craftbeerpi4-pione/venv/lib/python3.8/site-packages/pandas/tests/arithmetic/test_numeric.py

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# Arithmetic tests for DataFrame/Series/Index/Array classes that should
# behave identically.
# Specifically for numeric dtypes
from collections import abc
from decimal import Decimal
from itertools import combinations
import operator
from typing import Any, List
import numpy as np
import pytest
import pandas as pd
from pandas import (
Float64Index,
Index,
Int64Index,
RangeIndex,
Series,
Timedelta,
TimedeltaIndex,
UInt64Index,
array,
)
import pandas._testing as tm
from pandas.core import ops
@pytest.fixture(params=[Index, Series, tm.to_array])
def box_pandas_1d_array(request):
"""
Fixture to test behavior for Index, Series and tm.to_array classes
"""
return request.param
def adjust_negative_zero(zero, expected):
"""
Helper to adjust the expected result if we are dividing by -0.0
as opposed to 0.0
"""
if np.signbit(np.array(zero)).any():
# All entries in the `zero` fixture should be either
# all-negative or no-negative.
assert np.signbit(np.array(zero)).all()
expected *= -1
return expected
# TODO: remove this kludge once mypy stops giving false positives here
# List comprehension has incompatible type List[PandasObject]; expected List[RangeIndex]
# See GH#29725
ser_or_index: List[Any] = [Series, Index]
lefts: List[Any] = [RangeIndex(10, 40, 10)]
lefts.extend(
[
cls([10, 20, 30], dtype=dtype)
for dtype in ["i1", "i2", "i4", "i8", "u1", "u2", "u4", "u8", "f2", "f4", "f8"]
for cls in ser_or_index
]
)
# ------------------------------------------------------------------
# Comparisons
class TestNumericComparisons:
def test_operator_series_comparison_zerorank(self):
# GH#13006
result = np.float64(0) > Series([1, 2, 3])
expected = 0.0 > Series([1, 2, 3])
tm.assert_series_equal(result, expected)
result = Series([1, 2, 3]) < np.float64(0)
expected = Series([1, 2, 3]) < 0.0
tm.assert_series_equal(result, expected)
result = np.array([0, 1, 2])[0] > Series([0, 1, 2])
expected = 0.0 > Series([1, 2, 3])
tm.assert_series_equal(result, expected)
def test_df_numeric_cmp_dt64_raises(self):
# GH#8932, GH#22163
ts = pd.Timestamp.now()
df = pd.DataFrame({"x": range(5)})
msg = (
"'[<>]' not supported between instances of 'numpy.ndarray' and 'Timestamp'"
)
with pytest.raises(TypeError, match=msg):
df > ts
with pytest.raises(TypeError, match=msg):
df < ts
with pytest.raises(TypeError, match=msg):
ts < df
with pytest.raises(TypeError, match=msg):
ts > df
assert not (df == ts).any().any()
assert (df != ts).all().all()
def test_compare_invalid(self):
# GH#8058
# ops testing
a = Series(np.random.randn(5), name=0)
b = Series(np.random.randn(5))
b.name = pd.Timestamp("2000-01-01")
tm.assert_series_equal(a / b, 1 / (b / a))
def test_numeric_cmp_string_numexpr_path(self, box_with_array):
# GH#36377, GH#35700
box = box_with_array
xbox = box if box is not Index else np.ndarray
obj = Series(np.random.randn(10 ** 5))
obj = tm.box_expected(obj, box, transpose=False)
result = obj == "a"
expected = Series(np.zeros(10 ** 5, dtype=bool))
expected = tm.box_expected(expected, xbox, transpose=False)
tm.assert_equal(result, expected)
result = obj != "a"
tm.assert_equal(result, ~expected)
msg = "Invalid comparison between dtype=float64 and str"
with pytest.raises(TypeError, match=msg):
obj < "a"
# ------------------------------------------------------------------
# Numeric dtypes Arithmetic with Datetime/Timedelta Scalar
class TestNumericArraylikeArithmeticWithDatetimeLike:
# TODO: also check name retentention
@pytest.mark.parametrize("box_cls", [np.array, Index, Series])
@pytest.mark.parametrize(
"left", lefts, ids=lambda x: type(x).__name__ + str(x.dtype)
)
def test_mul_td64arr(self, left, box_cls):
# GH#22390
right = np.array([1, 2, 3], dtype="m8[s]")
right = box_cls(right)
expected = TimedeltaIndex(["10s", "40s", "90s"])
if isinstance(left, Series) or box_cls is Series:
expected = Series(expected)
result = left * right
tm.assert_equal(result, expected)
result = right * left
tm.assert_equal(result, expected)
# TODO: also check name retentention
@pytest.mark.parametrize("box_cls", [np.array, Index, Series])
@pytest.mark.parametrize(
"left", lefts, ids=lambda x: type(x).__name__ + str(x.dtype)
)
def test_div_td64arr(self, left, box_cls):
# GH#22390
right = np.array([10, 40, 90], dtype="m8[s]")
right = box_cls(right)
expected = TimedeltaIndex(["1s", "2s", "3s"])
if isinstance(left, Series) or box_cls is Series:
expected = Series(expected)
result = right / left
tm.assert_equal(result, expected)
result = right // left
