As others have said, you *will* lose information translating a 128-bit UUID to a narrower integer type.

If you want to guarantee uniqueness -- well, that's what UUIDs are for, after all, and you might just consider keeping the information in UUID format.

If you can settle for a low chance of collisions (two distinct UUIDs mapping to the same integer), there are several things you can try.

Use as big an integer type as you can. If your compiler supports an unsigned 64-bit integer type (`unsigned long long`

or whatever Microsoft calls it), use that.

`xor`

ing the upper and lower 64-bit halves of the UUID should give you a reasonably decent hash.

If there's some kind of order (non-randomness, predictability) in the UUID values that makes that unsuitable, you can compute an md5 or sha-1 hash and discard all but 64 bits. It doesn't matter which bits you discard.

If you're restricted to a 32-bit integer, you can `xor`

the four 32-bit quarters of the UUID together, or discard all but 32 bits of the md5 or sha-1 hash.

Note that in the case of 32-bit integers, you could conceivably have a collision on your first two samples, but that's unlikely. The likelihood of a collision rises to roughly 50% with a number of samples somewhere around the square root of the total number of possibilities, so if you have 100,000 random 32-bit numbers, it's likely that two of them will be the same. See the Birthday Paradox.

`unsigned int`

. – Jon Oct 19 '11 at 21:58Youhave to decide to what extent the data loss is acceptable. – ildjarn Oct 19 '11 at 22:12