本文整理汇总了Python中XSDataMXv1.XSDataCrystal.setCell方法的典型用法代码示例。如果您正苦于以下问题:Python XSDataCrystal.setCell方法的具体用法?Python XSDataCrystal.setCell怎么用?Python XSDataCrystal.setCell使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类XSDataMXv1.XSDataCrystal的用法示例。
在下文中一共展示了XSDataCrystal.setCell方法的7个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: testDefaultChemicalComposition
# 需要导入模块: from XSDataMXv1 import XSDataCrystal [as 别名]
# 或者: from XSDataMXv1.XSDataCrystal import setCell [as 别名]
def testDefaultChemicalComposition(self):
edPluginStrategy = self.createPlugin()
from XSDataCommon import XSDataAngle
from XSDataCommon import XSDataLength
from XSDataMXv1 import XSDataSampleCrystalMM
from XSDataMXv1 import XSDataCrystal
from XSDataMXv1 import XSDataCell
xsDataSampleCrystalMM = XSDataSampleCrystalMM()
xsDataCrystal = XSDataCrystal()
xsDataCell = XSDataCell(XSDataAngle(90.0),
XSDataAngle(90.0),
XSDataAngle(90.0),
XSDataLength(78.9),
XSDataLength(95.162),
XSDataLength(104.087))
xsDataCrystal.setCell(xsDataCell)
xsDataSampleCrystalMM.setCrystal(xsDataCrystal)
inumOperators = 4
xsDataSample2 = edPluginStrategy.getDefaultChemicalComposition(xsDataSampleCrystalMM, inumOperators)
strChainType = xsDataSample2.getStructure().getChain()[0].getType()
EDAssert.equal("protein", strChainType.getValue())示例2: generateXSDataIndexingResult
# 需要导入模块: from XSDataMXv1 import XSDataCrystal [as 别名]
# 或者: from XSDataMXv1.XSDataCrystal import setCell [as 别名]
def generateXSDataIndexingResult(_xsDataResultXDSIndexing, _xsDataExperimentalCondition=None):
xsDataIndexingResult = XSDataIndexingResult()
xsDataIndexingSolutionSelected = XSDataIndexingSolutionSelected()
xsDataCrystalSelected = XSDataCrystal()
# xsDataIndexingSolutionSelected.setNumber(XSDataInteger(iIndex))
# xsDataCellSelected = xsDataLabelitSolution.getUnitCell()
spaceGroupName = EDUtilsSymmetry.getMinimumSymmetrySpaceGroupFromBravaisLattice(_xsDataResultXDSIndexing.bravaisLattice.value)
xsDataCrystalSelected = XSDataCrystal()
xsDataSpaceGroupSelected = XSDataSpaceGroup()
xsDataSpaceGroupSelected.setName(XSDataString(spaceGroupName))
xsDataCrystalSelected.setSpaceGroup(xsDataSpaceGroupSelected)
# xsDataCrystalSelected.setCell(xsDataCellSelected)
xsDataCrystalSelected.setMosaicity(XSDataDouble(_xsDataResultXDSIndexing.mosaicity.value))
xsDataCrystalSelected.setCell(XSDataCell.parseString(_xsDataResultXDSIndexing.unitCell.marshal()))
xsDataIndexingSolutionSelected.setCrystal(xsDataCrystalSelected)
xsDataOrientation = XSDataOrientation()
xsDataOrientation.setMatrixA(_xsDataResultXDSIndexing.getAMatrix())
xsDataOrientation.setMatrixU(_xsDataResultXDSIndexing.getUMatrix())
xsDataIndexingSolutionSelected.setOrientation(xsDataOrientation)
xsDataStatisticsIndexing = XSDataStatisticsIndexing()
if (_xsDataExperimentalCondition is not None):
fBeamPositionXOrig = _xsDataExperimentalCondition.getDetector().getBeamPositionX().getValue()
fBeamPositionYOrig = _xsDataExperimentalCondition.getDetector().getBeamPositionY().getValue()
fBeamPositionXNew = _xsDataResultXDSIndexing.getBeamCentreX().getValue()
fBeamPositionYNew = _xsDataResultXDSIndexing.getBeamCentreY().getValue()
xsDataStatisticsIndexing.setBeamPositionShiftX(XSDataLength(fBeamPositionXOrig - fBeamPositionXNew))
