""" Tests of pandas.tseries.offsets """ from __future__ import annotations from datetime import ( datetime, timedelta, ) from typing import ( Dict, List, Tuple, ) import numpy as np import pytest from pandas._libs.tslibs import ( NaT, Timedelta, Timestamp, conversion, timezones, ) import pandas._libs.tslibs.offsets as liboffsets from pandas._libs.tslibs.offsets import ( _get_offset, _offset_map, ) from pandas._libs.tslibs.period import INVALID_FREQ_ERR_MSG from pandas.errors import PerformanceWarning from pandas import ( DatetimeIndex, Series, date_range, ) import pandas._testing as tm from pandas.tests.tseries.offsets.common import WeekDay from pandas.tseries import offsets from pandas.tseries.offsets import ( FY5253, BaseOffset, BDay, BMonthEnd, BusinessHour, CustomBusinessDay, CustomBusinessHour, CustomBusinessMonthBegin, CustomBusinessMonthEnd, DateOffset, Easter, FY5253Quarter, LastWeekOfMonth, MonthBegin, Nano, Tick, Week, WeekOfMonth, ) _ApplyCases = List[Tuple[BaseOffset, Dict[datetime, datetime]]] _ARITHMETIC_DATE_OFFSET = [ "years", "months", "weeks", "days", "hours", "minutes", "seconds", "milliseconds", "microseconds", ] def _create_offset(klass, value=1, normalize=False): # create instance from offset class if klass is FY5253: klass = klass( n=value, startingMonth=1, weekday=1, variation="last", normalize=normalize, ) elif klass is FY5253Quarter: klass = klass( n=value, startingMonth=1, weekday=1, qtr_with_extra_week=1, variation="last", normalize=normalize, ) elif klass is LastWeekOfMonth: klass = klass(n=value, weekday=5, normalize=normalize) elif klass is WeekOfMonth: klass = klass(n=value, week=1, weekday=5, normalize=normalize) elif klass is Week: klass = klass(n=value, weekday=5, normalize=normalize) elif klass is DateOffset: klass = klass(days=value, normalize=normalize) else: klass = klass(value, normalize=normalize) return klass @pytest.fixture def dt(): return Timestamp(datetime(2008, 1, 2)) @pytest.fixture def expecteds(): # executed value created by _create_offset # are applied to 2011/01/01 09:00 (Saturday) # used for .apply and .rollforward return { "Day": Timestamp("2011-01-02 09:00:00"), "DateOffset": Timestamp("2011-01-02 09:00:00"), "BusinessDay": Timestamp("2011-01-03 09:00:00"), "CustomBusinessDay": Timestamp("2011-01-03 09:00:00"), "CustomBusinessMonthEnd": Timestamp("2011-01-31 09:00:00"), "CustomBusinessMonthBegin": Timestamp("2011-01-03 09:00:00"), "MonthBegin": Timestamp("2011-02-01 09:00:00"), "BusinessMonthBegin": Timestamp("2011-01-03 09:00:00"), "MonthEnd": Timestamp("2011-01-31 09:00:00"), "SemiMonthEnd": Timestamp("2011-01-15 09:00:00"), "SemiMonthBegin": Timestamp("2011-01-15 09:00:00"), "BusinessMonthEnd": Timestamp("2011-01-31 09:00:00"), "YearBegin": Timestamp("2012-01-01 09:00:00"), "BYearBegin": Timestamp("2011-01-03 09:00:00"), "YearEnd": Timestamp("2011-12-31 09:00:00"), "BYearEnd": Timestamp("2011-12-30 09:00:00"), "QuarterBegin": Timestamp("2011-03-01 09:00:00"), "BQuarterBegin": Timestamp("2011-03-01 09:00:00"), "QuarterEnd": Timestamp("2011-03-31 09:00:00"), "BQuarterEnd": Timestamp("2011-03-31 09:00:00"), "BusinessHour": Timestamp("2011-01-03 10:00:00"), "CustomBusinessHour": Timestamp("2011-01-03 10:00:00"), "WeekOfMonth": Timestamp("2011-01-08 09:00:00"), "LastWeekOfMonth": Timestamp("2011-01-29 09:00:00"), "FY5253Quarter": Timestamp("2011-01-25 09:00:00"), "FY5253": Timestamp("2011-01-25 09:00:00"), "Week": Timestamp("2011-01-08 09:00:00"), "Easter": Timestamp("2011-04-24 09:00:00"), "Hour": Timestamp("2011-01-01 