ai-content-maker/.venv/Lib/site-packages/pandas/tests/scalar/timedelta/test_arithmetic.py

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"""
Tests for scalar Timedelta arithmetic ops
"""
from datetime import (
datetime,
timedelta,
)
import operator
import numpy as np
import pytest
from pandas.errors import OutOfBoundsTimedelta
import pandas as pd
from pandas import (
NaT,
Timedelta,
Timestamp,
offsets,
)
import pandas._testing as tm
from pandas.core import ops
class TestTimedeltaAdditionSubtraction:
"""
Tests for Timedelta methods:
__add__, __radd__,
__sub__, __rsub__
"""
@pytest.mark.parametrize(
"ten_seconds",
[
Timedelta(10, unit="s"),
timedelta(seconds=10),
np.timedelta64(10, "s"),
np.timedelta64(10000000000, "ns"),
offsets.Second(10),
],
)
def test_td_add_sub_ten_seconds(self, ten_seconds):
# GH#6808
base = Timestamp("20130101 09:01:12.123456")
expected_add = Timestamp("20130101 09:01:22.123456")
expected_sub = Timestamp("20130101 09:01:02.123456")
result = base + ten_seconds
assert result == expected_add
result = base - ten_seconds
assert result == expected_sub
@pytest.mark.parametrize(
"one_day_ten_secs",
[
Timedelta("1 day, 00:00:10"),
Timedelta("1 days, 00:00:10"),
timedelta(days=1, seconds=10),
np.timedelta64(1, "D") + np.timedelta64(10, "s"),
offsets.Day() + offsets.Second(10),
],
)
def test_td_add_sub_one_day_ten_seconds(self, one_day_ten_secs):
# GH#6808
base = Timestamp("20130102 09:01:12.123456")
expected_add = Timestamp("20130103 09:01:22.123456")
expected_sub = Timestamp("20130101 09:01:02.123456")
result = base + one_day_ten_secs
assert result == expected_add
result = base - one_day_ten_secs
assert result == expected_sub
@pytest.mark.parametrize("op", [operator.add, ops.radd])
def test_td_add_datetimelike_scalar(self, op):
# GH#19738
td = Timedelta(10, unit="d")
result = op(td, datetime(2016, 1, 1))
if op is operator.add:
# datetime + Timedelta does _not_ call Timedelta.__radd__,
# so we get a datetime back instead of a Timestamp
assert isinstance(result, Timestamp)
assert result == Timestamp(2016, 1, 11)
result = op(td, Timestamp("2018-01-12 18:09"))
assert isinstance(result, Timestamp)
assert result == Timestamp("2018-01-22 18:09")
result = op(td, np.datetime64("2018-01-12"))
assert isinstance(result, Timestamp)
assert result == Timestamp("2018-01-22")
result = op(td, NaT)
assert result is NaT
def test_td_add_timestamp_overflow(self):
msg = "Cannot cast 259987 from D to 'ns' without overflow"
with pytest.raises(OutOfBoundsTimedelta, match=msg):
Timestamp("1700-01-01") + Timedelta(13 * 19999, unit="D")
msg = "Cannot cast 259987 days, 0:00:00 to unit=ns without overflow"
with pytest.raises(OutOfBoundsTimedelta, match=msg):
Timestamp("1700-01-01") + timedelta(days=13 * 19999)
@pytest.mark.parametrize("op", [operator.add, ops.radd])
def test_td_add_td(self, op):
td = Timedelta(10, unit="d")
result = op(td, Timedelta(days=10))
assert isinstance(result, Timedelta)
assert result == Timedelta(days=20)
@pytest.mark.parametrize("op", [operator.add, ops.radd])
def test_td_add_pytimedelta(self, op):
td = Timedelta(10, unit="d")
result = op(td, timedelta(days=9))
assert isinstance(result, Timedelta)
assert result == Timedelta(days=19)
@pytest.mark.parametrize("op", [operator.add, ops.radd])
def test_td_add_timedelta64(self, op):
td = Timedelta(10, unit="d")
result = op(td, np.timedelta64(-4, "D"))
assert isinstance(result, Timedelta)
assert result == Timedelta(days=6)
@pytest.mark.parametrize("op", [operator.add, ops.radd])
