本文整理汇总了Python中XSDataMXv1.XSDataDiffractionPlan.setAnomalousData方法的典型用法代码示例。如果您正苦于以下问题:Python XSDataDiffractionPlan.setAnomalousData方法的具体用法?Python XSDataDiffractionPlan.setAnomalousData怎么用?Python XSDataDiffractionPlan.setAnomalousData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.XSDataDiffractionPlan
的用法示例。
在下文中一共展示了XSDataDiffractionPlan.setAnomalousData方法的4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: setPluginInput
# 需要导入模块: from XSDataMXv1 import XSDataDiffractionPlan [as 别名]
# 或者: from XSDataMXv1.XSDataDiffractionPlan import setAnomalousData [as 别名]
def setPluginInput(self, _edPlugin):
xsDataDiffractionPlan = XSDataDiffractionPlan()
if (not self.__fMaxExposureTimePerDataCollection is None):
xsDataDiffractionPlan.setMaxExposureTimePerDataCollection(XSDataTime(self.__fMaxExposureTimePerDataCollection))
if (not self.__strForcedSpaceGroup is None):
xsDataDiffractionPlan.setForcedSpaceGroup(XSDataString(self.__strForcedSpaceGroup))
if (not self.__bAnomalousData is None):
xsDataDiffractionPlan.setAnomalousData(XSDataBoolean(self.__bAnomalousData))
if (not self.__strStrategyOption is None):
xsDataDiffractionPlan.setStrategyOption(XSDataString(self.__strStrategyOption))
if (not self.__strComplexity is None):
xsDataDiffractionPlan.setComplexity(XSDataString(self.__strComplexity))
_edPlugin.setDataInput(xsDataDiffractionPlan, "diffractionPlan")
if (not self.__listImagePaths is None):
for strImagePath in self.__listImagePaths:
_edPlugin.setDataInput(XSDataString(strImagePath), "imagePaths")
if (not self.__xsDataInputCharacterisation is None):
_edPlugin.setDataInput(self.__xsDataInputCharacterisation, "inputCharacterisation")
if (not self.__fFlux is None):
_edPlugin.setDataInput(XSDataFloat(self.__fFlux), "flux")
if (not self.__fMinExposureTimePerImage is None):
_edPlugin.setDataInput(XSDataFloat(self.__fMinExposureTimePerImage), "minExposureTimePerImage")
if (not self.__fBeamSize is None):
_edPlugin.setDataInput(XSDataFloat(self.__fBeamSize), "beamSize")
if (not self.__bTemplateMode is None):
_edPlugin.setDataInput(XSDataBoolean(self.__bTemplateMode), "templateMode")
if (not self.__strGeneratedTemplateFile is None):
_edPlugin.setDataInput(XSDataString(self.__strGeneratedTemplateFile), "generatedTemplateFile")
if (not self.__strResultsFilePath is None):
_edPlugin.setDataInput(XSDataString(self.__strResultsFilePath), "resultsFilePath")
if (not self.__fBeamPosX is None):
_edPlugin.setDataInput(XSDataFloat(self.__fBeamPosX), "beamPosX")
if (not self.__fBeamPosY is None):
_edPlugin.setDataInput(XSDataFloat(self.__fBeamPosY), "beamPosY")
if (not self.__iDataCollectionId is None):
_edPlugin.setDataInput(XSDataInteger(self.__iDataCollectionId), "dataCollectionId")
if (not self.__strShortComments is None):
_edPlugin.setDataInput(XSDataString(self.__strShortComments), "shortComments")
