"""Tests util.inspect functions.""" import ast import datetime import enum import functools import sys import types from inspect import Parameter from typing import Optional import pytest from sphinx.util import inspect from sphinx.util.inspect import TypeAliasForwardRef, TypeAliasNamespace, stringify_signature from sphinx.util.typing import stringify def test_TypeAliasForwardRef(): alias = TypeAliasForwardRef('example') assert stringify(alias) == 'example' alias = Optional[alias] assert stringify(alias) == 'Optional[example]' def test_TypeAliasNamespace(): import logging.config type_alias = TypeAliasNamespace({'logging.Filter': 'MyFilter', 'logging.Handler': 'MyHandler', 'logging.handlers.SyslogHandler': 'MySyslogHandler'}) assert type_alias['logging'].Filter == 'MyFilter' assert type_alias['logging'].Handler == 'MyHandler' assert type_alias['logging'].handlers.SyslogHandler == 'MySyslogHandler' assert type_alias['logging'].Logger == logging.Logger assert type_alias['logging'].config == logging.config with pytest.raises(KeyError): assert type_alias['log'] with pytest.raises(KeyError): assert type_alias['unknown'] def test_signature(): # literals with pytest.raises(TypeError): inspect.signature(1) with pytest.raises(TypeError): inspect.signature('') # builtins are supported on a case-by-case basis, depending on whether # they define __text_signature__ if getattr(list, '__text_signature__', None): sig = inspect.stringify_signature(inspect.signature(list)) assert sig == '(iterable=(), /)' else: with pytest.raises(ValueError): inspect.signature(list) # normal function def func(a, b, c=1, d=2, *e, **f): pass sig = inspect.stringify_signature(inspect.signature(func)) assert sig == '(a, b, c=1, d=2, *e, **f)' def test_signature_partial(): def fun(a, b, c=1, d=2): pass p = functools.partial(fun, 10, c=11) sig = inspect.signature(p) assert stringify_signature(sig) == '(b, *, c=11, d=2)' def test_signature_methods(): class Foo: def meth1(self, arg1, **kwargs): pass @classmethod def meth2(cls, arg1, *args, **kwargs): pass @staticmethod def meth3(arg1, *args, **kwargs): pass @functools.wraps(Foo().meth1) def wrapped_bound_method(*args, **kwargs): pass # unbound method sig = inspect.signature(Foo.meth1) assert stringify_signature(sig) == '(self, arg1, **kwargs)' sig = inspect.signature(Foo.meth1, bound_method=True) assert stringify_signature(sig) == '(arg1, **kwargs)' # bound method sig = inspect.signature(Foo().meth1) assert stringify_signature(sig) == '(arg1, **kwargs)' # class method sig = inspect.signature(Foo.meth2) assert stringify_signature(sig) == '(arg1, *args, **kwargs)' sig = inspect.signature(Foo().meth2) assert stringify_signature(sig) == '(arg1, *args, **kwargs)' # static method sig = inspect.signature(Foo.meth3) assert stringify_signature(sig) == '(arg1, *args, **kwargs)' sig = inspect.signature(Foo().meth3) assert stringify_signature(sig) == '(arg1, *args, **kwargs)' # wrapped bound method sig = inspect.signature(wrapped_bound_method) assert stringify_signature(sig) == '(arg1, **kwargs)' def test_signature_partialmethod(): from functools import partialmethod class Foo: def meth1(self, arg1, arg2, arg3=None, arg4=None): pass def meth2(self, arg1, arg2): pass foo = partialmethod(meth1, 1, 2) bar = partialmethod(meth1, 1, arg3=3) baz = partialmethod(meth2, 1, 2) subject = Foo() sig = inspect.signature(subject.foo) assert stringify_signature(sig) == '(arg3=None, arg4=None)' sig = inspect.signature(subject.bar) assert stringify_signature(sig) == '(arg2, *, arg3=3, arg4=None)' sig = inspect.signature(subject.baz) assert stringify_signature(sig) == '()' def test_signature_annotations(): from .typing_test_data import (Node, f0, f1, f2, f3, f4, f5, f6, f7, f8, f9, f10, f11, f12, f13, f14, f15, f16, f17, f18, f19, f20, f21) # Class annotations sig = inspect.signature(f0) assert stringify_signature(sig) == '(x: int, y: numbers.Integral) -> None' # Generic types with concrete parameters sig = inspect.signature(f1) assert stringify_signature(sig) == '(x: