In case you want a more formal statement of what's supported, here's what the standard has to say. About the best searching we can do is with a binary search, such as
Complexity: At most log2(
last − first) + O(1) comparisons.
That only tells us the number of comparisons though. To move through the container,
std::advance. About an std::list we find (§126.96.36.199/1):
A list is a sequence container that supports bidirectional iterators [...]
So, how does
std::advance work for a collection that provides bidirectional iterators?
[...] for input, forward and bidirectional iterators they use ++ to provide linear time implementations.
So, to find anything in a list (by either value or position) we're going to be looking at linear complexity overall, with a logarithmic number of comparisons. To be honest, we're probably better off with
Complexity: At most
last - first applications of the corresponding predicate.
The choice between the two may not always be entirely obvious though -- traversing the list is obviously linear.
std::find minimizes traversal, while
std::lower_bound minimizes comparisons. If comparison is a lot more expensive than traversal,
std::lower_bound will probably do better. If comparison is fairly cheap,
std::find is probably better.