""" test fancy indexing & misc """ import array from datetime import datetime import re import weakref import numpy as np import pytest from pandas.errors import IndexingError from pandas.core.dtypes.common import ( is_float_dtype, is_integer_dtype, ) import pandas as pd from pandas import ( DataFrame, Index, NaT, Series, date_range, offsets, timedelta_range, ) import pandas._testing as tm from pandas.core.api import Float64Index from pandas.tests.indexing.common import _mklbl from pandas.tests.indexing.test_floats import gen_obj # ------------------------------------------------------------------------ # Indexing test cases class TestFancy: """pure get/set item & fancy indexing""" def test_setitem_ndarray_1d(self): # GH5508 # len of indexer vs length of the 1d ndarray df = DataFrame(index=Index(np.arange(1, 11))) df["foo"] = np.zeros(10, dtype=np.float64) df["bar"] = np.zeros(10, dtype=complex) # invalid msg = "Must have equal len keys and value when setting with an iterable" with pytest.raises(ValueError, match=msg): df.loc[df.index[2:5], "bar"] = np.array([2.33j, 1.23 + 0.1j, 2.2, 1.0]) # valid df.loc[df.index[2:6], "bar"] = np.array([2.33j, 1.23 + 0.1j, 2.2, 1.0]) result = df.loc[df.index[2:6], "bar"] expected = Series( [2.33j, 1.23 + 0.1j, 2.2, 1.0], index=[3, 4, 5, 6], name="bar" ) tm.assert_series_equal(result, expected) def test_setitem_ndarray_1d_2(self): # GH5508 # dtype getting changed? df = DataFrame(index=Index(np.arange(1, 11))) df["foo"] = np.zeros(10, dtype=np.float64) df["bar"] = np.zeros(10, dtype=complex) msg = "Must have equal len keys and value when setting with an iterable" with pytest.raises(ValueError, match=msg): with tm.assert_produces_warning(FutureWarning, match="label-based"): df[2:5] = np.arange(1, 4) * 1j def test_getitem_ndarray_3d( self, index, frame_or_series, indexer_sli, using_array_manager ): # GH 25567 obj = gen_obj(frame_or_series, index) idxr = indexer_sli(obj) nd3 = np.random.randint(5, size=(2, 2, 2)) msgs = [] if frame_or_series is Series and indexer_sli in [tm.setitem, tm.iloc]: msgs.append(r"Wrong number of dimensions. values.ndim > ndim \[3 > 1\]") if using_array_manager: msgs.append("Passed array should be 1-dimensional") if frame_or_series is Series or indexer_sli is tm.iloc: msgs.append(r"Buffer has wrong number of dimensions \(expected 1, got 3\)") if using_array_manager: msgs.append("indexer should be 1-dimensional") if indexer_sli is tm.loc or ( frame_or_series is Series and indexer_sli is tm.setitem ): msgs.append("Cannot index with multidimensional key") if frame_or_series is DataFrame and indexer_sli is tm.setitem: msgs.append("Index data must be 1-dimensional") if isinstance(index, pd.IntervalIndex) and indexer_sli is tm.iloc: msgs.append("Index data must be 1-dimensional") if isinstance(index, (pd.TimedeltaIndex, pd.DatetimeIndex, pd.PeriodIndex)): msgs.append("Data must be 1-dimensional") if len(index) == 0 or isinstance(index, pd.MultiIndex): msgs.append("positional indexers are out-of-bounds") if type(index) is Index and not isinstance(index._values, np.ndarray): # e.g. Int64 msgs.append("values must be a 1D array") # string[pyarrow] msgs.append("only handle 1-dimensional arrays") msg = "|".join(msgs) potential_errors = (IndexError, ValueError, NotImplementedError) with pytest.raises(potential_errors, match=msg): idxr[nd3] def test_setitem_ndarray_3d(self, index, frame_or_series, indexer_sli): # GH 25567 obj = gen_obj(frame_or_series, index) idxr = indexer_sli(obj) nd3 = np.random.randint(5, size=(2, 2, 2)) if indexer_sli is tm.iloc: err = ValueError msg = f"Cannot set values with ndim > {obj.ndim}" else: err = ValueError msg = "|".join( [ r"Buffer has wrong number of dimensions \(expected 1, got 3\)", "Cannot set