def test_td_add_offset(self, op):
td = Timedelta(10, unit="d")
result = op(td, offsets.Hour(6))
assert isinstance(result, Timedelta)
assert result == Timedelta(days=10, hours=6)
def test_td_sub_td(self):
td = Timedelta(10, unit="d")
expected = Timedelta(0, unit="ns")
result = td - td
assert isinstance(result, Timedelta)
assert result == expected
def test_td_sub_pytimedelta(self):
td = Timedelta(10, unit="d")
expected = Timedelta(0, unit="ns")
result = td - td.to_pytimedelta()
assert isinstance(result, Timedelta)
assert result == expected
result = td.to_pytimedelta() - td
assert isinstance(result, Timedelta)
assert result == expected
def test_td_sub_timedelta64(self):
td = Timedelta(10, unit="d")
expected = Timedelta(0, unit="ns")
result = td - td.to_timedelta64()
assert isinstance(result, Timedelta)
assert result == expected
result = td.to_timedelta64() - td
assert isinstance(result, Timedelta)
assert result == expected
def test_td_sub_nat(self):
# In this context pd.NaT is treated as timedelta-like
td = Timedelta(10, unit="d")
result = td - NaT
assert result is NaT
def test_td_sub_td64_nat(self):
td = Timedelta(10, unit="d")
td_nat = np.timedelta64("NaT")
result = td - td_nat
assert result is NaT
result = td_nat - td
assert result is NaT
def test_td_sub_offset(self):
td = Timedelta(10, unit="d")
result = td - offsets.Hour(1)
assert isinstance(result, Timedelta)
assert result == Timedelta(239, unit="h")
def test_td_add_sub_numeric_raises(self):
td = Timedelta(10, unit="d")
msg = "unsupported operand type"
for other in [2, 2.0, np.int64(2), np.float64(2)]:
with pytest.raises(TypeError, match=msg):
td + other
with pytest.raises(TypeError, match=msg):
other + td
with pytest.raises(TypeError, match=msg):
td - other
with pytest.raises(TypeError, match=msg):
other - td
def test_td_add_sub_int_ndarray(self):
td = Timedelta("1 day")
other = np.array([1])
msg = r"unsupported operand type\(s\) for \+: 'Timedelta' and 'int'"
with pytest.raises(TypeError, match=msg):
td + np.array([1])
msg = "|".join(
[
(
r"unsupported operand type\(s\) for \+: 'numpy.ndarray' "
"and 'Timedelta'"
),
# This message goes on to say "Please do not rely on this error;
# it may not be given on all Python implementations"
"Concatenation operation is not implemented for NumPy arrays",
]
)
with pytest.raises(TypeError, match=msg):
other + td
msg = r"unsupported operand type\(s\) for -: 'Timedelta' and 'int'"
with pytest.raises(TypeError, match=msg):
td - other
msg = r"unsupported operand type\(s\) for -: 'numpy.ndarray' and 'Timedelta'"
with pytest.raises(TypeError, match=msg):
other - td
def test_td_rsub_nat(self):
td = Timedelta(10, unit="d")
result = NaT - td
assert result is NaT
result = np.datetime64("NaT") - td
assert result is NaT
def test_td_rsub_offset(self):
result = offsets.Hour(1) - Timedelta(10, unit="d")
assert isinstance(result, Timedelta)
assert result == Timedelta(-239, unit="h")
def test_td_sub_timedeltalike_object_dtype_array(self):
# GH#21980
arr = np.array([Timestamp("20130101 9:01"), Timestamp("20121230 9:02")])
exp = np.array([Timestamp("20121231 9:01"), Timestamp("20121229 9:02")])
res = arr - Timedelta("1D")
tm.assert_numpy_array_equal(res, exp)
def test_td_sub_mixed_most_timedeltalike_object_dtype_array(self):
# GH#21980
now = Timestamp("2021-11-09 09:54:00")
arr = np.array([now, Timedelta("1D"), np.timedelta64(2, "h")])
exp = np.array(
[
now - Timedelta("1D"),
Timedelta("0D"),
np.timedelta64(2, "h") - Timedelta("1D"),
]
)
res = arr - Timedelta("1D")
