I'm attempting to determine a suitable way to accomplish the following.
I would like to have range -> set lookup within a particular range (say [0x0 - 0xffffffff]). Values are inserted into the range at ranges (so if we are working with T = unique strings), I might insert("beef3490", [0x1234, 0xFFFF]); and a single id may have multiple inserts, which may or may not overlap. Additionally, other values may be inserted which overlap, and where they overlap I should receive the set of unique strings as a result. Lastly, values can also be removed from ranges (not necessarily matching, but typically contained within their initial insert range).
Here is a simplified example usage:
insert("beef3490", [0x1234, 0xFFFF]) insert("beef3490", [0x11111, 0x22222]) insert("flam1456", [0x8000, 0xA0000]) remove("beef3490", [0x21000, 0x22000]) lookup(0x0) -> set<> lookup(0x2000) -> set<beef3490> lookup(0x9456) -> set<beef3490, flam1456> lookup(0x21212) -> set<flam1456> lookup(0x99789) -> set<flam1456>
This leads to a number of questions for me:
Is there a generalized name for this sort of problem, or a similar type of problem that I could find insight from?
What is an ideal implementation given the following constraints:
- Fast/very-fast lookup time
- Memory usage does not bloat (ie. the following operations have equivalent footprint)
- Insert [10,20], Insert[20,30], Remove[14,24]
- Insert [10,15], Insert[25,30]
- Similar to last, the data structure should have stability on a long running system
- Insert/delete times are not absolutely terrible (they don't need to be as fast as lookup though)
Given an ideal implementation, do you have advice for using it in C++
Thanks for all responses and help.