tm.assert_equal(result, expected)
msg = "Cannot divide"
with pytest.raises(TypeError, match=msg):
left / right
with pytest.raises(TypeError, match=msg):
left // right
# TODO: also test Tick objects;
# see test_numeric_arr_rdiv_tdscalar for note on these failing
@pytest.mark.parametrize(
"scalar_td",
[
Timedelta(days=1),
Timedelta(days=1).to_timedelta64(),
Timedelta(days=1).to_pytimedelta(),
Timedelta(days=1).to_timedelta64().astype("timedelta64[s]"),
Timedelta(days=1).to_timedelta64().astype("timedelta64[ms]"),
],
ids=lambda x: type(x).__name__,
)
def test_numeric_arr_mul_tdscalar(self, scalar_td, numeric_idx, box_with_array):
# GH#19333
box = box_with_array
index = numeric_idx
expected = TimedeltaIndex([Timedelta(days=n) for n in range(len(index))])
index = tm.box_expected(index, box)
expected = tm.box_expected(expected, box)
result = index * scalar_td
tm.assert_equal(result, expected)
commute = scalar_td * index
tm.assert_equal(commute, expected)
@pytest.mark.parametrize(
"scalar_td",
[
Timedelta(days=1),
Timedelta(days=1).to_timedelta64(),
Timedelta(days=1).to_pytimedelta(),
],
ids=lambda x: type(x).__name__,
)
def test_numeric_arr_mul_tdscalar_numexpr_path(self, scalar_td, box_with_array):
box = box_with_array
arr = np.arange(2 * 10 ** 4).astype(np.int64)
obj = tm.box_expected(arr, box, transpose=False)
expected = arr.view("timedelta64[D]").astype("timedelta64[ns]")
expected = tm.box_expected(expected, box, transpose=False)
result = obj * scalar_td
tm.assert_equal(result, expected)
result = scalar_td * obj
tm.assert_equal(result, expected)
def test_numeric_arr_rdiv_tdscalar(self, three_days, numeric_idx, box_with_array):
box = box_with_array
index = numeric_idx[1:3]
expected = TimedeltaIndex(["3 Days", "36 Hours"])
index = tm.box_expected(index, box)
expected = tm.box_expected(expected, box)
result = three_days / index
tm.assert_equal(result, expected)
msg = "cannot use operands with types dtype"
with pytest.raises(TypeError, match=msg):
index / three_days
@pytest.mark.parametrize(
"other",
[
Timedelta(hours=31),
Timedelta(hours=31).to_pytimedelta(),
Timedelta(hours=31).to_timedelta64(),
Timedelta(hours=31).to_timedelta64().astype("m8[h]"),
np.timedelta64("NaT"),
np.timedelta64("NaT", "D"),
pd.offsets.Minute(3),
pd.offsets.Second(0),
],
)
def test_add_sub_timedeltalike_invalid(self, numeric_idx, other, box_with_array):
box = box_with_array
left = tm.box_expected(numeric_idx, box)
msg = (
"unsupported operand type|"
"Addition/subtraction of integers and integer-arrays|"
"Instead of adding/subtracting|"
"cannot use operands with types dtype|"
"Concatenation operation is not implemented for NumPy arrays"
)
with pytest.raises(TypeError, match=msg):
left + other
with pytest.raises(TypeError, match=msg):
other + left
with pytest.raises(TypeError, match=msg):
left - other
with pytest.raises(TypeError, match=msg):
other - left
@pytest.mark.parametrize(
"other",
[
pd.Timestamp.now().to_pydatetime(),
pd.Timestamp.now(tz="UTC").to_pydatetime(),
pd.Timestamp.now().to_datetime64(),
pd.NaT,
],
)
@pytest.mark.filterwarnings("ignore:elementwise comp:DeprecationWarning")
def test_add_sub_datetimelike_invalid(self, numeric_idx, other, box_with_array):
# GH#28080 numeric+datetime64 should raise; Timestamp raises
# NullFrequencyError instead of TypeError so is excluded.
box = box_with_array
left = tm.box_expected(numeric_idx, box)
msg = "|".join(
[
"unsupported operand type",
"Cannot (add|subtract) NaT (to|from) ndarray",
"Addition/subtraction of integers and integer-arrays",
"Concatenation operation is not implemented for NumPy arrays",
# pd.array vs np.datetime64 case
r"operand type\(s\) all returned NotImplemented from __array_ufunc__",
]
)
with pytest.raises(TypeError, match=msg):
left + other
with pytest.raises(TypeError, match=msg):
other + left
with pytest.raises(TypeError, match=msg):
left - other
with pytest.raises(TypeError, match=msg):
other - left
# ------------------------------------------------------------------
# Arithmetic
class TestDivisionByZero:
def test_div_zero(self, zero, numeric_idx):
idx = numeric_idx
expected = Index([np.nan, np.inf, np.inf, np.inf, np.inf], dtype=np.float64)
# We only adjust for Index, because Series does not yet apply
# the adjustment correctly.
expected2 = adjust_negative_zero(zero, expected)
result = idx / zero
tm.assert_index_equal(result, expected2)
ser_compat = Series(idx).astype("i8") / np.array(zero).astype("i8")
tm.assert_series_equal(ser_compat, Series(expected))
def test_floordiv_zero(self, zero, numeric_idx):
idx = numeric_idx
expected = Index([np.nan, np.inf, np.inf, np.inf, np.inf], dtype=np.float64)
