def test_run_stop_insertion(): """Test, uh, the insertion of run stop documents """ run_start_uid = mdsc.insert_run_start( time=ttime.time(), beamline_id='sample_beamline', scan_id=42, uid=str(uuid.uuid4())) time = ttime.time() exit_status = 'success' reason = 'uh, because this is testing and it better be a success?' # insert the document run_stop_uid = mdsc.insert_run_stop(run_start_uid, time, exit_status=exit_status, reason=reason, uid=str(uuid.uuid4())) # get the sanitized run_stop document from metadatastore run_stop, = mdsc.find_run_stops(uid=run_stop_uid) # make sure it does not have an 'id' field check_for_id(run_stop) # make sure the run stop is pointing to the correct run start referenced_run_start = run_stop['run_start'] assert_equal(referenced_run_start.uid, run_start_uid) # check the remaining fields comparisons = {'time': time, 'exit_status': exit_status, 'reason': reason, 'uid': run_stop_uid} for attr, known_value in comparisons.items(): assert_equal(known_value, getattr(run_stop, attr))
def setup_syn(custom=None): if custom is None: custom = {} data_keys = { k: { 'source': k, 'dtype': 'number', 'shape': None } for k in 'ABCEDEFGHIJKL' } scan_id = 1 # Create a BeginRunEvent that serves as entry point for a run rs = mdsc.insert_run_start(scan_id=scan_id, beamline_id='testing', time=ttime.time(), custom=custom, uid=str(uuid.uuid4())) # Create an EventDescriptor that indicates the data # keys and serves as header for set of Event(s) e_desc = mdsc.insert_descriptor(data_keys=data_keys, time=ttime.time(), run_start=rs, uid=str(uuid.uuid4())) return rs, e_desc, data_keys
def test_run_stop_insertion(): """Test, uh, the insertion of run stop documents """ run_start_uid = mdsc.insert_run_start(time=ttime.time(), beamline_id='sample_beamline', scan_id=42, uid=str(uuid.uuid4())) time = ttime.time() exit_status = 'success' reason = 'uh, because this is testing and it better be a success?' # insert the document run_stop_uid = mdsc.insert_run_stop(run_start_uid, time, exit_status=exit_status, reason=reason, uid=str(uuid.uuid4())) # get the sanitized run_stop document from metadatastore run_stop, = mdsc.find_run_stops(uid=run_stop_uid) # make sure it does not have an 'id' field check_for_id(run_stop) # make sure the run stop is pointing to the correct run start referenced_run_start = run_stop['run_start'] assert_equal(referenced_run_start.uid, run_start_uid) # check the remaining fields comparisons = { 'time': time, 'exit_status': exit_status, 'reason': reason, 'uid': run_stop_uid } for attr, known_value in comparisons.items(): assert_equal(known_value, getattr(run_stop, attr))
def test_no_evdesc(): run_start_uid = mdsc.insert_run_start(scan_id=42, beamline_id='testbed', owner='tester', group='awesome-devs', project='Nikea', time=document_insertion_time, uid=str(uuid.uuid4())) mdsc.descriptors_by_start(run_start_uid)
def setup(): mds_setup() global run_start_uid, document_insertion_time document_insertion_time = ttime.time() temperature_ramp.run() run_start_uid = mdsc.insert_run_start(scan_id=3022013, beamline_id='testbed', owner='tester', group='awesome-devs', project='Nikea', time=document_insertion_time, uid=str(uuid.uuid4()))
def test_bad_event_desc(): data_keys = {k: {'source': k, 'dtype': 'number', 'shape': None} for k in ['foo', 'foo.bar'] } scan_id = 1 # Create a BeginRunEvent that serves as entry point for a run rs = mdsc.insert_run_start(scan_id=scan_id, beamline_id='testing', time=ttime.time(), uid=str(uuid.uuid4())) # Create an EventDescriptor that indicates the data # keys and serves as header for set of Event(s) mdsc.insert_descriptor(data_keys=data_keys, time=ttime.time(), run_start=rs, uid=str(uuid.uuid4()))
def setup_syn(custom=None): if custom is None: custom = {} data_keys = {k: {'source': k, 'dtype': 'number', 'shape': None} for k in 'ABCEDEFGHIJKL' } scan_id = 1 # Create a BeginRunEvent that serves as entry point for a run rs = mdsc.insert_run_start(scan_id=scan_id, beamline_id='testing', time=ttime.time(), custom=custom, uid=str(uuid.uuid4())) # Create an EventDescriptor that indicates the data # keys and serves as header for set of Event(s) e_desc = mdsc.insert_descriptor(data_keys=data_keys, time=ttime.time(), run_start=rs, uid=str(uuid.uuid4())) return rs, e_desc, data_keys
def test_insert_run_start(): time = ttime.time() beamline_id = 'sample_beamline' scan_id = 42 custom = {'foo': 'bar', 'baz': 42, 'aardvark': ['ants', 3.14]} run_start_uid = mdsc.insert_run_start( time, beamline_id=beamline_id, scan_id=scan_id, custom=custom, uid=str(uuid.uuid4())) run_start_mds, = mdsc.find_run_starts(uid=run_start_uid) names = ['time', 'beamline_id', 'scan_id'] + list(custom.keys()) values = [time, beamline_id, scan_id] + list(custom.values()) for name, val in zip(names, values): assert_equal(getattr(run_start_mds, name), val) # make sure the metadatstore document raises properly check_for_id(run_start_mds)
def test_insert_run_start(): time = ttime.time() beamline_id = 'sample_beamline' scan_id = 42 custom = {'foo': 'bar', 'baz': 42, 'aardvark': ['ants', 3.14]} run_start_uid = mdsc.insert_run_start(time, beamline_id=beamline_id, scan_id=scan_id, custom=custom, uid=str(uuid.uuid4())) run_start_mds, = mdsc.find_run_starts(uid=run_start_uid) names = ['time', 'beamline_id', 'scan_id'] + list(custom.keys()) values = [time, beamline_id, scan_id] + list(custom.values()) for name, val in zip(names, values): assert_equal(getattr(run_start_mds, name), val) # make sure the metadatstore document raises properly check_for_id(run_start_mds)
def test_bad_event_desc(): data_keys = { k: { 'source': k, 'dtype': 'number', 'shape': None } for k in ['foo', 'foo.bar'] } scan_id = 1 # Create a BeginRunEvent that serves as entry point for a run rs = mdsc.insert_run_start(scan_id=scan_id, beamline_id='testing', time=ttime.time(), uid=str(uuid.uuid4())) # Create an EventDescriptor that indicates the data # keys and serves as header for set of Event(s) mdsc.insert_descriptor(data_keys=data_keys, time=ttime.time(), run_start=rs, uid=str(uuid.uuid4()))