def returnTranslation(self, logLines): _vecTmp = [] for line in logLines: _vecTmp.append(float(line.split()[-1])) return XSDataVectorDouble(_vecTmp[0], _vecTmp[1], _vecTmp[2])
def generateXSDataInputXDS(_xsDataCollection): xsDataCollection = _xsDataCollection xsDataExperimentalCondition = _xsDataCollection.getSubWedge()[0].getExperimentalCondition() xsDataSubWedgeList = xsDataCollection.getSubWedge() xsDataInputXDS = XSDataInputXDSGenerateBackgroundImage() 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() # Start with the detector xsDataXDSDetector = EDHandlerXSDataXDSv1_0.getXSDataXDSDetector(xsDataDetector) xsDataInputXDS.setDetector(xsDataXDSDetector) # Then the beam xsDataXDSBeam = XSDataXDSBeam() xsDataVectorDoubleIncidentBeam = XSDataVectorDouble() xsDataVectorDoubleIncidentBeam.setV1(0.0) xsDataVectorDoubleIncidentBeam.setV2(0.0) xsDataVectorDoubleIncidentBeam.setV3(1.0) xsDataXDSBeam.setIncident_beam_direction(xsDataVectorDoubleIncidentBeam) xsDataVectorDoublePolarizationPlaneNormal = XSDataVectorDouble() xsDataVectorDoublePolarizationPlaneNormal.setV1(0.0) xsDataVectorDoublePolarizationPlaneNormal.setV2(1.0) xsDataVectorDoublePolarizationPlaneNormal.setV3(0.0) xsDataXDSBeam.setPolarization_plane_normal(xsDataVectorDoublePolarizationPlaneNormal) xsDataXDSBeam.setX_ray_wavelength(XSDataWavelength(dWavelength)) xsDataInputXDS.setBeam(xsDataXDSBeam) # Then the goniostat xsDataXDSGoniostat = XSDataXDSGoniostat() xsDataVectorDoubleRotationAxis = XSDataVectorDouble() xsDataVectorDoubleRotationAxis.setV1(1.0) xsDataVectorDoubleRotationAxis.setV2(0.0) xsDataVectorDoubleRotationAxis.setV3(0.0) xsDataXDSGoniostat.setRotation_axis(xsDataVectorDoubleRotationAxis) xsDataXDSGoniostat.setOscillation_range(xsDataGoniostat.getOscillationWidth()) xsDataXDSGoniostat.setStarting_angle(xsDataGoniostat.getRotationAxisStart()) xsDataInputXDS.setGoniostat(xsDataXDSGoniostat) # # Then the Crystal # # xsDataXDSCrystal = XSDataXDSCrystal() # # xsDataXDSCrystal.setFriedels_law(XSDataString("FALSE")) # # # if ( xsDataCrystal is not None ): # # xsDataSpaceGroup = xsDataCrystal.getSpaceGroup() # # if ( xsDataSpaceGroup is not None ): # # xsDataStringName = xsDataSpaceGroup.getName() # # if ( xsDataStringName is not None ): # # xsDataInputXDS.setSymmetry( XSDataString( xsDataStringName.getValue() ) ) # xsDataXDSCrystal.setSpace_group_number(XSDataInteger(0)) # # xsDataXDSCrystal.setStrong_pixel(XSDataInteger(8)) # # xsDataCell = XSDataCell() # xsDataCell.setLength_a(XSDataLength(0.0)) # xsDataCell.setLength_b(XSDataLength(0.0)) # xsDataCell.setLength_c(XSDataLength(0.0)) # xsDataCell.setAngle_alpha(XSDataAngle(0.0)) # xsDataCell.setAngle_beta(XSDataAngle(0.0)) # xsDataCell.setAngle_gamma(XSDataAngle(0.0)) # xsDataXDSCrystal.setUnit_cell_constants(xsDataCell) # # xsDataInputXDS.setCrystal(xsDataXDSCrystal) # Finaly the images xsDataXDSImage = XSDataXDSImage() xsDataSubWedgeFirst = xsDataSubWedgeList[0] xsDataImageFirst = xsDataSubWedgeFirst.getImage()[0] pyStrPath = xsDataImageFirst.getPath().getValue() pyStrFileName = EDUtilsFile.getBaseName(pyStrPath) pyStrDirectory = EDUtilsPath.getFolderName(pyStrPath) pyStrPrefix = EDUtilsImage.getPrefix(pyStrFileName) pyStrSuffix = EDUtilsImage.getSuffix(pyStrFileName) pyStrXDSTemplate = "%s_xdslink_?????.