values with ndim > 1", "Index data must be 1-dimensional", "Data must be 1-dimensional", "Array conditional must be same shape as self", ] ) with pytest.raises(err, match=msg): idxr[nd3] = 0 def test_getitem_ndarray_0d(self): # GH#24924 key = np.array(0) # dataframe __getitem__ df = DataFrame([[1, 2], [3, 4]]) result = df[key] expected = Series([1, 3], name=0) tm.assert_series_equal(result, expected) # series __getitem__ ser = Series([1, 2]) result = ser[key] assert result == 1 def test_inf_upcast(self): # GH 16957 # We should be able to use np.inf as a key # np.inf should cause an index to convert to float # Test with np.inf in rows df = DataFrame(columns=[0]) df.loc[1] = 1 df.loc[2] = 2 df.loc[np.inf] = 3 # make sure we can look up the value assert df.loc[np.inf, 0] == 3 result = df.index expected = Float64Index([1, 2, np.inf]) tm.assert_index_equal(result, expected) def test_setitem_dtype_upcast(self): # GH3216 df = DataFrame([{"a": 1}, {"a": 3, "b": 2}]) df["c"] = np.nan assert df["c"].dtype == np.float64 df.loc[0, "c"] = "foo" expected = DataFrame( [{"a": 1, "b": np.nan, "c": "foo"}, {"a": 3, "b": 2, "c": np.nan}] ) tm.assert_frame_equal(df, expected) @pytest.mark.parametrize("val", [3.14, "wxyz"]) def test_setitem_dtype_upcast2(self, val): # GH10280 df = DataFrame( np.arange(6, dtype="int64").reshape(2, 3), index=list("ab"), columns=["foo", "bar", "baz"], ) left = df.copy() left.loc["a", "bar"] = val right = DataFrame( [[0, val, 2], [3, 4, 5]], index=list("ab"), columns=["foo", "bar", "baz"], ) tm.assert_frame_equal(left, right) assert is_integer_dtype(left["foo"]) assert is_integer_dtype(left["baz"]) def test_setitem_dtype_upcast3(self): left = DataFrame( np.arange(6, dtype="int64").reshape(2, 3) / 10.0, index=list("ab"), columns=["foo", "bar", "baz"], ) left.loc["a", "bar"] = "wxyz" right = DataFrame( [[0, "wxyz", 0.2], [0.3, 0.4, 0.5]], index=list("ab"), columns=["foo", "bar", "baz"], ) tm.assert_frame_equal(left, right) assert is_float_dtype(left["foo"]) assert is_float_dtype(left["baz"]) def test_dups_fancy_indexing(self): # GH 3455 df = tm.makeCustomDataframe(10, 3) df.columns = ["a", "a", "b"] result = df[["b", "a"]].columns expected = Index(["b", "a", "a"]) tm.assert_index_equal(result, expected) def test_dups_fancy_indexing_across_dtypes(self): # across dtypes df = DataFrame([[1, 2, 1.0, 2.0, 3.0, "foo", "bar"]], columns=list("aaaaaaa")) df.head() str(df) result = DataFrame([[1, 2, 1.0, 2.0, 3.0, "foo", "bar"]]) result.columns = list("aaaaaaa") # GH#3468 # GH#3509 smoke tests for indexing with duplicate columns df.iloc[:, 4] result.iloc[:, 4] tm.assert_frame_equal(df, result) def test_dups_fancy_indexing_not_in_order(self): # GH 3561, dups not in selected order df = DataFrame( {"test": [5, 7, 9, 11], "test1": [4.0, 5, 6, 7], "other": list("abcd")}, index=["A", "A", "B", "C"], ) rows = ["C", "B"] expected = DataFrame( {"test": [11, 9], "test1": [7.0, 6], "other": ["d", "c"]}, index=rows ) result = df.loc[rows] tm.assert_frame_equal(result, expected) result = df.loc[Index(rows)] tm.assert_frame_equal(result, expected) rows = ["C", "B", "E"] with pytest.raises(KeyError, match="not in index"): df.loc[rows] # see GH5553, make sure we use the right indexer rows = ["F", "G", "H", "C", "B", "E"] with pytest.raises(KeyError, match="not in index"): df.loc[rows] def test_dups_fancy_indexing_only_missing_label(self): # List containing only missing label dfnu = DataFrame(np.random.randn(5, 3), index=list("AABCD")) with pytest.raises( KeyError, match=re.escape( "\"None of [Index(['E'], dtype='object')] are in the [index]\"" ), ): dfnu.loc[["E"]] @pytest.mark.parametrize("vals", [[0, 1, 2], list("abc")]) def test_dups_fancy_indexing_missing_label(self, vals): # GH 4619; duplicate