本文整理汇总了Python中sans.test_helper.test_director.TestDirector.construct方法的典型用法代码示例。如果您正苦于以下问题:Python TestDirector.construct方法的具体用法?Python TestDirector.construct怎么用?Python TestDirector.construct使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类sans.test_helper.test_director.TestDirector
的用法示例。
在下文中一共展示了TestDirector.construct方法的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: test_that_cross_block_masking_is_applied
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_cross_block_masking_is_applied(self):
# Arrange
data_builder = get_data_builder(SANSFacility.ISIS)
data_builder.set_sample_scatter("SANS2D00028827")
data_info = data_builder.build()
mask_builder = get_mask_builder(data_info)
# Expected_spectra
expected_spectra = []
# Block
# Detector-specific cross block
# The block will be evaluated for SANS2D on the LAB as:
block_cross_horizontal = [12, 17]
block_cross_vertical = [49, 67]
for h, v in zip(block_cross_horizontal, block_cross_vertical):
expected_spectra.extend([h*512 + 9 + v])
mask_builder.set_LAB_block_cross_horizontal(block_cross_horizontal)
mask_builder.set_LAB_block_cross_vertical(block_cross_vertical)
mask_info = mask_builder.build()
test_director = TestDirector()
test_director.set_states(data_state=data_info, mask_state=mask_info)
state = test_director.construct()
workspace = self._load_workspace(state)
# Act
workspace = self._run_mask(state, workspace, "LAB")
# Assert
self._do_assert(workspace, expected_spectra)
示例2: test_that_divide_uses_settings_from_workspace
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_divide_uses_settings_from_workspace(self):
# Arrange
facility = SANSFacility.ISIS
data_builder = get_data_builder(facility)
data_builder.set_sample_scatter("SANS2D00022024")
data_state = data_builder.build()
scale_builder = get_scale_builder(data_state)
scale_state = scale_builder.build()
test_director = TestDirector()
test_director.set_states(scale_state=scale_state, data_state=data_state)
state = test_director.construct()
divide_factory = DivideByVolumeFactory()
divider = divide_factory.create_divide_by_volume(state)
# Apply the settings from the SANS2D00022024 workspace
width = 8.
height = 8.
thickness = 1.
shape = 3
workspace = ScaleHelperTest._get_workspace(width, height, thickness, shape)
# Act
output_workspace = divider.divide_by_volume(workspace, scale_state)
# Assert
expected_volume = thickness * math.pi * math.pow(width, 2) / 4.0
expected_value = 0.3 / expected_volume
data_y = output_workspace.dataY(0)
self.assertEqual(data_y[0], expected_value)
示例3: test_that_divide_uses_settings_from_state_if_they_are_set
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_divide_uses_settings_from_state_if_they_are_set(self):
# Arrange
facility = SANSFacility.ISIS
data_builder = get_data_builder(facility)
data_builder.set_sample_scatter("SANS2D00022024")
data_state = data_builder.build()
scale_builder = get_scale_builder(data_state)
width = 10.
height = 5.
thickness = 2.
scale_builder.set_shape(SampleShape.CylinderAxisAlong)
scale_builder.set_thickness(thickness)
scale_builder.set_width(width)
scale_builder.set_height(height)
scale_state = scale_builder.build()
test_director = TestDirector()
test_director.set_states(scale_state=scale_state, data_state=data_state)
state = test_director.construct()
divide_factory = DivideByVolumeFactory()
divider = divide_factory.create_divide_by_volume(state)
workspace = ScaleHelperTest._get_workspace()
# Act
output_workspace = divider.divide_by_volume(workspace, scale_state)
# Assert
expected_volume = thickness * math.pi * math.pow(width, 2) / 4.0
expected_value = 0.3 / expected_volume
data_y = output_workspace.dataY(0)
self.assertEqual(data_y[0], expected_value)
示例4: test_that_correct_scale_strategy_is_selected_for_loq_2
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_correct_scale_strategy_is_selected_for_loq_2(self):
# Arrange
facility = SANSFacility.ISIS
data_builder = get_data_builder(facility)
data_builder.set_sample_scatter("LOQ74044")
data_state = data_builder.build()
scale_builder = get_scale_builder(data_state)
scale_builder.set_scale(2.4)
scale_state = scale_builder.build()
test_director = TestDirector()
test_director.set_states(scale_state=scale_state, data_state=data_state)
state_loq = test_director.construct()
absolute_multiply_factory = MultiplyByAbsoluteScaleFactory()
multiplier = absolute_multiply_factory.create_multiply_by_absolute(state_loq)
workspace = self._get_workspace()
# Act
output_workspace = multiplier.multiply_by_absolute_scale(workspace, state_loq.scale)
# Assert
expected_value = 0.3 * 2.4 / math.pi * 100.
