Python XSDataGoniostat.setMinOscillationWidth 예제들

프로그래밍 언어: Python

네임스페이스/패키지 이름: XSDataMXv1

클래스/타입: XSDataGoniostat

메소드/함수: setMinOscillationWidth

hotexamples.com에서의 예제들: 1

Python XSDataGoniostat.setMinOscillationWidth - 1개의 예제가 발견되었습니다. 이것들은 오픈소스 프로젝트에서 추출된 Python의 XSDataMXv1.XSDataGoniostat.setMinOscillationWidth에 대한 실세계 최고 등급의 예제들입니다. 예제들을 평가하여 예제의 품질 향상에 도움을 줄 수 있습니다.

자주 사용되는 메소드들

보기 숨기기

XSDataGoniostat(5)

setOscillationWidth(3)

setRotationAxisEnd(3)

setRotationAxisStart(3)

setRotationAxis(2)

setKappa(1)

setMaxOscillationSpeed(1)

setMinOscillationWidth(1)

setPhi(1)

예제 #1

파일 보기

파일: EDTestCasePluginUnitCCP4iv1_1.py 프로젝트: yayahjb/edna-mx

    def testSetDataModelInput(self):
        from XSDataCCP4iv1_1 import XSDataInputCCP4i
        xsDataInputCCP4i = XSDataInputCCP4i()

        # Beam
        from XSDataCommon import XSDataFlux
        from XSDataCommon import XSDataSize
        from XSDataCommon import XSDataLength
        from XSDataCommon import XSDataFloat

        from XSDataMXv1 import XSDataBeam
        from XSDataMXv1 import XSDataExperimentalCondition

        xsExperimentalCondition = XSDataExperimentalCondition()

        xsBeam = XSDataBeam()
        xsBeam.setFlux(XSDataFlux(1e+12))
        xsBeam.setSize(XSDataSize(XSDataLength(0.1), XSDataLength(0.1)))
        xsBeam.setMinExposureTimePerImage(XSDataFloat(0.1))
        xsExperimentalCondition.setBeam(xsBeam)

        # Goniostat
        from XSDataCommon import XSDataSpeed
        from XSDataCommon import XSDataAngle

        from XSDataMXv1 import XSDataGoniostat

        xsDataGoniostat = XSDataGoniostat()
        xsDataGoniostat.setMaxOscillationSpeed(XSDataSpeed(0.2))
        xsDataGoniostat.setMinOscillationWidth(XSDataAngle(0.1))
        xsExperimentalCondition.setGoniostat(xsDataGoniostat)
        xsDataInputCCP4i.setExperimentalCondition(xsExperimentalCondition)

        # Sample
        from XSDataCommon import XSDataString
        from XSDataCommon import XSDataFloat
        from XSDataCommon import XSDataString

        from XSDataMXv1 import XSDataStructure
        from XSDataMXv1 import XSDataChain
        from XSDataMXv1 import XSDataAtom
        from XSDataMXv1 import XSDataLigand
        from XSDataMXv1 import XSDataSampleCrystalMM
        from XSDataMXv1 import XSDataChemicalCompositionMM
        from XSDataMXv1 import XSDataAtomicComposition
        from XSDataMXv1 import XSDataSolvent

        xsDataSampleCrystalMM = XSDataSampleCrystalMM()
        xsDataStructure = XSDataStructure()
        xsDataComposition = XSDataChemicalCompositionMM()

        xsDataChain = XSDataChain()
        xsDataChain.setType(XSDataString("protein"))
        xsDataChain.setNumberOfCopies(XSDataFloat(2))
        xsDataAtomicComposition = XSDataAtomicComposition()
        xsDataAtom1 = XSDataAtom()
        xsDataAtom1.setSymbol(XSDataString("Se"))
        xsDataAtom1.setNumberOf(XSDataFloat(4))
        xsDataAtomicComposition.addAtom(xsDataAtom1)

        xsDataChain.setHeavyAtoms(xsDataAtomicComposition)
        xsDataChain.setNumberOfMonomers(XSDataFloat(100))
        xsDataStructure.addChain(xsDataChain)

        xsDataChain2 = XSDataChain()
        xsDataChain2.setType(XSDataString("rna"))
        xsDataChain2.setNumberOfCopies(XSDataFloat(1))
        xsDataChain2.setNumberOfMonomers(XSDataFloat(60))
        xsDataStructure.addChain(xsDataChain2)

        xsDataLigand = XSDataLigand()
        xsDataLigand.setNumberOfCopies(XSDataFloat(2))
        xsDataLigand.setNumberOfLightAtoms(XSDataFloat(42))
        xsDataAtomicComposition = XSDataAtomicComposition()
        xsDataAtom2 = XSDataAtom()
        xsDataAtom2.setSymbol(XSDataString("Fe"))
        xsDataAtom2.setNumberOf(XSDataFloat(1))
        xsDataAtomicComposition.addAtom(xsDataAtom2)
        xsDataLigand.setHeavyAtoms(xsDataAtomicComposition)
        xsDataStructure.addLigand(xsDataLigand)
        xsDataStructure.setNumberOfCopiesInAsymmetricUnit(XSDataFloat(0.25))

        xsDataSolvent = XSDataSolvent()
        xsDataAtomicComposition = XSDataAtomicComposition()

        xsDataAtom3 = XSDataAtom()
        xsDataAtom3.setSymbol(XSDataString("Na"))
        xsDataAtom3.setConcentration(XSDataFloat(1000))
        xsDataAtom4 = XSDataAtom()
        xsDataAtom4.setSymbol(XSDataString("Cl"))
        xsDataAtom4.setConcentration(XSDataFloat(1000))

        xsDataAtomicComposition.addAtom(xsDataAtom3)
        xsDataAtomicComposition.addAtom(xsDataAtom4)
        xsDataSolvent.setAtoms(xsDataAtomicComposition)

        xsDataComposition.setStructure(xsDataStructure)
        xsDataComposition.setSolvent(xsDataSolvent)
        xsDataSampleCrystalMM.setChemicalComposition(xsDataComposition)

        xsDataSampleCrystalMM.setSize(XSDataSize(XSDataLength(0.2), XSDataLength(0.2), XSDataLength(0.2)))
        xsDataSampleCrystalMM.setSusceptibility(XSDataFloat(1.5))
        xsDataSampleCrystalMM.setShape(XSDataFloat(2))

        xsDataInputCCP4i.setSample(xsDataSampleCrystalMM)

        from XSDataMXv1 import XSDataDiffractionPlan

        xsDataDiffractionPlan = XSDataDiffractionPlan()

        xsDataDiffractionPlan.setAimedCompleteness(XSDataFloat(95.5))
        xsDataDiffractionPlan.setAimedIOverSigmaAtHighestResolution(XSDataFloat(2.5))
        xsDataDiffractionPlan.setAimedMultiplicity(XSDataFloat(95.5))
        xsDataDiffractionPlan.setAimedResolution(XSDataFloat(3))
        xsDataDiffractionPlan.setComplexity(XSDataString("full"))
        xsDataDiffractionPlan.setForcedSpaceGroup(XSDataString("P222"))
        xsDataDiffractionPlan.setMaxExposureTimePerDataCollection(XSDataFloat(10000))

        xsDataInputCCP4i.setDiffractionPlan(xsDataDiffractionPlan)

        from XSDataCommon import XSDataFile

        listInputDataFile = []
        xsDataFile = XSDataFile(XSDataString(self.strXSDataGenerateTemplateFile))
        listInputDataFile.append(xsDataFile)
        xsDataInputCCP4i.setDataFile(listInputDataFile)