import inspect import pydoc import numpy as np import pytest from pandas.util._test_decorators import skip_if_no import pandas as pd from pandas import ( DataFrame, Index, Series, date_range, ) import pandas._testing as tm class TestSeriesMisc: def test_tab_completion(self): # GH 9910 s = Series(list("abcd")) # Series of str values should have .str but not .dt/.cat in __dir__ assert "str" in dir(s) assert "dt" not in dir(s) assert "cat" not in dir(s) def test_tab_completion_dt(self): # similarly for .dt s = Series(date_range("1/1/2015", periods=5)) assert "dt" in dir(s) assert "str" not in dir(s) assert "cat" not in dir(s) def test_tab_completion_cat(self): # Similarly for .cat, but with the twist that str and dt should be # there if the categories are of that type first cat and str. s = Series(list("abbcd"), dtype="category") assert "cat" in dir(s) assert "str" in dir(s) # as it is a string categorical assert "dt" not in dir(s) def test_tab_completion_cat_str(self): # similar to cat and str s = Series(date_range("1/1/2015", periods=5)).astype("category") assert "cat" in dir(s) assert "str" not in dir(s) assert "dt" in dir(s) # as it is a datetime categorical def test_tab_completion_with_categorical(self): # test the tab completion display ok_for_cat = [ "categories", "codes", "ordered", "set_categories", "add_categories", "remove_categories", "rename_categories", "reorder_categories", "remove_unused_categories", "as_ordered", "as_unordered", ] s = Series(list("aabbcde")).astype("category") results = sorted({r for r in s.cat.__dir__() if not r.startswith("_")}) tm.assert_almost_equal(results, sorted(set(ok_for_cat))) @pytest.mark.parametrize( "index", [ tm.makeStringIndex(10), tm.makeCategoricalIndex(10), Index(["foo", "bar", "baz"] * 2), tm.makeDateIndex(10), tm.makePeriodIndex(10), tm.makeTimedeltaIndex(10), tm.makeIntIndex(10), tm.makeUIntIndex(10), tm.makeIntIndex(10), tm.makeFloatIndex(10), Index([True, False]), Index([f"a{i}" for i in range(101)]), pd.MultiIndex.from_tuples(zip("ABCD", "EFGH")), pd.MultiIndex.from_tuples(zip([0, 1, 2, 3], "EFGH")), ], ) def test_index_tab_completion(self, index): # dir contains string-like values of the Index. s = Series(index=index, dtype=object) dir_s = dir(s) for i, x in enumerate(s.index.unique(level=0)): if i < 100: assert not isinstance(x, str) or not x.isidentifier() or x in dir_s else: assert x not in dir_s @pytest.mark.parametrize("ser", [Series(dtype=object), Series([1])]) def test_not_hashable(self, ser): msg = "unhashable type: 'Series'" with pytest.raises(TypeError, match=msg): hash(ser) def test_contains(self, datetime_series): tm.assert_contains_all(datetime_series.index, datetime_series) def test_axis_alias(self): s = Series([1, 2, np.nan]) tm.assert_series_equal(s.dropna(axis="rows"), s.dropna(axis="index")) assert s.dropna().sum("rows") == 3 assert s._get_axis_number("rows") == 0 assert s._get_axis_name("rows") == "index" def test_class_axis(self): # https://github.com/pandas-dev/pandas/issues/18147 # no exception and no empty docstring assert pydoc.getdoc(Series.index) def test_ndarray_compat(self): # test numpy compat with Series as sub-class of NDFrame tsdf = DataFrame( np.random.randn(1000, 3), columns=["A", "B", "C"], index=date_range("1/1/2000", periods=1000), ) def f(x): return x[x.idxmax()] result = tsdf.apply(f) expected = tsdf.max() tm.assert_series_equal(result, expected) def test_ndarray_compat_like_func(self): # using an ndarray like function s = Series(np.random.randn(10)) result = Series(np.ones_like(s)) expected = Series(1, index=range(10), dtype="float64") tm.assert_series_equal(result, expected) def test_ndarray_compat_ravel(self): # ravel s = Series(np.random.randn(10)) tm.assert_almost_equal(s.ravel(order="F"), s.values.ravel(order="F")) def test_empty_method(self): s_empty = Series(dtype=object) assert s_empty.empty @pytest.mark.parametrize("dtype", ["int64", object]) def