def generateDataMOSFLMInputGeneratePrediction(self):
        """
        """
        from XSDataMOSFLMv10 import XSDataMOSFLMBeamPosition
        xsDataMOSFLMBeamPosition = XSDataMOSFLMBeamPosition()
        xsDataMOSFLMBeamPosition.setX(XSDataLength(102.5))
        xsDataMOSFLMBeamPosition.setY(XSDataLength(104.7))

        from XSDataMOSFLMv10 import XSDataMOSFLMDetector
        xsDataMOSFLMDetector = XSDataMOSFLMDetector()
        xsDataMOSFLMDetector.setType(XSDataString("ADSC"))

        from XSDataMOSFLMv10 import XSDataMOSFLMImage
        xsDataMOSFLMImage1 = XSDataMOSFLMImage()
        xsDataMOSFLMImage1.setNumber(XSDataInteger(1))
        xsDataMOSFLMImage1.setRotationAxisStart(XSDataAngle(0.0))
        xsDataMOSFLMImage1.setRotationAxisEnd(XSDataAngle(1.0))

        from XSDataMOSFLMv10 import XSDataMOSFLMInputGeneratePrediction
        xsDataMOSFLMInputGeneratePrediction = XSDataMOSFLMInputGeneratePrediction(
        )
        xsDataMOSFLMInputGeneratePrediction.setDistance(XSDataLength(198.4))
        xsDataMOSFLMInputGeneratePrediction.setWavelength(
            XSDataWavelength(0.9340))
        xsDataMOSFLMInputGeneratePrediction.setBeam(xsDataMOSFLMBeamPosition)
        xsDataMOSFLMInputGeneratePrediction.setDetector(xsDataMOSFLMDetector)
        xsDataMOSFLMInputGeneratePrediction.setDirectory(
            XSDataString(self.strDataImagePath))
        xsDataMOSFLMInputGeneratePrediction.setTemplate(
            XSDataString("ref-testscale_1_###.img"))
        xsDataMOSFLMInputGeneratePrediction.setImage(xsDataMOSFLMImage1)

        return xsDataMOSFLMInputGeneratePrediction
    def generateDataMOSFLMInputGeneratePrediction(self):
        """
        """
        from XSDataMOSFLMv10 import XSDataMOSFLMBeamPosition

        xsDataMOSFLMBeamPosition = XSDataMOSFLMBeamPosition()
        xsDataMOSFLMBeamPosition.setX(XSDataLength(102.5))
        xsDataMOSFLMBeamPosition.setY(XSDataLength(104.7))

        from XSDataMOSFLMv10 import XSDataMOSFLMDetector

        xsDataMOSFLMDetector = XSDataMOSFLMDetector()
        xsDataMOSFLMDetector.setType(XSDataString("ADSC"))

        from XSDataMOSFLMv10 import XSDataMOSFLMImage

        xsDataMOSFLMImage1 = XSDataMOSFLMImage()
        xsDataMOSFLMImage1.setNumber(XSDataInteger(1))
        xsDataMOSFLMImage1.setRotationAxisStart(XSDataAngle(0.0))
        xsDataMOSFLMImage1.setRotationAxisEnd(XSDataAngle(1.0))

        from XSDataMOSFLMv10 import XSDataMOSFLMInputGeneratePrediction

        xsDataMOSFLMInputGeneratePrediction = XSDataMOSFLMInputGeneratePrediction()
        xsDataMOSFLMInputGeneratePrediction.setDistance(XSDataLength(198.4))
        xsDataMOSFLMInputGeneratePrediction.setWavelength(XSDataWavelength(0.9340))
        xsDataMOSFLMInputGeneratePrediction.setBeam(xsDataMOSFLMBeamPosition)
        xsDataMOSFLMInputGeneratePrediction.setDetector(xsDataMOSFLMDetector)
        xsDataMOSFLMInputGeneratePrediction.setDirectory(XSDataString(self.strDataImagePath))
        xsDataMOSFLMInputGeneratePrediction.setTemplate(XSDataString("ref-testscale_1_###.img"))
        xsDataMOSFLMInputGeneratePrediction.setImage(xsDataMOSFLMImage1)

        return xsDataMOSFLMInputGeneratePrediction
    def generateXSDataMOSFLMInputIndexing(_xsDataIndexingInput):
        """
        Translation from XSDataIndexingInput to XSDataMOSFLMInputIndexing.
        """
        EDFactoryPluginStatic.loadModule("XSDataMOSFLMv10")
        from XSDataMOSFLMv10 import XSDataMOSFLMInputIndexing
        from XSDataMOSFLMv10 import XSDataMOSFLMBeamPosition
        from XSDataMOSFLMv10 import XSDataMOSFLMImage

