def test_data_can_be_added_correctly_via_keyword_args(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") self.assertEqual(data.num_items(), 1) self.assertEqual(data.contains_n(run=1234), 1) self.assertEqual(data.contains_n(workspace=[1]), 1) self.assertEqual(data.contains_n(filename="C:\\dir1\\file1.nxs"), 1)
def test_counting_entries_with_keyword_argument_gives_correct_count(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertEqual(data.contains_n(run=1234), 2) self.assertEqual(data.contains_n(filename="C:\\dir1\\file1.nxs"), 1) self.assertEqual(data.contains_n(run=9999), 0)
def test_that_contains_is_true_when_data_contains_entries_which_match_to_at_least_one_of_multiple_keywords(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") # values from keywords correspond to different entries self.assertTrue(data.contains(run=1234, filename="C:\\dir1\\file2.nxs")) self.assertTrue(data.contains(run=1234, workspace=[3]))
def test_that_contains_is_false_when_data_contains_entries_which_match_to_only_one_of_multiple_keywords(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") # values from keywords correspond to different entries self.assertFalse(data.contains(run=1234, filename="C:\\dir1\\file2.nxs")) self.assertTrue(data.contains(run=1234, workspace=[3]))
def test_that_remove_method_can_remove_several_entries_at_once(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1234, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertEqual(data.num_items(), 3) data.remove_data(run=1234) self.assert_empty(data)
def test_counting_entries_applies_OR_behaviour_to_keyword_arguments(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") data.add_data(run=1236, workspace=[4], filename="C:\\dir1\\file4.nxs") self.assertEqual(data.contains_n(run=1234, workspace=[1]), 2) self.assertEqual(data.contains_n(run=1234, workspace=[2]), 3) self.assertEqual(data.contains_n(run=1234, workspace=[2], filename="C:\\dir1\\file4.nxs"), 4)
def test_counting_entries_applies_AND_behaviour_to_keyword_arguments(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") data.add_data(run=1236, workspace=[4], filename="C:\\dir1\\file4.nxs") self.assertEqual(data.contains_n(run=1234, workspace=[1]), 1) self.assertEqual(data.contains_n(run=1234, workspace=[2]), 0) self.assertEqual(data.contains_n(run=1234, workspace=[2], filename="C:\\dir1\\file4.nxs"), 0)
def test_that_contains_is_true_when_data_contains_entry_which_matches_to_a_single_keyword_and_false_otherwise(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertTrue(data.contains(run=1234)) self.assertTrue(data.contains(filename="C:\\dir1\\file1.nxs")) self.assertFalse(data.contains(run=9999)) self.assertFalse(data.contains(filename="C:\\dir1\\file4.nxs"))
def populate_loaded_data(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs", instrument='EMU') data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs", instrument='EMU') data.add_data(run=1236, workspace=[3], filename="C:\\dir1\\file3.nxs", instrument='EMU') return data
def test_that_adding_then_removing_single_item_leaves_data_empty(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") self.assertEqual(data.num_items(), 1) data.remove_data(run=1234) self.assert_empty(data) data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.remove_data(workspace=[1]) self.assert_empty(data) data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.remove_data(filename="C:\\dir1\\file1.nxs") self.assert_empty(data)
class EAGroupContextTest(unittest.TestCase): def setUp(self): self.context = EAGroupContext() self.loadedData = MuonLoadData() def create_group_workspace_and_load(self): grpws = WorkspaceGroup() ws_detector1 = '9999; Detector 1' grpws.addWorkspace(CreateSampleWorkspace(OutputWorkspace=ws_detector1)) ws_detector2 = '9999; Detector 2' grpws.addWorkspace(CreateSampleWorkspace(OutputWorkspace=ws_detector2)) run = 9999 self.loadedData.add_data(run=[run], workspace=grpws) # ------------------------------------------------------------------------------------------------------------------ # TESTS # ------------------------------------------------------------------------------------------------------------------ def test_add_new_group(self): self.loadedData.clear() self.create_group_workspace_and_load() empty_group = [] new_group = self.context.add_new_group(empty_group, self.loadedData) self.assertEqual(len(new_group), 2) def test_remove_group(self): self.loadedData.clear() self.create_group_workspace_and_load() self.context.reset_group_to_default(self.loadedData) self.assertEqual(len(self.context.groups), 2) group_name1 = '9999; Detector 1' self.assertTrue(group_name1 in self.context.group_names) self.context.remove_group(group_name1) self.assertFalse(group_name1 in self.context.group_names) def test_reset_group_to_default(self): self.loadedData.clear() self.assertEqual(self.loadedData.num_items(), 0) self.create_group_workspace_and_load() self.context.reset_group_to_default(self.loadedData) self.assertEqual(len(self.context.groups), 2) def