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import operator from .compat import string_types from .compat import with_metaclass from .utils import await_ from .utils import identity class _ProxyMethods(object): # We use properties to override the values of __module__ and # __doc__. If we add these in ObjectProxy, the derived class # __dict__ will still be setup to have string variants of these # attributes and the rules of descriptors means that they appear to # take precedence over the properties in the base class. To avoid # that, we copy the properties into the derived class type itself # via a meta class. In that way the properties will always take # precedence. @property def __module__(self): return self.__wrapped__.__module__ @__module__.setter def __module__(self, value): self.__wrapped__.__module__ = value @property def __doc__(self): return self.__wrapped__.__doc__ @__doc__.setter def __doc__(self, value): self.__wrapped__.__doc__ = value # We similar use a property for __dict__. We need __dict__ to be # explicit to ensure that vars() works as expected. @property def __dict__(self): return self.__wrapped__.__dict__ # Need to also propagate the special __weakref__ attribute for case # where decorating classes which will define this. If do not define # it and use a function like inspect.getmembers() on a decorator # class it will fail. This can't be in the derived classes. @property def __weakref__(self): return self.__wrapped__.__weakref__ class _ProxyMetaType(type): def __new__(cls, name, bases, dictionary): # Copy our special properties into the class so that they # always take precedence over attributes of the same name added # during construction of a derived class. This is to save # duplicating the implementation for them in all derived classes. dictionary.update(vars(_ProxyMethods)) return type.__new__(cls, name, bases, dictionary) class Proxy(with_metaclass(_ProxyMetaType)): """ A proxy implementation in pure Python, using slots. You can subclass this to add local methods or attributes, or enable __dict__. The most important internals: * ``__factory__`` is the callback that "materializes" the object we proxy to. * ``__target__`` will contain the object we proxy to, once it's "materialized". * ``__resolved__`` is a boolean, `True` if factory was called. * ``__wrapped__`` is a property that does either: * return ``__target__`` if it's set. * calls ``__factory__``, saves result to ``__target__`` and returns said result. """ __slots__ = '__target__', '__factory__' def __init__(self, factory): object.__setattr__(self, '__factory__', factory) @property def __resolved__(self, __getattr__=object.__getattribute__): try: __getattr__(self, '__target__') except AttributeError: return False else: return True @property def __wrapped__(self, __getattr__=object.__getattribute__, __setattr__=object.__setattr__, __delattr__=object.__delattr__): try: return __getattr__(self, '__target__') except AttributeError: try: factory = __getattr__(self, '__factory__') except AttributeError: raise ValueError("Proxy hasn't been initiated: __factory__ is missing.") target = factory() __setattr__(self, '__target__', target) return target @__wrapped__.deleter def __wrapped__(self, __delattr__=object.__delattr__): __delattr__(self, '__target__') @__wrapped__.setter def __wrapped__(self, target, __setattr__=object.__setattr__): __setattr__(self, '__target__', target) @property def __name__(self): return self.__wrapped__.__name__ @__name__.setter def __name__(self, value): self.__wrapped__.__name__ = value @property def __class__(self): return self.__wrapped__.__class__ @__class__.setter # noqa: F811 def __class__(self, value): # noqa: F811 self.__wrapped__.__class__ = value @property def __annotations__(self): return self.__wrapped__.__anotations__ @__annotations__.setter def __annotations__(self, value): self.__wrapped__.__annotations__ = value def __dir__(self): return dir(self.__wrapped__) def __str__(self): return str(self.__wrapped__) def __bytes__(self): return bytes(self.__wrapped__) def __repr__(self, __getattr__=object.__getattribute__): try: target = __getattr__(self, '__target__') except AttributeError: return '<{} at 0x{:x} with factory {!r}>'.format(type(self).__name__, id(self), self.__factory__) else: return '<{} at 0x{:x} wrapping {!r} at 0x{:x} with factory {!r}>'.format( type(self).__name__, id(self), target, id(target), self.__factory__ ) def __fspath__(self): wrapped = self.__wrapped__ if isinstance(wrapped, string_types): return wrapped else: fspath = getattr(wrapped, '__fspath__', None) if fspath is None: return wrapped else: return fspath() def __reversed__(self): return reversed(self.__wrapped__) def __round__(self): return round(self.__wrapped__) def __lt__(self, other): return self.__wrapped__ < other def __le__(self, other): return self.__wrapped__ <= other def __eq__(self, other): return self.__wrapped__ == other def __ne__(self, other): return self.__wrapped__ != other def __gt__(self, other): return self.__wrapped__ > other def __ge__(self, other): return self.