Key References
Project description
Object references that support stable comparison and hashes.
Detailed Documentation
Key References for Persistent Objects
zope.keyreference.persistent.KeyReferenceToPersistent provides an zope.keyreference.interfaces.IKeyReference reference for persistent objects.
Let’s look at an example. First, we’ll create some persistent objects in a database:
>>> from ZODB.tests.util import DB >>> import transaction >>> from persistent.dict import PersistentDict>>> db = DB() >>> conn = db.open() >>> root = conn.root()>>> root['ob1'] = PersistentDict() >>> root['ob2'] = PersistentDict()>>> transaction.commit()
Then we’ll create some key references:
>>> from zope.keyreference.persistent import KeyReferenceToPersistent>>> key1 = KeyReferenceToPersistent(root['ob1']) >>> key2 = KeyReferenceToPersistent(root['ob2'])
We can call the keys to get the objects:
>>> key1() is root['ob1'], key2() is root['ob2'] (True, True)
New keys to the same objects are equal to the old:
>>> KeyReferenceToPersistent(root['ob1']) == key1 True
and have the same hashes:
>>> hash(KeyReferenceToPersistent(root['ob1'])) == hash(key1) True
Other key reference implementations are differed by their key type id. Key references should sort first on their key type and second on any type-specific information:
>>> from zope.interface import implements >>> from zope.keyreference.interfaces import IKeyReference>>> class DummyKeyReference(object): ... implements(IKeyReference) ... key_type_id = 'zope.app.keyreference.object' ... def __init__(self, obj): ... self.object = obj ... def __cmp__(self, other): ... if self.key_type_id == other.key_type_id: ... return cmp(self.object, other.object) ... return cmp(self.key_type_id, other.key_type_id)>>> dummy_key1 = DummyKeyReference(object()) >>> dummy_key2 = DummyKeyReference(object()) >>> dummy_key3 = DummyKeyReference(object())>>> keys = [key1, dummy_key1, dummy_key2, key2, dummy_key3] >>> keys.sort() >>> key_type_ids = [key.key_type_id for key in keys] >>> key_type_ids[0:3].count('zope.app.keyreference.object') 3 >>> key_type_ids[3:].count('zope.app.keyreference.persistent') 2
We’ll store the key references in the database:
>>> root['key1'] = key1 >>> root['key2'] = key2
and use the keys to store the objects again:
>>> root[key1] = root['ob1'] >>> root[key2] = root['ob2']>>> transaction.commit()
Now we’ll open another connection:
>>> conn2 = db.open()
And verify that we can use the keys to look up the objects:
>>> root2 = conn2.root() >>> key1 = root2['key1'] >>> root2[key1] is root2['ob1'] True >>> key2 = root2['key2'] >>> root2[key2] is root2['ob2'] True
and that we can also call the keys to get the objects:
>>> key1() is root2['ob1'] True >>> key2() is root2['ob2'] True
We can’t get the key reference for an object that hasn’t been saved yet:
>>> KeyReferenceToPersistent(PersistentDict()) ... # doctest: +ELLIPSIS Traceback (most recent call last): ... NotYet: <persistent.dict.PersistentDict object at ...>
Note that we get a NotYet error. This indicates that we might be able to get a key reference later.
We can get references to unsaved objects if they have an adapter to ZODB.interfaces.IConnection. The add method on the connection will be used to give the object an object id, which is enough information to compute the reference. To see this, we’ll create an object that conforms to IConnection in a silly way:
>>> import persistent >>> from ZODB.interfaces import IConnection >>> class C(persistent.Persistent): ... def __conform__(self, iface): ... if iface is IConnection: ... return conn2>>> ob3 = C() >>> key3 = KeyReferenceToPersistent(ob3) >>> transaction.abort()
Conflict Resolution
During conflict resolution, as discussed in ZODB/ConflictResolution.txt, references to persistent objects are actually instances of ZODB.ConflictResolution.PersistentReference. This is pertinent in two ways for KeyReferenceToPersistent. First, it explains a subtlety of the class: it does not inherit from persistent.Persistent. If it did, it would not be available for conflict resolution, just its PersistentReference stand-in.
Second, it explains some of the code in the __hash__ and __cmp__ methods. These methods not only handle persistent.Persistent objects, but PersistentReference objects. Without this behavior, objects, such as the classic ZODB BTrees, that use KeyReferenceToPersistent as keys or set members will be unable to resolve conflicts. Even with the special code, in some cases the KeyReferenceToPersistent will refuse to compare and hash during conflict resolution because it cannot reliably do so.
__hash__ will work relatively rarely during conflict resolution: only for multidatabase references. Here are a couple of examples.
>>> from ZODB.ConflictResolution import PersistentReference>>> def factory(ref): ... res = KeyReferenceToPersistent.__new__( ... KeyReferenceToPersistent, ref) ... res.object = ref ... return res ...>>> hash(factory(PersistentReference( ... ('an oid', 'class metadata')))) # a typical reference Traceback (most recent call last): ... ValueError: database name unavailable at this time>>> bool(hash(factory(PersistentReference( ... ['m', ('a database', 'an oid', 'class metadata')])))) # multidatabase True
This means that KeyReferenceToPersistent will often hinder conflict resolution for classes such as PersistentDict.
__cmp__ works unless one object is a multidatabase reference and the other is not. Here are a few examples.
>>> cmp(factory(PersistentReference( ... ('an oid', 'class metadata'))), ... factory(PersistentReference( ... ('an oid', 'class metadata')))) 0>>> cmp(factory(PersistentReference( ... ('an oid', 'class metadata'))), ... factory(PersistentReference( ... ('another oid', 'class metadata')))) -1>>> cmp(factory(PersistentReference('an oid')), ... factory(PersistentReference( ... ('an oid', 'class metadata')))) 0>>> cmp(factory(PersistentReference('an oid')), ... factory(PersistentReference( ... ('an oid', 'class metadata')))) 0>>> cmp(factory(PersistentReference( ... ['m', ('a database', 'an oid', 'class metadata')])), ... factory(PersistentReference( ... ['m', ('a database', 'an oid', 'class metadata')]))) 0>>> cmp(factory(PersistentReference( ... ['m', ('a database', 'an oid', 'class metadata')])), ... factory(PersistentReference( ... ['n', ('a database', 'an oid')]))) 0>>> cmp(factory(PersistentReference( ... ['m', ('a database', 'an oid', 'class metadata')])), ... factory(PersistentReference( ... ['m', ('another database', 'an oid', 'class metadata')]))) -1>>> cmp(factory(PersistentReference( ... ['m', ('a database', 'an oid', 'class metadata')])), ... factory(PersistentReference( ... ('an oid', 'class metadata')))) Traceback (most recent call last): ... ValueError: cannot sort reliably
Location-based connection adapter
The function zope.keyreference.connectionOfPersistent adapts objects to connections using a simple location-based heuristic. It checked to see if the object has a __parent__ that has a connection:
>>> from zope.keyreference.persistent import connectionOfPersistent >>> ob3 = PersistentDict() >>> print connectionOfPersistent(ob3) None>>> ob3.__parent__ = root2['ob1'] >>> connectionOfPersistent(ob3) is conn2 True
CHANGES
3.6.1 (2009-02-01)
Load keyreferences, pickled by old zope.app.keyreference even if its not installed anymore (so don’t break if one updates a project that don’t directly depends on zope.app.keyreference).
3.6.0 (2009-01-31)
Rename zope.app.keyreference to zope.keyreference.
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