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# Mantid Repository : https://github.com/mantidproject/mantid
#
# Copyright © 2018 ISIS Rutherford Appleton Laboratory UKRI,
# NScD Oak Ridge National Laboratory, European Spallation Source
# & Institut Laue - Langevin
# SPDX - License - Identifier: GPL - 3.0 +
from __future__ import (absolute_import, division, print_function)
import systemtesting
from mantid.simpleapi import SANSILLAutoProcess, config, mtd, GroupWorkspaces, SaveNexusProcessed
import os
class D11_AutoProcess_Test(systemtesting.MantidSystemTest):
"""
Tests auto process for D11 with 3 samples at 3 different distances
"""
def __init__(self):
super(D11_AutoProcess_Test, self).__init__()
self.setUp()
def setUp(self):
config['default.facility'] = 'ILL'
config['default.instrument'] = 'D11'
config['logging.loggers.root.level'] = 'Warning'
config.appendDataSearchSubDir('ILL/D11/')
mtd.clear()
def validate(self):
self.tolerance = 1e-3
self.tolerance_is_rel_err = True
return ['out', 'D11_AutoProcess_Reference.nxs']
def runTest(self):
beams = '2866,2867+2868,2878'
containers = '2888+2971,2884+2960,2880+2949'
container_tr = '2870+2954'
beam_tr = '2867+2868'
samples = ['2889,2885,2881',
'2887,2883,2879',
'3187,3177,3167']
sample_tr = ['2871', '2869', '3172']
thick = [0.1, 0.2, 0.2]
# reduce samples
for i in range(len(samples)):
SANSILLAutoProcess(
SampleRuns=samples[i],
BeamRuns=beams,
ContainerRuns=containers,
MaskFiles='mask1.nxs,mask2.nxs,mask3.nxs',
SensitivityMaps='sens-lamp.nxs',
SampleTransmissionRuns=sample_tr[i],
ContainerTransmissionRuns=container_tr,
TransmissionBeamRuns=beam_tr,
SampleThickness=thick[i],
CalculateResolution='MildnerCarpenter',
OutputWorkspace='iq_s' + str(i + 1)
)
GroupWorkspaces(InputWorkspaces=['iq_s1', 'iq_s2', 'iq_s3'], OutputWorkspace='out')
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class D33_AutoProcess_Test(systemtesting.MantidSystemTest):
"""
Tests auto process with D33 monochromatic data
One sample at one angle, with separation of the panels
Uses the measurement of Pluronic F127 D20 Anethol
"""
def __init__(self):
super(D33_AutoProcess_Test, self).__init__()
self.setUp()
def setUp(self):
config['default.facility'] = 'ILL'
config['default.instrument'] = 'D33'
config['logging.loggers.root.level'] = 'Warning'
config.appendDataSearchSubDir('ILL/D33/')
def cleanup(self):
mtd.clear()
def validate(self):
self.tolerance = 1e-3
self.tolerance_is_rel_err = True
return ['out', 'D33_AutoProcess_Reference.nxs']
def runTest(self):
absorber = '002227'
tr_beam = '002192'
can_tr = '002193'
empty_beam = '002219'
can = '002228'
mask = 'D33Mask2.nxs'
SANSILLAutoProcess(
SampleRuns='001464',
SampleTransmissionRuns='002197',
MaskFiles=mask,
AbsorberRuns=absorber,
BeamRuns=empty_beam,
ContainerRuns=can,
ContainerTransmissionRuns=can_tr,
TransmissionBeamRuns=tr_beam,
OutputWorkspace='iq',
PanelOutputWorkspaces='panels'
)
GroupWorkspaces(InputWorkspaces=['iq', 'panels'], OutputWorkspace='out')
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class D16AutoProcessTest(systemtesting.MantidSystemTest):
"""
Tests autoprocess with D16 data, with a scan on 2 consecutives gamma values.
"""
def __init__(self):
super(D16AutoProcessTest, self).__init__()
self.setUp()
def setUp(self):
config['default.facility'] = 'ILL'
config['default.instrument'] = 'D16'
config['logging.loggers.root.level'] = 'Warning'
config.appendDataSearchSubDir('ILL/D16/')
def cleanup(self):
mtd.clear()
os.remove('/tmp/water_reference_g0.nxs')
os.remove('/tmp/water_reference_g1.nxs')
os.remove('/tmp/water_reference_g2.nxs')
def validate(self):
self.tolerance = 1e-3
self.tolerance_is_rel_err = True
return ['iq', 'reference_results.nxs']
def runTest(self):
water = '3659, 3663, 3667'
sample = "3674, 3677, 3680"
transmission_sample = '3671'
beam = '3587'
transmission_water = '3655'
transmission_water_cell = '3592'
transmission_beam = '3587'
absorber = '3598, 3604, 3654'
empty_cell_water = '3618, 3623, 3646'
cell_background = '3676, 3679, 3682'
transmission_empty_cell = '3673'
SANSILLAutoProcess(SampleRuns=water,
BeamRuns=beam,
DefaultMaskFile="side_mask.nxs",
MaskFiles="beam_mask.nxs, side_mask.nxs, side_mask.nxs",
TransmissionBeamRuns=transmission_beam,
SampleTransmissionRuns=transmission_water,
ContainerTransmissionRuns=transmission_water_cell,
OutputWorkspace='water',
BeamRadius=1,
ContainerRuns=empty_cell_water,
ThetaDependent=False,
WaterCrossSection=0.87,
SampleThickness=0.2,
AbsorberRuns=absorber)
SaveNexusProcessed('003659_Sample', '/tmp/water_reference_g0.nxs')
SaveNexusProcessed('003663_Sample', '/tmp/water_reference_g1.nxs')
SaveNexusProcessed('003667_Sample', '/tmp/water_reference_g2.nxs')
# process each sample
SANSILLAutoProcess(SampleRuns=sample,
BeamRuns=beam,
DefaultMaskFile="side_mask",
MaskFiles="beam_mask, side_mask, side_mask",
TransmissionBeamRuns=transmission_beam,
OutputWorkspace='iq',
ContainerTransmissionRuns=transmission_empty_cell,
SampleTransmissionRuns=transmission_sample,
ContainerRuns=cell_background,
AbsorberRuns=absorber,
ThetaDependent=False,
WaterCrossSection=0.87,
SampleThickness=0.2,
BeamRadius=1,
ReferenceFiles="/tmp/water_reference_g0.nxs, /tmp/water_reference_g1.nxs, /tmp/water_reference_g2.nxs")