from datetime import ( datetime, timedelta, ) import operator import numpy as np import pytest import pytz from pandas._libs.tslibs import iNaT from pandas.compat.numpy import np_version_gte1p24p3 from pandas import ( DatetimeIndex, DatetimeTZDtype, Index, NaT, Period, Series, Timedelta, TimedeltaIndex, Timestamp, isna, offsets, ) import pandas._testing as tm from pandas.core import roperator from pandas.core.arrays import ( DatetimeArray, PeriodArray, TimedeltaArray, ) @pytest.mark.parametrize( "nat,idx", [ (Timestamp("NaT"), DatetimeArray), (Timedelta("NaT"), TimedeltaArray), (Period("NaT", freq="M"), PeriodArray), ], ) def test_nat_fields(nat, idx): for field in idx._field_ops: # weekday is a property of DTI, but a method # on NaT/Timestamp for compat with datetime if field == "weekday": continue result = getattr(NaT, field) assert np.isnan(result) result = getattr(nat, field) assert np.isnan(result) for field in idx._bool_ops: result = getattr(NaT, field) assert result is False result = getattr(nat, field) assert result is False def test_nat_vector_field_access(): idx = DatetimeIndex(["1/1/2000", None, None, "1/4/2000"]) for field in DatetimeArray._field_ops: # weekday is a property of DTI, but a method # on NaT/Timestamp for compat with datetime if field == "weekday": continue result = getattr(idx, field) expected = Index([getattr(x, field) for x in idx]) tm.assert_index_equal(result, expected) ser = Series(idx) for field in DatetimeArray._field_ops: # weekday is a property of DTI, but a method # on NaT/Timestamp for compat with datetime if field == "weekday": continue result = getattr(ser.dt, field) expected = [getattr(x, field) for x in idx] tm.assert_series_equal(result, Series(expected)) for field in DatetimeArray._bool_ops: result = getattr(ser.dt, field) expected = [getattr(x, field) for x in idx] tm.assert_series_equal(result, Series(expected)) @pytest.mark.parametrize("klass", [Timestamp, Timedelta, Period]) @pytest.mark.parametrize( "value", [None, np.nan, iNaT, float("nan"), NaT, "NaT", "nat", "", "NAT"] ) def test_identity(klass, value): assert klass(value) is NaT @pytest.mark.parametrize("klass", [Timestamp, Timedelta]) @pytest.mark.parametrize("method", ["round", "floor", "ceil"]) @pytest.mark.parametrize("freq", ["s", "5s", "min", "5min", "h", "5h"]) def test_round_nat(klass, method, freq): # see gh-14940 ts = klass("nat") round_method = getattr(ts, method) assert round_method(freq) is ts @pytest.mark.parametrize( "method", [ "astimezone", "combine", "ctime", "dst", "fromordinal", "fromtimestamp", "fromisocalendar", "isocalendar", "strftime", "strptime", "time", "timestamp", "timetuple", "timetz", "toordinal", "tzname", "utcfromtimestamp", "utcnow", "utcoffset", "utctimetuple", "timestamp", ], ) def test_nat_methods_raise(method): # see gh-9513, gh-17329 msg = f"NaTType does not support {method}" with pytest.raises(ValueError, match=msg): getattr(NaT, method)() @pytest.mark.parametrize("method", ["weekday", "isoweekday"]) def test_nat_methods_nan(method): # see gh-9513, gh-17329 assert np.isnan(getattr(NaT, method)()) @pytest.mark.parametrize( "method", ["date", "now", "replace", "today", "tz_convert", "tz_localize"] ) def test_nat_methods_nat(method): # see gh-8254, gh-9513, gh-17329 assert getattr(NaT, method)() is NaT @pytest.mark.parametrize( "get_nat", [lambda x: NaT, lambda x: Timedelta(x), lambda x: Timestamp(x)] ) def test_nat_iso_format(get_nat): # see gh-12300 assert get_nat("NaT").isoformat() == "NaT" assert get_nat("NaT").isoformat(timespec="nanoseconds") == "NaT" @pytest.mark.parametrize( "klass,expected", [ (Timestamp, ["normalize", "to_julian_date", "to_period", "unit"]), ( Timedelta, [ "components", "resolution_string", "to_pytimedelta", "to_timedelta64", "unit", "view", ], ), ], ) def test_missing_public_nat_methods(klass, expected): # see gh-17327 # # NaT should have *most* of the Timestamp and Timedelta methods. # Here, we