tm.assert_numpy_array_equal(res, exp)
def test_td_rsub_mixed_most_timedeltalike_object_dtype_array(self):
# GH#21980
now = Timestamp("2021-11-09 09:54:00")
arr = np.array([now, Timedelta("1D"), np.timedelta64(2, "h")])
msg = r"unsupported operand type\(s\) for \-: 'Timedelta' and 'Timestamp'"
with pytest.raises(TypeError, match=msg):
Timedelta("1D") - arr
@pytest.mark.parametrize("op", [operator.add, ops.radd])
def test_td_add_timedeltalike_object_dtype_array(self, op):
# GH#21980
arr = np.array([Timestamp("20130101 9:01"), Timestamp("20121230 9:02")])
exp = np.array([Timestamp("20130102 9:01"), Timestamp("20121231 9:02")])
res = op(arr, Timedelta("1D"))
tm.assert_numpy_array_equal(res, exp)
@pytest.mark.parametrize("op", [operator.add, ops.radd])
def test_td_add_mixed_timedeltalike_object_dtype_array(self, op):
# GH#21980
now = Timestamp("2021-11-09 09:54:00")
arr = np.array([now, Timedelta("1D")])
exp = np.array([now + Timedelta("1D"), Timedelta("2D")])
res = op(arr, Timedelta("1D"))
tm.assert_numpy_array_equal(res, exp)
def test_td_add_sub_td64_ndarray(self):
td = Timedelta("1 day")
other = np.array([td.to_timedelta64()])
expected = np.array([Timedelta("2 Days").to_timedelta64()])
result = td + other
tm.assert_numpy_array_equal(result, expected)
result = other + td
tm.assert_numpy_array_equal(result, expected)
result = td - other
tm.assert_numpy_array_equal(result, expected * 0)
result = other - td
tm.assert_numpy_array_equal(result, expected * 0)
def test_td_add_sub_dt64_ndarray(self):
td = Timedelta("1 day")
other = pd.to_datetime(["2000-01-01"]).values
expected = pd.to_datetime(["2000-01-02"]).values
tm.assert_numpy_array_equal(td + other, expected)
tm.assert_numpy_array_equal(other + td, expected)
expected = pd.to_datetime(["1999-12-31"]).values
tm.assert_numpy_array_equal(-td + other, expected)
tm.assert_numpy_array_equal(other - td, expected)
def test_td_add_sub_ndarray_0d(self):
td = Timedelta("1 day")
other = np.array(td.asm8)
result = td + other
assert isinstance(result, Timedelta)
assert result == 2 * td
result = other + td
assert isinstance(result, Timedelta)
assert result == 2 * td
result = other - td
assert isinstance(result, Timedelta)
assert result == 0 * td
result = td - other
assert isinstance(result, Timedelta)
assert result == 0 * td
class TestTimedeltaMultiplicationDivision:
"""
Tests for Timedelta methods:
__mul__, __rmul__,
__div__, __rdiv__,
__truediv__, __rtruediv__,
__floordiv__, __rfloordiv__,
__mod__, __rmod__,
__divmod__, __rdivmod__
"""
# ---------------------------------------------------------------
# Timedelta.__mul__, __rmul__
@pytest.mark.parametrize(
"td_nat", [NaT, np.timedelta64("NaT", "ns"), np.timedelta64("NaT")]
)
@pytest.mark.parametrize("op", [operator.mul, ops.rmul])
def test_td_mul_nat(self, op, td_nat):
# GH#19819
td = Timedelta(10, unit="d")
typs = "|".join(["numpy.timedelta64", "NaTType", "Timedelta"])
msg = "|".join(
[
rf"unsupported operand type\(s\) for \*: '{typs}' and '{typs}'",
r"ufunc '?multiply'? cannot use operands with types",
]
)
with pytest.raises(TypeError, match=msg):
op(td, td_nat)
@pytest.mark.parametrize("nan", [np.nan, np.float64("NaN"), float("nan")])
@pytest.mark.parametrize("op", [operator.mul, ops.rmul])
def test_td_mul_nan(self, op, nan):
# np.float64('NaN') has a 'dtype' attr, avoid treating as array
td = Timedelta(10, unit="d")
result = op(td, nan)
assert result is NaT
@pytest.mark.parametrize("op", [operator.mul, ops.rmul])
def test_td_mul_scalar(self, op):
