def d7_reduction_test_sample_individual_incoherent(self):
PolDiffILLReduction(
Run='397004,397005',
ProcessAs='Sample',
OutputWorkspace='sample_individual',
SampleAndEnvironmentProperties=self._sampleProperties,
OutputTreatment='Individual')
self._check_output(mtd['sample_individual'], 1, 132, 6, 'Wavelength',
'Wavelength', 'Spectrum', 'Label')
self._check_process_flag(mtd['sample_individual'], 'Sample')
D7AbsoluteCrossSections(
InputWorkspace='sample_individual',
OutputWorkspace='sample_individual_incoherent',
CrossSectionSeparationMethod='XYZ',
NormalisationMethod='Incoherent',
OutputTreatment='Merge',
OutputUnits='TwoTheta',
SampleAndEnvironmentProperties=self._sampleProperties)
self._check_output(mtd['sample_individual_incoherent'],
263,
1,
6,
'Scattering Angle',
'Label',
'Height',
'Label',
post_processed=True)
def d7_reduction_test_sample_individual_paramagnetic(self):
PolDiffILLReduction(
Run='397004,397005',
ProcessAs='Sample',
OutputWorkspace='sample_individual',
SampleAndEnvironmentProperties=self._sampleProperties,
OutputTreatment='Individual')
self._check_output(mtd['sample_individual'], 1, 132, 6, 'Wavelength',
'Wavelength', 'Spectrum', 'Label')
self._check_process_flag(mtd['sample_individual'], 'Sample')
D7AbsoluteCrossSections(
InputWorkspace='sample_individual',
OutputWorkspace='sample_individual_paramagnetic',
CrossSectionSeparationMethod='XYZ',
NormalisationMethod='Paramagnetic',
OutputTreatment='Individual',
OutputUnits='Q',
SampleAndEnvironmentProperties=self._sampleProperties)
self._check_output(mtd['sample_individual_paramagnetic'],
132,
1,
6,
'q',
'MomentumTransfer',
'Wavelength',
'Wavelength',
post_processed=True,
normalised_individually=True)
def test_tof_data_normalisation(self):
D7AbsoluteCrossSections(InputWorkspace='sample_tof_data', OutputWorkspace='normalised_tof',
CrossSectionSeparationMethod='Z', NormalisationMethod='Vanadium',
SampleAndEnvironmentProperties=self._sampleProperties, AbsoluteUnitsNormalisation=False,
VanadiumInputWorkspace='vanadium_data', MeasurementTechnique='TOF',
OutputUnits='Qw')
self._check_output('normalised_tof', 225, 339, 3, onlySeparation=False, isHistogram=True)
def test_10p_separation(self):
D7AbsoluteCrossSections(
InputWorkspace='vanadium_10p',
OutputWorkspace='10p',
SampleAndEnvironmentProperties=self._sampleProperties,
CrossSectionSeparationMethod='10p',
NormalisationMethod='None')
self._check_output('10p', 132, 1, 3, onlySeparation=True)
def test_incoherent_normalisation(self):
D7AbsoluteCrossSections(
InputWorkspace='sample_data',
OutputWorkspace='normalised_sample_incoherent',
CrossSectionSeparationMethod='XYZ',
NormalisationMethod='Incoherent',
SampleAndEnvironmentProperties=self._sampleProperties,
AbsoluteUnitsNormalisation=False)
self._check_output('normalised_sample_incoherent',
132,
1,
3,
onlySeparation=False)
def test_vanadium_normalisation(self):
D7AbsoluteCrossSections(
InputWorkspace='sample_data',
OutputWorkspace='normalised_sample_vanadium',
CrossSectionSeparationMethod='None',
NormalisationMethod='Vanadium',
SampleAndEnvironmentProperties=self._sampleProperties,
VanadiumInputWorkspace='vanadium_data',
AbsoluteUnitsNormalisation=False)
self._check_output('normalised_sample_vanadium',
132,
1,
6,
onlySeparation=False)
def d7_reduction_test_sample_full_reduction(self):
PolDiffILLReduction(Run='396983', ProcessAs='EmptyBeam', OutputWorkspace='beam_ws')
PolDiffILLReduction(Run='396985', ProcessAs='Transmission', OutputWorkspace='quartz_transmission',
EmptyBeamWorkspace='beam_ws')
PolDiffILLReduction(Run='396917,396918', ProcessAs='Empty', OutputWorkspace='container_ws')
PolDiffILLReduction(Run='396928,396929', ProcessAs='Cadmium', OutputWorkspace='absorber_ws')
PolDiffILLReduction(Run='396991', ProcessAs='BeamWithCadmium', OutputWorkspace='cadmium_ws')
PolDiffILLReduction(Run='396939,397000', ProcessAs='Quartz', OutputWorkspace='pol_corrections',
Transmission='quartz_transmission',
CadmiumTransmissionWorkspace='cadmium_ws', OutputTreatment='AveragePol')
PolDiffILLReduction(Run='396990', ProcessAs='Transmission', OutputWorkspace='vanadium_transmission',
CadmiumTransmissionWorkspace='cadmium_ws',
EmptyBeamWorkspace='beam_ws')
PolDiffILLReduction(Run='396993,396994', ProcessAs='Vanadium', OutputWorkspace='vanadium_full',
CadmiumWorkspace='absorber_ws',
EmptyContainerWorkspace='container_ws',
Transmission='vanadium_transmission',
QuartzWorkspace='pol_corrections',
SampleAndEnvironmentProperties=self._sampleProperties,
OutputTreatment='Sum')
PolDiffILLReduction(Run='396986,396987', ProcessAs='Transmission', OutputWorkspace='sample_transmission',
CadmiumTransmissionWorkspace='cadmium_ws',
EmptyBeamWorkspace='beam_ws')
PolDiffILLReduction(Run='397004,397005', ProcessAs='Sample', OutputWorkspace='sample_full',
CadmiumWorkspace='absorber_ws',
EmptyContainerWorkspace='container_ws',
Transmission='vanadium_transmission',
QuartzWorkspace='pol_corrections',
SampleAndEnvironmentProperties=self._sampleProperties,
OutputTreatment='Individual')
self._check_output(mtd['sample_full'], 1, 132, 12, 'Wavelength', 'Wavelength', 'Spectrum', 'Label')
self._check_process_flag(mtd['sample_full'], 'Sample')
D7AbsoluteCrossSections(InputWorkspace='sample_full', OutputWorkspace='sample_full_normalised',
CrossSectionSeparationMethod='XYZ',
VanadiumInputWorkspace='vanadium_full',
NormalisationMethod='Vanadium',
OutputTreatment='Merge',
OutputUnits='Q',
SampleAndEnvironmentProperties=self._sampleProperties,
AbsoluteUnitsNormalisation=True)
self._check_output(mtd['sample_full_normalised'], 263, 1, 6, 'q', 'MomentumTransfer', 'Height', 'Label')
def test_xyz_separation(self):
D7AbsoluteCrossSections(InputWorkspace='vanadium_xyz',
OutputWorkspace='xyz',
CrossSectionSeparationMethod='XYZ',
NormalisationMethod='None')
self._check_output('xyz', 132, 1, 3, onlySeparation=True)
def test_uniaxial_separation(self):
D7AbsoluteCrossSections(InputWorkspace='vanadium_uniaxial',
OutputWorkspace='uniaxial',
CrossSectionSeparationMethod='Z')
self._check_output('uniaxial', 132, 1, 2, onlySeparation=True)
