from collections import deque from datetime import datetime import operator import re import numpy as np import pytest import pytz import pandas as pd from pandas import DataFrame, MultiIndex, Series import pandas._testing as tm import pandas.core.common as com from pandas.core.computation.expressions import _MIN_ELEMENTS, _NUMEXPR_INSTALLED from pandas.tests.frame.common import _check_mixed_float, _check_mixed_int # ------------------------------------------------------------------- # Comparisons class TestFrameComparisons: # Specifically _not_ flex-comparisons def test_frame_in_list(self): # GH#12689 this should raise at the DataFrame level, not blocks df = pd.DataFrame(np.random.randn(6, 4), columns=list("ABCD")) msg = "The truth value of a DataFrame is ambiguous" with pytest.raises(ValueError, match=msg): df in [None] def test_comparison_invalid(self): def check(df, df2): for (x, y) in [(df, df2), (df2, df)]: # we expect the result to match Series comparisons for # == and !=, inequalities should raise result = x == y expected = pd.DataFrame( {col: x[col] == y[col] for col in x.columns}, index=x.index, columns=x.columns, ) tm.assert_frame_equal(result, expected) result = x != y expected = pd.DataFrame( {col: x[col] != y[col] for col in x.columns}, index=x.index, columns=x.columns, ) tm.assert_frame_equal(result, expected) msgs = [ r"Invalid comparison between dtype=datetime64\[ns\] and ndarray", "invalid type promotion", ( # npdev 1.20.0 r"The DTypes and " r" do not have a common DType." ), ] msg = "|".join(msgs) with pytest.raises(TypeError, match=msg): x >= y with pytest.raises(TypeError, match=msg): x > y with pytest.raises(TypeError, match=msg): x < y with pytest.raises(TypeError, match=msg): x <= y # GH4968 # invalid date/int comparisons df = pd.DataFrame(np.random.randint(10, size=(10, 1)), columns=["a"]) df["dates"] = pd.date_range("20010101", periods=len(df)) df2 = df.copy() df2["dates"] = df["a"] check(df, df2) df = pd.DataFrame(np.random.randint(10, size=(10, 2)), columns=["a", "b"]) df2 = pd.DataFrame( { "a": pd.date_range("20010101", periods=len(df)), "b": pd.date_range("20100101", periods=len(df)), } ) check(df, df2) def test_timestamp_compare(self): # make sure we can compare Timestamps on the right AND left hand side # GH#4982 df = pd.DataFrame( { "dates1": pd.date_range("20010101", periods=10), "dates2": pd.date_range("20010102", periods=10), "intcol": np.random.randint(1000000000, size=10), "floatcol": np.random.randn(10), "stringcol": list(tm.rands(10)), } ) df.loc[np.random.rand(len(df)) > 0.5, "dates2"] = pd.NaT ops = {"gt": "lt", "lt": "gt", "ge": "le", "le": "ge", "eq": "eq", "ne": "ne"} for left, right in ops.items(): left_f = getattr(operator, left) right_f = getattr(operator, right) # no nats if left in ["eq", "ne"]: expected = left_f(df, pd.Timestamp("20010109")) result = right_f(pd.Timestamp("20010109"), df) tm.assert_frame_equal(result, expected) else: msg = ( "'(<|>)=?' not supported between " "instances of 'numpy.ndarray' and 'Timestamp'" ) with pytest.raises(TypeError, match=msg): left_f(df, pd.Timestamp("20010109")) with pytest.raises(TypeError, match=msg): right_f(pd.Timestamp("20010109"), df) # nats expected = left_f(df, pd.Timestamp("nat")) result = right_f(pd.Timestamp("nat"), df) tm.assert_frame_equal(result, expected) def test_mixed_comparison(self): # GH#13128, GH#22163 != datetime64 vs non-dt64 should be False, # not raise TypeError # (this appears to be fixed before GH#22163, not sure when) df = pd.DataFrame([["1989-08-01", 1], ["1989-08-01", 2]]) other = pd.DataFrame([["a", "b"], ["c", "d"]]) result = df == other assert not result.any().any() result = df != other assert result.all().all() def test_df_boolean_comparison_error(self): # GH#4576, GH#22880 # comparing DataFrame against list/tuple with len(obj) matching # len(df.columns) is supported as of GH#22800 df = pd.DataFrame(np.arange(6).reshape((3, 2))) expected = pd.DataFrame([[False, False], [True, False], [False, False]]) result = df == (2, 2) tm.assert_frame_equal(result, expected) result = df == [2, 2] tm.assert_frame_equal(result, expected) def test_df_float_none_comparison(self): df = pd.DataFrame( np.random.randn(8, 3), index=range(8), columns=["A", "B", "C"] ) result = df.__eq__(None) assert not result.any().any() def test_df_string_comparison(self): df = pd.DataFrame([{"a": 1, "b": "foo"}, {"a": 2, "b": "bar"}]) mask_a = df.a > 1 tm.assert_frame_equal(df[mask_a], df.loc[1:1, :]) tm.assert_frame_equal(df[-mask_a], df.loc[0:0, :]) mask_b = df.b == "foo" tm.assert_frame_equal(df[mask_b], df.loc[0:0, :]) tm.assert_frame_equal(df[-mask_b], df.loc[1:1, :]) class TestFrameFlexComparisons: # TODO: test_bool_flex_frame needs a better name def test_bool_flex_frame(self): data = np.random.randn(5, 3) other_data = np.random.randn(5, 3) df = pd.DataFrame(data) other = pd.DataFrame(other_data) ndim_5 = np.ones(df.shape + (1, 3)) # Unaligned def _check_unaligned_frame(meth, op, df, other): part_o = other.loc[3:, 1:].copy() rs = meth(part_o) xp = op(df, part_o.reindex(index=df.index, columns=df.columns)) tm.assert_frame_equal(rs, xp) # DataFrame assert df.eq(df).values.all() assert not df.ne(df).values.any() for op in ["eq", "ne", "gt", "lt", "ge", "le"]: f = getattr(df, op) o = getattr(operator, op) # No NAs tm.assert_frame_equal(f(other), o(df, other)) _check_unaligned_frame(f, o, df, other) # ndarray tm.assert_frame_equal(f(other.values), o(df, other.values)) # scalar tm.assert_frame_equal(f(0), o(df, 