craftbeerpi4-pione/venv/lib/python3.8/site-packages/pandas/tests/indexes/test_setops.py

448 lines
16 KiB
Python

"""
The tests in this package are to ensure the proper resultant dtypes of
set operations.
"""
import numpy as np
import pytest
from pandas.core.dtypes.common import is_dtype_equal
import pandas as pd
from pandas import (
CategoricalIndex,
DatetimeIndex,
Float64Index,
Int64Index,
MultiIndex,
RangeIndex,
Series,
TimedeltaIndex,
UInt64Index,
)
import pandas._testing as tm
from pandas.api.types import is_datetime64tz_dtype, pandas_dtype
COMPATIBLE_INCONSISTENT_PAIRS = {
(Int64Index, RangeIndex): (tm.makeIntIndex, tm.makeRangeIndex),
(Float64Index, Int64Index): (tm.makeFloatIndex, tm.makeIntIndex),
(Float64Index, RangeIndex): (tm.makeFloatIndex, tm.makeIntIndex),
(Float64Index, UInt64Index): (tm.makeFloatIndex, tm.makeUIntIndex),
}
def test_union_same_types(index):
# Union with a non-unique, non-monotonic index raises error
# Only needed for bool index factory
idx1 = index.sort_values()
idx2 = index.sort_values()
assert idx1.union(idx2).dtype == idx1.dtype
def test_union_different_types(index, index_fixture2):
# This test only considers combinations of indices
# GH 23525
idx1, idx2 = index, index_fixture2
type_pair = tuple(sorted([type(idx1), type(idx2)], key=lambda x: str(x)))
if type_pair in COMPATIBLE_INCONSISTENT_PAIRS:
pytest.xfail("This test only considers non compatible indexes.")
if any(isinstance(idx, pd.MultiIndex) for idx in (idx1, idx2)):
pytest.xfail("This test doesn't consider multiindixes.")
if is_dtype_equal(idx1.dtype, idx2.dtype):
pytest.xfail("This test only considers non matching dtypes.")
# A union with a CategoricalIndex (even as dtype('O')) and a
# non-CategoricalIndex can only be made if both indices are monotonic.
# This is true before this PR as well.
# Union with a non-unique, non-monotonic index raises error
# This applies to the boolean index
idx1 = idx1.sort_values()
idx2 = idx2.sort_values()
assert idx1.union(idx2).dtype == np.dtype("O")
assert idx2.union(idx1).dtype == np.dtype("O")
@pytest.mark.parametrize("idx_fact1,idx_fact2", COMPATIBLE_INCONSISTENT_PAIRS.values())
def test_compatible_inconsistent_pairs(idx_fact1, idx_fact2):
# GH 23525
idx1 = idx_fact1(10)
idx2 = idx_fact2(20)
res1 = idx1.union(idx2)
res2 = idx2.union(idx1)
assert res1.dtype in (idx1.dtype, idx2.dtype)
assert res2.dtype in (idx1.dtype, idx2.dtype)
@pytest.mark.parametrize(
"left, right, expected",
[
("int64", "int64", "int64"),
("int64", "uint64", "object"),
("int64", "float64", "float64"),
("uint64", "float64", "float64"),
("uint64", "uint64", "uint64"),
("float64", "float64", "float64"),
("datetime64[ns]", "int64", "object"),
("datetime64[ns]", "uint64", "object"),
("datetime64[ns]", "float64", "object"),
("datetime64[ns, CET]", "int64", "object"),
("datetime64[ns, CET]", "uint64", "object"),
("datetime64[ns, CET]", "float64", "object"),
("Period[D]", "int64", "object"),
("Period[D]", "uint64", "object"),
("Period[D]", "float64", "object"),
],
)
@pytest.mark.parametrize("names", [("foo", "foo", "foo"), ("foo", "bar", None)])
def test_union_dtypes(left, right, expected, names):
left = pandas_dtype(left)
right = pandas_dtype(right)
a = pd.Index([], dtype=left, name=names[0])
b = pd.Index([], dtype=right, name=names[1])
result = a.union(b)
assert result.dtype == expected
assert result.name == names[2]