10:00:00"), "Minute": Timestamp("2011-01-01 09:01:00"), "Second": Timestamp("2011-01-01 09:00:01"), "Milli": Timestamp("2011-01-01 09:00:00.001000"), "Micro": Timestamp("2011-01-01 09:00:00.000001"), "Nano": Timestamp("2011-01-01T09:00:00.000000001"), } class TestCommon: def test_immutable(self, offset_types): # GH#21341 check that __setattr__ raises offset = _create_offset(offset_types) msg = "objects is not writable|DateOffset objects are immutable" with pytest.raises(AttributeError, match=msg): offset.normalize = True with pytest.raises(AttributeError, match=msg): offset.n = 91 def test_return_type(self, offset_types): offset = _create_offset(offset_types) # make sure that we are returning a Timestamp result = Timestamp("20080101") + offset assert isinstance(result, Timestamp) # make sure that we are returning NaT assert NaT + offset is NaT assert offset + NaT is NaT assert NaT - offset is NaT assert (-offset)._apply(NaT) is NaT def test_offset_n(self, offset_types): offset = _create_offset(offset_types) assert offset.n == 1 neg_offset = offset * -1 assert neg_offset.n == -1 mul_offset = offset * 3 assert mul_offset.n == 3 def test_offset_timedelta64_arg(self, offset_types): # check that offset._validate_n raises TypeError on a timedelt64 # object off = _create_offset(offset_types) td64 = np.timedelta64(4567, "s") with pytest.raises(TypeError, match="argument must be an integer"): type(off)(n=td64, **off.kwds) def test_offset_mul_ndarray(self, offset_types): off = _create_offset(offset_types) expected = np.array([[off, off * 2], [off * 3, off * 4]]) result = np.array([[1, 2], [3, 4]]) * off tm.assert_numpy_array_equal(result, expected) result = off * np.array([[1, 2], [3, 4]]) tm.assert_numpy_array_equal(result, expected) def test_offset_freqstr(self, offset_types): offset = _create_offset(offset_types) freqstr = offset.freqstr if freqstr not in ("", "", "LWOM-SAT"): code = _get_offset(freqstr) assert offset.rule_code == code def _check_offsetfunc_works(self, offset, funcname, dt, expected, normalize=False): if normalize and issubclass(offset, Tick): # normalize=True disallowed for Tick subclasses GH#21427 return offset_s = _create_offset(offset, normalize=normalize) func = getattr(offset_s, funcname) result = func(dt) assert isinstance(result, Timestamp) assert result == expected result = func(Timestamp(dt)) assert isinstance(result, Timestamp) assert result == expected # see gh-14101 exp_warning = None ts = Timestamp(dt) + Nano(5) if ( type(offset_s).__name__ == "DateOffset" and (funcname in ["apply", "_apply"] or normalize) and ts.nanosecond > 0 ): exp_warning = UserWarning # test nanosecond is preserved with tm.assert_produces_warning(exp_warning): result = func(ts) assert isinstance(result, Timestamp) if normalize is False: assert result == expected + Nano(5) else: assert result == expected if isinstance(dt, np.datetime64): # test tz when input is datetime or Timestamp return for tz in [ None, "UTC", "Asia/Tokyo", "US/Eastern", "dateutil/Asia/Tokyo", "dateutil/US/Pacific", ]: expected_localize = expected.tz_localize(tz) tz_obj = timezones.maybe_get_tz(tz) dt_tz = conversion.localize_pydatetime(dt, tz_obj) result = func(dt_tz) assert isinstance(result, Timestamp) assert result == expected_localize result = func(Timestamp(dt, tz=tz)) assert isinstance(result, Timestamp) assert result == expected_localize # see gh-14101 exp_warning = None ts = Timestamp(dt, tz=tz) + Nano(5) if ( type(offset_s).