Typically, a hash function maps from one set of objects (the universe) to a smaller set of objects (the codomain). Commonly, the universe is an infinite set, such as the set of all strings or the set of all numbers, and the codomain is a finite set, such as the set of all 512-bit strings, or the set of all numbers between 0 and some number k, etc. In Java, the `hashCode`

function on objects has a codomain of values that can be represented by an `int`

, which is all 32-bit integers.

I believe that what the author is talking about when they say "there is no perfect hash function" is that there is no possible way to map the infinite set of all strings into the set of all 32-bit integers without having at least one collision. In fact, if you pick 2^{32} + 1 different strings, you're guaranteed to have at least one collision.

Your argument - couldn't we just assign each object a different hash code? - makes the implicit assumption that the codomain of the hash function is infinite. For example, if you were to try this approach to build a hash function for strings, the codomain of the hash function would have to be the set of all possible natural numbers, since there are infinitely many strings. Most programming languages don't support hash codes that work this way, though you're correct that in theory this would work. Of course, someone might object and say that this doesn't count as a valid hash function, since typically hash functions have finite codomains.

Hope this helps!

wouldbe a valid hash function if the input domain was finite. – templatetypedef Apr 12 '13 at 19:34