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test_arithmetics.py
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import operator
import numpy as np
import pytest
import pandas as pd
import pandas._testing as tm
from pandas.core import ops
from pandas.core.arrays.sparse import SparseArray, SparseDtype
@pytest.fixture(params=["integer", "block"])
def kind(request):
"""kind kwarg to pass to SparseArray/SparseSeries"""
return request.param
@pytest.fixture(params=[True, False])
def mix(request):
# whether to operate op(sparse, dense) instead of op(sparse, sparse)
return request.param
class TestSparseArrayArithmetics:
_base = np.array
_klass = SparseArray
def _assert(self, a, b):
tm.assert_numpy_array_equal(a, b)
def _check_numeric_ops(self, a, b, a_dense, b_dense, mix, op):
with np.errstate(invalid="ignore", divide="ignore"):
if op in [operator.floordiv, ops.rfloordiv]:
# FIXME: GH#13843
if self._base == pd.Series and a.dtype.subtype == np.dtype("int64"):
pytest.xfail("Not defined/working. See GH#13843")
if mix:
result = op(a, b_dense).to_dense()
else:
result = op(a, b).to_dense()
if op in [operator.truediv, ops.rtruediv]:
# pandas uses future division
expected = op(a_dense * 1.0, b_dense)
else:
expected = op(a_dense, b_dense)
if op in [operator.floordiv, ops.rfloordiv]:
# Series sets 1//0 to np.inf, which SparseArray does not do (yet)
mask = np.isinf(expected)
if mask.any():
expected[mask] = np.nan
self._assert(result, expected)
def _check_bool_result(self, res):
assert isinstance(res, self._klass)
assert isinstance(res.dtype, SparseDtype)
assert res.dtype.subtype == np.bool
assert isinstance(res.fill_value, bool)
def _check_comparison_ops(self, a, b, a_dense, b_dense):
with np.errstate(invalid="ignore"):
# Unfortunately, trying to wrap the computation of each expected
# value is with np.errstate() is too tedious.
#
# sparse & sparse
self._check_bool_result(a == b)
self._assert((a == b).to_dense(), a_dense == b_dense)
self._check_bool_result(a != b)
self._assert((a != b).to_dense(), a_dense != b_dense)
self._check_bool_result(a >= b)
self._assert((a >= b).to_dense(), a_dense >= b_dense)
self._check_bool_result(a <= b)
self._assert((a <= b).to_dense(), a_dense <= b_dense)
self._check_bool_result(a > b)
self._assert((a > b).to_dense(), a_dense > b_dense)
self._check_bool_result(a < b)
self._assert((a < b).to_dense(), a_dense < b_dense)
# sparse & dense
self._check_bool_result(a == b_dense)
self._assert((a == b_dense).to_dense(), a_dense == b_dense)
self._check_bool_result(a != b_dense)
self._assert((a != b_dense).to_dense(), a_dense != b_dense)
self._check_bool_result(a >= b_dense)
self._assert((a >= b_dense).to_dense(), a_dense >= b_dense)
self._check_bool_result(a <= b_dense)
self._assert((a <= b_dense).to_dense(), a_dense <= b_dense)
self._check_bool_result(a > b_dense)
self._assert((a > b_dense).to_dense(), a_dense > b_dense)
self._check_bool_result(a < b_dense)
self._assert((a < b_dense).to_dense(), a_dense < b_dense)
def _check_logical_ops(self, a, b, a_dense, b_dense):
# sparse & sparse
self._check_bool_result(a & b)
self._assert((a & b).to_dense(), a_dense & b_dense)
self._check_bool_result(a | b)
self._assert((a | b).to_dense(), a_dense | b_dense)
# sparse & dense
self._check_bool_result(a & b_dense)
self._assert((a & b_dense).to_dense(), a_dense & b_dense)
self._check_bool_result(a | b_dense)
self._assert((a | b_dense).to_dense(), a_dense | b_dense)
@pytest.mark.parametrize("scalar", [0, 1, 3])
@pytest.mark.parametrize("fill_value", [None, 0, 2])
def test_float_scalar(
self, kind, mix, all_arithmetic_functions, fill_value, scalar
):
op = all_arithmetic_functions
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
a = self._klass(values, kind=kind, fill_value=fill_value)
self._check_numeric_ops(a, scalar, values, scalar, mix, op)
def test_float_scalar_comparison(self, kind):
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
a = self._klass(values, kind=kind)
self._check_comparison_ops(a, 1, values, 1)
