import datetime import hashlib import operator import unittest from copy import deepcopy from random import shuffle import dateutil.parser from pytz import timezone, utc from gcal_sync import CalendarSync class TestCalendarSync(unittest.TestCase): @staticmethod def sha1(string): if isinstance(string, str): string = string.encode('utf8') h = hashlib.sha1() h.update(string) return h.hexdigest() @staticmethod def gen_events(start, stop, start_time): one_hour = datetime.datetime( 1, 1, 1, 2) - datetime.datetime(1, 1, 1, 1) result = [] for i in range(start, stop): event_start = start_time + (one_hour * i) event_end = event_start + one_hour updated = utc.normalize( event_start.astimezone(utc)).replace(tzinfo=None) result.append({ 'summary': 'test event __ {}'.format(i), 'location': 'la la la {}'.format(i), 'description': 'test TEST -- test event {}'.format(i), 'start': { 'dateTime': event_start.isoformat() }, 'end': { 'dateTime': event_end.isoformat(), }, "iCalUID": "{}@test.com".format(TestCalendarSync.sha1("test - event {}".format(i))), "updated": updated.isoformat() + 'Z', "created": updated.isoformat() + 'Z' }) return result @staticmethod def gen_list_to_compare(start, stop): result = [] for i in range(start, stop): result.append({'iCalUID': 'test{:06d}'.format(i)}) return result @staticmethod def get_start_date(event): event_start = event['start'] start_date = None if 'date' in event_start: start_date = event_start['date'] if 'dateTime' in event_start: start_date = event_start['dateTime'] return dateutil.parser.parse(start_date) def test_compare(self): part_len = 20 # [1..2n] lst_src = TestCalendarSync.gen_list_to_compare(1, 1 + part_len * 2) # [n..3n] lst_dst = TestCalendarSync.gen_list_to_compare(1 + part_len, 1 + part_len * 3) lst_src_rnd = deepcopy(lst_src) lst_dst_rnd = deepcopy(lst_dst) shuffle(lst_src_rnd) shuffle(lst_dst_rnd) to_ins, to_upd, to_del = CalendarSync._events_list_compare( lst_src_rnd, lst_dst_rnd) self.assertEqual(len(to_ins), part_len) self.assertEqual(len(to_upd), part_len) self.assertEqual(len(to_del), part_len) self.assertEqual( sorted(to_ins, key=lambda x: x['iCalUID']), lst_src[:part_len]) self.assertEqual( sorted(to_del, key=lambda x: x['iCalUID']), lst_dst[part_len:]) to_upd_ok = list(zip(lst_src[part_len:], lst_dst[:part_len])) self.assertEqual(len(to_upd), len(to_upd_ok)) for item in to_upd_ok: self.assertIn(item, to_upd) def test_filter_events_by_date(self): msk = timezone('Europe/Moscow') now = utc.localize(datetime.datetime.utcnow()) msk_now = msk.normalize(now.astimezone(msk)) one_hour = datetime.datetime( 1, 1, 1, 2) - datetime.datetime(1, 1, 1, 1) date_cmp = msk_now + (one_hour * 5) events = TestCalendarSync.gen_events(1, 11, msk_now) shuffle(events) events_pending = CalendarSync._filter_events_by_date( events, date_cmp, operator.ge) events_past = CalendarSync._filter_events_by_date( events, date_cmp, operator.lt) self.assertEqual(len(events_pending), 6) self.assertEqual(len(events_past), 4) for event in events_pending: self.assertGreaterEqual( TestCalendarSync.get_start_date(event), date_cmp) for event in events_past: self.assertLess(TestCalendarSync.get_start_date(event), date_cmp) def test_filter_events_to_update(self): msk = timezone('Europe/Moscow') now = utc.localize(datetime.datetime.utcnow()) msk_now = msk.normalize(now.astimezone(msk)) one_hour = datetime.datetime( 1, 1, 1, 2) - datetime.datetime(1, 1, 1, 1) date_upd = msk_now + (one_hour * 5) count = 10 events_old = TestCalendarSync.gen_events(1, 1 + count, msk_now) events_new = TestCalendarSync.gen_events(1, 1 + count, date_upd) sync1 = CalendarSync(None, None) sync1.to_update = list(zip(events_new, events_old)) sync1._filter_events_to_update() sync2 = CalendarSync(None, None) sync2.to_update = list(zip(events_old, events_new)) sync2._filter_events_to_update() self.assertEqual(len(sync1.to_update), count) self.assertEqual(len(sync2.to_update), 0) if __name__ == '__main__': unittest.main()