# GH#19738
td = Timedelta(minutes=3)
result = op(td, 2)
assert result == Timedelta(minutes=6)
result = op(td, 1.5)
assert result == Timedelta(minutes=4, seconds=30)
assert op(td, np.nan) is NaT
assert op(-1, td).value == -1 * td.value
assert op(-1.0, td).value == -1.0 * td.value
msg = "unsupported operand type"
with pytest.raises(TypeError, match=msg):
# timedelta * datetime is gibberish
op(td, Timestamp(2016, 1, 2))
with pytest.raises(TypeError, match=msg):
# invalid multiply with another timedelta
op(td, td)
def test_td_mul_numeric_ndarray(self):
td = Timedelta("1 day")
other = np.array([2])
expected = np.array([Timedelta("2 Days").to_timedelta64()])
result = td * other
tm.assert_numpy_array_equal(result, expected)
result = other * td
tm.assert_numpy_array_equal(result, expected)
def test_td_mul_numeric_ndarray_0d(self):
td = Timedelta("1 day")
other = np.array(2)
assert other.ndim == 0
expected = Timedelta("2 days")
res = td * other
assert type(res) is Timedelta
assert res == expected
res = other * td
assert type(res) is Timedelta
assert res == expected
def test_td_mul_td64_ndarray_invalid(self):
td = Timedelta("1 day")
other = np.array([Timedelta("2 Days").to_timedelta64()])
msg = (
"ufunc '?multiply'? cannot use operands with types "
r"dtype\('<m8\[ns\]'\) and dtype\('<m8\[ns\]'\)"
)
with pytest.raises(TypeError, match=msg):
td * other
with pytest.raises(TypeError, match=msg):
other * td
# ---------------------------------------------------------------
# Timedelta.__div__, __truediv__
def test_td_div_timedeltalike_scalar(self):
# GH#19738
td = Timedelta(10, unit="d")
result = td / offsets.Hour(1)
assert result == 240
assert td / td == 1
assert td / np.timedelta64(60, "h") == 4
assert np.isnan(td / NaT)
def test_td_div_td64_non_nano(self):
# truediv
td = Timedelta("1 days 2 hours 3 ns")
result = td / np.timedelta64(1, "D")
assert result == td.value / (86400 * 10**9)
result = td / np.timedelta64(1, "s")
assert result == td.value / 10**9
result = td / np.timedelta64(1, "ns")
assert result == td.value
# floordiv
td = Timedelta("1 days 2 hours 3 ns")
result = td // np.timedelta64(1, "D")
assert result == 1
result = td // np.timedelta64(1, "s")
assert result == 93600
result = td // np.timedelta64(1, "ns")
assert result == td.value
def test_td_div_numeric_scalar(self):
# GH#19738
td = Timedelta(10, unit="d")
result = td / 2
assert isinstance(result, Timedelta)
assert result == Timedelta(days=5)
result = td / 5
assert isinstance(result, Timedelta)
assert result == Timedelta(days=2)
@pytest.mark.parametrize(
"nan",
[
np.nan,
np.float64("NaN"),
float("nan"),
],
)
def test_td_div_nan(self, nan):
# np.float64('NaN') has a 'dtype' attr, avoid treating as array
td = Timedelta(10, unit="d")
result = td / nan
assert result is NaT
result = td // nan
assert result is NaT
def test_td_div_td64_ndarray(self):
td = Timedelta("1 day")
other = np.array([Timedelta("2 Days").to_timedelta64()])
expected = np.array([0.5])
result = td / other
tm.assert_numpy_array_equal(result, expected)
result = other / td
tm.assert_numpy_array_equal(result, expected * 4)
def test_td_div_ndarray_0d(self):
td = Timedelta("1 day")
other = np.array(1)
res = td / other
assert isinstance(res, Timedelta)
assert res == td
# ---------------------------------------------------------------
# Timedelta.__rdiv__
def test_td_rdiv_timedeltalike_scalar(self):
# GH#19738
td = Timedelta(10, unit="d")
result = offsets.Hour(1) / td
assert result == 1 / 240.0
assert np.timedelta64(60, "h") / td == 0.25
