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|
# -*- coding: utf-8 -*-
# Part of Odoo. See LICENSE file for full copyright and licensing details.
import pytz
from datetime import datetime, date
from dateutil.relativedelta import relativedelta
from odoo.exceptions import UserError
from odoo.tests import Form, TransactionCase
from freezegun import freeze_time
class TestRecurrentEvents(TransactionCase):
@classmethod
def setUpClass(cls):
super(TestRecurrentEvents, cls).setUpClass()
lang = cls.env['res.lang']._lang_get(cls.env.user.lang)
lang.week_start = '1' # Monday
def assertEventDates(self, events, dates):
events = events.sorted('start')
self.assertEqual(len(events), len(dates), "Wrong number of events in the recurrence")
self.assertTrue(all(events.mapped('active')), "All events should be active")
for event, dates in zip(events, dates):
start, stop = dates
self.assertEqual(event.start, start)
self.assertEqual(event.stop, stop)
class TestCreateRecurrentEvents(TestRecurrentEvents):
@classmethod
def setUpClass(cls):
super().setUpClass()
cls.event = cls.env['calendar.event'].create({
'name': 'Recurrent Event',
'start': datetime(2019, 10, 21, 8, 0),
'stop': datetime(2019, 10, 23, 18, 0),
'recurrency': True,
})
def test_weekly_count(self):
""" Every week, on Tuesdays, for 3 occurences """
detached_events = self.event._apply_recurrence_values({
'rrule_type': 'weekly',
'tue': True,
'interval': 1,
'count': 3,
'event_tz': 'UTC',
})
self.assertEqual(detached_events, self.event, "It should be detached from the recurrence")
self.assertFalse(self.event.recurrence_id, "It should be detached from the recurrence")
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEqual(len(events), 3, "It should have 3 events in the recurrence")
self.assertEventDates(events, [
(datetime(2019, 10, 22, 8, 0), datetime(2019, 10, 24, 18, 0)),
(datetime(2019, 10, 29, 8, 0), datetime(2019, 10, 31, 18, 0)),
(datetime(2019, 11, 5, 8, 0), datetime(2019, 11, 7, 18, 0)),
])
def test_weekly_interval_2(self):
self.event._apply_recurrence_values({
'interval': 2,
'rrule_type': 'weekly',
'tue': True,
'count': 2,
'event_tz': 'UTC',
})
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEventDates(events, [
(datetime(2019, 10, 22, 8, 0), datetime(2019, 10, 24, 18, 0)),
(datetime(2019, 11, 5, 8, 0), datetime(2019, 11, 7, 18, 0)),
])
def test_weekly_interval_2_week_start_sunday(self):
lang = self.env['res.lang']._lang_get(self.env.user.lang)
lang.week_start = '7' # Sunday
self.event._apply_recurrence_values({
'interval': 2,
'rrule_type': 'weekly',
'tue': True,
'count': 2,
'event_tz': 'UTC',
})
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEventDates(events, [
(datetime(2019, 10, 22, 8, 0), datetime(2019, 10, 24, 18, 0)),
(datetime(2019, 11, 5, 8, 0), datetime(2019, 11, 7, 18, 0)),
])
lang.week_start = '1' # Monday
def test_weekly_until(self):
self.event._apply_recurrence_values({
'rrule_type': 'weekly',
'tue': True,
'interval': 2,
'end_type': 'end_date',
'until': datetime(2019, 11, 15),
'event_tz': 'UTC',
})
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEqual(len(events), 2, "It should have 2 events in the recurrence")
self.assertEventDates(events, [
(datetime(2019, 10, 22, 8, 0), datetime(2019, 10, 24, 18, 0)),
(datetime(2019, 11, 5, 8, 0), datetime(2019, 11, 7, 18, 0)),
])
def test_monthly_count_by_date(self):
self.event._apply_recurrence_values({
'rrule_type': 'monthly',
'interval': 2,
'month_by': 'date',
'day': 27,
'end_type': 'count',
'count': 3,
'event_tz': 'UTC',
})
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEqual(len(events), 3, "It should have 3 events in the recurrence")
self.assertEventDates(events, [
(datetime(2019, 10, 27, 8, 0), datetime(2019, 10, 29, 18, 0)),
(datetime(2019, 12, 27, 8, 0), datetime(2019, 12, 29, 18, 0)),
(datetime(2020, 2, 27, 8, 0), datetime(2020, 2, 29, 18, 0)),
])
def test_monthly_count_by_date_31(self):
self.event._apply_recurrence_values({
'rrule_type': 'monthly',
'interval': 1,
'month_by': 'date',
'day': 31,
'end_type': 'count',
'count': 3,
'event_tz': 'UTC',
})
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEqual(len(events), 3, "It should have 3 events in the recurrence")
self.assertEventDates(events, [
(datetime(2019, 10, 31, 8, 0), datetime(2019, 11, 2, 18, 0)),
# Missing 31th in November
(datetime(2019, 12, 31, 8, 0), datetime(2020, 1, 2, 18, 0)),
(datetime(2020, 1, 31, 8, 0), datetime(2020, 2, 2, 18, 0)),
])
def test_monthly_until_by_day(self):
""" Every 2 months, on the third Tuesday, until 27th March 2020 """
self.event.start = datetime(2019, 10, 1, 8, 0)
self.event.stop = datetime(2019, 10, 3, 18, 0)
self.event._apply_recurrence_values({
'rrule_type': 'monthly',
'interval': 2,
'month_by': 'day',
'byday': '3',
'weekday': 'TUE',
'end_type': 'end_date',
'until': date(2020, 3, 27),
'event_tz': 'UTC',
})
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEqual(len(events), 3, "It should have 3 events in the recurrence")
self.assertEventDates(events, [
(datetime(2019, 10, 15, 8, 0), datetime(2019, 10, 17, 18, 0)),
(datetime(2019, 12, 17, 8, 0), datetime(2019, 12, 19, 18, 0)),
(datetime(2020, 2, 18, 8, 0), datetime(2020, 2, 20, 18, 0)),
])
def test_monthly_until_by_day_last(self):