# We only adjust for Index, because Series does not yet apply
# the adjustment correctly.
expected2 = adjust_negative_zero(zero, expected)
result = idx // zero
tm.assert_index_equal(result, expected2)
ser_compat = Series(idx).astype("i8") // np.array(zero).astype("i8")
tm.assert_series_equal(ser_compat, Series(expected))
def test_mod_zero(self, zero, numeric_idx):
idx = numeric_idx
expected = Index([np.nan, np.nan, np.nan, np.nan, np.nan], dtype=np.float64)
result = idx % zero
tm.assert_index_equal(result, expected)
ser_compat = Series(idx).astype("i8") % np.array(zero).astype("i8")
tm.assert_series_equal(ser_compat, Series(result))
def test_divmod_zero(self, zero, numeric_idx):
idx = numeric_idx
exleft = Index([np.nan, np.inf, np.inf, np.inf, np.inf], dtype=np.float64)
exright = Index([np.nan, np.nan, np.nan, np.nan, np.nan], dtype=np.float64)
exleft = adjust_negative_zero(zero, exleft)
result = divmod(idx, zero)
tm.assert_index_equal(result[0], exleft)
tm.assert_index_equal(result[1], exright)
@pytest.mark.parametrize("op", [operator.truediv, operator.floordiv])
def test_div_negative_zero(self, zero, numeric_idx, op):
# Check that -1 / -0.0 returns np.inf, not -np.inf
if isinstance(numeric_idx, UInt64Index):
return
idx = numeric_idx - 3
expected = Index([-np.inf, -np.inf, -np.inf, np.nan, np.inf], dtype=np.float64)
expected = adjust_negative_zero(zero, expected)
result = op(idx, zero)
tm.assert_index_equal(result, expected)
# ------------------------------------------------------------------
@pytest.mark.parametrize("dtype1", [np.int64, np.float64, np.uint64])
def test_ser_div_ser(self, dtype1, any_real_dtype):
# no longer do integer div for any ops, but deal with the 0's
dtype2 = any_real_dtype
first = Series([3, 4, 5, 8], name="first").astype(dtype1)
second = Series([0, 0, 0, 3], name="second").astype(dtype2)
with np.errstate(all="ignore"):
expected = Series(
first.values.astype(np.float64) / second.values,
dtype="float64",
name=None,
)
expected.iloc[0:3] = np.inf
result = first / second
tm.assert_series_equal(result, expected)
assert not result.equals(second / first)
@pytest.mark.parametrize("dtype1", [np.int64, np.float64, np.uint64])
def test_ser_divmod_zero(self, dtype1, any_real_dtype):
# GH#26987
dtype2 = any_real_dtype
left = Series([1, 1]).astype(dtype1)
right = Series([0, 2]).astype(dtype2)
# GH#27321 pandas convention is to set 1 // 0 to np.inf, as opposed
# to numpy which sets to np.nan; patch `expected[0]` below
expected = left // right, left % right
expected = list(expected)
expected[0] = expected[0].astype(np.float64)
expected[0][0] = np.inf
result = divmod(left, right)
tm.assert_series_equal(result[0], expected[0])
tm.assert_series_equal(result[1], expected[1])
# rdivmod case
result = divmod(left.values, right)
tm.assert_series_equal(result[0], expected[0])
tm.assert_series_equal(result[1], expected[1])
def test_ser_divmod_inf(self):
left = Series([np.inf, 1.0])
right = Series([np.inf, 2.0])
expected = left // right, left % right
result = divmod(left, right)
tm.assert_series_equal(result[0], expected[0])
tm.assert_series_equal(result[1], expected[1])
# rdivmod case
result = divmod(left.values, right)
tm.assert_series_equal(result[0], expected[0])
tm.assert_series_equal(result[1], expected[1])
def test_rdiv_zero_compat(self):
# GH#8674
zero_array = np.array([0] * 5)
data = np.random.randn(5)
expected = Series([0.0] * 5)
result = zero_array / Series(data)
tm.assert_series_equal(result, expected)
result = Series(zero_array) / data
tm.assert_series_equal(result, expected)
result = Series(zero_array) / Series(data)
tm.assert_series_equal(result, expected)
def test_div_zero_inf_signs(self):
# GH#9144, inf signing
ser = Series([-1, 0, 1], name="first")
expected = Series([-np.inf, np.nan, np.inf], name="first")
result = ser / 0
tm.assert_series_equal(result, expected)
def test_rdiv_zero(self):
# GH#9144
ser = Series([-1, 0, 1], name="first")
expected = Series([0.0, np.nan, 0.0], name="first")
result = 0 / ser
tm.assert_series_equal(result, expected)
def test_floordiv_div(self):
# GH#9144
ser = Series([-1, 0, 1], name="first")
result = ser // 0
expected = Series([-np.inf, np.nan, np.inf], name="first")
tm.assert_series_equal(result, expected)
def test_df_div_zero_df(self):
# integer div, but deal with the 0's (GH#9144)
df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]})
result = df / df
first = Series([1.0, 1.0, 1.0, 1.0])
second = Series([np.nan, np.nan, np.nan, 1])
expected = pd.DataFrame({"first": first, "second": second})
tm.assert_frame_equal(result, expected)
def test_df_div_zero_array(self):
# integer div, but deal with the 0's (GH#9144)
df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]})
first = Series([1.0, 1.0, 1.0, 1.0])
second = Series([np.nan, np.nan, np.nan, 1])
expected = pd.DataFrame({"first": first, "second": second})
with np.errstate(all="ignore"):
arr = df.values.astype("float") / df.values
result = pd.DataFrame(arr, index=df.index, columns=df.columns)
tm.assert_frame_equal(result, expected)
def test_df_div_zero_int(self):