def test_td_rdiv_na_scalar(self):
# GH#31869 None gets cast to NaT
td = Timedelta(10, unit="d")
result = NaT / td
assert np.isnan(result)
result = None / td
assert np.isnan(result)
result = np.timedelta64("NaT") / td
assert np.isnan(result)
msg = r"unsupported operand type\(s\) for /: 'numpy.datetime64' and 'Timedelta'"
with pytest.raises(TypeError, match=msg):
np.datetime64("NaT") / td
msg = r"unsupported operand type\(s\) for /: 'float' and 'Timedelta'"
with pytest.raises(TypeError, match=msg):
np.nan / td
def test_td_rdiv_ndarray(self):
td = Timedelta(10, unit="d")
arr = np.array([td], dtype=object)
result = arr / td
expected = np.array([1], dtype=np.float64)
tm.assert_numpy_array_equal(result, expected)
arr = np.array([None])
result = arr / td
expected = np.array([np.nan])
tm.assert_numpy_array_equal(result, expected)
arr = np.array([np.nan], dtype=object)
msg = r"unsupported operand type\(s\) for /: 'float' and 'Timedelta'"
with pytest.raises(TypeError, match=msg):
arr / td
arr = np.array([np.nan], dtype=np.float64)
msg = "cannot use operands with types dtype"
with pytest.raises(TypeError, match=msg):
arr / td
def test_td_rdiv_ndarray_0d(self):
td = Timedelta(10, unit="d")
arr = np.array(td.asm8)
assert arr / td == 1
# ---------------------------------------------------------------
# Timedelta.__floordiv__
def test_td_floordiv_timedeltalike_scalar(self):
# GH#18846
td = Timedelta(hours=3, minutes=4)
scalar = Timedelta(hours=3, minutes=3)
assert td // scalar == 1
assert -td // scalar.to_pytimedelta() == -2
assert (2 * td) // scalar.to_timedelta64() == 2
def test_td_floordiv_null_scalar(self):
# GH#18846
td = Timedelta(hours=3, minutes=4)
assert td // np.nan is NaT
assert np.isnan(td // NaT)
assert np.isnan(td // np.timedelta64("NaT"))
def test_td_floordiv_offsets(self):
# GH#19738
td = Timedelta(hours=3, minutes=4)
assert td // offsets.Hour(1) == 3
assert td // offsets.Minute(2) == 92
def test_td_floordiv_invalid_scalar(self):
# GH#18846
td = Timedelta(hours=3, minutes=4)
msg = "|".join(
[
r"Invalid dtype datetime64\[D\] for __floordiv__",
"'dtype' is an invalid keyword argument for this function",
r"ufunc '?floor_divide'? cannot use operands with types",
]
)
with pytest.raises(TypeError, match=msg):
td // np.datetime64("2016-01-01", dtype="datetime64[us]")
def test_td_floordiv_numeric_scalar(self):
# GH#18846
td = Timedelta(hours=3, minutes=4)
expected = Timedelta(hours=1, minutes=32)
assert td // 2 == expected
assert td // 2.0 == expected
assert td // np.float64(2.0) == expected
assert td // np.int32(2.0) == expected
assert td // np.uint8(2.0) == expected
def test_td_floordiv_timedeltalike_array(self):
# GH#18846
td = Timedelta(hours=3, minutes=4)
scalar = Timedelta(hours=3, minutes=3)
# Array-like others
assert td // np.array(scalar.to_timedelta64()) == 1
res = (3 * td) // np.array([scalar.to_timedelta64()])
expected = np.array([3], dtype=np.int64)
tm.assert_numpy_array_equal(res, expected)
res = (10 * td) // np.array([scalar.to_timedelta64(), np.timedelta64("NaT")])
expected = np.array([10, np.nan])
tm.assert_numpy_array_equal(res, expected)
def test_td_floordiv_numeric_series(self):
# GH#18846
td = Timedelta(hours=3, minutes=4)
ser = pd.Series([1], dtype=np.int64)
res = td // ser
assert res.dtype.kind == "m"
# ---------------------------------------------------------------
# Timedelta.__rfloordiv__
def test_td_rfloordiv_timedeltalike_scalar(self):
# GH#18846
td = Timedelta(hours=3, minutes=3)
scalar = Timedelta(hours=3, minutes=4)
