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Kirill Smelkov
ZODB
Commits
d9e93469
Commit
d9e93469
authored
Oct 12, 2008
by
Christophe Combelles
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Merged the rst formatting to the trunk
parent
b6a89be3
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src/persistent/wref.py
src/persistent/wref.py
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src/persistent/wref.py
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d9e93469
...
...
@@ -28,74 +28,74 @@ class WeakRef(object):
object to be called when the object is removed from the database.
Here's an example. We'll start by creating a persistent object and
a refer
nce to it
:
a refer
ence to it:
:
>>> import persistent.list
>>> import ZODB.tests.util
>>> ob = persistent.list.PersistentList()
>>> ref = WeakRef(ob)
>>> ref() is ob
True
>>> import persistent.list
>>> import ZODB.tests.util
>>> ob = persistent.list.PersistentList()
>>> ref = WeakRef(ob)
>>> ref() is ob
True
The hash of the ref if the same as the hash of the referenced object:
The hash of the ref if the same as the hash of the referenced object:
:
>>> hash(ref) == hash(ob)
True
>>> hash(ref) == hash(ob)
True
Two refs to the same object are equal:
Two refs to the same object are equal:
:
>>> WeakRef(ob) == ref
True
>>> WeakRef(ob) == ref
True
>>> ob2 = persistent.list.PersistentList([1])
>>> WeakRef(ob2) == ref
False
>>> ob2 = persistent.list.PersistentList([1])
>>> WeakRef(ob2) == ref
False
Lets save the reference and the referenced object in a database:
Lets save the reference and the referenced object in a database:
:
>>> db = ZODB.tests.util.DB()
>>> db = ZODB.tests.util.DB()
>>> conn1 = db.open()
>>> conn1.root()['ob'] = ob
>>> conn1.root()['ref'] = ref
>>> ZODB.tests.util.commit()
>>> conn1 = db.open()
>>> conn1.root()['ob'] = ob
>>> conn1.root()['ref'] = ref
>>> ZODB.tests.util.commit()
If we open a new connection, we can use the reference:
If we open a new connection, we can use the reference:
:
>>> conn2 = db.open()
>>> conn2.root()['ref']() is conn2.root()['ob']
True
>>> hash(conn2.root()['ref']) == hash(conn2.root()['ob'])
True
>>> conn2 = db.open()
>>> conn2.root()['ref']() is conn2.root()['ob']
True
>>> hash(conn2.root()['ref']) == hash(conn2.root()['ob'])
True
But if we delete the referenced object and pack:
But if we delete the referenced object and pack:
:
>>> del conn2.root()['ob']
>>> ZODB.tests.util.commit()
>>> ZODB.tests.util.pack(db)
>>> del conn2.root()['ob']
>>> ZODB.tests.util.commit()
>>> ZODB.tests.util.pack(db)
And then look in a new connection:
And then look in a new connection:
:
>>> conn3 = db.open()
>>> conn3.root()['ob']
Traceback (most recent call last):
...
KeyError: 'ob'
>>> conn3 = db.open()
>>> conn3.root()['ob']
Traceback (most recent call last):
...
KeyError: 'ob'
Trying to dereference the reference returns None:
Trying to dereference the reference returns None:
:
>>> conn3.root()['ref']()
>>> conn3.root()['ref']()
Trying to get a hash, raises a type error:
Trying to get a hash, raises a type error:
:
>>> hash(conn3.root()['ref'])
Traceback (most recent call last):
...
TypeError: Weakly-referenced object has gone away
>>> hash(conn3.root()['ref'])
Traceback (most recent call last):
...
TypeError: Weakly-referenced object has gone away
Always explicitly close databases
: :)
Always explicitly close databases
:) ::
>>> db.close()
>>> db.close()
"""
...
...
@@ -142,96 +142,96 @@ class PersistentWeakKeyDictionary(Persistent):
of items is extremely lazy. See below.
We'll start by creating a PersistentWeakKeyDictionary and adding
some persistent objects to it
.
