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I've looked through a lot of questions here on "PHP integer overflow" but I can't find anything that answers my specific question, so I hope I haven't missed an existing answer.

I want to use the djb2 hash function in PHP to hash keys into something like a shard identifier (domain index for SimpleDB). It overflows unsigned long ints, so I can't do it identically in straight PHP, because PHP's native ints are 32-bit signed.

So I tried PHP's bc and libgmp math extensions, which allow arbitrary length, and they get round the signedness/scale problem, but they make ints "too big" - i.e. they don't overflow.

Using GMP in particular works and seems to give consistent results, but is obviously an order of magnitude slower than in C (0m0.017s vs 0m0.002s). I don't know whether this is simply because it's PHP vs C, or whether it would be significantly faster in PHP if I could get it to overflow. I'd rather test and find out, but I can't see a way to make that happen.

So, is there any way to force a ULONG maximum in PHP? Would I maybe have to wrap the C function in a PHP extension? Or, given that I'm planning only to hash short-ish keys (probably 64 chars or less), would that provide seriously diminishing returns?

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is this intentional overflow solely to eliminate the need for some modulus ops? if so couldnt a combo of bit shifts and subtraction/negation help? im thinking something similar in concept to a roll-your-own 2's complement –  jon_darkstar Jan 6 '11 at 20:13
    
i had been under the impression that overflow during hash was allowed/expected but doesnt make anything faster. in this case, the operations performed, namely bit shift and addition, are not (or not significantly) sensitive to size. as such, i dont think the lack of overflow is a big factor in performance. The PHP w/ GMP solution is ten times slower than what? –  jon_darkstar Jan 6 '11 at 20:44
    
Hello Jon, thanks. The modulo happens after the overflow happens in multiplication. The PHP/GMP is ten times slower than the identical routine in C - I'm unsure whether this is because of using really big numbers in GMP as opposed to just allowing overflow, or because of the rest of the stuff that goes on in executing PHP. –  Igor Clark Jan 7 '11 at 1:30

1 Answer 1

Why do you think those hash functions require more than 32 bits? long types are not guaranteed to be that size, they are just >= 32 bits. On my 32-bit platforms long is always 32 bits.

Those notes you linked to, I assume, were written at times when 64 bits were not so popular as nowadays, and also before the long long type (which is >= 64 bits even on 32-bit platforms) was introduced, so the author just used the biggest type that was available then.

That "djb2" hash is just another variation of the hash function almost analogous to the linear congruential generator and it has been known for a long time. Explicit modulo operation was replaced there with an overflow, which is effectively "modulo 2^(sizeof long)". That might be (although, not sure about that) good for performance if compiled as C, but it is likely not so good for the hash quality. And it doesn't make sense in PHP because the number will be promoted to a double and grow into infinity.

I would suggest using that hashing algorithm with the usual PHP integers, but improve the hashing by adding explicit modulo with divisor which is a prime number less than PHP_INT_MAX (have you checked that limit on 64-bit builds of PHP, by the way?). Maybe, the multiplier (33) will have to be changed to get better hash distribution with the strings that have to be hashed.

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