from copy import deepcopy import datetime import pydoc import numpy as np import pytest from pandas.compat import PY37 from pandas.util._test_decorators import async_mark import pandas as pd from pandas import Categorical, DataFrame, Series, compat, date_range, timedelta_range import pandas._testing as tm class TestDataFrameMisc: def test_copy_index_name_checking(self, float_frame): # don't want to be able to modify the index stored elsewhere after # making a copy for attr in ("index", "columns"): ind = getattr(float_frame, attr) ind.name = None cp = float_frame.copy() getattr(cp, attr).name = "foo" assert getattr(float_frame, attr).name is None def test_getitem_pop_assign_name(self, float_frame): s = float_frame["A"] assert s.name == "A" s = float_frame.pop("A") assert s.name == "A" s = float_frame.loc[:, "B"] assert s.name == "B" s2 = s.loc[:] assert s2.name == "B" def test_get_value(self, float_frame): for idx in float_frame.index: for col in float_frame.columns: result = float_frame._get_value(idx, col) expected = float_frame[col][idx] tm.assert_almost_equal(result, expected) def test_add_prefix_suffix(self, float_frame): with_prefix = float_frame.add_prefix("foo#") expected = pd.Index(["foo#{c}".format(c=c) for c in float_frame.columns]) tm.assert_index_equal(with_prefix.columns, expected) with_suffix = float_frame.add_suffix("#foo") expected = pd.Index(["{c}#foo".format(c=c) for c in float_frame.columns]) tm.assert_index_equal(with_suffix.columns, expected) with_pct_prefix = float_frame.add_prefix("%") expected = pd.Index(["%{c}".format(c=c) for c in float_frame.columns]) tm.assert_index_equal(with_pct_prefix.columns, expected) with_pct_suffix = float_frame.add_suffix("%") expected = pd.Index(["{c}%".format(c=c) for c in float_frame.columns]) tm.assert_index_equal(with_pct_suffix.columns, expected) def test_get_axis(self, float_frame): f = float_frame assert f._get_axis_number(0) == 0 assert f._get_axis_number(1) == 1 assert f._get_axis_number("index") == 0 assert f._get_axis_number("rows") == 0 assert f._get_axis_number("columns") == 1 assert f._get_axis_name(0) == "index" assert f._get_axis_name(1) == "columns" assert f._get_axis_name("index") == "index" assert f._get_axis_name("rows") == "index" assert f._get_axis_name("columns") == "columns" assert f._get_axis(0) is f.index assert f._get_axis(1) is f.columns with pytest.raises(ValueError, match="No axis named"): f._get_axis_number(2) with pytest.raises(ValueError, match="No axis.*foo"): f._get_axis_name("foo") with pytest.raises(ValueError, match="No axis.*None"): f._get_axis_name(None) with pytest.raises(ValueError, match="No axis named"): f._get_axis_number(None) def test_keys(self, float_frame): getkeys = float_frame.keys assert getkeys() is float_frame.columns def test_column_contains_raises(self, float_frame): with pytest.raises(TypeError, match="unhashable type: 'Index'"): float_frame.columns in float_frame def test_tab_completion(self): # DataFrame whose columns are identifiers shall have them in __dir__. df = pd.DataFrame([list("abcd"), list("efgh")], columns=list("ABCD")) for key in list("ABCD"): assert key in dir(df) assert isinstance(df.__getitem__("A"), pd.Series) # DataFrame whose first-level columns are identifiers shall have # them in __dir__. df = pd.DataFrame( [list("abcd"), list("efgh")], columns=pd.MultiIndex.from_tuples(list(zip("ABCD", "EFGH"))), ) for key in list("ABCD"): assert key in dir(df) for key in list("EFGH"): assert key not in dir(df) assert isinstance(df.