from __future__ import print_function import unittest import types import wrapt from compat import PYXY, exec_, getfullargspec DECORATORS_CODE = """ import wrapt @wrapt.decorator def passthru_decorator(wrapped, instance, args, kwargs): return wrapped(*args, **kwargs) """ decorators = types.ModuleType('decorators') exec_(DECORATORS_CODE, decorators.__dict__, decorators.__dict__) class Class(object): @classmethod def function(self, arg): '''documentation''' return arg Original = Class class Class(object): @classmethod @decorators.passthru_decorator def function(self, arg): '''documentation''' return arg class TestNamingOuterClassMethod(unittest.TestCase): def test_class_object_name(self): # Test preservation of instance method __name__ attribute. self.assertEqual(Class.function.__name__, Original.function.__name__) def test_instance_object_name(self): # Test preservation of instance method __name__ attribute. self.assertEqual(Class().function.__name__, Original().function.__name__) def test_class_object_qualname(self): # Test preservation of instance method __qualname__ attribute. try: __qualname__ = Original.original.__qualname__ except AttributeError: pass else: self.assertEqual(Class.function.__qualname__, __qualname__) def test_instance_object_qualname(self): # Test preservation of instance method __qualname__ attribute. try: __qualname__ = Original().original.__qualname__ except AttributeError: pass else: self.assertEqual(Class().function.__qualname__, __qualname__) def test_class_module_name(self): # Test preservation of instance method __module__ attribute. self.assertEqual(Class.function.__module__, Original.function.__module__) def test_instance_module_name(self): # Test preservation of instance method __module__ attribute. self.assertEqual(Class().function.__module__, Original().function.__module__) def test_class_doc_string(self): # Test preservation of instance method __doc__ attribute. self.assertEqual(Class.function.__doc__, Original.function.__doc__) def test_instance_doc_string(self): # Test preservation of instance method __doc__ attribute. self.assertEqual(Class().function.__doc__, Original().function.__doc__) def test_class_argspec(self): # Test preservation of instance method argument specification. original_argspec = getfullargspec(Original.function) function_argspec = getfullargspec(Class.function) self.assertEqual(original_argspec, function_argspec) def test_instance_argspec(self): # Test preservation of instance method argument specification. original_argspec = getfullargspec(Original().function) function_argspec = getfullargspec(Class().function) self.assertEqual(original_argspec, function_argspec) def test_class_isinstance(self): # Test preservation of isinstance() checks. self.assertTrue(isinstance(Class.function, type(Original.function))) def test_instance_isinstance(self): # Test preservation of isinstance() checks. self.assertTrue(isinstance(Class().function, type(Original().function))) class TestCallingOuterClassMethod(unittest.TestCase): def test_class_call_function(self): # Test calling classmethod. Prior to Python 3.9, the instance # and class passed to the wrapper will both be None because our # decorator is surrounded by the classmethod decorator. The # classmethod decorator doesn't bind the method and treats it # like a normal function, explicitly passing the class as the # first argument with the actual arguments following that. This # was only finally fixed in Python 3.9. For more details see: # https://bugs.python.org/issue19072 _args = (1, 2) _kwargs = {'one': 1, 'two': 2} @wrapt.decorator def _decorator(wrapped, instance, args, kwargs): if PYXY < (3, 9): self.assertEqual(instance, None) self.assertEqual(args, (Class,)+_args) else: self.assertEqual(instance, Class) self.assertEqual(args, _args) self.assertEqual(kwargs, _kwargs) self.assertEqual(wrapped.__module__, _function.__module__) self.assertEqual(wrapped.__name__, _function.__name__) return wrapped(*args, **kwargs) @_decorator def _function(*args, **kwargs): return args, kwargs class Class(object): @classmethod @_decorator def _function(cls, *args, **kwargs): return (args, kwargs) result = Class._function(*_args, **_kwargs) self.assertEqual(result, (_args, _kwargs)) def test_instance_call_function(self): # Test calling classmethod via class instance. Prior to Python # 3.9, the instance and class passed to the wrapper will both be # None because our decorator is surrounded by the classmethod # decorator. The classmethod decorator doesn't bind the method # and treats it like a normal function, explicitly passing the # class as the first argument with the actual arguments # following that. This was only finally fixed in Python 3.9. For # more details see: https://bugs.python.org/issue19072 _args = (1, 2) _kwargs = {'one': 1, 'two': 2} @wrapt.decorator def _decorator(wrapped, instance, args, kwargs): if PYXY < (3, 9): self.assertEqual(instance, None) self.assertEqual(args, (Class,)+_args) else: self.assertEqual(instance, Class) self.assertEqual(args, _args) self.assertEqual(kwargs, _kwargs) self.assertEqual(wrapped.__module__, _function.__module__) self.assertEqual(wrapped.__name__, _function.__name__) return wrapped(*args, **kwargs) @_decorator def _function(*args, **kwargs): return args, kwargs class Class(object): @classmethod @_decorator def _function(cls, *args, **kwargs): return (args, kwargs) result = Class()._function(*_args, **_kwargs) self.assertEqual(result, (_args, _kwargs)) if __name__ == '__main__': unittest.main()