def test_activity_deduplicate_tzerror(self):
''' Test that probably-duplicate activities with starttimes like 09:12:22 and 15:12:22 (on the same day) are recognized as one '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = TestTools.create_random_activity(
svcA, tz=pytz.timezone("America/Iqaluit"))
actB = Activity()
actB.StartTime = actA.StartTime.replace(
tzinfo=pytz.timezone("America/Denver")) + timedelta(hours=5)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcB)
actA.Name = "Not this"
actB.Name = "Heya"
actB.Type = ActivityType.Walking
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 1)
# Ensure that it is deduplicated on non-exact match
actB.StartTime = actA.StartTime.replace(
tzinfo=pytz.timezone("America/Denver")) + timedelta(hours=5,
seconds=1)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 1)
# Ensure that it is *not* deduplicated when it really doesn't match
actB.StartTime = actA.StartTime.replace(
tzinfo=pytz.timezone("America/Denver")) + timedelta(hours=5,
minutes=7)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 2)
# Ensure that overly large differences >38hr - not possible via TZ differences & shamefully bad import/export code on the part of some services - are not deduplicated
actB.StartTime = actA.StartTime.replace(
tzinfo=pytz.timezone("America/Denver")) + timedelta(hours=50)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 2)
def test_svc_level_dupe(self):
''' check that service-level duplicate activities are caught (no DB involvement) '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = Activity()
actA.StartTime = datetime(1, 2, 3, 4, 5, 6, 7)
actA.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcA, record=recA)
actB = Activity()
actB.StartTime = actA.StartTime
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcB, record=recB)
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recA, [actA])
s._accumulateActivities(recB, [actB])
self.assertEqual(len(s._activities), 1)
def test_svc_level_dupe_tz_irregular(self):
''' check that service-level duplicate activities with irregular TZs are caught '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = Activity()
actA.StartTime = pytz.timezone("America/Edmonton").localize(
datetime(1, 2, 3, 4, 5, 6, 7))
actA.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcA, record=recA)
actB = Activity()
actB.StartTime = actA.StartTime.astimezone(
pytz.timezone("America/Iqaluit"))
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcB, record=recB)
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recA, [actA])
s._accumulateActivities(recB, [actB])
self.assertEqual(len(s._activities), 1)
def test_activity_deduplicate_tzerror(self):
''' Test that probably-duplicate activities with starttimes like 09:12:22 and 15:12:22 (on the same day) are recognized as one '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = TestTools.create_random_activity(svcA, tz=pytz.timezone("America/Iqaluit"))
actB = Activity()
actB.StartTime = actA.StartTime.replace(tzinfo=pytz.timezone("America/Denver")) + timedelta(hours=5)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcB)
actA.Name = "Not this"
actB.Name = "Heya"
actB.Type = ActivityType.Walking
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 1)
# Ensure that it is deduplicated on non-exact match
actB.StartTime = actA.StartTime.replace(tzinfo=pytz.timezone("America/Denver")) + timedelta(hours=5, seconds=1)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 1)
# Ensure that it is *not* deduplicated when it really doesn't match
actB.StartTime = actA.StartTime.replace(tzinfo=pytz.timezone("America/Denver")) + timedelta(hours=5, minutes=7)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 2)
# Ensure that overly large differences >38hr - not possible via TZ differences & shamefully bad import/export code on the part of some services - are not deduplicated
actB.StartTime = actA.StartTime.replace(tzinfo=pytz.timezone("America/Denver")) + timedelta(hours=50)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 2)
def test_svc_supported_activity_types(self):
''' check that only activities are only sent to services which support them '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
svcA.SupportedActivities = [ActivityType.CrossCountrySkiing]
svcB.SupportedActivities = [ActivityType.Cycling]
actA = Activity()
actA.StartTime = datetime(1, 2, 3, 4, 5, 6, 7)
actA.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcA, record=recA)
actA.Type = svcA.SupportedActivities[0]
actA.CalculateUID()
actA.UIDs = set([actA.UID])
actA.Record = ActivityRecord.FromActivity(actA)
actB = Activity()
actB.StartTime = datetime(5, 6, 7, 8, 9, 10, 11)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcB, record=recB)
actB.Type = [x for x in svcB.SupportedActivities if x != actA.Type][0]
actB.CalculateUID()
actB.UIDs = set([actB.UID])
actB.Record = ActivityRecord.FromActivity(actB)
s = SynchronizationTask(None)
s._serviceConnections = [recA, recB]
s._activities = []
