"""Helper to provide extensibility for pickle/cPickle. This is only useful to add pickle support for extension types defined in C, not for instances of user-defined classes. """ from types import ClassType as _ClassType __all__ = ["pickle", "constructor", "add_extension", "remove_extension", "clear_extension_cache"] dispatch_table = {} def pickle(ob_type, pickle_function, constructor_ob=None): if type(ob_type) is _ClassType: raise TypeError("copy_reg is not intended for use with classes") if not callable(pickle_function): raise TypeError("reduction functions must be callable") dispatch_table[ob_type] = pickle_function if constructor_ob is not None: constructor(constructor_ob) def constructor(object): if not callable(object): raise TypeError("constructors must be callable") # Example: provide pickling support for complex numbers. def pickle_complex(c): return complex, (c.real, c.imag) pickle(type(1j), pickle_complex, complex) # Support for pickling new-style objects def _reconstructor(cls, base, state): if base is object: obj = object.__new__(cls) else: obj = base.__new__(cls, state) base.__init__(obj, state) return obj _HEAPTYPE = 1<<9 def _reduce(self): for base in self.__class__.__mro__: if hasattr(base, '__flags__') and not base.__flags__ & _HEAPTYPE: break else: base = object # not really reachable if base is object: state = None else: if base is self.__class__: raise TypeError, "can't pickle %s objects" % base.__name__ state = base(self) args = (self.__class__, base, state) try: getstate = self.__getstate__ except AttributeError: if getattr(self, "__slots__", None): raise TypeError("a class that defines __slots__ without " "defining __getstate__ cannot be pickled") try: dict = self.__dict__ except AttributeError: dict = None else: dict = getstate() if dict: return _reconstructor, args, dict else: return _reconstructor, args # A better version of _reduce, used by copy and pickle protocol 2 def __newobj__(cls, *args): return cls.__new__(cls, *args) def _better_reduce(obj): cls = obj.__class__ getnewargs = getattr(obj, "__getnewargs__", None) if getnewargs: args = getnewargs() else: args = () getstate = getattr(obj, "__getstate__", None) if getstate: state = getstate() else: state = getattr(obj, "__dict__", None) names = _slotnames(cls) if names: slots = {} nil = [] for name in names: value = getattr(obj, name, nil) if value is not nil: slots[name] = value if slots: state = (state, slots) listitems = dictitems = None if isinstance(obj, list): listitems = iter(obj) elif isinstance(obj, dict): dictitems = obj.iteritems() return __newobj__, (cls,) + args, state, listitems, dictitems # Extended reduce: def _reduce_ex(obj, proto=0): obj_reduce = getattr(obj, "__reduce__", None) if obj_reduce and obj.__class__.__reduce__ is not object.__reduce__: return obj_reduce() elif proto < 2: return _reduce(obj) else: return _better_reduce(obj) def _slotnames(cls): """Return a list of slot names for a given class. This needs to find slots defined by the class and its bases, so we can't simply return the __slots__ attribute. We must walk down the Method Resolution Order and concatenate the __slots__ of each class found there. (This assumes classes don't modify their __slots__ attribute to misrepresent their slots after the class is defined.) """ # Get the value from a cache in the class if possible names = cls.__dict__.get("__slotnames__") if names is not None: return names # Not cached -- calculate the value names = [] if not hasattr(cls, "__slots__"): # This class has no slots pass else: # Slots found -- gather slot names from all base classes for c in cls.__mro__: if "__slots__" in c.__dict__: names += [name for name in c.__dict__["__slots__"] if name not in ("__dict__", "__weakref__")] # Cache the outcome in the class if at all possible try: cls.__slotnames__ = names except: pass # But don't die if we can't return names # A registry of extension codes. This is an ad-hoc compression # mechanism. Whenever a global reference to , is about # to be pickled, the (, ) tuple is looked up here to see # if it is a registered extension code for it. Extension codes are # universal, so that the meaning of a pickle does not depend on # context. (There are also some codes reserved for local use that # don't have this restriction.) Codes are positive ints; 0 is # reserved. _extension_registry = {} # key -> code _inverted_registry = {} # code -> key _extension_cache = {} # code -> object # Don't ever rebind those names: cPickle grabs a reference to them when # it's initialized, and won't see a rebinding. def add_extension(module, name, code): """Register an extension code.""" code = int(code) if not 1 <= code <= 0x7fffffff: raise ValueError, "code out of range" key = (module, name) if (_extension_registry.get(key) == code and _inverted_registry.get(code) == key): return # Redundant registrations are benign if key in _extension_registry: raise ValueError("key %s is already registered with code %s" % (key, _extension_registry[key])) if code in _inverted_registry: raise ValueError("code %s is already in use for key %s" % (code, _inverted_registry[code])) _extension_registry[key] = code _inverted_registry[code] = key def remove_extension(module, name, code): """Unregister an extension code. For testing only.""" key = (module, name) if (_extension_registry.get(key) != code or _inverted_registry.get(code) != key): raise ValueError("key %s is not registered with code %s" % (key, code)) del _extension_registry[key] del _inverted_registry[code] if code in _extension_cache: del _extension_cache[code] def clear_extension_cache(): _extension_cache.clear() # Standard extension code assignments # Reserved ranges # First Last Count Purpose # 1 127 127 Reserved for Python standard library # 128 191 64 Reserved for Zope # 192 239 48 Reserved for 3rd parties # 240 255 16 Reserved for private use (will never be assigned) # 256 Inf Inf Reserved for future assignment # Extension codes are assigned by the Python Software Foundation.