),
                        msg='')
        self.assertTrue(b.mask.getFilename() == a.mask.getFilename(), msg='')
        self.assertTrue(b.wedge.getWedgeAngle() == a.wedge.getWedgeAngle(),
                        msg='')
        self.assertTrue(b.score.getScoreFunc() == a.score.getScoreFunc(),
                        msg='')
Exemplo n.º 7
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    def PeakJobMsg_Test(self):
        from pytom.localization.peak_job_msg import PeakJobMsg
        from pytom.localization.peak_job import PeakJob
        from pytom.basic.structures import Mask, Reference, WedgeInfo
        from pytom.localization.structures import Volume
        from pytom.score.score import FLCFScore
        from pytom.angles.angleList import AngleList

        v = Volume(self.testfilename)
        ref = Reference(self.testfilename)
        m = Mask(self.testfilename)
        w = WedgeInfo(30)
        s = FLCFScore()

        rot = AngleList([[1, 1, 1], [2, 2, 2], [3, 3, 3]])

        j = PeakJob(v, ref, m, w, rot, s)

        a = PeakJobMsg(str(0), str(1))
        a.setJob(j)
        xmlObj = a.toXML()
        b = PeakJobMsg()
        b.fromXML(xmlObj)

        self.assertTrue(b.getSender() == a.getSender(), msg='')
        self.assertTrue(b.getRecipient() == a.getRecipient(), msg='')
Exemplo n.º 8
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 def test_AngleList_sliceAccess(self):
     from pytom.angles.angleList import AngleList
     rl = [[0, 0, 0], [1, 1, 1], [2, 2, 2], [3, 3, 3]]
     angleObject = AngleList(rl)
     rotations = [[1, 1, 1], [2, 2, 2]]
     res = angleObject[1:3]
     self.assertTrue(res == rotations)
Exemplo n.º 9
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 def indexAccess_T(self, angleObject=None, rotation=None, key=None):
     if not angleObject:
         from pytom.angles.angleList import AngleList
         rl = [[0, 0, 0], [1, 1, 1], [2, 2, 2], [3, 3, 3]]
         angleObject = AngleList(rl)
     if not rotation:
         rotation = [1, 1, 1]
     if not key:
         key = 1
     r = angleObject[key]
     self.assertTrue(r == rotation)
Exemplo n.º 10
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    def splitAngles(self, job, verbose=True):
        '''
        splitAngles: Distribute the job to the workers by splitting angles
        @param job: job to be done
        @type job: L{pytom.localization.peak_job.PeakJob}
        @param verbose: verbose mode
        @type verbose: boolean
        '''
        import pytom_mpi
        mpi_myid = pytom_mpi.rank()

        if not mpi_myid == 0:
            raise RuntimeError(
                'This function can only be processed by mpi_id = 0! ID == ' +
                str(mpi_myid) + ' Aborting!')

        # split the job into smaller ones
        rotationsPerWorker = job.rotations.numberRotations() // self.numWorkers
        if rotationsPerWorker == 0:
            raise RuntimeError("Not enough angles to split!")

        if verbose == True:
            print(
                '\n\nManager: distribute number of %d rotations to %d workers'
                % (job.rotations.numberRotations(), self.numWorkers))

        for i in range(1, self.numWorkers + 1):
            # split the rotations
            if i != self.numWorkers:
                subRot = job.rotations[(i - 1) * rotationsPerWorker:i *
                                       rotationsPerWorker]
            else:  # the last node will take all the rest of rotations
                subRot = job.rotations[(i - 1) * rotationsPerWorker:]

            self.jobInfo[i] = (i - 1) * rotationsPerWorker

            from pytom.angles.angleList import AngleList
            rot = AngleList(subRot)