__getitem__("A"), pd.DataFrame) def test_not_hashable(self): empty_frame = DataFrame() df = DataFrame([1]) msg = "'DataFrame' objects are mutable, thus they cannot be hashed" with pytest.raises(TypeError, match=msg): hash(df) with pytest.raises(TypeError, match=msg): hash(empty_frame) def test_new_empty_index(self): df1 = DataFrame(np.random.randn(0, 3)) df2 = DataFrame(np.random.randn(0, 3)) df1.index.name = "foo" assert df2.index.name is None def test_array_interface(self, float_frame): with np.errstate(all="ignore"): result = np.sqrt(float_frame) assert isinstance(result, type(float_frame)) assert result.index is float_frame.index assert result.columns is float_frame.columns tm.assert_frame_equal(result, float_frame.apply(np.sqrt)) def test_get_agg_axis(self, float_frame): cols = float_frame._get_agg_axis(0) assert cols is float_frame.columns idx = float_frame._get_agg_axis(1) assert idx is float_frame.index msg = r"Axis must be 0 or 1 \(got 2\)" with pytest.raises(ValueError, match=msg): float_frame._get_agg_axis(2) def test_nonzero(self, float_frame, float_string_frame): empty_frame = DataFrame() assert empty_frame.empty assert not float_frame.empty assert not float_string_frame.empty # corner case df = DataFrame({"A": [1.0, 2.0, 3.0], "B": ["a", "b", "c"]}, index=np.arange(3)) del df["A"] assert not df.empty def test_iteritems(self): df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=["a", "a", "b"]) for k, v in df.items(): assert isinstance(v, DataFrame._constructor_sliced) def test_items(self): # GH 17213, GH 13918 cols = ["a", "b", "c"] df = DataFrame([[1, 2, 3], [4, 5, 6]], columns=cols) for c, (k, v) in zip(cols, df.items()): assert c == k assert isinstance(v, Series) assert (df[k] == v).all() def test_iter(self, float_frame): assert tm.equalContents(list(float_frame), float_frame.columns) def test_iterrows(self, float_frame, float_string_frame): for k, v in float_frame.iterrows(): exp = float_frame.loc[k] tm.assert_series_equal(v, exp) for k, v in float_string_frame.iterrows(): exp = float_string_frame.loc[k] tm.assert_series_equal(v, exp) def test_iterrows_iso8601(self): # GH 19671 s = DataFrame( { "non_iso8601": ["M1701", "M1802", "M1903", "M2004"], "iso8601": date_range("2000-01-01", periods=4, freq="M"), } ) for k, v in s.iterrows(): exp = s.loc[k] tm.assert_series_equal(v, exp) def test_iterrows_corner(self): # gh-12222 df = DataFrame( { "a": [datetime.datetime(2015, 1, 1)], "b": [None], "c": [None], "d": [""], "e": [[]], "f": [set()], "g": [{}], } ) expected = Series( [datetime.datetime(2015, 1, 1), None, None, "", [], set(), {}], index=list("abcdefg"), name=0, dtype="object", ) _, result = next(df.iterrows()) tm.assert_series_equal(result, expected) def test_itertuples(self, float_frame): for i, tup in enumerate(float_frame.itertuples()): s = DataFrame._constructor_sliced(tup[1:]) s.name = tup[0] expected = float_frame.iloc[i, :].reset_index(drop=True) tm.assert_series_equal(s, expected) df = DataFrame( {"floats": np.random.randn(5), "ints": range(5)}, columns=["floats", "ints"] ) for tup in df.itertuples(index=False): assert isinstance(tup[1], int) df = DataFrame(data={"a": [1, 2, 3], "b": [4, 5, 6]}) dfaa = df[["a", "a"]] assert list(dfaa.itertuples()) == [(0, 1, 1), (1, 2, 2), (2, 3, 3)] # repr with int on 32-bit/windows if not (compat.is_platform_windows() or compat.is_platform_32bit()): assert ( repr(list(df.itertuples(name=None))) == "[(0, 1, 4), (1, 2, 5), (2, 3, 6)]" ) tup = next(df.itertuples(name="TestName")) assert tup._fields == ("Index", "a", "b") assert (tup.Index, tup.a, tup.b) == tup assert type(tup).