import numpy as np import pytest import pandas as pd import pandas._testing as tm from pandas.core.arrays import TimedeltaArray class TestTimedeltaArrayConstructor: def test_only_1dim_accepted(self): # GH#25282 arr = np.array([0, 1, 2, 3], dtype="m8[h]").astype("m8[ns]") with pytest.raises(ValueError, match="Only 1-dimensional"): # 3-dim, we allow 2D to sneak in for ops purposes GH#29853 TimedeltaArray(arr.reshape(2, 2, 1)) with pytest.raises(ValueError, match="Only 1-dimensional"): # 0-dim TimedeltaArray(arr[[0]].squeeze()) def test_freq_validation(self): # ensure that the public constructor cannot create an invalid instance arr = np.array([0, 0, 1], dtype=np.int64) * 3600 * 10 ** 9 msg = ( "Inferred frequency None from passed values does not " "conform to passed frequency D" ) with pytest.raises(ValueError, match=msg): TimedeltaArray(arr.view("timedelta64[ns]"), freq="D") def test_non_array_raises(self): with pytest.raises(ValueError, match="list"): TimedeltaArray([1, 2, 3]) def test_other_type_raises(self): with pytest.raises(ValueError, match="dtype bool cannot be converted"): TimedeltaArray(np.array([1, 2, 3], dtype="bool")) def test_incorrect_dtype_raises(self): # TODO: why TypeError for 'category' but ValueError for i8? with pytest.raises( ValueError, match=r"category cannot be converted to timedelta64\[ns\]" ): TimedeltaArray(np.array([1, 2, 3], dtype="i8"), dtype="category") with pytest.raises( ValueError, match=r"dtype int64 cannot be converted to timedelta64\[ns\]", ): TimedeltaArray(np.array([1, 2, 3], dtype="i8"), dtype=np.dtype("int64")) def test_copy(self): data = np.array([1, 2, 3], dtype="m8[ns]") arr = TimedeltaArray(data, copy=False) assert arr._data is data arr = TimedeltaArray(data, copy=True) assert arr._data is not data assert arr._data.base is not data class TestTimedeltaArray: def test_np_sum(self): # GH#25282 vals = np.arange(5, dtype=np.int64).view("m8[h]").astype("m8[ns]") arr = TimedeltaArray(vals) result = np.sum(arr) assert result == vals.sum() result = np.sum(pd.TimedeltaIndex(arr)) assert result == vals.sum() def test_from_sequence_dtype(self): msg = "dtype .*object.* cannot be converted to timedelta64" with pytest.raises(ValueError, match=msg): TimedeltaArray._from_sequence([], dtype=object) def test_abs(self): vals = np.array([-3600 * 10 ** 9, "NaT", 7200 * 10 ** 9], dtype="m8[ns]") arr = TimedeltaArray(vals) evals = np.array([3600 * 10 ** 9, "NaT", 7200 * 10 ** 9], dtype="m8[ns]") expected = TimedeltaArray(evals) result = abs(arr) tm.assert_timedelta_array_equal(result, expected) def test_neg(self): vals = np.array([-3600 * 10 ** 9, "NaT", 7200 * 10 ** 9], dtype="m8[ns]") arr = TimedeltaArray(vals) evals = np.array([3600 * 10 ** 9, "NaT", -7200 * 10 ** 9], dtype="m8[ns]") expected = TimedeltaArray(evals) result = -arr tm.assert_timedelta_array_equal(result, expected) def test_neg_freq(self): tdi = pd.timedelta_range("2 Days", periods=4, freq="H") arr = TimedeltaArray(tdi, freq=tdi.freq) expected = TimedeltaArray(-tdi._data, freq=-tdi.freq) result = -arr tm.assert_timedelta_array_equal(result, expected) @pytest.mark.parametrize("dtype", [int, np.int32, np.int64, "uint32", "uint64"]) def test_astype_int(self, dtype): arr = TimedeltaArray._from_sequence([pd.Timedelta("1H"), pd.Timedelta("2H")]) result = arr.astype(dtype) if np.dtype(dtype).kind == "u": expected_dtype = np.dtype("uint64") else: expected_dtype = np.dtype("int64") expected = arr.astype(expected_dtype) assert result.dtype == expected_dtype tm.assert_numpy_array_equal(result, expected) def test_setitem_clears_freq(self): a = TimedeltaArray(pd.timedelta_range("1H", periods=2, freq="H")) a[0] = pd.Timedelta("1H") assert a.freq is None @pytest.mark.parametrize( "obj", [ pd.Timedelta(seconds=1), pd.Timedelta(seconds=1).to_timedelta64(), pd.Timedelta(seconds=1).to_pytimedelta(), ], ) def test_setitem_objects(self, obj): # make sure we accept timedelta64 and timedelta in addition to Timedelta tdi = pd.timedelta_range("2 Days", periods=4, freq="H") arr = TimedeltaArray(tdi, freq=tdi.freq) arr[0] = obj assert arr[0] == pd.Timedelta(seconds=1) @pytest.mark.parametrize( "other", [ 1, np.int64(1), 1.0, np.datetime64("NaT"), pd.Timestamp.now(), "invalid", np.arange(10, dtype="i8") * 24 * 3600 * 10 ** 9, (np.arange(10) * 24 * 3600 * 10 ** 9).view("datetime64[ns]"), pd.Timestamp.now().to_period("D"), ], ) @pytest.mark.parametrize("index", [True, False]) def test_searchsorted_invalid_types(self, other, index): data = np.arange(10, dtype="i8") * 24 * 3600 * 10 ** 9 arr = TimedeltaArray(data, freq="D") if index: arr = pd.Index(arr) msg = "|".join( [ "searchsorted requires compatible dtype or scalar", "Unexpected type for 'value'", ] ) with pytest.raises(TypeError, match=msg): arr.searchsorted(other) class TestReductions: @pytest.mark.parametrize("name", ["sum", "std", "min", "max", "median"]) @pytest.mark.parametrize("skipna", [True, False]) def test_reductions_empty(self, name, skipna): tdi = pd.TimedeltaIndex([]) arr = tdi.array result = getattr(tdi, name)(skipna=skipna) assert result is pd.NaT result = getattr(arr, name)(skipna=skipna) assert result is pd.NaT def test_min_max(self): arr = TimedeltaArray._from_sequence(["3H", "3H", "NaT", "2H", "5H", "4H"]) result = arr.min() expected = pd.Timedelta("2H") assert result == expected result = arr.max() expected = pd.Timedelta("5H") assert result == expected result = arr.min(skipna=False) assert result is pd.NaT result = arr.max(skipna=False) assert result is pd.NaT def test_sum(self): tdi = pd.TimedeltaIndex(["3H", "3H", "NaT", "2H", "5H", "4H"]) arr = tdi.array result = arr.sum(skipna=True) expected = pd.Timedelta(hours=17) assert isinstance(result, pd.Timedelta) assert result == expected result = tdi.sum(skipna=True) assert isinstance(result, pd.Timedelta) assert result == expected result = arr.sum(skipna=False) assert result is pd.NaT result = tdi.sum(skipna=False) assert result is pd.NaT result = arr.sum(min_count=9) assert result is pd.NaT result = tdi.sum(min_count=9) assert result is pd.NaT result = arr.sum(min_count=1) assert isinstance(result, pd.Timedelta) assert result == expected result = tdi.sum(min_count=1) assert isinstance(result, pd.Timedelta) assert result == expected def test_npsum(self): # GH#25335 np.sum should return a Timedelta, not timedelta64 tdi = pd.TimedeltaIndex(["3H", "3H", "2H", "5H", "4H"]) arr = tdi.array result = np.sum(tdi) expected = pd.Timedelta(hours=17) assert isinstance(result, pd.Timedelta) assert result == expected result = np.sum(arr) assert isinstance(result, pd.Timedelta) assert result == expected def test_std(self): tdi = pd.TimedeltaIndex(["0H", "4H", "NaT", "4H", "0H", "2H"]) arr = tdi.array result = arr.std(skipna=True) expected = pd.Timedelta(hours=2) assert isinstance(result, pd.Timedelta) assert result == expected result = tdi.std(skipna=True) assert isinstance(result, pd.Timedelta) assert result == expected result = arr.std(skipna=False) assert result is pd.NaT result = tdi.std(skipna=False) assert result is pd.NaT def test_median(self): tdi = pd.TimedeltaIndex(["0H", "3H", "NaT", "5H06m", "0H", "2H"]) arr = tdi.array result = arr.median(skipna=True) expected = pd.Timedelta(hours=2) assert isinstance(result, pd.Timedelta) assert result == expected result = tdi.median(skipna=True) assert isinstance(result, pd.Timedelta) assert result == expected result = arr.std(skipna=False) assert result is pd.NaT result = tdi.std(skipna=False) assert result is pd.NaT