            from pytom.localization.peak_job import PeakJob
            subJob = PeakJob(volume=job.volume,
                             reference=job.reference,
                             mask=job.mask,
                             wedge=job.wedge,
                             rotations=rot,
                             score=job.score,
                             jobID=i,
                             dstDir=job.dstDir,
                             bandpass=job.bandpass)
            subJob.send(0, i)
Exemplo n.º 11
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    def fromXML(self,xmlObj, verbose=False):
        """
        fromXML: Creates any AngleObject child depending xmlObj
        @param xmlObj: a XML DOM object
        @param verbose: verbose mode?
        @type verbose: L{bool}
        @return: an Angle List as defined by xmlObj
        @author: Thomas Hrabe
        G{callgraph}
        """
        angType = xmlObj.get('Type')

        if angType == 'Eulerian':
            from pytom.angles.angleList import EulerAngleList
            ang = EulerAngleList()
            ang.fromXML(xmlObj)
        elif angType == 'Equidistant':
            from pytom.angles.localSampling import LocalSampling
            ang = LocalSampling()
            ang.fromXML(xmlObj)
        elif angType == 'AV3Sampling':
            from pytom.angles.localSampling import AV3Sampling
            ang = AV3Sampling()
            ang.fromXML(xmlObj)
        elif angType == 'ExtendedInplaneSampling':
            from pytom.angles.localSampling import ExtendedInplaneSampling
            ang = ExtendedInplaneSampling()
            ang.fromXML(xmlObj)
        elif angType == 'GlobalSampling':
            from pytom.angles.globalSampling import GlobalSampling
            ang = GlobalSampling()
            ang.fromXML(xmlObj)
        elif angType == 'FromEMFile':
            from pytom.angles.globalSampling import GlobalSampling
            ang = GlobalSampling()
            ang.fromXML(xmlObj)
        elif angType == 'AngleList':
            from pytom.angles.angleList import AngleList
            ang = AngleList()
            ang.fromXML(xmlObj)
        elif angType == 'OneAngleList':
            from pytom.angles.angleList import OneAngleList
            ang = OneAngleList()
            ang.fromXML(xmlObj)
        elif angType == 'LocalSampling':
            from pytom.angles.localSampling import LocalSampling
            ang = LocalSampling()
            ang.fromXML(xmlObj)
        #elif angType == 'RestrictedInplaneLocalSampling':
        #    from pytom.angles.localSampling import  InplaneLocalSampling
        #    ang = RestrictedInplaneEuidistantList()
        #    ang.fromXML(xmlObj)
        elif angType == 'EquidistantList':
            from pytom.angles.localSampling import LocalSampling
            ang = LocalSampling()
            ang.fromXML(xmlObj)
        #elif angType == 'RestrictedInplaneEuidistantList':
        #    from pytom.angles.localSampling import RestrictedInplaneLocalSampling
        #    ang = RestrictedInplaneEuidistantList()
        #    ang.fromXML(xmlObj)
        elif angType == 'Combined':
            from pytom.angles.combined import GlobalLocalCombined
            ang = GlobalLocalCombined()
            ang.fromXML(xmlObj)
        else:
            raise TypeError('Type ' +angType+' not available in Angles.')

        if verbose:
            print("AngleObject.fromXML: Returned AngleObject: "+str(ang))

        self.ang = ang

        return ang
Exemplo n.º 12
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class MaximisationResult(PyTomClass):
    """
    MaximisationResult : Stores results of one maximisation process
    """
    def __init__(self,
                 particle='',
                 reference=-1.0,
                 score=-1.0,
                 shift=-1.0,
                 rotation=-1.0,
                 angleObject=-1):

        from pytom.basic.structures import Particle, Reference, Shift, Rotation
        from numpy import long

        if particle.__class__ == str:
            self._particle = Particle(particle)
        elif particle.__class__ == Particle:
            self._particle = particle
        else:
            self._particle = Particle()

        if reference.__class__ == str:
            self._reference = Reference(reference)
        elif reference.__class__ == Reference:
            self._reference = reference
        else:
            self._reference = Reference()

        if shift.__class__ == list:
            self._shift = Shift(shift)
        elif shift.__class__ == float:
            self._shift = Shift()
        else:
            self._shift = shift

        if rotation.__class__ == list:
            self._rotation = Rotation(rotation)
        elif rotation.__class__ == Rotation:
            self._rotation = rotation
        else:
            self._rotation = Rotation()