test_clear(self): self.loadedData.clear() self.create_group_workspace_and_load() self.context.reset_group_to_default(self.loadedData) self.assertEqual(len(self.context.groups), 2) self.context.clear() self.assertEqual(len(self.context.groups), 0) @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_rebinned_workspace" ) @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_peak_table") @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_matches_group") def test_remove_rebinned_workspace_from_group(self, mock_remove_matches, mock_remove_peak, mock_remove_rebinned): mock_group = EAGroup("9999; Detector 1", "detector 1", "9999") self.context.add_group(mock_group) self.context.remove_workspace_from_group( '9999; Detector 1_EA_Rebinned_Fixed') mock_remove_rebinned.assert_called_once() mock_remove_peak.assert_not_called() mock_remove_matches.assert_not_called() @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_rebinned_workspace" ) @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_peak_table") @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_matches_group") def test_remove_peak_table_from_group(self, mock_remove_matches, mock_remove_peak, mock_remove_rebinned): mock_group = EAGroup("9999; Detector 1", "detector 1", "9999") self.context.add_group(mock_group) self.context.remove_workspace_from_group( '9999; Detector 1_EA_peak_table') mock_remove_rebinned.assert_not_called() mock_remove_peak.aassert_called_once() mock_remove_matches.assert_not_called() @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_rebinned_workspace" ) @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_peak_table") @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_matches_group") def test_remove_matches_table_from_group(self, mock_remove_matches, mock_remove_peak, mock_remove_rebinned): mock_group = EAGroup("9999; Detector 1", "detector 1", "9999") self.context.add_group(mock_group) self.context.remove_workspace_from_group('9999; Detector 1_EA_matches') mock_remove_rebinned.assert_not_called() mock_remove_peak.aassert_not_called() mock_remove_matches.assert_called_once() @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_rebinned_workspace" ) @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_peak_table") @mock.patch( "Muon.GUI.ElementalAnalysis2.ea_group.EAGroup.remove_matches_group") def test_remove_workspace_from_group_when_not_in_group( self, mock_remove_matches, mock_remove_peak, mock_remove_rebinned): mock_group = EAGroup("9999; Detector 1", "detector 1", "9999") self.context.add_group(mock_group) self.context.remove_workspace_from_group('mock_workspace') mock_remove_rebinned.assert_not_called() mock_remove_peak.aassert_not_called() mock_remove_matches.assert_not_called() @mock.patch("Muon.GUI.ElementalAnalysis2.ea_group.remove_ws_if_present") def test_error_raised_when_deleting_EAGroup(self, mock_remove_ws): self.loadedData.clear() self.create_group_workspace_and_load() self.context.reset_group_to_default(self.loadedData) self.assertEqual(len(self.context.groups), 2) group_name1 = '9999; Detector 1' self.assertTrue(group_name1 in self.context.group_names) mock_remove_ws.side_effect = ValueError("mock error") error_notifier_mock = mock.Mock() self.context[group_name1].error_notifier = error_notifier_mock self.context.remove_group(group_name1) self.assertFalse(group_name1 in self.context.group_names) mock_remove_ws.assert_called_once_with(group_name1) error_notifier_mock.notify_subscribers.assert_called_once_with( f"Unexpected error occurred when" f" deleting group {group_name1}: mock error")
class MuonLoadDataTest(unittest.TestCase): def setUp(self): self.muon_load_data = MuonLoadData() self.workspace = mock.MagicMock() self.workspace_last = mock.MagicMock() self.muon_load_data.add_data(run=1, workspace=mock.MagicMock(), filename='path to file') self.muon_load_data.add_data(run=2, workspace=self.workspace, filename='path to file') self.muon_load_data.add_data(run=3, workspace=mock.MagicMock(), filename='matching path') self.muon_load_data.add_data() self.muon_load_data.add_data(run=4, workspace=self.workspace_last, filename='path to file') def assert_empty(self, load_data): self.assertEqual(load_data.get_parameter("run"), []) self.assertEqual(load_data.get_parameter("workspace"), []) self.assertEqual(load_data.get_parameter("filename"), []) self.assertEqual(load_data.num_items(), 0) def populate_loaded_data(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1236, workspace=[3], filename="C:\\dir1\\file3.nxs") return data # ------------------------------------------------------------------------------------------------------------------ # TESTS # ------------------------------------------------------------------------------------------------------------------ def test_load_data_initialized_as_empty(self): data = MuonLoadData() self.assert_empty(data) def test_data_can_be_added_correctly_via_keyword_args(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") self.assertEqual(data.num_items(), 1) self.assertEqual(data.contains_n(run=1234), 1) self.assertEqual(data.contains_n(workspace=[1]), 