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I want to test a presence of a key in a dictionary as 'if key is not in dictionary: do something' I have already done this already multiple times, but this time it behaves strangely.

particularly:

termCircuit = termCircuitMap[term]

returns KeyError

when I debugged this code in Eclipse PyDev, i got the following (using expressions):

term in termCircutiMap        # prints False
term in termCircuitMap.keys() # prints True

Do anyone understand how this is possible? I thought that if something is 'in' the key set then it is 'in' the dictionary.

I'm attaching a screenshot of the evaluation.

http://img836.imageshack.us/img836/1274/screenshotpython.png

Thanks a lot for explaining :)

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1  
this is strange... is there any code in between these two conditional statements? –  Cameron Sparr Apr 24 '13 at 19:02
1  
If you're actually running those two lines in immediate succession there's no explanation for the error. key in aDict is actually faster than and superior to key in aDict.keys(), but they should both return the same value. Is it possible that something has modified the dictionary between those checks? –  g.d.d.c Apr 24 '13 at 19:02
9  
Can you show an example of actual code that demonstrates the problem? What is the type of the keys in your dict? This behavior could be possible if the keys are objects with incompatible hash/equality definitions. –  BrenBarn Apr 24 '13 at 19:03
3  
It may be because you misspelled termCircuitMap in the first test (term in termCircutiMap), at least if the script has been directly copied from your program. –  ASGM Apr 24 '13 at 19:05
3  
The only way to solve this riddle is to see some actual code. Please post a minimal working example that showcase the issue! –  Fredrik Pihl Apr 24 '13 at 19:17

1 Answer 1

up vote 11 down vote accepted

You might see this behavior if your key's __hash__ function is not properly defined. E.g., the following gives roughly the same behavior as you describe:

import random

class Evil(int):
    def __hash__(self):
        return random.randint(0, 10000)

evil_vals = [Evil(n) for n in range(10)]

dict_with_evil_keys = dict((evil_val, None)
                           for evil_val in evil_vals)

print evil_vals[0] in dict_with_evil_keys # prints False
print evil_vals[0] in dict_with_evil_keys.keys() # prints True

In this case, I'm generating random hash values, which is obviously a bad idea. A less obvious problem that would have the same effect might be if your key values are mutable. (Generally, mutable values should never define __hash__, and should not be useable as keys in dictionaries.)

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2  
Gah! Took me too long to write the same thing. Only thing I can add is a link to the rules for the __hash__ method: docs.python.org/2/reference/datamodel.html#object.__hash__ –  Mark Ransom Apr 24 '13 at 19:26
    
Thank you, apparently the problem was that I thought that the objects are immutable but they were not. So here is the explanation how this situation can happen, if someone is curious: o = SomeClass() #wrongly supposed to be immutable –  jlanik Apr 25 '13 at 12:27
    
Ok, sorry guys, I'm to dumb to put code in comments, apparently. So here is the example: o = SomeClass() map[o] = None #now hash(o) == x mutate(o) #now hash(o) == y o in map #prints False, because the hash of o was x when it was added o in map.keys() #prints True, because map.keys() is a list and the presence in a list is not checked by computing hash (i guess...) –  jlanik Apr 25 '13 at 12:33
    
Sorry that the code is not fomated I have yet to learn how to do that :-) –  jlanik Apr 25 '13 at 12:38

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