indexer with missing label df = DataFrame({"A": vals}) with pytest.raises(KeyError, match="not in index"): df.loc[[0, 8, 0]] def test_dups_fancy_indexing_non_unique(self): # non unique with non unique selector df = DataFrame({"test": [5, 7, 9, 11]}, index=["A", "A", "B", "C"]) with pytest.raises(KeyError, match="not in index"): df.loc[["A", "A", "E"]] def test_dups_fancy_indexing2(self): # GH 5835 # dups on index and missing values df = DataFrame(np.random.randn(5, 5), columns=["A", "B", "B", "B", "A"]) with pytest.raises(KeyError, match="not in index"): df.loc[:, ["A", "B", "C"]] def test_dups_fancy_indexing3(self): # GH 6504, multi-axis indexing df = DataFrame( np.random.randn(9, 2), index=[1, 1, 1, 2, 2, 2, 3, 3, 3], columns=["a", "b"] ) expected = df.iloc[0:6] result = df.loc[[1, 2]] tm.assert_frame_equal(result, expected) expected = df result = df.loc[:, ["a", "b"]] tm.assert_frame_equal(result, expected) expected = df.iloc[0:6, :] result = df.loc[[1, 2], ["a", "b"]] tm.assert_frame_equal(result, expected) def test_duplicate_int_indexing(self, indexer_sl): # GH 17347 ser = Series(range(3), index=[1, 1, 3]) expected = Series(range(2), index=[1, 1]) result = indexer_sl(ser)[[1]] tm.assert_series_equal(result, expected) def test_indexing_mixed_frame_bug(self): # GH3492 df = DataFrame( {"a": {1: "aaa", 2: "bbb", 3: "ccc"}, "b": {1: 111, 2: 222, 3: 333}} ) # this works, new column is created correctly df["test"] = df["a"].apply(lambda x: "_" if x == "aaa" else x) # this does not work, ie column test is not changed idx = df["test"] == "_" temp = df.loc[idx, "a"].apply(lambda x: "-----" if x == "aaa" else x) df.loc[idx, "test"] = temp assert df.iloc[0, 2] == "-----" def test_multitype_list_index_access(self): # GH 10610 df = DataFrame(np.random.random((10, 5)), columns=["a"] + [20, 21, 22, 23]) with pytest.raises(KeyError, match=re.escape("'[26, -8] not in index'")): df[[22, 26, -8]] assert df[21].shape[0] == df.shape[0] def test_set_index_nan(self): # GH 3586 df = DataFrame( { "PRuid": { 17: "nonQC", 18: "nonQC", 19: "nonQC", 20: "10", 21: "11", 22: "12", 23: "13", 24: "24", 25: "35", 26: "46", 27: "47", 28: "48", 29: "59", 30: "10", }, "QC": { 17: 0.0, 18: 0.0, 19: 0.0, 20: np.nan, 21: np.nan, 22: np.nan, 23: np.nan, 24: 1.0, 25: np.nan, 26: np.nan, 27: np.nan, 28: np.nan, 29: np.nan, 30: np.nan, }, "data": { 17: 7.9544899999999998, 18: 8.0142609999999994, 19: 7.8591520000000008, 20: 0.86140349999999999, 21: 0.87853110000000001, 22: 0.8427041999999999, 23: 0.78587700000000005, 24: 0.73062459999999996, 25: 0.81668560000000001, 26: 0.81927080000000008, 27: 0.80705009999999999, 28: 0.81440240000000008, 29: 0.80140849999999997, 30: 0.81307740000000006, }, "year": { 17: 2006, 18: 2007, 19: 2008, 20: 1985, 21: 1985, 22: 1985, 23: 1985, 24: 1985, 25: 1985, 26: 1985, 27: 1985, 28: 1985, 29: 1985, 30: 1986, }, } ).reset_index() result = ( df.set_index(["year", "PRuid", "QC"]) .reset_index() .reindex(columns=df.columns) ) tm.assert_frame_equal(result, df) def test_multi_assign(self): # GH 3626, an assignment of a sub-df to a df df = DataFrame( { "FC": ["a", "b", "a", "b", "a", "b"], "PF": [0, 0, 0, 0, 1, 1], "col1": list(range(6)), "col2": list(range(6, 12)), } ) df.iloc[1, 0] = np.nan df2 = df.copy() mask = ~df2.FC.isna() cols = ["col1", "col2"] dft = df2 * 2 dft.iloc[3, 3] = np.nan expected = DataFrame( { "FC": ["a", np.nan, "a", "b", "a", "b"], "PF": [0, 0, 0, 0, 1, 1], "col1": Series([0, 1, 4, 6, 8, 10]), "col2": [12, 7, 16, np.nan, 20, 22], } ) # frame on rhs df2.loc[mask, cols] = dft.loc[mask, cols] tm.assert_frame_equal(df2, expected) # with an ndarray on rhs # coerces to float64 because values has float64 dtype # GH 14001 expected = DataFrame( { "FC": ["a", np.nan, "a", "b", "a", "b"], "PF": [0, 