Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

The its-late-and-im-probably-stupid department presents:

>>> import multiprocessing
>>> mgr = multiprocessing.Manager()
>>> d = mgr.dict()
>>> d.setdefault('foo', []).append({'bar': 'baz'})
>>> print d.items()
[('foo', [])]         <-- Where did the dict go?


>>> e = mgr.dict()
>>> e['foo'] = [{'bar': 'baz'}]
>>> print e.items()
[('foo', [{'bar': 'baz'}])]


>>> sys.version
'2.7.2+ (default, Jan 20 2012, 23:05:38) \n[GCC 4.6.2]'

Bug or wug?

EDIT: More of the same, on python 3.2:

>>> sys.version
'3.2.2rc1 (default, Aug 14 2011, 21:09:07) \n[GCC 4.6.1]'

>>> e['foo'] = [{'bar': 'baz'}]
>>> print(e.items())
[('foo', [{'bar': 'baz'}])]

>>> id(type(e['foo']))
>>> id(type([]))

>>> e['foo'].append({'asdf': 'fdsa'})
>>> print(e.items())
[('foo', [{'bar': 'baz'}])]

How can the list in the dict proxy not contain the additional element?

share|improve this question

3 Answers 3

up vote 7 down vote accepted

This is some pretty interesting behavior, I am not exactly sure how it works but I'll take a crack at why the behavior is the way it is.

First, note that multiprocessing.Manager().dict() is not a dict, it is a DictProxy object:

>>> d = multiprocessing.Manager().dict()
>>> d
<DictProxy object, typeid 'dict' at 0x7fa2bbe8ea50>

The purpose of the DictProxy class is to give you a dict that is safe to share across processes, which means that it must implement some locking on top of the normal dict functions.

Apparently part of the implementation here is to not allow you to directly access mutable objects nested inside of a DictProxy, because if that was allowed you would be able to modify your shared object in a way that bypasses all of the locking that makes DictProxy safe to use.

Here is some evidence that you can't access mutable objects, which is similar to what is going on with setdefault():

>>> d['foo'] = []
>>> foo = d['foo']
>>> id(d['foo'])
>>> id(foo)

With a normal dictionary you would expect d['foo'] and foo to point to the same list object, and modifications to one would modify the other. As you have seen, this is not the case for the DictProxy class because of the additional process safety requirement imposed by the multiprocessing module.

edit: The following note from the multiprocessing documentation clarifies what I was trying to say above:

Note: Modifications to mutable values or items in dict and list proxies will not be propagated through the manager, because the proxy has no way of knowing when its values or items are modified. To modify such an item, you can re-assign the modified object to the container proxy:

# create a list proxy and append a mutable object (a dictionary)
lproxy = manager.list()
# now mutate the dictionary
d = lproxy[0]
d['a'] = 1
d['b'] = 2
# at this point, the changes to d are not yet synced, but by
# reassigning the dictionary, the proxy is notified of the change
lproxy[0] = d

Based on the above information, here is how you could rewrite your original code to work with a DictProxy:

# d.setdefault('foo', []).append({'bar': 'baz'})
d['foo'] = d.get('foo', []) + [{'bar': 'baz'}]

As Edward Loper suggested in comments, edited above code to use get() instead of setdefault().

share|improve this answer
+1. But I think it would be more clear to rewrite the original code to use get rather than setdefault, since the normal special behavior of setdefault doesn't apply here. I.e.: d['foo'] = d.get('foo',[])+[{'bar':'baz'}] –  Edward Loper May 30 '12 at 0:21
Thank you for this extensive answer. I assumed that since the dict proxy wrapped the list it was given, I assumed that it would be ok to operate on it. Apparently not so. @Edward: that is sound advise. –  Bittrance May 30 '12 at 7:15

The Manager().dict() is a DictProxy object:

>>> mgr.dict()
<DictProxy object, typeid 'dict' at 0x1007bab50>
>>> type(mgr.dict())
<class 'multiprocessing.managers.DictProxy'>

DictProxy is a subclass of the BaseProxy type, which does not behave entirely like a normal dict:

So, it seems you have to address the mgr.dict() differently than you would a base dict.

share|improve this answer

items() returns a copy. Appending to a copy does not affect the original. Did you mean this?

>>> d['foo'] =({'bar': 'baz'})
>>> print d.items()
[('foo', {'bar': 'baz'})]
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.