1) self.assertEqual(data.contains_n(filename="C:\\dir1\\file1.nxs"), 1) def test_that_clear_empties_the_data_of_all_entries(self): data = self.populate_loaded_data() self.assertEqual(data.num_items(), 3) data.clear() self.assert_empty(data) def test_that_adding_then_removing_single_item_leaves_data_empty(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") self.assertEqual(data.num_items(), 1) data.remove_data(run=1234) self.assert_empty(data) data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.remove_data(workspace=[1]) self.assert_empty(data) data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.remove_data(filename="C:\\dir1\\file1.nxs") self.assert_empty(data) def test_that_remove_method_can_remove_several_entries_at_once(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1234, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertEqual(data.num_items(), 3) data.remove_data(run=1234) self.assert_empty(data) def test_that_remove_method_applies_OR_to_multiple_keyword_arguments(self): data = self.populate_loaded_data() self.assertEqual(data.num_items(), 3) data.remove_data(run=1234, workspace=[2], filename="C:\\dir1\\file3.nxs") self.assert_empty(data) def test_that_contains_is_true_when_data_contains_entry_which_matches_to_a_single_keyword_and_false_otherwise(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertTrue(data.contains(run=1234)) self.assertTrue(data.contains(filename="C:\\dir1\\file1.nxs")) self.assertFalse(data.contains(run=9999)) self.assertFalse(data.contains(filename="C:\\dir1\\file4.nxs")) def test_that_contains_is_true_when_data_contains_entries_which_match_to_at_least_one_of_multiple_keywords(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") # values from keywords correspond to different entries self.assertTrue(data.contains(run=1234, filename="C:\\dir1\\file2.nxs")) self.assertTrue(data.contains(run=1234, workspace=[3])) def test_counting_entries_with_keyword_argument_gives_correct_count(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertEqual(data.contains_n(run=1234), 2) self.assertEqual(data.contains_n(filename="C:\\dir1\\file1.nxs"), 1) self.assertEqual(data.contains_n(run=9999), 0) def test_counting_entries_applies_OR_behaviour_to_keyword_arguments(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") data.add_data(run=1236, workspace=[4], filename="C:\\dir1\\file4.nxs") self.assertEqual(data.contains_n(run=1234, workspace=[1]), 2) self.assertEqual(data.contains_n(run=1234, workspace=[2]), 3) self.assertEqual(data.contains_n(run=1234, workspace=[2], filename="C:\\dir1\\file4.nxs"), 4) def test_iterator_behaviour_of_data(self): data = self.populate_loaded_data() check = [{"run": 1234, "workspace": [1], "filename": "C:\\dir1\\file1.nxs"}, {"run": 1235, "workspace": [2], "filename": "C:\\dir1\\file2.nxs"}, {"run": 1236, "workspace": [3], "filename": "C:\\dir1\\file3.nxs"}] for data_item in iter(data): self.assertEqual(data_item, check.pop(0)) def test_that_remove_current_data_removes_the_most_recently_added_data(self): data = self.populate_loaded_data() data.remove_current_data() check = [{"run": 1234, "workspace": [1], "filename": "C:\\dir1\\file1.nxs"}, {"run": 1235, "workspace": [2], "filename": "C:\\dir1\\file2.nxs"}] for data_item in iter(data): self.assertEqual(data_item, check.pop(0)) def test_that_remove_last_added_data_removes_the_previous_data_item_before_the_most_recent(self): data = self.populate_loaded_data() data.remove_last_added_data() check = [{"run": 1234, "workspace": [1], "filename": "C:\\dir1\\file1.nxs"}, {"run": 1236, "workspace": [3], "filename": "C:\\dir1\\file3.nxs"}] for data_item in iter(data): self.assertEqual(data_item, check.pop(0)) def test_that_can_add_data_to_struct(self): self.assertEqual(self.muon_load_data.num_items(), 5) self.assertEqual(self.muon_load_data.get_parameter('run')[2], 3) self.assertEqual(self.muon_load_data.get_parameter('workspace')[1], self.workspace) self.assertEqual(self.muon_load_data.get_parameter('filename')[0], 'path to file') def test_that_matches_returns_true_for_all_entries_with_one_match(self): match_list = self.muon_load_data._matches(run=1, workspace=self.workspace, filename='matching path') self.assertEqual(match_list, [True, True, True, False, False]) def test_that_matches_with_no_params_matches_none(self): match_list = self.muon_load_data._matches() self.assertEqual(match_list, [False, False, False, False, False]) def test_that_matches_with_unused_parameters_match_none(self): match_list = self.muon_load_data._matches(new_info='new info') self.assertEqual(match_list, [False, False, False, False, False]) def test_that_matches_correctly_with_only_one_parameter_given(self): match_list = self.muon_load_data._matches(filename='path to file') self.assertEqual(match_list, [True, True, False, False, True]) def test_that_get_data_returns_correct_dict(self): data_dict = self.muon_load_data.get_data(run=2) self.assertEqual(data_dict, {'workspace': self.workspace, 'filename': 'path to file', 'run': 2}) def test_that_get_latest_data_returns_correct_dict(self): data_dict = self.muon_load_data.get_latest_data() self.assertEqual(data_dict, {'workspace': self.workspace_last, 'filename': 'path to file', 'run': 4})