self._check_comparison_ops(a, 0, values, 0)
self._check_comparison_ops(a, 3, values, 3)
a = self._klass(values, kind=kind, fill_value=0)
self._check_comparison_ops(a, 1, values, 1)
self._check_comparison_ops(a, 0, values, 0)
self._check_comparison_ops(a, 3, values, 3)
a = self._klass(values, kind=kind, fill_value=2)
self._check_comparison_ops(a, 1, values, 1)
self._check_comparison_ops(a, 0, values, 0)
self._check_comparison_ops(a, 3, values, 3)
def test_float_same_index(self, kind, mix, all_arithmetic_functions):
# when sp_index are the same
op = all_arithmetic_functions
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
rvalues = self._base([np.nan, 2, 3, 4, np.nan, 0, 1, 3, 2, np.nan])
a = self._klass(values, kind=kind)
b = self._klass(rvalues, kind=kind)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
values = self._base([0.0, 1.0, 2.0, 6.0, 0.0, 0.0, 1.0, 2.0, 1.0, 0.0])
rvalues = self._base([0.0, 2.0, 3.0, 4.0, 0.0, 0.0, 1.0, 3.0, 2.0, 0.0])
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind, fill_value=0)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
def test_float_same_index_comparison(self, kind):
# when sp_index are the same
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
rvalues = self._base([np.nan, 2, 3, 4, np.nan, 0, 1, 3, 2, np.nan])
a = self._klass(values, kind=kind)
b = self._klass(rvalues, kind=kind)
self._check_comparison_ops(a, b, values, rvalues)
values = self._base([0.0, 1.0, 2.0, 6.0, 0.0, 0.0, 1.0, 2.0, 1.0, 0.0])
rvalues = self._base([0.0, 2.0, 3.0, 4.0, 0.0, 0.0, 1.0, 3.0, 2.0, 0.0])
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind, fill_value=0)
self._check_comparison_ops(a, b, values, rvalues)
def test_float_array(self, kind, mix, all_arithmetic_functions):
op = all_arithmetic_functions
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
rvalues = self._base([2, np.nan, 2, 3, np.nan, 0, 1, 5, 2, np.nan])
a = self._klass(values, kind=kind)
b = self._klass(rvalues, kind=kind)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
self._check_numeric_ops(a, b * 0, values, rvalues * 0, mix, op)
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind, fill_value=0)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
a = self._klass(values, kind=kind, fill_value=1)
b = self._klass(rvalues, kind=kind, fill_value=2)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
def test_float_array_different_kind(self, mix, all_arithmetic_functions):
op = all_arithmetic_functions
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
rvalues = self._base([2, np.nan, 2, 3, np.nan, 0, 1, 5, 2, np.nan])
a = self._klass(values, kind="integer")
b = self._klass(rvalues, kind="block")
self._check_numeric_ops(a, b, values, rvalues, mix, op)
self._check_numeric_ops(a, b * 0, values, rvalues * 0, mix, op)
a = self._klass(values, kind="integer", fill_value=0)
b = self._klass(rvalues, kind="block")
self._check_numeric_ops(a, b, values, rvalues, mix, op)
a = self._klass(values, kind="integer", fill_value=0)
b = self._klass(rvalues, kind="block", fill_value=0)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
a = self._klass(values, kind="integer", fill_value=1)
b = self._klass(rvalues, kind="block", fill_value=2)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
def test_float_array_comparison(self, kind):
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
rvalues = self._base([2, np.nan, 2, 3, np.nan, 0, 1, 5, 2, np.nan])
a = self._klass(values, kind=kind)
b = self._klass(rvalues, kind=kind)
self._check_comparison_ops(a, b, values, rvalues)
self._check_comparison_ops(a, b * 0, values, rvalues * 0)
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind)
self._check_comparison_ops(a, b, values, rvalues)
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind, fill_value=0)
self._check_comparison_ops(a, b, values, rvalues)
a = self._klass(values, kind=kind, fill_value=1)
b = self._klass(rvalues, kind=kind, fill_value=2)
self._check_comparison_ops(a, b, values, rvalues)
