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import calendar
import os
import time
from datetime import datetime
import pytest
from dateutil import tz
import arrow
from arrow import formatter, parser
from arrow.constants import MAX_TIMESTAMP_US
from arrow.parser import DateTimeParser, ParserError, ParserMatchError
from .utils import make_full_tz_list
@pytest.mark.usefixtures("dt_parser")
class TestDateTimeParser:
def test_parse_multiformat(self, mocker):
mocker.patch(
"arrow.parser.DateTimeParser.parse",
string="str",
fmt="fmt_a",
side_effect=parser.ParserError,
)
with pytest.raises(parser.ParserError):
self.parser._parse_multiformat("str", ["fmt_a"])
mock_datetime = mocker.Mock()
mocker.patch(
"arrow.parser.DateTimeParser.parse",
string="str",
fmt="fmt_b",
return_value=mock_datetime,
)
result = self.parser._parse_multiformat("str", ["fmt_a", "fmt_b"])
assert result == mock_datetime
def test_parse_multiformat_all_fail(self, mocker):
mocker.patch(
"arrow.parser.DateTimeParser.parse",
string="str",
fmt="fmt_a",
side_effect=parser.ParserError,
)
mocker.patch(
"arrow.parser.DateTimeParser.parse",
string="str",
fmt="fmt_b",
side_effect=parser.ParserError,
)
with pytest.raises(parser.ParserError):
self.parser._parse_multiformat("str", ["fmt_a", "fmt_b"])
def test_parse_multiformat_unself_expected_fail(self, mocker):
class UnselfExpectedError(Exception):
pass
mocker.patch(
"arrow.parser.DateTimeParser.parse",
string="str",
fmt="fmt_a",
side_effect=UnselfExpectedError,
)
with pytest.raises(UnselfExpectedError):
self.parser._parse_multiformat("str", ["fmt_a", "fmt_b"])
def test_parse_token_nonsense(self):
parts = {}
self.parser._parse_token("NONSENSE", "1900", parts)
assert parts == {}
def test_parse_token_invalid_meridians(self):
parts = {}
self.parser._parse_token("A", "a..m", parts)
assert parts == {}
self.parser._parse_token("a", "p..m", parts)
assert parts == {}
def test_parser_no_caching(self, mocker):
mocked_parser = mocker.patch(
"arrow.parser.DateTimeParser._generate_pattern_re", fmt="fmt_a"
)
self.parser = parser.DateTimeParser(cache_size=0)
for _ in range(100):
self.parser._generate_pattern_re("fmt_a")
assert mocked_parser.call_count == 100
def test_parser_1_line_caching(self, mocker):
mocked_parser = mocker.patch("arrow.parser.DateTimeParser._generate_pattern_re")
self.parser = parser.DateTimeParser(cache_size=1)
for _ in range(100):
self.parser._generate_pattern_re(fmt="fmt_a")
assert mocked_parser.call_count == 1
assert mocked_parser.call_args_list[0] == mocker.call(fmt="fmt_a")
for _ in range(100):
self.parser._generate_pattern_re(fmt="fmt_b")
assert mocked_parser.call_count == 2
assert mocked_parser.call_args_list[1] == mocker.call(fmt="fmt_b")
for _ in range(100):
self.parser._generate_pattern_re(fmt="fmt_a")
assert mocked_parser.call_count == 3
assert mocked_parser.call_args_list[2] == mocker.call(fmt="fmt_a")
def test_parser_multiple_line_caching(self, mocker):
mocked_parser = mocker.patch("arrow.parser.DateTimeParser._generate_pattern_re")
self.parser = parser.DateTimeParser(cache_size=2)
for _ in range(100):
self.parser._generate_pattern_re(fmt="fmt_a")
assert mocked_parser.call_count == 1
assert mocked_parser.call_args_list[0] == mocker.call(fmt="fmt_a")
for _ in range(100):
self.parser._generate_pattern_re(fmt="fmt_b")
assert mocked_parser.call_count == 2
assert mocked_parser.call_args_list[1] == mocker.call(fmt="fmt_b")
# fmt_a and fmt_b are in the cache, so no new calls should be made
for _ in range(100):
self.parser._generate_pattern_re(fmt="fmt_a")
for _ in range(100):
self.parser._generate_pattern_re(fmt="fmt_b")
assert mocked_parser.call_count == 2
assert mocked_parser.call_args_list[0] == mocker.call(fmt="fmt_a")
assert mocked_parser.call_args_list[1] == mocker.call(fmt="fmt_b")
def test_YY_and_YYYY_format_list(self):
assert self.parser.parse("15/01/19", ["DD/MM/YY", "DD/MM/YYYY"]) == datetime(
2019, 1, 15
)
# Regression test for issue #580
assert self.parser.parse("15/01/2019", ["DD/MM/YY", "DD/MM/YYYY"]) == datetime(
2019, 1, 15
)
assert self.parser.parse(
"15/01/2019T04:05:06.789120Z",
["D/M/YYThh:mm:ss.SZ", "D/M/YYYYThh:mm:ss.SZ"],
) == datetime(2019, 1, 15, 4, 5, 6, 789120, tzinfo=tz.tzutc())
# regression test for issue #447
def test_timestamp_format_list(self):
# should not match on the "X" token
assert self.parser.parse(
"15 Jul 2000",
["MM/DD/YYYY", "YYYY-MM-DD", "X", "DD-MMMM-YYYY", "D MMM YYYY"],
) == datetime(2000, 7, 15)
with pytest.raises(ParserError):
self.parser.parse("15 Jul", "X")
@pytest.mark.usefixtures("dt_parser")
class TestDateTimeParserParse:
def test_parse_list(self, mocker):
mocker.patch(
"arrow.parser.DateTimeParser._parse_multiformat",
string="str",
formats=["fmt_a", "fmt_b"],
return_value="result",
)
result = self.parser.parse("str", ["fmt_a", "fmt_b"])
assert result == "result"
def test_parse_unrecognized_token(self, mocker):
mocker.patch.dict("arrow.parser.DateTimeParser._BASE_INPUT_RE_MAP")
del arrow.parser.DateTimeParser._BASE_INPUT_RE_MAP["YYYY"]
# need to make another local parser to apply patch changes
_parser = parser.DateTimeParser()
with pytest.raises(parser.ParserError):
_parser.parse("2013-01-01", "YYYY-MM-DD")
def test_parse_parse_no_match(self):
with pytest.raises(ParserError):
self.parser.parse("01-01", "YYYY-MM-DD")
def test_parse_separators(self):
with pytest.raises(ParserError):
self.parser.parse("1403549231", "YYYY-MM-DD")
def test_parse_numbers(self):
self.expected = datetime(2012, 1, 1, 12, 5, 10)
assert (
self.parser.parse("2012-01-01 12:05:10", "YYYY-MM-DD HH:mm:ss")
== self.expected
)
def test_parse_am(self):
with pytest.raises(ParserMatchError):
self.parser.parse("2021-01-30 14:00:00 AM", "YYYY-MM-DD HH:mm:ss A")
def test_parse_year_two_digit(self):
self.expected = datetime(1979, 1, 1, 12, 5, 10)
assert (
self.parser.parse("79-01-01 12:05:10", "YY-MM-DD HH:mm:ss") == self.expected
)
def test_parse_timestamp(self):
tz_utc = tz.tzutc()
float_timestamp = time.time()
int_timestamp = int(float_timestamp)
self.expected = datetime.fromtimestamp(int_timestamp, tz=tz_utc)
assert self.parser.parse(f"{int_timestamp:d}", "X") == self.expected
self.expected = datetime.fromtimestamp(float_timestamp, tz=tz_utc)
assert self.parser.parse(f"{float_timestamp:f}", "X") == self.expected
# test handling of ns timestamp (arrow will round to 6 digits regardless)
self.expected = datetime.fromtimestamp(float_timestamp, tz=tz_utc)
assert self.parser.parse(f"{float_timestamp:f}123", "X") == self.expected
# test ps timestamp (arrow will round to 6 digits regardless)
self.expected = datetime.fromtimestamp(float_timestamp, tz=tz_utc)
assert self.parser.parse(f"{float_timestamp:f}123456", "X") == self.expected
# NOTE: timestamps cannot be parsed from natural language strings (by removing the ^...$) because it will
# break cases like "15 Jul 2000" and a format list (see issue #447)
with pytest.raises(ParserError):
natural_lang_string = "Meet me at {} at the restaurant.".format(
float_timestamp
)
self.parser.parse(natural_lang_string, "X")
with pytest.raises(ParserError):
self.parser.parse("1565982019.", "X")
with pytest.raises(ParserError):
self.parser.parse(".1565982019", "X")
# NOTE: negative timestamps cannot be handled by datetime on Windows
# Must use timedelta to handle them: https://stackoverflow.com/questions/36179914
@pytest.mark.skipif(
os.name == "nt", reason="negative timestamps are not supported on Windows"
