This question with an added constraint.

I'm willing to allow not-uniform selection as long as it's not to lop sided.

Given that "sets are typically implemented as binary search trees" and I expect they will contain some kind of depth or size information for balancing, I would expect you could do some sort of weighted random walk of the tree. However I don't know of any remotely portable way to do that.

Edit: The constraint is NOT for the amortized time.

Iwould implement it as a feature of the balanced tree, which is tough to do with the library implementation. – dmckee Nov 28 '11 at 21:03`std::set`

is not defined to be a bstree. Its complexity requirements essentially mean that it can't be anything else, but the tree structure is not part of the standard, and hence not part of the interface, either. (If you had an actual balanced tree, you could pick a random element in O(log n) by picking the left or right child randomly until you're at the bottom.) Maybe a`random()`

interface should be proposed for the next standard; after all, there's already a`random_shuffle`

algorithm and this is no different. (By the way, you can do it in O(1) on an`std::unordered_set`

.) – Kerrek SB Nov 28 '11 at 21:04`random()`

interface in C++2x. – BCS Nov 28 '11 at 21:36