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keshe/.venv/Lib/site-packages/pandas/tests/arrays/timedeltas/test_reductions.py

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6 months ago
import numpy as np
import pytest
import pandas as pd
from pandas import Timedelta
import pandas._testing as tm
from pandas.core import nanops
from pandas.core.arrays import TimedeltaArray
class TestReductions:
@pytest.mark.parametrize("name", ["std", "min", "max", "median", "mean"])
@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
@pytest.mark.parametrize("skipna", [True, False])
def test_sum_empty(self, skipna):
tdi = pd.TimedeltaIndex([])
arr = tdi.array
result = tdi.sum(skipna=skipna)
assert isinstance(result, Timedelta)
assert result == Timedelta(0)
result = arr.sum(skipna=skipna)
assert isinstance(result, Timedelta)
assert result == Timedelta(0)
def test_min_max(self, unit):
dtype = f"m8[{unit}]"
arr = TimedeltaArray._from_sequence(
["3h", "3h", "NaT", "2h", "5h", "4h"], dtype=dtype
)
result = arr.min()
expected = Timedelta("2h")
assert result == expected
result = arr.max()
expected = 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 = Timedelta(hours=17)
assert isinstance(result, Timedelta)
assert result == expected
result = tdi.sum(skipna=True)
assert isinstance(result, 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, Timedelta)
assert result == expected
result = tdi.sum(min_count=1)
assert isinstance(result, Timedelta)
assert result == expected
def test_npsum(self):
# GH#25282, 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 = Timedelta(hours=17)
assert isinstance(result, Timedelta)
assert result == expected
result = np.sum(arr)
assert isinstance(result, Timedelta)
assert result == expected
def test_sum_2d_skipna_false(self):
arr = np.arange(8).astype(np.int64).view("m8[s]").astype("m8[ns]").reshape(4, 2)
arr[-1, -1] = "Nat"
tda = TimedeltaArray._from_sequence(arr)
result = tda.sum(skipna=False)
assert result is pd.NaT
result = tda.sum(axis=0, skipna=False)
expected = pd.TimedeltaIndex([Timedelta(seconds=12), pd.NaT])._values
tm.assert_timedelta_array_equal(result, expected)
result = tda.sum(axis=1, skipna=False)
expected = pd.TimedeltaIndex(
[
Timedelta(seconds=1),
Timedelta(seconds=5),
Timedelta(seconds=9),
pd.NaT,
]
)._values
tm.assert_timedelta_array_equal(result, expected)
# Adding a Timestamp makes this a test for DatetimeArray.std
@pytest.mark.parametrize(
"add",
[
Timedelta(0),
pd.Timestamp("2021-01-01"),
pd.Timestamp("2021-01-01", tz="UTC"),
pd.Timestamp("2021-01-01", tz="Asia/Tokyo"),
],
)
def test_std(self, add):
tdi = pd.TimedeltaIndex(["0h", "4h", "NaT", "4h", "0h", "2h"]) + add
arr = tdi.array
result = arr.std(skipna=True)
expected = Timedelta(hours=2)
assert isinstance(result, Timedelta)
assert result == expected
result = tdi.std(skipna=True)
assert isinstance(result, Timedelta)
assert result == expected
if getattr(arr, "tz", None) is None:
result = nanops.nanstd(np.asarray(arr), skipna=True)
assert isinstance(result, np.timedelta64)
assert result == expected
result = arr.std(skipna=False)
assert result is pd.NaT
result = tdi.std(skipna=False)
assert result is pd.NaT
if getattr(arr, "tz", None) is None:
result = nanops.nanstd(np.asarray(arr), skipna=False)
assert isinstance(result, np.timedelta64)
assert np.isnat(result)
def test_median(self):
tdi = pd.TimedeltaIndex(["0h", "3h", "NaT", "5h06m", "0h", "2h"])
arr = tdi.array
result = arr.median(skipna=True)
expected = Timedelta(hours=2)
assert isinstance(result, Timedelta)
assert result == expected
result = tdi.median(skipna=True)
assert isinstance(result, Timedelta)
assert result == expected
result = arr.median(skipna=False)
assert result is pd.NaT
result = tdi.median(skipna=False)
assert result is pd.NaT
def test_mean(self):
tdi = pd.TimedeltaIndex(["0h", "3h", "NaT", "5h06m", "0h", "2h"])
arr = tdi._data
# manually verified result
expected = Timedelta(arr.dropna()._ndarray.mean())
result = arr.mean()
assert result == expected
result = arr.mean(skipna=False)
assert result is pd.NaT
result = arr.dropna().mean(skipna=False)
assert result == expected
result = arr.mean(axis=0)
assert result == expected
def test_mean_2d(self):
tdi = pd.timedelta_range("14 days", periods=6)
tda = tdi._data.reshape(3, 2)
result = tda.mean(axis=0)
expected = tda[1]
tm.assert_timedelta_array_equal(result, expected)
result = tda.mean(axis=1)
expected = tda[:, 0] + Timedelta(hours=12)
tm.assert_timedelta_array_equal(result, expected)
result = tda.mean(axis=None)
expected = tdi.mean()
assert result == expected