278 lines
12 KiB
Python
278 lines
12 KiB
Python
# -*- coding: utf-8 -*-
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# Part of Odoo, Flectra. See LICENSE file for full copyright and licensing details.
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import datetime
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from datetime import datetime, timedelta
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from flectra import fields
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from flectra.tests.common import TransactionCase
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class TestCalendar(TransactionCase):
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def setUp(self):
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super(TestCalendar, self).setUp()
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self.CalendarEvent = self.env['calendar.event']
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# In Order to test calendar, I will first create One Simple Event with real data
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self.event_tech_presentation = self.CalendarEvent.create({
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'privacy': 'private',
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'start': '2011-04-30 16:00:00',
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'stop': '2011-04-30 18:30:00',
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'description': 'The Technical Presentation will cover following topics:\n* Creating Flectra class\n* Views\n* Wizards\n* Workflows',
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'duration': 2.5,
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'location': 'Flectra S.A.',
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'name': 'Technical Presentation'
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})
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def test_calender_simple_event(self):
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m = self.CalendarEvent.create({
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'name': "Test compute",
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'start': '2017-07-12 14:30:00',
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'allday': False,
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'stop': '2017-07-12 15:00:00',
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})
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self.assertEqual(
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(m.start_datetime, m.stop_datetime),
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(u'2017-07-12 14:30:00', u'2017-07-12 15:00:00'),
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"Sanity check"
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)
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def test_calender_event(self):
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# Now I will set recurrence for this event to occur monday and friday of week
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data = {
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'fr': 1,
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'mo': 1,
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'interval': 1,
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'rrule_type': 'weekly',
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'end_type': 'end_date',
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'final_date': '2011-05-31 00:00:00',
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'recurrency': True
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}
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self.event_tech_presentation.write(data)
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# In order to check that recurrent events are views successfully in calendar view, I will open calendar view of events|
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self.CalendarEvent.fields_view_get(False, 'calendar')
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# In order to check that recurrent events are views successfully in calendar view, I will search for one of the recurrent event and count the number of events
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rec_events = self.CalendarEvent.with_context({'virtual_id': True}).search([
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('start', '>=', '2011-04-30 16:00:00'), ('start', '<=', '2011-05-31 00:00:00')
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])
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self.assertEqual(len(rec_events), 9, 'Wrong number of events found')
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# Now I move a virtual event, to see that a real event is well created and depending from the native recurrence
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before = self.CalendarEvent.with_context({'virtual_id': False}).search([
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('start', '>=', '2011-04-30 16:00:00'), ('start', '<=', '2011-05-31 00:00:00')
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])
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# We start by detach the event
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newevent = rec_events[1].detach_recurring_event()
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newevent.with_context({'virtual_id': True}).write({'name': 'New Name', 'recurrency': True})
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after = self.CalendarEvent.with_context({'virtual_id': False}).search([
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('start', '>=', '2011-04-30 16:00:00'), ('start', '<=', '2011-05-31 00:00:00')
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])
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self.assertEqual(len(after), len(before) + 1, 'Wrong number of events found, after to have moved a virtual event')
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new_event = after - before
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self.assertEqual(new_event[0].recurrent_id, before.id, 'Recurrent_id not correctly passed to the new event')
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# Now I will test All day event
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allday_event = self.CalendarEvent.create({
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'allday': 1,
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'privacy': 'confidential',
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'start': '2011-04-30 00:00:00',
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'stop': '2011-04-30 00:00:00',
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'description': 'All day technical test',
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'location': 'School',
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'name': 'All day test event'
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})
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# In order to check reminder I will first create reminder
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res_alarm_day_before_event_starts = self.env['calendar.alarm'].create({
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'name': '1 Day before event starts',
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'duration': 1,
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'interval': 'days',
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'type': 'notification'
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})
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# Now I will assign this reminder to all day event|
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allday_event.write({'alarm_ids': [(6, 0, [res_alarm_day_before_event_starts.id])]})