)
def test_parse_negative_timestamp(self):
# regression test for issue #662
tz_utc = tz.tzutc()
float_timestamp = time.time()
int_timestamp = int(float_timestamp)
negative_int_timestamp = -int_timestamp
self.expected = datetime.fromtimestamp(negative_int_timestamp, tz=tz_utc)
assert self.parser.parse(f"{negative_int_timestamp:d}", "X") == self.expected
negative_float_timestamp = -float_timestamp
self.expected = datetime.fromtimestamp(negative_float_timestamp, tz=tz_utc)
assert self.parser.parse(f"{negative_float_timestamp:f}", "X") == self.expected
def test_parse_expanded_timestamp(self):
# test expanded timestamps that include milliseconds
# and microseconds as multiples rather than decimals
# requested in issue #357
tz_utc = tz.tzutc()
timestamp = 1569982581.413132
timestamp_milli = round(timestamp * 1000)
timestamp_micro = round(timestamp * 1_000_000)
# "x" token should parse integer timestamps below MAX_TIMESTAMP normally
self.expected = datetime.fromtimestamp(int(timestamp), tz=tz_utc)
assert self.parser.parse(f"{int(timestamp):d}", "x") == self.expected
self.expected = datetime.fromtimestamp(round(timestamp, 3), tz=tz_utc)
assert self.parser.parse(f"{timestamp_milli:d}", "x") == self.expected
self.expected = datetime.fromtimestamp(timestamp, tz=tz_utc)
assert self.parser.parse(f"{timestamp_micro:d}", "x") == self.expected
# anything above max µs timestamp should fail
with pytest.raises(ValueError):
self.parser.parse(f"{int(MAX_TIMESTAMP_US) + 1:d}", "x")
# floats are not allowed with the "x" token
with pytest.raises(ParserMatchError):
self.parser.parse(f"{timestamp:f}", "x")
def test_parse_names(self):
self.expected = datetime(2012, 1, 1)
assert self.parser.parse("January 1, 2012", "MMMM D, YYYY") == self.expected
assert self.parser.parse("Jan 1, 2012", "MMM D, YYYY") == self.expected
def test_parse_pm(self):
self.expected = datetime(1, 1, 1, 13, 0, 0)
assert self.parser.parse("1 pm", "H a") == self.expected
assert self.parser.parse("1 pm", "h a") == self.expected
self.expected = datetime(1, 1, 1, 1, 0, 0)
assert self.parser.parse("1 am", "H A") == self.expected
assert self.parser.parse("1 am", "h A") == self.expected
self.expected = datetime(1, 1, 1, 0, 0, 0)
assert self.parser.parse("12 am", "H A") == self.expected
assert self.parser.parse("12 am", "h A") == self.expected
self.expected = datetime(1, 1, 1, 12, 0, 0)
assert self.parser.parse("12 pm", "H A") == self.expected
assert self.parser.parse("12 pm", "h A") == self.expected
def test_parse_tz_hours_only(self):
self.expected = datetime(2025, 10, 17, 5, 30, 10, tzinfo=tz.tzoffset(None, 0))
parsed = self.parser.parse("2025-10-17 05:30:10+00", "YYYY-MM-DD HH:mm:ssZ")
assert parsed == self.expected
def test_parse_tz_zz(self):
self.expected = datetime(2013, 1, 1, tzinfo=tz.tzoffset(None, -7 * 3600))
assert self.parser.parse("2013-01-01 -07:00", "YYYY-MM-DD ZZ") == self.expected
@pytest.mark.parametrize("full_tz_name", make_full_tz_list())
def test_parse_tz_name_zzz(self, full_tz_name):
self.expected = datetime(2013, 1, 1, tzinfo=tz.gettz(full_tz_name))
assert (
self.parser.parse(f"2013-01-01 {full_tz_name}", "YYYY-MM-DD ZZZ")
== self.expected
)
# note that offsets are not timezones
with pytest.raises(ParserError):
self.parser.parse("2013-01-01 12:30:45.9+1000", "YYYY-MM-DDZZZ")
with pytest.raises(ParserError):
self.parser.parse("2013-01-01 12:30:45.9+10:00", "YYYY-MM-DDZZZ")
with pytest.raises(ParserError):
self.parser.parse("2013-01-01 12:30:45.9-10", "YYYY-MM-DDZZZ")
def test_parse_subsecond(self):
self.expected = datetime(2013, 1, 1, 12, 30, 45, 900000)
assert (
self.parser.parse("2013-01-01 12:30:45.9", "YYYY-MM-DD HH:mm:ss.S")
== self.expected
)
self.expected = datetime(2013, 1, 1, 12, 30, 45, 980000)
assert (
self.parser.parse("2013-01-01 12:30:45.98", "YYYY-MM-DD HH:mm:ss.SS")
== self.expected
)
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987000)
assert (
self.parser.parse("2013-01-01 12:30:45.987", "YYYY-MM-DD HH:mm:ss.SSS")
== self.expected
)
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987600)
assert (
self.parser.parse("2013-01-01 12:30:45.9876", "YYYY-MM-DD HH:mm:ss.SSSS")
== self.expected
)
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987650)
assert (
self.parser.parse("2013-01-01 12:30:45.98765", "YYYY-MM-DD HH:mm:ss.SSSSS")
== self.expected
)
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987654)
assert (
self.parser.parse(
"2013-01-01 12:30:45.987654", "YYYY-MM-DD HH:mm:ss.SSSSSS"
)
== self.expected
)
def test_parse_subsecond_rounding(self):
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987654)
datetime_format = "YYYY-MM-DD HH:mm:ss.S"
# round up
string = "2013-01-01 12:30:45.9876539"
assert self.parser.parse(string, datetime_format) == self.expected
assert self.parser.parse_iso(string) == self.expected
# round down
string = "2013-01-01 12:30:45.98765432"
assert self.parser.parse(string, datetime_format) == self.expected
assert self.parser.parse_iso(string) == self.expected
# round half-up
string = "2013-01-01 12:30:45.987653521"
assert self.parser.parse(string, datetime_format) == self.expected
assert self.parser.parse_iso(string) == self.expected
# round half-down
string = "2013-01-01 12:30:45.9876545210"
assert self.parser.parse(string, datetime_format) == self.expected
assert self.parser.parse_iso(string) == self.expected
# overflow (zero out the subseconds and increment the seconds)
# regression tests for issue #636
def test_parse_subsecond_rounding_overflow(self):
datetime_format = "YYYY-MM-DD HH:mm:ss.S"
self.expected = datetime(2013, 1, 1, 12, 30, 46)
string = "2013-01-01 12:30:45.9999995"
assert self.parser.parse(string, datetime_format) == self.expected
assert self.parser.parse_iso(string) == self.expected
self.expected = datetime(2013, 1, 1, 12, 31, 0)
string = "2013-01-01 12:30:59.9999999"
assert self.parser.parse(string, datetime_format) == self.expected
assert self.parser.parse_iso(string) == self.expected
self.expected = datetime(2013, 1, 2, 0, 0, 0)
string = "2013-01-01 23:59:59.9999999"
assert self.parser.parse(string, datetime_format) == self.expected
assert self.parser.parse_iso(string) == self.expected
# 6 digits should remain unrounded
self.expected = datetime(2013, 1, 1, 12, 30, 45, 999999)
string = "2013-01-01 12:30:45.999999"
assert self.parser.parse(string, datetime_format) == self.expected
assert self.parser.parse_iso(string) == self.expected
# Regression tests for issue #560
def test_parse_long_year(self):
with pytest.raises(ParserError):
self.parser.parse("09 January 123456789101112", "DD MMMM YYYY")
with pytest.raises(ParserError):
self.parser.parse("123456789101112 09 January", "YYYY DD MMMM")
with pytest.raises(ParserError):
self.parser.parse("68096653015/01/19", "YY/M/DD")
def test_parse_with_extra_words_at_start_and_end_invalid(self):
input_format_pairs = [
("blah2016", "YYYY"),
("blah2016blah", "YYYY"),
("2016blah", "YYYY"),
("2016-05blah", "YYYY-MM"),
("2016-05-16blah", "YYYY-MM-DD"),
("2016-05-16T04:05:06.789120blah", "YYYY-MM-DDThh:mm:ss.S"),
("2016-05-16T04:05:06.789120ZblahZ", "YYYY-MM-DDThh:mm:ss.SZ"),
("2016-05-16T04:05:06.789120Zblah", "YYYY-MM-DDThh:mm:ss.SZ"),
("2016-05-16T04:05:06.789120blahZ", "YYYY-MM-DDThh:mm:ss.SZ"),
]
for pair in input_format_pairs:
with pytest.raises(ParserError):
self.parser.parse(pair[0], pair[1])
def test_parse_with_extra_words_at_start_and_end_valid(self):