__wrapped__ >= other def __hash__(self): return hash(self.__wrapped__) def __nonzero__(self): return bool(self.__wrapped__) def __bool__(self): return bool(self.__wrapped__) def __setattr__(self, name, value, __setattr__=object.__setattr__): if hasattr(type(self), name): __setattr__(self, name, value) else: setattr(self.__wrapped__, name, value) def __getattr__(self, name): if name in ('__wrapped__', '__factory__'): raise AttributeError(name) else: return getattr(self.__wrapped__, name) def __delattr__(self, name, __delattr__=object.__delattr__): if hasattr(type(self), name): __delattr__(self, name) else: delattr(self.__wrapped__, name) def __add__(self, other): return self.__wrapped__ + other def __sub__(self, other): return self.__wrapped__ - other def __mul__(self, other): return self.__wrapped__ * other def __matmul__(self, other): return self.__wrapped__ @ other def __truediv__(self, other): return operator.truediv(self.__wrapped__, other) def __floordiv__(self, other): return self.__wrapped__ // other def __mod__(self, other): return self.__wrapped__ % other def __divmod__(self, other): return divmod(self.__wrapped__, other) def __pow__(self, other, *args): return pow(self.__wrapped__, other, *args) def __lshift__(self, other): return self.__wrapped__ << other def __rshift__(self, other): return self.__wrapped__ >> other def __and__(self, other): return self.__wrapped__ & other def __xor__(self, other): return self.__wrapped__ ^ other def __or__(self, other): return self.__wrapped__ | other def __radd__(self, other): return other + self.__wrapped__ def __rsub__(self, other): return other - self.__wrapped__ def __rmul__(self, other): return other * self.__wrapped__ def __rmatmul__(self, other): return other @ self.__wrapped__ def __rdiv__(self, other): return operator.div(other, self.__wrapped__) def __rtruediv__(self, other): return operator.truediv(other, self.__wrapped__) def __rfloordiv__(self, other): return other // self.__wrapped__ def __rmod__(self, other): return other % self.__wrapped__ def __rdivmod__(self, other): return divmod(other, self.__wrapped__) def __rpow__(self, other, *args): return pow(other, self.__wrapped__, *args) def __rlshift__(self, other): return other << self.__wrapped__ def __rrshift__(self, other): return other >> self.__wrapped__ def __rand__(self, other): return other & self.__wrapped__ def __rxor__(self, other): return other ^ self.__wrapped__ def __ror__(self, other): return other | self.__wrapped__ def __iadd__(self, other): self.__wrapped__ += other return self def __isub__(self, other): self.__wrapped__ -= other return self def __imul__(self, other): self.__wrapped__ *= other return self def __imatmul__(self, other): self.__wrapped__ @= other return self def __itruediv__(self, other): self.__wrapped__ = operator.itruediv(self.__wrapped__, other) return self def __ifloordiv__(self, other): self.__wrapped__ //= other return self def __imod__(self, other): self.__wrapped__ %= other return self def __ipow__(self, other): self.__wrapped__ **= other return self def __ilshift__(self, other): self.__wrapped__ <<= other return self def __irshift__(self, other): self.__wrapped__ >>= other return self def __iand__(self, other): self.__wrapped__ &= other return self def __ixor__(self, other): self.__wrapped__ ^= other return self def __ior__(self, other): self.__wrapped__ |= other return self def __neg__(self): return -self.__wrapped__ def __pos__(self): return +self.__wrapped__ def __abs__(self): return abs(self.__wrapped__) def __invert__(self): return ~self.__wrapped__ def __int__(self): return int(self.__wrapped__) def __float__(self): return float(self.__wrapped__) def __oct__(self): return oct(self.__wrapped__) def __hex__(self): return hex(self.__wrapped__) def __index__(self): if hasattr(self.__wrapped__, '__index__'): return operator.index(self.__wrapped__) else: return int(self.__wrapped__) def __len__(self): return len(self.__wrapped__) def __contains__(self, value): return value in self.__wrapped__ def __getitem__(self, key): return self.__wrapped__[key] def __setitem__(self, key, value): self.__wrapped__[key] = value def __delitem__(self, key): del self.__wrapped__[key] def __getslice__(self, i, j): return self.__wrapped__[i:j] def __setslice__(self, i, j, value): self.__wrapped__[i:j] = value def __delslice__(self, i, j): del self.__wrapped__[i:j] def __enter__(self): return self.__wrapped__.__enter__() def __exit__(self, *args, **kwargs): return self.__wrapped__.__exit__(*args, **kwargs) def __iter__(self): return iter(self.__wrapped__) def __next__(self): return next(self.__wrapped__) def __call__(self, *args, **kwargs): return self.__wrapped__(*args, **kwargs) def __reduce__(self): return identity, (self.__wrapped__,) def __reduce_ex__(self, protocol): return identity, (self.__wrapped__,) if await_: from .utils import __aenter__ from .utils import __aexit__ from .utils import __aiter__ from .utils import __anext__ from .utils import __await__ __aiter__, __anext__, __await__, __aenter__, __aexit__ # noqa