0, 0, 0, 1, 1], "col1": [0.0, 1.0, 4.0, 6.0, 8.0, 10.0], "col2": [12, 7, 16, np.nan, 20, 22], } ) df2 = df.copy() df2.loc[mask, cols] = dft.loc[mask, cols].values tm.assert_frame_equal(df2, expected) def test_multi_assign_broadcasting_rhs(self): # broadcasting on the rhs is required df = DataFrame( { "A": [1, 2, 0, 0, 0], "B": [0, 0, 0, 10, 11], "C": [0, 0, 0, 10, 11], "D": [3, 4, 5, 6, 7], } ) expected = df.copy() mask = expected["A"] == 0 for col in ["A", "B"]: expected.loc[mask, col] = df["D"] df.loc[df["A"] == 0, ["A", "B"]] = df["D"] tm.assert_frame_equal(df, expected) def test_setitem_list(self): # GH 6043 # iloc with a list df = DataFrame(index=[0, 1], columns=[0]) df.iloc[1, 0] = [1, 2, 3] df.iloc[1, 0] = [1, 2] result = DataFrame(index=[0, 1], columns=[0]) result.iloc[1, 0] = [1, 2] tm.assert_frame_equal(result, df) def test_string_slice(self): # GH 14424 # string indexing against datetimelike with object # dtype should properly raises KeyError df = DataFrame([1], Index([pd.Timestamp("2011-01-01")], dtype=object)) assert df.index._is_all_dates with pytest.raises(KeyError, match="'2011'"): df["2011"] with pytest.raises(KeyError, match="'2011'"): df.loc["2011", 0] def test_string_slice_empty(self): # GH 14424 df = DataFrame() assert not df.index._is_all_dates with pytest.raises(KeyError, match="'2011'"): df["2011"] with pytest.raises(KeyError, match="^0$"): df.loc["2011", 0] def test_astype_assignment(self): # GH4312 (iloc) df_orig = DataFrame( [["1", "2", "3", ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") ) df = df_orig.copy() msg = "will attempt to set the values inplace instead" with tm.assert_produces_warning(FutureWarning, match=msg): df.iloc[:, 0:2] = df.iloc[:, 0:2].astype(np.int64) expected = DataFrame( [[1, 2, "3", ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") ) tm.assert_frame_equal(df, expected) df = df_orig.copy() with tm.assert_produces_warning(FutureWarning, match=msg): df.iloc[:, 0:2] = df.iloc[:, 0:2]._convert(datetime=True, numeric=True) expected = DataFrame( [[1, 2, "3", ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") ) tm.assert_frame_equal(df, expected) # GH5702 (loc) df = df_orig.copy() with tm.assert_produces_warning(FutureWarning, match=msg): df.loc[:, "A"] = df.loc[:, "A"].astype(np.int64) expected = DataFrame( [[1, "2", "3", ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") ) tm.assert_frame_equal(df, expected) df = df_orig.copy() with tm.assert_produces_warning(FutureWarning, match=msg): df.loc[:, ["B", "C"]] = df.loc[:, ["B", "C"]].astype(np.int64) expected = DataFrame( [["1", 2, 3, ".4", 5, 6.0, "foo"]], columns=list("ABCDEFG") ) tm.assert_frame_equal(df, expected) def test_astype_assignment_full_replacements(self): # full replacements / no nans df = DataFrame({"A": [1.0, 2.0, 3.0, 4.0]}) msg = "will attempt to set the values inplace instead" with tm.assert_produces_warning(FutureWarning, match=msg): df.iloc[:, 0] = df["A"].astype(np.int64) expected = DataFrame({"A": [1, 2, 3, 4]}) tm.assert_frame_equal(df, expected) df = DataFrame({"A": [1.0, 2.0, 3.0, 4.0]}) with tm.assert_produces_warning(FutureWarning, match=msg): df.loc[:, "A"] = df["A"].astype(np.int64) expected = DataFrame({"A": [1, 2, 3, 4]}) tm.assert_frame_equal(df, expected) @pytest.mark.parametrize("indexer", [tm.getitem, tm.loc]) def test_index_type_coercion(self, indexer): # GH 11836 # if we have an index type and set it with something that looks # to numpy like the same, but is actually, not # (e.g. setting with a float or string '0') # then we need to coerce to object # integer indexes for s in [Series(range(5)), Series(range(5), index=range(1, 6))]: assert s.index.is_integer() s2 = s.copy() indexer(s2)[0.1] = 0 assert