def testSetDataModelInput(self): edPluginStrategy = self.createPlugin() strPathToTestConfigFile = os.path.join(self.getPluginTestsDataHome(), "XSConfiguration_ESRF.xml") edConfiguration = EDConfiguration(strPathToTestConfigFile) dictItem = edConfiguration.get(edPluginStrategy.getPluginName()) edPluginStrategy.setConfig(dictItem) edPluginStrategy.configure() xsDataStrategy = XSDataInputStrategy() # Beam xsExperimentalCondition = XSDataExperimentalCondition() xsBeam = XSDataBeam() xsBeam.setFlux(XSDataFlux(1e+12)) xsBeam.setWavelength(XSDataWavelength(2.41)) xsBeam.setSize(XSDataSize(x=XSDataLength(0.1), y=XSDataLength(0.1))) xsBeam.setExposureTime(XSDataTime(1)) xsExperimentalCondition.setBeam(xsBeam) # Detector and Exposure Time xsDataDetector = XSDataDetector() xsDataDetector.setType(XSDataString("q210-2x")) xsExperimentalCondition.setDetector(xsDataDetector) 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())
def testSetDataModelInput(self): edPluginStrategy = self.createPlugin() strPathToTestConfigFile = os.path.join(self.getPluginTestsDataHome(), "XSConfiguration_ESRF.xml") edConfiguration = EDConfiguration(strPathToTestConfigFile) dictItem = edConfiguration.get(edPluginStrategy.getPluginName()) edPluginStrategy.setConfig(dictItem) edPluginStrategy.configure() xsDataStrategy = XSDataInputStrategy() # Beam xsExperimentalCondition = XSDataExperimentalCondition() xsBeam = XSDataBeam() xsBeam.setFlux(XSDataFlux(1e+12)) xsBeam.setWavelength(XSDataWavelength(2.41)) xsBeam.setSize(XSDataSize(x=XSDataLength(0.1), y=XSDataLength(0.1))) xsBeam.setExposureTime(XSDataTime(1)) xsExperimentalCondition.setBeam(xsBeam) # Detector and Exposure Time xsDataDetector = XSDataDetector() xsDataDetector.setType(XSDataString("q210-2x")) xsExperimentalCondition.setDetector(xsDataDetector) 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())
def testGetXSDataRaddoseInput(self): """ """ from XSDataCommon import XSDataLength from XSDataCommon import XSDataWavelength from XSDataCommon import XSDataFlux from XSDataCommon import XSDataSize from XSDataCommon import XSDataDouble from XSDataCommon import XSDataString from XSDataCommon import XSDataAngle from XSDataCommon import XSDataTime from XSDataCommon import XSDataInteger from XSDataMXv1 import XSDataBeam from XSDataMXv1 import XSDataStructure from XSDataMXv1 import XSDataChain from XSDataMXv1 import XSDataAtom from XSDataMXv1 import XSDataLigand from XSDataMXv1 import XSDataCrystal from XSDataMXv1 import XSDataSpaceGroup from XSDataMXv1 import XSDataSampleCrystalMM from XSDataMXv1 import XSDataChemicalCompositionMM from XSDataMXv1 import XSDataAtomicComposition from XSDataMXv1 import XSDataSolvent 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())
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)
def testGetXSDataRaddoseInput(self): """ """ from XSDataCommon import XSDataLength from XSDataCommon import XSDataWavelength from XSDataCommon import XSDataFlux from XSDataCommon import XSDataSize from XSDataCommon import XSDataDouble from XSDataCommon import XSDataString from XSDataCommon import XSDataAngle from XSDataCommon import XSDataTime from XSDataCommon import XSDataInteger from XSDataMXv1 import XSDataBeam from XSDataMXv1 import XSDataStructure from XSDataMXv1 import XSDataChain from XSDataMXv1 import XSDataAtom from XSDataMXv1 import XSDataLigand from XSDataMXv1 import XSDataCrystal from XSDataMXv1 import XSDataSpaceGroup from XSDataMXv1 import XSDataSampleCrystalMM from XSDataMXv1 import XSDataChemicalCompositionMM from XSDataMXv1 import XSDataAtomicComposition from XSDataMXv1 import XSDataSolvent 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)) xsDataBeam.setExposureTime(XSDataTime(0.037)) 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 iNumberOfImages = 2 xsDataRaddosev01Input = EDHandlerXSDataRaddosev10( ).getXSDataRaddoseInput(xsDataBeam, xsDataSample, iNumSymOperators, iNumberOfImages) 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())