# Spaces surrounding the parsable date are ok because we
# allow the parsing of natural language input. Additionally, a single
# character of specific punctuation before or after the date is okay.
# See docs for full list of valid punctuation.
assert self.parser.parse("blah 2016 blah", "YYYY") == datetime(2016, 1, 1)
assert self.parser.parse("blah 2016", "YYYY") == datetime(2016, 1, 1)
assert self.parser.parse("2016 blah", "YYYY") == datetime(2016, 1, 1)
# test one additional space along with space divider
assert self.parser.parse(
"blah 2016-05-16 04:05:06.789120", "YYYY-MM-DD hh:mm:ss.S"
) == datetime(2016, 5, 16, 4, 5, 6, 789120)
assert self.parser.parse(
"2016-05-16 04:05:06.789120 blah", "YYYY-MM-DD hh:mm:ss.S"
) == datetime(2016, 5, 16, 4, 5, 6, 789120)
# test one additional space along with T divider
assert self.parser.parse(
"blah 2016-05-16T04:05:06.789120", "YYYY-MM-DDThh:mm:ss.S"
) == datetime(2016, 5, 16, 4, 5, 6, 789120)
assert self.parser.parse(
"2016-05-16T04:05:06.789120 blah", "YYYY-MM-DDThh:mm:ss.S"
) == datetime(2016, 5, 16, 4, 5, 6, 789120)
assert self.parser.parse(
"Meet me at 2016-05-16T04:05:06.789120 at the restaurant.",
"YYYY-MM-DDThh:mm:ss.S",
) == datetime(2016, 5, 16, 4, 5, 6, 789120)
assert self.parser.parse(
"Meet me at 2016-05-16 04:05:06.789120 at the restaurant.",
"YYYY-MM-DD hh:mm:ss.S",
) == datetime(2016, 5, 16, 4, 5, 6, 789120)
# regression test for issue #701
# tests cases of a partial match surrounded by punctuation
# for the list of valid punctuation, see documentation
def test_parse_with_punctuation_fences(self):
assert self.parser.parse(
"Meet me at my house on Halloween (2019-31-10)", "YYYY-DD-MM"
) == datetime(2019, 10, 31)
assert self.parser.parse(
"Monday, 9. September 2019, 16:15-20:00", "dddd, D. MMMM YYYY"
) == datetime(2019, 9, 9)
assert self.parser.parse("A date is 11.11.2011.", "DD.MM.YYYY") == datetime(
2011, 11, 11
)
with pytest.raises(ParserMatchError):
self.parser.parse("11.11.2011.1 is not a valid date.", "DD.MM.YYYY")
with pytest.raises(ParserMatchError):
self.parser.parse(
"This date has too many punctuation marks following it (11.11.2011).",
"DD.MM.YYYY",
)
def test_parse_with_leading_and_trailing_whitespace(self):
assert self.parser.parse(" 2016", "YYYY") == datetime(2016, 1, 1)
assert self.parser.parse("2016 ", "YYYY") == datetime(2016, 1, 1)
assert self.parser.parse(" 2016 ", "YYYY") == datetime(2016, 1, 1)
assert self.parser.parse(
" 2016-05-16 04:05:06.789120 ", "YYYY-MM-DD hh:mm:ss.S"
) == datetime(2016, 5, 16, 4, 5, 6, 789120)
assert self.parser.parse(
" 2016-05-16T04:05:06.789120 ", "YYYY-MM-DDThh:mm:ss.S"
) == datetime(2016, 5, 16, 4, 5, 6, 789120)
def test_parse_YYYY_DDDD(self):
assert self.parser.parse("1998-136", "YYYY-DDDD") == datetime(1998, 5, 16)
assert self.parser.parse("1998-006", "YYYY-DDDD") == datetime(1998, 1, 6)
with pytest.raises(ParserError):
self.parser.parse("1998-456", "YYYY-DDDD")
def test_parse_YYYY_DDD(self):
assert self.parser.parse("1998-6", "YYYY-DDD") == datetime(1998, 1, 6)
assert self.parser.parse("1998-136", "YYYY-DDD") == datetime(1998, 5, 16)
with pytest.raises(ParserError):
self.parser.parse("1998-756", "YYYY-DDD")
# month cannot be passed with DDD and DDDD tokens
def test_parse_YYYY_MM_DDDD(self):
with pytest.raises(ParserError):
self.parser.parse("2015-01-009", "YYYY-MM-DDDD")
# year is required with the DDD and DDDD tokens
def test_parse_DDD_only(self):
with pytest.raises(ParserError):
self.parser.parse("5", "DDD")
def test_parse_DDDD_only(self):
with pytest.raises(ParserError):
self.parser.parse("145", "DDDD")
def test_parse_ddd_and_dddd(self):
fr_parser = parser.DateTimeParser("fr")
# Day of week should be ignored when a day is passed
# 2019-10-17 is a Thursday, so we know day of week
# is ignored if the same date is outputted
expected = datetime(2019, 10, 17)
assert self.parser.parse("Tue 2019-10-17", "ddd YYYY-MM-DD") == expected
assert fr_parser.parse("mar 2019-10-17", "ddd YYYY-MM-DD") == expected
assert self.parser.parse("Tuesday 2019-10-17", "dddd YYYY-MM-DD") == expected
assert fr_parser.parse("mardi 2019-10-17", "dddd YYYY-MM-DD") == expected
# Get first Tuesday after epoch
expected = datetime(1970, 1, 6)
assert self.parser.parse("Tue", "ddd") == expected
assert fr_parser.parse("mar", "ddd") == expected
assert self.parser.parse("Tuesday", "dddd") == expected
assert fr_parser.parse("mardi", "dddd") == expected
# Get first Tuesday in 2020
expected = datetime(2020, 1, 7)
assert self.parser.parse("Tue 2020", "ddd YYYY") == expected
assert fr_parser.parse("mar 2020", "ddd YYYY") == expected
assert self.parser.parse("Tuesday 2020", "dddd YYYY") == expected
assert fr_parser.parse("mardi 2020", "dddd YYYY") == expected
# Get first Tuesday in February 2020
expected = datetime(2020, 2, 4)
assert self.parser.parse("Tue 02 2020", "ddd MM YYYY") == expected
assert fr_parser.parse("mar 02 2020", "ddd MM YYYY") == expected
assert self.parser.parse("Tuesday 02 2020", "dddd MM YYYY") == expected
assert fr_parser.parse("mardi 02 2020", "dddd MM YYYY") == expected
# Get first Tuesday in February after epoch
expected = datetime(1970, 2, 3)
assert self.parser.parse("Tue 02", "ddd MM") == expected
assert fr_parser.parse("mar 02", "ddd MM") == expected
assert self.parser.parse("Tuesday 02", "dddd MM") == expected
assert fr_parser.parse("mardi 02", "dddd MM") == expected
# Times remain intact
expected = datetime(2020, 2, 4, 10, 25, 54, 123456, tz.tzoffset(None, -3600))
assert (
self.parser.parse(
"Tue 02 2020 10:25:54.123456-01:00", "ddd MM YYYY HH:mm:ss.SZZ"
)
== expected
)
assert (
fr_parser.parse(
"mar 02 2020 10:25:54.123456-01:00", "ddd MM YYYY HH:mm:ss.SZZ"
)
== expected
)
assert (
self.parser.parse(
"Tuesday 02 2020 10:25:54.123456-01:00", "dddd MM YYYY HH:mm:ss.SZZ"
)
== expected
)
assert (
fr_parser.parse(
"mardi 02 2020 10:25:54.123456-01:00", "dddd MM YYYY HH:mm:ss.SZZ"
)
== expected
)
def test_parse_ddd_and_dddd_ignore_case(self):
# Regression test for issue #851
expected = datetime(2019, 6, 24)
assert (