        EDVerbose.DEBUG(
            "EDHandlerXSDataMOSFLMv10.generateXSDataMOSFLMInputIndexing")

        xsDataCollection = _xsDataIndexingInput.getDataCollection()
        xsDataExperimentalCondition = _xsDataIndexingInput.getExperimentalCondition(
        )
        xsDataCrystal = _xsDataIndexingInput.getCrystal()
        xsDataSubWedgeList = xsDataCollection.getSubWedge()
        xsDataMOSFLMInputIndexing = XSDataMOSFLMInputIndexing()

        if (xsDataExperimentalCondition is None):
            xsDataExperimentalCondition = xsDataSubWedgeList[
                0].getExperimentalCondition()

        xsDataBeam = xsDataExperimentalCondition.getBeam()
        xsDataDetector = xsDataExperimentalCondition.getDetector()
        xsDataGoniostat = xsDataExperimentalCondition.getGoniostat()

        dWavelength = xsDataBeam.getWavelength().getValue()
        dDistance = xsDataDetector.getDistance().getValue()
        dBeamPositionX = xsDataDetector.getBeamPositionX().getValue()
        dBeamPositionY = xsDataDetector.getBeamPositionY().getValue()

        xsDataMOSFLMBeamPosition = XSDataMOSFLMBeamPosition()
        xsDataMOSFLMBeamPosition.setX(XSDataLength(dBeamPositionX))
        xsDataMOSFLMBeamPosition.setY(XSDataLength(dBeamPositionY))
        xsDataMOSFLMInputIndexing.setBeam(xsDataMOSFLMBeamPosition)

        xsDataMOSFLMDetector = EDHandlerXSDataMOSFLMv10.getXSDataMOSFLMDetector(
            xsDataDetector)
        xsDataMOSFLMInputIndexing.setDetector(xsDataMOSFLMDetector)

        xsDataMOSFLMInputIndexing.setWavelength(XSDataWavelength(dWavelength))
        xsDataMOSFLMInputIndexing.setDistance(XSDataLength(dDistance))

        xsDataSubWedgeFirst = xsDataSubWedgeList[0]
        xsDataImageFirst = xsDataSubWedgeFirst.getImage()[0]
        strPath = xsDataImageFirst.getPath().getValue()
        strFileName = os.path.basename(strPath)
        strDirectory = os.path.dirname(strPath)

        if xsDataDetector.type.value == "eiger2_16m":
            strMOSFLMTemplate = EDUtilsImage.getH5MasterTemplate(
                strFileName, 1)
        else:
            strMOSFLMTemplate = EDUtilsImage.getTemplate(strFileName, "#")
        xsDataMOSFLMInputIndexing.setTemplate(XSDataString(strMOSFLMTemplate))
        xsDataMOSFLMInputIndexing.setDirectory(XSDataString(strDirectory))

        if (xsDataCrystal is not None):
            xsDataSpaceGroup = xsDataCrystal.getSpaceGroup()
            if (xsDataSpaceGroup is not None):
                xsDataStringName = xsDataSpaceGroup.getName()
                if (xsDataStringName is not None):
                    xsDataMOSFLMInputIndexing.setSymmetry(
                        XSDataString(xsDataStringName.getValue()))

        # Loop through the list of sub wedges

        for xsDataSubWedge in xsDataSubWedgeList:

            xsDataImageList = xsDataSubWedge.getImage()
            xsDataGoniostat = xsDataSubWedge.getExperimentalCondition(
            ).getGoniostat()
            fGonioStatOscillationStart = xsDataGoniostat.getRotationAxisStart(
            ).getValue()
            fGonioStatOscillationRange = xsDataGoniostat.getOscillationWidth(
            ).getValue()

            # First find the lowest image number
            iLowestImageNumber = None
            for xsDataImage in xsDataImageList:
                iImageNumber = xsDataImage.getNumber().getValue()
                if (iLowestImageNumber is None):
                    iLowestImageNumber = iImageNumber
                elif (iImageNumber < iLowestImageNumber):
                    iLowestImageNumber = iImageNumber