s2.index.is_floating() assert indexer(s2)[0.1] == 0 s2 = s.copy() indexer(s2)[0.0] = 0 exp = s.index if 0 not in s: exp = Index(s.index.tolist() + [0]) tm.assert_index_equal(s2.index, exp) s2 = s.copy() indexer(s2)["0"] = 0 assert s2.index.is_object() for s in [Series(range(5), index=np.arange(5.0))]: assert s.index.is_floating() s2 = s.copy() indexer(s2)[0.1] = 0 assert s2.index.is_floating() assert indexer(s2)[0.1] == 0 s2 = s.copy() indexer(s2)[0.0] = 0 tm.assert_index_equal(s2.index, s.index) s2 = s.copy() indexer(s2)["0"] = 0 assert s2.index.is_object() class TestMisc: def test_float_index_to_mixed(self): df = DataFrame({0.0: np.random.rand(10), 1.0: np.random.rand(10)}) df["a"] = 10 expected = DataFrame({0.0: df[0.0], 1.0: df[1.0], "a": [10] * 10}) tm.assert_frame_equal(expected, df) def test_float_index_non_scalar_assignment(self): df = DataFrame({"a": [1, 2, 3], "b": [3, 4, 5]}, index=[1.0, 2.0, 3.0]) df.loc[df.index[:2]] = 1 expected = DataFrame({"a": [1, 1, 3], "b": [1, 1, 5]}, index=df.index) tm.assert_frame_equal(expected, df) def test_loc_setitem_fullindex_views(self): df = DataFrame({"a": [1, 2, 3], "b": [3, 4, 5]}, index=[1.0, 2.0, 3.0]) df2 = df.copy() df.loc[df.index] = df.loc[df.index] tm.assert_frame_equal(df, df2) def test_rhs_alignment(self): # GH8258, tests that both rows & columns are aligned to what is # assigned to. covers both uniform data-type & multi-type cases def run_tests(df, rhs, right_loc, right_iloc): # label, index, slice lbl_one, idx_one, slice_one = list("bcd"), [1, 2, 3], slice(1, 4) lbl_two, idx_two, slice_two = ["joe", "jolie"], [1, 2], slice(1, 3) left = df.copy() left.loc[lbl_one, lbl_two] = rhs tm.assert_frame_equal(left, right_loc) left = df.copy() left.iloc[idx_one, idx_two] = rhs tm.assert_frame_equal(left, right_iloc) left = df.copy() left.iloc[slice_one, slice_two] = rhs tm.assert_frame_equal(left, right_iloc) xs = np.arange(20).reshape(5, 4) cols = ["jim", "joe", "jolie", "joline"] df = DataFrame(xs, columns=cols, index=list("abcde"), dtype="int64") # right hand side; permute the indices and multiplpy by -2 rhs = -2 * df.iloc[3:0:-1, 2:0:-1] # expected `right` result; just multiply by -2 right_iloc = df.copy() right_iloc["joe"] = [1, 14, 10, 6, 17] right_iloc["jolie"] = [2, 13, 9, 5, 18] right_iloc.iloc[1:4, 1:3] *= -2 right_loc = df.copy() right_loc.iloc[1:4, 1:3] *= -2 # run tests with uniform dtypes run_tests(df, rhs, right_loc, right_iloc) # make frames multi-type & re-run tests for frame in [df, rhs, right_loc, right_iloc]: frame["joe"] = frame["joe"].astype("float64") frame["jolie"] = frame["jolie"].map("@{}".format) right_iloc["joe"] = [1.0, "@-28", "@-20", "@-12", 17.0] right_iloc["jolie"] = ["@2", -26.0, -18.0, -10.0, "@18"] run_tests(df, rhs, right_loc, right_iloc) @pytest.mark.parametrize( "idx", [_mklbl("A", 20), np.arange(20) + 100, np.linspace(100, 150, 20)] ) def test_str_label_slicing_with_negative_step(self, idx): SLC = pd.IndexSlice idx = Index(idx) ser = Series(np.arange(20), index=idx) tm.assert_indexing_slices_equivalent(ser, SLC[idx[9] :: -1], SLC[9::-1]) tm.assert_indexing_slices_equivalent(ser, SLC[: idx[9] : -1], SLC[:8:-1]) tm.assert_indexing_slices_equivalent( ser, SLC[idx[13] : idx[9] : -1], SLC[13:8:-1] ) tm.assert_indexing_slices_equivalent(ser, SLC[idx[9] : idx[13] : -1], SLC[:0]) def test_slice_with_zero_step_raises(self, index, indexer_sl, frame_or_series): obj = frame_or_series(np.arange(len(index)), index=index) with pytest.raises(ValueError, match="slice step cannot be zero"): indexer_sl(obj)[::0] def test_loc_setitem_indexing_assignment_dict_already_exists(self): index = Index([-5, 0, 5], name="z") df = DataFrame({"x": [1, 2, 6], "y": [2, 2, 8]}, index=index) expected = df.copy() rhs = {"x": 9, "y": 