        if score.__class__ == float:
            from pytom.score.score import xcfScore
            self._score = xcfScore()
        else:
            self._score = score

        if angleObject.__class__ == float or isinstance(
                angleObject, (int, long)):
            from pytom.angles.angleList import AngleList
            self._angleObject = AngleList()
        else:
            self._angleObject = angleObject

    def toParticle(self):
        """
        toParticle: Converts this object to a Particle object.
        @return:
        @rtype: L{pytom.basic.structures.Particle}
        """
        from pytom.basic.structures import Particle
        particle = self._particle
        particle.setRotation(self._rotation)
        particle.setShift(self._shift)
        particle.setScore(self._score)

        return particle

    def getParticle(self):
        return self._particle

    def getShift(self):
        from pytom.basic.structures import Shift

        if self._shift.__class__ == list:
            return Shift(self._shift)
        else:
            return self._shift

    def setShift(self, shift):
        from pytom.basic.structures import Shift

        assert shift.__class__ == Shift

        self._shift = shift

    def getAngleObject(self):
        return self._angleObject

    def getRotation(self):

        from pytom.basic.structures import Rotation

        if self._rotation.__class__ == list:
            return Rotation(self._rotation[0], self._rotation[1],
                            self._rotation[2])
        else:
            return self._rotation.copy()

    def getScore(self):
        """
        getScore: Returns score object
        """
        return self._score

    def setRotation(self, rotation):
        """
        setRotation:
        @param rotation: 
        """
        from pytom.basic.structures import Rotation

        if rotation.__class__ == list:
            rotation = Rotation(rotation)

        self._rotation = rotation

    def fromXML(self, xmlObj):
        """
        fromXML : Assigns values to result attributes from XML object
        @param xmlObj: A xml object  
        @author: Thomas Hrabe 
        """
        from lxml.etree import _Element

        if xmlObj.__class__ != _Element:
            from pytom.basic.exceptions import ParameterError
            raise ParameterError(
                'Is not a lxml.etree._Element! You must provide a valid XML object.'
            )

        from pytom.score.score import fromXML as fromXMLScore
        from pytom.angles.angle import AngleObject

        if xmlObj.tag == "Result":
            result = xmlObj
        else:
            result = xmlObj.xpath('Result')

            if len(result) == 0:
                raise PyTomClassError(
                    "This XML is not an MaximisationResult. No Result provided."
                )

            result = result[0]
        from pytom.basic.structures import Particle, Reference, Rotation, Shift
        particle_element = result.xpath('Particle')[0]
        p = Particle('')
        p.fromXML(particle_element)
        self._particle = p

        r = result.xpath('Reference')
        ref = Reference('')
        ref.fromXML(r[0])
        self._reference = ref

        scoreXML = result.xpath('Score')[0]
        self._score = fromXMLScore(scoreXML)

        shiftXML = result.xpath('Shift')[0]
        self._shift = Shift()
        self._shift.fromXML(shiftXML)

        rotationXML = result.xpath('Rotation')[0]
        self._rotation = Rotation()
        self._rotation.fromXML(rotationXML)

        angleElement = result.xpath('Angles')
        ang = AngleObject()
        self._angleObject = ang.fromXML(angleElement[0])

    def toXML(self):
        """
        toXML : Compiles a XML from result object
        @author: Thomas Hrabe
        """
        from lxml import etree

        resultElement = etree.Element("Result")

        resultElement.append(self._particle.toXML())

        if self._reference.hasGeneratedByInfo():
            from pytom.basic.structures import Reference
            newRef = Reference(self._reference.getReferenceFilename())
            resultElement.append(newRef.toXML())
        else:
            resultElement.append(self._reference.toXML())

        resultElement.append(self._shift.toXML())

        resultElement.append(self._rotation.toXML())

        resultElement.append(self._score.toXML())

        resultElement.append(self._angleObject.toXML())

        return resultElement

    def copy(self):
        return MaximisationResult(self._particle, self._reference, self._score,
                                  self._shift, self._rotation,
                                  self._angleObject)