import datetime import dateutil.parser import icalendar from icalendar.prop import tzid_from_dt def test_create_from_ical(calendars, other_tzp): """Create a calendar from a .ics file.""" cal = calendars.timezoned assert cal["prodid"].to_ical() == b"-//Plone.org//NONSGML plone.app.event//EN" timezones = cal.walk("VTIMEZONE") assert len(timezones) == 1 tz = timezones[0] assert tz["tzid"].to_ical() == b"Europe/Vienna" std = tz.walk("STANDARD")[0] assert std.decoded("TZOFFSETFROM") == datetime.timedelta(0, 7200) ev1 = cal.walk("VEVENT")[0] assert ev1.decoded("DTSTART") == other_tzp.localize( datetime.datetime(2012, 2, 13, 10, 0, 0), "Europe/Vienna" ) assert ev1.decoded("DTSTAMP") == other_tzp.localize( datetime.datetime(2010, 10, 10, 9, 10, 10), "UTC" ) def test_create_to_ical(tzp): cal = icalendar.Calendar() cal.add("prodid", "-//Plone.org//NONSGML plone.app.event//EN") cal.add("version", "2.0") cal.add("x-wr-calname", "test create calendar") cal.add("x-wr-caldesc", "icalendar tests") cal.add("x-wr-relcalid", "12345") cal.add("x-wr-timezone", "Europe/Vienna") tzc = icalendar.Timezone() tzc.add("tzid", "Europe/Vienna") tzc.add("x-lic-location", "Europe/Vienna") tzs = icalendar.TimezoneStandard() tzs.add("tzname", "CET") tzs.add("dtstart", datetime.datetime(1970, 10, 25, 3, 0, 0)) tzs.add("rrule", {"freq": "yearly", "bymonth": 10, "byday": "-1su"}) tzs.add("TZOFFSETFROM", datetime.timedelta(hours=2)) tzs.add("TZOFFSETTO", datetime.timedelta(hours=1)) tzd = icalendar.TimezoneDaylight() tzd.add("tzname", "CEST") tzd.add("dtstart", datetime.datetime(1970, 3, 29, 2, 0, 0)) tzs.add("rrule", {"freq": "yearly", "bymonth": 3, "byday": "-1su"}) tzd.add("TZOFFSETFROM", datetime.timedelta(hours=1)) tzd.add("TZOFFSETTO", datetime.timedelta(hours=2)) tzc.add_component(tzs) tzc.add_component(tzd) cal.add_component(tzc) event = icalendar.Event() event.add( "dtstart", tzp.localize(datetime.datetime(2012, 2, 13, 10, 00, 00), "Europe/Vienna"), ) event.add( "dtend", tzp.localize(datetime.datetime(2012, 2, 17, 18, 00, 00), "Europe/Vienna"), ) event.add( "dtstamp", tzp.localize(datetime.datetime(2010, 10, 10, 10, 10, 10), "Europe/Vienna"), ) event.add( "created", tzp.localize(datetime.datetime(2010, 10, 10, 10, 10, 10), "Europe/Vienna"), ) event.add("uid", "123456") event.add( "last-modified", tzp.localize(datetime.datetime(2010, 10, 10, 10, 10, 10), "Europe/Vienna"), ) event.add("summary", "artsprint 2012") # event.add('rrule', 'FREQ=YEARLY;INTERVAL=1;COUNT=10') event.add("description", "sprinting at the artsprint") event.add("location", "aka bild, wien") event.add("categories", "first subject") event.add("categories", "second subject") event.add("attendee", "häns") event.add("attendee", "franz") event.add("attendee", "sepp") event.add("contact", "Max Mustermann, 1010 Wien") event.add("url", "https://plone.org") cal.add_component(event) test_out = b"|".join(cal.to_ical().splitlines()) test_out = test_out.decode("utf-8") vtimezone_lines = "BEGIN:VTIMEZONE|TZID:Europe/Vienna|X-LIC-LOCATION:" "Europe/Vienna|BEGIN:STANDARD|DTSTART:19701025T03" "0000|RRULE:FREQ=YEARLY;BYDAY=-1SU;BYMONTH=10|RRULE:FREQ=YEARLY;B" "YDAY=-1SU;BYMONTH=3|TZNAME:CET|TZOFFSETFROM:+0200|TZOFFSETTO:+01" "00|END:STANDARD|BEGIN:DAYLIGHT|DTSTART:19700329T" "020000|TZNAME:CEST|TZOFFSETFROM:+0100|TZOFFSETTO:+0200|END:DAYLI" "GHT|END:VTIMEZONE" assert vtimezone_lines in test_out test_str = "DTSTART;TZID=Europe/Vienna:20120213T100000" assert test_str in test_out assert "ATTENDEE:sepp" in test_out # ical standard expects DTSTAMP and CREATED in UTC assert "DTSTAMP:20101010T081010Z" in test_out assert "CREATED:20101010T081010Z" in test_out def test_tzinfo_dateutil(): """Test for issues #77, #63 references: #73,7430b66862346fe3a6a100ab25e35a8711446717 """ date = dateutil.parser.parse("2012-08-30T22:41:00Z") date2 = dateutil.parser.parse("2012-08-30T22:41:00 +02:00") assert date.tzinfo.__module__.startswith("dateutil.tz") assert date2.tzinfo.__module__.startswith("dateutil.tz") # make sure, it's parsed properly and doesn't throw an error assert icalendar.vDDDTypes(date).to_ical() == b"20120830T224100Z" assert icalendar.vDDDTypes(date2).to_ical() == b"20120830T224100" def test_create_america_new_york(calendars, tzp): """testing America/New_York, the most complex example from the RFC""" cal = calendars.america_new_york dt = cal.events[0].start assert tzid_from_dt(dt) in ("custom_America/New_York", "EDT") def test_create_america_new_york_forward_reference(calendars, tzp): """testing America/New_York variant with VTIMEZONE as a forward reference""" cal = calendars.america_new_york_forward_reference dt = cal.walk('VEVENT')[0]['DTSTART'][0].dt assert tzid_from_dt(dt) in ('custom_America/New_York_Forward_reference', "EDT") def test_america_new_york_with_pytz(calendars, tzp, pytz_only): """Create a custom timezone with pytz and test the transition times.""" print(tzp) cal = calendars.america_new_york dt = cal.events[0].start tz = dt.tzinfo tz_new_york = tzp.timezone("America/New_York") # for reasons (tm) the locally installed version of the timezone # database isn't always complete, therefore we only compare some # transition times ny_transition_times = [] ny_transition_info = [] for num, date in enumerate(tz_new_york._utc_transition_times): if ( datetime.datetime(1967, 4, 30, 7, 0) <= date <= datetime.datetime(2037, 11, 1, 6, 0) ): ny_transition_times.append(date) ny_transition_info.append(tz_new_york._transition_info[num]) assert tz._utc_transition_times[:142] == ny_transition_times assert tz._transition_info[0:142] == ny_transition_info assert ( datetime.timedelta(-1, 72000), datetime.timedelta(0, 3600), "EDT", ) in tz._tzinfos.keys() assert ( datetime.timedelta(-1, 68400), datetime.timedelta(0), "EST", ) in tz._tzinfos.keys() fiji_transition_times = [ datetime.datetime(1915, 10, 25, 12, 4), datetime.datetime(1998, 10, 31, 14, 0), datetime.datetime(1999, 2, 27, 14, 0), datetime.datetime(1999, 11, 6, 14, 0), datetime.datetime(2000, 2, 26, 14, 0), datetime.datetime(2009, 11, 28, 14, 0), datetime.datetime(2010, 3, 27, 14, 0), datetime.datetime(2010, 10, 23, 14, 0), datetime.datetime(2011, 3, 5, 14, 0), datetime.datetime(2011, 10, 22, 14, 0), datetime.datetime(2012, 1, 21, 14, 0), datetime.datetime(2012, 10, 20, 14, 0), datetime.datetime(2013, 