import datetime from decimal import Decimal from django.contrib.humanize.templatetags import humanize from django.template import Context, Template, defaultfilters from django.test import SimpleTestCase, modify_settings, override_settings from django.utils import translation from django.utils.html import escape from django.utils.timezone import get_fixed_timezone from django.utils.translation import gettext as _ # Mock out datetime in some tests so they don't fail occasionally when they # run too slow. Use a fixed datetime for datetime.now(). DST change in # America/Chicago (the default time zone) happened on March 11th in 2012. now = datetime.datetime(2012, 3, 9, 22, 30) class MockDateTime(datetime.datetime): @classmethod def now(cls, tz=None): if tz is None or tz.utcoffset(now) is None: return now else: # equals now.replace(tzinfo=utc) return now.replace(tzinfo=tz) + tz.utcoffset(now) @modify_settings(INSTALLED_APPS={"append": "django.contrib.humanize"}) class HumanizeTests(SimpleTestCase): def humanize_tester( self, test_list, result_list, method, normalize_result_func=escape ): for test_content, result in zip(test_list, result_list): with self.subTest(test_content): t = Template("{%% load humanize %%}{{ test_content|%s }}" % method) rendered = t.render(Context(locals())).strip() self.assertEqual( rendered, normalize_result_func(result), msg="%s test failed, produced '%s', should've produced '%s'" % (method, rendered, result), ) def test_ordinal(self): test_list = ( "1", "2", "3", "4", "11", "12", "13", "101", "102", "103", "111", "something else", None, ) result_list = ( "1st", "2nd", "3rd", "4th", "11th", "12th", "13th", "101st", "102nd", "103rd", "111th", "something else", None, ) with translation.override("en"): self.humanize_tester(test_list, result_list, "ordinal") def test_i18n_html_ordinal(self): """Allow html in output on i18n strings""" test_list = ( "1", "2", "3", "4", "11", "12", "13", "101", "102", "103", "111", "something else", None, ) result_list = ( "1er", "2e", "3e", "4e", "11e", "12e", "13e", "101er", "102e", "103e", "111e", "something else", "None", ) with translation.override("fr-fr"): self.humanize_tester(test_list, result_list, "ordinal", lambda x: x) def test_intcomma(self): test_list = ( 100, -100, 1000, -1000, 10123, -10123, 10311, -10311, 1000000, -1000000, 1234567.25, -1234567.25, "100", "-100", "100.1", "-100.1", "100.13", "-100.13", "1000", "-1000", "10123", "-10123", "10311", "-10311", "100000.13", "-100000.13", "1000000", "-1000000", "1234567.1234567", "-1234567.1234567", Decimal("1234567.1234567"), Decimal("-1234567.1234567"), None, "1234567", "-1234567", "1234567.12", "-1234567.12", "the quick brown fox jumped over the lazy dog", ) result_list = ( "100", "-100", "1,000", "-1,000", "10,123", "-10,123", "10,311", "-10,311", "1,000,000", "-1,000,000", "1,234,567.25", "-1,234,567.25", "100", "-100", "100.1", "-100.1", "100.13", "-100.13", "1,000", "-1,000", "10,123", "-10,123", "10,311", "-10,311", "100,000.13", "-100,000.13", "1,000,000", "-1,000,000", "1,234,567.1234567", "-1,234,567.1234567", "1,234,567.1234567", "-1,234,567.1234567", None, "1,234,567", "-1,234,567", "1,234,567.12", "-1,234,567.12", "the quick brown fox jumped over the lazy dog", ) with translation.override("en"): self.humanize_tester(test_list, result_list, "intcomma") def test_l10n_intcomma(self): test_list = ( 100, -100, 1000, -1000, 10123, -10123, 10311, -10311, 1000000, -1000000, 1234567.25, -1234567.25, "100", "-100", "1000", "-1000", "10123", "-10123", "10311", "-10311", "1000000", "-1000000", "1234567.1234567", "-1234567.1234567", Decimal("1234567.1234567"), -Decimal("1234567.1234567"), None, "1234567", "-1234567", "1234567.12", "-1234567.12", "the quick brown fox jumped over the lazy dog", ) result_list = ( "100", "-100", "1,000", "-1,000", "10,123", "-10,123", "10,311", "-10,311", "1,000,000", "-1,000,000", "1,234,567.25", "-1,234,567.25", "100", "-100", "1,000", "-1,000", "10,123", "-10,123", "10,311", "-10,311", "1,000,000", "-1,000,000", "1,234,567.1234567", "-1,234,567.1234567", "1,234,567.1234567", "-1,234,567.1234567", None, "1,234,567", "-1,234,567", "1,234,567.12", "-1,234,567.12", "the quick brown fox jumped over the lazy dog", ) with self.settings(USE_THOUSAND_SEPARATOR=False): with translation.override("en"): self.humanize_tester(test_list, result_list, "intcomma") def test_intcomma_without_number_grouping(self): # Regression for #17414 