from datetime import datetime import sys import numpy as np import pytest from pandas.compat import PYPY import pandas as pd from pandas import ( DataFrame, Index, Series, ) import pandas._testing as tm from pandas.core.accessor import PandasDelegate from pandas.core.base import ( NoNewAttributesMixin, PandasObject, ) def series_via_frame_from_dict(x, **kwargs): return DataFrame({"a": x}, **kwargs)["a"] def series_via_frame_from_scalar(x, **kwargs): return DataFrame(x, **kwargs)[0] @pytest.fixture( params=[ Series, series_via_frame_from_dict, series_via_frame_from_scalar, Index, ], ids=["Series", "DataFrame-dict", "DataFrame-array", "Index"], ) def constructor(request): return request.param class TestPandasDelegate: class Delegator: _properties = ["prop"] _methods = ["test_method"] def _set_prop(self, value): self.prop = value def _get_prop(self): return self.prop prop = property(_get_prop, _set_prop, doc="foo property") def test_method(self, *args, **kwargs): """a test method""" class Delegate(PandasDelegate, PandasObject): def __init__(self, obj) -> None: self.obj = obj def test_invalid_delegation(self): # these show that in order for the delegation to work # the _delegate_* methods need to be overridden to not raise # a TypeError self.Delegate._add_delegate_accessors( delegate=self.Delegator, accessors=self.Delegator._properties, typ="property", ) self.Delegate._add_delegate_accessors( delegate=self.Delegator, accessors=self.Delegator._methods, typ="method" ) delegate = self.Delegate(self.Delegator()) msg = "You cannot access the property prop" with pytest.raises(TypeError, match=msg): delegate.prop msg = "The property prop cannot be set" with pytest.raises(TypeError, match=msg): delegate.prop = 5 msg = "You cannot access the property prop" with pytest.raises(TypeError, match=msg): delegate.prop @pytest.mark.skipif(PYPY, reason="not relevant for PyPy") def test_memory_usage(self): # Delegate does not implement memory_usage. # Check that we fall back to in-built `__sizeof__` # GH 12924 delegate = self.Delegate(self.Delegator()) sys.getsizeof(delegate) class TestNoNewAttributesMixin: def test_mixin(self): class T(NoNewAttributesMixin): pass t = T() assert not hasattr(t, "__frozen") t.a = "test" assert t.a == "test" t._freeze() assert "__frozen" in dir(t) assert getattr(t, "__frozen") msg = "You cannot add any new attribute" with pytest.raises(AttributeError, match=msg): t.b = "test" assert not hasattr(t, "b") class TestConstruction: # test certain constructor behaviours on dtype inference across Series, # Index and DataFrame @pytest.mark.parametrize( "a", [ np.array(["2263-01-01"], dtype="datetime64[D]"), np.array([datetime(2263, 1, 1)], dtype=object), np.array([np.datetime64("2263-01-01", "D")], dtype=object), np.array(["2263-01-01"], dtype=object), ], ids=[ "datetime64[D]", "object-datetime.datetime", "object-numpy-scalar", "object-string", ], ) def test_constructor_datetime_outofbound(self, a, constructor): # GH-26853 (+ bug GH-26206 out of bound non-ns unit) # No dtype specified (dtype inference) # datetime64[non-ns] raise error, other cases result in object dtype # and preserve original data if a.dtype.kind == "M": # Can't fit in nanosecond bounds -> get the nearest supported unit result = constructor(a) assert result.dtype == "M8[s]" else: result = constructor(a) assert result.dtype == "object" tm.assert_numpy_array_equal(result.to_numpy(), a) # Explicit dtype specified # Forced conversion fails for all -> all cases raise error msg = "Out of bounds|Out of bounds .* present at position 0" with pytest.raises(pd.errors.OutOfBoundsDatetime, match=msg): constructor(a, dtype="datetime64[ns]") def test_constructor_datetime_nonns(self, constructor): arr = np.array(["2020-01-01T00:00:00.000000"], dtype="datetime64[us]") dta = pd.core.arrays.DatetimeArray._simple_new(arr, dtype=arr.dtype) expected = constructor(dta) assert expected.dtype == arr.dtype result = constructor(arr) tm.assert_equal(result, expected) # https://github.com/pandas-dev/pandas/issues/34843 arr.flags.writeable = False result = constructor(arr) tm.assert_equal(result, expected)