""" Every 2 months, on the last Wednesday, until 15th January 2020 """
self.event._apply_recurrence_values({
'interval': 2,
'rrule_type': 'monthly',
'month_by': 'day',
'weekday': 'WED',
'byday': '-1',
'end_type': 'end_date',
'until': date(2020, 1, 15),
'event_tz': 'UTC',
})
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEqual(len(events), 2, "It should have 3 events in the recurrence")
self.assertEventDates(events, [
(datetime(2019, 10, 30, 8, 0), datetime(2019, 11, 1, 18, 0)),
(datetime(2019, 12, 25, 8, 0), datetime(2019, 12, 27, 18, 0)),
])
def test_yearly_count(self):
self.event._apply_recurrence_values({
'interval': 2,
'rrule_type': 'yearly',
'count': 2,
'event_tz': 'UTC',
})
events = self.event.recurrence_id.calendar_event_ids
self.assertEqual(len(events), 2, "It should have 3 events in the recurrence")
self.assertEventDates(events, [
(self.event.start, self.event.stop),
(self.event.start + relativedelta(years=2), self.event.stop + relativedelta(years=2)),
])
def test_dst_timezone(self):
""" Test hours stays the same, regardless of DST changes """
self.event.start = datetime(2002, 10, 28, 10, 0)
self.event.stop = datetime(2002, 10, 28, 12, 0)
self.event._apply_recurrence_values({
'interval': 2,
'rrule_type': 'weekly',
'mon': True,
'count': '2',
'event_tz': 'America/New_York', # DST change on 2002/10/27
})
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
self.assertEventDates(recurrence.calendar_event_ids, [
(datetime(2002, 10, 28, 10, 0), datetime(2002, 10, 28, 12, 0)),
(datetime(2002, 11, 11, 10, 0), datetime(2002, 11, 11, 12, 0)),
])
def test_ambiguous_dst_time_winter(self):
""" Test hours stays the same, regardless of DST changes """
eastern = pytz.timezone('America/New_York')
dt = eastern.localize(datetime(2002, 10, 20, 1, 30, 00)).astimezone(pytz.utc).replace(tzinfo=None)
# Next occurence happens at 1:30am on 27th Oct 2002 which happened twice in the America/New_York
# timezone when the clocks where put back at the end of Daylight Saving Time
self.event.start = dt
self.event.stop = dt + relativedelta(hours=1)
self.event._apply_recurrence_values({
'interval': 1,
'rrule_type': 'weekly',
'sun': True,
'count': '2',
'event_tz': 'America/New_York' # DST change on 2002/4/7
})
events = self.event.recurrence_id.calendar_event_ids
self.assertEqual(events.mapped('duration'), [1, 1])
self.assertEventDates(events, [
(datetime(2002, 10, 20, 5, 30), datetime(2002, 10, 20, 6, 30)),
(datetime(2002, 10, 27, 6, 30), datetime(2002, 10, 27, 7, 30)),
])
def test_ambiguous_dst_time_spring(self):
""" Test hours stays the same, regardless of DST changes """
eastern = pytz.timezone('America/New_York')
dt = eastern.localize(datetime(2002, 3, 31, 2, 30, 00)).astimezone(pytz.utc).replace(tzinfo=None)
# Next occurence happens 2:30am on 7th April 2002 which never happened at all in the
# America/New_York timezone, as the clocks where put forward at 2:00am skipping the entire hour
self.event.start = dt
self.event.stop = dt + relativedelta(hours=1)
self.event._apply_recurrence_values({
'interval': 1,
'rrule_type': 'weekly',
'sun': True,
'count': '2',
'event_tz': 'America/New_York' # DST change on 2002/4/7
})
events = self.event.recurrence_id.calendar_event_ids
self.assertEqual(events.mapped('duration'), [1, 1])
# The event begins at "the same time" (i.e. 2h30 after midnight), but that day, 2h30 after midnight happens to be at 3:30 am
self.assertEventDates(events, [
(datetime(2002, 3, 31, 7, 30), datetime(2002, 3, 31, 8, 30)),
(datetime(2002, 4, 7, 7, 30), datetime(2002, 4, 7, 8, 30)),
])
def test_ambiguous_full_day(self):
""" Test date stays the same, regardless of DST changes """
self.event.write({
'start': datetime(2020, 3, 23, 0, 0),
'stop': datetime(2020, 3, 23, 23, 59),
})
self.event.allday = True
self.event._apply_recurrence_values({
'interval': 1,
'rrule_type': 'weekly',
'mon': True,
'count': 2,
'event_tz': 'Europe/Brussels' # DST change on 2020/3/23
})
events = self.event.recurrence_id.calendar_event_ids
self.assertEventDates(events, [
(datetime(2020, 3, 23, 0, 0), datetime(2020, 3, 23, 23, 59)),
(datetime(2020, 3, 30, 0, 0), datetime(2020, 3, 30, 23, 59)),
])
def test_videocall_recurrency(self):
self.event._set_discuss_videocall_location()
self.event._apply_recurrence_values({
'interval': 1,
'rrule_type': 'weekly',
'mon': True,
'count': 2,
})
recurrent_events = self.event.recurrence_id.calendar_event_ids
detached_events = self.event.recurrence_id.calendar_event_ids - self.event
rec_events_videocall_locations = recurrent_events.mapped('videocall_location')
self.assertEqual(len(rec_events_videocall_locations), len(set(rec_events_videocall_locations)), 'Recurrent events should have different videocall locations')
self.assertEqual(not any(recurrent_events.videocall_channel_id), True, 'No channel should be set before the route is accessed')
# create the first channel
detached_events[0]._create_videocall_channel()
# after channel is created, all other events should have the same channel
self.assertEqual(detached_events[0].videocall_channel_id.id, self.event.videocall_channel_id.id)
@freeze_time('2023-03-27')
def test_backward_pass_dst(self):
"""
When we apply the rule to compute the period of the recurrence,
we take an earlier date (in `_get_start_of_period` method).
