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from beautiful_date import D, days, years, hours
from gcsa.event import Event
from gcsa.util.date_time_util import ensure_localisation
from tests.google_calendar_tests.test_case_with_mocked_service import TestCaseWithMockedService
class TestEventsService(TestCaseWithMockedService):
def test_get_events_default(self):
events = list(self.gc.get_events())
self.assertEqual(len(events), 10)
self.assertFalse(any(e.is_recurring_instance for e in events))
events = list(self.gc)
self.assertEqual(len(events), 10)
self.assertFalse(any(e.is_recurring_instance for e in events))
def test_get_events_time_limits(self):
time_min = ensure_localisation(D.today()[:] + 5 * days)
events = list(self.gc.get_events(time_min=time_min))
self.assertEqual(len(events), 6)
self.assertTrue(all(e.start >= time_min for e in events))
time_min = ensure_localisation(D.today()[:] + 5 * days)
events = list(self.gc[time_min])
self.assertEqual(len(events), 6)
self.assertTrue(all(e.start >= time_min for e in events))
time_max = ensure_localisation(D.today()[:] + 1 * years + 7 * days)
events = list(self.gc.get_events(time_max=time_max))
self.assertEqual(len(events), 11)
self.assertTrue(all(e.end < time_max for e in events))
time_max = ensure_localisation(D.today()[:] + 7 * days)
events = list(self.gc.get_events(time_max=time_max))
self.assertEqual(len(events), 7)
self.assertTrue(all(e.end < time_max for e in events))
events = list(self.gc.get_events(time_min=time_min, time_max=time_max))
self.assertEqual(len(events), 2)
self.assertTrue(all(time_min <= e.start and e.end < time_max for e in events))
events = list(self.gc[time_min:time_max])
self.assertEqual(len(events), 2)
self.assertTrue(all(time_min <= e.start and e.end < time_max for e in events))
time_min = D.today() + 5 * days
time_max = D.today() + 7 * days
events = list(self.gc.get_events(time_min=time_min, time_max=time_max))
self.assertEqual(len(events), 2)
time_min = ensure_localisation(time_min[0:0])
time_max = ensure_localisation(time_max[23:59:59])
self.assertTrue(all(time_min <= e.start and e.end < time_max for e in events))
with self.assertRaises(NotImplementedError):
_ = self.gc[5]
with self.assertRaises(ValueError):
_ = self.gc[5:10]
def test_get_events_single_events(self):
events = list(self.gc.get_events(single_events=True))
self.assertEqual(len(events), 19)
self.assertTrue(all(e.is_recurring_instance for e in events if e.summary == 'Recurring event'))
events = list(self.gc.get_events(single_events=False))
self.assertEqual(len(events), 10)
self.assertTrue(all(not e.is_recurring_instance for e in events if e.summary == 'Recurring event'))
with self.assertRaises(ValueError):
# can only be used with single events
list(self.gc.get_events(order_by='startTime'))
def test_get_events_order_by(self):
events = list(self.gc.get_events(order_by='updated'))
self.assertEqual(len(events), 10)
self.assertEqual(events[0].id, min(events, key=lambda e: e.updated).id)
self.assertEqual(events[-1].id, max(events, key=lambda e: e.updated).id)
events = list(self.gc[::'updated'])
self.assertEqual(len(events), 10)
self.assertEqual(events[0].id, min(events, key=lambda e: e.updated).id)
self.assertEqual(events[-1].id, max(events, key=lambda e: e.updated).id)
events = list(self.gc[::'startTime'])
self.assertEqual(len(events), 19)
self.assertEqual(events[0].id, min(events, key=lambda e: e.start).id)
self.assertEqual(events[-1].id, max(events, key=lambda e: e.start).id)
events = list(self.gc.get_events(order_by='startTime', single_events=True))
self.assertEqual(len(events), 19)
self.assertEqual(events[0].id, min(events, key=lambda e: e.start).id)
self.assertEqual(events[-1].id, max(events, key=lambda e: e.start).id)
def test_get_events_query(self):