class MuonLoadDataTest(unittest.TestCase): def setUp(self): self.muon_load_data = MuonLoadData() self.workspace = mock.MagicMock() self.workspace_last = mock.MagicMock() self.muon_load_data.add_data(run=1, workspace=mock.MagicMock(), filename='path to file') self.muon_load_data.add_data(run=2, workspace=self.workspace, filename='path to file') self.muon_load_data.add_data(run=3, workspace=mock.MagicMock(), filename='matching path') self.muon_load_data.add_data() self.muon_load_data.add_data(run=4, workspace=self.workspace_last, filename='path to file') def assert_empty(self, load_data): self.assertEqual(load_data.get_parameter("run"), []) self.assertEqual(load_data.get_parameter("workspace"), []) self.assertEqual(load_data.get_parameter("filename"), []) self.assertEqual(load_data.num_items(), 0) def assert_unchanged(self, load_data): self.assertEqual(load_data.get_parameter("run"), [1234, 1235, 1236]) self.assertEqual(load_data.get_parameter("workspace"), [[1], [2], [3]]) self.assertEqual(load_data.get_parameter("filename"), [ "C:\\dir1\\file1.nxs", "C:\\dir1\\file2.nxs", "C:\\dir1\\file3.nxs" ]) self.assertEqual(load_data.num_items(), 3) def populate_loaded_data(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs", instrument='EMU') data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs", instrument='EMU') data.add_data(run=1236, workspace=[3], filename="C:\\dir1\\file3.nxs", instrument='EMU') return data # ------------------------------------------------------------------------------------------------------------------ # TESTS # ------------------------------------------------------------------------------------------------------------------ def test_load_data_initialized_as_empty(self): data = MuonLoadData() self.assert_empty(data) def test_data_can_be_added_correctly_via_keyword_args(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") self.assertEqual(data.num_items(), 1) self.assertEqual(data.contains_n(run=1234), 1) self.assertEqual(data.contains_n(workspace=[1]), 1) self.assertEqual(data.contains_n(filename="C:\\dir1\\file1.nxs"), 1) def test_that_clear_empties_the_data_of_all_entries(self): data = self.populate_loaded_data() self.assertEqual(data.num_items(), 3) data.clear() self.assert_empty(data) def test_that_adding_then_removing_single_item_leaves_data_empty(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") self.assertEqual(data.num_items(), 1) data.remove_data(run=1234) self.assert_empty(data) data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.remove_data(workspace=[1]) self.assert_empty(data) data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.remove_data(filename="C:\\dir1\\file1.nxs") self.assert_empty(data) def test_that_remove_method_can_remove_several_entries_at_once(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1234, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertEqual(data.num_items(), 3) data.remove_data(run=1234) self.assert_empty(data) def test_that_remove_method_applies_AND_to_multiple_keyword_arguments( self): data = self.populate_loaded_data() self.assertEqual(data.num_items(), 3) data.remove_data(run=1234, workspace=[2], filename="C:\\dir1\\file3.nxs") self.assert_unchanged(data) def test_that_contains_is_true_when_data_contains_entry_which_matches_to_a_single_keyword_and_false_otherwise( self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertTrue(data.contains(run=1234)) self.assertTrue(data.contains(filename="C:\\dir1\\file1.nxs")) self.assertFalse(data.contains(run=9999)) self.assertFalse(data.contains(filename="C:\\dir1\\file4.nxs")) def test_that_contains_is_false_when_data_contains_entries_which_match_to_only_one_of_multiple_keywords( self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") # values from keywords correspond to different entries self.assertFalse( data.contains(run=1234, filename="C:\\dir1\\file2.nxs")) self.assertTrue(data.contains(run=1234, workspace=[3])) def test_counting_entries_with_keyword_argument_gives_correct_count(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") self.assertEqual(data.contains_n(run=1234), 2) self.assertEqual(data.contains_n(filename="C:\\dir1\\file1.nxs"), 1) self.assertEqual(data.contains_n(run=9999), 0) def test_counting_entries_applies_AND_behaviour_to_keyword_arguments(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1234, workspace=[3], filename="C:\\dir1\\file3.nxs") data.add_data(run=1236, workspace=[4], filename="C:\\dir1\\file4.nxs") self.assertEqual(data.contains_n(run=1234, workspace=[1]), 1) self.assertEqual(data.contains_n(run=1234, workspace=[2]), 0) self.assertEqual( data.contains_n(run=1234, workspace=[2], filename="C:\\dir1\\file4.nxs"), 0) def test_iterator_behaviour_of_data(self): data = self.populate_loaded_data() check = [{ "run": 1234, "workspace": [1], "filename": "C:\\dir1\\file1.nxs", 'instrument': 'EMU' }, { "run": 1235, "workspace": [2], "filename": "C:\\dir1\\file2.nxs", 