__name__ == "DateOffset" and (funcname in ["apply", "_apply"] or normalize) and ts.nanosecond > 0 ): exp_warning = UserWarning # test nanosecond is preserved with tm.assert_produces_warning(exp_warning): result = func(ts) assert isinstance(result, Timestamp) if normalize is False: assert result == expected_localize + Nano(5) else: assert result == expected_localize def test_apply(self, offset_types, expecteds): sdt = datetime(2011, 1, 1, 9, 0) ndt = np.datetime64("2011-01-01 09:00") expected = expecteds[offset_types.__name__] expected_norm = Timestamp(expected.date()) for dt in [sdt, ndt]: self._check_offsetfunc_works(offset_types, "_apply", dt, expected) self._check_offsetfunc_works( offset_types, "_apply", dt, expected_norm, normalize=True ) def test_rollforward(self, offset_types, expecteds): expecteds = expecteds.copy() # result will not be changed if the target is on the offset no_changes = [ "Day", "MonthBegin", "SemiMonthBegin", "YearBegin", "Week", "Hour", "Minute", "Second", "Milli", "Micro", "Nano", "DateOffset", ] for n in no_changes: expecteds[n] = Timestamp("2011/01/01 09:00") expecteds["BusinessHour"] = Timestamp("2011-01-03 09:00:00") expecteds["CustomBusinessHour"] = Timestamp("2011-01-03 09:00:00") # but be changed when normalize=True norm_expected = expecteds.copy() for k in norm_expected: norm_expected[k] = Timestamp(norm_expected[k].date()) normalized = { "Day": Timestamp("2011-01-02 00:00:00"), "DateOffset": Timestamp("2011-01-02 00:00:00"), "MonthBegin": Timestamp("2011-02-01 00:00:00"), "SemiMonthBegin": Timestamp("2011-01-15 00:00:00"), "YearBegin": Timestamp("2012-01-01 00:00:00"), "Week": Timestamp("2011-01-08 00:00:00"), "Hour": Timestamp("2011-01-01 00:00:00"), "Minute": Timestamp("2011-01-01 00:00:00"), "Second": Timestamp("2011-01-01 00:00:00"), "Milli": Timestamp("2011-01-01 00:00:00"), "Micro": Timestamp("2011-01-01 00:00:00"), } norm_expected.update(normalized) sdt = datetime(2011, 1, 1, 9, 0) ndt = np.datetime64("2011-01-01 09:00") for dt in [sdt, ndt]: expected = expecteds[offset_types.__name__] self._check_offsetfunc_works(offset_types, "rollforward", dt, expected) expected = norm_expected[offset_types.__name__] self._check_offsetfunc_works( offset_types, "rollforward", dt, expected, normalize=True ) def test_rollback(self, offset_types): expecteds = { "BusinessDay": Timestamp("2010-12-31 09:00:00"), "CustomBusinessDay": Timestamp("2010-12-31 09:00:00"), "CustomBusinessMonthEnd": Timestamp("2010-12-31 09:00:00"), "CustomBusinessMonthBegin": Timestamp("2010-12-01 09:00:00"), "BusinessMonthBegin": Timestamp("2010-12-01 09:00:00"), "MonthEnd": Timestamp("2010-12-31 09:00:00"), "SemiMonthEnd": Timestamp("2010-12-31 09:00:00"), "BusinessMonthEnd": Timestamp("2010-12-31 09:00:00"), "BYearBegin": Timestamp("2010-01-01 09:00:00"), "YearEnd": Timestamp("2010-12-31 09:00:00"), "BYearEnd": Timestamp("2010-12-31 09:00:00"), "QuarterBegin": Timestamp("2010-12-01 09:00:00"), "BQuarterBegin": Timestamp("2010-12-01 09:00:00"), "QuarterEnd": Timestamp("2010-12-31 09:00:00"), "BQuarterEnd": Timestamp("2010-12-31 09:00:00"), "BusinessHour": Timestamp("2010-12-31 17:00:00"), "CustomBusinessHour": Timestamp("2010-12-31 17:00:00"), "WeekOfMonth": Timestamp("2010-12-11 09:00:00"), "LastWeekOfMonth": Timestamp("2010-12-25 09:00:00"), "FY5253Quarter": Timestamp("2010-10-26 09:00:00"), "FY5253": Timestamp("2010-01-26 09:00:00"), "Easter": Timestamp("2010-04-04 09:00:00"), } # result will not be changed if the target is on the offset for n in [ "Day", "MonthBegin", "SemiMonthBegin", "YearBegin", "Week", "Hour", "Minute", "Second", "Milli", "Micro", "Nano", "DateOffset", ]: expecteds[n] = Timestamp("2011/01/01 09:00") # but be changed when normalize=True norm_expected = expecteds.copy() for k in norm_expected: norm_expected[k] = Timestamp(norm_expected[k].date()) normalized = { "Day": Timestamp("2010-12-31 00:00:00"), "DateOffset": Timestamp("2010-12-31 00:00:00"), "MonthBegin": Timestamp("2010-12-01 00:00:00"), "SemiMonthBegin": Timestamp("2010-12-15 00:00:00"), "YearBegin": Timestamp("2010-01-01 00:00:00"), "Week": Timestamp("2010-12-25 00:00:00"), "Hour": Timestamp("2011-01-01 00:00:00"), "Minute": Timestamp("2011-01-01 00:00:00"), "Second": Timestamp("2011-01-01 00:00:00"), "Milli": Timestamp("2011-01-01 00:00:00"), "Micro": Timestamp("2011-01-01 00:00:00"), } norm_expected.update(normalized) sdt = datetime(2011, 1, 1, 9, 0) ndt = np.datetime64("2011-01-01 09:00") for dt in [sdt, ndt]: expected = expecteds[offset_types.__name__] self._check_offsetfunc_works(offset_types, "rollback", dt, expected) expected = norm_expected[offset_types.__name__] self._check_offsetfunc_works( offset_types, "rollback", dt, expected, normalize=True ) def test_is_on_offset(self, offset_types, expecteds): dt = expecteds[offset_types.__name__] offset_s = _create_offset(offset_types) assert offset_s.is_on_offset(dt) # when normalize=True, is_on_offset checks time is 00:00:00 if issubclass(offset_types, Tick): # normalize=True disallowed for Tick subclasses GH#21427 return offset_n = _create_offset(offset_types, normalize=True) assert not offset_n.is_on_offset(dt) if offset_types in (BusinessHour, CustomBusinessHour): # In default BusinessHour (9:00-17:00), normalized time # cannot be in business hour range return date = datetime(dt.year, dt.month, dt.day) assert offset_n.is_on_offset(date) def test_add(self, offset_types, tz_naive_fixture, expecteds): tz = tz_naive_fixture dt = datetime(2011, 1, 1, 9, 0) offset_s = _create_offset(offset_types) expected = expecteds[offset_types.__name__] result_dt = dt + offset_s result_ts = Timestamp(dt) + offset_s for result in [result_dt, result_ts]: assert isinstance(result, Timestamp) assert result == expected expected_localize = expected.tz_localize(tz) result = Timestamp(dt, tz=tz) + offset_s assert isinstance(result, Timestamp) assert result == expected_localize # normalize=True, disallowed for Tick subclasses GH#21427 if issubclass(offset_types, Tick): return offset_s = _create_offset(offset_types, normalize=True) expected = Timestamp(expected.date()) result_dt = dt + offset_s result_ts = Timestamp(dt) + offset_s for result in [result_dt, result_ts]: assert isinstance(result, Timestamp) assert result == expected expected_localize = expected.tz_localize(tz) result = Timestamp(dt, tz=tz) + offset_s assert isinstance(result, Timestamp) assert result == expected_localize def test_add_empty_datetimeindex(self, offset_types, tz_naive_fixture): # GH#12724, GH#30336 offset_s = _create_offset(offset_types) dti = DatetimeIndex([], tz=tz_naive_fixture) warn = None if isinstance( offset_s, ( Easter, WeekOfMonth, LastWeekOfMonth, CustomBusinessDay, BusinessHour, CustomBusinessHour, CustomBusinessMonthBegin, CustomBusinessMonthEnd, FY5253, FY5253Quarter, ), ): # We don't have an optimized apply_index warn = PerformanceWarning with tm.assert_produces_warning(warn): result = dti + offset_s tm.assert_index_equal(result, dti) with tm.assert_produces_warning(warn): result = offset_s + dti tm.assert_index_equal(result, dti) dta = dti._data with tm.assert_produces_warning(warn): result = dta + offset_s tm.assert_equal(result, dta) with