            # Loop through the list of images

            for xsDataImage in xsDataImageList:
                # Create the MOSFLM image object

                xsDataMOSFLMImage = XSDataMOSFLMImage()

                iImageNumber = xsDataImage.getNumber().getValue()
                xsDataMOSFLMImage.setNumber(XSDataInteger(iImageNumber))

                fImageOscillationStart = fGonioStatOscillationStart + (
                    iImageNumber -
                    iLowestImageNumber) * fGonioStatOscillationRange
                xsDataMOSFLMImage.setRotationAxisStart(
                    XSDataAngle(fImageOscillationStart))
                xsDataMOSFLMImage.setRotationAxisEnd(
                    XSDataAngle(fImageOscillationStart +
                                fGonioStatOscillationRange))

                xsDataMOSFLMInputIndexing.addImage(xsDataMOSFLMImage)

        return xsDataMOSFLMInputIndexing
    def generateXSDataMOSFLMInputGeneratePrediction(
            xsDataGeneratePredictionInput):
        """
        Translation from XSDataGeneratePredictionInput to XSDataMOSFLMInputGeneratePrediction.
        """
        EDVerbose.DEBUG(
            "EDHandlerXSDataMOSFLMv10.generateXSDataMOSFLMInputGeneratePrediction"
        )
        EDFactoryPluginStatic.loadModule("XSDataMOSFLMv10")
        from XSDataMOSFLMv10 import XSDataMOSFLMBeamPosition
        from XSDataMOSFLMv10 import XSDataMOSFLMImage
        from XSDataMOSFLMv10 import XSDataMOSFLMNewmat
        from XSDataMOSFLMv10 import XSDataMOSFLMMissettingsAngles
        from XSDataMOSFLMv10 import XSDataMOSFLMInputGeneratePrediction

        xsDataIndexingSolutionSelected = xsDataGeneratePredictionInput.getSelectedIndexingSolution(
        )

        xsDataCollection = xsDataGeneratePredictionInput.getDataCollection()
        xsDataSubWedge = xsDataCollection.getSubWedge()[0]
        xsDataImageList = xsDataSubWedge.getImage()
        xsDataImageFirst = xsDataImageList[0]

        xsDataCrystal = xsDataIndexingSolutionSelected.getCrystal()
        xsDataOrientation = xsDataIndexingSolutionSelected.getOrientation()
        xsDataExperimentalCondition = xsDataIndexingSolutionSelected.getExperimentalConditionRefined(
        )
        xsDataDetector = xsDataExperimentalCondition.getDetector()
        xsDataBeam = xsDataExperimentalCondition.getBeam()
        xsDataMatrixA = xsDataOrientation.getMatrixA()
        xsDataMatrixU = xsDataOrientation.getMatrixU()
        xsDataCell = xsDataCrystal.getCell()

        xsDataMOSFLMInputGeneratePrediction = XSDataMOSFLMInputGeneratePrediction(
        )
        xsDataMOSFLMNewmat = XSDataMOSFLMNewmat()
        xsDataMOSFLMNewmat.setRefinedCell(xsDataCell)
        xsDataMOSFLMNewmat.setAMatrix(xsDataMatrixA)
        xsDataMOSFLMNewmat.setUMatrix(xsDataMatrixU)
        xsDataMOSFLMInputGeneratePrediction.setMatrix(xsDataMOSFLMNewmat)

        xsDataMOSFLMMissettingsAngles = XSDataMOSFLMMissettingsAngles()
        xsDataMOSFLMMissettingsAngles.setPhix(XSDataAngle(0.0))
        xsDataMOSFLMMissettingsAngles.setPhiy(XSDataAngle(0.0))
        xsDataMOSFLMMissettingsAngles.setPhiz(XSDataAngle(0.0))
        xsDataMOSFLMNewmat.setMissettingAngles(xsDataMOSFLMMissettingsAngles)

        xsDataMOSFLMBeamPosition = XSDataMOSFLMBeamPosition()
        xsDataMOSFLMBeamPosition.setX(xsDataDetector.getBeamPositionX())
        xsDataMOSFLMBeamPosition.setY(xsDataDetector.getBeamPositionY())
        xsDataMOSFLMInputGeneratePrediction.setBeam(xsDataMOSFLMBeamPosition)