'instrument': 'EMU' }, { "run": 1236, "workspace": [3], "filename": "C:\\dir1\\file3.nxs", 'instrument': 'EMU' }] for data_item in iter(data): self.assertEqual(data_item, check.pop(0)) def test_that_remove_current_data_removes_the_most_recently_added_data( self): data = self.populate_loaded_data() data.remove_current_data() check = [{ "run": 1234, "workspace": [1], "filename": "C:\\dir1\\file1.nxs", 'instrument': 'EMU' }, { "run": 1235, "workspace": [2], "filename": "C:\\dir1\\file2.nxs", 'instrument': 'EMU' }] for data_item in iter(data): self.assertEqual(data_item, check.pop(0)) def test_that_remove_last_added_data_removes_the_previous_data_item_before_the_most_recent( self): data = self.populate_loaded_data() data.remove_last_added_data() check = [{ "run": 1234, "workspace": [1], "filename": "C:\\dir1\\file1.nxs", 'instrument': 'EMU' }, { "run": 1236, "workspace": [3], "filename": "C:\\dir1\\file3.nxs", 'instrument': 'EMU' }] for data_item in iter(data): self.assertEqual(data_item, check.pop(0)) def test_that_can_add_data_to_struct(self): self.assertEqual(self.muon_load_data.num_items(), 5) self.assertEqual(self.muon_load_data.get_parameter('run')[2], 3) self.assertEqual( self.muon_load_data.get_parameter('workspace')[1], self.workspace) self.assertEqual( self.muon_load_data.get_parameter('filename')[0], 'path to file') def test_that_matches_returns_false_for_all_entries_with_only_one_match( self): match_list = self.muon_load_data._matches(run=1, workspace=self.workspace, filename='matching path') self.assertEqual(match_list, [False, False, False, False, False]) def test_that_matches_with_no_params_matches_all(self): match_list = self.muon_load_data._matches() self.assertEqual(match_list, [True, True, True, True, True]) def test_that_matches_with_unused_parameters_match_none(self): match_list = self.muon_load_data._matches(new_info='new info') self.assertEqual(match_list, [False, False, False, False, False]) def test_that_matches_correctly_with_only_one_parameter_given(self): match_list = self.muon_load_data._matches(filename='path to file') self.assertEqual(match_list, [True, True, False, False, True]) def test_that_get_data_returns_correct_dict(self): data_dict = self.muon_load_data.get_data(run=2) self.assertEqual( data_dict, { 'workspace': self.workspace, 'filename': 'path to file', 'run': 2, 'instrument': '' }) def test_that_get_latest_data_returns_correct_dict(self): data_dict = self.muon_load_data.get_latest_data() self.assertEqual( data_dict, { 'workspace': self.workspace_last, 'filename': 'path to file', 'run': 4, 'instrument': '' })
def populate_loaded_data(self): data = MuonLoadData() data.add_data(run=1234, workspace=[1], filename="C:\\dir1\\file1.nxs") data.add_data(run=1235, workspace=[2], filename="C:\\dir1\\file2.nxs") data.add_data(run=1236, workspace=[3], filename="C:\\dir1\\file3.nxs") return data
class MuonContextTest(unittest.TestCase): @classmethod def setUpClass(cls): pass def setUp(self): AnalysisDataService.clear() self.filepath = FileFinder.findRuns('EMU00019489.nxs')[0] self.load_result, self.run_number, self.filename = load_workspace_from_filename( self.filepath) self.loaded_data = MuonLoadData() self.data_context = MuonDataContext(self.loaded_data) self.gui_context = MuonGuiContext() self.group_pair_context = MuonGroupPairContext() self.gui_context.update({'RebinType': 'None'}) self.context = MuonContext(muon_data_context=self.data_context, muon_gui_context=self.gui_context, muon_group_context=self.group_pair_context) self.data_context.instrument = 'EMU' self.loaded_data.add_data(workspace=self.load_result, run=[self.run_number], filename=self.filename, instrument='EMU') self.data_context.current_runs = [[self.run_number]] self.data_context.update_current_data() self.group_pair_context.reset_group_and_pairs_to_default( self.load_result['OutputWorkspace'][0]._workspace, 'EMU', '') def populate_ADS(self): self.context.calculate_all_groups() self.context.show_all_groups() self.context.calculate_all_pairs() self.context.show_all_pairs() workspace = CreateWorkspace([0], [0], StoreInADS=False) self.context.phase_context.add_phase_quad( MuonWorkspaceWrapper(workspace, 'EMU19489; PhaseQuad; PhaseTable EMU19489')) def test_reset_groups_and_pairs_to_default(self): self.assertEquals(self.group_pair_context.group_names, ['fwd', 'bwd']) self.assertEquals(self.group_pair_context.pair_names, ['long']) def test_calculate_group_calculates_group_for_given_run(self): counts_workspace, asymmetry_workspace = self.context.calculate_group( 'fwd', run=[19489]) self.assertEquals(type(counts_workspace), Workspace2D) self.assertEquals(type(counts_workspace), Workspace2D) def test_calculate_pair_calculates_pair_for_given_run(self): pair_asymmetry = self.context.calculate_pair('long', run=[19489]) self.assertEquals(type(pair_asymmetry), Workspace2D) def test_show_all_groups_calculates_and_shows_all_groups(self): self.context.show_all_groups() self.assertEquals(AnalysisDataService.getObjectNames(), [ 'EMU19489', 'EMU19489 Groups', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Group; bwd; Counts; #1', 