tm.assert_produces_warning(warn): result = offset_s + dta tm.assert_equal(result, dta) def test_pickle_roundtrip(self, offset_types): off = _create_offset(offset_types) res = tm.round_trip_pickle(off) assert off == res if type(off) is not DateOffset: for attr in off._attributes: if attr == "calendar": # np.busdaycalendar __eq__ will return False; # we check holidays and weekmask attrs so are OK continue # Make sure nothings got lost from _params (which __eq__) is based on assert getattr(off, attr) == getattr(res, attr) def test_pickle_dateoffset_odd_inputs(self): # GH#34511 off = DateOffset(months=12) res = tm.round_trip_pickle(off) assert off == res base_dt = datetime(2020, 1, 1) assert base_dt + off == base_dt + res def test_offsets_hashable(self, offset_types): # GH: 37267 off = _create_offset(offset_types) assert hash(off) is not None @pytest.mark.filterwarnings( "ignore:Non-vectorized DateOffset being applied to Series or DatetimeIndex" ) @pytest.mark.parametrize("unit", ["s", "ms", "us"]) def test_add_dt64_ndarray_non_nano(self, offset_types, unit, request): # check that the result with non-nano matches nano off = _create_offset(offset_types) dti = date_range("2016-01-01", periods=35, freq="D") arr = dti._data._ndarray.astype(f"M8[{unit}]") dta = type(dti._data)._simple_new(arr, dtype=arr.dtype) expected = dti._data + off result = dta + off exp_unit = unit if isinstance(off, Tick) and off._creso > dta._creso: # cast to higher reso like we would with Timedelta scalar exp_unit = Timedelta(off).unit expected = expected.as_unit(exp_unit) tm.assert_numpy_array_equal(result._ndarray, expected._ndarray) class TestDateOffset: def setup_method(self): _offset_map.clear() def test_repr(self): repr(DateOffset()) repr(DateOffset(2)) repr(2 * DateOffset()) repr(2 * DateOffset(months=2)) def test_mul(self): assert DateOffset(2) == 2 * DateOffset(1) assert DateOffset(2) == DateOffset(1) * 2 @pytest.mark.parametrize("kwd", sorted(liboffsets._relativedelta_kwds)) def test_constructor(self, kwd, request): if kwd == "millisecond": request.node.add_marker( pytest.mark.xfail( raises=NotImplementedError, reason="Constructing DateOffset object with `millisecond` is not " "yet supported.", ) ) offset = DateOffset(**{kwd: 2}) assert offset.kwds == {kwd: 2} assert getattr(offset, kwd) == 2 def test_default_constructor(self, dt): assert (dt + DateOffset(2)) == datetime(2008, 1, 4) def test_is_anchored(self): assert not DateOffset(2).is_anchored() assert DateOffset(1).is_anchored() def test_copy(self): assert DateOffset(months=2).copy() == DateOffset(months=2) assert DateOffset(milliseconds=1).copy() == DateOffset(milliseconds=1) @pytest.mark.parametrize( "arithmatic_offset_type, expected", zip( _ARITHMETIC_DATE_OFFSET, [ "2009-01-02", "2008-02-02", "2008-01-09", "2008-01-03", "2008-01-02 01:00:00", "2008-01-02 00:01:00", "2008-01-02 00:00:01", "2008-01-02 00:00:00.001000000", "2008-01-02 00:00:00.000001000", ], ), ) def test_add(self, arithmatic_offset_type, expected, dt): assert DateOffset(**{arithmatic_offset_type: 1}) + dt == Timestamp(expected) assert dt + DateOffset(**{arithmatic_offset_type: 1}) == Timestamp(expected) @pytest.mark.parametrize( "arithmatic_offset_type, expected", zip( _ARITHMETIC_DATE_OFFSET, [ "2007-01-02", "2007-12-02", "2007-12-26", "2008-01-01", "2008-01-01 23:00:00", "2008-01-01 23:59:00", "2008-01-01 23:59:59", "2008-01-01 23:59:59.999000000", "2008-01-01 23:59:59.999999000", ], ), ) def test_sub(self, arithmatic_offset_type, expected, dt): assert dt - DateOffset(**{arithmatic_offset_type: 