xsDataStatisticsIndexing.setBeamPositionShiftY(XSDataLength(fBeamPositionYOrig - fBeamPositionYNew))
xsDataExperimentalConditionRefined = None
if (_xsDataExperimentalCondition is None):
xsDataExperimentalConditionRefined = XSDataExperimentalCondition()
else:
# Copy the incoming experimental condition
xmlExperimentalCondition = _xsDataExperimentalCondition.marshal()
xsDataExperimentalConditionRefined = XSDataExperimentalCondition.parseString(xmlExperimentalCondition)
xsDataDetector = xsDataExperimentalConditionRefined.getDetector()
if (xsDataDetector is None):
xsDataDetector = XSDataDetector()
xsDataDetector.setBeamPositionX(XSDataLength(_xsDataResultXDSIndexing.getBeamCentreX().value))
xsDataDetector.setBeamPositionY(XSDataLength(_xsDataResultXDSIndexing.getBeamCentreY().value))
xsDataDetector.setDistance(_xsDataResultXDSIndexing.getDistance())
xsDataExperimentalConditionRefined.setDetector(xsDataDetector)
xsDataIndexingSolutionSelected.setExperimentalConditionRefined(xsDataExperimentalConditionRefined)
xsDataIndexingResult.setSelectedSolution(xsDataIndexingSolutionSelected)
return xsDataIndexingResult示例3: testDefaultChemicalComposition
# 需要导入模块: from XSDataMXv1 import XSDataCrystal [as 别名]
# 或者: from XSDataMXv1.XSDataCrystal import setCell [as 别名]
def testDefaultChemicalComposition(self):
edPluginStrategy = self.createPlugin()
xsDataSampleCrystalMM = XSDataSampleCrystalMM()
xsDataCrystal = XSDataCrystal()
xsDataCell = XSDataCell(angle_alpha=XSDataAngle(90.0),
angle_beta=XSDataAngle(90.0),
angle_gamma=XSDataAngle(90.0),
length_a=XSDataLength(78.9),
length_b=XSDataLength(95.162),
length_c=XSDataLength(104.087))
xsDataCrystal.setCell(xsDataCell)
xsDataSampleCrystalMM.setCrystal(xsDataCrystal)
inumOperators = 4
xsDataSample2 = edPluginStrategy.getDefaultChemicalComposition(xsDataSampleCrystalMM, inumOperators)
pyStrChainType = xsDataSample2.getStructure().getChain()[0].getType()
EDAssert.equal("protein", pyStrChainType.getValue())示例4: testSetDataModelInput
# 需要导入模块: from XSDataMXv1 import XSDataCrystal [as 别名]
# 或者: from XSDataMXv1.XSDataCrystal import setCell [as 别名]
#.........这里部分代码省略.........
xsDataGoniostat = XSDataGoniostat()
xsDataGoniostat.setRotationAxis(XSDataString("phi"))
xsExperimentalCondition.setGoniostat(xsDataGoniostat)
xsDataStrategy.setExperimentalCondition(xsExperimentalCondition)
# Best Files
bestFileContentDat = EDUtilsFile.readFile(os.path.join(self.strDataPath, "bestfile.dat"))
xsDataStrategy.setBestFileContentDat(XSDataString(bestFileContentDat))
bestFileContentPar = EDUtilsFile.readFile(os.path.join(self.strDataPath, "bestfile.par"))
xsDataStrategy.setBestFileContentPar(XSDataString(bestFileContentPar))
bestFileContentHKL = EDUtilsFile.readFile(os.path.join(self.strDataPath, "bestfile1.hkl"))
xsDataStrategy.addBestFileContentHKL(XSDataString(bestFileContentHKL))
# Crystal
xsDataSampleCrystalMM = XSDataSampleCrystalMM()
xsDataStructure = XSDataStructure()
xsDataComposition = XSDataChemicalCompositionMM()
xsDataChain = XSDataChain()
xsDataChain.setType(XSDataString("protein"))
xsDataChain.setNumberOfCopies(XSDataDouble(2))
xsDataAtomicComposition = XSDataAtomicComposition()
xsDataAtom1 = XSDataAtom()