data_y = output_workspace.dataY(0)
self.assertEqual(data_y[0], expected_value)
示例5: test_that_cylinder_masking_is_applied
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_cylinder_masking_is_applied(self):
# Arrange
data_builder = get_data_builder(SANSFacility.ISIS)
data_builder.set_sample_scatter("SANS2D00028827")
data_info = data_builder.build()
mask_builder = get_mask_builder(data_info)
# Radius Mask
radius_min = 0.01
radius_max = 10.
expected_spectra = []
expected_spectra.extend([30469, 30470, 30471, 30472, 30473, 30474, 30475, 30476, 30477, 30980,
30981, 30982, 30983, 30984, 30985, 30986, 30987, 30988])
mask_builder.set_radius_min(radius_min)
mask_builder.set_radius_max(radius_max)
mask_info = mask_builder.build()
test_director = TestDirector()
test_director.set_states(data_state=data_info, mask_state=mask_info)
state = test_director.construct()
workspace = self._load_workspace(state, move_workspace=False)
# Act
workspace = self._run_mask(state, workspace, "LAB")
# Assert
self._do_assert(workspace, expected_spectra)
示例6: test_that_beam_stop_masking_is_applied
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_beam_stop_masking_is_applied(self):
# Arrange
data_builder = get_data_builder(SANSFacility.ISIS)
data_builder.set_sample_scatter("SANS2D00028827")
data_info = data_builder.build()
mask_builder = get_mask_builder(data_info)
beam_stop_arm_width = .01
beam_stop_arm_angle = 180.0
beam_stop_arm_pos1 = 0.0
beam_stop_arm_pos2 = 0.0
# Expected_spectra, again the tubes are shifted and that will produce the slightly strange masking
expected_spectra = []
expected_spectra.extend((512*59 + 9 + x for x in range(0, 257)))
expected_spectra.extend((512*60 + 9 + x for x in range(0, 255)))
mask_builder.set_beam_stop_arm_width(beam_stop_arm_width)
mask_builder.set_beam_stop_arm_angle(beam_stop_arm_angle)
mask_builder.set_beam_stop_arm_pos1(beam_stop_arm_pos1)
mask_builder.set_beam_stop_arm_pos2(beam_stop_arm_pos2)
mask_info = mask_builder.build()
test_director = TestDirector()
test_director.set_states(data_state=data_info, mask_state=mask_info)
state = test_director.construct()
workspace = self._load_workspace(state, move_workspace=False)
# Act
workspace = self._run_mask(state, workspace, "LAB")
# Assert
self._do_assert(workspace, expected_spectra)
示例7: _get_state
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def _get_state(background_TOF_general_start=None, background_TOF_general_stop=None,
background_TOF_monitor_start=None, background_TOF_monitor_stop=None, incident_monitor=None,
prompt_peak_correction_min=None, prompt_peak_correction_max=None):
test_director = TestDirector()
state = test_director.construct()
data_state = state.data
normalize_to_monitor_builder = get_normalize_to_monitor_builder(data_state)
normalize_to_monitor_builder.set_rebin_type(RebinType.Rebin)
normalize_to_monitor_builder.set_wavelength_low(2.)
normalize_to_monitor_builder.set_wavelength_high(8.)
normalize_to_monitor_builder.set_wavelength_step(2.)
