mirror of
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258 lines
5.9 KiB
Python
258 lines
5.9 KiB
Python
doctests = """
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Basic class construction.
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>>> class C:
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... def meth(self): print("Hello")
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...
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>>> C.__class__ is type
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True
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>>> a = C()
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>>> a.__class__ is C
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True
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>>> a.meth()
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Hello
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>>>
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Use *args notation for the bases.
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>>> class A: pass
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>>> class B: pass
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>>> bases = (A, B)
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>>> class C(*bases): pass
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>>> C.__bases__ == bases
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True
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>>>
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Use a trivial metaclass.
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>>> class M(type):
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... pass
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...
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>>> class C(metaclass=M):
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... def meth(self): print("Hello")
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...
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>>> C.__class__ is M
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True
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>>> a = C()
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>>> a.__class__ is C
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True
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>>> a.meth()
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Hello
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>>>
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Use **kwds notation for the metaclass keyword.
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>>> kwds = {'metaclass': M}
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>>> class C(**kwds): pass
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...
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>>> C.__class__ is M
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True
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>>> a = C()
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>>> a.__class__ is C
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True
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>>>
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Use a metaclass with a __prepare__ static method.
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>>> class M(type):
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... @staticmethod
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... def __prepare__(*args, **kwds):
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... print("Prepare called:", args, kwds)
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... return dict()
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... def __new__(cls, name, bases, namespace, **kwds):
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... print("New called:", kwds)
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... return type.__new__(cls, name, bases, namespace)
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... def __init__(cls, *args, **kwds):
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... pass
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...
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>>> class C(metaclass=M):
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... def meth(self): print("Hello")
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...
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Prepare called: ('C', ()) {}
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New called: {}
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>>>
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Also pass another keyword.
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>>> class C(object, metaclass=M, other="haha"):
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... pass
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...
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Prepare called: ('C', (<class 'object'>,)) {'other': 'haha'}
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New called: {'other': 'haha'}
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>>> C.__class__ is M
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True
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>>> C.__bases__ == (object,)
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True
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>>> a = C()
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>>> a.__class__ is C
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True
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>>>
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Check that build_class doesn't mutate the kwds dict.
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>>> kwds = {'metaclass': type}
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>>> class C(**kwds): pass
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...
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>>> kwds == {'metaclass': type}
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True
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>>>
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Use various combinations of explicit keywords and **kwds.
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>>> bases = (object,)
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>>> kwds = {'metaclass': M, 'other': 'haha'}
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>>> class C(*bases, **kwds): pass
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...
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Prepare called: ('C', (<class 'object'>,)) {'other': 'haha'}
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New called: {'other': 'haha'}
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>>> C.__class__ is M
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True
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>>> C.__bases__ == (object,)
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True
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>>> class B: pass
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>>> kwds = {'other': 'haha'}
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>>> class C(B, metaclass=M, *bases, **kwds): pass
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...
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Prepare called: ('C', (<class 'test.test_metaclass.B'>, <class 'object'>)) {'other': 'haha'}
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New called: {'other': 'haha'}
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>>> C.__class__ is M
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True
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>>> C.__bases__ == (B, object)
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True
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>>>
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Check for duplicate keywords.
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>>> class C(metaclass=type, metaclass=type): pass
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...
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Traceback (most recent call last):
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[...]
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SyntaxError: keyword argument repeated
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>>>
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Another way.
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>>> kwds = {'metaclass': type}
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>>> class C(metaclass=type, **kwds): pass
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...
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Traceback (most recent call last):
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[...]
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TypeError: __build_class__() got multiple values for keyword argument 'metaclass'
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>>>
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Use a __prepare__ method that returns an instrumented dict.
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>>> class LoggingDict(dict):
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... def __setitem__(self, key, value):
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... print("d[%r] = %r" % (key, value))
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... dict.__setitem__(self, key, value)
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...
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>>> class Meta(type):
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... @staticmethod
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... def __prepare__(name, bases):
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... return LoggingDict()
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...
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>>> class C(metaclass=Meta):
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... foo = 2+2
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... foo = 42
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... bar = 123
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...
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d['__module__'] = 'test.test_metaclass'
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d['foo'] = 4
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d['foo'] = 42
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d['bar'] = 123
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>>>
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Use a metaclass that doesn't derive from type.
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>>> def meta(name, bases, namespace, **kwds):
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... print("meta:", name, bases)
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... print("ns:", sorted(namespace.items()))
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... print("kw:", sorted(kwds.items()))
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... return namespace
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...
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>>> class C(metaclass=meta):
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... a = 42
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... b = 24
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...
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meta: C ()
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ns: [('__module__', 'test.test_metaclass'), ('a', 42), ('b', 24)]
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kw: []
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>>> type(C) is dict
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True
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>>> print(sorted(C.items()))
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[('__module__', 'test.test_metaclass'), ('a', 42), ('b', 24)]
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>>>
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And again, with a __prepare__ attribute.
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>>> def prepare(name, bases, **kwds):
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... print("prepare:", name, bases, sorted(kwds.items()))
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... return LoggingDict()
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...
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>>> meta.__prepare__ = prepare
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>>> class C(metaclass=meta, other="booh"):
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... a = 1
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... a = 2
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... b = 3
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...
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prepare: C () [('other', 'booh')]
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d['__module__'] = 'test.test_metaclass'
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d['a'] = 1
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d['a'] = 2
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d['b'] = 3
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meta: C ()
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ns: [('__module__', 'test.test_metaclass'), ('a', 2), ('b', 3)]
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kw: [('other', 'booh')]
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>>>
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The default metaclass must define a __prepare__() method.
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>>> type.__prepare__()
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{}
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>>>
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Make sure it works with subclassing.
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>>> class M(type):
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... @classmethod
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... def __prepare__(cls, *args, **kwds):
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... d = super().__prepare__(*args, **kwds)
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... d["hello"] = 42
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... return d
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...
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>>> class C(metaclass=M):
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... print(hello)
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...
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42
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>>> print(C.hello)
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42
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>>>
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Test failures in looking up the __prepare__ method work.
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>>> class ObscureException(Exception):
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... pass
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>>> class FailDescr:
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... def __get__(self, instance, owner):
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... raise ObscureException
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>>> class Meta(type):
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... __prepare__ = FailDescr()
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>>> class X(metaclass=Meta):
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... pass
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Traceback (most recent call last):
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[...]
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test.test_metaclass.ObscureException
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"""
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__test__ = {'doctests' : doctests}
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def test_main(verbose=False):
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from test import support
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from test import test_metaclass
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support.run_doctest(test_metaclass, verbose)
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if __name__ == "__main__":
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test_main(verbose=True)
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