s._accumulateActivities(recA, [actA])
s._accumulateActivities(recB, [actB])
syncToA = s._determineRecipientServices(actA)
syncToB = s._determineRecipientServices(actB)
self.assertEqual(len(syncToA), 0)
self.assertEqual(len(syncToB), 0)
svcB.SupportedActivities = svcA.SupportedActivities
syncToA = s._determineRecipientServices(actA)
syncToB = s._determineRecipientServices(actB)
self.assertEqual(len(syncToA), 1)
self.assertEqual(len(syncToB), 0)
svcB.SupportedActivities = svcA.SupportedActivities = [
ActivityType.CrossCountrySkiing, ActivityType.Cycling
]
syncToA = s._determineRecipientServices(actA)
syncToB = s._determineRecipientServices(actB)
self.assertEqual(len(syncToA), 1)
self.assertEqual(len(syncToB), 1)
def test_svc_supported_activity_types(self):
''' check that only activities are only sent to services which support them '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
svcA.SupportedActivities = [ActivityType.CrossCountrySkiing]
svcB.SupportedActivities = [ActivityType.Cycling]
actA = Activity()
actA.StartTime = datetime(1, 2, 3, 4, 5, 6, 7)
actA.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcA, record=recA)
actA.Type = svcA.SupportedActivities[0]
actA.CalculateUID()
actA.UIDs = set([actA.UID])
actA.Record = ActivityRecord.FromActivity(actA)
actB = Activity()
actB.StartTime = datetime(5, 6, 7, 8, 9, 10, 11)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcB, record=recB)
actB.Type = [x for x in svcB.SupportedActivities if x != actA.Type][0]
actB.CalculateUID()
actB.UIDs = set([actB.UID])
actB.Record = ActivityRecord.FromActivity(actB)
s = SynchronizationTask(None)
s._serviceConnections = [recA, recB]
s._activities = []
s._accumulateActivities(recA, [actA])
s._accumulateActivities(recB, [actB])
syncToA = s._determineRecipientServices(actA)
syncToB = s._determineRecipientServices(actB)
self.assertEqual(len(syncToA), 0)
self.assertEqual(len(syncToB), 0)
svcB.SupportedActivities = svcA.SupportedActivities
syncToA = s._determineRecipientServices(actA)
syncToB = s._determineRecipientServices(actB)
self.assertEqual(len(syncToA), 1)
self.assertEqual(len(syncToB), 0)
svcB.SupportedActivities = svcA.SupportedActivities = [ActivityType.CrossCountrySkiing, ActivityType.Cycling]
syncToA = s._determineRecipientServices(actA)
syncToB = s._determineRecipientServices(actB)
self.assertEqual(len(syncToA), 1)
self.assertEqual(len(syncToB), 1)
def test_svc_level_dupe_time_leeway(self):
''' check that service-level duplicate activities within the defined time leeway are caught '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = Activity()
actA.StartTime = datetime(1, 2, 3, 4, 5, 6, 7)
actA.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcA, record=recA)
actA.Type = set(svcA.SupportedActivities).intersection(
set(svcB.SupportedActivities)).pop()
actB = Activity()
actB.StartTime = datetime(1, 2, 3, 4, 6, 6, 7)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcB, record=recB)
actB.Type = actA.Type
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recA, [actA])
s._accumulateActivities(recB, [actB])
self.assertIn(actA.UID, actA.UIDs)
self.assertIn(actB.UID, actA.UIDs)
self.assertIn(actA.UID, actB.UIDs)
self.assertIn(actB.UID, actB.UIDs)
# we need to fake up the service records to avoid having to call the actual sync method where these values are normally preset
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
recA.SynchronizedActivities = [actA.UID]
recB.SynchronizedActivities = [actB.UID]
s._serviceConnections = [recA, recB]
recipientServicesA = s._determineRecipientServices(actA)
recipientServicesB = s._determineRecipientServices(actB)
self.assertEqual(len(recipientServicesA), 0)
self.assertEqual(len(recipientServicesB), 0)
self.assertEqual(len(s._activities), 1)
def test_svc_level_dupe_tz_irregular(self):
''' check that service-level duplicate activities with irregular TZs are caught '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = Activity()
actA.StartTime = pytz.timezone("America/Edmonton").localize(datetime(1, 2, 3, 4, 5, 6, 7))
actA.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcA, record=recA)
actB = Activity()
actB.StartTime = actA.StartTime.astimezone(pytz.timezone("America/Iqaluit"))
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcB, record=recB)
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recA, [actA])
s._accumulateActivities(recB, [actB])
self.assertEqual(len(s._activities), 1)
def test_activity_deduplicate_normaltz(self):
''' ensure that we can't deduplicate activities with non-pytz timezones '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = TestTools.create_random_activity(svcA, tz=UTC())
actB = Activity()
actB.StartTime = actA.StartTime.replace(tzinfo=None) + timedelta(seconds=10)
actB.EndTime = actA.EndTime.replace(tzinfo=None)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcB, record=recB)
actA.Name = "Not this"
actB.Name = "Heya"
actB.Type = ActivityType.Walking
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