# integer div, but deal with the 0's (GH#9144)
df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]})
result = df / 0
expected = pd.DataFrame(np.inf, index=df.index, columns=df.columns)
expected.iloc[0:3, 1] = np.nan
tm.assert_frame_equal(result, expected)
# numpy has a slightly different (wrong) treatment
with np.errstate(all="ignore"):
arr = df.values.astype("float64") / 0
result2 = pd.DataFrame(arr, index=df.index, columns=df.columns)
tm.assert_frame_equal(result2, expected)
def test_df_div_zero_series_does_not_commute(self):
# integer div, but deal with the 0's (GH#9144)
df = pd.DataFrame(np.random.randn(10, 5))
ser = df[0]
res = ser / df
res2 = df / ser
assert not res.fillna(0).equals(res2.fillna(0))
# ------------------------------------------------------------------
# Mod By Zero
def test_df_mod_zero_df(self):
# GH#3590, modulo as ints
df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]})
# this is technically wrong, as the integer portion is coerced to float
# ###
first = Series([0, 0, 0, 0], dtype="float64")
second = Series([np.nan, np.nan, np.nan, 0])
expected = pd.DataFrame({"first": first, "second": second})
result = df % df
tm.assert_frame_equal(result, expected)
def test_df_mod_zero_array(self):
# GH#3590, modulo as ints
df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]})
# this is technically wrong, as the integer portion is coerced to float
# ###
first = Series([0, 0, 0, 0], dtype="float64")
second = Series([np.nan, np.nan, np.nan, 0])
expected = pd.DataFrame({"first": first, "second": second})
# numpy has a slightly different (wrong) treatment
with np.errstate(all="ignore"):
arr = df.values % df.values
result2 = pd.DataFrame(arr, index=df.index, columns=df.columns, dtype="float64")
result2.iloc[0:3, 1] = np.nan
tm.assert_frame_equal(result2, expected)
def test_df_mod_zero_int(self):
# GH#3590, modulo as ints
df = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]})
result = df % 0
expected = pd.DataFrame(np.nan, index=df.index, columns=df.columns)
tm.assert_frame_equal(result, expected)
# numpy has a slightly different (wrong) treatment
with np.errstate(all="ignore"):
arr = df.values.astype("float64") % 0
result2 = pd.DataFrame(arr, index=df.index, columns=df.columns)
tm.assert_frame_equal(result2, expected)
def test_df_mod_zero_series_does_not_commute(self):
# GH#3590, modulo as ints
# not commutative with series
df = pd.DataFrame(np.random.randn(10, 5))
ser = df[0]
res = ser % df
res2 = df % ser
assert not res.fillna(0).equals(res2.fillna(0))
class TestMultiplicationDivision:
# __mul__, __rmul__, __div__, __rdiv__, __floordiv__, __rfloordiv__
# for non-timestamp/timedelta/period dtypes
def test_divide_decimal(self, box_with_array):
# resolves issue GH#9787
box = box_with_array
ser = Series([Decimal(10)])
expected = Series([Decimal(5)])
ser = tm.box_expected(ser, box)
expected = tm.box_expected(expected, box)
result = ser / Decimal(2)
tm.assert_equal(result, expected)
result = ser // Decimal(2)
tm.assert_equal(result, expected)
def test_div_equiv_binop(self):
# Test Series.div as well as Series.__div__
# float/integer issue
# GH#7785
first = Series([1, 0], name="first")
second = Series([-0.01, -0.02], name="second")
expected = Series([-0.01, -np.inf])
result = second.div(first)
tm.assert_series_equal(result, expected, check_names=False)
result = second / first
tm.assert_series_equal(result, expected)
def test_div_int(self, numeric_idx):
idx = numeric_idx
result = idx / 1
expected = idx.astype("float64")
tm.assert_index_equal(result, expected)
result = idx / 2
expected = Index(idx.values / 2)
tm.assert_index_equal(result, expected)
@pytest.mark.parametrize("op", [operator.mul, ops.rmul, operator.floordiv])
def test_mul_int_identity(self, op, numeric_idx, box_with_array):
idx = numeric_idx
idx = tm.box_expected(idx, box_with_array)
result = op(idx, 1)
tm.assert_equal(result, idx)
def test_mul_int_array(self, numeric_idx):
idx = numeric_idx
didx = idx * idx
result = idx * np.array(5, dtype="int64")
tm.assert_index_equal(result, idx * 5)
arr_dtype = "uint64" if isinstance(idx, UInt64Index) else "int64"
result = idx * np.arange(5, dtype=arr_dtype)
tm.assert_index_equal(result, didx)
def test_mul_int_series(self, numeric_idx):
idx = numeric_idx
didx = idx * idx
arr_dtype = "uint64" if isinstance(idx, UInt64Index) else "int64"
result = idx * Series(np.arange(5, dtype=arr_dtype))
tm.assert_series_equal(result, Series(didx))
def test_mul_float_series(self, numeric_idx):
idx = numeric_idx
rng5 = np.arange(5, dtype="float64")
result = idx * Series(rng5 + 0.1)
expected = Series(rng5 * (rng5 + 0.1))
tm.assert_series_equal(result, expected)
def test_mul_index(self, numeric_idx):
# in general not true for RangeIndex
idx = numeric_idx
if not isinstance(idx, RangeIndex):
result = idx * idx
tm.assert_index_equal(result, idx ** 2)
def test_mul_datelike_raises(self, numeric_idx):
idx = numeric_idx
msg = "cannot perform __rmul__ with this index type"
with pytest.raises(TypeError, match=msg):
idx * pd.date_range("20130101", periods=5)