xsDataAtom1.setSymbol(XSDataString("Se"))
xsDataAtom1.setNumberOf(XSDataDouble(4))
xsDataAtomicComposition.addAtom(xsDataAtom1)
xsDataChain.setHeavyAtoms(xsDataAtomicComposition)
xsDataChain.setNumberOfMonomers(XSDataDouble(100))
xsDataStructure.addChain(xsDataChain)
xsDataChain2 = XSDataChain()
xsDataChain2.setType(XSDataString("rna"))
xsDataChain2.setNumberOfCopies(XSDataDouble(1))
xsDataChain2.setNumberOfMonomers(XSDataDouble(60))
xsDataStructure.addChain(xsDataChain2)
xsDataLigand = XSDataLigand()
xsDataLigand.setNumberOfCopies(XSDataDouble(2))
xsDataLigand.setNumberOfLightAtoms(XSDataDouble(42))
xsDataAtomicComposition = XSDataAtomicComposition()
xsDataAtom2 = XSDataAtom()
xsDataAtom2.setSymbol(XSDataString("Fe"))
xsDataAtom2.setNumberOf(XSDataDouble(1))
xsDataAtomicComposition.addAtom(xsDataAtom2)
xsDataLigand.setHeavyAtoms(xsDataAtomicComposition)
xsDataStructure.addLigand(xsDataLigand)
xsDataStructure.setNumberOfCopiesInAsymmetricUnit(XSDataDouble(0.25))
xsDataSolvent = XSDataSolvent()
xsDataAtomicComposition = XSDataAtomicComposition()
xsDataAtom3 = XSDataAtom()
xsDataAtom3.setSymbol(XSDataString("Na"))
xsDataAtom3.setConcentration(XSDataDouble(1000))
xsDataAtom4 = XSDataAtom()
xsDataAtom4.setSymbol(XSDataString("Cl"))
xsDataAtom4.setConcentration(XSDataDouble(1000))
xsDataAtomicComposition.addAtom(xsDataAtom3)
xsDataAtomicComposition.addAtom(xsDataAtom4)
xsDataSolvent.setAtoms(xsDataAtomicComposition)
xsDataComposition.setStructure(xsDataStructure)
xsDataComposition.setSolvent(xsDataSolvent)
xsDataSampleCrystalMM.setChemicalComposition(xsDataComposition)
xsDataSampleCrystalMM.setSize(XSDataSize(XSDataLength(0.1), XSDataLength(0.1), XSDataLength(0.1)))
xsDataCrystal = XSDataCrystal()
xsDataCell = XSDataCell(angle_alpha=XSDataAngle(90.0),
angle_beta=XSDataAngle(90.0),
angle_gamma=XSDataAngle(90.0),
length_a=XSDataLength(78.9),
length_b=XSDataLength(95.162),
length_c=XSDataLength(104.087))
xsDataCrystal.setCell(xsDataCell)
xsDataSpaceGroup = XSDataSpaceGroup()
xsDataSpaceGroup.setITNumber(XSDataInteger(16))
xsDataCrystal.setSpaceGroup(xsDataSpaceGroup)
xsDataSampleCrystalMM.setSusceptibility(XSDataDouble(1.5))
xsDataStrategy.setCrystalRefined(xsDataCrystal)
xsDataStrategy.setSample(xsDataSampleCrystalMM)
xsDataStrategy.exportToFile(self.strObtainedInputFile)
pyStrExpectedInput = self.readAndParseFile (self.strReferenceInputFile)
pyStrObtainedInput = self.readAndParseFile (self.strObtainedInputFile)
xsDataInputExpected = XSDataInputStrategy.parseString(pyStrExpectedInput)
xsDataInputObtained = XSDataInputStrategy.parseString(pyStrObtainedInput)
EDAssert.equal(xsDataInputExpected.marshal(), xsDataInputObtained.marshal())示例5: generateXSDataIndexingResult
# 需要导入模块: from XSDataMXv1 import XSDataCrystal [as 别名]
# 或者: from XSDataMXv1.XSDataCrystal import setCell [as 别名]
def generateXSDataIndexingResult(_xsDataResultLabelitIndexing, _xsDataExperimentalCondition=None):
EDVerbose.DEBUG("EDHandlerXSDataLabelitv1_1.generateXSDataIndexingOutput")
xsDataLabelitScreenOutput = _xsDataResultLabelitIndexing.screenOutput
xsDataLabelitMosflmScriptsOutput = _xsDataResultLabelitIndexing.mosflmScriptsOutput
iSelectedSolutionNumber = xsDataLabelitScreenOutput.getSelectedSolutionNumber().getValue()