self.assertRaises(ValueError, s._accumulateActivities, recA, [copy.deepcopy(actA)])
def test_svc_level_dupe_time_leeway(self):
''' check that service-level duplicate activities within the defined time leeway are caught '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = Activity()
actA.StartTime = datetime(1, 2, 3, 4, 5, 6, 7)
actA.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcA, record=recA)
actA.Type = set(svcA.SupportedActivities).intersection(set(svcB.SupportedActivities)).pop()
actB = Activity()
actB.StartTime = datetime(1, 2, 3, 4, 6, 6, 7)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcB, record=recB)
actB.Type = actA.Type
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recA, [actA])
s._accumulateActivities(recB, [actB])
self.assertIn(actA.UID, actA.UIDs)
self.assertIn(actB.UID, actA.UIDs)
self.assertIn(actA.UID, actB.UIDs)
self.assertIn(actB.UID, actB.UIDs)
# we need to fake up the service records to avoid having to call the actual sync method where these values are normally preset
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
recA.SynchronizedActivities = [actA.UID]
recB.SynchronizedActivities = [actB.UID]
s._serviceConnections = [recA, recB]
recipientServicesA = s._determineRecipientServices(actA)
recipientServicesB = s._determineRecipientServices(actB)
self.assertEqual(len(recipientServicesA), 0)
self.assertEqual(len(recipientServicesB), 0)
self.assertEqual(len(s._activities), 1)
def test_svc_level_dupe(self):
''' check that service-level duplicate activities are caught (no DB involvement) '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = Activity()
actA.StartTime = datetime(1, 2, 3, 4, 5, 6, 7)
actA.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcA, record=recA)
actB = Activity()
actB.StartTime = actA.StartTime
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcB, record=recB)
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recA, [actA])
s._accumulateActivities(recB, [actB])
self.assertEqual(len(s._activities), 1)
def test_activity_deduplicate_normaltz(self):
''' ensure that we can't deduplicate activities with non-pytz timezones '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = TestTools.create_random_activity(svcA, tz=UTC())
actB = Activity()
actB.StartTime = actA.StartTime.replace(tzinfo=None) + timedelta(
seconds=10)
actB.EndTime = actA.EndTime.replace(tzinfo=None)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcB, record=recB)
actA.Name = "Not this"
actB.Name = "Heya"
actB.Type = ActivityType.Walking
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
self.assertRaises(ValueError, s._accumulateActivities, recA,
[copy.deepcopy(actA)])
def test_activity_coalesce(self):
''' ensure that activity data is getting coalesced by _accumulateActivities '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = TestTools.create_random_activity(svcA, tz=pytz.timezone("America/Iqaluit"))
actB = Activity()
actB.StartTime = actA.StartTime.replace(tzinfo=None)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(svcB)
actA.Name = "Not this"
actA.Private = True
actB.Name = "Heya"
actB.Type = ActivityType.Walking
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 1)
act = s._activities[0]
self.assertEqual(act.StartTime, actA.StartTime)
self.assertEqual(act.EndTime, actA.EndTime)
self.assertEqual(act.EndTime.tzinfo, actA.StartTime.tzinfo)
self.assertEqual(act.StartTime.tzinfo, actA.StartTime.tzinfo)
self.assertLapsListsEqual(act.Laps, actA.Laps)
self.assertTrue(act.Private) # Most restrictive setting
self.assertEqual(act.Name, actB.Name) # The first activity takes priority.
self.assertEqual(act.Type, actB.Type) # Same here.
self.assertTrue(list(actB.ServiceDataCollection.keys())[0] in act.ServiceDataCollection)
self.assertTrue(list(actA.ServiceDataCollection.keys())[0] in act.ServiceDataCollection)
s._activities = []
s._accumulateActivities(recA, [copy.deepcopy(actA)])
s._accumulateActivities(recB, [copy.deepcopy(actB)])
self.assertEqual(len(s._activities), 1)
act = s._activities[0]
self.assertEqual(act.StartTime, actA.StartTime)
self.assertEqual(act.EndTime, actA.EndTime)
self.assertEqual(act.EndTime.tzinfo, actA.StartTime.tzinfo)
self.assertEqual(act.StartTime.tzinfo, actA.StartTime.tzinfo)
self.assertLapsListsEqual(act.Laps, actA.Laps)
self.assertEqual(act.Name, actA.Name) # The first activity takes priority.
self.assertEqual(act.Type, actB.Type) # Exception: ActivityType.Other does not take priority
self.assertTrue(list(actB.ServiceDataCollection.keys())[0] in act.ServiceDataCollection)
self.assertTrue(list(actA.ServiceDataCollection.keys())[0] in act.ServiceDataCollection)
# Similar activities should be coalesced (Hiking, Walking..)..
actA.Type = ActivityType.Hiking
s._activities = []
s._accumulateActivities(recA, [copy.deepcopy(actA)])
s._accumulateActivities(recB, [copy.deepcopy(actB)])
self.assertEqual(len(s._activities), 1)
act = s._activities[0]
self.assertEqual(act.Type, actA.Type) # Here, it will take priority.