test_empty_method_full_series(self, dtype): full_series = Series(index=[1], dtype=dtype) assert not full_series.empty @pytest.mark.parametrize("dtype", [None, "Int64"]) def test_integer_series_size(self, dtype): # GH 25580 s = Series(range(9), dtype=dtype) assert s.size == 9 def test_attrs(self): s = Series([0, 1], name="abc") assert s.attrs == {} s.attrs["version"] = 1 result = s + 1 assert result.attrs == {"version": 1} @skip_if_no("jinja2") def test_inspect_getmembers(self): # GH38782 ser = Series(dtype=object) # TODO(2.0): Change to None once is_monotonic deprecation # is enforced with tm.assert_produces_warning(FutureWarning, check_stacklevel=False): inspect.getmembers(ser) def test_unknown_attribute(self): # GH#9680 tdi = pd.timedelta_range(start=0, periods=10, freq="1s") ser = Series(np.random.normal(size=10), index=tdi) assert "foo" not in ser.__dict__.keys() msg = "'Series' object has no attribute 'foo'" with pytest.raises(AttributeError, match=msg): ser.foo @pytest.mark.parametrize("op", ["year", "day", "second", "weekday"]) def test_datetime_series_no_datelike_attrs(self, op, datetime_series): # GH#7206 msg = f"'Series' object has no attribute '{op}'" with pytest.raises(AttributeError, match=msg): getattr(datetime_series, op) def test_series_datetimelike_attribute_access(self): # attribute access should still work! ser = Series({"year": 2000, "month": 1, "day": 10}) assert ser.year == 2000 assert ser.month == 1 assert ser.day == 10 def test_series_datetimelike_attribute_access_invalid(self): ser = Series({"year": 2000, "month": 1, "day": 10}) msg = "'Series' object has no attribute 'weekday'" with pytest.raises(AttributeError, match=msg): ser.weekday def test_series_iteritems_deprecated(self): ser = Series([1]) with tm.assert_produces_warning(FutureWarning): next(ser.iteritems()) @pytest.mark.parametrize( "kernel, has_numeric_only", [ ("skew", True), ("var", True), ("all", False), ("prod", True), ("any", False), ("idxmin", False), ("quantile", False), ("idxmax", False), ("min", True), ("sem", True), ("mean", True), ("nunique", False), ("max", True), ("sum", True), ("count", False), ("median", True), ("std", True), ("backfill", False), ("rank", True), ("pct_change", False), ("cummax", False), ("shift", False), ("diff", False), ("cumsum", False), ("cummin", False), ("cumprod", False), ("fillna", False), ("ffill", False), ("pad", False), ("bfill", False), ("sample", False), ("tail", False), ("take", False), ("head", False), ("cov", False), ("corr", False), ], ) @pytest.mark.parametrize("dtype", [bool, int, float, object]) def test_numeric_only(self, kernel, has_numeric_only, dtype): # GH#47500 ser = Series([0, 1, 1], dtype=dtype) if kernel == "corrwith": args = (ser,) elif kernel == "corr": args = (ser,) elif kernel == "cov": args = (ser,) elif kernel == "nth": args = (0,) elif kernel == "fillna": args = (True,) elif kernel == "fillna": args = ("ffill",) elif kernel == "take": args = ([0],) elif kernel == "quantile": args = (0.5,) else: args = () method = getattr(ser, kernel) if not has_numeric_only: msg = ( "(got an unexpected keyword argument 'numeric_only'" "|too many arguments passed in)" ) with pytest.raises(TypeError, match=msg): method(*args, numeric_only=True) elif dtype is object: if kernel == "rank": msg = "Calling Series.rank with numeric_only=True and dtype object" with tm.assert_produces_warning(FutureWarning, match=msg): method(*args, numeric_only=True) else: warn_msg = ( f"Calling Series.{kernel} with numeric_only=True and dtype object" ) err_msg = f"Series.{kernel} does not implement numeric_only" with tm.assert_produces_warning(FutureWarning, match=warn_msg): with pytest.raises(NotImplementedError, match=err_msg): method(*args, numeric_only=True) else: result = method(*args, numeric_only=True) expected = method(*args, numeric_only=False) if isinstance(expected, Series): # transformer tm.assert_series_equal(result, expected) else: # reducer assert result == expected