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# I create a recuring rule for my event
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calendar_event_sprint_review = self.CalendarEvent.create({
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'name': 'Begin of month meeting',
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'start': fields.Date.today() + ' 12:00:00',
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'stop': fields.Date.today() + ' 18:00:00',
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'recurrency': True,
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'rrule': 'FREQ=MONTHLY;INTERVAL=1;COUNT=12;BYDAY=1MO'
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})
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# I check that the attributes are set correctly
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self.assertEqual(calendar_event_sprint_review.rrule_type, 'monthly', 'rrule_type should be mothly')
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self.assertEqual(calendar_event_sprint_review.count, 12, 'rrule_type should be mothly')
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self.assertEqual(calendar_event_sprint_review.month_by, 'day', 'rrule_type should be mothly')
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self.assertEqual(calendar_event_sprint_review.byday, '1', 'rrule_type should be mothly')
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self.assertEqual(calendar_event_sprint_review.week_list, 'MO', 'rrule_type should be mothly')
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def test_validation_error(self):
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"""
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Ideally this should build the base event in such a way that calling
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write() triggers detach_recurring_event, but I've no idea how that
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actually works so just calling it directly for now
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"""
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m = self.CalendarEvent.create({
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'name': "wheee",
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'start': '2017-07-12 14:30:00',
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'allday': False,
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'rrule': u'FREQ=WEEKLY;BYDAY=WE;INTERVAL=1;COUNT=100',
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'duration': 0.5,
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'stop': '2017-07-12 15:00:00',
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})
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self.assertEqual(
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(m.start_datetime, m.stop_datetime),
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(u'2017-07-12 14:30:00', u'2017-07-12 15:00:00'),
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"Sanity check"
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)
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values = {
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'allday': False,
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'name': u'wheee',
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'attendee_ids': [
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(0, 0, {'state': u'needsAction', 'partner_id': 8, 'email': u'bob@example.com'}),
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(0, 0, {'state': u'needsAction', 'partner_id': 10, 'email': u'ed@example.com'}),
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],
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'recurrency': True,
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'privacy': u'public',
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'stop': '2017-07-10 16:00:00',
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'alarm_ids': [(6, 0, [])],
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'start': '2017-07-10 15:30:00',
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'location': u"XXX",
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'duration': 0.5,
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'partner_ids': [(4, 10), (4, 8)],
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'description': u"A thing"
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}
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records = m.detach_recurring_event(values)
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self.assertEqual(
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(m.start_datetime, m.stop_datetime),
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(u'2017-07-12 14:30:00', u'2017-07-12 15:00:00'),
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)
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self.assertEquals(
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(records.start_datetime, records.stop_datetime),
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(u'2017-07-10 15:30:00', u'2017-07-10 16:00:00'),
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)
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def test_event_order(self):
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""" check the ordering of events when searching """
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def create_event(name, date):
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return self.CalendarEvent.create({
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'name': name,
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'start': date + ' 12:00:00',
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'stop': date + ' 14:00:00',
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'duration': 2.0,
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})
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foo1 = create_event('foo', '2011-04-01')
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foo2 = create_event('foo', '2011-06-01')
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bar1 = create_event('bar', '2011-05-01')
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bar2 = create_event('bar', '2011-06-01')
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domain = [('id', 'in', (foo1 + foo2 + bar1 + bar2).ids)]
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# sort them by name only
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events = self.CalendarEvent.search(domain, order='name')
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self.assertEqual(events.mapped('name'), ['bar', 'bar', 'foo', 'foo'])
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events = self.CalendarEvent.search(domain, order='name desc')
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self.assertEqual(events.mapped('name'), ['foo', 'foo', 'bar', 'bar'])
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# sort them by start date only
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events = self.CalendarEvent.search(domain, order='start')
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self.assertEqual(events.mapped('start'), (foo1 + bar1 + foo2 + bar2).mapped('start'))
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events = self.CalendarEvent.search(domain, order='start desc')
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self.assertEqual(events.mapped('start'), (foo2 + bar2 + bar1 + foo1).mapped('start'))
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# sort them by name then start date
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events = self.CalendarEvent.search(domain, order='name asc, start asc')