However, it is possible that this earlier date has a different DST.
This causes time difference problems.
"""
# In Europe/Brussels: 26 March 2023 from winter to summer (from no DST to DST)
# We are in the case where we create a recurring event after the time change (there is the DST).
timezone = 'Europe/Brussels'
tz = pytz.timezone(timezone)
dt = tz.localize(datetime(2023, 3, 27, 9, 0, 00)).astimezone(pytz.utc).replace(tzinfo=None)
self.event.start = dt
self.event.stop = dt + relativedelta(hours=1)
# Check before apply the recurrence
self.assertEqual(self.event.start, datetime(2023, 3, 27, 7, 0, 00)) # Because 2023-03-27 in Europe/Brussels is UTC+2
self.event._apply_recurrence_values({
'rrule_type': 'monthly', # Because we will take the first day of the month (jump back)
'interval': 1,
'end_type': 'count',
'count': 2, # To have the base event and the unique recurrence event
'month_by': 'date',
'day': 27,
'event_tz': timezone,
})
# What we expect:
# - start date of base event: datetime(2023, 3, 27, 7, 0, 00)
# - start date of the unique recurrence event: datetime(2023, 4, 27, 7, 0, 00)
# With the FIX, we replace the following lines with
# `events = self.event.recurrence_id.calendar_event_ids`
recurrence = self.env['calendar.recurrence'].search([('base_event_id', '=', self.event.id)])
events = recurrence.calendar_event_ids
self.assertEqual(len(events), 2, "It should have 2 events in the recurrence")
self.assertIn(self.event, events)
self.assertEventDates(events, [
(datetime(2023, 3, 27, 7, 00), datetime(2023, 3, 27, 8, 00)),
(datetime(2023, 4, 27, 7, 00), datetime(2023, 4, 27, 8, 00)),
])
def test_all_day_date(self):
recurrence = self.env['calendar.event'].with_context(
default_start=datetime(2019, 10, 22),
default_stop=datetime(2019, 10, 22),
default_start_date=date(2019, 10, 22),
default_stop_date=date(2019, 10, 22),
).create({
'name': 'Recurrent Event',
'start': datetime(2019, 10, 22, 8, 0),
'stop': datetime(2019, 10, 22, 18, 0),
'start_date': date(2019, 10, 22),
'stop_date': date(2019, 10, 22),
'recurrency': True,
'rrule_type': 'weekly',
'tue': True,
'interval': 1,
'count': 2,
'event_tz': 'UTC',
'allday': True,
}).recurrence_id
events = recurrence.calendar_event_ids
self.assertEqual(events[0].start_date, date(2019, 10, 22), "The first event has the initial start date")
self.assertEqual(events[1].start_date, date(2019, 10, 29), "The start date of the second event is one week later")
def test_recurrency_with_this_event(self):
"""
1) Create an event with a recurrence set on it
2) Try updating the event with a different recurrence without specifying 'recurrence_update'
3) Update the recurrence of one of the events, this time using the 'recurrence_update' as future_events
4) Finally, check that the updated event correctly reflects the recurrence
"""
event = self.env['calendar.event'].create({
'name': "Test Event",
'allday': False,
'rrule': u'FREQ=DAILY;INTERVAL=1;COUNT=10',
'recurrency': True,
'start': datetime(2023, 7, 28, 1, 0),
'stop': datetime(2023, 7, 29, 18, 0),
})
events = self.env['calendar.recurrence'].search([('base_event_id', '=', event.id)]).calendar_event_ids
self.assertEqual(len(events), 10, "It should have 10 events in the recurrence")
# Update the recurrence without without specifying 'recurrence_update'
with self.assertRaises(UserError):
event.write({'rrule': u'FREQ=DAILY;INTERVAL=2;COUNT=5'})
# Update the recurrence of the earlier event
events[5].write({
'recurrence_update': 'future_events',
'count': 2,
})
updated_events = self.env['calendar.recurrence'].search([('base_event_id', '=', events[5].id)]).calendar_event_ids
self.assertEqual(len(updated_events), 2, "It should have 2 events in the recurrence")
self.assertTrue(updated_events[1].recurrency, "It should have recurrency in the updated events")
class TestUpdateRecurrentEvents(TestRecurrentEvents):
@classmethod
def setUpClass(cls):
super().setUpClass()
event = cls.env['calendar.event'].create({
'name': 'Recurrent Event',
'start': datetime(2019, 10, 22, 1, 0),
'stop': datetime(2019, 10, 24, 18, 0),
'recurrency': True,
'rrule_type': 'weekly',
'tue': True,
'interval': 1,
'count': 3,
'event_tz': 'Etc/GMT-4',
})
cls.recurrence = event.recurrence_id
cls.events = event.recurrence_id.calendar_event_ids.sorted('start')
def test_shift_future(self):
event = self.events[1]
self.events[1].write({
'recurrence_update': 'future_events',
'start': event.start + relativedelta(days=4),
'stop': event.stop + relativedelta(days=5),
})
self.assertEqual(self.recurrence.end_type, 'end_date')
self.assertEqual(self.recurrence.until, date(2019, 10, 27))
self.assertEventDates(self.recurrence.calendar_event_ids, [
(datetime(2019, 10, 22, 1, 0), datetime(2019, 10, 24, 18, 0)),
])
new_recurrence = event.recurrence_id
self.assertNotEqual(self.recurrence, new_recurrence)