1}) == Timestamp(expected) with pytest.raises(TypeError, match="Cannot subtract datetime from offset"): DateOffset(**{arithmatic_offset_type: 1}) - dt @pytest.mark.parametrize( "arithmatic_offset_type, n, expected", zip( _ARITHMETIC_DATE_OFFSET, range(1, 10), [ "2009-01-02", "2008-03-02", "2008-01-23", "2008-01-06", "2008-01-02 05:00:00", "2008-01-02 00:06:00", "2008-01-02 00:00:07", "2008-01-02 00:00:00.008000000", "2008-01-02 00:00:00.000009000", ], ), ) def test_mul_add(self, arithmatic_offset_type, n, expected, dt): assert DateOffset(**{arithmatic_offset_type: 1}) * n + dt == Timestamp(expected) assert n * DateOffset(**{arithmatic_offset_type: 1}) + dt == Timestamp(expected) assert dt + DateOffset(**{arithmatic_offset_type: 1}) * n == Timestamp(expected) assert dt + n * DateOffset(**{arithmatic_offset_type: 1}) == Timestamp(expected) @pytest.mark.parametrize( "arithmatic_offset_type, n, expected", zip( _ARITHMETIC_DATE_OFFSET, range(1, 10), [ "2007-01-02", "2007-11-02", "2007-12-12", "2007-12-29", "2008-01-01 19:00:00", "2008-01-01 23:54:00", "2008-01-01 23:59:53", "2008-01-01 23:59:59.992000000", "2008-01-01 23:59:59.999991000", ], ), ) def test_mul_sub(self, arithmatic_offset_type, n, expected, dt): assert dt - DateOffset(**{arithmatic_offset_type: 1}) * n == Timestamp(expected) assert dt - n * DateOffset(**{arithmatic_offset_type: 1}) == Timestamp(expected) def test_leap_year(self): d = datetime(2008, 1, 31) assert (d + DateOffset(months=1)) == datetime(2008, 2, 29) def test_eq(self): offset1 = DateOffset(days=1) offset2 = DateOffset(days=365) assert offset1 != offset2 assert DateOffset(milliseconds=3) != DateOffset(milliseconds=7) @pytest.mark.parametrize( "offset_kwargs, expected_arg", [ ({"microseconds": 1, "milliseconds": 1}, "2022-01-01 00:00:00.001001"), ({"seconds": 1, "milliseconds": 1}, "2022-01-01 00:00:01.001"), ({"minutes": 1, "milliseconds": 1}, "2022-01-01 00:01:00.001"), ({"hours": 1, "milliseconds": 1}, "2022-01-01 01:00:00.001"), ({"days": 1, "milliseconds": 1}, "2022-01-02 00:00:00.001"), ({"weeks": 1, "milliseconds": 1}, "2022-01-08 00:00:00.001"), ({"months": 1, "milliseconds": 1}, "2022-02-01 00:00:00.001"), ({"years": 1, "milliseconds": 1}, "2023-01-01 00:00:00.001"), ], ) def test_milliseconds_combination(self, offset_kwargs, expected_arg): # GH 49897 offset = DateOffset(**offset_kwargs) ts = Timestamp("2022-01-01") result = ts + offset expected = Timestamp(expected_arg) assert result == expected def test_offset_invalid_arguments(self): msg = "^Invalid argument/s or bad combination of arguments" with pytest.raises(ValueError, match=msg): DateOffset(picoseconds=1) class TestOffsetNames: def test_get_offset_name(self): assert BDay().freqstr == "B" assert BDay(2).freqstr == "2B" assert BMonthEnd().freqstr == "BM" assert Week(weekday=0).freqstr == "W-MON" assert Week(weekday=1).freqstr == "W-TUE" assert Week(weekday=2).freqstr == "W-WED" assert Week(weekday=3).freqstr == "W-THU" assert Week(weekday=4).freqstr == "W-FRI" assert LastWeekOfMonth(weekday=WeekDay.SUN).freqstr == "LWOM-SUN" def test_get_offset(): with pytest.raises(ValueError, match=INVALID_FREQ_ERR_MSG): _get_offset("gibberish") with pytest.raises(ValueError, match=INVALID_FREQ_ERR_MSG): _get_offset("QS-JAN-B") pairs = [ ("B", BDay()), ("b", BDay()), ("bm", BMonthEnd()), ("Bm", BMonthEnd()), ("W-MON", Week(weekday=0)), ("W-TUE", Week(weekday=1)), ("W-WED", Week(weekday=2)), ("W-THU", Week(weekday=3)), ("W-FRI", Week(weekday=4)), ] for name, expected in pairs: offset = _get_offset(name) assert