self.parser.parse("MONDAY, June 24, 2019", "dddd, MMMM DD, YYYY")
== expected
)
def test_parse_ddd_and_dddd_then_format(self):
# Regression test for issue #446
arw_formatter = formatter.DateTimeFormatter()
assert arw_formatter.format(self.parser.parse("Mon", "ddd"), "ddd") == "Mon"
assert (
arw_formatter.format(self.parser.parse("Monday", "dddd"), "dddd")
== "Monday"
)
assert arw_formatter.format(self.parser.parse("Tue", "ddd"), "ddd") == "Tue"
assert (
arw_formatter.format(self.parser.parse("Tuesday", "dddd"), "dddd")
== "Tuesday"
)
assert arw_formatter.format(self.parser.parse("Wed", "ddd"), "ddd") == "Wed"
assert (
arw_formatter.format(self.parser.parse("Wednesday", "dddd"), "dddd")
== "Wednesday"
)
assert arw_formatter.format(self.parser.parse("Thu", "ddd"), "ddd") == "Thu"
assert (
arw_formatter.format(self.parser.parse("Thursday", "dddd"), "dddd")
== "Thursday"
)
assert arw_formatter.format(self.parser.parse("Fri", "ddd"), "ddd") == "Fri"
assert (
arw_formatter.format(self.parser.parse("Friday", "dddd"), "dddd")
== "Friday"
)
assert arw_formatter.format(self.parser.parse("Sat", "ddd"), "ddd") == "Sat"
assert (
arw_formatter.format(self.parser.parse("Saturday", "dddd"), "dddd")
== "Saturday"
)
assert arw_formatter.format(self.parser.parse("Sun", "ddd"), "ddd") == "Sun"
assert (
arw_formatter.format(self.parser.parse("Sunday", "dddd"), "dddd")
== "Sunday"
)
def test_parse_HH_24(self):
assert self.parser.parse(
"2019-10-30T24:00:00", "YYYY-MM-DDTHH:mm:ss"
) == datetime(2019, 10, 31, 0, 0, 0, 0)
assert self.parser.parse("2019-10-30T24:00", "YYYY-MM-DDTHH:mm") == datetime(
2019, 10, 31, 0, 0, 0, 0
)
assert self.parser.parse("2019-10-30T24", "YYYY-MM-DDTHH") == datetime(
2019, 10, 31, 0, 0, 0, 0
)
assert self.parser.parse(
"2019-10-30T24:00:00.0", "YYYY-MM-DDTHH:mm:ss.S"
) == datetime(2019, 10, 31, 0, 0, 0, 0)
assert self.parser.parse(
"2019-10-31T24:00:00", "YYYY-MM-DDTHH:mm:ss"
) == datetime(2019, 11, 1, 0, 0, 0, 0)
assert self.parser.parse(
"2019-12-31T24:00:00", "YYYY-MM-DDTHH:mm:ss"
) == datetime(2020, 1, 1, 0, 0, 0, 0)
assert self.parser.parse(
"2019-12-31T23:59:59.9999999", "YYYY-MM-DDTHH:mm:ss.S"
) == datetime(2020, 1, 1, 0, 0, 0, 0)
with pytest.raises(ParserError):
self.parser.parse("2019-12-31T24:01:00", "YYYY-MM-DDTHH:mm:ss")
with pytest.raises(ParserError):
self.parser.parse("2019-12-31T24:00:01", "YYYY-MM-DDTHH:mm:ss")
with pytest.raises(ParserError):
self.parser.parse("2019-12-31T24:00:00.1", "YYYY-MM-DDTHH:mm:ss.S")
with pytest.raises(ParserError):
self.parser.parse("2019-12-31T24:00:00.999999", "YYYY-MM-DDTHH:mm:ss.S")
def test_parse_W(self):
assert self.parser.parse("2011-W05-4", "W") == datetime(2011, 2, 3)
assert self.parser.parse("2011W054", "W") == datetime(2011, 2, 3)
assert self.parser.parse("2011-W05", "W") == datetime(2011, 1, 31)
assert self.parser.parse("2011W05", "W") == datetime(2011, 1, 31)
assert self.parser.parse("2011-W05-4T14:17:01", "WTHH:mm:ss") == datetime(
2011, 2, 3, 14, 17, 1
)
assert self.parser.parse("2011W054T14:17:01", "WTHH:mm:ss") == datetime(
2011, 2, 3, 14, 17, 1
)
assert self.parser.parse("2011-W05T14:17:01", "WTHH:mm:ss") == datetime(
2011, 1, 31, 14, 17, 1
)
assert self.parser.parse("2011W05T141701", "WTHHmmss") == datetime(
2011, 1, 31, 14, 17, 1
)
assert self.parser.parse("2011W054T141701", "WTHHmmss") == datetime(
2011, 2, 3, 14, 17, 1
)
bad_formats = [
"201W22",
"1995-W1-4",
"2001-W34-90",
"2001--W34",
"2011-W03--3",
"thstrdjtrsrd676776r65",
"2002-W66-1T14:17:01",
"2002-W23-03T14:17:01",
]
for fmt in bad_formats:
with pytest.raises(ParserError):
self.parser.parse(fmt, "W")
def test_parse_normalize_whitespace(self):
assert self.parser.parse(
"Jun 1 2005 1:33PM", "MMM D YYYY H:mmA", normalize_whitespace=True
) == datetime(2005, 6, 1, 13, 33)
with pytest.raises(ParserError):
self.parser.parse("Jun 1 2005 1:33PM", "MMM D YYYY H:mmA")
assert self.parser.parse(
"\t 2013-05-05 T \n 12:30:45\t123456 \t \n",
"YYYY-MM-DD T HH:mm:ss S",
normalize_whitespace=True,
) == datetime(2013, 5, 5, 12, 30, 45, 123456)
with pytest.raises(ParserError):
self.parser.parse(
"\t 2013-05-05 T \n 12:30:45\t123456 \t \n",
"YYYY-MM-DD T HH:mm:ss S",
)
assert self.parser.parse(
" \n Jun 1\t 2005\n ", "MMM D YYYY", normalize_whitespace=True
) == datetime(2005, 6, 1)
with pytest.raises(ParserError):
self.parser.parse(" \n Jun 1\t 2005\n ", "MMM D YYYY")
@pytest.mark.usefixtures("dt_parser_regex")
class TestDateTimeParserRegex:
def test_format_year(self):
assert self.format_regex.findall("YYYY-YY") == ["YYYY", "YY"]
def test_format_month(self):
assert self.format_regex.findall("MMMM-MMM-MM-M") == ["MMMM", "MMM", "MM", "M"]
def test_format_day(self):
assert self.format_regex.findall("DDDD-DDD-DD-D") == ["DDDD", "DDD", "DD", "D"]
def test_format_hour(self):
assert self.format_regex.findall("HH-H-hh-h") == ["HH", "H", "hh", "h"]
def test_format_minute(self):
assert self.format_regex.findall("mm-m") == ["mm", "m"]
def test_format_second(self):
assert self.format_regex.findall("ss-s") == ["ss", "s"]
def test_format_subsecond(self):
assert self.format_regex.findall("SSSSSS-SSSSS-SSSS-SSS-SS-S") == [
"SSSSSS",
"SSSSS",
"SSSS",
"SSS",
"SS",
"S",
]
def test_format_tz(self):
assert self.format_regex.findall("ZZZ-ZZ-Z") == ["ZZZ", "ZZ", "Z"]
def test_format_am_pm(self):
assert self.format_regex.findall("A-a") == ["A", "a"]
def test_format_timestamp(self):
assert self.format_regex.findall("X") == ["X"]
def test_format_timestamp_milli(self):
assert self.format_regex.findall("x") == ["x"]
def test_escape(self):
escape_regex = parser.DateTimeParser._ESCAPE_RE
assert escape_regex.findall("2018-03-09 8 [h] 40 [hello]") == ["[h]", "[hello]"]
def test_month_names(self):
p = parser.DateTimeParser("en-us")
text = "_".join(calendar.month_name[1:])
result = p._input_re_map["MMMM"].findall(text)
assert result == calendar.month_name[1:]
def test_month_abbreviations(self):
p = parser.DateTimeParser("en-us")
text = "_".join(calendar.month_abbr[1:])
result = p._input_re_map["MMM"].findall(text)
assert result == calendar.month_abbr[1:]