def test_mul_size_mismatch_raises(self, numeric_idx):
idx = numeric_idx
msg = "operands could not be broadcast together"
with pytest.raises(ValueError, match=msg):
idx * idx[0:3]
with pytest.raises(ValueError, match=msg):
idx * np.array([1, 2])
@pytest.mark.parametrize("op", [operator.pow, ops.rpow])
def test_pow_float(self, op, numeric_idx, box_with_array):
# test power calculations both ways, GH#14973
box = box_with_array
idx = numeric_idx
expected = Float64Index(op(idx.values, 2.0))
idx = tm.box_expected(idx, box)
expected = tm.box_expected(expected, box)
result = op(idx, 2.0)
tm.assert_equal(result, expected)
def test_modulo(self, numeric_idx, box_with_array):
# GH#9244
box = box_with_array
idx = numeric_idx
expected = Index(idx.values % 2)
idx = tm.box_expected(idx, box)
expected = tm.box_expected(expected, box)
result = idx % 2
tm.assert_equal(result, expected)
def test_divmod_scalar(self, numeric_idx):
idx = numeric_idx
result = divmod(idx, 2)
with np.errstate(all="ignore"):
div, mod = divmod(idx.values, 2)
expected = Index(div), Index(mod)
for r, e in zip(result, expected):
tm.assert_index_equal(r, e)
def test_divmod_ndarray(self, numeric_idx):
idx = numeric_idx
other = np.ones(idx.values.shape, dtype=idx.values.dtype) * 2
result = divmod(idx, other)
with np.errstate(all="ignore"):
div, mod = divmod(idx.values, other)
expected = Index(div), Index(mod)
for r, e in zip(result, expected):
tm.assert_index_equal(r, e)
def test_divmod_series(self, numeric_idx):
idx = numeric_idx
other = np.ones(idx.values.shape, dtype=idx.values.dtype) * 2
result = divmod(idx, Series(other))
with np.errstate(all="ignore"):
div, mod = divmod(idx.values, other)
expected = Series(div), Series(mod)
for r, e in zip(result, expected):
tm.assert_series_equal(r, e)
@pytest.mark.parametrize("other", [np.nan, 7, -23, 2.718, -3.14, np.inf])
def test_ops_np_scalar(self, other):
vals = np.random.randn(5, 3)
f = lambda x: pd.DataFrame(
x, index=list("ABCDE"), columns=["jim", "joe", "jolie"]
)
df = f(vals)
tm.assert_frame_equal(df / np.array(other), f(vals / other))
tm.assert_frame_equal(np.array(other) * df, f(vals * other))
tm.assert_frame_equal(df + np.array(other), f(vals + other))
tm.assert_frame_equal(np.array(other) - df, f(other - vals))
# TODO: This came from series.test.test_operators, needs cleanup
def test_operators_frame(self):
# rpow does not work with DataFrame
ts = tm.makeTimeSeries()
ts.name = "ts"
df = pd.DataFrame({"A": ts})
tm.assert_series_equal(ts + ts, ts + df["A"], check_names=False)
tm.assert_series_equal(ts ** ts, ts ** df["A"], check_names=False)
tm.assert_series_equal(ts < ts, ts < df["A"], check_names=False)
tm.assert_series_equal(ts / ts, ts / df["A"], check_names=False)
# TODO: this came from tests.series.test_analytics, needs cleanup and
# de-duplication with test_modulo above
def test_modulo2(self):
with np.errstate(all="ignore"):
# GH#3590, modulo as ints
p = pd.DataFrame({"first": [3, 4, 5, 8], "second": [0, 0, 0, 3]})
result = p["first"] % p["second"]
expected = Series(p["first"].values % p["second"].values, dtype="float64")
expected.iloc[0:3] = np.nan
tm.assert_series_equal(result, expected)
result = p["first"] % 0
expected = Series(np.nan, index=p.index, name="first")
tm.assert_series_equal(result, expected)
p = p.astype("float64")
result = p["first"] % p["second"]
expected = Series(p["first"].values % p["second"].values)
tm.assert_series_equal(result, expected)
p = p.astype("float64")
result = p["first"] % p["second"]
result2 = p["second"] % p["first"]
assert not result.equals(result2)
def test_modulo_zero_int(self):
# GH#9144
with np.errstate(all="ignore"):
s = Series([0, 1])
result = s % 0
expected = Series([np.nan, np.nan])
tm.assert_series_equal(result, expected)
result = 0 % s
expected = Series([np.nan, 0.0])
tm.assert_series_equal(result, expected)
class TestAdditionSubtraction:
# __add__, __sub__, __radd__, __rsub__, __iadd__, __isub__
# for non-timestamp/timedelta/period dtypes
@pytest.mark.parametrize(
"first, second, expected",
[
(
Series([1, 2, 3], index=list("ABC"), name="x"),
Series([2, 2, 2], index=list("ABD"), name="x"),
Series([3.0, 4.0, np.nan, np.nan], index=list("ABCD"), name="x"),
),
(
Series([1, 2, 3], index=list("ABC"), name="x"),
Series([2, 2, 2, 2], index=list("ABCD"), name="x"),
Series([3, 4, 5, np.nan], index=list("ABCD"), name="x"),
),
],
)
def test_add_series(self, first, second, expected):
# GH#1134
tm.assert_series_equal(first + second, expected)
tm.assert_series_equal(second + first, expected)
@pytest.mark.parametrize(
"first, second, expected",
[
(
pd.DataFrame({"x": [1, 2, 3]}, index=list("ABC")),
pd.DataFrame({"x": [2, 2, 2]}, index=list("ABD")),
pd.DataFrame({"x": [3.0, 4.0, np.nan, np.nan]}, index=list("ABCD")),
),
(
pd.DataFrame({"x": [1, 2, 3]}, index=list("ABC")),
pd.DataFrame({"x": [2, 2, 2, 2]}, index=list("ABCD")),
pd.DataFrame({"x": [3, 4, 5, np.nan]}, index=list("ABCD")),
),
],
)
def test_add_frames(self, first, second, expected):
# GH#1134
tm.assert_frame_equal(first + second, expected)
tm.assert_frame_equal(second + first, expected)