def test_int_array(self, kind, mix, all_arithmetic_functions):
op = all_arithmetic_functions
# have to specify dtype explicitly until fixing GH 667
dtype = np.int64
values = self._base([0, 1, 2, 0, 0, 0, 1, 2, 1, 0], dtype=dtype)
rvalues = self._base([2, 0, 2, 3, 0, 0, 1, 5, 2, 0], dtype=dtype)
a = self._klass(values, dtype=dtype, kind=kind)
assert a.dtype == SparseDtype(dtype)
b = self._klass(rvalues, dtype=dtype, kind=kind)
assert b.dtype == SparseDtype(dtype)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
self._check_numeric_ops(a, b * 0, values, rvalues * 0, mix, op)
a = self._klass(values, fill_value=0, dtype=dtype, kind=kind)
assert a.dtype == SparseDtype(dtype)
b = self._klass(rvalues, dtype=dtype, kind=kind)
assert b.dtype == SparseDtype(dtype)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
a = self._klass(values, fill_value=0, dtype=dtype, kind=kind)
assert a.dtype == SparseDtype(dtype)
b = self._klass(rvalues, fill_value=0, dtype=dtype, kind=kind)
assert b.dtype == SparseDtype(dtype)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
a = self._klass(values, fill_value=1, dtype=dtype, kind=kind)
assert a.dtype == SparseDtype(dtype, fill_value=1)
b = self._klass(rvalues, fill_value=2, dtype=dtype, kind=kind)
assert b.dtype == SparseDtype(dtype, fill_value=2)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
def test_int_array_comparison(self, kind):
dtype = "int64"
# int32 NI ATM
values = self._base([0, 1, 2, 0, 0, 0, 1, 2, 1, 0], dtype=dtype)
rvalues = self._base([2, 0, 2, 3, 0, 0, 1, 5, 2, 0], dtype=dtype)
a = self._klass(values, dtype=dtype, kind=kind)
b = self._klass(rvalues, dtype=dtype, kind=kind)
self._check_comparison_ops(a, b, values, rvalues)
self._check_comparison_ops(a, b * 0, values, rvalues * 0)
a = self._klass(values, dtype=dtype, kind=kind, fill_value=0)
b = self._klass(rvalues, dtype=dtype, kind=kind)
self._check_comparison_ops(a, b, values, rvalues)
a = self._klass(values, dtype=dtype, kind=kind, fill_value=0)
b = self._klass(rvalues, dtype=dtype, kind=kind, fill_value=0)
self._check_comparison_ops(a, b, values, rvalues)
a = self._klass(values, dtype=dtype, kind=kind, fill_value=1)
b = self._klass(rvalues, dtype=dtype, kind=kind, fill_value=2)
self._check_comparison_ops(a, b, values, rvalues)
@pytest.mark.parametrize("fill_value", [True, False, np.nan])
def test_bool_same_index(self, kind, fill_value):
# GH 14000
# when sp_index are the same
values = self._base([True, False, True, True], dtype=np.bool)
rvalues = self._base([True, False, True, True], dtype=np.bool)
a = self._klass(values, kind=kind, dtype=np.bool, fill_value=fill_value)
b = self._klass(rvalues, kind=kind, dtype=np.bool, fill_value=fill_value)
self._check_logical_ops(a, b, values, rvalues)
@pytest.mark.parametrize("fill_value", [True, False, np.nan])
def test_bool_array_logical(self, kind, fill_value):
# GH 14000
# when sp_index are the same
values = self._base([True, False, True, False, True, True], dtype=np.bool)
rvalues = self._base([True, False, False, True, False, True], dtype=np.bool)
a = self._klass(values, kind=kind, dtype=np.bool, fill_value=fill_value)
b = self._klass(rvalues, kind=kind, dtype=np.bool, fill_value=fill_value)
self._check_logical_ops(a, b, values, rvalues)
def test_mixed_array_float_int(self, kind, mix, all_arithmetic_functions):
op = all_arithmetic_functions
rdtype = "int64"
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
rvalues = self._base([2, 0, 2, 3, 0, 0, 1, 5, 2, 0], dtype=rdtype)
a = self._klass(values, kind=kind)
b = self._klass(rvalues, kind=kind)
assert b.dtype == SparseDtype(rdtype)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
self._check_numeric_ops(a, b * 0, values, rvalues * 0, mix, op)
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind)
assert b.dtype == SparseDtype(rdtype)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind, fill_value=0)
assert b.dtype == SparseDtype(rdtype)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