normalize_to_monitor_builder.set_wavelength_step_type(RangeStepType.Lin)
if background_TOF_general_start:
normalize_to_monitor_builder.set_background_TOF_general_start(background_TOF_general_start)
if background_TOF_general_stop:
normalize_to_monitor_builder.set_background_TOF_general_stop(background_TOF_general_stop)
if background_TOF_monitor_start:
normalize_to_monitor_builder.set_background_TOF_monitor_start(background_TOF_monitor_start)
if background_TOF_monitor_stop:
normalize_to_monitor_builder.set_background_TOF_monitor_stop(background_TOF_monitor_stop)
if incident_monitor:
normalize_to_monitor_builder.set_incident_monitor(incident_monitor)
if prompt_peak_correction_min:
normalize_to_monitor_builder.set_prompt_peak_correction_min(prompt_peak_correction_min)
if prompt_peak_correction_max:
normalize_to_monitor_builder.set_prompt_peak_correction_max(prompt_peak_correction_max)
if prompt_peak_correction_min and prompt_peak_correction_max:
normalize_to_monitor_builder.set_prompt_peak_correction_enabled(True)
normalize_to_monitor_state = normalize_to_monitor_builder.build()
state.adjustment.normalize_to_monitor = normalize_to_monitor_state
return state.property_manager
示例8: _get_sample_state
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def _get_sample_state(q_min=1., q_max=2., q_step=0.1, q_step_type=RangeStepType.Lin,
q_xy_max=None, q_xy_step=None, q_xy_step_type=None,
use_gravity=False, dim=ReductionDimensionality.OneDim):
# Arrange
facility = SANSFacility.ISIS
data_builder = get_data_builder(facility)
data_builder.set_sample_scatter("LOQ74044")
data_state = data_builder.build()
convert_to_q_builder = get_convert_to_q_builder(data_state)
convert_to_q_builder.set_reduction_dimensionality(dim)
convert_to_q_builder.set_use_gravity(use_gravity)
convert_to_q_builder.set_radius_cutoff(0.002)
convert_to_q_builder.set_wavelength_cutoff(2.)
convert_to_q_builder.set_q_min(q_min)
convert_to_q_builder.set_q_max(q_max)
prefix = 1. if q_step_type is RangeStepType.Lin else -1.
q_step *= prefix
rebin_string = str(q_min) + "," + str(q_step) + "," + str(q_max)
convert_to_q_builder.set_q_1d_rebin_string(rebin_string)
if q_xy_max is not None:
convert_to_q_builder.set_q_xy_max(q_xy_max)
if q_xy_step is not None:
convert_to_q_builder.set_q_xy_step(q_xy_step)
if q_xy_step_type is not None:
convert_to_q_builder.set_q_xy_step_type(q_xy_step_type)
convert_to_q_state = convert_to_q_builder.build()
test_director = TestDirector()
test_director.set_states(convert_to_q_state=convert_to_q_state, data_state=data_state)
return test_director.construct().property_manager
示例9: _get_state
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def _get_state(lab_pixel_file=None, hab_pixel_file=None, lab_wavelength_file=None, hab_wavelength_file=None,
wavelength_low=None, wavelength_high=None, wavelength_step=None,
wavelength_step_type=None):
test_director = TestDirector()
state = test_director.construct()
data_state = state.data
wavelength_and_pixel_builder = get_wavelength_and_pixel_adjustment_builder(data_state)
if lab_pixel_file:
wavelength_and_pixel_builder.set_LAB_pixel_adjustment_file(lab_pixel_file)
if hab_pixel_file:
wavelength_and_pixel_builder.set_HAB_pixel_adjustment_file(hab_pixel_file)
if lab_wavelength_file:
wavelength_and_pixel_builder.set_LAB_wavelength_adjustment_file(lab_wavelength_file)
if hab_wavelength_file:
wavelength_and_pixel_builder.set_HAB_wavelength_adjustment_file(hab_wavelength_file)
if wavelength_step_type:
wavelength_and_pixel_builder.set_wavelength_step_type(wavelength_step_type)
if wavelength_low:
wavelength_and_pixel_builder.set_wavelength_low(wavelength_low)
if wavelength_high:
wavelength_and_pixel_builder.set_wavelength_high(wavelength_high)
if wavelength_step:
wavelength_and_pixel_builder.set_wavelength_step(wavelength_step)
wavelength_and_pixel_state = wavelength_and_pixel_builder.build()
state.adjustment.wavelength_and_pixel_adjustment = wavelength_and_pixel_state
return state.property_manager
示例10: test_that_can_find_can_reduction_if_it_exists
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_can_find_can_reduction_if_it_exists(self):
# Arrange
test_director = TestDirector()
state = test_director.construct()
tagged_workspace_names = {None: "test_ws",
OutputParts.Count: "test_ws_count",
OutputParts.Norm: "test_ws_norm"}
SANSFunctionsTest._prepare_workspaces(number_of_workspaces=4,
tagged_workspace_names=tagged_workspace_names,
state=state,
reduction_mode=ISISReductionMode.LAB)