self.assertEqual(new_recurrence.count, 2)
self.assertEqual(new_recurrence.dtstart, datetime(2019, 11, 2, 1, 0))
self.assertFalse(new_recurrence.tue)
self.assertTrue(new_recurrence.sat)
self.assertEventDates(new_recurrence.calendar_event_ids, [
(datetime(2019, 11, 2, 1, 0), datetime(2019, 11, 5, 18, 0)),
(datetime(2019, 11, 9, 1, 0), datetime(2019, 11, 12, 18, 0)),
])
def test_shift_future_first(self):
event = self.events[0]
self.events[0].write({
'recurrence_update': 'future_events',
'start': event.start + relativedelta(days=4),
'stop': event.stop + relativedelta(days=5),
})
new_recurrence = event.recurrence_id
self.assertFalse(self.recurrence.exists())
self.assertEqual(new_recurrence.count, 3)
self.assertEqual(new_recurrence.dtstart, datetime(2019, 10, 26, 1, 0))
self.assertFalse(new_recurrence.tue)
self.assertTrue(new_recurrence.sat)
self.assertEventDates(new_recurrence.calendar_event_ids, [
(datetime(2019, 10, 26, 1, 0), datetime(2019, 10, 29, 18, 0)),
(datetime(2019, 11, 2, 1, 0), datetime(2019, 11, 5, 18, 0)),
(datetime(2019, 11, 9, 1, 0), datetime(2019, 11, 12, 18, 0)),
])
def test_shift_reapply(self):
event = self.events[2]
self.events[2].write({
'recurrence_update': 'future_events',
'start': event.start + relativedelta(days=4),
'stop': event.stop + relativedelta(days=5),
})
# re-Applying the first recurrence should be idempotent
self.recurrence._apply_recurrence()
self.assertEventDates(self.recurrence.calendar_event_ids, [
(datetime(2019, 10, 22, 1, 0), datetime(2019, 10, 24, 18, 0)),
(datetime(2019, 10, 29, 1, 0), datetime(2019, 10, 31, 18, 0)),
])
def test_shift_all(self):
event = self.events[1]
self.assertEventDates(event.recurrence_id.calendar_event_ids, [
(datetime(2019, 10, 22, 1, 0), datetime(2019, 10, 24, 18, 0)),
(datetime(2019, 10, 29, 1, 0), datetime(2019, 10, 31, 18, 0)),
(datetime(2019, 11, 5, 1, 0), datetime(2019, 11, 7, 18, 0)),
])
event.write({
'recurrence_update': 'all_events',
'tue': False,
'fri': False,
'sat': True,
'start': event.start + relativedelta(days=4),
'stop': event.stop + relativedelta(days=5),
})
recurrence = self.env['calendar.recurrence'].search([], limit=1)
self.assertEventDates(recurrence.calendar_event_ids, [
(datetime(2019, 10, 26, 1, 0), datetime(2019, 10, 29, 18, 0)),
(datetime(2019, 11, 2, 1, 0), datetime(2019, 11, 5, 18, 0)),
(datetime(2019, 11, 9, 1, 0), datetime(2019, 11, 12, 18, 0)),
])
def test_shift_stop_all(self):
# testing the case where we only want to update the stop time
event = self.events[0]
event.write({
'recurrence_update': 'all_events',
'stop': event.stop + relativedelta(hours=1),
})
self.assertEventDates(event.recurrence_id.calendar_event_ids, [
(datetime(2019, 10, 22, 2, 0), datetime(2019, 10, 24, 19, 0)),
(datetime(2019, 10, 29, 2, 0), datetime(2019, 10, 31, 19, 0)),
(datetime(2019, 11, 5, 2, 0), datetime(2019, 11, 7, 19, 0)),
])
def test_change_week_day_rrule(self):
recurrence = self.events.recurrence_id
recurrence.rrule = 'FREQ=WEEKLY;COUNT=3;BYDAY=WE' # from TU to WE
self.assertFalse(self.recurrence.tue)
self.assertTrue(self.recurrence.wed)
def test_rrule_x_params(self):
self.recurrence.rrule = 'RRULE;X-EVOLUTION-ENDDATE=20191112;X-OTHER-PARAM=0:X-AMAZING=1;FREQ=WEEKLY;COUNT=3;X-MAIL-special=1;BYDAY=WE;X-RELATIVE=True'
self.assertFalse(self.recurrence.tue)
self.assertTrue(self.recurrence.wed)
def test_rrule_x_params_no_rrule_prefix(self):
self.recurrence.rrule = 'X-EVOLUTION-ENDDATE=20371102T114500Z:FREQ=WEEKLY;COUNT=720;BYDAY=MO'
self.assertFalse(self.recurrence.tue)
self.assertTrue(self.recurrence.mon)
self.assertEqual(self.recurrence.count, 720)
self.assertEqual(self.recurrence.rrule_type, 'weekly')
def test_shift_all_base_inactive(self):
self.recurrence.base_event_id.active = False
event = self.events[1]
event.write({
'recurrence_update': 'all_events',
'start': event.start + relativedelta(days=4),
'stop': event.stop + relativedelta(days=5),
})
self.assertFalse(self.recurrence.exists(), "Inactive event should not create recurrent events")
def test_shift_all_with_outlier(self):
outlier = self.events[1]
outlier.write({
'recurrence_update': 'self_only',
'start': datetime(2019, 10, 31, 1, 0), # Thursday
'stop': datetime(2019, 10, 31, 18, 0),
})
event = self.events[0]
event.write({
'recurrence_update': 'all_events',
'tue': False,
'fri': False,
'sat': True,
'start': event.start + relativedelta(days=4),
'stop': event.stop + relativedelta(days=4),
})
self.assertEventDates(event.recurrence_id.calendar_event_ids, [
(datetime(2019, 10, 26, 1, 0), datetime(2019, 10, 28, 18, 0)),
(datetime(2019, 11, 2, 1, 0), datetime(2019, 11, 4, 18, 0)),
(datetime(2019, 11, 9, 1, 0), datetime(2019, 11, 11, 18, 0))
])
self.assertTrue(outlier.exists(), 'The outlier should have its date and time updated according to the change.')
