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I have a user-defined class MyClass that has a __hash__ and __eq__ implementation that ensures that, for example:

>>> a = MyClass([100, 99, 98, 97])
>>> b = MyClass([99, 98, 97, 100])
>>> a.__hash__() == b.__hash__()
>>> a == b

Question: if I do the following:

>>> x = [a, b]
>>> set(x)

can I count on set keeping a? Is the set __init__ iterating through x in order? Or do I need to worry about it taking b randomly?



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3 Answers 3

up vote 3 down vote accepted

In these cases of hash-based things, it uses both __hash__ and __eq__.

If __hash__ and __eq__ are both the same, then the first one it gets to in the iterable is taken. When it gets to the next, it checks if it already has it and decides yes.

>>> class Same(object):
...     def __init__(self, value):
...         self.value = value
...     def __hash__(self):
...         return 42
...     def __eq__(self, other):
...         return True
...     def __repr__(self):
...         return 'Same(%r)' % self.value
>>> set([Same(2), Same(1)])
>>> set([Same(1), Same(2)])

With a dict, it becomes more interesting:

>>> {Same(1): 1, Same(2): 2}
{Same(1): 2}
>>> {Same(1): 2, Same(2): 1}
{Same(1): 1}
>>> {Same(2): 1, Same(2): 2}
{Same(2): 2}
>>> {Same(2): 2, Same(2): 1}
{Same(2): 1}
>>> {Same(2): 2, Same(2): 1}
{Same(2): 1}

You should be able to guess what's happening here. It stores the first item, then the hash/equality of the second is the same; however, it's got a different value, so it stores that. The value is overwritten always, whether they match or not:

>>> {Same(1): Same(2), Same(3): Same(4)}
{Same(1): Same(4)}

I hope that helps.

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Clear, I think. Should the Some() be Same()? Not sure why the dictionary would return a different key class than the object I passed in. –  MikeRand Nov 25 '10 at 12:09
bonus points for the 42 hash, because when you get right down to it, 42 is the hash for everything. –  MikeRand Nov 25 '10 at 12:13
Sorry, when I'd typed it in the interactive console I'd mistyped the repr as Some and forgot to correct it all when doing the dict stuff. Fixed it now. –  Chris Morgan Nov 25 '10 at 12:46
Thanks again. Appreciate it. –  MikeRand Nov 25 '10 at 17:39

set (and dict) check not only the equality of the hashes, but also the equality of the objects themselves into account.

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It was more a question about the order of the set identification. Was trying to show the example so that people understood what I was trying to do. –  MikeRand Nov 25 '10 at 4:40
Fair enough. But it still depends on more than just the hash. –  Ignacio Vazquez-Abrams Nov 25 '10 at 4:42
Perhaps a silly question, but I didn't see anything on that in the Standard Library docs about the hash + eq needing to be overwritten. How do you all learn stuff like that? Do you have to look at the Python source itself? –  MikeRand Nov 25 '10 at 4:50
@Mike: experiment! That's what the interactive console is there for. –  Chris Morgan Nov 25 '10 at 4:51
@MikeRand: You need to read between the lines of the langref. docs.python.org/reference/datamodel.html#object.__hash__ –  Ignacio Vazquez-Abrams Nov 25 '10 at 4:54

I believe that set() requires both hash and eq to be overridden. In this case, you could have hash(a) == hash(b) but still have a != b, assuming you defined eq in such a fashion

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