# Testing name retention
# TODO: pin down desired dtype; do we want it to be commutative?
result = a.intersection(b)
assert result.name == names[2]
def test_dunder_inplace_setops_deprecated(index):
# GH#37374 these will become logical ops, not setops
with tm.assert_produces_warning(FutureWarning):
index |= index
with tm.assert_produces_warning(FutureWarning):
index &= index
with tm.assert_produces_warning(FutureWarning):
index ^= index
@pytest.mark.parametrize("values", [[1, 2, 2, 3], [3, 3]])
def test_intersection_duplicates(values):
# GH#31326
a = pd.Index(values)
b = pd.Index([3, 3])
result = a.intersection(b)
expected = pd.Index([3])
tm.assert_index_equal(result, expected)
class TestSetOps:
# Set operation tests shared by all indexes in the `index` fixture
@pytest.mark.parametrize("case", [0.5, "xxx"])
@pytest.mark.parametrize(
"method", ["intersection", "union", "difference", "symmetric_difference"]
)
def test_set_ops_error_cases(self, case, method, index):
# non-iterable input
msg = "Input must be Index or array-like"
with pytest.raises(TypeError, match=msg):
getattr(index, method)(case)
def test_intersection_base(self, index):
if isinstance(index, CategoricalIndex):
return
first = index[:5]
second = index[:3]
intersect = first.intersection(second)
assert tm.equalContents(intersect, second)
if is_datetime64tz_dtype(index.dtype):
# The second.values below will drop tz, so the rest of this test
# is not applicable.
return
# GH#10149
cases = [klass(second.values) for klass in [np.array, Series, list]]
for case in cases:
result = first.intersection(case)
assert tm.equalContents(result, second)
if isinstance(index, MultiIndex):
msg = "other must be a MultiIndex or a list of tuples"
with pytest.raises(TypeError, match=msg):
first.intersection([1, 2, 3])
def test_union_base(self, index):
first = index[3:]
second = index[:5]
everything = index
union = first.union(second)
assert tm.equalContents(union, everything)
if is_datetime64tz_dtype(index.dtype):
# The second.values below will drop tz, so the rest of this test
# is not applicable.
return
# GH#10149
cases = [klass(second.values) for klass in [np.array, Series, list]]
for case in cases:
if not isinstance(index, CategoricalIndex):
result = first.union(case)
assert tm.equalContents(result, everything), (
result,
everything,
type(case),
)
if isinstance(index, MultiIndex):
msg = "other must be a MultiIndex or a list of tuples"
with pytest.raises(TypeError, match=msg):
first.union([1, 2, 3])
def test_difference_base(self, sort, index):
first = index[2:]
second = index[:4]
if isinstance(index, CategoricalIndex) or index.is_boolean():
answer = []
else:
answer = index[4:]
result = first.difference(second, sort)
assert tm.equalContents(result, answer)
# GH#10149
cases = [klass(second.values) for klass in [np.array, Series, list]]
for case in cases:
if isinstance(index, (DatetimeIndex, TimedeltaIndex)):
assert type(result) == type(answer)
tm.assert_numpy_array_equal(
result.sort_values().asi8, answer.sort_values().asi8
)
else:
result = first.difference(case, sort)
assert tm.equalContents(result, answer)
if isinstance(index, MultiIndex):
msg = "other must be a MultiIndex or a list of tuples"
with pytest.raises(TypeError, match=msg):
first.difference([1, 2, 3], sort)
def test_symmetric_difference(self, index):
if isinstance(index, CategoricalIndex):
return
if len(index) < 2:
return
if index[0] in index[1:] or index[-1] in index[:-1]:
# index fixture has e.g. an index of bools that does not satisfy this,
# another with [0, 0, 1, 1, 2, 2]
return
first = index[1:]
second = index[:-1]
answer = index[[0, -1]]
result = first.symmetric_difference(second)
assert tm.equalContents(result, answer)
# GH#10149
cases = [klass(second.values) for klass in [np.array, Series, list]]
for case in cases:
if is_datetime64tz_dtype(first):
with pytest.raises(ValueError, match="Tz-aware"):