offset == expected, ( f"Expected {repr(name)} to yield {repr(expected)} " f"(actual: {repr(offset)})" ) def test_get_offset_legacy(): pairs = [("w@Sat", Week(weekday=5))] for name, expected in pairs: with pytest.raises(ValueError, match=INVALID_FREQ_ERR_MSG): _get_offset(name) class TestOffsetAliases: def setup_method(self): _offset_map.clear() def test_alias_equality(self): for k, v in _offset_map.items(): if v is None: continue assert k == v.copy() def test_rule_code(self): lst = ["M", "MS", "BM", "BMS", "D", "B", "H", "T", "S", "L", "U"] for k in lst: assert k == _get_offset(k).rule_code # should be cached - this is kind of an internals test... assert k in _offset_map assert k == (_get_offset(k) * 3).rule_code suffix_lst = ["MON", "TUE", "WED", "THU", "FRI", "SAT", "SUN"] base = "W" for v in suffix_lst: alias = "-".join([base, v]) assert alias == _get_offset(alias).rule_code assert alias == (_get_offset(alias) * 5).rule_code suffix_lst = [ "JAN", "FEB", "MAR", "APR", "MAY", "JUN", "JUL", "AUG", "SEP", "OCT", "NOV", "DEC", ] base_lst = ["A", "AS", "BA", "BAS", "Q", "QS", "BQ", "BQS"] for base in base_lst: for v in suffix_lst: alias = "-".join([base, v]) assert alias == _get_offset(alias).rule_code assert alias == (_get_offset(alias) * 5).rule_code def test_freq_offsets(): off = BDay(1, offset=timedelta(0, 1800)) assert off.freqstr == "B+30Min" off = BDay(1, offset=timedelta(0, -1800)) assert off.freqstr == "B-30Min" class TestReprNames: def test_str_for_named_is_name(self): # look at all the amazing combinations! month_prefixes = ["A", "AS", "BA", "BAS", "Q", "BQ", "BQS", "QS"] names = [ prefix + "-" + month for prefix in month_prefixes for month in [ "JAN", "FEB", "MAR", "APR", "MAY", "JUN", "JUL", "AUG", "SEP", "OCT", "NOV", "DEC", ] ] days = ["MON", "TUE", "WED", "THU", "FRI", "SAT", "SUN"] names += ["W-" + day for day in days] names += ["WOM-" + week + day for week in ("1", "2", "3", "4") for day in days] _offset_map.clear() for name in names: offset = _get_offset(name) assert offset.freqstr == name # --------------------------------------------------------------------- def test_valid_default_arguments(offset_types): # GH#19142 check that the calling the constructors without passing # any keyword arguments produce valid offsets cls = offset_types cls() @pytest.mark.parametrize("kwd", sorted(liboffsets._relativedelta_kwds)) def test_valid_month_attributes(kwd, month_classes): # GH#18226 cls = month_classes # check that we cannot create e.g. MonthEnd(weeks=3) msg = rf"__init__\(\) got an unexpected keyword argument '{kwd}'" with pytest.raises(TypeError, match=msg): cls(**{kwd: 3}) def test_month_offset_name(month_classes): # GH#33757 off.name with n != 1 should not raise AttributeError obj = month_classes(1) obj2 = month_classes(2) assert obj2.name == obj.name @pytest.mark.parametrize("kwd", sorted(liboffsets._relativedelta_kwds)) def test_valid_relativedelta_kwargs(kwd, request): if kwd == "millisecond": request.node.add_marker( pytest.mark.xfail( raises=NotImplementedError, reason="Constructing DateOffset object with `millisecond` is not " "yet supported.", ) ) # Check that all the arguments specified in liboffsets._relativedelta_kwds # are in fact valid relativedelta keyword args DateOffset(**{kwd: 1}) @pytest.mark.parametrize("kwd", sorted(liboffsets._relativedelta_kwds)) def test_valid_tick_attributes(kwd, tick_classes): # GH#18226 cls = tick_classes # check that we cannot create e.g. Hour(weeks=3) msg = rf"__init__\(\) got an unexpected keyword argument '{kwd}'" with