# Act
workspace, workspace_count, workspace_norm = get_reduced_can_workspace_from_ads(state, output_parts=True,
reduction_mode=ISISReductionMode.LAB) # noqa
# Assert
self.assertTrue(workspace is not None)
self.assertTrue(workspace.name() == AnalysisDataService.retrieve("test_ws").name())
self.assertTrue(workspace_count is not None)
self.assertTrue(workspace_count.name() == AnalysisDataService.retrieve("test_ws_count").name())
self.assertTrue(workspace_norm is not None)
self.assertTrue(workspace_norm.name() == AnalysisDataService.retrieve("test_ws_norm").name())
# Clean up
SANSFunctionsTest._remove_workspaces()
示例11: test_that_divide_strategy_is_selected_for_isis_instrument_and_is_not_can
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_divide_strategy_is_selected_for_isis_instrument_and_is_not_can(self):
# Arrange
test_director = TestDirector()
state_isis = test_director.construct()
divide_factory = DivideByVolumeFactory()
# Act
divider = divide_factory.create_divide_by_volume(state_isis)
# Arrange
self.assertTrue(isinstance(divider, DivideByVolumeISIS))
示例12: test_that_correct_scale_strategy_is_selected_for_non_loq_isis_instrument
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def test_that_correct_scale_strategy_is_selected_for_non_loq_isis_instrument(self):
# Arrange
test_director = TestDirector()
state_isis = test_director.construct()
absolute_multiply_factory = MultiplyByAbsoluteScaleFactory()
# Act
multiplier = absolute_multiply_factory.create_multiply_by_absolute(state_isis)
# Arrange
self.assertTrue(isinstance(multiplier, MultiplyByAbsoluteScaleISIS))
示例13: _get_simple_state
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def _get_simple_state(sample_scatter, sample_trans=None, sample_direct=None,
can_scatter=None, can_trans=None, can_direct=None, calibration=None,
sample_scatter_period=None, sample_trans_period=None, sample_direct_period=None,
can_scatter_period=None, can_trans_period=None, can_direct_period=None):
file_information_factory = SANSFileInformationFactory()
file_information = file_information_factory.create_sans_file_information(sample_scatter)
data_builder = get_data_builder(SANSFacility.ISIS, file_information)
data_builder.set_sample_scatter(sample_scatter)
# Set the file names
if sample_trans is not None:
data_builder.set_sample_transmission(sample_trans)
if sample_direct is not None:
data_builder.set_sample_direct(sample_direct)
if can_scatter is not None:
data_builder.set_can_scatter(can_scatter)
if can_trans is not None:
data_builder.set_can_transmission(can_trans)
if can_direct is not None:
data_builder.set_can_direct(can_direct)
# Set the periods
if sample_scatter_period is not None:
data_builder.set_sample_scatter_period(sample_scatter_period)
if sample_trans_period is not None:
data_builder.set_sample_transmission_period(sample_trans_period)
if sample_direct_period is not None:
data_builder.set_sample_direct_period(sample_direct_period)
if can_scatter_period is not None:
data_builder.set_can_scatter_period(can_scatter_period)
if can_trans_period is not None:
data_builder.set_can_transmission_period(can_trans_period)
if can_direct_period is not None:
data_builder.set_can_direct_period(can_direct_period)
# Add the calibration
if calibration is not None:
data_builder.set_calibration(calibration)
data_info = data_builder.build()
# Get the sample state
test_director = TestDirector()
test_director.set_states(data_state=data_info)
return test_director.construct()
示例14: get_example_state
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def get_example_state():
ws_name_sample = "SANS2D00022024"
data_builder = get_data_builder(SANSFacility.ISIS)
data_builder.set_sample_scatter(ws_name_sample)
data = data_builder.build()
# Get the sample state
test_director = TestDirector()
test_director.set_states(data_state=data)
return test_director.construct()
示例15: get_example_state
# 需要导入模块: from sans.test_helper.test_director import TestDirector [as 别名]
# 或者: from sans.test_helper.test_director.TestDirector import construct [as 别名]
def get_example_state():
ws_name_sample = "SANS2D00022024"
file_information = SANSFileInformationMock(instrument=SANSInstrument.SANS2D, run_number=22024)
data_builder = get_data_builder(SANSFacility.ISIS, file_information)
data_builder.set_sample_scatter(ws_name_sample)
data = data_builder.build()
# Get the sample state
test_director = TestDirector()
test_director.set_states(data_state=data)
return test_director.construct()