check which public methods NaT does not have. We # ignore any missing private methods. nat_names = dir(NaT) klass_names = dir(klass) missing = [x for x in klass_names if x not in nat_names and not x.startswith("_")] missing.sort() assert missing == expected def _get_overlap_public_nat_methods(klass, as_tuple=False): """ Get overlapping public methods between NaT and another class. Parameters ---------- klass : type The class to compare with NaT as_tuple : bool, default False Whether to return a list of tuples of the form (klass, method). Returns ------- overlap : list """ nat_names = dir(NaT) klass_names = dir(klass) overlap = [ x for x in nat_names if x in klass_names and not x.startswith("_") and callable(getattr(klass, x)) ] # Timestamp takes precedence over Timedelta in terms of overlap. if klass is Timedelta: ts_names = dir(Timestamp) overlap = [x for x in overlap if x not in ts_names] if as_tuple: overlap = [(klass, method) for method in overlap] overlap.sort() return overlap @pytest.mark.parametrize( "klass,expected", [ ( Timestamp, [ "as_unit", "astimezone", "ceil", "combine", "ctime", "date", "day_name", "dst", "floor", "fromisocalendar", "fromisoformat", "fromordinal", "fromtimestamp", "isocalendar", "isoformat", "isoweekday", "month_name", "now", "replace", "round", "strftime", "strptime", "time", "timestamp", "timetuple", "timetz", "to_datetime64", "to_numpy", "to_pydatetime", "today", "toordinal", "tz_convert", "tz_localize", "tzname", "utcfromtimestamp", "utcnow", "utcoffset", "utctimetuple", "weekday", ], ), (Timedelta, ["total_seconds"]), ], ) def test_overlap_public_nat_methods(klass, expected): # see gh-17327 # # NaT should have *most* of the Timestamp and Timedelta methods. # In case when Timestamp, Timedelta, and NaT are overlap, the overlap # is considered to be with Timestamp and NaT, not Timedelta. assert _get_overlap_public_nat_methods(klass) == expected @pytest.mark.parametrize( "compare", ( _get_overlap_public_nat_methods(Timestamp, True) + _get_overlap_public_nat_methods(Timedelta, True) ), ids=lambda x: f"{x[0].__name__}.{x[1]}", ) def test_nat_doc_strings(compare): # see gh-17327 # # The docstrings for overlapping methods should match. klass, method = compare klass_doc = getattr(klass, method).__doc__ if klass == Timestamp and method == "isoformat": pytest.skip( "Ignore differences with Timestamp.isoformat() as they're intentional" ) if method == "to_numpy": # GH#44460 can return either dt64 or td64 depending on dtype, # different docstring is intentional pytest.skip(f"different docstring for {method} is intentional") nat_doc = getattr(NaT, method).__doc__ assert klass_doc == nat_doc _ops = { "left_plus_right": lambda a, b: a + b, "right_plus_left": lambda a, b: b + a, "left_minus_right": lambda a, b: a - b, "right_minus_left": lambda a, b: b - a, "left_times_right": lambda a, b: a * b, "right_times_left": lambda a, b: b * a, "left_div_right": lambda a, b: a / b, "right_div_left": lambda a, b: b / a, } @pytest.mark.parametrize("op_name", list(_ops.keys())) @pytest.mark.parametrize( "value,val_type", [ (2, "scalar"), (1.5, "floating"), (np.nan, "floating"), ("foo", "str"), (timedelta(3600), "timedelta"), (Timedelta("5s"), "timedelta"), (datetime(2014, 1, 1), "timestamp"), (Timestamp("2014-01-01"), "timestamp"), (Timestamp("2014-01-01", tz="UTC"), "timestamp"), (Timestamp("2014-01-01", tz="US/Eastern"), "timestamp"), (pytz.timezone("Asia/Tokyo").localize(datetime(2014, 1, 1)), "timestamp"), ], ) def test_nat_arithmetic_scalar(op_name, value, val_type): # see gh-6873 invalid_ops = { "scalar": {"right_div_left"}, "floating": { "right_div_left", "left_minus_right", "right_minus_left", "left_plus_right", "right_plus_left", }, "str": set(_ops.keys()), "timedelta": {"left_times_right", "right_times_left"}, "timestamp": { "left_times_right", "right_times_left", "left_div_right", "right_div_left", }, } op = _ops[op_name] if op_name in