a = self._klass(values, kind=kind, fill_value=1)
b = self._klass(rvalues, kind=kind, fill_value=2)
assert b.dtype == SparseDtype(rdtype, fill_value=2)
self._check_numeric_ops(a, b, values, rvalues, mix, op)
def test_mixed_array_comparison(self, kind):
rdtype = "int64"
# int32 NI ATM
values = self._base([np.nan, 1, 2, 0, np.nan, 0, 1, 2, 1, np.nan])
rvalues = self._base([2, 0, 2, 3, 0, 0, 1, 5, 2, 0], dtype=rdtype)
a = self._klass(values, kind=kind)
b = self._klass(rvalues, kind=kind)
assert b.dtype == SparseDtype(rdtype)
self._check_comparison_ops(a, b, values, rvalues)
self._check_comparison_ops(a, b * 0, values, rvalues * 0)
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind)
assert b.dtype == SparseDtype(rdtype)
self._check_comparison_ops(a, b, values, rvalues)
a = self._klass(values, kind=kind, fill_value=0)
b = self._klass(rvalues, kind=kind, fill_value=0)
assert b.dtype == SparseDtype(rdtype)
self._check_comparison_ops(a, b, values, rvalues)
a = self._klass(values, kind=kind, fill_value=1)
b = self._klass(rvalues, kind=kind, fill_value=2)
assert b.dtype == SparseDtype(rdtype, fill_value=2)
self._check_comparison_ops(a, b, values, rvalues)
@pytest.mark.parametrize("op", [operator.eq, operator.add])
def test_with_list(op):
arr = SparseArray([0, 1], fill_value=0)
result = op(arr, [0, 1])
expected = op(arr, SparseArray([0, 1]))
tm.assert_sp_array_equal(result, expected)
def test_with_dataframe():
# GH#27910
arr = SparseArray([0, 1], fill_value=0)
df = pd.DataFrame([[1, 2], [3, 4]])
result = arr.__add__(df)
assert result is NotImplemented
def test_with_zerodim_ndarray():
# GH#27910
arr = SparseArray([0, 1], fill_value=0)
result = arr * np.array(2)
expected = arr * 2
tm.assert_sp_array_equal(result, expected)
@pytest.mark.parametrize("ufunc", [np.abs, np.exp])
@pytest.mark.parametrize(
"arr", [SparseArray([0, 0, -1, 1]), SparseArray([None, None, -1, 1])]
)
def test_ufuncs(ufunc, arr):
result = ufunc(arr)
fill_value = ufunc(arr.fill_value)
expected = SparseArray(ufunc(np.asarray(arr)), fill_value=fill_value)
tm.assert_sp_array_equal(result, expected)
@pytest.mark.parametrize(
"a, b",
[
(SparseArray([0, 0, 0]), np.array([0, 1, 2])),
(SparseArray([0, 0, 0], fill_value=1), np.array([0, 1, 2])),
(SparseArray([0, 0, 0], fill_value=1), np.array([0, 1, 2])),
(SparseArray([0, 0, 0], fill_value=1), np.array([0, 1, 2])),
(SparseArray([0, 0, 0], fill_value=1), np.array([0, 1, 2])),
],
)
@pytest.mark.parametrize("ufunc", [np.add, np.greater])
def test_binary_ufuncs(ufunc, a, b):
# can't say anything about fill value here.
result = ufunc(a, b)
expected = ufunc(np.asarray(a), np.asarray(b))
assert isinstance(result, SparseArray)
tm.assert_numpy_array_equal(np.asarray(result), expected)
def test_ndarray_inplace():
sparray = SparseArray([0, 2, 0, 0])
ndarray = np.array([0, 1, 2, 3])
ndarray += sparray
expected = np.array([0, 3, 2, 3])
tm.assert_numpy_array_equal(ndarray, expected)
def test_sparray_inplace():
sparray = SparseArray([0, 2, 0, 0])
ndarray = np.array([0, 1, 2, 3])
sparray += ndarray
expected = SparseArray([0, 3, 2, 3], fill_value=0)
tm.assert_sp_array_equal(sparray, expected)
@pytest.mark.parametrize("fill_value", [True, False])
def test_invert(fill_value):
arr = np.array([True, False, False, True])
sparray = SparseArray(arr, fill_value=fill_value)
result = ~sparray
expected = SparseArray(~arr, fill_value=not fill_value)
tm.assert_sp_array_equal(result, expected)
result = ~pd.Series(sparray)
expected = pd.Series(expected)
tm.assert_series_equal(result, expected)
result = ~pd.DataFrame({"A": sparray})
expected = pd.DataFrame({"A": expected})
tm.assert_frame_equal(result, expected)
@pytest.mark.parametrize("fill_value", [0, np.nan])
@pytest.mark.parametrize("op", [operator.pos, operator.neg])
def test_unary_op(op, fill_value):
arr = np.array([0, 1, np.nan, 2])
sparray = SparseArray(arr, fill_value=fill_value)
result = op(sparray)
expected = SparseArray(op(arr), fill_value=op(fill_value))
tm.assert_sp_array_equal(result, expected)