def test_digits(self):
assert parser.DateTimeParser._ONE_OR_TWO_DIGIT_RE.findall("4-56") == ["4", "56"]
assert parser.DateTimeParser._ONE_OR_TWO_OR_THREE_DIGIT_RE.findall(
"4-56-789"
) == ["4", "56", "789"]
assert parser.DateTimeParser._ONE_OR_MORE_DIGIT_RE.findall(
"4-56-789-1234-12345"
) == ["4", "56", "789", "1234", "12345"]
assert parser.DateTimeParser._TWO_DIGIT_RE.findall("12-3-45") == ["12", "45"]
assert parser.DateTimeParser._THREE_DIGIT_RE.findall("123-4-56") == ["123"]
assert parser.DateTimeParser._FOUR_DIGIT_RE.findall("1234-56") == ["1234"]
def test_tz(self):
tz_z_re = parser.DateTimeParser._TZ_Z_RE
assert tz_z_re.findall("-0700") == [("-", "07", "00")]
assert tz_z_re.findall("+07") == [("+", "07", "")]
assert tz_z_re.search("15/01/2019T04:05:06.789120Z") is not None
assert tz_z_re.search("15/01/2019T04:05:06.789120") is None
tz_zz_re = parser.DateTimeParser._TZ_ZZ_RE
assert tz_zz_re.findall("-07:00") == [("-", "07", "00")]
assert tz_zz_re.findall("+07") == [("+", "07", "")]
assert tz_zz_re.search("15/01/2019T04:05:06.789120Z") is not None
assert tz_zz_re.search("15/01/2019T04:05:06.789120") is None
tz_name_re = parser.DateTimeParser._TZ_NAME_RE
assert tz_name_re.findall("Europe/Warsaw") == ["Europe/Warsaw"]
assert tz_name_re.findall("GMT") == ["GMT"]
def test_timestamp(self):
timestamp_re = parser.DateTimeParser._TIMESTAMP_RE
assert timestamp_re.findall("1565707550.452729") == ["1565707550.452729"]
assert timestamp_re.findall("-1565707550.452729") == ["-1565707550.452729"]
assert timestamp_re.findall("-1565707550") == ["-1565707550"]
assert timestamp_re.findall("1565707550") == ["1565707550"]
assert timestamp_re.findall("1565707550.") == []
assert timestamp_re.findall(".1565707550") == []
def test_timestamp_milli(self):
timestamp_expanded_re = parser.DateTimeParser._TIMESTAMP_EXPANDED_RE
assert timestamp_expanded_re.findall("-1565707550") == ["-1565707550"]
assert timestamp_expanded_re.findall("1565707550") == ["1565707550"]
assert timestamp_expanded_re.findall("1565707550.452729") == []
assert timestamp_expanded_re.findall("1565707550.") == []
assert timestamp_expanded_re.findall(".1565707550") == []
def test_time(self):
time_re = parser.DateTimeParser._TIME_RE
time_separators = [":", ""]
for sep in time_separators:
assert time_re.findall("12") == [("12", "", "", "", "")]
assert time_re.findall(f"12{sep}35") == [("12", "35", "", "", "")]
assert time_re.findall("12{sep}35{sep}46".format(sep=sep)) == [
("12", "35", "46", "", "")
]
assert time_re.findall("12{sep}35{sep}46.952313".format(sep=sep)) == [
("12", "35", "46", ".", "952313")
]
assert time_re.findall("12{sep}35{sep}46,952313".format(sep=sep)) == [
("12", "35", "46", ",", "952313")
]
assert time_re.findall("12:") == []
assert time_re.findall("12:35:46.") == []
assert time_re.findall("12:35:46,") == []
@pytest.mark.usefixtures("dt_parser")
class TestDateTimeParserISO:
def test_YYYY(self):
assert self.parser.parse_iso("2013") == datetime(2013, 1, 1)
def test_YYYY_DDDD(self):
assert self.parser.parse_iso("1998-136") == datetime(1998, 5, 16)
assert self.parser.parse_iso("1998-006") == datetime(1998, 1, 6)
with pytest.raises(ParserError):
self.parser.parse_iso("1998-456")
# 2016 is a leap year, so Feb 29 exists (leap day)
assert self.parser.parse_iso("2016-059") == datetime(2016, 2, 28)
assert self.parser.parse_iso("2016-060") == datetime(2016, 2, 29)
assert self.parser.parse_iso("2016-061") == datetime(2016, 3, 1)
# 2017 is not a leap year, so Feb 29 does not exist
assert self.parser.parse_iso("2017-059") == datetime(2017, 2, 28)
assert self.parser.parse_iso("2017-060") == datetime(2017, 3, 1)
assert self.parser.parse_iso("2017-061") == datetime(2017, 3, 2)
# Since 2016 is a leap year, the 366th day falls in the same year
assert self.parser.parse_iso("2016-366") == datetime(2016, 12, 31)
# Since 2017 is not a leap year, the 366th day falls in the next year
assert self.parser.parse_iso("2017-366") == datetime(2018, 1, 1)
def test_YYYY_DDDD_HH_mm_ssZ(self):
assert self.parser.parse_iso("2013-036 04:05:06+01:00") == datetime(
2013, 2, 5, 4, 5, 6, tzinfo=tz.tzoffset(None, 3600)
)
assert self.parser.parse_iso("2013-036 04:05:06Z") == datetime(
2013, 2, 5, 4, 5, 6, tzinfo=tz.tzutc()
)
def test_YYYY_MM_DDDD(self):
with pytest.raises(ParserError):
self.parser.parse_iso("2014-05-125")
def test_YYYY_MM(self):
for separator in DateTimeParser.SEPARATORS:
assert self.parser.parse_iso(separator.join(("2013", "02"))) == datetime(
2013, 2, 1
)
def test_YYYY_MM_DD(self):
for separator in DateTimeParser.SEPARATORS:
assert self.parser.parse_iso(
separator.join(("2013", "02", "03"))
) == datetime(2013, 2, 3)
def test_YYYY_MM_DDTHH_mmZ(self):
assert self.parser.parse_iso("2013-02-03T04:05+01:00") == datetime(
2013, 2, 3, 4, 5, tzinfo=tz.tzoffset(None, 3600)
)
def test_YYYY_MM_DDTHH_mm(self):
assert self.parser.parse_iso("2013-02-03T04:05") == datetime(2013, 2, 3, 4, 5)
def test_YYYY_MM_DDTHH(self):
assert self.parser.parse_iso("2013-02-03T04") == datetime(2013, 2, 3, 4)
def test_YYYY_MM_DDTHHZ(self):
assert self.parser.parse_iso("2013-02-03T04+01:00") == datetime(
2013, 2, 3, 4, tzinfo=tz.tzoffset(None, 3600)
)
def test_YYYY_MM_DDTHH_mm_ssZ(self):
assert self.parser.parse_iso("2013-02-03T04:05:06+01:00") == datetime(
2013, 2, 3, 4, 5, 6, tzinfo=tz.tzoffset(None, 3600)
)
def test_YYYY_MM_DDTHH_mm_ss(self):
assert self.parser.parse_iso("2013-02-03T04:05:06") == datetime(
2013, 2, 3, 4, 5, 6
)
def test_YYYY_MM_DD_HH_mmZ(self):
assert self.parser.parse_iso("2013-02-03 04:05+01:00") == datetime(
2013, 2, 3, 4, 5, tzinfo=tz.tzoffset(None, 3600)
)
def test_YYYY_MM_DD_HH_mm(self):
assert self.parser.parse_iso("2013-02-03 04:05") == datetime(2013, 2, 3, 4, 5)
def test_YYYY_MM_DD_HH(self):
assert self.parser.parse_iso("2013-02-03 04") == datetime(2013, 2, 3, 4)
def test_invalid_time(self):
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03T")
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03 044")
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03 04:05:06.")