# TODO: This came from series.test.test_operators, needs cleanup
def test_series_frame_radd_bug(self):
# GH#353
vals = Series(tm.rands_array(5, 10))
result = "foo_" + vals
expected = vals.map(lambda x: "foo_" + x)
tm.assert_series_equal(result, expected)
frame = pd.DataFrame({"vals": vals})
result = "foo_" + frame
expected = pd.DataFrame({"vals": vals.map(lambda x: "foo_" + x)})
tm.assert_frame_equal(result, expected)
ts = tm.makeTimeSeries()
ts.name = "ts"
# really raise this time
now = pd.Timestamp.now().to_pydatetime()
msg = "unsupported operand type"
with pytest.raises(TypeError, match=msg):
now + ts
with pytest.raises(TypeError, match=msg):
ts + now
# TODO: This came from series.test.test_operators, needs cleanup
def test_datetime64_with_index(self):
# arithmetic integer ops with an index
ser = Series(np.random.randn(5))
expected = ser - ser.index.to_series()
result = ser - ser.index
tm.assert_series_equal(result, expected)
# GH#4629
# arithmetic datetime64 ops with an index
ser = Series(
pd.date_range("20130101", periods=5),
index=pd.date_range("20130101", periods=5),
)
expected = ser - ser.index.to_series()
result = ser - ser.index
tm.assert_series_equal(result, expected)
msg = "cannot subtract period"
with pytest.raises(TypeError, match=msg):
# GH#18850
result = ser - ser.index.to_period()
df = pd.DataFrame(
np.random.randn(5, 2), index=pd.date_range("20130101", periods=5)
)
df["date"] = pd.Timestamp("20130102")
df["expected"] = df["date"] - df.index.to_series()
df["result"] = df["date"] - df.index
tm.assert_series_equal(df["result"], df["expected"], check_names=False)
# TODO: taken from tests.frame.test_operators, needs cleanup
def test_frame_operators(self, float_frame):
frame = float_frame
frame2 = pd.DataFrame(float_frame, columns=["D", "C", "B", "A"])
garbage = np.random.random(4)
colSeries = Series(garbage, index=np.array(frame.columns))
idSum = frame + frame
seriesSum = frame + colSeries
for col, series in idSum.items():
for idx, val in series.items():
origVal = frame[col][idx] * 2
if not np.isnan(val):
assert val == origVal
else:
assert np.isnan(origVal)
for col, series in seriesSum.items():
for idx, val in series.items():
origVal = frame[col][idx] + colSeries[col]
if not np.isnan(val):
assert val == origVal
else:
assert np.isnan(origVal)
added = frame2 + frame2
expected = frame2 * 2
tm.assert_frame_equal(added, expected)
df = pd.DataFrame({"a": ["a", None, "b"]})
tm.assert_frame_equal(df + df, pd.DataFrame({"a": ["aa", np.nan, "bb"]}))
# Test for issue #10181
for dtype in ("float", "int64"):
frames = [
pd.DataFrame(dtype=dtype),
pd.DataFrame(columns=["A"], dtype=dtype),
pd.DataFrame(index=[0], dtype=dtype),
]
for df in frames:
assert (df + df).equals(df)
tm.assert_frame_equal(df + df, df)
# TODO: taken from tests.series.test_operators; needs cleanup
def test_series_operators(self):
def _check_op(series, other, op, pos_only=False):
left = np.abs(series) if pos_only else series
right = np.abs(other) if pos_only else other
cython_or_numpy = op(left, right)
python = left.combine(right, op)
if isinstance(other, Series) and not other.index.equals(series.index):
python.index = python.index._with_freq(None)
tm.assert_series_equal(cython_or_numpy, python)
def check(series, other):
simple_ops = ["add", "sub", "mul", "truediv", "floordiv", "mod"]
for opname in simple_ops:
_check_op(series, other, getattr(operator, opname))
_check_op(series, other, operator.pow, pos_only=True)
_check_op(series, other, ops.radd)
_check_op(series, other, ops.rsub)
_check_op(series, other, ops.rtruediv)
_check_op(series, other, ops.rfloordiv)
_check_op(series, other, ops.rmul)
_check_op(series, other, ops.rpow, pos_only=True)
_check_op(series, other, ops.rmod)
tser = tm.makeTimeSeries().rename("ts")
check(tser, tser * 2)
check(tser, tser[::2])
check(tser, 5)
def check_comparators(series, other):
_check_op(series, other, operator.gt)
_check_op(series, other, operator.ge)
_check_op(series, other, operator.eq)
_check_op(series, other, operator.lt)
_check_op(series, other, operator.le)
check_comparators(tser, 5)
check_comparators(tser, tser + 1)
# TODO: taken from tests.series.test_operators; needs cleanup
def test_divmod(self):
def check(series, other):
results = divmod(series, other)
if isinstance(other, abc.Iterable) and len(series) != len(other):
# if the lengths don't match, this is the test where we use
# `tser[::2]`. Pad every other value in `other_np` with nan.
other_np = []
for n in other:
other_np.append(n)
other_np.append(np.nan)
else:
other_np = other
other_np = np.asarray(other_np)
with np.errstate(all="ignore"):
expecteds = divmod(series.values, np.asarray(other_np))
for result, expected in zip(results, expecteds):
# check the values, name, and index separately
tm.assert_almost_equal(np.asarray(result), expected)
assert result.name == series.name
tm.assert_index_equal(result.index, series.index._with_freq(None))
tser = tm.makeTimeSeries().rename("ts")
check(tser, tser * 2)
check(tser, tser[::2])
check(tser, 5)
def test_series_divmod_zero(self):