        xsDataMOSFLMInputGeneratePrediction.setMosaicity(
            xsDataCrystal.getMosaicity())
        xsDataMOSFLMInputGeneratePrediction.setSymmetry(
            xsDataCrystal.getSpaceGroup().getName())

        strPathFirst = xsDataImageFirst.getPath().getValue()
        strDirectoryFirst = os.path.dirname(strPathFirst)
        strFilenameFirst = os.path.basename(strPathFirst)

        xsDataMOSFLMInputGeneratePrediction.setWavelength(
            xsDataBeam.getWavelength())
        xsDataMOSFLMInputGeneratePrediction.setDistance(
            xsDataDetector.getDistance())
        xsDataMOSFLMInputGeneratePrediction.setDirectory(
            XSDataString(strDirectoryFirst))
        xsDataMOSFLMDetector = EDHandlerXSDataMOSFLMv10.getXSDataMOSFLMDetector(
            xsDataDetector)
        xsDataMOSFLMInputGeneratePrediction.setDetector(xsDataMOSFLMDetector)

        # The MOSFLM plugin can only handle one image

        xsDataImage = xsDataSubWedge.getImage()[0]
        xsDataGoniostat = xsDataSubWedge.getExperimentalCondition(
        ).getGoniostat()

        iImageNumber = xsDataImage.getNumber().getValue()

        if xsDataDetector.type.value == "eiger2_16m":
            strMOSFLMTemplate = EDUtilsImage.getH5MasterTemplate(
                strFilenameFirst, iImageNumber)
        else:
            strMOSFLMTemplate = EDUtilsImage.getTemplate(strFilenameFirst, "#")
        xsDataMOSFLMInputGeneratePrediction.setTemplate(
            XSDataString(strMOSFLMTemplate))

        xsDataMOSFLMImage = XSDataMOSFLMImage()
        xsDataMOSFLMImage.setNumber(XSDataInteger(iImageNumber))

        fOscillationStart = xsDataGoniostat.getRotationAxisStart().getValue()
        fOscillationRange = xsDataGoniostat.getOscillationWidth().getValue()
        xsDataMOSFLMImage.setRotationAxisStart(XSDataAngle(fOscillationStart))
        xsDataMOSFLMImage.setRotationAxisEnd(
            XSDataAngle(fOscillationStart + fOscillationRange))

        xsDataMOSFLMInputGeneratePrediction.setImage(xsDataMOSFLMImage)

        return xsDataMOSFLMInputGeneratePrediction
    def generateXSDataMOSFLMInputIndexing(_xsDataIndexingInput):
        """
        Translation from XSDataIndexingInput to XSDataMOSFLMInputIndexing.
        """
        EDFactoryPluginStatic.loadModule("XSDataMOSFLMv10")
        from XSDataMOSFLMv10 import XSDataMOSFLMInputIndexing
        from XSDataMOSFLMv10 import XSDataMOSFLMBeamPosition
        from XSDataMOSFLMv10 import XSDataMOSFLMImage

        EDVerbose.DEBUG("EDHandlerXSDataMOSFLMv10.generateXSDataMOSFLMInputIndexing")

        xsDataCollection = _xsDataIndexingInput.getDataCollection()
        xsDataExperimentalCondition = _xsDataIndexingInput.getExperimentalCondition()
        xsDataCrystal = _xsDataIndexingInput.getCrystal()
        xsDataSubWedgeList = xsDataCollection.getSubWedge()
        xsDataMOSFLMInputIndexing = XSDataMOSFLMInputIndexing()

        if (xsDataExperimentalCondition is None):
            xsDataExperimentalCondition = xsDataSubWedgeList[0].getExperimentalCondition()

        xsDataBeam = xsDataExperimentalCondition.getBeam()
        xsDataDetector = xsDataExperimentalCondition.getDetector()
        xsDataGoniostat = xsDataExperimentalCondition.getGoniostat()

        dWavelength = xsDataBeam.getWavelength().getValue()
        dDistance = xsDataDetector.getDistance().getValue()
        dBeamPositionX = xsDataDetector.getBeamPositionX().getValue()
        dBeamPositionY = xsDataDetector.getBeamPositionY().getValue()

        xsDataMOSFLMBeamPosition = XSDataMOSFLMBeamPosition()
        xsDataMOSFLMBeamPosition.setX(XSDataLength(dBeamPositionX))
        xsDataMOSFLMBeamPosition.setY(XSDataLength(dBeamPositionY))
        xsDataMOSFLMInputIndexing.setBeam(xsDataMOSFLMBeamPosition)