def test_YYYY_MM_DD_HH_mm_ssZ(self):
assert self.parser.parse_iso("2013-02-03 04:05:06+01:00") == datetime(
2013, 2, 3, 4, 5, 6, tzinfo=tz.tzoffset(None, 3600)
)
def test_YYYY_MM_DD_HH_mm_ss(self):
assert self.parser.parse_iso("2013-02-03 04:05:06") == datetime(
2013, 2, 3, 4, 5, 6
)
def test_YYYY_MM_DDTHH_mm_ss_S(self):
assert self.parser.parse_iso("2013-02-03T04:05:06.7") == datetime(
2013, 2, 3, 4, 5, 6, 700000
)
assert self.parser.parse_iso("2013-02-03T04:05:06.78") == datetime(
2013, 2, 3, 4, 5, 6, 780000
)
assert self.parser.parse_iso("2013-02-03T04:05:06.789") == datetime(
2013, 2, 3, 4, 5, 6, 789000
)
assert self.parser.parse_iso("2013-02-03T04:05:06.7891") == datetime(
2013, 2, 3, 4, 5, 6, 789100
)
assert self.parser.parse_iso("2013-02-03T04:05:06.78912") == datetime(
2013, 2, 3, 4, 5, 6, 789120
)
# ISO 8601:2004(E), ISO, 2004-12-01, 4.2.2.4 ... the decimal fraction
# shall be divided from the integer part by the decimal sign specified
# in ISO 31-0, i.e. the comma [,] or full stop [.]. Of these, the comma
# is the preferred sign.
assert self.parser.parse_iso("2013-02-03T04:05:06,789123678") == datetime(
2013, 2, 3, 4, 5, 6, 789124
)
# there is no limit on the number of decimal places
assert self.parser.parse_iso("2013-02-03T04:05:06.789123678") == datetime(
2013, 2, 3, 4, 5, 6, 789124
)
def test_YYYY_MM_DDTHH_mm_ss_SZ(self):
assert self.parser.parse_iso("2013-02-03T04:05:06.7+01:00") == datetime(
2013, 2, 3, 4, 5, 6, 700000, tzinfo=tz.tzoffset(None, 3600)
)
assert self.parser.parse_iso("2013-02-03T04:05:06.78+01:00") == datetime(
2013, 2, 3, 4, 5, 6, 780000, tzinfo=tz.tzoffset(None, 3600)
)
assert self.parser.parse_iso("2013-02-03T04:05:06.789+01:00") == datetime(
2013, 2, 3, 4, 5, 6, 789000, tzinfo=tz.tzoffset(None, 3600)
)
assert self.parser.parse_iso("2013-02-03T04:05:06.7891+01:00") == datetime(
2013, 2, 3, 4, 5, 6, 789100, tzinfo=tz.tzoffset(None, 3600)
)
assert self.parser.parse_iso("2013-02-03T04:05:06.78912+01:00") == datetime(
2013, 2, 3, 4, 5, 6, 789120, tzinfo=tz.tzoffset(None, 3600)
)
assert self.parser.parse_iso("2013-02-03 04:05:06.78912Z") == datetime(
2013, 2, 3, 4, 5, 6, 789120, tzinfo=tz.tzutc()
)
def test_W(self):
assert self.parser.parse_iso("2011-W05-4") == datetime(2011, 2, 3)
assert self.parser.parse_iso("2011-W05-4T14:17:01") == datetime(
2011, 2, 3, 14, 17, 1
)
assert self.parser.parse_iso("2011W054") == datetime(2011, 2, 3)
assert self.parser.parse_iso("2011W054T141701") == datetime(
2011, 2, 3, 14, 17, 1
)
def test_invalid_Z(self):
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03T04:05:06.78912z")
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03T04:05:06.78912zz")
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03T04:05:06.78912Zz")
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03T04:05:06.78912ZZ")
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03T04:05:06.78912+Z")
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03T04:05:06.78912-Z")
with pytest.raises(ParserError):
self.parser.parse_iso("2013-02-03T04:05:06.78912 Z")
def test_parse_subsecond(self):
self.expected = datetime(2013, 1, 1, 12, 30, 45, 900000)
assert self.parser.parse_iso("2013-01-01 12:30:45.9") == self.expected
self.expected = datetime(2013, 1, 1, 12, 30, 45, 980000)
assert self.parser.parse_iso("2013-01-01 12:30:45.98") == self.expected
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987000)
assert self.parser.parse_iso("2013-01-01 12:30:45.987") == self.expected
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987600)
assert self.parser.parse_iso("2013-01-01 12:30:45.9876") == self.expected
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987650)
assert self.parser.parse_iso("2013-01-01 12:30:45.98765") == self.expected
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987654)
assert self.parser.parse_iso("2013-01-01 12:30:45.987654") == self.expected
# use comma as subsecond separator
self.expected = datetime(2013, 1, 1, 12, 30, 45, 987654)
assert self.parser.parse_iso("2013-01-01 12:30:45,987654") == self.expected
def test_gnu_date(self):
"""Regression tests for parsing output from GNU date."""