invalid_ops.get(val_type, set()): if ( val_type == "timedelta" and "times" in op_name and isinstance(value, Timedelta) ): typs = "(Timedelta|NaTType)" msg = rf"unsupported operand type\(s\) for \*: '{typs}' and '{typs}'" elif val_type == "str": # un-specific check here because the message comes from str # and varies by method msg = "|".join( [ "can only concatenate str", "unsupported operand type", "can't multiply sequence", "Can't convert 'NaTType'", "must be str, not NaTType", ] ) else: msg = "unsupported operand type" with pytest.raises(TypeError, match=msg): op(NaT, value) else: if val_type == "timedelta" and "div" in op_name: expected = np.nan else: expected = NaT assert op(NaT, value) is expected @pytest.mark.parametrize( "val,expected", [(np.nan, NaT), (NaT, np.nan), (np.timedelta64("NaT"), np.nan)] ) def test_nat_rfloordiv_timedelta(val, expected): # see gh-#18846 # # See also test_timedelta.TestTimedeltaArithmetic.test_floordiv td = Timedelta(hours=3, minutes=4) assert td // val is expected @pytest.mark.parametrize( "op_name", ["left_plus_right", "right_plus_left", "left_minus_right", "right_minus_left"], ) @pytest.mark.parametrize( "value", [ DatetimeIndex(["2011-01-01", "2011-01-02"], name="x"), DatetimeIndex(["2011-01-01", "2011-01-02"], tz="US/Eastern", name="x"), DatetimeArray._from_sequence(["2011-01-01", "2011-01-02"]), DatetimeArray._from_sequence( ["2011-01-01", "2011-01-02"], dtype=DatetimeTZDtype(tz="US/Pacific") ), TimedeltaIndex(["1 day", "2 day"], name="x"), ], ) def test_nat_arithmetic_index(op_name, value): # see gh-11718 exp_name = "x" exp_data = [NaT] * 2 if value.dtype.kind == "M" and "plus" in op_name: expected = DatetimeIndex(exp_data, tz=value.tz, name=exp_name) else: expected = TimedeltaIndex(exp_data, name=exp_name) if not isinstance(value, Index): expected = expected.array op = _ops[op_name] result = op(NaT, value) tm.assert_equal(result, expected) @pytest.mark.parametrize( "op_name", ["left_plus_right", "right_plus_left", "left_minus_right", "right_minus_left"], ) @pytest.mark.parametrize("box", [TimedeltaIndex, Series, TimedeltaArray._from_sequence]) def test_nat_arithmetic_td64_vector(op_name, box): # see gh-19124 vec = box(["1 day", "2 day"], dtype="timedelta64[ns]") box_nat = box([NaT, NaT], dtype="timedelta64[ns]") tm.assert_equal(_ops[op_name](vec, NaT), box_nat) @pytest.mark.parametrize( "dtype,op,out_dtype", [ ("datetime64[ns]", operator.add, "datetime64[ns]"), ("datetime64[ns]", roperator.radd, "datetime64[ns]"), ("datetime64[ns]", operator.sub, "timedelta64[ns]"), ("datetime64[ns]", roperator.rsub, "timedelta64[ns]"), ("timedelta64[ns]", operator.add, "datetime64[ns]"), ("timedelta64[ns]", roperator.radd, "datetime64[ns]"), ("timedelta64[ns]", operator.sub, "datetime64[ns]"), ("timedelta64[ns]", roperator.rsub, "timedelta64[ns]"), ], ) def test_nat_arithmetic_ndarray(dtype, op, out_dtype): other = np.arange(10).astype(dtype) result = op(NaT, other) expected = np.empty(other.shape, dtype=out_dtype) expected.fill("NaT") tm.assert_numpy_array_equal(result, expected) def test_nat_pinned_docstrings(): # see gh-17327 assert NaT.ctime.__doc__ == Timestamp.ctime.__doc__ def test_to_numpy_alias(): # GH 24653: alias .to_numpy() for scalars expected = NaT.to_datetime64() result = NaT.to_numpy() assert isna(expected) and isna(result) # GH#44460 result = NaT.to_numpy("M8[s]") assert isinstance(result, np.datetime64) assert result.dtype == "M8[s]" result = NaT.to_numpy("m8[ns]") assert isinstance(result, np.timedelta64) assert result.dtype == "m8[ns]" result = NaT.to_numpy("m8[s]") assert isinstance(result, np.timedelta64) assert result.dtype == "m8[s]" with pytest.raises(ValueError, match="NaT.to_numpy dtype must be a "): NaT.to_numpy(np.int64) @pytest.mark.parametrize( "other", [ Timedelta(0), Timedelta(0).to_pytimedelta(), pytest.param( Timedelta(0).to_timedelta64(), marks=pytest.mark.xfail( not np_version_gte1p24p3, reason="td64 