It seems a common and quick way to create a stock
__hash__() for any given Python object is to
return hash(str(self)), if that object implements
__str__(). Is this efficient, though? Per this SO answer, a hash of a tuple of the object's attributes is "good", but doesn't seem to indicate if it's the most efficient for Python. Or would it be better to implement a
__hash__() for each object and use a real hashing algorithm from this page and mixup the values of the individual attributes into the final value returned by
Pretend I've implemented the Jenkins hash routines from this SO question. Which
__hash__() would be better to use?:
# hash str(self) def __hash__(self): return hash(str(self)) # hash of tuple of attributes def __hash__(self): return hash((self.attr1, self.attr2, self.attr3, self.attr4, self.attr5, self.attr6)) # jenkins hash def __hash__(self): from jenkins import mix, final a = self.attr1 b = self.attr2 c = self.attr3 a, b, c = mix(a, b, c) a += self.attr4 b += self.attr5 c += self.attr6 a, b, c = final(a, b, c) return c
Assume the attrs in the sample object are all integers for simplicity. Also assume that all objects derive from a base class and that each objects implements its own
__str__(). The tradeoff in using the first hash is that I could implement that in the base class as well and not add additional code to each of the derived objects. But if the second or third
__hash__() implementations are better in some way, does that offset the cost of the added code to each derived object (because each may have different attributes)?
import in the third
__hash__() implementation is there only because I didn't want to draft out an entire example module + objects. Assume that
import really happens at the top of the module, not on each invocation of the function.
Conclusion: Per the answer and comments on this closed SO question, it looks like I really want the tuple hash implementation, not for speed or efficiency, but because of the underlying duality of
__eq__. Since a hash value is going to have a limited range of some form (be it 32 or 64 bits, for example), in the event you do have a hash collision, object equality is then checked. So since I do implement
__eq__() for each object by using tuple comparison of self/other's attributes, I also want to implement
__hash__() using an attribute tuple so that I respect the hash/equality nature of things.