events = list(self.gc.get_events(query='test4', time_max=D.today()[:] + 2 * years))
self.assertEqual(len(events), 2) # test4 and test42
events = list(self.gc.get_events(query='Jo', time_max=D.today()[:] + 2 * years))
self.assertEqual(len(events), 2) # with John and Josh
events = list(self.gc.get_events(query='Josh', time_max=D.today()[:] + 2 * years))
self.assertEqual(len(events), 1)
events = list(self.gc.get_events(query='Frank', time_max=D.today()[:] + 2 * years))
self.assertEqual(len(events), 1)
def test_get_recurring_instances(self):
events = list(self.gc.get_instances(recurring_event='event_id_1'))
self.assertEqual(len(events), 9)
self.assertTrue(all(e.id.startswith('event_id_1') for e in events))
recurring_event = Event(
'recurring event',
D.today()[:],
event_id='event_id_2'
)
events = list(self.gc.get_instances(recurring_event=recurring_event))
self.assertEqual(len(events), 4)
self.assertTrue(all(e.id.startswith('event_id_2') for e in events))
recurring_event_without_id = Event(
'recurring event',
D.today()[:],
)
with self.assertRaises(ValueError):
list(self.gc.get_instances(recurring_event=recurring_event_without_id))
def test_get_event(self):
start = D.today()[:]
end = start + 2 * hours
event = Event(
'test_event',
start=start,
end=end
)
new_event = self.gc.add_event(event)
received_new_event = self.gc.get_event(new_event.id)
self.assertEqual(received_new_event, new_event)
def test_add_event(self):
start = D.today()[:]
end = start + 2 * hours
event = Event(
'test_event',
start=start,
end=end
)
new_event = self.gc.add_event(event)
self.assertIsNotNone(new_event.id)
received_new_event = self.gc.get_event(new_event.id)
self.assertEqual(received_new_event, new_event)
def test_add_quick_event(self):
start = ensure_localisation(D.today()[:])
summary = 'Breakfast'
event_string = f'{summary} at {start.isoformat()}'
new_event = self.gc.add_quick_event(event_string)
self.assertIsNotNone(new_event.id)
self.assertEqual(new_event.summary, summary)
self.assertEqual(new_event.start, start)
received_new_event = self.gc.get_event(new_event.id)
self.assertEqual(received_new_event, new_event)
def test_update_event(self):
start = ensure_localisation(D.today()[:])
summary = 'test_event'
event = Event(
summary,
start=start
)
new_event = self.gc.add_event(event)
self.assertEqual(new_event.summary, summary)
new_summary = 'test_event_updated'
new_start = start + 1 * days
new_event.summary = new_summary
new_event.start = new_start
updated_event = self.gc.update_event(new_event)
self.assertEqual(updated_event, new_event)
received_updated_event = self.gc.get_event(new_event.id)
self.assertEqual(received_updated_event, new_event)
def test_import_event(self):
start = D.today()[:]
end = start + 2 * hours
event = Event(
'test_event',
start=start,
end=end,
event_id='test_event'
)
new_event = self.gc.import_event(event)
received_new_event = self.gc.get_event(new_event.id)
self.assertEqual(received_new_event, new_event)
def test_move_event(self):
start = D.today()[:]
end = start + 2 * hours
event = Event(
'test_event',
start=start,
end=end,
event_id='test_event_id'
)
new_event = self.gc.add_event(event)
received_new_event = self.gc.move_event(new_event, destination_calendar_id='test_dest_calendar')
self.assertEqual(received_new_event, new_event)
def test_delete_event(self):
start = D.today()[:]
end = start + 2 * hours
event = Event(
'test_event',
start=start,
end=end
)
with self.assertRaises(ValueError):
# no event_id
self.gc.delete_event(event)
new_event = self.gc.add_event(event)
self.gc.delete_event(new_event)
self.gc.delete_event('test_event_id')
with self.assertRaises(TypeError):
# should be event or event id as a string
self.gc.delete_event(start)
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