0)) # NAs msg = "Unable to coerce to Series/DataFrame" tm.assert_frame_equal(f(np.nan), o(df, np.nan)) with pytest.raises(ValueError, match=msg): f(ndim_5) # Series def _test_seq(df, idx_ser, col_ser): idx_eq = df.eq(idx_ser, axis=0) col_eq = df.eq(col_ser) idx_ne = df.ne(idx_ser, axis=0) col_ne = df.ne(col_ser) tm.assert_frame_equal(col_eq, df == pd.Series(col_ser)) tm.assert_frame_equal(col_eq, -col_ne) tm.assert_frame_equal(idx_eq, -idx_ne) tm.assert_frame_equal(idx_eq, df.T.eq(idx_ser).T) tm.assert_frame_equal(col_eq, df.eq(list(col_ser))) tm.assert_frame_equal(idx_eq, df.eq(pd.Series(idx_ser), axis=0)) tm.assert_frame_equal(idx_eq, df.eq(list(idx_ser), axis=0)) idx_gt = df.gt(idx_ser, axis=0) col_gt = df.gt(col_ser) idx_le = df.le(idx_ser, axis=0) col_le = df.le(col_ser) tm.assert_frame_equal(col_gt, df > pd.Series(col_ser)) tm.assert_frame_equal(col_gt, -col_le) tm.assert_frame_equal(idx_gt, -idx_le) tm.assert_frame_equal(idx_gt, df.T.gt(idx_ser).T) idx_ge = df.ge(idx_ser, axis=0) col_ge = df.ge(col_ser) idx_lt = df.lt(idx_ser, axis=0) col_lt = df.lt(col_ser) tm.assert_frame_equal(col_ge, df >= pd.Series(col_ser)) tm.assert_frame_equal(col_ge, -col_lt) tm.assert_frame_equal(idx_ge, -idx_lt) tm.assert_frame_equal(idx_ge, df.T.ge(idx_ser).T) idx_ser = pd.Series(np.random.randn(5)) col_ser = pd.Series(np.random.randn(3)) _test_seq(df, idx_ser, col_ser) # list/tuple _test_seq(df, idx_ser.values, col_ser.values) # NA df.loc[0, 0] = np.nan rs = df.eq(df) assert not rs.loc[0, 0] rs = df.ne(df) assert rs.loc[0, 0] rs = df.gt(df) assert not rs.loc[0, 0] rs = df.lt(df) assert not rs.loc[0, 0] rs = df.ge(df) assert not rs.loc[0, 0] rs = df.le(df) assert not rs.loc[0, 0] def test_bool_flex_frame_complex_dtype(self): # complex arr = np.array([np.nan, 1, 6, np.nan]) arr2 = np.array([2j, np.nan, 7, None]) df = pd.DataFrame({"a": arr}) df2 = pd.DataFrame({"a": arr2}) msg = "|".join( [ "'>' not supported between instances of '.*' and 'complex'", r"unorderable types: .*complex\(\)", # PY35 ] ) with pytest.raises(TypeError, match=msg): # inequalities are not well-defined for complex numbers df.gt(df2) with pytest.raises(TypeError, match=msg): # regression test that we get the same behavior for Series df["a"].gt(df2["a"]) with pytest.raises(TypeError, match=msg): # Check that we match numpy behavior here df.values > df2.values rs = df.ne(df2) assert rs.values.all() arr3 = np.array([2j, np.nan, None]) df3 = pd.DataFrame({"a": arr3}) with pytest.raises(TypeError, match=msg): # inequalities are not well-defined for complex numbers df3.gt(2j) with pytest.raises(TypeError, match=msg): # regression test that we get the same behavior for Series df3["a"].gt(2j) with pytest.raises(TypeError, match=msg): # Check that we match numpy behavior here df3.values > 2j def test_bool_flex_frame_object_dtype(self): # corner, dtype=object df1 = pd.DataFrame({"col": ["foo", np.nan, "bar"]}) df2 = pd.DataFrame({"col": ["foo", datetime.now(), "bar"]}) result = df1.ne(df2) exp = pd.DataFrame({"col": [False, True, False]}) tm.assert_frame_equal(result, exp) def test_flex_comparison_nat(self): # GH 15697, GH 22163 df.eq(pd.NaT) should behave like df == pd.NaT, # and _definitely_ not be NaN df = pd.DataFrame([pd.NaT]) result = df == pd.NaT # result.iloc[0, 0] is a np.bool_ object assert result.iloc[0, 0].item() is False result = df.eq(pd.NaT) assert result.iloc[0, 0].item() is False result = df != pd.NaT assert result.iloc[0, 0].item() is True result = df.ne(pd.NaT) assert result.iloc[0, 0].item() is True @pytest.mark.parametrize("opname", ["eq", "ne", "gt", "lt", "ge", "le"]) def test_df_flex_cmp_constant_return_types(self, opname): # GH 15077, non-empty DataFrame df = pd.DataFrame({"x": [1, 2, 3], "y": [1.0, 2.0, 3.0]}) const = 2 result = getattr(df, opname)(const).dtypes.value_counts() tm.assert_series_equal(result, pd.Series([2], index=[np.dtype(bool)])) @pytest.mark.parametrize("opname", ["eq", "ne", "gt", "lt", "ge", "le"]) def test_df_flex_cmp_constant_return_types_empty(self, opname): # GH 15077 empty DataFrame df = pd.DataFrame({"x": [1, 2, 3], "y": [1.0, 2.0, 3.0]}) const = 2 empty = df.iloc[:0] result = getattr(empty, opname)(const).dtypes.value_counts() tm.assert_series_equal(result, pd.Series([2], index=[np.dtype(bool)])) def test_df_flex_cmp_ea_dtype_with_ndarray_series(self): ii = pd.IntervalIndex.from_breaks([1, 2, 3]) df = pd.DataFrame({"A": ii, "B": ii}) ser = pd.Series([0, 0]) res = df.eq(ser, axis=0) expected = pd.DataFrame({"A": [False, False], "B": [False, False]}) tm.assert_frame_equal(res, expected) ser2 = pd.Series([1, 2], index=["A", "B"]) res2 = df.eq(ser2, axis=1) tm.assert_frame_equal(res2, expected) # ------------------------------------------------------------------- # Arithmetic class TestFrameFlexArithmetic: def test_floordiv_axis0(self): # make sure we df.floordiv(ser, axis=0) matches column-wise result arr = np.arange(3) ser = pd.Series(arr) df = pd.DataFrame({"A": ser, "B": ser}) result = df.floordiv(ser, axis=0) expected = pd.DataFrame({col: df[col] // ser for col in df.columns}) tm.assert_frame_equal(result, expected) result2 = df.floordiv(ser.values, axis=0) tm.assert_frame_equal(result2, expected) @pytest.mark.skipif(not _NUMEXPR_INSTALLED, reason="numexpr not installed") @pytest.mark.parametrize("opname", ["floordiv", "pow"]) def test_floordiv_axis0_numexpr_path(self, opname): # case that goes through numexpr and has to fall back to masked_arith_op op = getattr(operator, opname) arr = np.arange(_MIN_ELEMENTS + 100).reshape(_MIN_ELEMENTS // 100 + 1, -1) * 100 df = pd.DataFrame(arr) df["C"] = 1.0 ser = df[0] result = getattr(df, opname)(ser, axis=0) expected = pd.DataFrame({col: op(df[col], ser) for col in df.columns}) tm.assert_frame_equal(result, expected) result2 = getattr(df, opname)(ser.values, axis=0) tm.assert_frame_equal(result2, expected) def test_df_add_td64_columnwise(self): # GH 22534 Check that column-wise addition broadcasts correctly dti = pd.date_range("2016-01-01", periods=10) tdi = pd.timedelta_range("1", periods=10) tser = pd.Series(tdi) df = pd.DataFrame({0: dti, 1: tdi}) result = df.add(tser, axis=0) expected = pd.DataFrame({0: dti + tdi, 1: tdi + tdi}) tm.assert_frame_equal(result, expected) def test_df_add_flex_filled_mixed_dtypes(self): # GH 19611 dti = pd.date_range("2016-01-01", periods=3) ser = pd.Series(["1 Day", "NaT", "2 Days"], dtype="timedelta64[ns]") df = pd.DataFrame({"A": dti, "B": ser}) other = pd.DataFrame({"A": ser, "B": ser}) fill = pd.Timedelta(days=1).to_timedelta64() result = df.add(other, fill_value=fill) expected = pd.DataFrame( { "A": pd.Series( ["2016-01-02", "2016-01-03", "2016-01-05"], dtype="datetime64[ns]" ), "B": ser * 2, } ) tm.assert_frame_equal(result, expected) def test_arith_flex_frame( self, all_arithmetic_operators, float_frame, mixed_float_frame ): # one instance of parametrized fixture op = all_arithmetic_operators def f(x, y): # r-versions not in operator-stdlib; get op without "r" and invert if op.startswith("__r"): return getattr(operator, op.replace("__r", "__"))(y, x) return getattr(operator, op)(x, y) result = getattr(float_frame, op)(2 * float_frame) expected = f(float_frame, 2 * float_frame) tm.assert_frame_equal(result, expected) # vs mix float result = getattr(mixed_float_frame, op)(2 * mixed_float_frame) expected = f(mixed_float_frame, 2 * mixed_float_frame) tm.assert_frame_equal(result, expected) _check_mixed_float(result, dtype=dict(C=None)) @pytest.mark.parametrize("op", ["__add__", "__sub__", "__mul__"]) def test_arith_flex_frame_mixed( self, op, int_frame, mixed_int_frame, mixed_float_frame ): f = getattr(operator, op) # vs mix int result = getattr(mixed_int_frame, op)(2 + mixed_int_frame) expected = f(mixed_int_frame, 2 + mixed_int_frame) # no overflow in the uint dtype = None if op in ["__sub__"]: dtype = dict(B="uint64", C=None) elif op in ["__add__", "__mul__"]: dtype = dict(C=None) tm.assert_frame_equal(result, expected) _check_mixed_int(result, dtype=dtype) # vs mix float result = getattr(mixed_float_frame, op)(2 * mixed_float_frame) expected = f(mixed_float_frame, 2 * mixed_float_frame) tm.assert_frame_equal(result, expected) _check_mixed_float(result, dtype=dict(C=None)) # vs plain int result = getattr(int_frame, op)(2 * int_frame) expected = f(int_frame, 2 * int_frame) tm.assert_frame_equal(result, expected) def test_arith_flex_frame_raise(self, all_arithmetic_operators, float_frame): # one instance of parametrized fixture op = all_arithmetic_operators # Check that arrays with dim >= 3 raise for dim in range(3, 6): arr = np.ones((1,) * dim) msg = "Unable to coerce to Series/DataFrame" with pytest.raises(ValueError, match=msg): getattr(float_frame, op)(arr) def test_arith_flex_frame_corner(self, float_frame): const_add = float_frame.add(1) tm.assert_frame_equal(const_add, float_frame + 1) # corner cases result = float_frame.add(float_frame[:0]) tm.assert_frame_equal(result, float_frame * np.nan) result = float_frame[:0].add(float_frame) tm.assert_frame_equal(result, float_frame * np.nan) with pytest.raises(NotImplementedError, match="fill_value"): float_frame.add(float_frame.iloc[0], fill_value=3) with pytest.raises(NotImplementedError, match="fill_value"): float_frame.add(float_frame.iloc[0], axis="index", fill_value=3) def test_arith_flex_series(self, simple_frame): df = simple_frame row = df.xs("a") col = df["two"] # after arithmetic refactor, add truediv here ops = ["add", "sub", "mul", "mod"] for op in ops: f = getattr(df, op) op = getattr(operator, op) tm.assert_frame_equal(f(row), op(df, row)) tm.assert_frame_equal(f(col, axis=0), op(df.T, col).T) # special case for some reason tm.assert_frame_equal(df.add(row, axis=None), df + row) # cases which will be refactored after big arithmetic refactor tm.assert_frame_equal(df.div(row), df / row) tm.assert_frame_equal(df.div(col, axis=0), (df.T / col).T) # broadcasting issue in GH 7325 df = pd.DataFrame(np.arange(3 * 2).reshape((3, 2)), dtype="int64") expected = pd.DataFrame([[np.nan, np.inf], [1.0, 1.5], [1.0, 1.25]]) result = df.div(df[0], axis="index") tm.assert_frame_equal(result, expected) df = pd.DataFrame(np.arange(3 * 2).reshape((3, 2)), dtype="float64") expected = pd.DataFrame([[np.nan, np.inf], [1.0, 1.5], [1.0, 1.25]]) result = df.div(df[0], axis="index") tm.assert_frame_equal(result, expected) def test_arith_flex_zero_len_raises(self): # GH 19522 passing fill_value to frame flex arith methods should # raise even in the zero-length special cases ser_len0 = pd.Series([], dtype=object) df_len0 = pd.DataFrame(columns=["A", "B"]) df = pd.DataFrame([[1, 2], [3, 4]], columns=["A", "B"]) with pytest.raises(NotImplementedError, match="fill_value"): df.add(ser_len0, fill_value="E") with pytest.raises(NotImplementedError, match="fill_value"): df_len0.sub(df["A"], axis=None, fill_value=3) def test_flex_add_scalar_fill_value(self): # GH#12723 dat = np.array([0, 1, np.nan, 3, 4, 5], dtype="float") df = pd.DataFrame({"foo": dat}, index=range(6)) exp = df.fillna(0).add(2) res = df.add(2, fill_value=0) tm.assert_frame_equal(res, exp) class TestFrameArithmetic: def test_td64_op_nat_casting(self): # Make sure we don't accidentally treat timedelta64(NaT) as datetime64 # when calling dispatch_to_series in DataFrame arithmetic ser = pd.Series(["NaT", "NaT"], dtype="timedelta64[ns]") df = pd.DataFrame([[1, 2], [3, 4]]) result = df * ser expected = pd.DataFrame({0: ser, 1: ser}) tm.assert_frame_equal(result, expected) def test_df_add_2d_array_rowlike_broadcasts(self): # GH#23000 arr = np.arange(6).reshape(3, 2) df = pd.DataFrame(arr, columns=[True, False], index=["A", "B", "C"]) rowlike = arr[[1], :] # shape --> (1, ncols) assert rowlike.shape == (1, df.shape[1]) expected = pd.DataFrame( [[2, 4], [4, 6], [6, 8]], columns=df.columns, index=df.index, # specify dtype explicitly to avoid failing # on 32bit builds dtype=arr.dtype, ) result = df + rowlike tm.assert_frame_equal(result, expected) result = rowlike + df tm.assert_frame_equal(result, expected) def test_df_add_2d_array_collike_broadcasts(self): # GH#23000 arr = np.arange(6).reshape(3, 2) df = pd.DataFrame(arr, columns=[True, False], index=["A", "B", "C"]) collike = arr[:, [1]] # shape --> (nrows, 1) assert collike.shape == (df.shape[0], 1) expected = pd.DataFrame( [[1, 2], [5, 6], [9, 10]], columns=df.columns, index=df.index, # specify dtype explicitly to avoid failing # on 32bit builds dtype=arr.dtype, ) result = df + collike tm.assert_frame_equal(result, expected) result = collike + df tm.assert_frame_equal(result, expected) def test_df_arith_2d_array_rowlike_broadcasts(self, all_arithmetic_operators): # GH#23000 opname = all_arithmetic_operators arr = np.arange(6).reshape(3, 2) df = pd.DataFrame(arr, columns=[True, False], index=["A", "B", "C"]) rowlike = arr[[1], :] # shape --> (1, ncols) assert rowlike.shape == (1, df.shape[1]) exvals = [ getattr(df.loc["A"], opname)(rowlike.squeeze()), getattr(df.loc["B"], opname)(rowlike.squeeze()), getattr(df.loc["C"], opname)(rowlike.squeeze()), ] expected = pd.DataFrame(exvals, columns=df.columns, index=df.index) result = getattr(df, opname)(rowlike) tm.assert_frame_equal(result, expected) def test_df_arith_2d_array_collike_broadcasts(self, all_arithmetic_operators): # GH#23000 opname = all_arithmetic_operators arr = np.arange(6).reshape(3, 2) df = pd.DataFrame(arr, columns=[True, False], index=["A", "B", "C"]) collike = arr[:, [1]] # shape --> (nrows, 1) assert collike.shape == (df.shape[0], 1) exvals = { True: getattr(df[True], opname)(collike.squeeze()), False: getattr(df[False], opname)(collike.squeeze()), } dtype = None if opname in ["__rmod__", "__rfloordiv__"]: # Series ops may return mixed int/float dtypes in cases where # DataFrame op will return all-float. So we upcast `expected` dtype = np.common_type(*[x.values for x in exvals.values()]) expected = pd.DataFrame(exvals, columns=df.columns, index=df.index, dtype=dtype) result = getattr(df, opname)(collike) tm.assert_frame_equal(result, expected) def test_df_bool_mul_int(self): # GH 22047, GH 22163 multiplication by 1 should result in int dtype, # not object dtype df = pd.DataFrame([[False, True], [False, False]]) result = df * 1 # On appveyor this comes back as np.int32 instead of np.int64, # so we check dtype.kind instead of just dtype kinds = result.dtypes.apply(lambda x: x.kind) assert (kinds == "i").all() result = 1 * df kinds = result.dtypes.apply(lambda x: x.kind) assert (kinds == "i").all() def test_arith_mixed(self): left = pd.DataFrame({"A": ["a", "b", "c"], "B": [1, 2, 3]}) result = left + left expected = pd.DataFrame({"A": ["aa", "bb", "cc"], "B": [2, 4, 6]}) tm.assert_frame_equal(result, expected) def test_arith_getitem_commute(self): df = pd.DataFrame({"A": [1.1, 3.3], "B": [2.5, -3.9]}) def _test_op(df, op): result = op(df, 1) if not df.columns.is_unique: raise ValueError("Only unique columns supported by this test") for col in result.columns: tm.assert_series_equal(result[col], op(df[col], 1)) _test_op(df, operator.add) _test_op(df, operator.sub) _test_op(df, operator.mul) _test_op(df, operator.truediv) _test_op(df, operator.floordiv) _test_op(df, operator.pow) _test_op(df, lambda x, y: y + x) _test_op(df, lambda x, y: y - x) _test_op(df, lambda x, y: y * x) _test_op(df, lambda x, y: y / x) _test_op(df, lambda x, y: y ** x) _test_op(df, lambda x, y: x + y) _test_op(df, lambda x, y: x - y) _test_op(df, lambda x, y: x * y) _test_op(df, lambda x, y: x / y) _test_op(df, lambda x, y: x ** y) @pytest.mark.parametrize( "values", [[1, 2], (1, 2), np.array([1, 2]), range(1, 3), deque([1, 2])] ) def test_arith_alignment_non_pandas_object(self, values): # GH#17901 df = pd.DataFrame({"A": [1, 1], "B": [1, 1]}) expected = pd.DataFrame({"A": [2, 2], "B": [3, 3]}) result = df + values tm.assert_frame_equal(result, expected) def test_arith_non_pandas_object(self): df = pd.DataFrame( np.arange(1, 10, dtype="f8").reshape(3, 3), columns=["one", "two", "three"], index=["a", "b", "c"], ) val1 = df.xs("a").values added = pd.DataFrame(df.values + val1, index=df.index, columns=df.columns) tm.assert_frame_equal(df + val1, added) added = pd.DataFrame((df.values.T + val1).T, index=df.index, columns=df.columns) tm.assert_frame_equal(df.add(val1, axis=0), added) val2 = list(df["two"]) added = pd.DataFrame(df.values + val2, index=df.index, columns=df.columns) tm.assert_frame_equal(df + val2, added) added = pd.DataFrame((df.values.T + val2).T, index=df.index, columns=df.columns) tm.assert_frame_equal(df.add(val2, axis="index"), added) val3 = np.random.rand(*df.shape) added = pd.DataFrame(df.values + val3, index=df.index, columns=df.columns) tm.assert_frame_equal(df.add(val3), added) def test_operations_with_interval_categories_index(self, all_arithmetic_operators): # GH#27415 op = all_arithmetic_operators ind = pd.CategoricalIndex(pd.interval_range(start=0.0, end=2.0)) data = [1, 2] df = pd.DataFrame([data], columns=ind) num = 10 result = getattr(df, op)(num) expected = pd.DataFrame([[getattr(n, op)(num) for n in data]], columns=ind) tm.assert_frame_equal(result, expected) def test_frame_with_frame_reindex(self): # GH#31623 df = pd.DataFrame( { "foo": [pd.Timestamp("2019"), pd.Timestamp("2020")], "bar": [pd.Timestamp("2018"), pd.Timestamp("2021")], }, columns=["foo", "bar"], ) df2 = df[["foo"]] result = df - df2 expected = pd.DataFrame( {"foo": [pd.Timedelta(0), pd.Timedelta(0)], "bar": [np.nan, np.nan]}, columns=["bar", "foo"], ) tm.assert_frame_equal(result, expected) def test_frame_with_zero_len_series_corner_cases(): # GH#28600 # easy all-float case df = pd.DataFrame(np.random.randn(6).reshape(3, 2), columns=["A", "B"]) ser = pd.Series(dtype=np.float64) result = df + ser expected = pd.DataFrame(df.values * np.nan, columns=df.columns) tm.assert_frame_equal(result, expected) result = df == ser expected = pd.DataFrame(False, index=df.index, columns=df.columns) tm.assert_frame_equal(result, expected) # non-float case should not raise on comparison df2 = pd.DataFrame(df.values.view("M8[ns]"), columns=df.columns) result = df2 == ser expected = pd.DataFrame(False, index=df.index, columns=df.columns) tm.assert_frame_equal(result, expected) def test_zero_len_frame_with_series_corner_cases(): # GH#28600 df = pd.DataFrame(columns=["A", "B"], dtype=np.float64) ser = pd.Series([1, 2], index=["A", "B"]) result = df + ser expected = df tm.assert_frame_equal(result, expected) def test_frame_single_columns_object_sum_axis_1(): # GH 13758 data = { "One": pd.Series(["A", 1.2, np.nan]), } df = pd.DataFrame(data) result = df.sum(axis=1) expected = pd.Series(["A", 1.2, 0]) tm.assert_series_equal(result, expected) # ------------------------------------------------------------------- # Unsorted # These arithmetic tests were previously in other files, eventually # should be parametrized and put into tests.arithmetic class TestFrameArithmeticUnsorted: def test_frame_add_tz_mismatch_converts_to_utc(self): rng = pd.date_range("1/1/2011", periods=10, freq="H", tz="US/Eastern") df = pd.DataFrame(np.random.randn(len(rng)), index=rng, columns=["a"]) df_moscow = df.tz_convert("Europe/Moscow") result = df + df_moscow assert result.index.tz is pytz.utc result = df_moscow + df assert result.index.tz is pytz.utc def test_align_frame(self): rng = pd.period_range("1/1/2000", "1/1/2010", freq="A") ts = pd.DataFrame(np.random.randn(len(rng), 3), index=rng) result = ts + ts[::2] expected = ts + ts expected.values[1::2] = np.nan tm.assert_frame_equal(result, expected) half = ts[::2] result = ts + half.take(np.random.permutation(len(half))) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize( "op", [operator.add, operator.sub, operator.mul, operator.truediv] ) def test_operators_none_as_na(self, op): df = DataFrame( {"col1": [2, 5.0, 123, None], "col2": [1, 2, 3, 4]}, dtype=object ) # since filling converts dtypes from object, changed expected to be # object filled = df.fillna(np.nan) result = op(df, 3) expected = op(filled, 3).astype(object) expected[com.isna(expected)] = None tm.assert_frame_equal(result, expected) result = op(df, df) expected = op(filled, filled).astype(object) expected[com.isna(expected)] = None tm.assert_frame_equal(result, expected) result = op(df, df.fillna(7)) tm.assert_frame_equal(result, expected) result = op(df.fillna(7), df) tm.assert_frame_equal(result, expected, check_dtype=False) @pytest.mark.parametrize("op,res", [("__eq__", False), ("__ne__", True)]) # TODO: not sure what's correct here. @pytest.mark.filterwarnings("ignore:elementwise:FutureWarning") def test_logical_typeerror_with_non_valid(self, op, res, float_frame): # we are comparing floats vs a string result = getattr(float_frame, op)("foo") assert bool(result.all().all()) is res def test_binary_ops_align(self): # test aligning binary ops # GH 6681 index = MultiIndex.from_product( [list("abc"), ["one", "two", "three"], [1, 2, 3]], names=["first", "second", "third"], ) df = DataFrame( np.arange(27 * 3).reshape(27, 3), index=index, columns=["value1", "value2", "value3"], ).sort_index() idx = pd.IndexSlice for op in ["add", "sub", "mul", "div", "truediv"]: opa = getattr(operator, op, None) if opa is None: continue x = Series([1.0, 10.0, 100.0], [1, 2, 3]) result = getattr(df, op)(x, level="third", axis=0) expected = pd.concat( [opa(df.loc[idx[:, :, i], :], v) for i, v in x.items()] ).sort_index() tm.assert_frame_equal(result, expected) x = Series([1.0, 10.0], ["two", "three"]) result = getattr(df, op)(x, level="second", axis=0) expected = ( pd.concat([opa(df.loc[idx[:, i], :], v) for i, v in x.items()]) .reindex_like(df) .sort_index() ) tm.assert_frame_equal(result, expected) # GH9463 (alignment level of dataframe with series) midx = MultiIndex.from_product([["A", "B"], ["a", "b"]]) df = DataFrame(np.ones((2, 4), dtype="int64"), columns=midx) s = pd.Series({"a": 1, "b": 2}) df2 = df.copy() df2.columns.names = ["lvl0", "lvl1"] s2 = s.copy() s2.index.name = "lvl1" # different cases of integer/string level names: res1 = df.mul(s, axis=1, level=1) res2 = df.mul(s2, axis=1, level=1) res3 = df2.mul(s, axis=1, level=1) res4 = df2.mul(s2, axis=1, level=1) res5 = df2.mul(s, axis=1, level="lvl1") res6 = df2.mul(s2, axis=1, level="lvl1") exp = DataFrame( np.array([[1, 2, 1, 2], [1, 2, 1, 2]], dtype="int64"), columns=midx ) for res in [res1, res2]: tm.assert_frame_equal(res, exp) exp.columns.names = ["lvl0", "lvl1"] for res in [res3, res4, res5, res6]: tm.assert_frame_equal(res, exp) def test_add_with_dti_mismatched_tzs(self): base = pd.DatetimeIndex(["2011-01-01", "2011-01-02", "2011-01-03"], tz="UTC") idx1 = base.tz_convert("Asia/Tokyo")[:2] idx2 = base.tz_convert("US/Eastern")[1:] df1 = DataFrame({"A": [1, 2]}, index=idx1) df2 = DataFrame({"A": [1, 1]}, index=idx2) exp = DataFrame({"A": [np.nan, 3, np.nan]}, index=base) tm.assert_frame_equal(df1 + df2, exp) def test_combineFrame(self, float_frame, mixed_float_frame, mixed_int_frame): frame_copy = float_frame.reindex(float_frame.index[::2]) del frame_copy["D"] frame_copy["C"][:5] = np.nan added = float_frame + frame_copy indexer = added["A"].dropna().index exp = (float_frame["A"] * 2).copy() tm.assert_series_equal(added["A"].dropna(), exp.loc[indexer]) exp.loc[~exp.index.isin(indexer)] = np.nan tm.assert_series_equal(added["A"], exp.loc[added["A"].index]) assert np.isnan(added["C"].reindex(frame_copy.index)[:5]).all() # assert(False) assert np.isnan(added["D"]).all() self_added = float_frame + float_frame tm.assert_index_equal(self_added.index, float_frame.index) added_rev = frame_copy + float_frame assert np.isnan(added["D"]).all() assert np.isnan(added_rev["D"]).all() # corner cases # empty plus_empty = float_frame + DataFrame() assert np.isnan(plus_empty.values).all() empty_plus = DataFrame() + float_frame assert np.isnan(empty_plus.values).all() empty_empty = DataFrame() + DataFrame() assert empty_empty.empty # out of order reverse = float_frame.reindex(columns=float_frame.columns[::-1]) tm.assert_frame_equal(reverse + float_frame, float_frame * 2) # mix vs float64, upcast added = float_frame + mixed_float_frame _check_mixed_float(added, dtype="float64") added = mixed_float_frame + float_frame _check_mixed_float(added, dtype="float64") # mix vs mix added = mixed_float_frame + mixed_float_frame _check_mixed_float(added, dtype=dict(C=None)) # with int added = float_frame + mixed_int_frame _check_mixed_float(added, dtype="float64") def test_combine_series( self, float_frame, mixed_float_frame, mixed_int_frame, datetime_frame ): # Series series = float_frame.xs(float_frame.index[0]) added = float_frame + series for key, s in added.items(): tm.assert_series_equal(s, float_frame[key] + series[key]) larger_series = series.to_dict() larger_series["E"] = 1 larger_series = Series(larger_series) larger_added = float_frame + larger_series for key, s in float_frame.items(): tm.assert_series_equal(larger_added[key], s + series[key]) assert "E" in larger_added assert np.isnan(larger_added["E"]).all() # no upcast needed added = mixed_float_frame + series assert np.all(added.dtypes == series.dtype) # vs mix (upcast) as needed added = mixed_float_frame + series.astype("float32") _check_mixed_float(added, dtype=dict(C=None)) added = mixed_float_frame + series.astype("float16") _check_mixed_float(added, dtype=dict(C=None)) # FIXME: don't leave commented-out # these raise with numexpr.....as we are adding an int64 to an # uint64....weird vs int # added = mixed_int_frame + (100*series).astype('int64') # _check_mixed_int(added, dtype = dict(A = 'int64', B = 'float64', C = # 'int64', D = 'int64')) # added = mixed_int_frame + (100*series).astype('int32') # _check_mixed_int(added, dtype = dict(A = 'int32', B = 'float64', C = # 'int32', D = 'int64')) # TimeSeries ts = datetime_frame["A"] # 10890 # we no longer allow auto timeseries broadcasting # and require explicit broadcasting added = datetime_frame.add(ts, axis="index") for key, col in datetime_frame.items(): result = col + ts tm.assert_series_equal(added[key], result, check_names=False) assert added[key].name == key if col.name == ts.name: assert result.name == "A" else: assert result.name is None smaller_frame = datetime_frame[:-5] smaller_added = smaller_frame.add(ts, axis="index") tm.assert_index_equal(smaller_added.index, datetime_frame.index) smaller_ts = ts[:-5] smaller_added2 = datetime_frame.add(smaller_ts, axis="index") tm.assert_frame_equal(smaller_added, smaller_added2) # length 0, result is all-nan result = datetime_frame.add(ts[:0], axis="index") expected = DataFrame( np.nan, index=datetime_frame.index, columns=datetime_frame.columns ) tm.assert_frame_equal(result, expected) # Frame is all-nan result = datetime_frame[:0].add(ts, axis="index") expected = DataFrame( np.nan, index=datetime_frame.index, columns=datetime_frame.columns ) tm.assert_frame_equal(result, expected) # empty but with non-empty index frame = datetime_frame[:1].reindex(columns=[]) result = frame.mul(ts, axis="index") assert len(result) == len(ts) def test_combineFunc(self, float_frame, mixed_float_frame): result = float_frame * 2 tm.assert_numpy_array_equal(result.values, float_frame.values * 2) # vs mix result = mixed_float_frame * 2 for c, s in result.items(): tm.assert_numpy_array_equal(s.values, mixed_float_frame[c].values * 2) _check_mixed_float(result, dtype=dict(C=None)) result = DataFrame() * 2 assert result.index.equals(DataFrame().index) assert len(result.columns) == 0 def test_comparisons(self, simple_frame, float_frame): df1 = tm.makeTimeDataFrame() df2 = tm.makeTimeDataFrame() row = simple_frame.xs("a") ndim_5 = np.ones(df1.shape + (1, 1, 1)) def test_comp(func): result = func(df1, df2) tm.assert_numpy_array_equal(result.values, func(df1.values, df2.values)) msg = ( "Unable to coerce to Series/DataFrame, " "dimension must be <= 2: (30, 4, 1, 1, 1)" ) with pytest.raises(ValueError, match=re.escape(msg)): func(df1, ndim_5) result2 = func(simple_frame, row) tm.assert_numpy_array_equal( result2.values, func(simple_frame.values, row.values) ) result3 = func(float_frame, 0) tm.assert_numpy_array_equal(result3.values, func(float_frame.values, 0)) msg = "Can only compare identically-labeled DataFrame" with pytest.raises(ValueError, match=msg): func(simple_frame, simple_frame[:2]) test_comp(operator.eq) test_comp(operator.ne) test_comp(operator.lt) test_comp(operator.gt) test_comp(operator.ge) test_comp(operator.le) def test_strings_to_numbers_comparisons_raises(self, compare_operators_no_eq_ne): # GH 11565 df = DataFrame( {x: {"x": "foo", "y": "bar", "z": "baz"} for x in ["a", "b", "c"]} ) f = getattr(operator, compare_operators_no_eq_ne) msg = "'[<>]=?' not supported between instances of 'str' and 'int'" with pytest.raises(TypeError, match=msg): f(df, 0) def test_comparison_protected_from_errstate(self): missing_df = tm.makeDataFrame() missing_df.iloc[0]["A"] = np.nan with np.errstate(invalid="ignore"): expected = missing_df.values < 0 with np.errstate(invalid="raise"): result = (missing_df < 0).values tm.assert_numpy_array_equal(result, expected) def test_boolean_comparison(self): # GH 4576 # boolean comparisons with a tuple/list give unexpected results df = DataFrame(np.arange(6).reshape((3, 2))) b = np.array([2, 2]) b_r = np.atleast_2d([2, 2]) b_c = b_r.T lst = [2, 2, 2] tup = tuple(lst) # gt expected = DataFrame([[False, False], [False, True], [True, True]]) result = df > b tm.assert_frame_equal(result, expected) result = df.values > b tm.assert_numpy_array_equal(result, expected.values) msg1d = "Unable to coerce to Series, length must be 2: given 3" msg2d = "Unable to coerce to DataFrame, shape must be" msg2db = "operands could not be broadcast together with shapes" with pytest.raises(ValueError, match=msg1d): # wrong shape df > lst with pytest.raises(ValueError, match=msg1d): # wrong shape result = df > tup # broadcasts like ndarray (GH#23000) result = df > b_r tm.assert_frame_equal(result, expected) result = df.values > b_r tm.assert_numpy_array_equal(result, expected.values) with pytest.raises(ValueError, match=msg2d): df > b_c with pytest.raises(ValueError, match=msg2db): df.values > b_c # == expected = DataFrame([[False, False], [True, False], [False, False]]) result = df == b tm.assert_frame_equal(result, expected) with pytest.raises(ValueError, match=msg1d): result = df == lst with pytest.raises(ValueError, match=msg1d): result = df == tup # broadcasts like ndarray (GH#23000) result = df == b_r tm.assert_frame_equal(result, expected) result = df.values == b_r tm.assert_numpy_array_equal(result, expected.values) with pytest.raises(ValueError, match=msg2d): df == b_c assert df.values.shape != b_c.shape # with alignment df = DataFrame( np.arange(6).reshape((3, 2)), columns=list("AB"), index=list("abc") ) expected.index = df.index expected.columns = df.columns with pytest.raises(ValueError, match=msg1d): result = df == lst with pytest.raises(ValueError, match=msg1d): result = df == tup def test_inplace_ops_alignment(self): # inplace ops / ops alignment # GH 8511 columns = list("abcdefg") X_orig = DataFrame( np.arange(10 * len(columns)).reshape(-1, len(columns)), columns=columns, index=range(10), ) Z = 100 * X_orig.iloc[:, 1:-1].copy() block1 = list("bedcf") subs = list("bcdef") # add X = X_orig.copy() result1 = (X[block1] + Z).reindex(columns=subs) X[block1] += Z result2 = X.reindex(columns=subs) X = X_orig.copy() result3 = (X[block1] + Z[block1]).reindex(columns=subs) X[block1] += Z[block1] result4 = X.reindex(columns=subs) tm.assert_frame_equal(result1, result2) tm.assert_frame_equal(result1, result3) tm.assert_frame_equal(result1, result4) # sub X = X_orig.copy() result1 = (X[block1] - Z).reindex(columns=subs) X[block1] -= Z result2 = X.reindex(columns=subs) X = X_orig.copy() result3 = (X[block1] - Z[block1]).reindex(columns=subs) X[block1] -= Z[block1] result4 = X.reindex(columns=subs) tm.assert_frame_equal(result1, result2) tm.assert_frame_equal(result1, result3) tm.assert_frame_equal(result1, result4) def test_inplace_ops_identity(self): # GH 5104 # make sure that we are actually changing the object s_orig = Series([1, 2, 3]) df_orig = DataFrame(np.random.randint(0, 5, size=10).reshape(-1, 5)) # no dtype change s = s_orig.copy() s2 = s s += 1 tm.assert_series_equal(s, s2) tm.assert_series_equal(s_orig + 1, s) assert s is s2 assert s._mgr is s2._mgr df = df_orig.copy() df2 = df df += 1 tm.assert_frame_equal(df, df2) tm.assert_frame_equal(df_orig + 1, df) assert df is df2 assert df._mgr is df2._mgr # dtype change s = s_orig.copy() s2 = s s += 1.5 tm.assert_series_equal(s, s2) tm.assert_series_equal(s_orig + 1.5, s) df = df_orig.copy() df2 = df df += 1.5 tm.assert_frame_equal(df, df2) tm.assert_frame_equal(df_orig + 1.5, df) assert df is df2 assert df._mgr is df2._mgr # mixed dtype arr = np.random.randint(0, 10, size=5) df_orig = DataFrame({"A": arr.copy(), "B": "foo"}) df = df_orig.copy() df2 = df df["A"] += 1 expected = DataFrame({"A": arr.copy() + 1, "B": "foo"}) tm.assert_frame_equal(df, expected) tm.assert_frame_equal(df2, expected) assert