def test_update_recurrence_future(self):
event = self.events[1]
event.write({
'recurrence_update': 'future_events',
'fri': True, # recurrence is now Tuesday AND Friday
'count': 4,
})
self.assertEventDates(self.recurrence.calendar_event_ids, [
(datetime(2019, 10, 22, 1, 0), datetime(2019, 10, 24, 18, 0)), # Tu
])
self.assertEventDates(event.recurrence_id.calendar_event_ids, [
(datetime(2019, 10, 29, 1, 0), datetime(2019, 10, 31, 18, 0)), # Tu
(datetime(2019, 11, 1, 1, 0), datetime(2019, 11, 3, 18, 0)), # Fr
(datetime(2019, 11, 5, 1, 0), datetime(2019, 11, 7, 18, 0)), # Tu
(datetime(2019, 11, 8, 1, 0), datetime(2019, 11, 10, 18, 0)), # Fr
])
events = event.recurrence_id.calendar_event_ids.sorted('start')
self.assertEqual(events[0], self.events[1], "Events on Tuesdays should not have changed")
self.assertEqual(events[2].start, self.events[2].start, "Events on Tuesdays should not have changed")
self.assertNotEqual(events.recurrence_id, self.recurrence, "Events should no longer be linked to the original recurrence")
self.assertEqual(events.recurrence_id.count, 4, "The new recurrence should have 4")
self.assertTrue(event.recurrence_id.tue)
self.assertTrue(event.recurrence_id.fri)
def test_update_name_future(self):
# update regular event (not the base event)
old_events = self.events[1:]
old_events[0].write({
'name': 'New name',
'recurrence_update': 'future_events',
'rrule_type': 'daily',
'count': 5,
})
new_recurrence = self.env['calendar.recurrence'].search([('id', '>', self.events[0].recurrence_id.id)])
self.assertTrue(self.events[0].recurrence_id.exists())
self.assertEqual(new_recurrence.count, 5)
self.assertFalse(any(old_event.active for old_event in old_events - old_events[0]))
for event in new_recurrence.calendar_event_ids:
self.assertEqual(event.name, 'New name')
# update the base event
new_events = new_recurrence.calendar_event_ids.sorted('start')
new_events[0].write({
'name': 'Old name',
'recurrence_update': 'future_events'
})
self.assertTrue(new_recurrence.exists())
for event in new_recurrence.calendar_event_ids:
self.assertEqual(event.name, 'Old name')
def test_update_recurrence_all(self):
self.events[1].write({
'recurrence_update': 'all_events',
'mon': True, # recurrence is now Tuesday AND Monday
})
recurrence = self.env['calendar.recurrence'].search([], limit=1)
self.assertEventDates(recurrence.calendar_event_ids, [
(datetime(2019, 10, 22, 1, 0), datetime(2019, 10, 24, 18, 0)),
(datetime(2019, 10, 28, 1, 0), datetime(2019, 10, 30, 18, 0)),
(datetime(2019, 10, 29, 1, 0), datetime(2019, 10, 31, 18, 0)),
])
def test_shift_single(self):
event = self.events[1]
event.write({
'recurrence_update': 'self_only',
'name': "Updated event",
'start': event.start - relativedelta(hours=2)
})
self.events[0].write({
'recurrence_update': 'future_events',
'start': event.start + relativedelta(hours=4),
'stop': event.stop + relativedelta(hours=5),
})
def test_break_recurrence_future(self):
event = self.events[1]
event.write({
'recurrence_update': 'future_events',
'recurrency': False,
})
self.assertFalse(event.recurrence_id)
self.assertTrue(self.events[0].active)
self.assertTrue(self.events[1].active)
self.assertFalse(self.events[2].exists())
self.assertEqual(self.recurrence.until, date(2019, 10, 27))
self.assertEqual(self.recurrence.end_type, 'end_date')
self.assertEventDates(self.recurrence.calendar_event_ids, [
(datetime(2019, 10, 22, 1, 0), datetime(2019, 10, 24, 18, 0)),
])
def test_break_recurrence_all(self):
event = self.events[1]
event.write({
'recurrence_update': 'all_events',
'recurrency': False,
'count': 0, # In practice, JS framework sends updated recurrency fields, since they have been recomputed, triggered by the `recurrency` change
})
self.assertFalse(self.events[0].exists())
self.assertTrue(event.active)
self.assertFalse(self.events[2].exists())
self.assertFalse(event.recurrence_id)
self.assertFalse(self.recurrence.exists())
def test_all_day_shift(self):
recurrence = self.env['calendar.event'].create({
'name': 'Recurrent Event',
'start_date': datetime(2019, 10, 22),
'stop_date': datetime(2019, 10, 24),
'recurrency': True,
'rrule_type': 'weekly',
'tue': True,
'interval': 1,
'count': 3,
'event_tz': 'Etc/GMT-4',
'allday': True,
}).recurrence_id
events = recurrence.calendar_event_ids.sorted('start')
event = events[1]
event.write({
'recurrence_update': 'future_events',
'start': event.start + relativedelta(days=4),
'stop': event.stop + relativedelta(days=5),
})
self.assertEqual(recurrence.end_type, 'end_date')
self.assertEqual(recurrence.until, date(2019, 10, 27))
self.assertEventDates(recurrence.calendar_event_ids, [
(datetime(2019, 10, 22, 8, 0), datetime(2019, 10, 24, 18, 0)),
])
new_recurrence = event.recurrence_id
self.assertNotEqual(recurrence, new_recurrence)