1, 19, 14, 0), datetime.datetime(2013, 10, 26, 14, 0), datetime.datetime(2014, 1, 18, 13, 0), datetime.datetime(2014, 10, 25, 14, 0), datetime.datetime(2015, 1, 17, 13, 0), datetime.datetime(2015, 10, 24, 14, 0), datetime.datetime(2016, 1, 23, 13, 0), datetime.datetime(2016, 10, 22, 14, 0), datetime.datetime(2017, 1, 21, 13, 0), datetime.datetime(2017, 10, 21, 14, 0), datetime.datetime(2018, 1, 20, 13, 0), datetime.datetime(2018, 10, 20, 14, 0), datetime.datetime(2019, 1, 19, 13, 0), datetime.datetime(2019, 10, 26, 14, 0), datetime.datetime(2020, 1, 18, 13, 0), datetime.datetime(2020, 10, 24, 14, 0), datetime.datetime(2021, 1, 23, 13, 0), datetime.datetime(2021, 10, 23, 14, 0), datetime.datetime(2022, 1, 22, 13, 0), datetime.datetime(2022, 10, 22, 14, 0), datetime.datetime(2023, 1, 21, 13, 0), datetime.datetime(2023, 10, 21, 14, 0), datetime.datetime(2024, 1, 20, 13, 0), datetime.datetime(2024, 10, 26, 14, 0), datetime.datetime(2025, 1, 18, 13, 0), datetime.datetime(2025, 10, 25, 14, 0), datetime.datetime(2026, 1, 17, 13, 0), datetime.datetime(2026, 10, 24, 14, 0), datetime.datetime(2027, 1, 23, 13, 0), datetime.datetime(2027, 10, 23, 14, 0), datetime.datetime(2028, 1, 22, 13, 0), datetime.datetime(2028, 10, 21, 14, 0), datetime.datetime(2029, 1, 20, 13, 0), datetime.datetime(2029, 10, 20, 14, 0), datetime.datetime(2030, 1, 19, 13, 0), datetime.datetime(2030, 10, 26, 14, 0), datetime.datetime(2031, 1, 18, 13, 0), datetime.datetime(2031, 10, 25, 14, 0), datetime.datetime(2032, 1, 17, 13, 0), datetime.datetime(2032, 10, 23, 14, 0), datetime.datetime(2033, 1, 22, 13, 0), datetime.datetime(2033, 10, 22, 14, 0), datetime.datetime(2034, 1, 21, 13, 0), datetime.datetime(2034, 10, 21, 14, 0), datetime.datetime(2035, 1, 20, 13, 0), datetime.datetime(2035, 10, 20, 14, 0), datetime.datetime(2036, 1, 19, 13, 0), datetime.datetime(2036, 10, 25, 14, 0), datetime.datetime(2037, 1, 17, 13, 0), datetime.datetime(2037, 10, 24, 14, 0), datetime.datetime(2038, 1, 23, 13, 0), datetime.datetime(2038, 10, 23, 14, 0), ] fiji_transition_info = ( [ ( datetime.timedelta(0, 43200), datetime.timedelta(0), "custom_Pacific/Fiji_19151026T000000_+115544_+1200", ) ] + 3 * [ ( datetime.timedelta(0, 46800), datetime.timedelta(0, 3600), "custom_Pacific/Fiji_19981101T020000_+1200_+1300", ), ( datetime.timedelta(0, 43200), datetime.timedelta(0), "custom_Pacific/Fiji_19990228T030000_+1300_+1200", ), ] + 3 * [ ( datetime.timedelta(0, 46800), datetime.timedelta(0, 3600), "custom_Pacific/Fiji_20101024T020000_+1200_+1300", ), ( datetime.timedelta(0, 43200), datetime.timedelta(0), "custom_Pacific/Fiji_19990228T030000_+1300_+1200", ), ] + 25 * [ ( datetime.timedelta(0, 46800), datetime.timedelta(0, 3600), "custom_Pacific/Fiji_20101024T020000_+1200_+1300", ), ( datetime.timedelta(0, 43200), datetime.timedelta(0), "custom_Pacific/Fiji_20140119T020000_+1300_+1200", ), ] + [ ( datetime.timedelta(0, 46800), datetime.timedelta(0, 3600), "custom_Pacific/Fiji_20101024T020000_+1200_+1300", ) ] ) def test_create_pacific_fiji(calendars, pytz_only): """testing Pacific/Fiji, another pretty complex example with more than one