%s" % (pyStrPrefix, pyStrSuffix) xsDataXDSImage.setName_template_of_data_frames(XSDataString(pyStrXDSTemplate)) iXDSLowestImageNumberGlobal = 1 xsDataXDSImage.setStarting_frame(XSDataInteger(iXDSLowestImageNumberGlobal)) # First we have to find the smallest goniostat rotation axis start: fGonioStatOscillationStartMin = None for xsDataSubWedge in xsDataSubWedgeList: xsDataGoniostat = xsDataSubWedge.getExperimentalCondition().getGoniostat() fGonioStatOscillationStart = xsDataGoniostat.getRotationAxisStart().getValue() if (fGonioStatOscillationStartMin is None): fGonioStatOscillationStartMin = fGonioStatOscillationStart elif (fGonioStatOscillationStartMin > fGonioStatOscillationStart): fGonioStatOscillationStartMin = fGonioStatOscillationStart # 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 and highest image numbers 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 iLowestXDSImageNumber = None iHighestXDSImageNumber = None for xsDataImage in xsDataImageList: iImageNumber = xsDataImage.getNumber().getValue() fImageOscillationStart = fGonioStatOscillationStart + (iImageNumber - iLowestImageNumber) * fGonioStatOscillationRange iXDSImageNumber = iXDSLowestImageNumberGlobal + int((fImageOscillationStart - fGonioStatOscillationStartMin) / fGonioStatOscillationRange) # print iXDSImageNumber, fImageOscillationStart, fGonioStatOscillationStartMin, fGonioStatOscillationRange pyStrSourcePath = xsDataImage.getPath() pyStrTarget = "%s_xdslink_%05d.%s" % (pyStrPrefix, iXDSImageNumber, pyStrSuffix) xsDataXDSImageLink = XSDataXDSImageLink() xsDataFileSource = XSDataFile() xsDataFileSource.setPath(pyStrSourcePath) xsDataXDSImageLink.setSource(xsDataFileSource) xsDataXDSImageLink.setTarget(XSDataString(pyStrTarget)) xsDataInputXDS.addImage_link(xsDataXDSImageLink) if (iLowestXDSImageNumber is None): iLowestXDSImageNumber = iXDSImageNumber elif (iLowestXDSImageNumber > iXDSImageNumber): iLowestXDSImageNumber = iXDSImageNumber if (iHighestXDSImageNumber is None): iHighestXDSImageNumber = iXDSImageNumber elif (iHighestXDSImageNumber < iXDSImageNumber): iHighestXDSImageNumber = iXDSImageNumber xsDataXDSIntegerRange = XSDataXDSIntegerRange() xsDataXDSIntegerRange.setLower(XSDataInteger(iLowestXDSImageNumber)) xsDataXDSIntegerRange.setUpper(XSDataInteger(iHighestXDSImageNumber)) xsDataXDSImage.addBackground_range(xsDataXDSIntegerRange) xsDataXDSImage.addData_range(xsDataXDSIntegerRange) xsDataXDSImage.addSpot_range(xsDataXDSIntegerRange) xsDataInputXDS.setImage(xsDataXDSImage) return xsDataInputXDS
def getXSDataXDSDetector(_xsDataDetector): EDFactoryPluginStatic.loadModule("XSDataXDSv1_0") from XSDataXDSv1_0 import XSDataXDSDetector from XSDataXDSv1_0 import XSDataXDSIntegerRange xsDataXDSDetector = XSDataXDSDetector() strDetectorType = _xsDataDetector.getType().getValue() if ((strDetectorType == "q4") or \ (strDetectorType == "q4-2x") or \ (strDetectorType == "q210") or \ (strDetectorType == "q210-2x") or \ (strDetectorType == "q315") or \ (strDetectorType == "q315-2x")): xsDataXDSDetector.setDetector_name(XSDataString("ADSC")) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(1)) xsDataXDSDetector.setOverload(XSDataInteger(65535)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(6000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) # elif ( strDetectorType == "mar165") or \ # strDetectorType == "mar225") ): # xsDataXDSDetector.setType( XSDataString( "MARCCD" ) ) elif strDetectorType == "pilatus6m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) listUntrustedRectangle = \ [[ 487, 495, 0, 2528], \ [ 981, 989, 0, 2528], \ [1475, 1483, 0, 2528], \ [1969, 1977, 0, 2528], \ [ 0, 2464, 195, 213], \ [ 0, 2464, 407, 425], \ [ 0, 2464, 619, 637], \ [ 0, 2464, 831, 849], \ [ 0, 2464, 1043, 1061], \ [ 0, 2464, 1255, 1273], \ [ 0, 2464, 1467, 1485], \ [ 0, 2464, 1679, 1697], \ [ 0, 2464, 1891, 1909], \ [ 0, 2464, 2103, 2121], \ [ 0, 2464, 2315, 2333]] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.41)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.32)) elif strDetectorType == "pilatus2m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) listUntrustedRectangle = \ [[ 487, 495, 0, 1680], \ [ 981, 989, 0, 1680], \ [ 0, 1476, 195, 213], \ [ 0, 1476, 407, 425], \ [ 0, 1476, 619, 637], \ [ 0, 1476, 831, 849], \ [ 0, 1476, 1043, 1061], \ [ 0, 1476, 1255, 1273], \ [ 0, 1476, 1467, 1485]] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.41)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.32)) elif strDetectorType == "eiger4m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) listUntrustedRectangle = \ [[ 1029, 1040, 0, 2167], \ [ 0, 2070, 512, 550], \ [ 0, 2070, 1063, 1103], \ [ 0, 2070, 1614, 1654], ] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.41)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.32)) elif strDetectorType == "mar225": xsDataXDSDetector.setDetector_name(XSDataString("CCDCHESS")) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(65000)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.4)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) else: # This is a temporary solution for the exception problem pointed out in bug #43. # Instead of raising an exception with a known type we send the error message as a string. pyStrErrorMessage = "EDHandlerXSDataXDSv1_0.getXSDataXDSDetector: Unknown detector type : " + strDetectorType raise Exception, pyStrErrorMessage xsDataXDSDetector.setNx(_xsDataDetector.getNumberPixelX()) xsDataXDSDetector.setNy(_xsDataDetector.getNumberPixelY()) xsDataXDSDetector.setQx(_xsDataDetector.getPixelSizeX()) xsDataXDSDetector.setQy(_xsDataDetector.getPixelSizeY()) xsDataXDSDetector.setDetector_distance(_xsDataDetector.getDistance()) fOrgx = _xsDataDetector.getBeamPositionY().getValue() / _xsDataDetector.getPixelSizeY().getValue() fOrgy = _xsDataDetector.getBeamPositionX().getValue() / _xsDataDetector.getPixelSizeX().getValue() xsDataXDSDetector.setOrgx(XSDataDouble(fOrgx)) xsDataXDSDetector.setOrgy(XSDataDouble(fOrgy)) xsDataVectorDoubleXAxis = XSDataVectorDouble() xsDataVectorDoubleXAxis.setV1(1.0) xsDataVectorDoubleXAxis.setV2(0.0) xsDataVectorDoubleXAxis.setV3(0.0) xsDataXDSDetector.setDirection_of_detector_x_axis(xsDataVectorDoubleXAxis) xsDataVectorDoubleYAxis = XSDataVectorDouble() xsDataVectorDoubleYAxis.setV1(0.0) xsDataVectorDoubleYAxis.setV2(1.0) xsDataVectorDoubleYAxis.setV3(0.0) xsDataXDSDetector.setDirection_of_detector_y_axis(xsDataVectorDoubleYAxis) return xsDataXDSDetector
def _extract_infos(lines, output): # extract values into the output obj modified in place # stuff we want: tmp_params = [ 'CRYSTAL MOSAICITY (DEGREES)', 'DIRECT BEAM COORDINATES (REC. ANGSTROEM)', 'DETECTOR COORDINATES (PIXELS) OF DIRECT BEAM', 'DETECTOR ORIGIN (PIXELS) AT', 'CRYSTAL TO DETECTOR DISTANCE (mm)', 'COORDINATES OF UNIT CELL A-AXIS', 'COORDINATES OF UNIT CELL B-AXIS', 'COORDINATES OF UNIT CELL C-AXIS', 'UNIT_CELL_CONSTANTS=', ] params = [(item, len(item.split())) for item in tmp_params] parsed = dict() for line in lines: for param, param_len in params: if line.find(param) != -1: values = [float(x) for x in line.split()[param_len:]] parsed[param] = values # now fill in the data model with the values we got (and stop if # any of them is missing) try: output.crystal_mosaicity = XSDataFloat( parsed['CRYSTAL MOSAICITY (DEGREES)'][0]) output.direct_beam_coordinates = XSDataVectorDouble() output.direct_beam_coordinates.v1 = parsed[ 'DIRECT BEAM COORDINATES (REC. ANGSTROEM)'][0] output.direct_beam_coordinates.v2 = parsed[ 'DIRECT BEAM COORDINATES (REC. ANGSTROEM)'][1] output.direct_beam_coordinates.v3 = parsed[ 'DIRECT BEAM COORDINATES (REC. ANGSTROEM)'][2] output.direct_beam_detector_coordinates = XSData2DCoordinates() output.direct_beam_detector_coordinates.x = XSDataFloat( parsed['DETECTOR COORDINATES (PIXELS) OF DIRECT BEAM'][0]) output.direct_beam_detector_coordinates.y = XSDataFloat( parsed['DETECTOR COORDINATES (PIXELS) OF DIRECT BEAM'][1]) output.detector_origin = XSData2DCoordinates() output.detector_origin.x = XSDataFloat( parsed['DETECTOR ORIGIN (PIXELS) AT'][0]) output.detector_origin.y = XSDataFloat( parsed['DETECTOR ORIGIN (PIXELS) AT'][1]) output.crystal_to_detector_distance = XSDataFloat( parsed['CRYSTAL TO DETECTOR DISTANCE (mm)'][0]) output.coordinates_of_unit_cell_a_axis = XSDataVectorDouble() output.coordinates_of_unit_cell_a_axis.v1 = parsed[ 'COORDINATES OF UNIT CELL A-AXIS'][0] output.coordinates_of_unit_cell_a_axis.v2 = parsed[ 'COORDINATES OF UNIT CELL A-AXIS'][1] output.coordinates_of_unit_cell_a_axis.v3 = parsed[ 'COORDINATES OF UNIT CELL A-AXIS'][2] output.coordinates_of_unit_cell_b_axis = XSDataVectorDouble() output.coordinates_of_unit_cell_b_axis.v1 = parsed[ 'COORDINATES OF UNIT CELL B-AXIS'][0] output.coordinates_of_unit_cell_b_axis.v2 = parsed[ 'COORDINATES OF UNIT CELL B-AXIS'][1] output.coordinates_of_unit_cell_b_axis.v3 = parsed[ 'COORDINATES OF UNIT CELL B-AXIS'][2] output.coordinates_of_unit_cell_c_axis = XSDataVectorDouble() output.coordinates_of_unit_cell_c_axis.v1 = parsed[ 'COORDINATES OF UNIT CELL C-AXIS'][0] output.coordinates_of_unit_cell_c_axis.v2 = parsed[ 'COORDINATES OF UNIT CELL C-AXIS'][1] output.coordinates_of_unit_cell_c_axis.v3 = parsed[ 'COORDINATES OF UNIT CELL C-AXIS'][2] parsed['UNIT_CELL_CONSTANTS='] = [ XSDataFloat(x) for x in parsed['UNIT_CELL_CONSTANTS='] ] # there may be trailing information after the 6 floats (the # string "as used by INTEGRATE") unit_cells = parsed['UNIT_CELL_CONSTANTS='][:6] output.cell_a, output.cell_b, output.cell_c, \ output.cell_alpha, output.cell_beta, output.cell_gamma = unit_cells except KeyError, ke: EDVerbose.ERROR('Some parameters could not be found!') EDVerbose.DEBUG('Those found were: %s' % parsed) raise ValueError('Some parameters missing')
def generateXSDataInputXDS(_xsDataCollection): xsDataCollection = _xsDataCollection xsDataExperimentalCondition = _xsDataCollection.getSubWedge( )[0].getExperimentalCondition() xsDataSubWedgeList = xsDataCollection.getSubWedge() xsDataInputXDS = XSDataInputXDSGenerateBackgroundImage() 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() # Start with the detector xsDataXDSDetector = EDHandlerXSDataXDSv1_0.getXSDataXDSDetector( xsDataDetector) xsDataInputXDS.setDetector(xsDataXDSDetector) # Then the beam xsDataXDSBeam = XSDataXDSBeam() xsDataVectorDoubleIncidentBeam = XSDataVectorDouble() xsDataVectorDoubleIncidentBeam.setV1(0.0) xsDataVectorDoubleIncidentBeam.setV2(0.0) xsDataVectorDoubleIncidentBeam.setV3(1.0) xsDataXDSBeam.setIncident_beam_direction( xsDataVectorDoubleIncidentBeam) xsDataVectorDoublePolarizationPlaneNormal = XSDataVectorDouble() xsDataVectorDoublePolarizationPlaneNormal.setV1(0.0) xsDataVectorDoublePolarizationPlaneNormal.setV2(1.0) xsDataVectorDoublePolarizationPlaneNormal.setV3(0.0) xsDataXDSBeam.setPolarization_plane_normal( xsDataVectorDoublePolarizationPlaneNormal) xsDataXDSBeam.setX_ray_wavelength(XSDataWavelength(dWavelength)) xsDataInputXDS.setBeam(xsDataXDSBeam) # Then