This was inspired by a question at a job interview: how do you efficiently generate N unique random numbers? Their security and distribution/bias don't matter.
I proposed a naive way of calling rand() N times and eliminating dupes by trial and error, thus getting inefficient and flawed solution. Then I've read this SO question, these algorithms are great for getting quality unique numbers and they are O(N).
But I suspect there are ways to get low-quality unique random numbers for dummy tasks in less than O(N) time complexity. I got some possible ideas:
- Store many precomputed lists each containing N numbers and retrieve one list randomly. Complexity is O(1) for fixed N. Storage space used is O(NR) where R is number of lists.
- Generate N/2 unique random numbers and then divide them by 2 inequal parts (floor/ceil for odd numbers, n+1/n-1 for even). I know this is flawed (duplicates can pop up) and O(N/2) is still O(N). This is more of a food for thought.
- Generate one big random number and then squeeze more variants from it by some fixed manipulations like bitwise operations, factorization, recursion, MapReduce or something else.
- Use a quasi-random sequence somehow (not a math guy, just googled this term).