__name__ == "TestName" df.columns = ["def", "return"] tup2 = next(df.itertuples(name="TestName")) assert tup2 == (0, 1, 4) assert tup2._fields == ("Index", "_1", "_2") df3 = DataFrame({"f" + str(i): [i] for i in range(1024)}) # will raise SyntaxError if trying to create namedtuple tup3 = next(df3.itertuples()) assert isinstance(tup3, tuple) if PY37: assert hasattr(tup3, "_fields") else: assert not hasattr(tup3, "_fields") # GH 28282 df_254_columns = DataFrame([{f"foo_{i}": f"bar_{i}" for i in range(254)}]) result_254_columns = next(df_254_columns.itertuples(index=False)) assert isinstance(result_254_columns, tuple) assert hasattr(result_254_columns, "_fields") df_255_columns = DataFrame([{f"foo_{i}": f"bar_{i}" for i in range(255)}]) result_255_columns = next(df_255_columns.itertuples(index=False)) assert isinstance(result_255_columns, tuple) # Dataframes with >=255 columns will fallback to regular tuples on python < 3.7 if PY37: assert hasattr(result_255_columns, "_fields") else: assert not hasattr(result_255_columns, "_fields") def test_sequence_like_with_categorical(self): # GH 7839 # make sure can iterate df = DataFrame( {"id": [1, 2, 3, 4, 5, 6], "raw_grade": ["a", "b", "b", "a", "a", "e"]} ) df["grade"] = Categorical(df["raw_grade"]) # basic sequencing testing result = list(df.grade.values) expected = np.array(df.grade.values).tolist() tm.assert_almost_equal(result, expected) # iteration for t in df.itertuples(index=False): str(t) for row, s in df.iterrows(): str(s) for c, col in df.items(): str(s) def test_len(self, float_frame): assert len(float_frame) == len(float_frame.index) def test_values_mixed_dtypes(self, float_frame, float_string_frame): frame = float_frame arr = frame.values frame_cols = frame.columns for i, row in enumerate(arr): for j, value in enumerate(row): col = frame_cols[j] if np.isnan(value): assert np.isnan(frame[col][i]) else: assert value == frame[col][i] # mixed type arr = float_string_frame[["foo", "A"]].values assert arr[0, 0] == "bar" df = DataFrame({"complex": [1j, 2j, 3j], "real": [1, 2, 3]}) arr = df.values assert arr[0, 0] == 1j # single block corner case arr = float_frame[["A", "B"]].values expected = float_frame.reindex(columns=["A", "B"]).values tm.assert_almost_equal(arr, expected) def test_to_numpy(self): df = pd.DataFrame({"A": [1, 2], "B": [3, 4.5]}) expected = np.array([[1, 3], [2, 4.5]]) result = df.to_numpy() tm.assert_numpy_array_equal(result, expected) def test_to_numpy_dtype(self): df = pd.DataFrame({"A": [1, 2], "B": [3, 4.5]}) expected = np.array([[1, 3], [2, 4]], dtype="int64") result = df.to_numpy(dtype="int64") tm.assert_numpy_array_equal(result, expected) def test_to_numpy_copy(self): arr = np.random.randn(4, 3) df = pd.DataFrame(arr) assert df.values.base is arr assert df.to_numpy(copy=False).base is arr assert df.to_numpy(copy=True).base is None def test_transpose(self, float_frame): frame = float_frame dft = frame.T for idx, series in dft.items(): for col, value in series.items(): if np.isnan(value): assert np.isnan(frame[col][idx]) else: assert value == frame[col][idx] # mixed type index, data = tm.getMixedTypeDict() mixed = DataFrame(data, index=index) mixed_T = mixed.T for col, s in mixed_T.items(): assert s.dtype == np.object_ def test_swapaxes(self): df = DataFrame(np.random.randn(10, 5)) tm.assert_frame_equal(df.T, df.swapaxes(0, 1)) tm.assert_frame_equal(df.T, df.swapaxes(1, 0)) tm.assert_frame_equal(df, df.swapaxes(0, 0)) msg = ( "No axis named 2 for object type" r" " ) with pytest.raises(ValueError, match=msg): df.swapaxes(2, 5) def test_axis_aliases(self, float_frame): f = float_frame # reg name expected = f.sum(axis=0) result = f.sum(axis="index") tm.assert_series_equal(result, expected) expected = f.sum(axis=1) result = f.sum(axis="columns") tm.assert_series_equal(result, expected) def test_class_axis(self): # GH 18147 # no exception and no empty docstring assert pydoc.getdoc(DataFrame.index) assert pydoc.getdoc(DataFrame.columns) def