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; fwd; Counts; #1', 'Muon Data' ]) def test_that_show_all_calculates_and_shows_all_groups_with_rebin(self): self.gui_context['RebinType'] = 'Fixed' self.gui_context['RebinFixed'] = 2 self.context.show_all_groups() self.assertEquals(AnalysisDataService.getObjectNames(), [ 'EMU19489', 'EMU19489 Groups', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Group; bwd; Asymmetry; Rebin; #1', 'EMU19489; Group; bwd; Counts; #1', 'EMU19489; Group; bwd; Counts; Rebin; #1', 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; fwd; Asymmetry; Rebin; #1', 'EMU19489; Group; fwd; Counts; #1', 'EMU19489; Group; fwd; Counts; Rebin; #1', 'Muon Data' ]) def test_show_all_pairs_calculates_and_shows_all_pairs(self): self.context.show_all_pairs() self.assertEquals(AnalysisDataService.getObjectNames(), [ 'EMU19489', 'EMU19489 Pairs', 'EMU19489; Pair Asym; long; #1', 'Muon Data' ]) def test_that_show_all_calculates_and_shows_all_pairs_with_rebin(self): self.gui_context['RebinType'] = 'Fixed' self.gui_context['RebinFixed'] = 2 self.context.show_all_pairs() self.assertEquals(AnalysisDataService.getObjectNames(), [ 'EMU19489', 'EMU19489 Pairs', 'EMU19489; Pair Asym; long; #1', 'EMU19489; Pair Asym; long; Rebin; #1', 'Muon Data' ]) def test_update_current_data_sets_current_run_in_data_context(self): self.context.update_current_data() self.assertEquals(self.data_context.current_data, self.load_result) def test_update_current_data_sets_groups_and_pairs(self): self.context.update_current_data() self.assertEquals(self.group_pair_context.pair_names, ['long']) self.assertEquals(self.group_pair_context.group_names, ['fwd', 'bwd']) def test_show_raw_data_puts_raw_data_into_the_ADS(self): self.context.show_raw_data() self.assertEquals(AnalysisDataService.getObjectNames(), [ 'EMU19489', 'EMU19489 Raw Data', 'EMU19489_raw_data', 'Muon Data' ]) def test_that_first_good_data_returns_correctly_when_from_file_chosen_option( self): self.gui_context.update({'FirstGoodDataFromFile': True}) first_good_data = self.context.first_good_data([19489]) self.assertEquals(first_good_data, 0.11) def test_first_good_data_returns_correctly_when_manually_specified_used( self): self.gui_context.update({ 'FirstGoodDataFromFile': False, 'FirstGoodData': 5 }) first_good_data = self.context.first_good_data([19489]) self.assertEquals(first_good_data, 5) def test_that_last_good_data_returns_correctly_when_from_file_chosen_option( self): self.gui_context.update({'LastGoodDataFromFile': True}) last_good_data = self.context.last_good_data([19489]) self.assertEquals(last_good_data, 31.76) def test_last_good_data_returns_correctly_when_manually_specified_used( self): self.gui_context.update({ 'LastGoodDataFromFile': False, 'LastGoodData': 5 }) last_good_data = self.context.last_good_data([19489]) self.assertEquals(last_good_data, 5) def test_that_dead_time_table_from_ADS_returns_table_name(self): self.gui_context.update({ 'DeadTimeSource': 'FromADS', 'DeadTimeTable': 'deadtime_table_name' }) deadtime_table = self.context.dead_time_table([19489]) self.assertEquals(deadtime_table, 'deadtime_table_name') def test_get_workspace_names_returns_all_stored_workspaces_if_all_selected( self): self.populate_ADS() workspace_list = self.context.get_names_of_workspaces_to_fit( '19489', 'fwd, bwd, long', True) self.assertEqual(workspace_list, [ 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Pair Asym; long; #1', 'EMU19489; PhaseQuad; PhaseTable EMU19489' ]) def test_get_workspace_names_returns_nothing_if_no_parameters_passed(self): self.populate_ADS() workspace_list = self.context.get_names_of_workspaces_to_fit() self.assertEqual(workspace_list, []) def test_get_workspaces_names_copes_with_bad_groups(self): self.populate_ADS() workspace_list = self.context.get_names_of_workspaces_to_fit( '19489', 'fwd, bwd, long, random, wrong', True) self.assertEqual(workspace_list, [ 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Pair Asym; long; #1', 'EMU19489; PhaseQuad; PhaseTable EMU19489' ]) def test_get_workspaces_names_copes_with_non_existent_runs(self): self.populate_ADS() workspace_list = self.context.get_names_of_workspaces_to_fit( '19489, 22222', 'fwd, bwd, long', True) self.assertEqual(workspace_list, [ 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Pair Asym; long; #1', 'EMU19489; PhaseQuad; PhaseTable EMU19489' ]) def test_that_run_ranged_correctly_parsed(self): self.populate_ADS() workspace_list = self.context.get_names_of_workspaces_to_fit( '19489-95', 'fwd, bwd, long', True) self.assertEqual(workspace_list, [ 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Pair Asym; long; #1', 'EMU19489; PhaseQuad; PhaseTable EMU19489' ])