if (not self.__strComments is None):
_edPlugin.setDataInput(XSDataString(self.__strComments), "comments")
if (not self.__fTransmission is None):
_edPlugin.setDataInput(XSDataDouble(self.__fTransmission), "transmission")
示例2: createInputCharacterisationFromSubWedges
# 需要导入模块: from XSDataMXv1 import XSDataDiffractionPlan [as 别名]
# 或者: from XSDataMXv1.XSDataDiffractionPlan import setAnomalousData [as 别名]
def createInputCharacterisationFromSubWedges(self):
self.DEBUG("EDPluginControlInterfacev2_0.createInputCharacterisationFromSubWedges")
xsDataResultSubWedgeAssemble = self.edPluginControlSubWedgeAssemble.getDataOutput()
self.xsDataInputCharacterisation = XSDataInputCharacterisation()
xsDataCollection = XSDataCollection()
# Default exposure time (for the moment, this value should be
# possible to read from the command line)
xsDataDiffractionPlan = XSDataDiffractionPlan()
if (not xsDataResultSubWedgeAssemble is None):
pyListSubWedge = xsDataResultSubWedgeAssemble.getSubWedge()
xsDataCollection.setSubWedge(pyListSubWedge)
for xsDataSubWedge in pyListSubWedge:
if (self.strComplexity is not None):
xsDataDiffractionPlan.setComplexity(XSDataString(self.strComplexity))
if (self.fFlux is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setFlux(XSDataFloat(self.fFlux))
if (self.fBeamSize is not None):
xsDataSize = XSDataSize()
xsDataSize.setX(XSDataLength(self.fBeamSize))
xsDataSize.setY(XSDataLength(self.fBeamSize))
xsDataSubWedge.getExperimentalCondition().getBeam().setSize(xsDataSize)
if (self.fBeamPosX is not None):
xsDataSubWedge.getExperimentalCondition().getDetector().setBeamPositionX(XSDataLength(self.fBeamPosX))
if (self.fBeamPosY is not None):
xsDataSubWedge.getExperimentalCondition().getDetector().setBeamPositionY(XSDataLength(self.fBeamPosY))
if (self.fMinExposureTimePerImage is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setMinExposureTimePerImage(XSDataFloat(self.fMinExposureTimePerImage))
if (self.fTransmission is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setTransmission(XSDataDouble(self.fTransmission))
if (self.strForcedSpaceGroup is not None):
xsDataDiffractionPlan.setForcedSpaceGroup(XSDataString(self.strForcedSpaceGroup))
xsDataDiffractionPlan.setAnomalousData(XSDataBoolean(self.bAnomalousData))
xsDataDiffractionPlan.setMaxExposureTimePerDataCollection(XSDataTime(self.fMaxExposureTimePerDataCollection))
if (self.strStrategyOption is not None):
xsDataDiffractionPlan.setStrategyOption(XSDataString(self.strStrategyOption))
xsDataCollection.setDiffractionPlan(xsDataDiffractionPlan)
self.xsDataInputCharacterisation.setDataCollection(xsDataCollection)
示例3: EDPluginControlInterfacev1_3
# 需要导入模块: from XSDataMXv1 import XSDataDiffractionPlan [as 别名]
# 或者: from XSDataMXv1.XSDataDiffractionPlan import setAnomalousData [as 别名]
#.........这里部分代码省略.........