pytest.raises(TypeError, match=msg): cls(**{kwd: 3}) def test_validate_n_error(): with pytest.raises(TypeError, match="argument must be an integer"): DateOffset(n="Doh!") with pytest.raises(TypeError, match="argument must be an integer"): MonthBegin(n=timedelta(1)) with pytest.raises(TypeError, match="argument must be an integer"): BDay(n=np.array([1, 2], dtype=np.int64)) def test_require_integers(offset_types): cls = offset_types with pytest.raises(ValueError, match="argument must be an integer"): cls(n=1.5) def test_tick_normalize_raises(tick_classes): # check that trying to create a Tick object with normalize=True raises # GH#21427 cls = tick_classes msg = "Tick offset with `normalize=True` are not allowed." with pytest.raises(ValueError, match=msg): cls(n=3, normalize=True) @pytest.mark.parametrize( "offset_kwargs, expected_arg", [ ({"nanoseconds": 1}, "1970-01-01 00:00:00.000000001"), ({"nanoseconds": 5}, "1970-01-01 00:00:00.000000005"), ({"nanoseconds": -1}, "1969-12-31 23:59:59.999999999"), ({"microseconds": 1}, "1970-01-01 00:00:00.000001"), ({"microseconds": -1}, "1969-12-31 23:59:59.999999"), ({"seconds": 1}, "1970-01-01 00:00:01"), ({"seconds": -1}, "1969-12-31 23:59:59"), ({"minutes": 1}, "1970-01-01 00:01:00"), ({"minutes": -1}, "1969-12-31 23:59:00"), ({"hours": 1}, "1970-01-01 01:00:00"), ({"hours": -1}, "1969-12-31 23:00:00"), ({"days": 1}, "1970-01-02 00:00:00"), ({"days": -1}, "1969-12-31 00:00:00"), ({"weeks": 1}, "1970-01-08 00:00:00"), ({"weeks": -1}, "1969-12-25 00:00:00"), ({"months": 1}, "1970-02-01 00:00:00"), ({"months": -1}, "1969-12-01 00:00:00"), ({"years": 1}, "1971-01-01 00:00:00"), ({"years": -1}, "1969-01-01 00:00:00"), ], ) def test_dateoffset_add_sub(offset_kwargs, expected_arg): offset = DateOffset(**offset_kwargs) ts = Timestamp(0) result = ts + offset expected = Timestamp(expected_arg) assert result == expected result -= offset assert result == ts result = offset + ts assert result == expected def test_dateoffset_add_sub_timestamp_with_nano(): offset = DateOffset(minutes=2, nanoseconds=9) ts = Timestamp(4) result = ts + offset expected = Timestamp("1970-01-01 00:02:00.000000013") assert result == expected result -= offset assert result == ts result = offset + ts assert result == expected @pytest.mark.parametrize( "attribute", [ "hours", "days", "weeks", "months", "years", ], ) def test_dateoffset_immutable(attribute): offset = DateOffset(**{attribute: 0}) msg = "DateOffset objects are immutable" with pytest.raises(AttributeError, match=msg): setattr(offset, attribute, 5) def test_dateoffset_misc(): oset = offsets.DateOffset(months=2, days=4) # it works oset.freqstr assert not offsets.DateOffset(months=2) == 2 @pytest.mark.parametrize("n", [-1, 1, 3]) def test_construct_int_arg_no_kwargs_assumed_days(n): # GH 45890, 45643 offset = DateOffset(n) assert offset._offset == timedelta(1) result = Timestamp(2022, 1, 2) + offset expected = Timestamp(2022, 1, 2 + n) assert result == expected @pytest.mark.parametrize( "offset, expected", [ ( DateOffset(minutes=7, nanoseconds=18), Timestamp("2022-01-01 00:07:00.000000018"), ), (DateOffset(nanoseconds=3), Timestamp("2022-01-01 00:00:00.000000003")), ], ) def test_dateoffset_add_sub_timestamp_series_with_nano(offset, expected): # GH 47856 start_time = Timestamp("2022-01-01") teststamp = start_time testseries = Series([start_time]) testseries = testseries + offset assert testseries[0] == expected testseries -= offset assert testseries[0] == teststamp testseries = offset + testseries assert testseries[0] == expected