def test_sample_and_can_correction(self):
"""
Tests corrections for the sample and container.
"""
corrected, fact = IndirectFlatPlateAbsorption(SampleWorkspace=self._red_ws,
SampleChemicalFormula='H2-O',
CanWorkspace=self._can_ws,
CanChemicalFormula='V',
UseCanCorrections=True,
Events=200)
self.assertEqual(fact.size(), 2)
self._test_workspaces(corrected, fact)
def test_sample_and_can_subtraction(self):
"""
Tests corrections for the sample and simple container subtraction.
"""
corrected, fact = IndirectFlatPlateAbsorption(
SampleWorkspace=self._red_ws,
SampleChemicalFormula='H2-O',
CanWorkspace=self._can_ws,
ElementSize=1,
UseCanCorrections=False,
Version=1)
self.assertEqual(fact.size(), 1)
self._test_workspaces(corrected, fact)
def test_beam_dimensions(self):
"""
Tests beam dimensions
"""
corrected, fact = IndirectFlatPlateAbsorption(
SampleWorkspace=self._red_ws,
SampleChemicalFormula='H2-O',
NumberWavelengths=10,
Events=200,
BeamHeight=2,
BeamWidth=3)
self.assertEqual(fact.size(), 1)
self._test_workspaces(corrected, fact)
def test_sample_and_can_subtraction_with_scale(self):
"""
Tests corrections for the sample and simple container subtraction
with can scale.
"""
corrected, fact = IndirectFlatPlateAbsorption(SampleWorkspace=self._red_ws,
SampleChemicalFormula='H2-O',
CanWorkspace=self._can_ws,
CanScaleFactor=0.8,
UseCanCorrections=False,
Events=200)
self.assertEqual(fact.size(), 1)
self._test_workspaces(corrected, fact)
def test_number_density_for_sample_can(self):
"""
Test simple run with sample and can workspace and number density for both
"""
corrected, fact = IndirectFlatPlateAbsorption(SampleWorkspace=self._red_ws,
SampleChemicalFormula='H2-O',
SampleDensityType='Mass Density',
SampleDensity=0.5,
CanWorkspace=self._can_ws,
CanChemicalFormula='V',
CanDensityType='Mass Density',
CanDensity=0.5,
UseCanCorrections=True,
Events=200)
self.assertEqual(fact.size(), 2)
self._test_workspaces(corrected, fact)