# date -Ins
assert self.parser.parse_iso("2016-11-16T09:46:30,895636557-0800") == datetime(
2016, 11, 16, 9, 46, 30, 895636, tzinfo=tz.tzoffset(None, -3600 * 8)
)
# date --rfc-3339=ns
assert self.parser.parse_iso("2016-11-16 09:51:14.682141526-08:00") == datetime(
2016, 11, 16, 9, 51, 14, 682142, tzinfo=tz.tzoffset(None, -3600 * 8)
)
def test_isoformat(self):
dt = datetime.utcnow()
assert self.parser.parse_iso(dt.isoformat()) == dt
def test_parse_iso_normalize_whitespace(self):
assert self.parser.parse_iso(
"2013-036 \t 04:05:06Z", normalize_whitespace=True
) == datetime(2013, 2, 5, 4, 5, 6, tzinfo=tz.tzutc())
with pytest.raises(ParserError):
self.parser.parse_iso("2013-036 \t 04:05:06Z")
assert self.parser.parse_iso(
"\t 2013-05-05T12:30:45.123456 \t \n", normalize_whitespace=True
) == datetime(2013, 5, 5, 12, 30, 45, 123456)
with pytest.raises(ParserError):
self.parser.parse_iso("\t 2013-05-05T12:30:45.123456 \t \n")
def test_parse_iso_with_leading_and_trailing_whitespace(self):
datetime_string = " 2016-11-15T06:37:19.123456"
with pytest.raises(ParserError):
self.parser.parse_iso(datetime_string)
datetime_string = " 2016-11-15T06:37:19.123456 "
with pytest.raises(ParserError):
self.parser.parse_iso(datetime_string)
datetime_string = "2016-11-15T06:37:19.123456 "
with pytest.raises(ParserError):
self.parser.parse_iso(datetime_string)
datetime_string = "2016-11-15T 06:37:19.123456"
with pytest.raises(ParserError):
self.parser.parse_iso(datetime_string)
# leading whitespace
datetime_string = " 2016-11-15 06:37:19.123456"
with pytest.raises(ParserError):
self.parser.parse_iso(datetime_string)
# trailing whitespace
datetime_string = "2016-11-15 06:37:19.123456 "
with pytest.raises(ParserError):
self.parser.parse_iso(datetime_string)
datetime_string = " 2016-11-15 06:37:19.123456 "
with pytest.raises(ParserError):
self.parser.parse_iso(datetime_string)
# two dividing spaces
datetime_string = "2016-11-15 06:37:19.123456"
with pytest.raises(ParserError):
self.parser.parse_iso(datetime_string)
def test_parse_iso_with_extra_words_at_start_and_end_invalid(self):
test_inputs = [
"blah2016",
"blah2016blah",
"blah 2016 blah",
"blah 2016",
"2016 blah",
"blah 2016-05-16 04:05:06.789120",
"2016-05-16 04:05:06.789120 blah",
"blah 2016-05-16T04:05:06.789120",
"2016-05-16T04:05:06.789120 blah",
"2016blah",
"2016-05blah",
"2016-05-16blah",
"2016-05-16T04:05:06.789120blah",
"2016-05-16T04:05:06.789120ZblahZ",
"2016-05-16T04:05:06.789120Zblah",
"2016-05-16T04:05:06.789120blahZ",
"Meet me at 2016-05-16T04:05:06.789120 at the restaurant.",
"Meet me at 2016-05-16 04:05:06.789120 at the restaurant.",
]
for ti in test_inputs:
with pytest.raises(ParserError):
self.parser.parse_iso(ti)
def test_iso8601_basic_format(self):
assert self.parser.parse_iso("20180517") == datetime(2018, 5, 17)
assert self.parser.parse_iso("20180517T10") == datetime(2018, 5, 17, 10)
assert self.parser.parse_iso("20180517T105513.843456") == datetime(
2018, 5, 17, 10, 55, 13, 843456
)
assert self.parser.parse_iso("20180517T105513Z") == datetime(
2018, 5, 17, 10, 55, 13, tzinfo=tz.tzutc()
)
assert self.parser.parse_iso("20180517T105513.843456-0700") == datetime(
2018, 5, 17, 10, 55, 13, 843456, tzinfo=tz.tzoffset(None, -25200)
)
assert self.parser.parse_iso("20180517T105513-0700") == datetime(
2018, 5, 17, 10, 55, 13, tzinfo=tz.tzoffset(None, -25200)
)
assert self.parser.parse_iso("20180517T105513-07") == datetime(
2018, 5, 17, 10, 55, 13, tzinfo=tz.tzoffset(None, -25200)
)
# ordinal in basic format: YYYYDDDD
assert self.parser.parse_iso("1998136") == datetime(1998, 5, 16)
# timezone requires +- separator
with pytest.raises(ParserError):
self.parser.parse_iso("20180517T1055130700")
with pytest.raises(ParserError):
self.parser.parse_iso("20180517T10551307")
# too many digits in date
with pytest.raises(ParserError):
self.parser.parse_iso("201860517T105513Z")
# too many digits in time
with pytest.raises(ParserError):
self.parser.parse_iso("20180517T1055213Z")
def test_midnight_end_day(self):
assert self.parser.parse_iso("2019-10-30T24:00:00") == datetime(
2019, 10, 31, 0, 0, 0, 0
)
assert self.parser.parse_iso("2019-10-30T24:00") == datetime(
2019, 10, 31, 0, 0, 0, 0
)
assert self.parser.parse_iso("2019-10-30T24:00:00.0") == datetime(
2019, 10, 31, 0, 0, 0, 0
)
assert self.parser.parse_iso("2019-10-31T24:00:00") == datetime(
2019, 11, 1, 0, 0, 0, 0
)
assert self.parser.parse_iso("2019-12-31T24:00:00") == datetime(
2020, 1, 1, 0, 0, 0, 0
)
assert self.parser.parse_iso("2019-12-31T23:59:59.9999999") == datetime(
2020, 1, 1, 0, 0, 0, 0
)
with pytest.raises(ParserError):
self.parser.parse_iso("2019-12-31T24:01:00")
with pytest.raises(ParserError):
self.parser.parse_iso("2019-12-31T24:00:01")
with pytest.raises(ParserError):
self.parser.parse_iso("2019-12-31T24:00:00.1")
with pytest.raises(ParserError):
self.parser.parse_iso("2019-12-31T24:00:00.999999")
@pytest.mark.usefixtures("tzinfo_parser")
class TestTzinfoParser:
def test_parse_local(self):
assert self.parser.parse("local") == tz.tzlocal()
def test_parse_utc(self):
assert self.parser.parse("utc") == tz.tzutc()
assert self.parser.parse("UTC") == tz.tzutc()
def test_parse_utc_withoffset(self):
assert self.parser.parse("(UTC+01:00") == tz.tzoffset(None, 3600)
assert self.parser.parse("(UTC-01:00") == tz.tzoffset(None, -3600)
assert self.parser.parse("(UTC+01:00") == tz.tzoffset(None, 3600)
assert self.parser.parse(
"(UTC+01:00) Amsterdam, Berlin, Bern, Rom, Stockholm, Wien"
) == tz.tzoffset(None, 3600)
def test_parse_iso(self):
assert self.parser.parse("01:00") == tz.tzoffset(None, 3600)
assert self.parser.parse("11:35") == tz.tzoffset(None, 11 * 3600 + 2100)
assert self.parser.parse("+01:00") == tz.tzoffset(None, 3600)
assert self.parser.parse("-01:00") == tz.tzoffset(None, -3600)
assert self.parser.parse("0100") == tz.tzoffset(None, 3600)
assert self.parser.parse("+0100") == tz.tzoffset(None, 3600)
assert self.parser.parse("-0100") == tz.tzoffset(None, -3600)
assert self.parser.parse("01") == tz.tzoffset(None, 3600)
assert self.parser.parse("+01") == tz.tzoffset(None, 3600)
assert self.parser.parse("-01") == tz.tzoffset(None, -3600)
def test_parse_str(self):
assert self.parser.parse("US/Pacific") == tz.gettz("US/Pacific")
def test_parse_fails(self):
with pytest.raises(parser.ParserError):
self.parser.parse("fail")
@pytest.mark.usefixtures("dt_parser")
class TestDateTimeParserMonthName:
def test_shortmonth_capitalized(self):
assert self.parser.parse("2013-Jan-01", "YYYY-MMM-DD") == datetime(2013, 1, 1)
def test_shortmonth_allupper(self):
assert self.parser.parse("2013-JAN-01", "YYYY-MMM-DD") == datetime(2013, 1, 1)
def test_shortmonth_alllower(self):