# scalar others
# x // Timedelta is defined only for timedelta-like x. int-like,
# float-like, and date-like, in particular, should all either
# a) raise TypeError directly or
# b) return NotImplemented, following which the reversed
# operation will raise TypeError.
assert td.__rfloordiv__(scalar) == 1
assert (-td).__rfloordiv__(scalar.to_pytimedelta()) == -2
assert (2 * td).__rfloordiv__(scalar.to_timedelta64()) == 0
def test_td_rfloordiv_null_scalar(self):
# GH#18846
td = Timedelta(hours=3, minutes=3)
assert np.isnan(td.__rfloordiv__(NaT))
assert np.isnan(td.__rfloordiv__(np.timedelta64("NaT")))
def test_td_rfloordiv_offsets(self):
# GH#19738
assert offsets.Hour(1) // Timedelta(minutes=25) == 2
def test_td_rfloordiv_invalid_scalar(self):
# GH#18846
td = Timedelta(hours=3, minutes=3)
dt64 = np.datetime64("2016-01-01", "us")
assert td.__rfloordiv__(dt64) is NotImplemented
msg = (
r"unsupported operand type\(s\) for //: 'numpy.datetime64' and 'Timedelta'"
)
with pytest.raises(TypeError, match=msg):
dt64 // td
def test_td_rfloordiv_numeric_scalar(self):
# GH#18846
td = Timedelta(hours=3, minutes=3)
assert td.__rfloordiv__(np.nan) is NotImplemented
assert td.__rfloordiv__(3.5) is NotImplemented
assert td.__rfloordiv__(2) is NotImplemented
assert td.__rfloordiv__(np.float64(2.0)) is NotImplemented
assert td.__rfloordiv__(np.uint8(9)) is NotImplemented
assert td.__rfloordiv__(np.int32(2.0)) is NotImplemented
msg = r"unsupported operand type\(s\) for //: '.*' and 'Timedelta"
with pytest.raises(TypeError, match=msg):
np.float64(2.0) // td
with pytest.raises(TypeError, match=msg):
np.uint8(9) // td
with pytest.raises(TypeError, match=msg):
# deprecated GH#19761, enforced GH#29797
np.int32(2.0) // td
def test_td_rfloordiv_timedeltalike_array(self):
# GH#18846
td = Timedelta(hours=3, minutes=3)
scalar = Timedelta(hours=3, minutes=4)
# Array-like others
assert td.__rfloordiv__(np.array(scalar.to_timedelta64())) == 1
res = td.__rfloordiv__(np.array([(3 * scalar).to_timedelta64()]))
expected = np.array([3], dtype=np.int64)
tm.assert_numpy_array_equal(res, expected)
arr = np.array([(10 * scalar).to_timedelta64(), np.timedelta64("NaT")])
res = td.__rfloordiv__(arr)
expected = np.array([10, np.nan])
tm.assert_numpy_array_equal(res, expected)
def test_td_rfloordiv_intarray(self):
# deprecated GH#19761, enforced GH#29797
ints = np.array([1349654400, 1349740800, 1349827200, 1349913600]) * 10**9
msg = "Invalid dtype"
with pytest.raises(TypeError, match=msg):
ints // Timedelta(1, unit="s")
def test_td_rfloordiv_numeric_series(self):
# GH#18846
td = Timedelta(hours=3, minutes=3)
ser = pd.Series([1], dtype=np.int64)
res = td.__rfloordiv__(ser)
assert res is NotImplemented
msg = "Invalid dtype"
with pytest.raises(TypeError, match=msg):
# Deprecated GH#19761, enforced GH#29797
ser // td
# ----------------------------------------------------------------
# Timedelta.__mod__, __rmod__
def test_mod_timedeltalike(self):
# GH#19365
td = Timedelta(hours=37)
# Timedelta-like others
result = td % Timedelta(hours=6)
assert isinstance(result, Timedelta)
assert result == Timedelta(hours=1)
result = td % timedelta(minutes=60)
assert isinstance(result, Timedelta)
assert result == Timedelta(0)
result = td % NaT
assert result is NaT
def test_mod_timedelta64_nat(self):
# GH#19365
td = Timedelta(hours=37)
result = td % np.timedelta64("NaT", "ns")
assert result is NaT
def test_mod_timedelta64(self):
# GH#19365
td = Timedelta(hours=37)
result = td % np.timedelta64(2, "h")
assert isinstance(result, Timedelta)
assert result == Timedelta(hours=1)
def test_mod_offset(self):
# GH#19365
td = Timedelta(hours=37)
result = td % offsets.Hour(5)
assert isinstance(result, Timedelta)