df._mgr is df2._mgr df = df_orig.copy() df2 = df df["A"] += 1.5 expected = DataFrame({"A": arr.copy() + 1.5, "B": "foo"}) tm.assert_frame_equal(df, expected) tm.assert_frame_equal(df2, expected) assert df._mgr is df2._mgr @pytest.mark.parametrize( "op", [ "add", "and", "div", "floordiv", "mod", "mul", "or", "pow", "sub", "truediv", "xor", ], ) def test_inplace_ops_identity2(self, op): if op == "div": return df = DataFrame({"a": [1.0, 2.0, 3.0], "b": [1, 2, 3]}) operand = 2 if op in ("and", "or", "xor"): # cannot use floats for boolean ops df["a"] = [True, False, True] df_copy = df.copy() iop = f"__i{op}__" op = f"__{op}__" # no id change and value is correct getattr(df, iop)(operand) expected = getattr(df_copy, op)(operand) tm.assert_frame_equal(df, expected) expected = id(df) assert id(df) == expected def test_alignment_non_pandas(self): index = ["A", "B", "C"] columns = ["X", "Y", "Z"] df = pd.DataFrame(np.random.randn(3, 3), index=index, columns=columns) align = pd.core.ops._align_method_FRAME for val in [ [1, 2, 3], (1, 2, 3), np.array([1, 2, 3], dtype=np.int64), range(1, 4), ]: expected = DataFrame({"X": val, "Y": val, "Z": val}, index=df.index) tm.assert_frame_equal(align(df, val, "index")[1], expected) expected = DataFrame( {"X": [1, 1, 1], "Y": [2, 2, 2], "Z": [3, 3, 3]}, index=df.index ) tm.assert_frame_equal(align(df, val, "columns")[1], expected) # length mismatch msg = "Unable to coerce to Series, length must be 3: given 2" for val in [[1, 2], (1, 2), np.array([1, 2]), range(1, 3)]: with pytest.raises(ValueError, match=msg): align(df, val, "index") with pytest.raises(ValueError, match=msg): align(df, val, "columns") val = np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]]) tm.assert_frame_equal( align(df, val, "index")[1], DataFrame(val, index=df.index, columns=df.columns), ) tm.assert_frame_equal( align(df, val, "columns")[1], DataFrame(val, index=df.index, columns=df.columns), ) # shape mismatch msg = "Unable to coerce to DataFrame, shape must be" val = np.array([[1, 2, 3], [4, 5, 6]]) with pytest.raises(ValueError, match=msg): align(df, val, "index") with pytest.raises(ValueError, match=msg): align(df, val, "columns") val = np.zeros((3, 3, 3)) msg = re.escape( "Unable to coerce to Series/DataFrame, dimension must be <= 2: (3, 3, 3)" ) with pytest.raises(ValueError, match=msg): align(df, val, "index") with pytest.raises(ValueError, match=msg): align(df, val, "columns") def test_no_warning(self, all_arithmetic_operators): df = pd.DataFrame({"A": [0.0, 0.0], "B": [0.0, None]}) b = df["B"] with tm.assert_produces_warning(None): getattr(df, all_arithmetic_operators)(b, 0) def test_pow_with_realignment(): # GH#32685 pow has special semantics for operating with null values left = pd.DataFrame({"A": [0, 1, 2]}) right = pd.DataFrame(index=[0, 1, 2]) result = left ** right expected = pd.DataFrame({"A": [np.nan, 1.0, np.nan]}) tm.assert_frame_equal(result, expected) # TODO: move to tests.arithmetic and parametrize def test_pow_nan_with_zero(): left = pd.DataFrame({"A": [np.nan, np.nan, np.nan]}) right = pd.DataFrame({"A": [0, 0, 0]}) expected = pd.DataFrame({"A": [1.0, 1.0, 1.0]}) result = left ** right tm.assert_frame_equal(result, expected) result = left["A"] ** right["A"] tm.assert_series_equal(result, expected["A"]) def test_dataframe_series_extension_dtypes(): # https://github.com/pandas-dev/pandas/issues/34311 df = pd.DataFrame(np.random.randint(0, 100, (10, 3)), columns=["a", "b", "c"]) ser = pd.Series([1, 2, 3], index=["a", "b", "c"]) expected = df.to_numpy("int64") + ser.to_numpy("int64").reshape(-1, 3) expected = pd.DataFrame(expected, columns=df.columns, dtype="Int64") df_ea = df.astype("Int64") result = df_ea + ser tm.assert_frame_equal(result, expected) result = df_ea + ser.astype("Int64") tm.assert_frame_equal(result, expected) def test_dataframe_blockwise_slicelike(): # GH#34367 arr = np.random.randint(0, 1000, (100, 10)) df1 = pd.DataFrame(arr) df2 = df1.copy() df2.iloc[0, [1, 3, 7]] = np.nan df3 = df1.copy() df3.iloc[0, [5]] = np.nan df4 = df1.copy() df4.iloc[0, np.arange(2, 5)] = np.nan df5 = df1.copy() df5.iloc[0, np.arange(4, 7)] = np.nan for left, right in [(df1, df2), (df2, df3), (df4, df5)]: res = left + right expected = pd.DataFrame({i: left[i] + right[i] for i in left.columns}) tm.assert_frame_equal(res, expected) @pytest.mark.parametrize( "df, col_dtype", [ (pd.DataFrame([[1.0, 2.0], [4.0, 5.0]], columns=list("ab")), "float64"), (pd.DataFrame([[1.0, "b"], [4.0, "b"]], columns=list("ab")), "object"), ], ) def test_dataframe_operation_with_non_numeric_types(df, col_dtype): # GH #22663 expected = pd.DataFrame([[0.0, np.nan], [3.0, np.nan]], columns=list("ab")) expected = expected.astype({"b": col_dtype}) result = df + pd.Series([-1.0], index=list("a")) tm.assert_frame_equal(result, expected) def test_arith_reindex_with_duplicates(): # https://github.com/pandas-dev/pandas/issues/35194 df1 = pd.DataFrame(data=[[0]], columns=["second"]) df2 = pd.DataFrame(data=[[0, 0, 0]], columns=["first", "second", "second"]) result = df1 + df2 expected = pd.DataFrame([[np.nan, 0, 0]], columns=["first", "second", "second"]) tm.assert_frame_equal(result, expected) def test_inplace_arithmetic_series_update(): # https://github.com/pandas-dev/pandas/issues/36373 df = DataFrame({"A": [1, 2, 3]}) series = df["A"] vals = series._values series += 1 assert series._values is vals expected = DataFrame({"A": [2, 3, 4]}) tm.assert_frame_equal(df, expected)