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"""Weak reference support for Python.
This module is an implementation of PEP 205:
http://python.sourceforge.net/peps/pep-0205.html """
# Naming convention: Variables named "wr" are weak reference objects; # they are called this instead of "ref" to avoid name collisions with # the module-global ref() function imported from _weakref.
import UserDict
from _weakref import ( getweakrefcount, getweakrefs, ref, proxy, CallableProxyType, ProxyType, ReferenceType)
from exceptions import ReferenceError
ProxyTypes = (ProxyType, CallableProxyType)
__all__ = ["ref", "proxy", "getweakrefcount", "getweakrefs", "WeakKeyDictionary", "ReferenceType", "ProxyType", "CallableProxyType", "ProxyTypes", "WeakValueDictionary"]
class WeakValueDictionary(UserDict.UserDict): """Mapping class that references values weakly.
Entries in the dictionary will be discarded when no strong reference to the value exists anymore """ # We inherit the constructor without worrying about the input # dictionary; since it uses our .update() method, we get the right # checks (if the other dictionary is a WeakValueDictionary, # objects are unwrapped on the way out, and we always wrap on the # way in).
def __init__(self, *args, **kw): def remove(wr, selfref=ref(self)): self = selfref() if self is not None: del self.data[wr.key] self._remove = remove UserDict.UserDict.__init__(self, *args, **kw)
def __getitem__(self, key): o = self.data[key]() if o is None: raise KeyError, key else: return o
def __contains__(self, key): try: o = self.data[key]() except KeyError: return False return o is not None
def has_key(self, key): try: o = self.data[key]() except KeyError: return False return o is not None
def __repr__(self): return "<WeakValueDictionary at %s>" % id(self)
def __setitem__(self, key, value): self.data[key] = KeyedRef(value, self._remove, key)
def copy(self): new = WeakValueDictionary() for key, wr in self.data.items(): o = wr() if o is not None: new[key] = o return new
def get(self, key, default=None): try: wr = self.data[key] except KeyError: return default else: o = wr() if o is None: # This should only happen return default else: return o
def items(self): L = [] for key, wr in self.data.items(): o = wr() if o is not None: L.append((key, o)) return L
def iteritems(self): for wr in self.data.itervalues(): value = wr() if value is not None: yield wr.key, value
def iterkeys(self): return self.data.iterkeys()
def __iter__(self): return self.data.iterkeys()
def itervalues(self): for wr in self.data.itervalues(): obj = wr() if obj is not None: yield obj
def popitem(self): while 1: key, wr = self.data.popitem() o = wr() if o is not None: return key, o
def pop(self, key, *args): try: o = self.data.pop(key)() except KeyError: if args: return args[0] raise if o is None: raise KeyError, key else: return o
def setdefault(self, key, default=None): try: wr = self.data[key] except KeyError: self.data[key] = KeyedRef(default, self._remove, key) return default else: return wr()
def update(self, dict=None, **kwargs): d = self.data if dict is not None: if not hasattr(dict, "items"): dict = type({})(dict) for key, o in dict.items(): d[key] = KeyedRef(o, self._remove, key) if len(kwargs): self.update(kwargs)
def values(self): L = [] for wr in self.data.values(): o = wr() if o is not None: L.append(o) return L
class KeyedRef(ref): """Specialized reference that includes a key corresponding to the value.
This is used in the WeakValueDictionary to avoid having to create a function object for each key stored in the mapping. A shared callback object can use the 'key' attribute of a KeyedRef instead of getting a reference to the key from an enclosing scope.
"""
__slots__ = "key",
def __new__(type, ob, callback, key): self = ref.__new__(type, ob, callback) self.key = key return self
def __init__(self, ob, callback, key): super(KeyedRef, self).__init__(ob, callback)
class WeakKeyDictionary(UserDict.UserDict): """ Mapping class that references keys weakly.
Entries in the dictionary will be discarded when there is no longer a strong reference to the key. This can be used to associate additional data with an object owned by other parts of an application without adding attributes to those objects. This can be especially useful with objects that override attribute accesses. """
def __init__(self, dict=None): self.data = {} def remove(k, selfref=ref(self)): self = selfref() if self is not None: del self.data[k] self._remove = remove if dict is not None: self.update(dict)
def __delitem__(self, key): del self.data[ref(key)]
def __getitem__(self, key): return self.data[ref(key)]
def __repr__(self): return "<WeakKeyDictionary at %s>" % id(self)
def __setitem__(self, key, value): self.data[ref(key, self._remove)] = value
def copy(self): new = WeakKeyDictionary() for key, value in self.data.items(): o = key() if o is not None: new[o] = value return new
def get(self, key, default=None): return self.data.get(ref(key),default)
def has_key(self, key): try: wr = ref(key) except TypeError: return 0 return wr in self.data
def __contains__(self, key): try: wr = ref(key) except TypeError: return 0 return wr in self.data
def items(self): L = [] for key, value in self.data.items(): o = key() if o is not None: L.append((o, value)) return L
def iteritems(self): for wr, value in self.data.iteritems(): key = wr() if key is not None: yield key, value
def iterkeys(self): for wr in self.data.iterkeys(): obj = wr() if obj is not None: yield obj
def __iter__(self): return self.iterkeys()
def itervalues(self): return self.data.itervalues()
def keys(self): L = [] for wr in self.data.keys(): o = wr() if o is not None: L.append(o) return L
def popitem(self): while 1: key, value = self.data.popitem() o = key() if o is not None: return o, value
def pop(self, key, *args): return self.data.pop(ref(key), *args)
def setdefault(self, key, default=None): return self.data.setdefault(ref(key, self._remove),default)
def update(self, dict=None, **kwargs): d = self.data if dict is not None: if not hasattr(dict, "items"): dict = type({})(dict) for key, value in dict.items(): d[ref(key, self._remove)] = value if len(kwargs): self.update(kwargs)
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