99} df.loc[5] = rhs expected.loc[5] = [9, 99] tm.assert_frame_equal(df, expected) # GH#38335 same thing, mixed dtypes df = DataFrame({"x": [1, 2, 6], "y": [2.0, 2.0, 8.0]}, index=index) df.loc[5] = rhs expected = DataFrame({"x": [1, 2, 9], "y": [2.0, 2.0, 99.0]}, index=index) tm.assert_frame_equal(df, expected) def test_iloc_getitem_indexing_dtypes_on_empty(self): # Check that .iloc returns correct dtypes GH9983 df = DataFrame({"a": [1, 2, 3], "b": ["b", "b2", "b3"]}) df2 = df.iloc[[], :] assert df2.loc[:, "a"].dtype == np.int64 tm.assert_series_equal(df2.loc[:, "a"], df2.iloc[:, 0]) @pytest.mark.parametrize("size", [5, 999999, 1000000]) def test_loc_range_in_series_indexing(self, size): # range can cause an indexing error # GH 11652 s = Series(index=range(size), dtype=np.float64) s.loc[range(1)] = 42 tm.assert_series_equal(s.loc[range(1)], Series(42.0, index=[0])) s.loc[range(2)] = 43 tm.assert_series_equal(s.loc[range(2)], Series(43.0, index=[0, 1])) def test_partial_boolean_frame_indexing(self): # GH 17170 df = DataFrame( np.arange(9.0).reshape(3, 3), index=list("abc"), columns=list("ABC") ) index_df = DataFrame(1, index=list("ab"), columns=list("AB")) result = df[index_df.notnull()] expected = DataFrame( np.array([[0.0, 1.0, np.nan], [3.0, 4.0, np.nan], [np.nan] * 3]), index=list("abc"), columns=list("ABC"), ) tm.assert_frame_equal(result, expected) def test_no_reference_cycle(self): df = DataFrame({"a": [0, 1], "b": [2, 3]}) for name in ("loc", "iloc", "at", "iat"): getattr(df, name) wr = weakref.ref(df) del df assert wr() is None def test_label_indexing_on_nan(self, nulls_fixture): # GH 32431 df = Series([1, "{1,2}", 1, nulls_fixture]) vc = df.value_counts(dropna=False) result1 = vc.loc[nulls_fixture] result2 = vc[nulls_fixture] expected = 1 assert result1 == expected assert result2 == expected class TestDataframeNoneCoercion: EXPECTED_SINGLE_ROW_RESULTS = [ # For numeric series, we should coerce to NaN. ([1, 2, 3], [np.nan, 2, 3]), ([1.0, 2.0, 3.0], [np.nan, 2.0, 3.0]), # For datetime series, we should coerce to NaT. ( [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], [NaT, datetime(2000, 1, 2), datetime(2000, 1, 3)], ), # For objects, we should preserve the None value. (["foo", "bar", "baz"], [None, "bar", "baz"]), ] @pytest.mark.parametrize("expected", EXPECTED_SINGLE_ROW_RESULTS) def test_coercion_with_loc(self, expected): start_data, expected_result = expected start_dataframe = DataFrame({"foo": start_data}) start_dataframe.loc[0, ["foo"]] = None expected_dataframe = DataFrame({"foo": expected_result}) tm.assert_frame_equal(start_dataframe, expected_dataframe) @pytest.mark.parametrize("expected", EXPECTED_SINGLE_ROW_RESULTS) def test_coercion_with_setitem_and_dataframe(self, expected): start_data, expected_result = expected start_dataframe = DataFrame({"foo": start_data}) start_dataframe[start_dataframe["foo"] == start_dataframe["foo"][0]] = None expected_dataframe = DataFrame({"foo": expected_result}) tm.assert_frame_equal(start_dataframe, expected_dataframe) @pytest.mark.parametrize("expected", EXPECTED_SINGLE_ROW_RESULTS) def test_none_coercion_loc_and_dataframe(self, expected): start_data, expected_result = expected start_dataframe = DataFrame({"foo": start_data}) start_dataframe.loc[start_dataframe["foo"] == start_dataframe["foo"][0]] = None expected_dataframe = DataFrame({"foo": expected_result}) tm.assert_frame_equal(start_dataframe, expected_dataframe) def test_none_coercion_mixed_dtypes(self): start_dataframe = DataFrame( { "a": [1, 2, 3], "b": [1.0, 2.0, 3.0], "c": [datetime(2000, 1, 1), datetime(2000, 1, 2), datetime(2000, 1, 3)], "d": ["a", "b", "c"], } ) start_dataframe.iloc[0] = None exp = DataFrame( { "a": [np.nan, 2, 3], "b": [np.nan, 2.0, 