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self.assertEqual(list(events), [bar1, bar2, foo1, foo2])
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events = self.CalendarEvent.search(domain, order='name asc, start desc')
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self.assertEqual(list(events), [bar2, bar1, foo2, foo1])
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events = self.CalendarEvent.search(domain, order='name desc, start asc')
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self.assertEqual(list(events), [foo1, foo2, bar1, bar2])
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events = self.CalendarEvent.search(domain, order='name desc, start desc')
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self.assertEqual(list(events), [foo2, foo1, bar2, bar1])
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# sort them by start date then name
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events = self.CalendarEvent.search(domain, order='start asc, name asc')
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self.assertEqual(list(events), [foo1, bar1, bar2, foo2])
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events = self.CalendarEvent.search(domain, order='start asc, name desc')
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self.assertEqual(list(events), [foo1, bar1, foo2, bar2])
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events = self.CalendarEvent.search(domain, order='start desc, name asc')
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self.assertEqual(list(events), [bar2, foo2, bar1, foo1])
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events = self.CalendarEvent.search(domain, order='start desc, name desc')
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self.assertEqual(list(events), [foo2, bar2, bar1, foo1])
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def test_event_activity(self):
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# ensure meeting activity type exists
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meeting_act_type = self.env['mail.activity.type'].search([('category', '=', 'meeting')], limit=1)
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if not meeting_act_type:
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meeting_act_type = self.env['mail.activity.type'].create({
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'name': 'Meeting Test',
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'category': 'meeting',
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})
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# have a test model inheriting from activities
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test_record = self.env['res.partner'].create({
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'name': 'Test',
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})
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now = datetime.now()
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test_user = self.env.ref('base.user_demo')
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test_name, test_description, test_description2 = 'Test-Meeting', '<p>Test-Description</p>', '<p>NotTest</p>'
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# create using default_* keys
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test_event = self.env['calendar.event'].sudo(test_user).with_context(
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default_res_model=test_record._name,
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default_res_id=test_record.id,
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).create({
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'name': test_name,
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'description': test_description,
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'start': fields.Datetime.to_string(now + timedelta(days=-1)),
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'stop': fields.Datetime.to_string(now + timedelta(hours=2)),
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'user_id': self.env.user.id,
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})
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self.assertEqual(test_event.res_model, test_record._name)
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self.assertEqual(test_event.res_id, test_record.id)
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self.assertEqual(len(test_record.activity_ids), 1)
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self.assertEqual(test_record.activity_ids.summary, test_name)
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self.assertEqual(test_record.activity_ids.note, test_description)
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self.assertEqual(test_record.activity_ids.user_id, self.env.user)
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self.assertEqual(test_record.activity_ids.date_deadline, fields.Date.to_string((now + timedelta(days=-1)).date()))
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# updating event should update activity
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test_event.write({
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'name': '%s2' % test_name,
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'description': test_description2,
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'start': fields.Datetime.to_string(now + timedelta(days=-2)),
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'user_id': test_user.id,
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})
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self.assertEqual(test_record.activity_ids.summary, '%s2' % test_name)
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self.assertEqual(test_record.activity_ids.note, test_description2)
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self.assertEqual(test_record.activity_ids.user_id, test_user)
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self.assertEqual(test_record.activity_ids.date_deadline, fields.Date.to_string((now + timedelta(days=-2)).date()))
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# deleting meeting should delete its activity
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test_record.activity_ids.unlink()
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self.assertEqual(self.env['calendar.event'], self.env['calendar.event'].search([('name', '=', test_name)]))
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# create using active_model keys
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test_event = self.env['calendar.event'].sudo(self.env.ref('base.user_demo')).with_context(
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active_model=test_record._name,
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active_id=test_record.id,
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).create({
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'name': test_name,
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'description': test_description,
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'start': fields.Datetime.to_string(now + timedelta(days=-1)),
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'stop': fields.Datetime.to_string(now + timedelta(hours=2)),
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'user_id': self.env.user.id,
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})
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self.assertEqual(test_event.res_model, test_record._name)
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self.assertEqual(test_event.res_id, test_record.id)
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self.assertEqual(len(test_record.activity_ids), 1)
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