typing.List[int]) -> typing.List[int]' # TypeVars and generic types with TypeVars sig = inspect.signature(f2) if sys.version_info < (3, 7): assert stringify_signature(sig) == ('(x: typing.List[typing.T],' ' y: typing.List[typing.T_co],' ' z: typing.T' ') -> typing.List[typing.T_contra]') else: assert stringify_signature(sig) == ('(x: typing.List[tests.typing_test_data.T],' ' y: typing.List[tests.typing_test_data.T_co],' ' z: tests.typing_test_data.T' ') -> typing.List[tests.typing_test_data.T_contra]') # Union types sig = inspect.signature(f3) assert stringify_signature(sig) == '(x: typing.Union[str, numbers.Integral]) -> None' # Quoted annotations sig = inspect.signature(f4) assert stringify_signature(sig) == '(x: str, y: str) -> None' # Keyword-only arguments sig = inspect.signature(f5) assert stringify_signature(sig) == '(x: int, *, y: str, z: str) -> None' # Keyword-only arguments with varargs sig = inspect.signature(f6) assert stringify_signature(sig) == '(x: int, *args, y: str, z: str) -> None' # Space around '=' for defaults sig = inspect.signature(f7) if sys.version_info < (3, 11): assert stringify_signature(sig) == '(x: typing.Optional[int] = None, y: dict = {}) -> None' else: assert stringify_signature(sig) == '(x: int = None, y: dict = {}) -> None' # Callable types sig = inspect.signature(f8) assert stringify_signature(sig) == '(x: typing.Callable[[int, str], int]) -> None' sig = inspect.signature(f9) assert stringify_signature(sig) == '(x: typing.Callable) -> None' # Tuple types sig = inspect.signature(f10) assert stringify_signature(sig) == '(x: typing.Tuple[int, str], y: typing.Tuple[int, ...]) -> None' # Instance annotations sig = inspect.signature(f11) assert stringify_signature(sig) == '(x: CustomAnnotation, y: 123) -> None' # tuple with more than two items sig = inspect.signature(f12) assert stringify_signature(sig) == '() -> typing.Tuple[int, str, int]' # optional sig = inspect.signature(f13) assert stringify_signature(sig) == '() -> typing.Optional[str]' # optional union sig = inspect.signature(f20) assert stringify_signature(sig) in ('() -> typing.Optional[typing.Union[int, str]]', '() -> typing.Optional[typing.Union[str, int]]') # Any sig = inspect.signature(f14) assert stringify_signature(sig) == '() -> typing.Any' # ForwardRef sig = inspect.signature(f15) assert stringify_signature(sig) == '(x: Unknown, y: int) -> typing.Any' # keyword only arguments (1) sig = inspect.signature(f16) assert stringify_signature(sig) == '(arg1, arg2, *, arg3=None, arg4=None)' # keyword only arguments (2) sig = inspect.signature(f17) assert stringify_signature(sig) == '(*, arg3, arg4)' sig = inspect.signature(f18) assert stringify_signature(sig) == ('(self, arg1: typing.Union[int, typing.Tuple] = 10) -> ' 'typing.List[typing.Dict]') # annotations for variadic and keyword parameters sig = inspect.signature(f19) assert stringify_signature(sig) == '(*args: int, **kwargs: str)' # default value is inspect.Signature.empty sig = inspect.signature(f21) assert stringify_signature(sig) == "(arg1='whatever', arg2)" # type hints by string sig = inspect.signature(Node.children) assert stringify_signature(sig) == '(self) -> typing.List[tests.typing_test_data.Node]' sig = inspect.signature(Node.__init__) assert stringify_signature(sig) == '(self, parent: typing.Optional[tests.typing_test_data.Node]) -> None' # show_annotation is False sig = inspect.signature(f7) assert stringify_signature(sig, show_annotation=False) == '(x=None, y={})' # show_return_annotation is False sig = inspect.signature(f7) if sys.version_info < (3, 11): assert stringify_signature(sig, show_return_annotation=False) == '(x: typing.Optional[int] = None, y: dict = {})' else: assert stringify_signature(sig, show_return_annotation=False) == '(x: int = None, y: dict = {})' # unqualified_typehints is True sig = inspect.signature(f7) if sys.version_info < (3, 11): assert stringify_signature(sig, unqualified_typehints=True) == '(x: ~typing.Optional[int] = None, y: dict = {}) -> None' else: assert stringify_signature(sig, unqualified_typehints=True) == '(x: int = None, y: dict = {}) -> None' @pytest.mark.skipif(sys.version_info < (3, 8), reason='python 3.8+ is required.') @pytest.mark.sphinx(testroot='ext-autodoc') def test_signature_annotations_py38(app): from target.pep570 import bar, baz, foo, qux # case: separator at head sig = inspect.signature(foo) assert stringify_signature(sig) == '(*, a, b)' # case: separator in the middle sig = inspect.signature(bar) assert stringify_signature(sig) == '(a, b, /, c, d)' sig = inspect.signature(baz) assert stringify_signature(sig) == '(a, /, *, b)' # case: separator at tail sig = inspect.signature(qux) assert stringify_signature(sig) == '(a, b, /)' def test_signature_from_str_basic(): signature = '(a, b, *args, c=0, d="blah", **kwargs)' sig = inspect.signature_from_str(signature) assert list(sig.parameters.keys()) == ['a', 'b', 'args', 'c', 'd', 'kwargs'] assert sig.parameters['a'].name == 'a' assert sig.parameters['a'].kind == Parameter.POSITIONAL_OR_KEYWORD assert sig.parameters['a'].default == Parameter.empty assert sig.parameters['a'].annotation == Parameter.empty assert sig.parameters['b'].name == 'b' assert sig.parameters['b'].kind == Parameter.POSITIONAL_OR_KEYWORD assert sig.parameters['b'].default == Parameter.empty assert sig.parameters['b'].annotation == Parameter.empty assert sig.parameters['args'].name == 'args' assert sig.parameters['args'].kind == Parameter.VAR_POSITIONAL assert sig.parameters['args'].default == Parameter.empty assert sig.parameters['args'].annotation == Parameter.empty assert sig.parameters['c'].name == 'c' assert sig.parameters['c'].kind == Parameter.KEYWORD_ONLY assert sig.parameters['c'].default == '0' assert sig.parameters['c'].annotation == Parameter.empty assert sig.parameters['d'].name == 'd' assert sig.parameters['d'].kind == Parameter.KEYWORD_ONLY assert sig.parameters['d'].default == "'blah'" assert sig.parameters['d'].annotation == Parameter.empty assert sig.parameters['kwargs'].name == 'kwargs' assert sig.parameters['kwargs'].kind == Parameter.VAR_KEYWORD assert sig.parameters['kwargs'].default == Parameter.empty assert sig.parameters['kwargs'].annotation == Parameter.empty assert sig.return_annotation == Parameter.empty def test_signature_from_str_default_values(): signature = ('(a=0, b=0.0, c="str", d=b"bytes", e=..., f=True, ' 'g=[1, 2, 3], h={"a": 1}, i={1, 2, 3}, ' 'j=lambda x, y: None, k=None, l=object(), m=foo.bar.CONSTANT)') sig = inspect.signature_from_str(signature) assert sig.parameters['a'].default == '0' assert sig.parameters['b'].default == '0.0' assert sig.parameters['c'].default == "'str'" assert sig.parameters['d'].default == "b'bytes'" assert sig.parameters['e'].default == '...' assert sig.parameters['f'].default == 'True' assert sig.parameters['g'].default == '[1, 2, 3]' assert sig.parameters['h'].default == "{'a': 1}" assert sig.parameters['i'].default == '{1, 2, 3}' assert sig.parameters['j'].default == 'lambda x, y: ...' assert sig.parameters['k'].default == 'None' assert sig.parameters['l'].default == 'object()' assert sig.parameters['m'].default == 'foo.bar.CONSTANT' def test_signature_from_str_annotations(): signature = '(a: int, *args: bytes, b: str = "blah", **kwargs: float) -> None' sig = inspect.signature_from_str(signature) assert list(sig.parameters.keys()) == ['a', 'args', 'b', 'kwargs'] assert sig.parameters['a'].annotation == "int" assert sig.parameters['args'].annotation == "bytes" assert sig.parameters['b'].annotation == "str" assert sig.parameters['kwargs'].annotation == "float" assert sig.return_annotation == 'None' def test_signature_from_str_complex_annotations(): sig = inspect.signature_from_str('() -> Tuple[str, int, ...]') assert sig.return_annotation == 'Tuple[str, int, ...]' sig = inspect.signature_from_str('() -> Callable[[int, int], int]') assert sig.return_annotation == 'Callable[[int, int], int]' def test_signature_from_str_kwonly_args(): sig = inspect.signature_from_str('(a, *, b)') assert