xsDataIndexingResult = XSDataIndexingResult()
xsDataIndexingSolutionSelected = None
for xsDataLabelitSolution in xsDataLabelitScreenOutput.getLabelitScreenSolution():
xsDataCrystal = XSDataCrystal()
xsDataSpaceGroup = XSDataSpaceGroup()
edStringSpaceGroupName = EDUtilsSymmetry.getMinimumSymmetrySpaceGroupFromBravaisLattice(xsDataLabelitSolution.getBravaisLattice().getValue())
xsDataSpaceGroup.setName(XSDataString(edStringSpaceGroupName))
xsDataCrystal.setSpaceGroup(xsDataSpaceGroup)
xsDataCrystal.setCell(xsDataLabelitSolution.getUnitCell())
xsDataIndexingSolution = XSDataIndexingSolution()
xsDataIndexingSolution.setCrystal(xsDataCrystal)
iIndex = xsDataLabelitSolution.getSolutionNumber().getValue()
xsDataIndexingSolution.setNumber(XSDataInteger(iIndex))
xsDataIndexingResult.addSolution(xsDataIndexingSolution)
if (iIndex == iSelectedSolutionNumber):
xsDataIndexingSolutionSelected = XSDataIndexingSolutionSelected()
xsDataIndexingSolutionSelected.setNumber(XSDataInteger(iIndex))
edStringSelectedSpaceGroupName = edStringSpaceGroupName
xsDataCellSelected = xsDataLabelitSolution.getUnitCell()
fRmsdSelected = xsDataLabelitSolution.getRmsd().getValue()
iNumberOfSpotsSelected = xsDataLabelitSolution.getNumberOfSpots().getValue()
xsDataCrystalSelected = XSDataCrystal()
xsDataSpaceGroupSelected = XSDataSpaceGroup()
xsDataSpaceGroupSelected.setName(XSDataString(edStringSelectedSpaceGroupName))
xsDataSpaceGroupSelected.setITNumber(XSDataInteger(EDUtilsSymmetry.getITNumberFromSpaceGroupName(edStringSelectedSpaceGroupName)))
xsDataCrystalSelected.setSpaceGroup(xsDataSpaceGroupSelected)
xsDataCrystalSelected.setCell(xsDataCellSelected)
xsDataCrystalSelected.setMosaicity(XSDataDouble(xsDataLabelitScreenOutput.getMosaicity().getValue()))
xsDataIndexingSolutionSelected.setCrystal(xsDataCrystalSelected)
xsDataOrientation = XSDataOrientation()
xsDataOrientation.setMatrixA(xsDataLabelitMosflmScriptsOutput.getAMatrix())
xsDataOrientation.setMatrixU(xsDataLabelitMosflmScriptsOutput.getUMatrix())
xsDataIndexingSolutionSelected.setOrientation(xsDataOrientation)
xsDataStatisticsIndexing = XSDataStatisticsIndexing()
if (_xsDataExperimentalCondition is not None):
fBeamPositionXOrig = _xsDataExperimentalCondition.getDetector().getBeamPositionX().getValue()
fBeamPositionYOrig = _xsDataExperimentalCondition.getDetector().getBeamPositionY().getValue()
fBeamPositionXNew = xsDataLabelitScreenOutput.getBeamCentreX().getValue()
fBeamPositionYNew = xsDataLabelitScreenOutput.getBeamCentreY().getValue()
xsDataStatisticsIndexing.setBeamPositionShiftX(XSDataLength(fBeamPositionXOrig - fBeamPositionXNew))
xsDataStatisticsIndexing.setBeamPositionShiftY(XSDataLength(fBeamPositionYOrig - fBeamPositionYNew))
# xsDataStatisticsIndexing.setSpotDeviXSDataLength( dDistanceRefinedationAngular( XSDataAngle( dDeviationAngular ) )
xsDataStatisticsIndexing.setSpotDeviationPositional(XSDataLength(fRmsdSelected))
xsDataStatisticsIndexing.setSpotsUsed(XSDataInteger(iNumberOfSpotsSelected))
xsDataStatisticsIndexing.setSpotsTotal(XSDataInteger(iNumberOfSpotsSelected))
xsDataIndexingSolutionSelected.setStatistics(xsDataStatisticsIndexing)
xsDataExperimentalConditionRefined = None
if (_xsDataExperimentalCondition is None):
