I have got numbers in a specific range (usually from 0 to about 1000). An algorithm selects some numbers from this range (about 3 to 10 numbers). This selection is done quite often, and I need to check if a permutation of the chosen numbers has already been selected.
e.g one step selects
[1, 10, 3, 18] and another one
[10, 18, 3, 1] then the second selection can be discarded because it is a permutation.
I need to do this check very fast. Right now I put all arrays in a hashmap, and use a custom hash function: just sums up all the elements, so 1+10+3+18=32, and also 10+18+3+1=32. For equals I use a bitset to quickly check if elements are in both sets (I do not need sorting when using the bitset, but it only works when the range of numbers is known and not too big).
This works ok, but can generate lots of collisions, so the equals() method is called quite often. I was wondering if there is a faster way to check for permutations?
Are there any good hash functions for permutations?
I have done a little benchmark: generate all combinations of numbers in the range 0 to 6, and array length 1 to 9. There are 3003 possible permutations, and a good hash should generated close to this many different hashes (I use 32 bit numbers for the hash):
- 41 different hashes for just adding (so there are lots of collisions)
- 8 different hashes for XOR'ing values together
- 286 different hashes for multiplying
- 3003 different hashes for (R + 2e) and multiplying as abc has suggested (using 1779033703 for R)
So abc's hash can be calculated very fast and is a lot better than all the rest. Thanks!
PS: I do not want to sort the values when I do not have to, because this would get too slow.