# `second.values` casts to tznaive
# TODO: should the symmetric_difference then be the union?
first.symmetric_difference(case)
continue
result = first.symmetric_difference(case)
assert tm.equalContents(result, answer)
if isinstance(index, MultiIndex):
msg = "other must be a MultiIndex or a list of tuples"
with pytest.raises(TypeError, match=msg):
first.symmetric_difference([1, 2, 3])
@pytest.mark.parametrize(
"fname, sname, expected_name",
[
("A", "A", "A"),
("A", "B", None),
("A", None, None),
(None, "B", None),
(None, None, None),
],
)
def test_corner_union(self, index, fname, sname, expected_name):
# GH#9943, GH#9862
# Test unions with various name combinations
# Do not test MultiIndex or repeats
if isinstance(index, MultiIndex) or not index.is_unique:
pytest.skip("Not for MultiIndex or repeated indices")
# Test copy.union(copy)
first = index.copy().set_names(fname)
second = index.copy().set_names(sname)
union = first.union(second)
expected = index.copy().set_names(expected_name)
tm.assert_index_equal(union, expected)
# Test copy.union(empty)
first = index.copy().set_names(fname)
second = index.drop(index).set_names(sname)
union = first.union(second)
expected = index.copy().set_names(expected_name)
tm.assert_index_equal(union, expected)
# Test empty.union(copy)
first = index.drop(index).set_names(fname)
second = index.copy().set_names(sname)
union = first.union(second)
expected = index.copy().set_names(expected_name)
tm.assert_index_equal(union, expected)
# Test empty.union(empty)
first = index.drop(index).set_names(fname)
second = index.drop(index).set_names(sname)
union = first.union(second)
expected = index.drop(index).set_names(expected_name)
tm.assert_index_equal(union, expected)
@pytest.mark.parametrize(
"fname, sname, expected_name",
[
("A", "A", "A"),
("A", "B", None),
("A", None, None),
(None, "B", None),
(None, None, None),
],
)
def test_union_unequal(self, index, fname, sname, expected_name):
if isinstance(index, MultiIndex) or not index.is_unique:
pytest.skip("Not for MultiIndex or repeated indices")
# test copy.union(subset) - need sort for unicode and string
first = index.copy().set_names(fname)
second = index[1:].set_names(sname)
union = first.union(second).sort_values()
expected = index.set_names(expected_name).sort_values()
tm.assert_index_equal(union, expected)
@pytest.mark.parametrize(
"fname, sname, expected_name",
[
("A", "A", "A"),
("A", "B", None),
("A", None, None),
(None, "B", None),
(None, None, None),
],
)
def test_corner_intersect(self, index, fname, sname, expected_name):
# GH#35847
# Test intersections with various name combinations
if isinstance(index, MultiIndex) or not index.is_unique:
pytest.skip("Not for MultiIndex or repeated indices")
# Test copy.intersection(copy)
first = index.copy().set_names(fname)
second = index.copy().set_names(sname)
intersect = first.intersection(second)
expected = index.copy().set_names(expected_name)
tm.assert_index_equal(intersect, expected)
# Test copy.intersection(empty)
first = index.copy().set_names(fname)
second = index.drop(index).set_names(sname)
intersect = first.intersection(second)
expected = index.drop(index).set_names(expected_name)
tm.assert_index_equal(intersect, expected)
# Test empty.intersection(copy)
first = index.drop(index).set_names(fname)
second = index.copy().set_names(sname)
intersect = first.intersection(second)
expected = index.drop(index).set_names(expected_name)
tm.assert_index_equal(intersect, expected)
# Test empty.intersection(empty)
first = index.drop(index).set_names(fname)
second = index.drop(index).set_names(sname)
intersect = first.intersection(second)
expected = index.drop(index).set_names(expected_name)
tm.assert_index_equal(intersect, expected)
@pytest.mark.parametrize(
"fname, sname, expected_name",
[
("A", "A", "A"),
("A", "B", None),
("A", None, None),
(None, "B", None),
(None, None, None),
],
)
def test_intersect_unequal(self, index, fname, sname, expected_name):
if isinstance(index, MultiIndex) or not index.is_unique:
pytest.skip("Not for MultiIndex or repeated indices")
# test copy.intersection(subset) - need sort for unicode and string
first = index.copy().set_names(fname)
second = index[1:].set_names(sname)
intersect = first.intersection(second).sort_values()
expected = index[1:].set_names(expected_name).sort_values()
tm.assert_index_equal(intersect, expected)
def test_intersection_name_retention_with_nameless(self, index):
if isinstance(index, MultiIndex):
index = index.rename(list(range(index.nlevels)))
else:
index = index.rename("foo")
other = np.asarray(index)
result = index.intersection(other)
assert result.name == index.name
# empty other, same dtype
result = index.intersection(other[:0])
assert result.name == index.name
# empty `self`
result = index[:0].intersection(other)
assert result.name == index.name
def test_difference_preserves_type_empty(self, index, sort):
# GH#20040
# If taking difference of a set and itself, it
# needs to preserve the type of the index
if not index.is_unique:
return
result = index.difference(index, sort=sort)
expected = index[:0]
tm.assert_index_equal(result, expected, exact=True)
def test_difference_name_retention_equals(self, index, sort, names):
if isinstance(index, MultiIndex):
names = [[x] * index.nlevels for x in names]
index = index.rename(names[0])
other = index.rename(names[1])
assert index.equals(other)
result = index.difference(other)
expected = index[:0].rename(names[2])
tm.assert_index_equal(result, expected)
def test_intersection_difference_match_empty(self, index, sort):
# GH#20040
# Test that the intersection of an index with an
# empty index produces the same index as the difference
# of an index with itself. Test for all types
if not index.is_unique:
return
inter = index.intersection(index[:0])
diff = index.difference(index, sort=sort)
tm.assert_index_equal(inter, diff, exact=True)