assert result == Timedelta(hours=2)
def test_mod_numeric(self):
# GH#19365
td = Timedelta(hours=37)
# Numeric Others
result = td % 2
assert isinstance(result, Timedelta)
assert result == Timedelta(0)
result = td % 1e12
assert isinstance(result, Timedelta)
assert result == Timedelta(minutes=3, seconds=20)
result = td % int(1e12)
assert isinstance(result, Timedelta)
assert result == Timedelta(minutes=3, seconds=20)
def test_mod_invalid(self):
# GH#19365
td = Timedelta(hours=37)
msg = "unsupported operand type"
with pytest.raises(TypeError, match=msg):
td % Timestamp("2018-01-22")
with pytest.raises(TypeError, match=msg):
td % []
def test_rmod_pytimedelta(self):
# GH#19365
td = Timedelta(minutes=3)
result = timedelta(minutes=4) % td
assert isinstance(result, Timedelta)
assert result == Timedelta(minutes=1)
def test_rmod_timedelta64(self):
# GH#19365
td = Timedelta(minutes=3)
result = np.timedelta64(5, "m") % td
assert isinstance(result, Timedelta)
assert result == Timedelta(minutes=2)
def test_rmod_invalid(self):
# GH#19365
td = Timedelta(minutes=3)
msg = "unsupported operand"
with pytest.raises(TypeError, match=msg):
Timestamp("2018-01-22") % td
with pytest.raises(TypeError, match=msg):
15 % td
with pytest.raises(TypeError, match=msg):
16.0 % td
msg = "Invalid dtype int"
with pytest.raises(TypeError, match=msg):
np.array([22, 24]) % td
# ----------------------------------------------------------------
# Timedelta.__divmod__, __rdivmod__
def test_divmod_numeric(self):
# GH#19365
td = Timedelta(days=2, hours=6)
result = divmod(td, 53 * 3600 * 1e9)
assert result[0] == Timedelta(1, unit="ns")
assert isinstance(result[1], Timedelta)
assert result[1] == Timedelta(hours=1)
assert result
result = divmod(td, np.nan)
assert result[0] is NaT
assert result[1] is NaT
def test_divmod(self):
# GH#19365
td = Timedelta(days=2, hours=6)
result = divmod(td, timedelta(days=1))
assert result[0] == 2
assert isinstance(result[1], Timedelta)
assert result[1] == Timedelta(hours=6)
result = divmod(td, 54)
assert result[0] == Timedelta(hours=1)
assert isinstance(result[1], Timedelta)
assert result[1] == Timedelta(0)
result = divmod(td, NaT)
assert np.isnan(result[0])
assert result[1] is NaT
def test_divmod_offset(self):
# GH#19365
td = Timedelta(days=2, hours=6)
result = divmod(td, offsets.Hour(-4))
assert result[0] == -14
assert isinstance(result[1], Timedelta)
assert result[1] == Timedelta(hours=-2)
def test_divmod_invalid(self):
# GH#19365
td = Timedelta(days=2, hours=6)
msg = r"unsupported operand type\(s\) for //: 'Timedelta' and 'Timestamp'"
with pytest.raises(TypeError, match=msg):
divmod(td, Timestamp("2018-01-22"))
def test_rdivmod_pytimedelta(self):
# GH#19365
result = divmod(timedelta(days=2, hours=6), Timedelta(days=1))
assert result[0] == 2
assert isinstance(result[1], Timedelta)
assert result[1] == Timedelta(hours=6)
def test_rdivmod_offset(self):
result = divmod(offsets.Hour(54), Timedelta(hours=-4))
assert result[0] == -14
assert isinstance(result[1], Timedelta)
assert result[1] == Timedelta(hours=-2)
def test_rdivmod_invalid(self):
# GH#19365
td = Timedelta(minutes=3)
msg = "unsupported operand type"
with pytest.raises(TypeError, match=msg):
divmod(Timestamp("2018-01-22"), td)
with pytest.raises(TypeError, match=msg):
divmod(15, td)
with pytest.raises(TypeError, match=msg):
divmod(16.0, td)
msg = "Invalid dtype int"
with pytest.raises(TypeError, match=msg):
divmod(np.array([22, 24]), td)
# ----------------------------------------------------------------
@pytest.mark.parametrize(
"op", [operator.mul, ops.rmul, operator.truediv, ops.rdiv, ops.rsub]
)
@pytest.mark.parametrize(
"arr",
[
np.array([Timestamp("20130101 9:01"), Timestamp("20121230 9:02")]),