        xsDataMOSFLMDetector = EDHandlerXSDataMOSFLMv10.getXSDataMOSFLMDetector(xsDataDetector)
        xsDataMOSFLMInputIndexing.setDetector(xsDataMOSFLMDetector)

        xsDataMOSFLMInputIndexing.setWavelength(XSDataWavelength(dWavelength))
        xsDataMOSFLMInputIndexing.setDistance(XSDataLength(dDistance))

        xsDataSubWedgeFirst = xsDataSubWedgeList[0]
        xsDataImageFirst = xsDataSubWedgeFirst.getImage()[0]
        strPath = xsDataImageFirst.getPath().getValue()
        strFileName = os.path.basename(strPath)
        strDirectory = os.path.dirname(strPath)

        strMOSFLMTemplate = EDUtilsImage.getTemplate(strFileName, "#")
        xsDataMOSFLMInputIndexing.setTemplate(XSDataString(strMOSFLMTemplate))
        xsDataMOSFLMInputIndexing.setDirectory(XSDataString(strDirectory))

        if (xsDataCrystal is not None):
            xsDataSpaceGroup = xsDataCrystal.getSpaceGroup()
            if (xsDataSpaceGroup is not None):
                xsDataStringName = xsDataSpaceGroup.getName()
                if (xsDataStringName is not None):
                    xsDataMOSFLMInputIndexing.setSymmetry(XSDataString(xsDataStringName.getValue()))

        # Loop through the list of sub wedges 

        for xsDataSubWedge in xsDataSubWedgeList:

            xsDataImageList = xsDataSubWedge.getImage()
            xsDataGoniostat = xsDataSubWedge.getExperimentalCondition().getGoniostat()
            fGonioStatOscillationStart = xsDataGoniostat.getRotationAxisStart().getValue()
            fGonioStatOscillationRange = xsDataGoniostat.getOscillationWidth().getValue()

            # First find the lowest image number
            iLowestImageNumber = None
            for xsDataImage in xsDataImageList:
                iImageNumber = xsDataImage.getNumber().getValue()
                if (iLowestImageNumber is None):
                    iLowestImageNumber = iImageNumber
                elif (iImageNumber < iLowestImageNumber):
                    iLowestImageNumber = iImageNumber

            # Loop through the list of images

            for xsDataImage in xsDataImageList:
                # Create the MOSFLM image object

                xsDataMOSFLMImage = XSDataMOSFLMImage()

                iImageNumber = xsDataImage.getNumber().getValue()
                xsDataMOSFLMImage.setNumber(XSDataInteger(iImageNumber))

                fImageOscillationStart = fGonioStatOscillationStart + (iImageNumber - iLowestImageNumber) * fGonioStatOscillationRange
                xsDataMOSFLMImage.setRotationAxisStart(XSDataAngle(fImageOscillationStart))
                xsDataMOSFLMImage.setRotationAxisEnd(XSDataAngle(fImageOscillationStart + fGonioStatOscillationRange))

                xsDataMOSFLMInputIndexing.addImage(xsDataMOSFLMImage)

        return xsDataMOSFLMInputIndexing
    def generateXSDataMOSFLMInputGeneratePrediction(xsDataGeneratePredictionInput):
        """
        Translation from XSDataGeneratePredictionInput to XSDataMOSFLMInputGeneratePrediction.
        """
        EDVerbose.DEBUG("EDHandlerXSDataMOSFLMv10.generateXSDataMOSFLMInputGeneratePrediction")
        EDFactoryPluginStatic.loadModule("XSDataMOSFLMv10")
        from XSDataMOSFLMv10 import XSDataMOSFLMBeamPosition
        from XSDataMOSFLMv10 import XSDataMOSFLMImage
        from XSDataMOSFLMv10 import XSDataMOSFLMNewmat
        from XSDataMOSFLMv10 import XSDataMOSFLMMissettingsAngles
        from XSDataMOSFLMv10 import XSDataMOSFLMInputGeneratePrediction

        xsDataIndexingSolutionSelected = xsDataGeneratePredictionInput.getSelectedIndexingSolution()

        xsDataCollection = xsDataGeneratePredictionInput.getDataCollection()
        xsDataSubWedge = xsDataCollection.getSubWedge()[0]
        xsDataImageList = xsDataSubWedge.getImage()
        xsDataImageFirst = xsDataImageList[0]