3.0], "c": [NaT, datetime(2000, 1, 2), datetime(2000, 1, 3)], "d": [None, "b", "c"], } ) tm.assert_frame_equal(start_dataframe, exp) class TestDatetimelikeCoercion: def test_setitem_dt64_string_scalar(self, tz_naive_fixture, indexer_sli): # dispatching _can_hold_element to underlying DatetimeArray tz = tz_naive_fixture dti = date_range("2016-01-01", periods=3, tz=tz) ser = Series(dti) values = ser._values newval = "2018-01-01" values._validate_setitem_value(newval) indexer_sli(ser)[0] = newval if tz is None: # TODO(EA2D): we can make this no-copy in tz-naive case too assert ser.dtype == dti.dtype assert ser._values._data is values._data else: assert ser._values is values @pytest.mark.parametrize("box", [list, np.array, pd.array, pd.Categorical, Index]) @pytest.mark.parametrize( "key", [[0, 1], slice(0, 2), np.array([True, True, False])] ) def test_setitem_dt64_string_values(self, tz_naive_fixture, indexer_sli, key, box): # dispatching _can_hold_element to underling DatetimeArray tz = tz_naive_fixture if isinstance(key, slice) and indexer_sli is tm.loc: key = slice(0, 1) dti = date_range("2016-01-01", periods=3, tz=tz) ser = Series(dti) values = ser._values newvals = box(["2019-01-01", "2010-01-02"]) values._validate_setitem_value(newvals) indexer_sli(ser)[key] = newvals if tz is None: # TODO(EA2D): we can make this no-copy in tz-naive case too assert ser.dtype == dti.dtype assert ser._values._data is values._data else: assert ser._values is values @pytest.mark.parametrize("scalar", ["3 Days", offsets.Hour(4)]) def test_setitem_td64_scalar(self, indexer_sli, scalar): # dispatching _can_hold_element to underling TimedeltaArray tdi = timedelta_range("1 Day", periods=3) ser = Series(tdi) values = ser._values values._validate_setitem_value(scalar) indexer_sli(ser)[0] = scalar assert ser._values._data is values._data @pytest.mark.parametrize("box", [list, np.array, pd.array, pd.Categorical, Index]) @pytest.mark.parametrize( "key", [[0, 1], slice(0, 2), np.array([True, True, False])] ) def test_setitem_td64_string_values(self, indexer_sli, key, box): # dispatching _can_hold_element to underling TimedeltaArray if isinstance(key, slice) and indexer_sli is tm.loc: key = slice(0, 1) tdi = timedelta_range("1 Day", periods=3) ser = Series(tdi) values = ser._values newvals = box(["10 Days", "44 hours"]) values._validate_setitem_value(newvals) indexer_sli(ser)[key] = newvals assert ser._values._data is values._data def test_extension_array_cross_section(): # A cross-section of a homogeneous EA should be an EA df = DataFrame( { "A": pd.array([1, 2], dtype="Int64"), "B": pd.array([3, 4], dtype="Int64"), }, index=["a", "b"], ) expected = Series(pd.array([1, 3], dtype="Int64"), index=["A", "B"], name="a") result = df.loc["a"] tm.assert_series_equal(result, expected) result = df.iloc[0] tm.assert_series_equal(result, expected) def test_extension_array_cross_section_converts(): # all numeric columns -> numeric series df = DataFrame( { "A": pd.array([1, 2], dtype="Int64"), "B": np.array([1, 2], dtype="int64"), }, index=["a", "b"], ) result = df.loc["a"] expected = Series([1, 1], dtype="Int64", index=["A", "B"], name="a") tm.assert_series_equal(result, expected) result = df.iloc[0] tm.assert_series_equal(result, expected) # mixed columns -> object series df = DataFrame( {"A": pd.array([1, 2], dtype="Int64"), "B": np.array(["a", "b"])}, index=["a", "b"], ) result = df.loc["a"] expected = Series([1, "a"], dtype=object, index=["A", "B"], name="a") tm.assert_series_equal(result, expected) result = df.iloc[0] tm.assert_series_equal(result, expected) @pytest.mark.parametrize( "ser, keys", [(Series([10]), (0, 0)), (Series([1, 2, 3], index=list("abc")), (0, 1))], ) def test_ser_tup_indexer_exceeds_dimensions(ser, keys, indexer_li): # GH#13831 exp_err, exp_msg = IndexingError, "Too many indexers" with pytest.raises(exp_err, match=exp_msg): indexer_li(ser)[keys] if indexer_li == tm.iloc: # For iloc.