np.array([Timestamp("2021-11-09 09:54:00"), Timedelta("1D")]),
],
)
def test_td_op_timedelta_timedeltalike_array(self, op, arr):
msg = "unsupported operand type|cannot use operands with types"
with pytest.raises(TypeError, match=msg):
op(arr, Timedelta("1D"))
class TestTimedeltaComparison:
def test_compare_tick(self, tick_classes):
cls = tick_classes
off = cls(4)
td = off.delta
assert isinstance(td, Timedelta)
assert td == off
assert not td != off
assert td <= off
assert td >= off
assert not td < off
assert not td > off
assert not td == 2 * off
assert td != 2 * off
assert td <= 2 * off
assert td < 2 * off
assert not td >= 2 * off
assert not td > 2 * off
def test_comparison_object_array(self):
# analogous to GH#15183
td = Timedelta("2 days")
other = Timedelta("3 hours")
arr = np.array([other, td], dtype=object)
res = arr == td
expected = np.array([False, True], dtype=bool)
assert (res == expected).all()
# 2D case
arr = np.array([[other, td], [td, other]], dtype=object)
res = arr != td
expected = np.array([[True, False], [False, True]], dtype=bool)
assert res.shape == expected.shape
assert (res == expected).all()
def test_compare_timedelta_ndarray(self):
# GH#11835
periods = [Timedelta("0 days 01:00:00"), Timedelta("0 days 01:00:00")]
arr = np.array(periods)
result = arr[0] > arr
expected = np.array([False, False])
tm.assert_numpy_array_equal(result, expected)
def test_compare_td64_ndarray(self):
# GG#33441
arr = np.arange(5).astype("timedelta64[ns]")
td = Timedelta(arr[1])
expected = np.array([False, True, False, False, False], dtype=bool)
result = td == arr
tm.assert_numpy_array_equal(result, expected)
result = arr == td
tm.assert_numpy_array_equal(result, expected)
result = td != arr
tm.assert_numpy_array_equal(result, ~expected)
result = arr != td
tm.assert_numpy_array_equal(result, ~expected)
def test_compare_custom_object(self):
"""
Make sure non supported operations on Timedelta returns NonImplemented
and yields to other operand (GH#20829).
"""
class CustomClass:
def __init__(self, cmp_result=None) -> None:
self.cmp_result = cmp_result
def generic_result(self):
if self.cmp_result is None:
return NotImplemented
else:
return self.cmp_result
def __eq__(self, other):
return self.generic_result()
def __gt__(self, other):
return self.generic_result()
t = Timedelta("1s")
assert not (t == "string")
assert not (t == 1)
assert not (t == CustomClass())
assert not (t == CustomClass(cmp_result=False))
assert t < CustomClass(cmp_result=True)
assert not (t < CustomClass(cmp_result=False))
assert t == CustomClass(cmp_result=True)
@pytest.mark.parametrize("val", ["string", 1])
def test_compare_unknown_type(self, val):
# GH#20829
t = Timedelta("1s")
msg = "not supported between instances of 'Timedelta' and '(int|str)'"
with pytest.raises(TypeError, match=msg):
t >= val
with pytest.raises(TypeError, match=msg):
t > val
with pytest.raises(TypeError, match=msg):
t <= val
with pytest.raises(TypeError, match=msg):
t < val
def test_ops_notimplemented():
class Other:
pass
other = Other()
td = Timedelta("1 day")
assert td.__add__(other) is NotImplemented
assert td.__sub__(other) is NotImplemented
assert td.__truediv__(other) is NotImplemented
assert td.__mul__(other) is NotImplemented
assert td.__floordiv__(other) is NotImplemented
def test_ops_error_str():
# GH#13624
td = Timedelta("1 day")
for left, right in [(td, "a"), ("a", td)]:
msg = "|".join(
[
"unsupported operand type",
r'can only concatenate str \(not "Timedelta"\) to str',
"must be str, not Timedelta",
]
)
with pytest.raises(TypeError, match=msg):
left + right
msg = "not supported between instances of"
with pytest.raises(TypeError, match=msg):
left > right
assert not left == right
assert left != right