self.assertEqual(new_recurrence.count, 2)
self.assertEqual(new_recurrence.dtstart, datetime(2019, 11, 2, 8, 0))
self.assertFalse(new_recurrence.tue)
self.assertTrue(new_recurrence.sat)
self.assertEventDates(new_recurrence.calendar_event_ids, [
(datetime(2019, 11, 2, 8, 0), datetime(2019, 11, 5, 18, 0)),
(datetime(2019, 11, 9, 8, 0), datetime(2019, 11, 12, 18, 0)),
])
def test_update_name_all(self):
old_recurrence = self.events[0].recurrence_id
old_events = old_recurrence.calendar_event_ids - self.events[0]
self.events[0].write({
'name': 'New name',
'recurrence_update': 'all_events',
'count': '5'
})
new_recurrence = self.env['calendar.recurrence'].search([('id', '>', old_recurrence.id)])
self.assertFalse(old_recurrence.exists())
self.assertEqual(new_recurrence.count, 5)
self.assertFalse(any(old_event.active for old_event in old_events))
for event in new_recurrence.calendar_event_ids:
self.assertEqual(event.name, 'New name')
def test_archive_recurrence_all(self):
self.events[1].action_mass_archive('all_events')
self.assertEqual([False, False, False], self.events.mapped('active'))
def test_archive_recurrence_future(self):
event = self.events[1]
event.action_mass_archive('future_events')
self.assertEqual([True, False, False], self.events.mapped('active'))
def test_unlink_recurrence_all(self):
event = self.events[1]
event.action_mass_deletion('all_events')
self.assertFalse(self.recurrence.exists())
self.assertFalse(self.events.exists())
def test_unlink_recurrence_future(self):
event = self.events[1]
event.action_mass_deletion('future_events')
self.assertTrue(self.recurrence)
self.assertEqual(self.events.exists(), self.events[0])
def test_unlink_recurrence_wizard_next(self):
event = self.events[1]
wizard = self.env['calendar.popover.delete.wizard'].create({'record': event.id})
form = Form(wizard)
form.delete = 'next'
form.save()
wizard.close()
self.assertTrue(self.recurrence)
self.assertEqual(self.events.exists(), self.events[0])
def test_unlink_recurrence_wizard_all(self):
event = self.events[1]
wizard = self.env['calendar.popover.delete.wizard'].create({'record': event.id})
form = Form(wizard)
form.delete = 'all'
form.save()
wizard.close()
self.assertFalse(self.recurrence.exists())
self.assertFalse(self.events.exists())
def test_recurrence_update_all_first_archived(self):
"""Test to check the flow when a calendar event is
created from a day that does not belong to the recurrence.
"""
event = self.env['calendar.event'].create({
'name': 'Recurrent Event',
'start': datetime(2019, 10, 22, 1, 0),
'stop': datetime(2019, 10, 22, 2, 0),
'recurrency': True,
'rrule_type': 'weekly',
'tue': False,
'wed': True,
'fri': True,
'interval': 1,
'count': 3,
'event_tz': 'Etc/GMT-4',
})
# Tuesday datetime(2019, 10, 22, 1, 0) - Archived
# Wednesday datetime(2019, 10, 23, 1, 0)
# Friday datetime(2019, 10, 25, 1, 0)
# Wednesday datetime(2019, 10, 30, 1, 0)
recurrence = self.env['calendar.recurrence'].search([('id', '!=', self.recurrence.id)])
events = recurrence.calendar_event_ids.sorted('start')
# Check first event is archived
self.assertFalse(event.active)
# Check base_event is different than archived and it is first active event
self.assertNotEqual(recurrence.base_event_id, event)
self.assertEqual(recurrence.base_event_id, events[0])
# Update all events to check that error is not thrown
events[0].write({
'recurrence_update': 'all_events',
'fri': False,
})
events = self.env['calendar.recurrence'].search(
[('id', '!=', self.recurrence.id)]
).calendar_event_ids.sorted('start')
self.assertEventDates(events, [
(datetime(2019, 10, 23, 1, 0), datetime(2019, 10, 23, 2, 0)),
(datetime(2019, 10, 30, 1, 0), datetime(2019, 10, 30, 2, 0)),
(datetime(2019, 11, 6, 1, 0), datetime(2019, 11, 6, 2, 0)),
])
class TestUpdateMultiDayWeeklyRecurrentEvents(TestRecurrentEvents):
@classmethod
def setUpClass(cls):
super().setUpClass()
event = cls.env['calendar.event'].create({
'name': 'Recurrent Event',
'start': datetime(2019, 10, 22, 1, 0),
'stop': datetime(2019, 10, 24, 18, 0),
'recurrency': True,
'rrule_type': 'weekly',
'tue': True,
'fri': True,
'interval': 1,
'count': 3,
'event_tz': 'Etc/GMT-4',
})
cls.recurrence = event.recurrence_id
cls.events = event.recurrence_id.calendar_event_ids.sorted('start')
# Tuesday datetime(2019, 10, 22, 1, 0)
# Friday datetime(2019, 10, 25, 1, 0)
# Tuesday datetime(2019, 10, 29, 1, 0)
def test_shift_all_multiple_weekdays(self):
event = self.events[0] # Tuesday
# We go from 2 days a week Thuesday and Friday to one day a week, Thursday
event.write({
'recurrence_update': 'all_events',
'tue': False,
'thu': True,
'fri': False,
'start': event.start + relativedelta(days=2),
'stop': event.stop + relativedelta(days=2),
})
