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I have a weird situation. I have a dict, self.containing_dict. Using the debug probe, I see that dict's contents and I can see that self is a key of it. But look at this:

>>> self in self.containing_dict
>>> self in self.containing_dict.keys()
>>> self.containing_dict.has_key(self)

What's going on?

(I will note that this is in a piece of code which gets executed on a weakref callback.)

Update: I was asked to show the __hash__ implementation of self. Here it is:

def __hash__(self):
    return hash(

args = property(lambda self: dict(self.args_refs))

star_args = property(
    lambda self:
        tuple((star_arg_ref() for star_arg_ref in self.star_args_refs))

star_kwargs = property(lambda self: dict(self.star_kwargs_refs))    
share|improve this question
does self happen to implement its own 'hash' ? –  Ivo van der Wijk Sep 13 '10 at 14:20
Are you sure this is really a dict, and not something with just the same interface? What is self? Does it have an __eq__ redefined? –  Radomir Dopieralski Sep 13 '10 at 14:22
Is self.containing_dict just a Python dict or something like a weakref.WeakKeyDictionary? If the former, are keys or values of the dict themselves weakrefs? –  llasram Sep 13 '10 at 14:26
Not an answer but has_key is deprecated - docs.python.org/library/stdtypes.html#dict.has_key - so maybe you should just not worry about it. :-) –  Dave Webb Sep 13 '10 at 14:26
@llasram and @Radomir: It's a normal Python dict. –  Ram Rachum Sep 13 '10 at 14:40

3 Answers 3

up vote 4 down vote accepted

The problem you describe can only be caused by self having implemented __eq__ (or __cmp__) without implementing an accompanying __hash__. If you didn't implement a __hash__ method, you should do so -- normally you can't use objects that define __eq__ but not __hash__ as dict keys, but if you inherit a __hash__ that may slip by.

If you do implement __hash__, you have to make sure it acts the right way: the result must not change over the lifetime of the object (or at least as long as the object is in use as a dict key or set item), and it must be consistent with __eq__. An object's hash value must be the same as objects it's equal to (according to its __eq__ or __cmp__.) An object's hash value may be different from objects it's not equal to, but it doesn't have to be. The requirements also mean you can not have the result of __eq__ change over the lifetime of the object, which is why mutable objects usually can't be used as dict keys.

If your __hash__ and __eq__ are not matched up, Python won't be able to find the object in dicts and sets, but it will still show up in dict.keys() and list(set), which is what you're describing here. The usual way to implement __hash__ methods is by returning the hash() of whatever attributes you use in your __eq__ or __cmp__ method.

share|improve this answer
I call wart! The built in object defines a __hash__, so if you do the right thing and create a custom new style class (X), then override __eq__, Python will happily let you use your object as a dict key, while shortcutting to the base object.__hash__ for the OPs case: X() in {X(): None} Ugh. –  EoghanM Apr 28 '13 at 9:21
It's not so much a wart as a bug, in Python 2.x. A bug introduced when new-style classes were introduced and that went unnoticed for a long time. It's fixed in Python 3. –  Thomas Wouters May 15 '13 at 9:01

Judging from your __hash__ method, the class stores references to its arguments, and uses that as a hash. The problem is, those arguments are shared with the code that constructed the object. If they change the argument, the hash will change and you won't be able to find the object in any dictionaries it had been in.

The arguments need not be anything complicated, just a simple list will do.

In [13]: class Spam(object) :
   ....:     def __init__(self, arg) :
   ....:         self.arg = arg
   ....:     def __hash__(self) :
   ....:         return hash(tuple(self.arg,))

In [18]: l = range(5)

In [19]: spam = Spam(l)

In [20]: hash(spam)
Out[20]: -3958796579502723947

If I change the list that I passed as an argument, the hash will change.

In [21]: l += [10]

In [22]: hash(spam)
Out[22]: -6439366262097674983

Since dictionary keys are organized by hash, when I do x in d, the first thing Python does is compute the hash of x, and look in the dictionary for something with that hash value. The problem is, when the hash of an object changes after being put in the dictionary, Python will look at the new hash value, and not see the desired key there. Using the list of keys, forces Python to check each key by equality, bypassing the hash check.

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Most likely you have custom hash and comparison defined for whatever class self is an instance and you mutated self after you added it to the dictionary.

If you use a mutable object as a dictionary key then after you mutate it you may not be able to access it in the dictionary but it will still appear in the keys() result.

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