list(sig.parameters.keys()) == ['a', 'b'] assert sig.parameters['a'].kind == Parameter.POSITIONAL_OR_KEYWORD assert sig.parameters['a'].default == Parameter.empty assert sig.parameters['b'].kind == Parameter.KEYWORD_ONLY assert sig.parameters['b'].default == Parameter.empty @pytest.mark.skipif(sys.version_info < (3, 8), reason='python-3.8 or above is required') def test_signature_from_str_positionaly_only_args(): sig = inspect.signature_from_str('(a, b=0, /, c=1)') assert list(sig.parameters.keys()) == ['a', 'b', 'c'] assert sig.parameters['a'].kind == Parameter.POSITIONAL_ONLY assert sig.parameters['a'].default == Parameter.empty assert sig.parameters['b'].kind == Parameter.POSITIONAL_ONLY assert sig.parameters['b'].default == '0' assert sig.parameters['c'].kind == Parameter.POSITIONAL_OR_KEYWORD assert sig.parameters['c'].default == '1' def test_signature_from_str_invalid(): with pytest.raises(SyntaxError): inspect.signature_from_str('') def test_signature_from_ast(): signature = 'def func(a, b, *args, c=0, d="blah", **kwargs): pass' tree = ast.parse(signature) sig = inspect.signature_from_ast(tree.body[0]) assert list(sig.parameters.keys()) == ['a', 'b', 'args', 'c', 'd', 'kwargs'] assert sig.parameters['a'].name == 'a' assert sig.parameters['a'].kind == Parameter.POSITIONAL_OR_KEYWORD assert sig.parameters['a'].default == Parameter.empty assert sig.parameters['a'].annotation == Parameter.empty assert sig.parameters['b'].name == 'b' assert sig.parameters['b'].kind == Parameter.POSITIONAL_OR_KEYWORD assert sig.parameters['b'].default == Parameter.empty assert sig.parameters['b'].annotation == Parameter.empty assert sig.parameters['args'].name == 'args' assert sig.parameters['args'].kind == Parameter.VAR_POSITIONAL assert sig.parameters['args'].default == Parameter.empty assert sig.parameters['args'].annotation == Parameter.empty assert sig.parameters['c'].name == 'c' assert sig.parameters['c'].kind == Parameter.KEYWORD_ONLY assert sig.parameters['c'].default == '0' assert sig.parameters['c'].annotation == Parameter.empty assert sig.parameters['d'].name == 'd' assert sig.parameters['d'].kind == Parameter.KEYWORD_ONLY assert sig.parameters['d'].default == "'blah'" assert sig.parameters['d'].annotation == Parameter.empty assert sig.parameters['kwargs'].name == 'kwargs' assert sig.parameters['kwargs'].kind == Parameter.VAR_KEYWORD assert sig.parameters['kwargs'].default == Parameter.empty assert sig.parameters['kwargs'].annotation == Parameter.empty assert sig.return_annotation == Parameter.empty def test_safe_getattr_with_default(): class Foo: def __getattr__(self, item): raise Exception obj = Foo() result = inspect.safe_getattr(obj, 'bar', 'baz') assert result == 'baz' def test_safe_getattr_with_exception(): class Foo: def __getattr__(self, item): raise Exception obj = Foo() try: inspect.safe_getattr(obj, 'bar') except AttributeError as exc: assert exc.args[0] == 'bar' else: pytest.fail('AttributeError not raised') def test_safe_getattr_with_property_exception(): class Foo: @property def bar(self): raise Exception obj = Foo() try: inspect.safe_getattr(obj, 'bar') except AttributeError as exc: assert exc.args[0] == 'bar' else: pytest.fail('AttributeError not raised') def test_safe_getattr_with___dict___override(): class Foo: @property def __dict__(self): raise Exception obj = Foo() try: inspect.safe_getattr(obj, 'bar') except AttributeError as exc: assert exc.args[0] == 'bar' else: pytest.fail('AttributeError not raised') def test_dictionary_sorting(): dictionary = {"c": 3, "a": 1, "d": 2, "b": 4} description = inspect.object_description(dictionary) assert description == "{'a': 1, 'b': 4, 'c': 3, 'd': 2}" def test_set_sorting(): set_ = set("gfedcba") description = inspect.object_description(set_) assert description == "{'a', 'b', 'c', 'd', 'e', 'f', 'g'}" def test_set_sorting_fallback(): set_ = {None, 1} description = inspect.object_description(set_) assert description in ("{1, None}", "{None, 1}") def test_frozenset_sorting(): frozenset_ = frozenset("gfedcba") description = inspect.object_description(frozenset_) assert description == "frozenset({'a', 'b', 'c', 'd', 'e', 'f', 'g'})" def test_frozenset_sorting_fallback(): frozenset_ = frozenset((None, 1)) description = inspect.object_description(frozenset_) assert description in ("frozenset({1, None})", "frozenset({None, 1})") def test_dict_customtype(): class CustomType: def __init__(self, value): self._value = value def __repr__(self): return "" % self._value dictionary = {CustomType(2): 2, CustomType(1): 1} description = inspect.object_description(dictionary) # Type is unsortable, just check that it does not crash assert ": 2" in description def test_object_description_enum(): class MyEnum(enum.Enum): FOO = 1 BAR = 2 assert inspect.object_description(MyEnum.FOO) == "MyEnum.FOO" def test_getslots(): class Foo: pass class Bar: __slots__ = ['attr'] class Baz: __slots__ = {'attr': 'docstring'} class Qux: __slots__ = 'attr' assert inspect.getslots(Foo) is None assert inspect.getslots(Bar) == {'attr': None} assert inspect.getslots(Baz) == {'attr': 'docstring'} assert inspect.getslots(Qux) == {'attr': None} with pytest.raises(TypeError): inspect.getslots(Bar()) @pytest.mark.sphinx(testroot='ext-autodoc') def test_isclassmethod(app): from target.methods import Base, Inherited assert inspect.isclassmethod(Base.classmeth) is True assert inspect.isclassmethod(Base.meth) is False assert inspect.isclassmethod(Inherited.classmeth) is True assert inspect.isclassmethod(Inherited.meth) is False @pytest.mark.sphinx(testroot='ext-autodoc') def test_isstaticmethod(app): from target.methods import Base, Inherited assert inspect.isstaticmethod(Base.staticmeth, Base, 'staticmeth') is True assert inspect.isstaticmethod(Base.meth, Base, 'meth') is False assert inspect.isstaticmethod(Inherited.staticmeth, Inherited, 'staticmeth') is True assert inspect.isstaticmethod(Inherited.meth, Inherited, 'meth') is False @pytest.mark.sphinx(testroot='ext-autodoc') def test_iscoroutinefunction(app): from target.functions import coroutinefunc, func, partial_coroutinefunc from target.methods import Base assert inspect.iscoroutinefunction(func) is False # function assert inspect.iscoroutinefunction(coroutinefunc) is True # coroutine assert inspect.iscoroutinefunction(partial_coroutinefunc) is True # partial-ed coroutine assert inspect.iscoroutinefunction(Base.meth) is False # method assert inspect.iscoroutinefunction(Base.coroutinemeth) is True # coroutine-method # partial-ed coroutine-method partial_coroutinemeth = Base.__dict__['partial_coroutinemeth'] assert inspect.iscoroutinefunction(partial_coroutinemeth) is True @pytest.mark.sphinx(testroot='ext-autodoc') def test_isfunction(app): from target.functions import builtin_func, func, partial_builtin_func, partial_func from target.methods import Base assert inspect.isfunction(func) is True # function assert inspect.isfunction(partial_func) is True # partial-ed function assert inspect.isfunction(Base.meth) is True # method of class assert inspect.isfunction(Base.partialmeth) is True # partial-ed method of class assert inspect.isfunction(Base().meth) is False # method of instance assert inspect.isfunction(builtin_func) is False # builtin function assert inspect.isfunction(partial_builtin_func) is False # partial-ed builtin function @pytest.mark.sphinx(testroot='ext-autodoc') def test_isbuiltin(app): from target.functions import builtin_func, func, partial_builtin_func, partial_func from target.methods import Base assert inspect.isbuiltin(builtin_func) is True # builtin function assert inspect.isbuiltin(partial_builtin_func) is True # partial-ed builtin function assert inspect.isbuiltin(func) is False # function assert inspect.isbuiltin(partial_func) is False # partial-ed function assert inspect.isbuiltin(Base.meth) is False # method of class assert inspect.isbuiltin(Base().meth) is False # method of instance @pytest.mark.sphinx(testroot='ext-autodoc') def test_isdescriptor(app): from target.functions