# Dissimilar should not..
actA.Type = ActivityType.CrossCountrySkiing
s._activities = []
s._accumulateActivities(recA, [copy.deepcopy(actA)])
s._accumulateActivities(recB, [copy.deepcopy(actB)])
self.assertEqual(len(s._activities), 2)
self.assertEqual(s._activities[0].Type, actB.Type)
self.assertEqual(s._activities[1].Type, actA.Type)
def test_activity_coalesce(self):
''' ensure that activity data is getting coalesced by _accumulateActivities '''
svcA, svcB = TestTools.create_mock_services()
recA = TestTools.create_mock_svc_record(svcA)
recB = TestTools.create_mock_svc_record(svcB)
actA = TestTools.create_random_activity(
svcA, tz=pytz.timezone("America/Iqaluit"))
actB = Activity()
actB.StartTime = actA.StartTime.replace(tzinfo=None)
actB.ServiceDataCollection = TestTools.create_mock_servicedatacollection(
svcB)
actA.Name = "Not this"
actA.Private = True
actB.Name = "Heya"
actB.Type = ActivityType.Walking
actA.CalculateUID()
actB.CalculateUID()
s = SynchronizationTask(None)
s._activities = []
s._accumulateActivities(recB, [copy.deepcopy(actB)])
s._accumulateActivities(recA, [copy.deepcopy(actA)])
self.assertEqual(len(s._activities), 1)
act = s._activities[0]
self.assertEqual(act.StartTime, actA.StartTime)
self.assertEqual(act.EndTime, actA.EndTime)
self.assertEqual(act.EndTime.tzinfo, actA.StartTime.tzinfo)
self.assertEqual(act.StartTime.tzinfo, actA.StartTime.tzinfo)
self.assertLapsListsEqual(act.Laps, actA.Laps)
self.assertTrue(act.Private) # Most restrictive setting
self.assertEqual(act.Name,
actB.Name) # The first activity takes priority.
self.assertEqual(act.Type, actB.Type) # Same here.
self.assertTrue(
list(actB.ServiceDataCollection.keys())[0] in
act.ServiceDataCollection)
self.assertTrue(
list(actA.ServiceDataCollection.keys())[0] in
act.ServiceDataCollection)
s._activities = []
s._accumulateActivities(recA, [copy.deepcopy(actA)])
s._accumulateActivities(recB, [copy.deepcopy(actB)])
self.assertEqual(len(s._activities), 1)
act = s._activities[0]
self.assertEqual(act.StartTime, actA.StartTime)
self.assertEqual(act.EndTime, actA.EndTime)
self.assertEqual(act.EndTime.tzinfo, actA.StartTime.tzinfo)
self.assertEqual(act.StartTime.tzinfo, actA.StartTime.tzinfo)
self.assertLapsListsEqual(act.Laps, actA.Laps)
self.assertEqual(act.Name,
actA.Name) # The first activity takes priority.
self.assertEqual(
act.Type,
actB.Type) # Exception: ActivityType.Other does not take priority
self.assertTrue(
list(actB.ServiceDataCollection.keys())[0] in
act.ServiceDataCollection)
self.assertTrue(
list(actA.ServiceDataCollection.keys())[0] in
act.ServiceDataCollection)
# Similar activities should be coalesced (Hiking, Walking..)..
actA.Type = ActivityType.Hiking
s._activities = []
s._accumulateActivities(recA, [copy.deepcopy(actA)])
s._accumulateActivities(recB, [copy.deepcopy(actB)])
self.assertEqual(len(s._activities), 1)
act = s._activities[0]
self.assertEqual(act.Type, actA.Type) # Here, it will take priority.
# Dissimilar should not..
actA.Type = ActivityType.CrossCountrySkiing
s._activities = []
s._accumulateActivities(recA, [copy.deepcopy(actA)])
s._accumulateActivities(recB, [copy.deepcopy(actB)])
self.assertEqual(len(s._activities), 2)
self.assertEqual(s._activities[0].Type, actB.Type)
self.assertEqual(s._activities[1].Type, actA.Type)