the goniostat xsDataXDSGoniostat = XSDataXDSGoniostat() xsDataVectorDoubleRotationAxis = XSDataVectorDouble() xsDataVectorDoubleRotationAxis.setV1(1.0) xsDataVectorDoubleRotationAxis.setV2(0.0) xsDataVectorDoubleRotationAxis.setV3(0.0) xsDataXDSGoniostat.setRotation_axis(xsDataVectorDoubleRotationAxis) xsDataXDSGoniostat.setOscillation_range( xsDataGoniostat.getOscillationWidth()) xsDataXDSGoniostat.setStarting_angle( xsDataGoniostat.getRotationAxisStart()) xsDataInputXDS.setGoniostat(xsDataXDSGoniostat) # # Then the Crystal # # xsDataXDSCrystal = XSDataXDSCrystal() # # xsDataXDSCrystal.setFriedels_law(XSDataString("FALSE")) # ## if ( xsDataCrystal is not None ): ## xsDataSpaceGroup = xsDataCrystal.getSpaceGroup() ## if ( xsDataSpaceGroup is not None ): ## xsDataStringName = xsDataSpaceGroup.getName() ## if ( xsDataStringName is not None ): ## xsDataInputXDS.setSymmetry( XSDataString( xsDataStringName.getValue() ) ) # xsDataXDSCrystal.setSpace_group_number(XSDataInteger(0)) # # xsDataXDSCrystal.setStrong_pixel(XSDataInteger(8)) # # xsDataCell = XSDataCell() # xsDataCell.setLength_a(XSDataLength(0.0)) # xsDataCell.setLength_b(XSDataLength(0.0)) # xsDataCell.setLength_c(XSDataLength(0.0)) # xsDataCell.setAngle_alpha(XSDataAngle(0.0)) # xsDataCell.setAngle_beta(XSDataAngle(0.0)) # xsDataCell.setAngle_gamma(XSDataAngle(0.0)) # xsDataXDSCrystal.setUnit_cell_constants(xsDataCell) # # xsDataInputXDS.setCrystal(xsDataXDSCrystal) # Finaly the images xsDataXDSImage = XSDataXDSImage() xsDataSubWedgeFirst = xsDataSubWedgeList[0] xsDataImageFirst = xsDataSubWedgeFirst.getImage()[0] pyStrPath = xsDataImageFirst.getPath().getValue() pyStrFileName = EDUtilsFile.getBaseName(pyStrPath) pyStrDirectory = EDUtilsPath.getFolderName(pyStrPath) pyStrPrefix = EDUtilsImage.getPrefix(pyStrFileName) pyStrSuffix = EDUtilsImage.getSuffix(pyStrFileName) pyStrXDSTemplate = "%s_xdslink_?????.%s" % (pyStrPrefix, pyStrSuffix) xsDataXDSImage.setName_template_of_data_frames( XSDataString(pyStrXDSTemplate)) iXDSLowestImageNumberGlobal = 1 xsDataXDSImage.setStarting_frame( XSDataInteger(iXDSLowestImageNumberGlobal)) # First we have to find the smallest goniostat rotation axis start: fGonioStatOscillationStartMin = None for xsDataSubWedge in xsDataSubWedgeList: xsDataGoniostat = xsDataSubWedge.getExperimentalCondition( ).getGoniostat() fGonioStatOscillationStart = xsDataGoniostat.getRotationAxisStart( ).getValue() if (fGonioStatOscillationStartMin is None): fGonioStatOscillationStartMin = fGonioStatOscillationStart elif (fGonioStatOscillationStartMin > fGonioStatOscillationStart): fGonioStatOscillationStartMin = fGonioStatOscillationStart # 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 and highest image numbers 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 iLowestXDSImageNumber = None iHighestXDSImageNumber = None for xsDataImage in xsDataImageList: iImageNumber = xsDataImage.getNumber().getValue() fImageOscillationStart = fGonioStatOscillationStart + ( iImageNumber - iLowestImageNumber) * fGonioStatOscillationRange iXDSImageNumber = iXDSLowestImageNumberGlobal + int( (fImageOscillationStart - fGonioStatOscillationStartMin) / fGonioStatOscillationRange) #print iXDSImageNumber, fImageOscillationStart, fGonioStatOscillationStartMin, fGonioStatOscillationRange pyStrSourcePath = xsDataImage.getPath() pyStrTarget = "%s_xdslink_%05d.