class MuonDataContextTest(unittest.TestCase): @classmethod def setUpClass(cls): super(MuonDataContextTest, cls).setUpClass() cls.filepath = FileFinder.findRuns('EMU00019489.nxs')[0] cls.load_result, cls.run_number, cls.filename, _ = load_workspace_from_filename( cls.filepath) def setUp(self): self.loaded_data = MuonLoadData() self.context = MuonDataContext(load_data=self.loaded_data) self.context.instrument = 'EMU' self.loaded_data.add_data(workspace=self.load_result, run=[self.run_number], filename=self.filename, instrument='EMU') self.context.current_runs = [[self.run_number]] self.context.update_current_data() def tearDown(self): AnalysisDataService.clear() def test_setting_current_data_with_a_different_field_sends_message_signal( self): self.context.current_data['MainFieldDirection'] = 'transverse' self.context.message_notifier.notify_subscribers = mock.MagicMock() self.context.update_current_data() self.context.message_notifier.notify_subscribers.assert_called_once_with( 'MainFieldDirection has changed between' ' data sets, click default to reset grouping if required') self.context.current_data['MainFieldDirection'] = 'longitudinal' def test_that_setting_current_runs_with_mixture_of_transverse_and_longitudanal_runs_raises_warning( self): loaded_data = copy.copy(self.context.current_data) self.context.message_notifier.notify_subscribers = mock.MagicMock() loaded_data['MainFieldDirection'] = 'transverse' self.loaded_data.add_data(workspace=loaded_data, run=[1], filename='filename', instrument='EMU') self.context.current_runs = [[19489], [1]] self.context.message_notifier.notify_subscribers.assert_called_once_with( 'MainFieldDirection changes within current run set:\ntransverse field runs 1\nlongitudinal field runs 19489\n' ) def test_is_data_loaded_returns_true_if_data_loaded(self): self.assertTrue(self.context.is_data_loaded()) def test_is_data_loaded_returns_false_if_no_data_loaded(self): self.context._loaded_data.clear() self.assertFalse(self.context.is_data_loaded()) def test_current_filenames_returns_path_to_current_file(self): self.assertEqual(self.context.current_filenames, [self.filepath]) def test_current_runs_set_correctly(self): self.assertEqual(self.context.current_runs, [[19489]]) def test_current_workspaces_returns_correctly(self): self.assertEqual(self.context.current_workspaces, [self.load_result]) def test_get_loaded_data_for_run_returns_correctly(self): self.assertEqual(self.context.get_loaded_data_for_run([19489]), self.load_result) def test_num_detectors_returns_correctly(self): self.assertEqual(self.context.num_detectors, 96) def test_num_periods_returns_correctly(self): self.assertEqual(self.context.num_periods([19489]), 1) def test_main_field_direction_returns_correctly(self): self.assertEqual(self.context.main_field_direction, 'Longitudinal') def test_dead_time_table_returns_correctly(self): self.assertEqual(self.context.dead_time_table, self.load_result['DeadTimeTable']) def test_return_sample_log_returns_correctly(self): self.assertEqual(self.context.get_sample_log('goodfrm').value, 31369.0)
class MuonDataContextTest(unittest.TestCase): def setUp(self): self.loaded_data = MuonLoadData() self.context = MuonDataContext(self.loaded_data) self.context.instrument = 'EMU' filepath = FileFinder.findRuns('EMU00019489.nxs')[0] load_result, run, filename = load_workspace_from_filename(filepath) self.loaded_data.add_data(workspace=load_result, run=[run], filename=filename, instrument='EMU') self.context.current_runs = [[run]] self.context.update_current_data() def tearDown(self): AnalysisDataService.clear() def test_that_setting_a_fixed_rebin_step_calculates_all_groups_and_pairs_twice( self): self.context.gui_variables['RebinType'] = 'Fixed' self.context.gui_variables['RebinFixed'] = '2' self.context.show_all_groups() expected_workspaces = [ 'EMU19489', 'EMU19489 Groups', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Group; bwd; Asymmetry; Rebin; #1', 'EMU19489; Group; bwd; Counts; #1', 'EMU19489; Group; bwd; Counts; Rebin; #1', 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; fwd; Asymmetry; Rebin; #1', 'EMU19489; Group; fwd; Counts; #1', 'EMU19489; Group; fwd; Counts; Rebin; #1', 'Muon Data' ] self.assertEqual(AnalysisDataService.getObjectNames(), expected_workspaces) def test_that_setting_no_rebinning_calculates_groups_and_pairs_once(self): self.context.gui_variables['RebinType'] = 'None' self.context.show_all_groups() expected_workspaces = [ 'EMU19489', 'EMU19489 Groups', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Group; bwd; Counts; #1', 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; fwd; Counts; #1', 'Muon Data' ] self.assertEqual(AnalysisDataService.getObjectNames(), expected_workspaces) def test_that_setting_a_variable_rebin_step_calculates_all_groups_and_pairs_twice( self): self.context.gui_variables['RebinType'] = 'Variable' self.context.gui_variables['RebinVariable'] = '1,0.1,2' self.context.show_all_groups() expected_workspaces = [ 'EMU19489', 'EMU19489 Groups', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Group; bwd; Asymmetry; Rebin; #1', 'EMU19489; Group; bwd; Counts; #1', 'EMU19489; Group; bwd; Counts; Rebin; #1', 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; fwd; Asymmetry; Rebin; #1', 'EMU19489; Group; fwd; Counts; #1', 'EMU19489; Group; fwd; Counts; Rebin; #1', 'Muon Data' ] self.assertEqual(AnalysisDataService.getObjectNames(), expected_workspaces)
