from datetime import datetime import pytz from django.utils.timezone import now as timezone_now from zerver.lib.test_classes import ZulipTestCase from zerver.lib.timezone import canonicalize_timezone, common_timezones class TimeZoneTest(ZulipTestCase): def test_canonicalize_timezone(self) -> None: self.assertEqual(canonicalize_timezone("America/Los_Angeles"), "America/Los_Angeles") self.assertEqual(canonicalize_timezone("US/Pacific"), "America/Los_Angeles") self.assertEqual(canonicalize_timezone("Gondor/Minas_Tirith"), "Gondor/Minas_Tirith") def test_common_timezones(self) -> None: ambiguous_abbrevs = [ ("CDT", -18000.0), # Central Daylight Time ("CDT", -14400.0), # Cuba Daylight Time ("CST", -21600.0), # Central Standard Time ("CST", +28800.0), # China Standard Time ("CST", -18000.0), # Cuba Standard Time ("PST", -28800.0), # Pacific Standard Time ("PST", +28800.0), # Philippine Standard Time ("IST", +19800.0), # India Standard Time ("IST", +7200.0), # Israel Standard Time ("IST", +3600.0), # Ireland Standard Time ] missing = set(dict(reversed(ambiguous_abbrevs)).items()) - set(common_timezones.items()) assert not missing, missing now = timezone_now() dates = [datetime(now.year, 6, 21), datetime(now.year, 12, 21)] extra = {*common_timezones.items(), *ambiguous_abbrevs} for name in pytz.all_timezones: tz = pytz.timezone(name) for date in dates: abbrev = tz.tzname(date) if abbrev.startswith(("-", "+")): continue delta = tz.utcoffset(date) assert delta is not None offset = delta.total_seconds() assert ( common_timezones[abbrev] == offset or (abbrev, offset) in ambiguous_abbrevs ), (name, abbrev, offset) extra.discard((abbrev, offset)) assert not extra, extra