some persistent objects to it
::
>>> d = PersistentWeakKeyDictionary()
>>> import ZODB.tests.util
>>> p1 = ZODB.tests.util.P('p1')
>>> p2 = ZODB.tests.util.P('p2')
>>> p3 = ZODB.tests.util.P('p3')
>>> d[p1] = 1
>>> d[p2] = 2
>>> d[p3] = 3
>>> d = PersistentWeakKeyDictionary()
>>> import ZODB.tests.util
>>> p1 = ZODB.tests.util.P('p1')
>>> p2 = ZODB.tests.util.P('p2')
>>> p3 = ZODB.tests.util.P('p3')
>>> d[p1] = 1
>>> d[p2] = 2
>>> d[p3] = 3
We'll create an extra persistent object that's not in the dict:
We'll create an extra persistent object that's not in the dict:
:
>>> p4 = ZODB.tests.util.P('p4')
>>> p4 = ZODB.tests.util.P('p4')
Now we'll excercise iteration and item access:
Now we'll excercise iteration and item access:
:
>>> l = [(str(k), d[k], d.get(k)) for k in d]
>>> l.sort()
>>> l
[('P(p1)', 1, 1), ('P(p2)', 2, 2), ('P(p3)', 3, 3)]
>>> l = [(str(k), d[k], d.get(k)) for k in d]
>>> l.sort()
>>> l
[('P(p1)', 1, 1), ('P(p2)', 2, 2), ('P(p3)', 3, 3)]
And the containment operator:
And the containment operator:
:
>>> [p in d for p in [p1, p2, p3, p4]]
[True, True, True, False]
>>> [p in d for p in [p1, p2, p3, p4]]
[True, True, True, False]
We can add the dict and the referenced objects to a database:
We can add the dict and the referenced objects to a database:
:
>>> db = ZODB.tests.util.DB()
>>> db = ZODB.tests.util.DB()
>>> conn1 = db.open()
>>> conn1.root()['p1'] = p1
>>> conn1.root()['d'] = d
>>> conn1.root()['p2'] = p2
>>> conn1.root()['p3'] = p3
>>> ZODB.tests.util.commit()
>>> conn1 = db.open()
>>> conn1.root()['p1'] = p1
>>> conn1.root()['d'] = d
>>> conn1.root()['p2'] = p2
>>> conn1.root()['p3'] = p3
>>> ZODB.tests.util.commit()
And things still work, as before:
And things still work, as before:
:
>>> l = [(str(k), d[k], d.get(k)) for k in d]
>>> l.sort()
>>> l
[('P(p1)', 1, 1), ('P(p2)', 2, 2), ('P(p3)', 3, 3)]
>>> [p in d for p in [p1, p2, p3, p4]]
[True, True, True, False]
>>> l = [(str(k), d[k], d.get(k)) for k in d]
>>> l.sort()
>>> l
[('P(p1)', 1, 1), ('P(p2)', 2, 2), ('P(p3)', 3, 3)]
>>> [p in d for p in [p1, p2, p3, p4]]
[True, True, True, False]
Likewise, we can read the objects from another connection and
things still work
.
>>> conn2 = db.open()
>>> d = conn2.root()['d']
>>> p1 = conn2.root()['p1']
>>> p2 = conn2.root()['p2']
>>> p3 = conn2.root()['p3']
>>> l = [(str(k), d[k], d.get(k)) for k in d]
>>> l.sort()
>>> l
[('P(p1)', 1, 1), ('P(p2)', 2, 2), ('P(p3)', 3, 3)]
>>> [p in d for p in [p1, p2, p3, p4]]
[True, True, True, False]
things still work
::
>>> conn2 = db.open()
>>> d = conn2.root()['d']
>>> p1 = conn2.root()['p1']
>>> p2 = conn2.root()['p2']
>>> p3 = conn2.root()['p3']
>>> l = [(str(k), d[k], d.get(k)) for k in d]
>>> l.sort()
>>> l
[('P(p1)', 1, 1), ('P(p2)', 2, 2), ('P(p3)', 3, 3)]
>>> [p in d for p in [p1, p2, p3, p4]]
[True, True, True, False]
Now, we'll delete one of the objects from the database, but *not*
from the dictionary:
from the dictionary:
:
>>> del conn2.root()['p2']
>>> ZODB.tests.util.commit()
>>> del conn2.root()['p2']
>>> ZODB.tests.util.commit()
And pack the database, so that the no-longer referenced p2 is
actually removed from the database
.
actually removed from the database
::
>>> ZODB.tests.util.pack(db)
>>> ZODB.tests.util.pack(db)
Now if we access the dictionary in a new connection, it no longer
has p2:
has p2:
:
>>> conn3 = db.open()
>>> d = conn3.root()['d']
>>> l = [(str(k), d[k], d.get(k)) for k in d]
>>> l.sort()
>>> l
[('P(p1)', 1, 1), ('P(p3)', 3, 3)]
>>> conn3 = db.open()
>>> d = conn3.root()['d']
>>> l = [(str(k), d[k], d.get(k)) for k in d]
>>> l.sort()
>>> l
[('P(p1)', 1, 1), ('P(p3)', 3, 3)]
It's worth nothing that that the versions of the dictionary in
conn1 and conn2 still have p2, because p2 is still in the caches
for those connections.
Always explicitly close databases
: :)
Always explicitly close databases
:) ::
>>> db.close()
>>> db.close()
"""
# TODO: It's expensive trying to load dead objects from the database.
...
...
@@ -269,17 +269,17 @@ class PersistentWeakKeyDictionary(Persistent):
del
self
.
data
[
WeakRef
(
key
)]
def
get
(
self
,
key
,
default
=
None
):
"""D.get(k[, d]) -> D[k] if k in D, else d.
>>> import ZODB.tests.util
>>> key = ZODB.tests.util.P("key")
>>> missing = ZODB.tests.util.P("missing")
>>> d = PersistentWeakKeyDictionary([(key, 1)])
>>> d.get(key)
1
>>> d.get(missing)
>>> d.get(missing, 12)
12
"""D.get(k[, d]) -> D[k] if k in D, else d.
::
>>> import ZODB.tests.util
>>> key = ZODB.tests.util.P("key")
>>> missing = ZODB.tests.util.P("missing")
>>> d = PersistentWeakKeyDictionary([(key, 1)])
>>> d.get(key)
1
>>> d.get(missing)
>>> d.get(missing, 12)
12
"""
return
self
.
data
.
get
(
WeakRef
(
key
),
default
)
...
...
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