xsDataExperimentalConditionRefined = XSDataExperimentalCondition()
else:
# Copy the incoming experimental condition
xmlExperimentalCondition = _xsDataExperimentalCondition.marshal()
xsDataExperimentalConditionRefined = XSDataExperimentalCondition.parseString(xmlExperimentalCondition)
xsDataDetector = xsDataExperimentalConditionRefined.getDetector()
if (xsDataDetector is None):
xsDataDetector = XSDataDetector()
xsDataDetector.setBeamPositionX(xsDataLabelitScreenOutput.getBeamCentreX())
xsDataDetector.setBeamPositionY(xsDataLabelitScreenOutput.getBeamCentreY())
xsDataDetector.setDistance(xsDataLabelitScreenOutput.getDistance())
xsDataExperimentalConditionRefined.setDetector(xsDataDetector)
xsDataIndexingSolutionSelected.setExperimentalConditionRefined(xsDataExperimentalConditionRefined)
xsDataIndexingResult.setSelectedSolution(xsDataIndexingSolutionSelected)
xsDataIndexingResult.setIndexingLogFile(xsDataLabelitScreenOutput.getPathToLogFile())
return xsDataIndexingResult示例6: testGetXSDataRaddoseInput
# 需要导入模块: from XSDataMXv1 import XSDataCrystal [as 别名]
# 或者: from XSDataMXv1.XSDataCrystal import setCell [as 别名]
#.........这里部分代码省略.........
from XSDataMXv1 import XSDataCell
from EDHandlerXSDataRaddosev10 import EDHandlerXSDataRaddosev10
EDFactoryPluginStatic.loadModule("XSDataRaddosev10")
from XSDataRaddosev10 import XSDataRaddoseInput
xsDataBeam = XSDataBeam()
xsDataBeam.setSize(XSDataSize(x=XSDataLength(0.1), y=XSDataLength(0.1)))
xsDataBeam.setWavelength(XSDataWavelength(2.41))
xsDataBeam.setFlux(XSDataFlux(1e+12))
xsDataSample = XSDataSampleCrystalMM()
xsDataStructure = XSDataStructure()
xsDataComposition = XSDataChemicalCompositionMM()
xsDataChain = XSDataChain()
xsDataChain.setType(XSDataString("protein"))
xsDataChain.setNumberOfCopies(XSDataDouble(2))
xsDataAtomicComposition = XSDataAtomicComposition()
xsDataAtom1 = XSDataAtom()
xsDataAtom1.setSymbol(XSDataString("Se"))
xsDataAtom1.setNumberOf(XSDataDouble(4))
xsDataAtomicComposition.addAtom(xsDataAtom1)
xsDataAtom2 = XSDataAtom()
xsDataAtom2.setSymbol(XSDataString("S"))
xsDataAtom2.setNumberOf(XSDataDouble(5))
xsDataAtomicComposition.addAtom(xsDataAtom2)
xsDataChain.setHeavyAtoms(xsDataAtomicComposition)
xsDataChain.setNumberOfMonomers(XSDataDouble(100))
xsDataStructure.addChain(xsDataChain)
xsDataChain2 = XSDataChain()
xsDataChain2.setType(XSDataString("rna"))
xsDataChain2.setNumberOfCopies(XSDataDouble(1))
xsDataChain2.setNumberOfMonomers(XSDataDouble(60))
xsDataStructure.addChain(xsDataChain2)
xsDataLigand = XSDataLigand()
xsDataLigand.setNumberOfCopies(XSDataDouble(2))
xsDataLigand.setNumberOfLightAtoms(XSDataDouble(42))
xsDataAtomicComposition = XSDataAtomicComposition()
xsDataAtom3 = XSDataAtom()
xsDataAtom3.setSymbol(XSDataString("Fe"))
xsDataAtom3.setNumberOf(XSDataDouble(1))
xsDataAtomicComposition.addAtom(xsDataAtom3)
xsDataLigand.setHeavyAtoms(xsDataAtomicComposition)
xsDataStructure.addLigand(xsDataLigand)
xsDataStructure.setNumberOfCopiesInAsymmetricUnit(XSDataDouble(0.25))
xsDataSolvent = XSDataSolvent()
xsDataAtomicComposition = XSDataAtomicComposition()
xsDataAtomNa = XSDataAtom()
xsDataAtomNa.setSymbol(XSDataString("Na"))
xsDataAtomNa.setConcentration(XSDataDouble(1000))