recurrence = self.env['calendar.recurrence'].search([], limit=1)
# We don't try to do magic tricks. First event is moved, other remain
self.assertEventDates(recurrence.calendar_event_ids, [
(datetime(2019, 10, 24, 1, 0), datetime(2019, 10, 26, 18, 0)),
(datetime(2019, 10, 31, 1, 0), datetime(2019, 11, 2, 18, 0)),
(datetime(2019, 11, 7, 1, 0), datetime(2019, 11, 9, 18, 0)),
])
def test_shift_all_multiple_weekdays_duration(self):
event = self.events[0] # Tuesday
event.write({
'recurrence_update': 'all_events',
'tue': False,
'thu': True,
'fri': False,
'start': event.start + relativedelta(days=2),
'stop': event.stop + relativedelta(days=3),
})
recurrence = self.env['calendar.recurrence'].search([], limit=1)
self.assertEventDates(recurrence.calendar_event_ids, [
(datetime(2019, 10, 24, 1, 0), datetime(2019, 10, 27, 18, 0)),
(datetime(2019, 10, 31, 1, 0), datetime(2019, 11, 3, 18, 0)),
(datetime(2019, 11, 7, 1, 0), datetime(2019, 11, 10, 18, 0)),
])
def test_shift_future_multiple_weekdays(self):
event = self.events[1] # Friday
event.write({
'recurrence_update': 'future_events',
'start': event.start + relativedelta(days=3),
'stop': event.stop + relativedelta(days=3),
})
self.assertTrue(self.recurrence.fri)
self.assertTrue(self.recurrence.tue)
self.assertTrue(event.recurrence_id.tue)
self.assertTrue(event.recurrence_id.mon)
self.assertFalse(event.recurrence_id.fri)
self.assertEqual(event.recurrence_id.count, 2)
class TestUpdateMonthlyByDay(TestRecurrentEvents):
@classmethod
def setUpClass(cls):
super().setUpClass()
event = cls.env['calendar.event'].create({
'name': 'Recurrent Event',
'start': datetime(2019, 10, 15, 1, 0),
'stop': datetime(2019, 10, 16, 18, 0),
'recurrency': True,
'rrule_type': 'monthly',
'interval': 1,
'count': 3,
'month_by': 'day',
'weekday': 'TUE',
'byday': '3',
'event_tz': 'Etc/GMT-4',
})
cls.recurrence = event.recurrence_id
cls.events = event.recurrence_id.calendar_event_ids.sorted('start')
# datetime(2019, 10, 15, 1, 0)
# datetime(2019, 11, 19, 1, 0)
# datetime(2019, 12, 17, 1, 0)
def test_shift_all(self):
event = self.events[1]
event.write({
'recurrence_update': 'all_events',
'start': event.start + relativedelta(hours=5),
'stop': event.stop + relativedelta(hours=5),
})
recurrence = self.env['calendar.recurrence'].search([], limit=1)
self.assertEventDates(recurrence.calendar_event_ids, [
(datetime(2019, 10, 15, 6, 0), datetime(2019, 10, 16, 23, 0)),
(datetime(2019, 11, 19, 6, 0), datetime(2019, 11, 20, 23, 0)),
(datetime(2019, 12, 17, 6, 0), datetime(2019, 12, 18, 23, 0)),
])
class TestUpdateMonthlyByDate(TestRecurrentEvents):
@classmethod
def setUpClass(cls):
super().setUpClass()
event = cls.env['calendar.event'].create({
'name': 'Recurrent Event',
'start': datetime(2019, 10, 22, 1, 0),
'stop': datetime(2019, 10, 24, 18, 0),
'recurrency': True,
'rrule_type': 'monthly',
'interval': 1,
'count': 3,
'month_by': 'date',
'day': 22,
'event_tz': 'Etc/GMT-4',
})
cls.recurrence = event.recurrence_id
cls.events = event.recurrence_id.calendar_event_ids.sorted('start')
# datetime(2019, 10, 22, 1, 0)
# datetime(2019, 11, 22, 1, 0)
# datetime(2019, 12, 22, 1, 0)
def test_shift_future(self):
event = self.events[1]
event.write({
'recurrence_update': 'future_events',
'start': event.start + relativedelta(days=4),
'stop': event.stop + relativedelta(days=5),
})
self.assertEventDates(self.recurrence.calendar_event_ids, [
(datetime(2019, 10, 22, 1, 0), datetime(2019, 10, 24, 18, 0)),
])
self.assertEventDates(event.recurrence_id.calendar_event_ids, [
(datetime(2019, 11, 26, 1, 0), datetime(2019, 11, 29, 18, 0)),
(datetime(2019, 12, 26, 1, 0), datetime(2019, 12, 29, 18, 0)),
])
def test_update_all(self):
event = self.events[1]
event.write({
'recurrence_update': 'all_events',
'day': 25,
})
recurrence = self.env['calendar.recurrence'].search([('day', '=', 25)])
self.assertEventDates(recurrence.calendar_event_ids, [
(datetime(2019, 10, 25, 1, 0), datetime(2019, 10, 27, 18, 0)),
(datetime(2019, 11, 25, 1, 0), datetime(2019, 11, 27, 18, 0)),
(datetime(2019, 12, 25, 1, 0), datetime(2019, 12, 27, 18, 0)),
])
def test_recurring_ui_options_daily(self):
with Form(self.env['calendar.event']) as calendar_form:
calendar_form.name = 'test recurrence daily'
calendar_form.recurrency = True
calendar_form.rrule_type_ui = 'daily'
calendar_form.count = 2
calendar_form.start = datetime(2019, 6, 23, 16)
calendar_form.stop = datetime(2019, 6, 23, 17)
event = calendar_form.save()
self.assertEventDates(event.recurrence_id.calendar_event_ids, [
(datetime(2019, 6, 23, 16), datetime(2019, 6, 23, 17)),
(datetime(2019, 6, 24, 16, 0), datetime(2019, 6, 24, 17)),
])
self.assertEqual(event.rrule_type_ui, 'daily')
self.assertEqual(event.count, 2)
def test_recurring_ui_options_monthly(self):