        xsDataCrystal = xsDataIndexingSolutionSelected.getCrystal()
        xsDataOrientation = xsDataIndexingSolutionSelected.getOrientation()
        xsDataExperimentalCondition = xsDataIndexingSolutionSelected.getExperimentalConditionRefined()
        xsDataDetector = xsDataExperimentalCondition.getDetector()
        xsDataBeam = xsDataExperimentalCondition.getBeam()
        xsDataMatrixA = xsDataOrientation.getMatrixA()
        xsDataMatrixU = xsDataOrientation.getMatrixU()
        xsDataCell = xsDataCrystal.getCell()

        xsDataMOSFLMInputGeneratePrediction = XSDataMOSFLMInputGeneratePrediction()
        xsDataMOSFLMNewmat = XSDataMOSFLMNewmat()
        xsDataMOSFLMNewmat.setRefinedCell(xsDataCell)
        xsDataMOSFLMNewmat.setAMatrix(xsDataMatrixA)
        xsDataMOSFLMNewmat.setUMatrix(xsDataMatrixU)
        xsDataMOSFLMInputGeneratePrediction.setMatrix(xsDataMOSFLMNewmat)

        xsDataMOSFLMMissettingsAngles = XSDataMOSFLMMissettingsAngles()
        xsDataMOSFLMMissettingsAngles.setPhix(XSDataAngle(0.0))
        xsDataMOSFLMMissettingsAngles.setPhiy(XSDataAngle(0.0))
        xsDataMOSFLMMissettingsAngles.setPhiz(XSDataAngle(0.0))
        xsDataMOSFLMNewmat.setMissettingAngles(xsDataMOSFLMMissettingsAngles)

        xsDataMOSFLMBeamPosition = XSDataMOSFLMBeamPosition()
        xsDataMOSFLMBeamPosition.setX(xsDataDetector.getBeamPositionX())
        xsDataMOSFLMBeamPosition.setY(xsDataDetector.getBeamPositionY())
        xsDataMOSFLMInputGeneratePrediction.setBeam(xsDataMOSFLMBeamPosition)

        xsDataMOSFLMInputGeneratePrediction.setMosaicity(xsDataCrystal.getMosaicity())
        xsDataMOSFLMInputGeneratePrediction.setSymmetry(xsDataCrystal.getSpaceGroup().getName())

        strPathFirst = xsDataImageFirst.getPath().getValue()
        strDirectoryFirst = os.path.dirname(strPathFirst)
        strFilenameFirst = os.path.basename(strPathFirst)

        xsDataMOSFLMInputGeneratePrediction.setWavelength(xsDataBeam.getWavelength())
        xsDataMOSFLMInputGeneratePrediction.setDistance(xsDataDetector.getDistance())
        xsDataMOSFLMInputGeneratePrediction.setDirectory(XSDataString(strDirectoryFirst))
        xsDataMOSFLMDetector = EDHandlerXSDataMOSFLMv10.getXSDataMOSFLMDetector(xsDataDetector)
        xsDataMOSFLMInputGeneratePrediction.setDetector(xsDataMOSFLMDetector)

        strMOSFLMTemplate = EDUtilsImage.getTemplate(strFilenameFirst, "#")
        xsDataMOSFLMInputGeneratePrediction.setTemplate(XSDataString(strMOSFLMTemplate))

        # The MOSFLM plugin can only handle one image 

        xsDataImage = xsDataSubWedge.getImage()[0]
        xsDataGoniostat = xsDataSubWedge.getExperimentalCondition().getGoniostat()

        xsDataMOSFLMImage = XSDataMOSFLMImage()

        iImageNumber = xsDataImage.getNumber().getValue()
        xsDataMOSFLMImage.setNumber(XSDataInteger(iImageNumber))

        fOscillationStart = xsDataGoniostat.getRotationAxisStart().getValue()
        fOscillationRange = xsDataGoniostat.getOscillationWidth().getValue()
        xsDataMOSFLMImage.setRotationAxisStart(XSDataAngle(fOscillationStart))
        xsDataMOSFLMImage.setRotationAxisEnd(XSDataAngle(fOscillationStart + fOscillationRange))

        xsDataMOSFLMInputGeneratePrediction.setImage(xsDataMOSFLMImage)

        return xsDataMOSFLMInputGeneratePrediction