with translation.override("ja"): self.humanize_tester([100], ["100"], "intcomma") def test_intword(self): # Positive integers. test_list_positive = ( "100", "1000000", "1200000", "1290000", "1000000000", "2000000000", "6000000000000", "1300000000000000", "3500000000000000000000", "8100000000000000000000000000000000", ("1" + "0" * 100), ("1" + "0" * 104), ) result_list_positive = ( "100", "1.0 million", "1.2 million", "1.3 million", "1.0 billion", "2.0 billion", "6.0 trillion", "1.3 quadrillion", "3.5 sextillion", "8.1 decillion", "1.0 googol", ("1" + "0" * 104), ) # Negative integers. test_list_negative = ("-" + test for test in test_list_positive) result_list_negative = ("-" + result for result in result_list_positive) with translation.override("en"): self.humanize_tester( (*test_list_positive, *test_list_negative, None), (*result_list_positive, *result_list_negative, None), "intword", ) def test_i18n_intcomma(self): test_list = ( 100, 1000, 10123, 10311, 1000000, 1234567.25, "100", "1000", "10123", "10311", "1000000", None, ) result_list = ( "100", "1.000", "10.123", "10.311", "1.000.000", "1.234.567,25", "100", "1.000", "10.123", "10.311", "1.000.000", None, ) with self.settings(USE_THOUSAND_SEPARATOR=True): with translation.override("de"): self.humanize_tester(test_list, result_list, "intcomma") def test_i18n_intword(self): # Positive integers. test_list_positive = ( "100", "1000000", "1200000", "1290000", "1000000000", "2000000000", "6000000000000", ) result_list_positive = ( "100", "1,0 Million", "1,2 Millionen", "1,3 Millionen", "1,0 Milliarde", "2,0 Milliarden", "6,0 Billionen", ) # Negative integers. test_list_negative = ("-" + test for test in test_list_positive) result_list_negative = ("-" + result for result in result_list_positive) with self.settings(USE_THOUSAND_SEPARATOR=True): with translation.override("de"): self.humanize_tester( (*test_list_positive, *test_list_negative), (*result_list_positive, *result_list_negative), "intword", ) def test_apnumber(self): test_list = [str(x) for x in range(1, 11)] test_list.append(None) result_list = ( "one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "10", None, ) with translation.override("en"): self.humanize_tester(test_list, result_list, "apnumber") def test_naturalday(self): today = datetime.date.today() yesterday = today - datetime.timedelta(days=1) tomorrow = today + datetime.timedelta(days=1) someday = today - datetime.timedelta(days=10) notdate = "I'm not a date value" test_list = (today, yesterday, tomorrow, someday, notdate, None) someday_result = defaultfilters.date(someday) result_list = ( _("today"), _("yesterday"), _("tomorrow"), someday_result, "I'm not a date value", None, ) self.humanize_tester(test_list, result_list, "naturalday") def test_naturalday_tz(self): today = datetime.date.today() tz_one = get_fixed_timezone(-720) tz_two = get_fixed_timezone(720) # Can be today or yesterday date_one = datetime.datetime(today.year, today.month, today.day, tzinfo=tz_one) naturalday_one = humanize.naturalday(date_one) # Can be today or tomorrow date_two = datetime.datetime(today.year, today.month, today.day, tzinfo=tz_two) naturalday_two = humanize.naturalday(date_two) # As 24h of difference they will never be the same self.assertNotEqual(naturalday_one, naturalday_two) def test_naturalday_uses_localtime(self): # Regression for #18504 # This is 2012-03-08HT19:30:00-06:00 in America/Chicago dt = datetime.datetime(2012, 3, 9, 1, 30, tzinfo=datetime.timezone.utc) orig_humanize_datetime, humanize.datetime = humanize.datetime, MockDateTime try: with override_settings(TIME_ZONE="America/Chicago", USE_TZ=True): with translation.override("en"): self.humanize_tester([dt], ["yesterday"], "naturalday") finally: humanize.datetime = orig_humanize_datetime def test_naturaltime(self): class naive(datetime.tzinfo): def utcoffset(self, dt): return None test_list = [ "test", now, now - datetime.timedelta(microseconds=1), now - datetime.timedelta(seconds=1), now - datetime.timedelta(seconds=30), now - datetime.timedelta(minutes=1, seconds=30), now - datetime.timedelta(minutes=2), now - datetime.timedelta(hours=1, minutes=30, seconds=30), now - datetime.timedelta(hours=23, minutes=50, seconds=50), now - datetime.timedelta(days=1), now - datetime.timedelta(days=500), now + datetime.timedelta(seconds=1), now + datetime.timedelta(seconds=30), now + datetime.timedelta(minutes=1, seconds=30), now + datetime.timedelta(minutes=2), now + datetime.timedelta(hours=1, minutes=30, seconds=30), now + datetime.timedelta(hours=23, minutes=50, seconds=50), now + datetime.timedelta(days=1), now + datetime.timedelta(days=2, hours=6), now + datetime.timedelta(days=500), now.replace(tzinfo=naive()), now.replace(tzinfo=datetime.timezone.utc), ] result_list = [ "test", "now", "now", "a second ago", "30\xa0seconds ago", "a minute ago", "2\xa0minutes ago", "an hour ago", "23\xa0hours ago", "1\xa0day ago", "1\xa0year, 4\xa0months ago", "a second from now", "30\xa0seconds from now", "a minute from now", "2\xa0minutes from now", "an hour from now", "23\xa0hours from now", "1\xa0day from now", "2\xa0days, 6\xa0hours from now", "1\xa0year, 4\xa0months from now", "now", "now", ] # Because of the DST change, 2 days and 6 hours after the chosen # date in naive arithmetic is only 2 days and 5 hours after in # aware arithmetic. result_list_with_tz_support = result_list[:] assert result_list_with_tz_support[-4] == "2\xa0days, 6\xa0hours from now" result_list_with_tz_support[-4] == "2\xa0days, 5\xa0hours from now" orig_humanize_datetime, humanize.datetime = humanize.datetime, MockDateTime try: with translation.override("en"): self.humanize_tester(test_list, result_list, "naturaltime") with override_settings(USE_TZ=True): self.humanize_tester( test_list, result_list_with_tz_support, "naturaltime" ) finally: humanize.datetime = orig_humanize_datetime def test_naturaltime_as_documented(self): """ #23340 -- Verify the documented behavior of humanize.naturaltime. """ time_format = "%d %b %Y %H:%M:%S" documented_now = datetime.datetime.strptime("17 Feb 2007 16:30:00", time_format) test_data = ( ("17 Feb 2007 16:30:00", "now"), ("17 Feb 2007 16:29:31", "29 seconds ago"), ("17 Feb 2007 16:29:00", "a minute ago"), ("17 Feb 2007 16:25:35", "4 minutes ago"), ("17 Feb 2007 15:30:29", "59 minutes ago"), ("17 Feb 2007 15:30:01", "59 minutes ago"), ("17 Feb 2007 15:30:00", "an hour ago"), ("17 Feb 2007 13:31:29", "2 hours ago"), ("16 Feb 2007 13:31:29", "1 day, 2 hours ago"), ("16 Feb 2007 13:30:01", "1 day, 2 hours ago"), ("16 Feb 2007 13:30:00", "1 day, 3 hours ago"), ("17 Feb 2007 16:30:30", "30 seconds from now"), ("17 Feb 2007 16:30:29", "29 seconds from now"), ("17 Feb 2007 16:31:00", "a minute from now"), ("17 Feb 2007 16:34:35", "4 minutes from now"), ("17 Feb 2007 17:30:29", "an hour from now"), ("17 Feb 2007 18:31:29", "2 hours from now"), ("18 Feb 2007 16:31:29", "1 day from now"), ("26 Feb 2007 18:31:29", "1 week, 2 days from now"), ) class DocumentedMockDateTime(datetime.datetime): @classmethod def now(cls, tz=None): if tz is None or tz.utcoffset(documented_now) is None: return documented_now else: return documented_now.replace(tzinfo=tz) + tz.utcoffset(now) orig_humanize_datetime = humanize.datetime humanize.datetime = DocumentedMockDateTime try: for test_time_string, expected_natural_time in test_data: with self.subTest(test_time_string): test_time = datetime.datetime.strptime( test_time_string, time_format ) natural_time = humanize.naturaltime(test_time).replace("\xa0", " ") self.assertEqual(expected_natural_time, natural_time) finally: humanize.datetime = orig_humanize_datetime def test_inflection_for_timedelta(self): """ Translation of '%d day'/'%d month'/… may differ depending on the context of the string it is inserted in. """ test_list = [ # "%(delta)s ago" translations now - datetime.timedelta(days=1), now - datetime.timedelta(days=2), now - datetime.timedelta(days=30), now - datetime.timedelta(days=60), now - datetime.timedelta(days=500), now - datetime.timedelta(days=865), # "%(delta)s from now" translations now + datetime.timedelta(days=1), now + datetime.timedelta(days=2), now + datetime.timedelta(days=31), now + datetime.timedelta(days=61), now + datetime.timedelta(days=500), now + datetime.timedelta(days=865), ] result_list = [ "před 1\xa0dnem", "před 2\xa0dny", "před 1\xa0měsícem", "před 2\xa0měsíci", "před 1\xa0rokem, 4\xa0měsíci", "před 2\xa0lety, 4\xa0měsíci", "za 1\xa0den", "za 2\xa0dny", "za 1\xa0měsíc", "za 2\xa0měsíce", "za 1\xa0rok, 4\xa0měsíce", "za 2\xa0roky, 4\xa0měsíce", ] orig_humanize_datetime, humanize.datetime = humanize.datetime, MockDateTime try: # Choose a language with different # naturaltime-past/naturaltime-future translations. with translation.override("cs"): self.humanize_tester(test_list, result_list, "naturaltime") finally: humanize.datetime = orig_humanize_datetime