if self.xsDataDiffractionPlan is None:
self.xsDataDiffractionPlan = XSDataDiffractionPlan()
if (not xsDataResultSubWedgeAssemble is None):
pyListSubWedge = xsDataResultSubWedgeAssemble.getSubWedge()
xsDataCollection.setSubWedge(pyListSubWedge)
for xsDataSubWedge in pyListSubWedge:
if (self.strComplexity is not None):
self.xsDataDiffractionPlan.setComplexity(XSDataString(self.strComplexity))
if (self.fFlux is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setFlux(XSDataFlux(self.fFlux))
if (self.fBeamSizeX is not None) and (self.fBeamSizeY is not None):
xsDataSize = XSDataSize()
xsDataSize.setX(XSDataLength(self.fBeamSizeX))
xsDataSize.setY(XSDataLength(self.fBeamSizeY))
xsDataSubWedge.getExperimentalCondition().getBeam().setSize(xsDataSize)
if (self.fApertureSize is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setApertureSize(XSDataLength(self.fApertureSize))
if (self.fBeamPosX is not None):
xsDataSubWedge.getExperimentalCondition().getDetector().setBeamPositionX(XSDataLength(self.fBeamPosX))
if (self.fBeamPosY is not None):
xsDataSubWedge.getExperimentalCondition().getDetector().setBeamPositionY(XSDataLength(self.fBeamPosY))
if (self.fMinExposureTimePerImage is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setMinExposureTimePerImage(XSDataTime(self.fMinExposureTimePerImage))
if (self.fTransmission is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setTransmission(XSDataDouble(self.fTransmission))
if (self.fWavelength is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setWavelength(XSDataWavelength(self.fWavelength))
if self.fMinOscillationWidth != None:
xsDataSubWedge.getExperimentalCondition().getGoniostat().setMinOscillationWidth(XSDataAngle(self.fMinOscillationWidth))
if self.fMaxOscillationSpeed != None:
xsDataSubWedge.getExperimentalCondition().getGoniostat().setMaxOscillationSpeed(XSDataAngularSpeed(self.fMaxOscillationSpeed))
if (self.strForcedSpaceGroup is not None):
self.xsDataDiffractionPlan.setForcedSpaceGroup(XSDataString(self.strForcedSpaceGroup))
self.xsDataDiffractionPlan.setAnomalousData(XSDataBoolean(self.bAnomalousData))
self.xsDataDiffractionPlan.setMaxExposureTimePerDataCollection(XSDataTime(self.fMaxExposureTimePerDataCollection))
if (self.strStrategyOption is not None):
self.xsDataDiffractionPlan.setStrategyOption(XSDataString(self.strStrategyOption))
xsDataCollection.setDiffractionPlan(self.xsDataDiffractionPlan)
if self.xsDataSample is not None:
xsDataCollection.setSample(XSDataSampleCrystalMM.parseString(self.xsDataSample.marshal()))
self.xsDataInputCharacterisation.setDataCollection(xsDataCollection)
def generateTemplateFile(self, _edPlugin):
self.DEBUG("EDPluginControlInterfacev1_3.generateTemplateFile")
self.createInputCharacterisationFromSubWedges()
if(self.strGeneratedTemplateFile is None):
self.screen("No argument for command line --generateTemplate key word found!")
elif (self.xsDataInputCharacterisation is None):
self.screen("ERROR! Cannot generate template file %s, please check the log files." % self.strGeneratedTemplateFile)
else:
self.screen("Generating xml template input file for edna: " + self.strGeneratedTemplateFile + "...")
self.xsDataInputCharacterisation.exportToFile(self.strGeneratedTemplateFile)
def doSubWedgeAssembleSUCCESS(self, _edPlugin):
self.DEBUG("EDPluginControlInterfacev1_3.doSubWedgeAssembleSUCCESS")
self.createInputCharacterisationFromSubWedges()
self.runCharacterisationPlugin(_edPlugin)
def doSubWedgeAssembleFAILURE(self, _edPlugin):
self.DEBUG("EDPluginControlInterfacev1_3.doSubWedgeAssembleFAILURE")
self.screen("Execution of " + self.strEDPluginControlSubWedgeAssembleName + " failed.")
self.screen("Please inspect the log file for further information.")
self.setFailure()
示例4: EDPluginControlInterfacev1_2
# 需要导入模块: from XSDataMXv1 import XSDataDiffractionPlan [as 别名]
# 或者: from XSDataMXv1.XSDataDiffractionPlan import setAnomalousData [as 别名]
#.........这里部分代码省略.........