__setitem__ we let numpy handle the error reporting. exp_err, exp_msg = IndexError, "too many indices for array" with pytest.raises(exp_err, match=exp_msg): indexer_li(ser)[keys] = 0 def test_ser_list_indexer_exceeds_dimensions(indexer_li): # GH#13831 # Make sure an exception is raised when a tuple exceeds the dimension of the series, # but not list when a list is used. ser = Series([10]) res = indexer_li(ser)[[0, 0]] exp = Series([10, 10], index=Index([0, 0])) tm.assert_series_equal(res, exp) @pytest.mark.parametrize( "value", [(0, 1), [0, 1], np.array([0, 1]), array.array("b", [0, 1])] ) def test_scalar_setitem_with_nested_value(value): # For numeric data, we try to unpack and thus raise for mismatching length df = DataFrame({"A": [1, 2, 3]}) msg = "|".join( [ "Must have equal len keys and value", "setting an array element with a sequence", ] ) with pytest.raises(ValueError, match=msg): df.loc[0, "B"] = value # TODO For object dtype this happens as well, but should we rather preserve # the nested data and set as such? df = DataFrame({"A": [1, 2, 3], "B": np.array([1, "a", "b"], dtype=object)}) with pytest.raises(ValueError, match="Must have equal len keys and value"): df.loc[0, "B"] = value # if isinstance(value, np.ndarray): # assert (df.loc[0, "B"] == value).all() # else: # assert df.loc[0, "B"] == value @pytest.mark.parametrize( "value", [(0, 1), [0, 1], np.array([0, 1]), array.array("b", [0, 1])] ) def test_scalar_setitem_series_with_nested_value(value, indexer_sli): # For numeric data, we try to unpack and thus raise for mismatching length ser = Series([1, 2, 3]) with pytest.raises(ValueError, match="setting an array element with a sequence"): indexer_sli(ser)[0] = value # but for object dtype we preserve the nested data and set as such ser = Series([1, "a", "b"], dtype=object) indexer_sli(ser)[0] = value if isinstance(value, np.ndarray): assert (ser.loc[0] == value).all() else: assert ser.loc[0] == value @pytest.mark.parametrize( "value", [(0.0,), [0.0], np.array([0.0]), array.array("d", [0.0])] ) def test_scalar_setitem_with_nested_value_length1(value): # https://github.com/pandas-dev/pandas/issues/46268 # For numeric data, assigning length-1 array to scalar position gets unpacked df = DataFrame({"A": [1, 2, 3]}) df.loc[0, "B"] = value expected = DataFrame({"A": [1, 2, 3], "B": [0.0, np.nan, np.nan]}) tm.assert_frame_equal(df, expected) # but for object dtype we preserve the nested data df = DataFrame({"A": [1, 2, 3], "B": np.array([1, "a", "b"], dtype=object)}) df.loc[0, "B"] = value if isinstance(value, np.ndarray): assert (df.loc[0, "B"] == value).all() else: assert df.loc[0, "B"] == value @pytest.mark.parametrize( "value", [(0.0,), [0.0], np.array([0.0]), array.array("d", [0.0])] ) def test_scalar_setitem_series_with_nested_value_length1(value, indexer_sli): # For numeric data, assigning length-1 array to scalar position gets unpacked # TODO this only happens in case of ndarray, should we make this consistent # for all list-likes? (as happens for DataFrame.(i)loc, see test above) ser = Series([1.0, 2.0, 3.0]) if isinstance(value, np.ndarray): indexer_sli(ser)[0] = value expected = Series([0.0, 2.0, 3.0]) tm.assert_series_equal(ser, expected) else: with pytest.raises( ValueError, match="setting an array element with a sequence" ): indexer_sli(ser)[0] = value # but for object dtype we preserve the nested data ser = Series([1, "a", "b"], dtype=object) indexer_sli(ser)[0] = value if isinstance(value, np.ndarray): assert (ser.loc[0] == value).all() else: assert ser.loc[0] == value