xsDataAtomicComposition.addAtom(xsDataAtomNa)
xsDataAtomCl = XSDataAtom()
xsDataAtomCl.setSymbol(XSDataString("Cl"))
xsDataAtomCl.setConcentration(XSDataDouble(1000))
xsDataAtomicComposition.addAtom(xsDataAtomCl)
xsDataSolvent.setAtoms(xsDataAtomicComposition)
xsDataComposition.setStructure(xsDataStructure)
xsDataComposition.setSolvent(xsDataSolvent)
xsDataSample.setChemicalComposition(xsDataComposition)
xsDataSample.setSize(XSDataSize(XSDataLength(0.1), XSDataLength(0.1), XSDataLength(0.1)))
xsDataCell = XSDataCell(angle_alpha=XSDataAngle(90.0),
angle_beta=XSDataAngle(90.0),
angle_gamma=XSDataAngle(90.0),
length_a=XSDataLength(78.9),
length_b=XSDataLength(95.162),
length_c=XSDataLength(104.087))
xsDataCrystal = XSDataCrystal()
xsDataSpaceGroup = XSDataSpaceGroup()
xsDataCrystal.setCell(xsDataCell)
xsDataSpaceGroup.setITNumber(XSDataInteger(16))
xsDataCrystal.setSpaceGroup(xsDataSpaceGroup)
xsDataSample.setCrystal(xsDataCrystal)
iNumSymOperators = 4
xsDataRaddosev01Input = EDHandlerXSDataRaddosev10().getXSDataRaddoseInput(xsDataBeam,
xsDataSample,
iNumSymOperators)
xsDataRaddosev01Input.exportToFile(self.strObtainedInputFile2)
strExpectedInput = EDUtilsTest.readAndParseFile (self.strReferenceInputFile2)
strObtainedInput = EDUtilsTest.readAndParseFile (self.strObtainedInputFile2)
xsDataInputExpected = XSDataRaddoseInput.parseString(strExpectedInput)
xsDataInputObtained = XSDataRaddoseInput.parseString(strObtainedInput)
EDAssert.equal(xsDataInputExpected.marshal(), xsDataInputObtained.marshal())示例7: generateXSDataIndexingResult
# 需要导入模块: from XSDataMXv1 import XSDataCrystal [as 别名]
# 或者: from XSDataMXv1.XSDataCrystal import setCell [as 别名]
def generateXSDataIndexingResult(_xsDataMOSFLMIndexingOutput, _xsDataExperimentalCondition=None):
"""
Translation from XSDataMOSFLMIndexingOutput to XSDataIndexingResult.
"""
EDVerbose.DEBUG("EDHandlerXSDataMOSFLMv10.generateXSDataIndexingOutput")
xsDataMOSFLMBeamPositionRefined = _xsDataMOSFLMIndexingOutput.getRefinedBeam()
xsDataMOSFLMBeamPositionShift = _xsDataMOSFLMIndexingOutput.getBeamShift()
dDeviationAngular = _xsDataMOSFLMIndexingOutput.getDeviationAngular().getValue()
dDeviationPositional = _xsDataMOSFLMIndexingOutput.getDeviationPositional().getValue()
dMosaicityEstimation = _xsDataMOSFLMIndexingOutput.getMosaicityEstimation().getValue()
dDistanceRefined = _xsDataMOSFLMIndexingOutput.getRefinedDistance().getValue()
iSelectedSolution = _xsDataMOSFLMIndexingOutput.getSelectedSolutionNumber().getValue()
iSpotsTotal = _xsDataMOSFLMIndexingOutput.getSpotsTotal().getValue()
iSpotsUsed = _xsDataMOSFLMIndexingOutput.getSpotsUsed().getValue()
xsDataCellRefined = _xsDataMOSFLMIndexingOutput.getRefinedNewmat().getRefinedCell()
xsDataMatrixA = _xsDataMOSFLMIndexingOutput.getRefinedNewmat().getAMatrix()
xsDataMatrixU = _xsDataMOSFLMIndexingOutput.getRefinedNewmat().getUMatrix()
strSelectedSpaceGroupName = _xsDataMOSFLMIndexingOutput.getSelectedSolutionSpaceGroup().getValue()
iSelectedSpaceGroupNumber = _xsDataMOSFLMIndexingOutput.getSelectedSolutionSpaceGroupNumber().getValue()
xsDataIndexingResult = XSDataIndexingResult()
xsDataIndexingSolutionSelected = None
for possibleSolutions in _xsDataMOSFLMIndexingOutput.getPossibleSolutions():