assert self.parser.parse("2013-jan-01", "YYYY-MMM-DD") == datetime(2013, 1, 1)
def test_month_capitalized(self):
assert self.parser.parse("2013-January-01", "YYYY-MMMM-DD") == datetime(
2013, 1, 1
)
def test_month_allupper(self):
assert self.parser.parse("2013-JANUARY-01", "YYYY-MMMM-DD") == datetime(
2013, 1, 1
)
def test_month_alllower(self):
assert self.parser.parse("2013-january-01", "YYYY-MMMM-DD") == datetime(
2013, 1, 1
)
def test_localized_month_name(self):
parser_ = parser.DateTimeParser("fr-fr")
assert parser_.parse("2013-Janvier-01", "YYYY-MMMM-DD") == datetime(2013, 1, 1)
def test_localized_month_abbreviation(self):
parser_ = parser.DateTimeParser("it-it")
assert parser_.parse("2013-Gen-01", "YYYY-MMM-DD") == datetime(2013, 1, 1)
@pytest.mark.usefixtures("dt_parser")
class TestDateTimeParserMeridians:
def test_meridians_lowercase(self):
assert self.parser.parse("2013-01-01 5am", "YYYY-MM-DD ha") == datetime(
2013, 1, 1, 5
)
assert self.parser.parse("2013-01-01 5pm", "YYYY-MM-DD ha") == datetime(
2013, 1, 1, 17
)
def test_meridians_capitalized(self):
assert self.parser.parse("2013-01-01 5AM", "YYYY-MM-DD hA") == datetime(
2013, 1, 1, 5
)
assert self.parser.parse("2013-01-01 5PM", "YYYY-MM-DD hA") == datetime(
2013, 1, 1, 17
)
def test_localized_meridians_lowercase(self):
parser_ = parser.DateTimeParser("hu-hu")
assert parser_.parse("2013-01-01 5 de", "YYYY-MM-DD h a") == datetime(
2013, 1, 1, 5
)
assert parser_.parse("2013-01-01 5 du", "YYYY-MM-DD h a") == datetime(
2013, 1, 1, 17
)
def test_localized_meridians_capitalized(self):
parser_ = parser.DateTimeParser("hu-hu")
assert parser_.parse("2013-01-01 5 DE", "YYYY-MM-DD h A") == datetime(
2013, 1, 1, 5
)
assert parser_.parse("2013-01-01 5 DU", "YYYY-MM-DD h A") == datetime(
2013, 1, 1, 17
)
# regression test for issue #607
def test_es_meridians(self):
parser_ = parser.DateTimeParser("es")
assert parser_.parse(
"Junio 30, 2019 - 08:00 pm", "MMMM DD, YYYY - hh:mm a"
) == datetime(2019, 6, 30, 20, 0)
with pytest.raises(ParserError):
parser_.parse(
"Junio 30, 2019 - 08:00 pasdfasdfm", "MMMM DD, YYYY - hh:mm a"
)
def test_fr_meridians(self):
parser_ = parser.DateTimeParser("fr")
# the French locale always uses a 24 hour clock, so it does not support meridians
with pytest.raises(ParserError):
parser_.parse("Janvier 30, 2019 - 08:00 pm", "MMMM DD, YYYY - hh:mm a")
@pytest.mark.usefixtures("dt_parser")
class TestDateTimeParserMonthOrdinalDay:
def test_english(self):
parser_ = parser.DateTimeParser("en-us")
assert parser_.parse("January 1st, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 1
)
assert parser_.parse("January 2nd, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 2
)
assert parser_.parse("January 3rd, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 3
)
assert parser_.parse("January 4th, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 4
)
assert parser_.parse("January 11th, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 11
)
assert parser_.parse("January 12th, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 12
)
assert parser_.parse("January 13th, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 13
)
assert parser_.parse("January 21st, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 21
)
assert parser_.parse("January 31st, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 31
)
with pytest.raises(ParserError):
parser_.parse("January 1th, 2013", "MMMM Do, YYYY")
with pytest.raises(ParserError):
parser_.parse("January 11st, 2013", "MMMM Do, YYYY")
def test_italian(self):
parser_ = parser.DateTimeParser("it-it")
assert parser_.parse("Gennaio 1º, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 1
)
def test_spanish(self):
parser_ = parser.DateTimeParser("es-es")
assert parser_.parse("Enero 1º, 2013", "MMMM Do, YYYY") == datetime(2013, 1, 1)
def test_french(self):
parser_ = parser.DateTimeParser("fr-fr")
assert parser_.parse("Janvier 1er, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 1
)
assert parser_.parse("Janvier 2e, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 2
)
assert parser_.parse("Janvier 11e, 2013", "MMMM Do, YYYY") == datetime(
2013, 1, 11
)
@pytest.mark.usefixtures("dt_parser")
class TestDateTimeParserSearchDate:
def test_parse_search(self):
assert self.parser.parse(
"Today is 25 of September of 2003", "DD of MMMM of YYYY"
) == datetime(2003, 9, 25)
def test_parse_search_with_numbers(self):
assert self.parser.parse(
"2000 people met the 2012-01-01 12:05:10", "YYYY-MM-DD HH:mm:ss"
) == datetime(2012, 1, 1, 12, 5, 10)
assert self.parser.parse(
"Call 01-02-03 on 79-01-01 12:05:10", "YY-MM-DD HH:mm:ss"
) == datetime(1979, 1, 1, 12, 5, 10)
def test_parse_search_with_names(self):
assert self.parser.parse("June was born in May 1980", "MMMM YYYY") == datetime(
1980, 5, 1
)
def test_parse_search_locale_with_names(self):
p = parser.DateTimeParser("sv-se")
assert p.parse("Jan föddes den 31 Dec 1980", "DD MMM YYYY") == datetime(
1980, 12, 31
)
assert p.parse("Jag föddes den 25 Augusti 1975", "DD MMMM YYYY") == datetime(
1975, 8, 25
)
def test_parse_search_fails(self):
with pytest.raises(parser.ParserError):
self.parser.parse("Jag föddes den 25 Augusti 1975", "DD MMMM YYYY")
def test_escape(self):
format = "MMMM D, YYYY [at] h:mma"
assert self.parser.parse(
"Thursday, December 10, 2015 at 5:09pm", format
) == datetime(2015, 12, 10, 17, 9)
format = "[MMMM] M D, YYYY [at] h:mma"
assert self.parser.parse("MMMM 12 10, 2015 at 5:09pm", format) == datetime(
2015, 12, 10, 17, 9
)
format = "[It happened on] MMMM Do [in the year] YYYY [a long time ago]"
assert self.parser.parse(
"It happened on November 25th in the year 1990 a long time ago", format
) == datetime(1990, 11, 25)
format = "[It happened on] MMMM Do [in the][ year] YYYY [a long time ago]"
assert self.parser.parse(
"It happened on November 25th in the year 1990 a long time ago", format
) == datetime(1990, 11, 25)
format = "[I'm][ entirely][ escaped,][ weee!]"
assert self.parser.parse("I'm entirely escaped, weee!", format) == datetime(
1, 1, 1
)
# Special RegEx characters
format = "MMM DD, YYYY |^${}().*+?<>-& h:mm A"
assert self.parser.parse(
"Dec 31, 2017 |^${}().*+?<>-& 2:00 AM", format
) == datetime(2017, 12, 31, 2, 0)
@pytest.mark.usefixtures("dt_parser")
class TestFuzzInput:
# Regression test for issue #860
def test_no_match_group(self):
fmt_str = str(b"[|\x1f\xb9\x03\x00\x00\x00\x00:-yI:][\x01yI:yI:I")
payload = str(b"")
with pytest.raises(parser.ParserMatchError):
self.parser.parse(payload, fmt_str)
# Regression test for issue #854
def test_regex_module_error(self):
fmt_str = str(b"struct n[X+,N-M)MMXdMM]<")
payload = str(b"")
with pytest.raises(parser.ParserMatchError):
self.parser.parse(payload, fmt_str)
|