# Default exposure time (for the moment, this value should be
# possible to read from the command line)
if self.xsDataDiffractionPlan is None:
self.xsDataDiffractionPlan = XSDataDiffractionPlan()
if (not xsDataResultSubWedgeAssemble is None):
pyListSubWedge = xsDataResultSubWedgeAssemble.getSubWedge()
xsDataCollection.setSubWedge(pyListSubWedge)
for xsDataSubWedge in pyListSubWedge:
if (self.strComplexity is not None):
self.xsDataDiffractionPlan.setComplexity(XSDataString(self.strComplexity))
if (self.fFlux is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setFlux(XSDataFlux(self.fFlux))
if (self.fBeamSizeX is not None) and (self.fBeamSizeY is not None):
xsDataSize = XSDataSize()
xsDataSize.setX(XSDataLength(self.fBeamSizeX))
xsDataSize.setY(XSDataLength(self.fBeamSizeY))
xsDataSubWedge.getExperimentalCondition().getBeam().setSize(xsDataSize)
if (self.fBeamPosX is not None):
xsDataSubWedge.getExperimentalCondition().getDetector().setBeamPositionX(XSDataLength(self.fBeamPosX))
if (self.fBeamPosY is not None):
xsDataSubWedge.getExperimentalCondition().getDetector().setBeamPositionY(XSDataLength(self.fBeamPosY))
if (self.fMinExposureTimePerImage is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setMinExposureTimePerImage(XSDataTime(self.fMinExposureTimePerImage))
if (self.fTransmission is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setTransmission(XSDataDouble(self.fTransmission))
if (self.fWavelength is not None):
xsDataSubWedge.getExperimentalCondition().getBeam().setWavelength(XSDataWavelength(self.fWavelength))
if self.fMinOscillationWidth != None:
xsDataSubWedge.getExperimentalCondition().getGoniostat().setMinOscillationWidth(XSDataAngle(self.fMinOscillationWidth))
if self.fMaxOscillationSpeed != None:
xsDataSubWedge.getExperimentalCondition().getGoniostat().setMaxOscillationSpeed(XSDataAngularSpeed(self.fMaxOscillationSpeed))
if (self.strForcedSpaceGroup is not None):
self.xsDataDiffractionPlan.setForcedSpaceGroup(XSDataString(self.strForcedSpaceGroup))
self.xsDataDiffractionPlan.setAnomalousData(XSDataBoolean(self.bAnomalousData))
self.xsDataDiffractionPlan.setMaxExposureTimePerDataCollection(XSDataTime(self.fMaxExposureTimePerDataCollection))
if (self.strStrategyOption is not None):
self.xsDataDiffractionPlan.setStrategyOption(XSDataString(self.strStrategyOption))
xsDataCollection.setDiffractionPlan(self.xsDataDiffractionPlan)
if self.xsDataSample is not None:
xsDataCollection.setSample(XSDataSampleCrystalMM.parseString(self.xsDataSample.marshal()))
self.xsDataInputCharacterisation.setDataCollection(xsDataCollection)
def generateTemplateFile(self, _edPlugin):
EDVerbose.DEBUG("EDPluginControlInterfacev1_2.generateTemplateFile")
self.createInputCharacterisationFromSubWedges()
if(self.strGeneratedTemplateFile is None):
EDVerbose.screen("No argument for command line --generateTemplate key word found!")
elif (self.xsDataInputCharacterisation is None):
EDVerbose.screen("ERROR! Cannot generate template file %s, please check the log files." % self.strGeneratedTemplateFile)
else:
EDVerbose.screen("Generating xml template input file for edna: " + self.strGeneratedTemplateFile + "...")
self.xsDataInputCharacterisation.exportToFile(self.strGeneratedTemplateFile)
def doSubWedgeAssembleSUCCESS(self, _edPlugin):
EDVerbose.DEBUG("EDPluginControlInterfacev1_2.doSubWedgeAssembleSUCCESS")
self.createInputCharacterisationFromSubWedges()
self.runCharacterisationPlugin(_edPlugin)
def doSubWedgeAssembleFAILURE(self, _edPlugin):
EDVerbose.DEBUG("EDPluginControlInterfacev1_2.doSubWedgeAssembleFAILURE")
EDVerbose.screen("Execution of " + self.strEDPluginControlSubWedgeAssembleName + " failed.")
EDVerbose.screen("Please inspect the log file for further information.")
self.setFailure()