class MuonContextTest(unittest.TestCase): @classmethod def setUpClass(cls): pass def setUp(self): AnalysisDataService.clear() self.filepath = FileFinder.findRuns('EMU00019489.nxs')[0] self.load_result, self.run_number, self.filename = load_workspace_from_filename(self.filepath) self.loaded_data = MuonLoadData() self.data_context = MuonDataContext(self.loaded_data) self.gui_context = MuonGuiContext() self.group_pair_context = MuonGroupPairContext() self.gui_context.update({'RebinType': 'None'}) self.context = MuonContext(muon_data_context=self.data_context, muon_gui_context=self.gui_context, muon_group_context=self.group_pair_context) self.data_context.instrument = 'EMU' self.loaded_data.add_data(workspace=self.load_result, run=[self.run_number], filename=self.filename, instrument='EMU') self.data_context.current_runs = [[self.run_number]] self.data_context.update_current_data() self.group_pair_context.reset_group_and_pairs_to_default(self.load_result['OutputWorkspace'][0]._workspace, 'EMU', '') def test_reset_groups_and_pairs_to_default(self): self.assertEquals(self.group_pair_context.group_names, ['fwd', 'bwd']) self.assertEquals(self.group_pair_context.pair_names, ['long']) def test_calculate_group_calculates_group_for_given_run(self): counts_workspace, asymmetry_workspace = self.context.calculate_group('fwd', run=[19489]) self.assertEquals(type(counts_workspace), Workspace2D) self.assertEquals(type(counts_workspace), Workspace2D) def test_calculate_pair_calculates_pair_for_given_run(self): pair_asymmetry = self.context.calculate_pair('long', run=[19489]) self.assertEquals(type(pair_asymmetry), Workspace2D) def test_show_all_groups_calculates_and_shows_all_groups(self): self.context.show_all_groups() self.assertEquals(AnalysisDataService.getObjectNames(), ['EMU19489', 'EMU19489 Groups', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Group; bwd; Counts; #1', 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; fwd; Counts; #1', 'Muon Data']) def test_that_show_all_calculates_and_shows_all_groups_with_rebin(self): self.gui_context['RebinType'] = 'Fixed' self.gui_context['RebinFixed'] = 2 self.context.show_all_groups() self.assertEquals(AnalysisDataService.getObjectNames(), ['EMU19489', 'EMU19489 Groups', 'EMU19489; Group; bwd; Asymmetry; #1', 'EMU19489; Group; bwd; Asymmetry; Rebin; #1', 'EMU19489; Group; bwd; Counts; #1', 'EMU19489; Group; bwd; Counts; Rebin; #1', 'EMU19489; Group; fwd; Asymmetry; #1', 'EMU19489; Group; fwd; Asymmetry; Rebin; #1', 'EMU19489; Group; fwd; Counts; #1', 'EMU19489; Group; fwd; Counts; Rebin; #1', 'Muon Data']) def test_show_all_pairs_calculates_and_shows_all_pairs(self): self.context.show_all_pairs() self.assertEquals(AnalysisDataService.getObjectNames(), ['EMU19489', 'EMU19489 Pairs', 'EMU19489; Pair Asym; long; #1', 'Muon Data']) def test_that_show_all_calculates_and_shows_all_pairs_with_rebin(self): self.gui_context['RebinType'] = 'Fixed' self.gui_context['RebinFixed'] = 2 self.context.show_all_pairs() self.assertEquals(AnalysisDataService.getObjectNames(), ['EMU19489', 'EMU19489 Pairs', 'EMU19489; Pair Asym; long; #1', 'EMU19489; Pair Asym; long; Rebin; #1', 'Muon Data']) def test_update_current_data_sets_current_run_in_data_context(self): self.context.update_current_data() self.assertEquals(self.data_context.current_data, self.load_result) def test_update_current_data_sets_groups_and_pairs(self): self.context.update_current_data() self.assertEquals(self.group_pair_context.pair_names, ['long']) self.assertEquals(self.group_pair_context.group_names, ['fwd', 'bwd']) def test_show_raw_data_puts_raw_data_into_the_ADS(self): self.context.show_raw_data() self.assertEquals(AnalysisDataService.getObjectNames(), ['EMU19489', 'EMU19489 Raw Data', 'EMU19489_raw_data', 'Muon Data']) def test_that_first_good_data_returns_correctly_when_from_file_chosen_option(self): self.gui_context.update({'FirstGoodDataFromFile': True}) first_good_data = self.context.first_good_data([19489]) self.assertEquals(first_good_data, 0.11) def test_first_good_data_returns_correctly_when_manually_specified_used(self): self.gui_context.update({'FirstGoodDataFromFile': False, 'FirstGoodData': 5}) first_good_data = self.context.first_good_data([19489]) self.assertEquals(first_good_data, 5) def test_that_last_good_data_returns_correctly_when_from_file_chosen_option(self): self.gui_context.update({'LastGoodDataFromFile': True}) last_good_data = self.context.last_good_data([19489]) self.assertEquals(last_good_data, 31.76) def test_last_good_data_returns_correctly_when_manually_specified_used(self): self.gui_context.update({'LastGoodDataFromFile': False, 'LastGoodData': 5}) last_good_data = self.context.last_good_data([19489]) self.assertEquals(last_good_data, 5) def test_that_dead_time_table_from_ADS_returns_table_name(self): self.gui_context.update({'DeadTimeSource': 'FromADS', 'DeadTimeTable': 'deadtime_table_name'}) deadtime_table = self.context.dead_time_table([19489]) self.assertEquals(deadtime_table, 'deadtime_table_name')