test_more_values(self, float_string_frame): values = float_string_frame.values assert values.shape[1] == len(float_string_frame.columns) def test_repr_with_mi_nat(self, float_string_frame): df = DataFrame( {"X": [1, 2]}, index=[[pd.NaT, pd.Timestamp("20130101")], ["a", "b"]] ) result = repr(df) expected = " X\nNaT a 1\n2013-01-01 b 2" assert result == expected def test_items_names(self, float_string_frame): for k, v in float_string_frame.items(): assert v.name == k def test_series_put_names(self, float_string_frame): series = float_string_frame._series for k, v in series.items(): assert v.name == k def test_empty_nonzero(self): df = DataFrame([1, 2, 3]) assert not df.empty df = DataFrame(index=[1], columns=[1]) assert not df.empty df = DataFrame(index=["a", "b"], columns=["c", "d"]).dropna() assert df.empty assert df.T.empty empty_frames = [ DataFrame(), DataFrame(index=[1]), DataFrame(columns=[1]), DataFrame({1: []}), ] for df in empty_frames: assert df.empty assert df.T.empty def test_with_datetimelikes(self): df = DataFrame( { "A": date_range("20130101", periods=10), "B": timedelta_range("1 day", periods=10), } ) t = df.T result = t.dtypes.value_counts() expected = Series({np.dtype("object"): 10}) tm.assert_series_equal(result, expected) def test_values(self, float_frame): float_frame.values[:, 0] = 5.0 assert (float_frame.values[:, 0] == 5).all() def test_deepcopy(self, float_frame): cp = deepcopy(float_frame) series = cp["A"] series[:] = 10 for idx, value in series.items(): assert float_frame["A"][idx] != value def test_transpose_get_view(self, float_frame): dft = float_frame.T dft.values[:, 5:10] = 5 assert (float_frame.values[5:10] == 5).all() def test_inplace_return_self(self): # GH 1893 data = DataFrame( {"a": ["foo", "bar", "baz", "qux"], "b": [0, 0, 1, 1], "c": [1, 2, 3, 4]} ) def _check_f(base, f): result = f(base) assert result is None # -----DataFrame----- # set_index f = lambda x: x.set_index("a", inplace=True) _check_f(data.copy(), f) # reset_index f = lambda x: x.reset_index(inplace=True) _check_f(data.set_index("a"), f) # drop_duplicates f = lambda x: x.drop_duplicates(inplace=True) _check_f(data.copy(), f) # sort f = lambda x: x.sort_values("b", inplace=True) _check_f(data.copy(), f) # sort_index f = lambda x: x.sort_index(inplace=True) _check_f(data.copy(), f) # fillna f = lambda x: x.fillna(0, inplace=True) _check_f(data.copy(), f) # replace f = lambda x: x.replace(1, 0, inplace=True) _check_f(data.copy(), f) # rename f = lambda x: x.rename({1: "foo"}, inplace=True) _check_f(data.copy(), f) # -----Series----- d = data.copy()["c"] # reset_index f = lambda x: x.reset_index(inplace=True, drop=True) _check_f(data.set_index("a")["c"], f) # fillna f = lambda x: x.fillna(0, inplace=True) _check_f(d.copy(), f) # replace f = lambda x: x.replace(1, 0, inplace=True) _check_f(d.copy(), f) # rename f = lambda x: x.rename({1: "foo"}, inplace=True) _check_f(d.copy(), f) @async_mark() async def test_tab_complete_warning(self, ip): # GH 16409 pytest.importorskip("IPython", minversion="6.0.0") from IPython.core.completer import provisionalcompleter code = "import pandas as pd; df = pd.DataFrame()" await ip.run_code(code) # TODO: remove it when Ipython updates # GH 33567, jedi version raises Deprecation warning in Ipython import jedi if jedi.__version__ < "0.17.0": warning = tm.assert_produces_warning(None) else: warning = tm.assert_produces_warning( DeprecationWarning, check_stacklevel=False ) with warning: with provisionalcompleter("ignore"): list(ip.Completer.completions("df.", 1)) def test_attrs(self): df = pd.DataFrame({"A": [2, 3]}) assert df.attrs == {} df.attrs["version"] = 1 result = df.rename(columns=str) assert result.attrs == {"version": 1}