Do try hash tables first. There are some variants that can tolerate being very dense without significant slowdown (like Brent's variation).
If you only need to store the 32-bit integers and not any associated record, use a set
and not a map
, like hash_set
in most C++ libraries. It would use only 4-bytes records plus some constant overhead and a little slack to avoid being 100%. In the worst case, to handle 'millions' of numbers you'd need a few tens of megabytes. Big, but nothing unmanageable.
If you need it to be much tighter, just store them sorted in a plain array and use binary search to fetch them. It will be O(log n) instead of O(1), but for 'millions' of records it's still just twentysomething steps to get any one of them. In C you have bsearch()
, which is as fast as it can get.
edit: just saw in your question you talk about some 'mapped data (a name)'. are those names unique? do they also have to be in memory? if yes, they would definitely dominate the memory requirements. Even so, if the names are the typical english words, most would be 10 bytes or less, keeping the total size in the 'tens of megabytes'; maybe up to a hundred megs, still very manageable.