doesn't return NotImplemented, see numpy#17017", ), ), Timestamp(0), Timestamp(0).to_pydatetime(), pytest.param( Timestamp(0).to_datetime64(), marks=pytest.mark.xfail( not np_version_gte1p24p3, reason="dt64 doesn't return NotImplemented, see numpy#17017", ), ), Timestamp(0).tz_localize("UTC"), NaT, ], ) def test_nat_comparisons(compare_operators_no_eq_ne, other): # GH 26039 opname = compare_operators_no_eq_ne assert getattr(NaT, opname)(other) is False op = getattr(operator, opname.strip("_")) assert op(NaT, other) is False assert op(other, NaT) is False @pytest.mark.parametrize("other", [np.timedelta64(0, "ns"), np.datetime64("now", "ns")]) def test_nat_comparisons_numpy(other): # Once numpy#17017 is fixed and the xfailed cases in test_nat_comparisons # pass, this test can be removed assert not NaT == other assert NaT != other assert not NaT < other assert not NaT > other assert not NaT <= other assert not NaT >= other @pytest.mark.parametrize("other_and_type", [("foo", "str"), (2, "int"), (2.0, "float")]) @pytest.mark.parametrize( "symbol_and_op", [("<=", operator.le), ("<", operator.lt), (">=", operator.ge), (">", operator.gt)], ) def test_nat_comparisons_invalid(other_and_type, symbol_and_op): # GH#35585 other, other_type = other_and_type symbol, op = symbol_and_op assert not NaT == other assert not other == NaT assert NaT != other assert other != NaT msg = f"'{symbol}' not supported between instances of 'NaTType' and '{other_type}'" with pytest.raises(TypeError, match=msg): op(NaT, other) msg = f"'{symbol}' not supported between instances of '{other_type}' and 'NaTType'" with pytest.raises(TypeError, match=msg): op(other, NaT) @pytest.mark.parametrize( "other", [ np.array(["foo"] * 2, dtype=object), np.array([2, 3], dtype="int64"), np.array([2.0, 3.5], dtype="float64"), ], ids=["str", "int", "float"], ) def test_nat_comparisons_invalid_ndarray(other): # GH#40722 expected = np.array([False, False]) result = NaT == other tm.assert_numpy_array_equal(result, expected) result = other == NaT tm.assert_numpy_array_equal(result, expected) expected = np.array([True, True]) result = NaT != other tm.assert_numpy_array_equal(result, expected) result = other != NaT tm.assert_numpy_array_equal(result, expected) for symbol, op in [ ("<=", operator.le), ("<", operator.lt), (">=", operator.ge), (">", operator.gt), ]: msg = f"'{symbol}' not supported between" with pytest.raises(TypeError, match=msg): op(NaT, other) if other.dtype == np.dtype("object"): # uses the reverse operator, so symbol changes msg = None with pytest.raises(TypeError, match=msg): op(other, NaT) def test_compare_date(fixed_now_ts): # GH#39151 comparing NaT with date object is deprecated # See also: tests.scalar.timestamps.test_comparisons::test_compare_date dt = fixed_now_ts.to_pydatetime().date() msg = "Cannot compare NaT with datetime.date object" for left, right in [(NaT, dt), (dt, NaT)]: assert not left == right assert left != right with pytest.raises(TypeError, match=msg): left < right with pytest.raises(TypeError, match=msg): left <= right with pytest.raises(TypeError, match=msg): left > right with pytest.raises(TypeError, match=msg): left >= right @pytest.mark.parametrize( "obj", [ offsets.YearEnd(2), offsets.YearBegin(2), offsets.MonthBegin(1), offsets.MonthEnd(2), offsets.MonthEnd(12), offsets.Day(2), offsets.Day(5), offsets.Hour(24), offsets.Hour(3), offsets.Minute(), np.timedelta64(3, "h"), np.timedelta64(4, "h"), np.timedelta64(3200, "s"), np.timedelta64(3600, "s"), np.timedelta64(3600 * 24, "s"), np.timedelta64(2, "D"), np.timedelta64(365, "D"), timedelta(-2), timedelta(365), timedelta(minutes=120), timedelta(days=4, minutes=180), timedelta(hours=23), timedelta(hours=23, minutes=30), timedelta(hours=48), ], ) def test_nat_addsub_tdlike_scalar(obj): assert NaT + obj is NaT assert obj + NaT is NaT assert NaT - obj is NaT def test_pickle(): # GH#4606 p = tm.round_trip_pickle(NaT) assert p is NaT