# Check that divmod uses pandas convention for division by zero,
# which does not match numpy.
# pandas convention has
# 1/0 == np.inf
# -1/0 == -np.inf
# 1/-0.0 == -np.inf
# -1/-0.0 == np.inf
tser = tm.makeTimeSeries().rename("ts")
other = tser * 0
result = divmod(tser, other)
exp1 = Series([np.inf] * len(tser), index=tser.index, name="ts")
exp2 = Series([np.nan] * len(tser), index=tser.index, name="ts")
tm.assert_series_equal(result[0], exp1)
tm.assert_series_equal(result[1], exp2)
class TestUFuncCompat:
@pytest.mark.parametrize(
"holder",
[Int64Index, UInt64Index, Float64Index, RangeIndex, Series],
)
def test_ufunc_compat(self, holder):
box = Series if holder is Series else Index
if holder is RangeIndex:
idx = RangeIndex(0, 5)
else:
idx = holder(np.arange(5, dtype="int64"))
result = np.sin(idx)
expected = box(np.sin(np.arange(5, dtype="int64")))
tm.assert_equal(result, expected)
@pytest.mark.parametrize("holder", [Int64Index, UInt64Index, Float64Index, Series])
def test_ufunc_coercions(self, holder):
idx = holder([1, 2, 3, 4, 5], name="x")
box = Series if holder is Series else Index
result = np.sqrt(idx)
assert result.dtype == "f8" and isinstance(result, box)
exp = Float64Index(np.sqrt(np.array([1, 2, 3, 4, 5])), name="x")
exp = tm.box_expected(exp, box)
tm.assert_equal(result, exp)
result = np.divide(idx, 2.0)
assert result.dtype == "f8" and isinstance(result, box)
exp = Float64Index([0.5, 1.0, 1.5, 2.0, 2.5], name="x")
exp = tm.box_expected(exp, box)
tm.assert_equal(result, exp)
# _evaluate_numeric_binop
result = idx + 2.0
assert result.dtype == "f8" and isinstance(result, box)
exp = Float64Index([3.0, 4.0, 5.0, 6.0, 7.0], name="x")
exp = tm.box_expected(exp, box)
tm.assert_equal(result, exp)
result = idx - 2.0
assert result.dtype == "f8" and isinstance(result, box)
exp = Float64Index([-1.0, 0.0, 1.0, 2.0, 3.0], name="x")
exp = tm.box_expected(exp, box)
tm.assert_equal(result, exp)
result = idx * 1.0
assert result.dtype == "f8" and isinstance(result, box)
exp = Float64Index([1.0, 2.0, 3.0, 4.0, 5.0], name="x")
exp = tm.box_expected(exp, box)
tm.assert_equal(result, exp)
result = idx / 2.0
assert result.dtype == "f8" and isinstance(result, box)
exp = Float64Index([0.5, 1.0, 1.5, 2.0, 2.5], name="x")
exp = tm.box_expected(exp, box)
tm.assert_equal(result, exp)
@pytest.mark.parametrize("holder", [Int64Index, UInt64Index, Float64Index, Series])
def test_ufunc_multiple_return_values(self, holder):
obj = holder([1, 2, 3], name="x")
box = Series if holder is Series else Index
result = np.modf(obj)
assert isinstance(result, tuple)
exp1 = Float64Index([0.0, 0.0, 0.0], name="x")
exp2 = Float64Index([1.0, 2.0, 3.0], name="x")
tm.assert_equal(result[0], tm.box_expected(exp1, box))
tm.assert_equal(result[1], tm.box_expected(exp2, box))
def test_ufunc_at(self):
s = Series([0, 1, 2], index=[1, 2, 3], name="x")
np.add.at(s, [0, 2], 10)
expected = Series([10, 1, 12], index=[1, 2, 3], name="x")
tm.assert_series_equal(s, expected)
class TestObjectDtypeEquivalence:
# Tests that arithmetic operations match operations executed elementwise
@pytest.mark.parametrize("dtype", [None, object])
def test_numarr_with_dtype_add_nan(self, dtype, box_with_array):
box = box_with_array
ser = Series([1, 2, 3], dtype=dtype)
expected = Series([np.nan, np.nan, np.nan], dtype=dtype)
ser = tm.box_expected(ser, box)
expected = tm.box_expected(expected, box)
result = np.nan + ser
tm.assert_equal(result, expected)
result = ser + np.nan
tm.assert_equal(result, expected)
@pytest.mark.parametrize("dtype", [None, object])
def test_numarr_with_dtype_add_int(self, dtype, box_with_array):
box = box_with_array
ser = Series([1, 2, 3], dtype=dtype)
expected = Series([2, 3, 4], dtype=dtype)
ser = tm.box_expected(ser, box)
expected = tm.box_expected(expected, box)
result = 1 + ser
tm.assert_equal(result, expected)
result = ser + 1
tm.assert_equal(result, expected)
# TODO: moved from tests.series.test_operators; needs cleanup
@pytest.mark.parametrize(
"op",
[operator.add, operator.sub, operator.mul, operator.truediv, operator.floordiv],
)
def test_operators_reverse_object(self, op):
# GH#56
arr = Series(np.random.randn(10), index=np.arange(10), dtype=object)
result = op(1.0, arr)
expected = op(1.0, arr.astype(float))
tm.assert_series_equal(result.astype(float), expected)
class TestNumericArithmeticUnsorted:
# Tests in this class have been moved from type-specific test modules
# but not yet sorted, parametrized, and de-duplicated
def check_binop(self, ops, scalars, idxs):
for op in ops:
for a, b in combinations(idxs, 2):
result = op(a, b)
expected = op(Int64Index(a), Int64Index(b))
tm.assert_index_equal(result, expected)
for idx in idxs:
for scalar in scalars:
result = op(idx, scalar)
expected = op(Int64Index(idx), scalar)
tm.assert_index_equal(result, expected)
def test_binops(self):
ops = [
operator.add,
operator.sub,
operator.mul,
operator.floordiv,
operator.truediv,
]
scalars = [-1, 1, 2]
idxs = [
RangeIndex(0, 10, 1),
RangeIndex(0, 20, 2),
RangeIndex(-10, 10, 2),
RangeIndex(5, -5, -1),
]
self.check_binop(ops, scalars, idxs)
def test_binops_pow(self):
# numpy does not allow powers of negative integers so test separately
# https://github.com/numpy/numpy/pull/8127
ops = [pow]
scalars = [1, 2]
idxs = [RangeIndex(0, 10, 1), RangeIndex(0, 20, 2)]
self.check_binop(ops, scalars, idxs)