xsDataCrystal = XSDataCrystal()
xsDataSpaceGroup = XSDataSpaceGroup()
xsDataSpaceGroup.setName(XSDataString(possibleSolutions.getLattice().getValue()))
xsDataCrystal.setSpaceGroup(xsDataSpaceGroup)
xsDataCrystal.setCell(possibleSolutions.getCell())
xsDataIndexingSolution = XSDataIndexingSolution()
xsDataIndexingSolution.setCrystal(xsDataCrystal)
iIndex = possibleSolutions.getIndex().getValue()
xsDataIndexingSolution.setNumber(XSDataInteger(iIndex))
xsDataIndexingSolution.setPenalty(XSDataFloat(possibleSolutions.getPenalty().getValue()))
xsDataIndexingResult.addSolution(xsDataIndexingSolution)
if (iIndex == iSelectedSolution):
xsDataIndexingSolutionSelected = XSDataIndexingSolutionSelected()
xsDataIndexingSolutionSelected.setNumber(XSDataInteger(iIndex))
xsDataIndexingSolutionSelected.setPenalty(XSDataFloat(possibleSolutions.getPenalty().getValue()))
xsDataCrystalSelected = XSDataCrystal()
xsDataSpaceGroupSelected = XSDataSpaceGroup()
xsDataSpaceGroupSelected.setName(XSDataString(strSelectedSpaceGroupName))
xsDataSpaceGroupSelected.setITNumber(XSDataInteger(iSelectedSpaceGroupNumber))
xsDataCrystalSelected.setSpaceGroup(xsDataSpaceGroupSelected)
xsDataCrystalSelected.setCell(xsDataCellRefined)
xsDataCrystalSelected.setMosaicity(XSDataDouble(dMosaicityEstimation))
xsDataIndexingSolutionSelected.setCrystal(xsDataCrystalSelected)
xsDataOrientation = XSDataOrientation()
xsDataOrientation.setMatrixA(xsDataMatrixA)
xsDataOrientation.setMatrixU(xsDataMatrixU)
xsDataIndexingSolutionSelected.setOrientation(xsDataOrientation)
xsDataStatisticsIndexing = XSDataStatisticsIndexing()
xsDataStatisticsIndexing.setBeamPositionShiftX(XSDataLength(xsDataMOSFLMBeamPositionShift.getX().getValue()))
xsDataStatisticsIndexing.setBeamPositionShiftY(XSDataLength(xsDataMOSFLMBeamPositionShift.getY().getValue()))
xsDataStatisticsIndexing.setSpotDeviationAngular(XSDataAngle(dDeviationAngular))
xsDataStatisticsIndexing.setSpotDeviationPositional(XSDataLength(dDeviationPositional))
xsDataStatisticsIndexing.setSpotsUsed(XSDataInteger(iSpotsUsed))
xsDataStatisticsIndexing.setSpotsTotal(XSDataInteger(iSpotsTotal))
xsDataIndexingSolutionSelected.setStatistics(xsDataStatisticsIndexing)
xsDataExperimentalConditionRefined = None
if (_xsDataExperimentalCondition is None):
xsDataExperimentalConditionRefined = XSDataExperimentalCondition()
else:
# Copy the incoming experimental condition
xmlExperimentalCondition = _xsDataExperimentalCondition.marshal()
xsDataExperimentalConditionRefined = XSDataExperimentalCondition.parseString(xmlExperimentalCondition)
xsDataDetector = xsDataExperimentalConditionRefined.getDetector()
if (xsDataDetector is None):
xsDataDetector = XSDataDetector()
xsDataDetector.setBeamPositionX(XSDataLength(xsDataMOSFLMBeamPositionRefined.getX().getValue()))
xsDataDetector.setBeamPositionY(XSDataLength(xsDataMOSFLMBeamPositionRefined.getY().getValue()))
xsDataDetector.setDistance(XSDataLength(dDistanceRefined))
xsDataExperimentalConditionRefined.setDetector(xsDataDetector)
xsDataIndexingSolutionSelected.setExperimentalConditionRefined(xsDataExperimentalConditionRefined)
xsDataIndexingResult.setSelectedSolution(xsDataIndexingSolutionSelected)
return xsDataIndexingResult