RDATE property per subcomponent""" cal = calendars.pacific_fiji tz = cal.walk("VEVENT")[0]["DTSTART"][0].dt.tzinfo assert str(tz) == "custom_Pacific/Fiji" assert tz._utc_transition_times == fiji_transition_times assert tz._transition_info == fiji_transition_info assert ( datetime.timedelta(0, 46800), datetime.timedelta(0, 3600), "custom_Pacific/Fiji_19981101T020000_+1200_+1300", ) in tz._tzinfos.keys() assert ( datetime.timedelta(0, 43200), datetime.timedelta(0), "custom_Pacific/Fiji_19990228T030000_+1300_+1200", ) in tz._tzinfos.keys() # these are the expected offsets before and after the fiji_transition_times fiji_expected_offsets = [ (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), (datetime.timedelta(hours=13), datetime.timedelta(hours=13)), (datetime.timedelta(hours=12), datetime.timedelta(hours=12)), ] def test_transition_times_fiji(tzp, timezones): """The transition times are computed.""" tz = timezones.pacific_fiji.to_tz(tzp, lookup_tzid=False) offsets = [] # [(before, after), ...] for i, transition_time in enumerate(fiji_transition_times): before_after_offset = [] for offset in (datetime.timedelta(hours=-1), datetime.timedelta(hours=+1)): time_in_timezone = tzp.localize(transition_time + offset, tz) utc_offset = time_in_timezone.utcoffset() before_after_offset.append(utc_offset) offsets.append(tuple(before_after_offset)) assert offsets == fiji_expected_offsets def test_same_start_date(calendars): """testing if we can handle VTIMEZONEs whose different components have the same start DTIMEs.""" cal = calendars.timezone_same_start d = cal.subcomponents[1]["DTSTART"].dt assert d.strftime("%c") == "Fri Feb 24 12:00:00 2017" def test_same_start_date_and_offset(calendars): """testing if we can handle VTIMEZONEs whose different components have the same DTSTARTs, TZOFFSETFROM, and TZOFFSETTO.""" cal = calendars.timezone_same_start_and_offset d = cal.subcomponents[1]["DTSTART"].dt assert d.strftime("%c") == "Fri Feb 24 12:00:00 2017" def test_rdate(calendars): """testing if we can handle VTIMEZONEs who only have an RDATE, not RRULE""" cal = calendars.timezone_rdate vevent = cal.walk("VEVENT")[0] assert tzid_from_dt(vevent["DTSTART"].dt) in ("posix/Europe/Vaduz", "CET") def test_rdate_pytz(calendars, pytz_only): """testing if we can handle VTIMEZONEs who only have an RDATE, not RRULE""" cal = calendars.timezone_rdate vevent = cal.walk("VEVENT")[0] tz = vevent["DTSTART"].dt.tzinfo assert tz._utc_transition_times[:6] == [ datetime.datetime(1901, 12, 13, 20, 45, 38), datetime.datetime(1941, 5, 5, 0, 0, 0), datetime.datetime(1941, 10, 6, 0, 0, 0), datetime.datetime(1942, 5, 4, 0, 0, 0), datetime.datetime(1942, 10, 5, 0, 0, 0), datetime.datetime(1981, 3, 29, 1, 0), ] assert tz._transition_info[:6] == [ (datetime.timedelta(0, 3600), datetime.timedelta(0), "CET"), (datetime.timedelta(0, 7200), datetime.timedelta(0, 3600), "CEST"), (datetime.timedelta(0, 3600), datetime.timedelta(0), "CET"), (datetime.timedelta(0, 7200), datetime.timedelta(0, 3600), "CEST"), (datetime.timedelta(0, 3600), datetime.timedelta(0), "CET"), (datetime.timedelta(0, 7200), datetime.timedelta(0, 3600), "CEST"), ]