# TODO: mod, divmod?
@pytest.mark.parametrize(
"op",
[
operator.add,
operator.sub,
operator.mul,
operator.floordiv,
operator.truediv,
operator.pow,
],
)
def test_arithmetic_with_frame_or_series(self, op):
# check that we return NotImplemented when operating with Series
# or DataFrame
index = RangeIndex(5)
other = Series(np.random.randn(5))
expected = op(Series(index), other)
result = op(index, other)
tm.assert_series_equal(result, expected)
other = pd.DataFrame(np.random.randn(2, 5))
expected = op(pd.DataFrame([index, index]), other)
result = op(index, other)
tm.assert_frame_equal(result, expected)
def test_numeric_compat2(self):
# validate that we are handling the RangeIndex overrides to numeric ops
# and returning RangeIndex where possible
idx = RangeIndex(0, 10, 2)
result = idx * 2
expected = RangeIndex(0, 20, 4)
tm.assert_index_equal(result, expected, exact=True)
result = idx + 2
expected = RangeIndex(2, 12, 2)
tm.assert_index_equal(result, expected, exact=True)
result = idx - 2
expected = RangeIndex(-2, 8, 2)
tm.assert_index_equal(result, expected, exact=True)
result = idx / 2
expected = RangeIndex(0, 5, 1).astype("float64")
tm.assert_index_equal(result, expected, exact=True)
result = idx / 4
expected = RangeIndex(0, 10, 2) / 4
tm.assert_index_equal(result, expected, exact=True)
result = idx // 1
expected = idx
tm.assert_index_equal(result, expected, exact=True)
# __mul__
result = idx * idx
expected = Index(idx.values * idx.values)
tm.assert_index_equal(result, expected, exact=True)
# __pow__
idx = RangeIndex(0, 1000, 2)
result = idx ** 2
expected = idx._int64index ** 2
tm.assert_index_equal(Index(result.values), expected, exact=True)
# __floordiv__
cases_exact = [
(RangeIndex(0, 1000, 2), 2, RangeIndex(0, 500, 1)),
(RangeIndex(-99, -201, -3), -3, RangeIndex(33, 67, 1)),
(RangeIndex(0, 1000, 1), 2, RangeIndex(0, 1000, 1)._int64index // 2),
(
RangeIndex(0, 100, 1),
2.0,
RangeIndex(0, 100, 1)._int64index // 2.0,
),
(RangeIndex(0), 50, RangeIndex(0)),
(RangeIndex(2, 4, 2), 3, RangeIndex(0, 1, 1)),
(RangeIndex(-5, -10, -6), 4, RangeIndex(-2, -1, 1)),
(RangeIndex(-100, -200, 3), 2, RangeIndex(0)),
]
for idx, div, expected in cases_exact:
tm.assert_index_equal(idx // div, expected, exact=True)
@pytest.mark.parametrize("dtype", [np.int64, np.float64])
@pytest.mark.parametrize("delta", [1, 0, -1])
def test_addsub_arithmetic(self, dtype, delta):
# GH#8142
delta = dtype(delta)
index = Index([10, 11, 12], dtype=dtype)
result = index + delta
expected = Index(index.values + delta, dtype=dtype)
tm.assert_index_equal(result, expected)
# this subtraction used to fail
result = index - delta
expected = Index(index.values - delta, dtype=dtype)
tm.assert_index_equal(result, expected)
tm.assert_index_equal(index + index, 2 * index)
tm.assert_index_equal(index - index, 0 * index)
assert not (index - index).empty
def test_fill_value_inf_masking():
# GH #27464 make sure we mask 0/1 with Inf and not NaN
df = pd.DataFrame({"A": [0, 1, 2], "B": [1.1, None, 1.1]})
other = pd.DataFrame({"A": [1.1, 1.2, 1.3]}, index=[0, 2, 3])
result = df.rfloordiv(other, fill_value=1)
expected = pd.DataFrame(
{"A": [np.inf, 1.0, 0.0, 1.0], "B": [0.0, np.nan, 0.0, np.nan]}
)
tm.assert_frame_equal(result, expected)
def test_dataframe_div_silenced():
# GH#26793
pdf1 = pd.DataFrame(
{
"A": np.arange(10),
"B": [np.nan, 1, 2, 3, 4] * 2,
"C": [np.nan] * 10,
"D": np.arange(10),
},
index=list("abcdefghij"),
columns=list("ABCD"),
)
pdf2 = pd.DataFrame(
np.random.randn(10, 4), index=list("abcdefghjk"), columns=list("ABCX")
)
with tm.assert_produces_warning(None):
pdf1.div(pdf2, fill_value=0)
@pytest.mark.parametrize(
"data, expected_data",
[([0, 1, 2], [0, 2, 4])],
)
def test_integer_array_add_list_like(
box_pandas_1d_array, box_1d_array, data, expected_data
):
# GH22606 Verify operators with IntegerArray and list-likes
arr = array(data, dtype="Int64")
container = box_pandas_1d_array(arr)
left = container + box_1d_array(data)
right = box_1d_array(data) + container
if Series == box_pandas_1d_array:
assert_function = tm.assert_series_equal
expected = Series(expected_data, dtype="Int64")
elif Series == box_1d_array:
assert_function = tm.assert_series_equal
expected = Series(expected_data, dtype="object")
elif Index in (box_pandas_1d_array, box_1d_array):
assert_function = tm.assert_index_equal
expected = Int64Index(expected_data)
else:
assert_function = tm.assert_numpy_array_equal
expected = np.array(expected_data, dtype="object")
assert_function(left, expected)
assert_function(right, expected)