%s" % ( pyStrPrefix, iXDSImageNumber, pyStrSuffix) xsDataXDSImageLink = XSDataXDSImageLink() xsDataFileSource = XSDataFile() xsDataFileSource.setPath(pyStrSourcePath) xsDataXDSImageLink.setSource(xsDataFileSource) xsDataXDSImageLink.setTarget(XSDataString(pyStrTarget)) xsDataInputXDS.addImage_link(xsDataXDSImageLink) if (iLowestXDSImageNumber is None): iLowestXDSImageNumber = iXDSImageNumber elif (iLowestXDSImageNumber > iXDSImageNumber): iLowestXDSImageNumber = iXDSImageNumber if (iHighestXDSImageNumber is None): iHighestXDSImageNumber = iXDSImageNumber elif (iHighestXDSImageNumber < iXDSImageNumber): iHighestXDSImageNumber = iXDSImageNumber xsDataXDSIntegerRange = XSDataXDSIntegerRange() xsDataXDSIntegerRange.setLower( XSDataInteger(iLowestXDSImageNumber)) xsDataXDSIntegerRange.setUpper( XSDataInteger(iHighestXDSImageNumber)) xsDataXDSImage.addBackground_range(xsDataXDSIntegerRange) xsDataXDSImage.addData_range(xsDataXDSIntegerRange) xsDataXDSImage.addSpot_range(xsDataXDSIntegerRange) xsDataInputXDS.setImage(xsDataXDSImage) return xsDataInputXDS
def getXSDataXDSDetector(_xsDataDetector): EDFactoryPluginStatic.loadModule("XSDataXDSv1_0") from XSDataXDSv1_0 import XSDataXDSDetector from XSDataXDSv1_0 import XSDataXDSIntegerRange xsDataXDSDetector = XSDataXDSDetector() strDetectorType = _xsDataDetector.getType().getValue() if ((strDetectorType == "q4") or \ (strDetectorType == "q4-2x") or \ (strDetectorType == "q210") or \ (strDetectorType == "q210-2x") or \ (strDetectorType == "q315") or \ (strDetectorType == "q315-2x")): xsDataXDSDetector.setDetector_name(XSDataString("ADSC")) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(1)) xsDataXDSDetector.setOverload(XSDataInteger(65535)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(6000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels( xsDataXDSIntegerRangeTrustedPixel) # elif ( strDetectorType == "mar165") or \ # strDetectorType == "mar225") ): # xsDataXDSDetector.setType( XSDataString( "MARCCD" ) ) elif strDetectorType == "pilatus6m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) listUntrustedRectangle = \ [[ 487, 495, 0, 2528], \ [ 981, 989, 0, 2528], \ [1475, 1483, 0, 2528], \ [1969, 1977, 0, 2528], \ [ 0, 2464, 195, 213], \ [ 0, 2464, 407, 425], \ [ 0, 2464, 619, 637], \ [ 0, 2464, 831, 849], \ [ 0, 2464, 1043, 1061], \ [ 0, 2464, 1255, 1273], \ [ 0, 2464, 1467, 1485], \ [ 0, 2464, 1679, 1697], \ [ 0, 2464, 1891, 1909], \ [ 0, 2464, 2103, 2121], \ [ 0, 2464, 2315, 2333]] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels( xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.41)) xsDataXDSDetector.setTrusted_region( xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.32)) else: # This is a temporary solution for the exception problem pointed out in bug #43. # Instead of raising an exception with a known type we send the error message as a string. pyStrErrorMessage = "EDHandlerXSDataXDSv1_0.getXSDataXDSDetector: Unknown detector type : " + strDetectorType raise Exception, pyStrErrorMessage xsDataXDSDetector.setNx(_xsDataDetector.getNumberPixelX()) xsDataXDSDetector.setNy(_xsDataDetector.getNumberPixelY()) xsDataXDSDetector.setQx(_xsDataDetector.getPixelSizeX()) xsDataXDSDetector.setQy(_xsDataDetector.getPixelSizeY()) xsDataXDSDetector.setDetector_distance(_xsDataDetector.getDistance()) fOrgx = _xsDataDetector.getBeamPositionY().getValue( ) / _xsDataDetector.getPixelSizeY().getValue() fOrgy = _xsDataDetector.getBeamPositionX().getValue( ) / _xsDataDetector.getPixelSizeX().getValue() xsDataXDSDetector.setOrgx(XSDataDouble(fOrgx)) xsDataXDSDetector.setOrgy(XSDataDouble(fOrgy)) xsDataVectorDoubleXAxis = XSDataVectorDouble() xsDataVectorDoubleXAxis.setV1(1.0) xsDataVectorDoubleXAxis.setV2(0.0) xsDataVectorDoubleXAxis.setV3(0.0) xsDataXDSDetector.setDirection_of_detector_x_axis( xsDataVectorDoubleXAxis) xsDataVectorDoubleYAxis = XSDataVectorDouble() xsDataVectorDoubleYAxis.setV1(0.0) xsDataVectorDoubleYAxis.setV2(1.0) xsDataVectorDoubleYAxis.setV3(0.0) xsDataXDSDetector.setDirection_of_detector_y_axis( xsDataVectorDoubleYAxis) return xsDataXDSDetector
def getXSDataXDSDetector(_xsDataDetector): EDFactoryPluginStatic.loadModule("XSDataXDSv1_0") from XSDataXDSv1_0 import XSDataXDSDetector from XSDataXDSv1_0 import XSDataXDSIntegerRange xsDataXDSDetector = XSDataXDSDetector() strDetectorType = _xsDataDetector.getType().getValue() if ((strDetectorType == "q4") or \ (strDetectorType == "q4-2x") or \ (strDetectorType == "q210") or \ (strDetectorType == "q210-2x") or \ (strDetectorType == "q315") or \ (strDetectorType == "q315-2x")): xsDataXDSDetector.setDetector_name(XSDataString("ADSC")) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(1)) xsDataXDSDetector.setOverload(XSDataInteger(65535)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(6000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) # elif ( strDetectorType == "mar165") or \ # strDetectorType == "mar225") ): # xsDataXDSDetector.setType( XSDataString( "MARCCD" ) ) elif strDetectorType == "pilatus6m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) listUntrustedRectangle = \ [[ 487, 495, 0, 2528], \ [ 981, 989, 0, 2528], \ [1475, 1483, 0, 2528], \ [1969, 1977, 0, 2528], \ [ 0, 2464, 195, 213], \ [ 0, 2464, 407, 425], \ [ 0, 2464, 619, 637], \ [ 0, 2464, 831, 849], \ [ 0, 2464, 1043, 1061], \ [ 0, 2464, 1255, 1273], \ [ 0, 2464, 1467, 1485], \ [ 0, 2464, 1679, 1697], \ [ 0, 2464, 1891, 1909], \ [ 0, 2464, 2103, 2121], \ [ 0, 2464, 2315, 2333]] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.41)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.32)) elif strDetectorType == "pilatus2m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) listUntrustedRectangle = \ [[ 487, 495, 0, 1680], \ [ 981, 989, 0, 1680], \ [ 0, 1476, 195, 213], \ [ 0, 1476, 407, 425], \ [ 0, 1476, 619, 637], \ [ 0, 1476, 831, 849], \ [ 0, 1476, 1043, 1061], \ [ 0, 1476, 1255, 1273], \ [ 0, 1476, 1467, 1485]] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.41)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.32)) elif strDetectorType == "eiger4m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) listUntrustedRectangle = \ [[ 1029, 1040, 0, 2167], \ [ 0, 2070, 512, 550], \ [ 0, 2070, 1063, 1103], \ [ 0, 2070, 1614, 1654], ] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.41)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.32)) elif strDetectorType == "eiger9m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) listUntrustedRectangle = \ [[ 1029, 1040, 0, 3269], \ [ 2069, 2082, 0, 3269], \ [ 0, 3110, 513, 553], \ [ 0, 3110, 1064, 1104], \ [ 0, 3110, 1615, 1655], \ [ 0, 3110, 2166, 2206], \ [ 0, 3110, 2717, 2757], \ ] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.41)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.45)) elif strDetectorType == "eiger16m": xsDataXDSDetector.setDetector_name(XSDataString("PILATUS")) # From https://www.psi.ch/sls/pxi/ComputingEN/XDS.INP.E16M.X06SA_2016.txt # !EXCLUSION OF HORIZONTAL DEAD AREAS OF THE EIGER 16M DETECTOR + ONE PIXEL ON EACH SIDE # UNTRUSTED_RECTANGLE= 0 4151 513 553 # UNTRUSTED_RECTANGLE= 0 4151 1064 1104 # UNTRUSTED_RECTANGLE= 0 4151 1615 1655 # UNTRUSTED_RECTANGLE= 0 4151 2166 2206 # UNTRUSTED_RECTANGLE= 0 4151 2717 2757 # UNTRUSTED_RECTANGLE= 0 4151 3268 3308 # UNTRUSTED_RECTANGLE= 0 4151 3819 3859 # !EXCLUSION OF VERTICAL DEAD AREAS OF THE EIGER 16M DETECTOR + ONE PIXEL ON EACH SIDE # UNTRUSTED_RECTANGLE= 1029 1042 0 4372 # UNTRUSTED_RECTANGLE= 2069 2082 0 4372 # UNTRUSTED_RECTANGLE= 3109 3122 0 4372 listUntrustedRectangle = \ [ [ 0, 4151, 513, 553], [ 0, 4151, 1064, 1104], [ 0, 4151, 1615, 1655], [ 0, 4151, 2166, 2206], [ 0, 4151, 2717, 2757], [ 0, 4151, 3268, 3308], [ 0, 4151, 3819, 3859], [ 1029, 1042, 0, 4372], [ 2069, 2082, 0, 4372], [ 3109, 3122, 0, 4372], ] for listRectangle in listUntrustedRectangle: xsDataXDSRectangle = XSDataXDSRectangle() xsDataXDSRectangle.setX1(XSDataInteger(listRectangle[0])) xsDataXDSRectangle.setX2(XSDataInteger(listRectangle[1])) xsDataXDSRectangle.setY1(XSDataInteger(listRectangle[2])) xsDataXDSRectangle.setY2(XSDataInteger(listRectangle[3])) xsDataXDSDetector.addUntrusted_rectangle(xsDataXDSRectangle) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(1048500)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(4000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.21)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) xsDataXDSDetector.setSensor_thickness(XSDataDouble(0.32)) elif strDetectorType == "mar225": xsDataXDSDetector.setDetector_name(XSDataString("CCDCHESS")) xsDataXDSDetector.setMinimum_valid_pixel_value(XSDataInteger(0)) xsDataXDSDetector.setOverload(XSDataInteger(65000)) xsDataXDSIntegerRangeTrustedPixel = XSDataXDSIntegerRange() xsDataXDSIntegerRangeTrustedPixel.setLower(XSDataInteger(7000)) xsDataXDSIntegerRangeTrustedPixel.setUpper(XSDataInteger(30000)) xsDataXDSDetector.setValue_range_for_trusted_detector_pixels(xsDataXDSIntegerRangeTrustedPixel) xsDataXDSDoubleRangeTrustedRegion = XSDataXDSDoubleRange() xsDataXDSDoubleRangeTrustedRegion.setLower(XSDataDouble(0.0)) xsDataXDSDoubleRangeTrustedRegion.setUpper(XSDataDouble(1.4)) xsDataXDSDetector.setTrusted_region(xsDataXDSDoubleRangeTrustedRegion) else: # This is a temporary solution for the exception problem pointed out in bug #43. # Instead of raising an exception with a known type we send the error message as a string. pyStrErrorMessage = "EDHandlerXSDataXDSv1_0.getXSDataXDSDetector: Unknown detector type : " + strDetectorType raise BaseException(pyStrErrorMessage) xsDataXDSDetector.setNx(_xsDataDetector.getNumberPixelX()) xsDataXDSDetector.setNy(_xsDataDetector.getNumberPixelY()) xsDataXDSDetector.setQx(_xsDataDetector.getPixelSizeX()) xsDataXDSDetector.setQy(_xsDataDetector.getPixelSizeY()) xsDataXDSDetector.setDetector_distance(_xsDataDetector.getDistance()) fOrgx = _xsDataDetector.getBeamPositionY().getValue() / _xsDataDetector.getPixelSizeY().getValue() fOrgy = _xsDataDetector.getBeamPositionX().getValue() / _xsDataDetector.getPixelSizeX().getValue() xsDataXDSDetector.setOrgx(XSDataDouble(fOrgx)) xsDataXDSDetector.setOrgy(XSDataDouble(fOrgy)) xsDataVectorDoubleXAxis = XSDataVectorDouble() xsDataVectorDoubleXAxis.setV1(1.0) xsDataVectorDoubleXAxis.setV2(0.0) xsDataVectorDoubleXAxis.setV3(0.0) xsDataXDSDetector.setDirection_of_detector_x_axis(xsDataVectorDoubleXAxis) xsDataVectorDoubleYAxis = XSDataVectorDouble() xsDataVectorDoubleYAxis.setV1(0.0) xsDataVectorDoubleYAxis.setV2(1.0) xsDataVectorDoubleYAxis.setV3(0.0) xsDataXDSDetector.setDirection_of_detector_y_axis(xsDataVectorDoubleYAxis) return xsDataXDSDetector