import func from target.methods import Base assert inspect.isdescriptor(Base.prop) is True # property of class assert inspect.isdescriptor(Base().prop) is False # property of instance assert inspect.isdescriptor(Base.meth) is True # method of class assert inspect.isdescriptor(Base().meth) is True # method of instance assert inspect.isdescriptor(func) is True # function @pytest.mark.sphinx(testroot='ext-autodoc') def test_isattributedescriptor(app): from target.methods import Base class Descriptor: def __get__(self, obj, typ=None): pass assert inspect.isattributedescriptor(Base.prop) is True # property assert inspect.isattributedescriptor(Base.meth) is False # method assert inspect.isattributedescriptor(Base.staticmeth) is False # staticmethod assert inspect.isattributedescriptor(Base.classmeth) is False # classmetho assert inspect.isattributedescriptor(Descriptor) is False # custom descriptor class assert inspect.isattributedescriptor(str.join) is False # MethodDescriptorType assert inspect.isattributedescriptor(object.__init__) is False # WrapperDescriptorType assert inspect.isattributedescriptor(dict.__dict__['fromkeys']) is False # ClassMethodDescriptorType assert inspect.isattributedescriptor(types.FrameType.f_locals) is True # GetSetDescriptorType assert inspect.isattributedescriptor(datetime.timedelta.days) is True # MemberDescriptorType try: # _testcapi module cannot be importable in some distro # refs: https://github.com/sphinx-doc/sphinx/issues/9868 import _testcapi testinstancemethod = _testcapi.instancemethod(str.__repr__) assert inspect.isattributedescriptor(testinstancemethod) is False # instancemethod (C-API) except ImportError: pass def test_isproperty(app): from target.functions import func from target.methods import Base assert inspect.isproperty(Base.prop) is True # property of class assert inspect.isproperty(Base().prop) is False # property of instance assert inspect.isproperty(Base.meth) is False # method of class assert inspect.isproperty(Base().meth) is False # method of instance assert inspect.isproperty(func) is False # function @pytest.mark.skipif(sys.version_info < (3, 7), reason='python 3.7+ is required.') @pytest.mark.sphinx(testroot='ext-autodoc') def test_isgenericalias(app): from target.genericalias import C, T from target.methods import Base assert inspect.isgenericalias(C) is True assert inspect.isgenericalias(T) is True assert inspect.isgenericalias(object()) is False assert inspect.isgenericalias(Base) is False def test_unpartial(): def func1(a, b, c): pass func2 = functools.partial(func1, 1) func2.__doc__ = "func2" func3 = functools.partial(func2, 2) # nested partial object assert inspect.unpartial(func2) is func1 assert inspect.unpartial(func3) is func1 def test_getdoc_inherited_classmethod(): class Foo: @classmethod def meth(self): """ docstring indented text """ class Bar(Foo): @classmethod def meth(self): # inherited classmethod pass assert inspect.getdoc(Bar.meth, getattr, False, Bar, "meth") is None assert inspect.getdoc(Bar.meth, getattr, True, Bar, "meth") == Foo.meth.__doc__ def test_getdoc_inherited_decorated_method(): class Foo: def meth(self): """ docstring indented text """ class Bar(Foo): @functools.lru_cache() # noqa: B019 def meth(self): # inherited and decorated method pass assert inspect.getdoc(Bar.meth, getattr, False, Bar, "meth") is None assert inspect.getdoc(Bar.meth, getattr, True, Bar, "meth") == Foo.meth.__doc__ def test_is_builtin_class_method(): class MyInt(int): def my_method(self): pass assert inspect.is_builtin_class_method(MyInt, 'to_bytes') assert inspect.is_builtin_class_method(MyInt, '__init__') assert not inspect.is_builtin_class_method(MyInt, 'my_method') assert not inspect.is_builtin_class_method(MyInt, 'does_not_exist') assert not inspect.is_builtin_class_method(4, 'still does not crash') class ObjectWithMroAttr: def __init__(self, mro_attr): self.__mro__ = mro_attr assert not inspect.is_builtin_class_method(ObjectWithMroAttr([1, 2, 3]), 'still does not crash')