with Form(self.env['calendar.event']) as calendar_form:
calendar_form.name = 'test recurrence monthly'
calendar_form.recurrency = True
calendar_form.rrule_type_ui = 'monthly'
calendar_form.count = 2
calendar_form.start = datetime(2019, 6, 11, 16)
calendar_form.stop = datetime(2019, 6, 11, 17)
calendar_form.day = 11
event = calendar_form.save()
self.assertEventDates(event.recurrence_id.calendar_event_ids, [
(datetime(2019, 6, 11, 16), datetime(2019, 6, 11, 17)),
(datetime(2019, 7, 11, 16), datetime(2019, 7, 11, 17)),
])
self.assertEqual(event.rrule_type_ui, 'monthly')
self.assertEqual(event.count, 2)
def test_recurring_ui_options_yearly(self):
with Form(self.env['calendar.event']) as calendar_form:
calendar_form.name = 'test recurrence yearly'
calendar_form.recurrency = True
calendar_form.rrule_type_ui = 'yearly'
calendar_form.count = 2
calendar_form.start = datetime(2019, 6, 11, 16)
calendar_form.stop = datetime(2019, 6, 11, 17)
event = calendar_form.save()
self.assertEventDates(event.recurrence_id.calendar_event_ids, [
(datetime(2019, 6, 11, 16), datetime(2019, 6, 11, 17)),
(datetime(2020, 6, 11, 16), datetime(2020, 6, 11, 17)),
])
# set to custom because a yearly recurrence, becomes a monthly recurrence every 12 months
self.assertEqual(event.rrule_type_ui, 'yearly')
self.assertEqual(event.count, 2)
self.assertEqual(event.interval, 1)
self.assertEqual(event.rrule_type, 'yearly')
def test_attendees_state_after_update(self):
""" Ensure that after the organizer updates a recurrence, the attendees state will be pending and current user accepted. """
# Create events with organizer and attendee state set as accepted.
organizer = self.env.ref('base.user_admin')
attendee_partner = self.env['res.partner'].create({'name': "attendee", "email": 'attendee@email.com'})
first_event = self.env['calendar.event'].with_user(organizer).create({
'name': "Recurrence",
'start': datetime(2023, 10, 18, 8, 0),
'stop': datetime(2023, 10, 18, 10, 0),
'rrule': u'FREQ=WEEKLY;COUNT=5;BYDAY=WE',
'recurrency': True,
'partner_ids': [(4, organizer.partner_id.id), (4, attendee_partner.id)],
})
recurrence_id = first_event.recurrence_id.id
# Accept all events for all attendees and ensure their acceptance.
for event in first_event.recurrence_id.calendar_event_ids:
for attendee in event.attendee_ids:
attendee.state = 'accepted'
# Change time fields of the recurrence by organizer in "all_events" mode. Events must reset attendee status to 'needsAction'.
first_event.with_user(organizer).write({
'start': first_event.start + relativedelta(hours=2),
'stop': first_event.stop + relativedelta(hours=2),
'recurrence_update': 'all_events',
})
first_event = self.env['calendar.recurrence'].search([('id', '>', recurrence_id)]).base_event_id
recurrence_id = first_event.recurrence_id.id
# Ensure that attendee status is pending after organizer (current user) update time values.
for event in first_event.recurrence_id.calendar_event_ids:
for attendee in event.attendee_ids:
if attendee.partner_id == organizer.partner_id:
self.assertEqual(attendee.state, "accepted", "Organizer must remain accepted after time values update.")
else:
self.assertEqual(attendee.state, "needsAction", "Attendees state except organizer must be pending after update.")
# Accept all events again for all attendes.
for event in first_event.recurrence_id.calendar_event_ids:
for attendee in event.attendee_ids:
attendee.state = 'accepted'
# Change time fields of the recurrence by organizer in "future_events" mode. Events must reset attendee status to 'needsAction'.
second_event = first_event.recurrence_id.calendar_event_ids.sorted('start')[1]
second_event.with_user(organizer).write({
'start': second_event.start + relativedelta(hours=2),
'stop': second_event.stop + relativedelta(hours=2),
'recurrence_update': 'future_events',
})
second_event = self.env['calendar.recurrence'].search([('id', '>', recurrence_id)]).base_event_id
# Ensure that first event is accepted for everyone and also from the second event on, the state in pending for attendees except organizer.
self.assertTrue(first_event.active, "Event from previous recurrence must remain active after the second event got updated.")
self.assertTrue(all(attendee.state == 'accepted' for attendee in first_event.attendee_ids), "Attendees state from previous event must remain accepted.")
for event in second_event.recurrence_id.calendar_event_ids:
for attendee in event.attendee_ids:
if attendee.partner_id == organizer.partner_id:
self.assertEqual(attendee.state, "accepted", "Current user must remain accepted after time values update.")
else:
self.assertEqual(attendee.state, "needsAction", "Attendees state except current user must be pending after update.")
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