# How to make an object properly hashable?

Here is my code:

``````class Hero:
def __init__(self, name, age):
self.name = name
self.age = age

def __str__(self):
return self.name + str(self.age)

def __hash__(self):
print(hash(str(self)))
return hash(str(self))

heroes = set()

heroes.add(Hero('Zina Portnova', 16)) # gets hash -8926039986155829407
print(len(heroes)) # gets 1

heroes.add(Hero('Lara Miheenko', 17)) # gets hash -2822451113328084695
print(len(heroes)) # gets 2

heroes.add(Hero('Zina Portnova', 16)) # gets hash -8926039986155829407
print(len(heroes)) # gets 3! WHY?
``````

Why is this happening? First and third object have same content and same hash but len function tells about 3 unique object?

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Not sure, but your probably need `__eq__` or `__cmp__`: docs.python.org/glossary.html#term-hashable –  nhahtdh Jun 12 '12 at 9:58
That aside, this isn’t the best hash function (because you’re not hashing a general string, one of the string components has much lower entropy because it’s known to consist of digits). For a trivial but pretty effective fix, take the hash values of the objects separately and xor them. For more magic, add them scaled by a prime number constant. –  Konrad Rudolph Jun 12 '12 at 10:49
Thanks for practical advice. –  Denis Kreshikhin Jun 12 '12 at 13:55
@Sven I somewhat disagree. First, this is a CPython implementation detail, not guaranteed by Python. Second, this still assumes high entropy in the lower bits (and to some extent later in the higher bits, for collision). You still need good randomness, only not over the whole number range. Third, the comment, while detailed, is somewhat murky on the theory side. I’m not very confident in this far-from-rigorous analysis. I want a rigorous, peer-reviewed study on that, not some hand-waving. –  Konrad Rudolph Jun 13 '12 at 6:56
@KonradRudolph: The hash function should actually be implemented as `hash((self.name, self.age))`, deferring the details to the tuple hash algorithm of the Python implementation, which is hopefully optimised to work well with the `set` and `dict` implementations. And I agree that the linked comment is not a rigorous analysis. I find it interesting anyway; extensive and thorough benchmarking, as has been performed for the CPython `dict` implementation, might lead to better performance in practice than a rigorous analysis. –  Sven Marnach Jun 13 '12 at 11:18
You also need to define `__eq__()` in a compatible way with `__hash__()` – otherwise, equality will be based on object identity.
Indeed, after checking if the hashes are equal, the `dict`/`set` must also check for actual equality in case of hash collision. –  Oleh Prypin Jun 13 '12 at 13:43