I have a large collection (~thousands) of sequences of integers. Each sequence has the following properties:
- it is of length 12;
- the order of the sequence elements does not matter;
- no element appears twice in the same sequence;
- all elements are smaller than about 300.
Note that the properties 2. and 3. imply that the sequences are actually sets, but they are stored as C arrays in order to maximise access speed.
I'm looking for a good C++ algorithm to check if a new sequence is already present in the collection. If not, the new sequence is added to the collection. I thought about using a hash table (note however that I cannot use any C++11 constructs or external libraries, e.g. Boost). Hashing the sequences and storing the values in a
std::set is also an option, since collisions can be just neglected if they are sufficiently rare. Any other suggestion is also welcome.
I need a commutative hash function, i.e. a function that does not depend on the order of the elements in the sequence. I thought about first reducing the sequences to some canonical form (e.g. sorting) and then using standard hash functions (see refs. below), but I would prefer to avoid the overhead associated with copying (I can't modify the original sequences) and sorting. As far as I can tell, none of the functions referenced below are commutative. Ideally, the hash function should also take advantage of the fact that elements never repeat. Speed is crucial.