@BenjaminLindley is right in pointing out that
T& operator(std::size_t) does not make sense for containers without random access iterators, because all random access loops would be of
O(N^2) complexity (linear in the outer loop over elements, times linear in the
std::advance on the iterators). For that reason out of the Sequence Containers, only
std::list (bidirectional iterators) and
std::forward_list (forward iterators) do not.
The Ordered Associative Containers (
std::map, and their multi cousins) only provide bidirectional iterators, and the Unordered Associative Containers (
std::unorderd_map and their multi cousins) have at least forward iterators. They also don't have
operator(std::size_t) as a member. You therefore need to write
std::advance(my_set.begin(), n) instead of
my_set[n], which makes the
O(N) complexity of such a call painfully obivous.
Just as an added note: the map-like containers contain Key-Value pairs and the associative nature of these containers is expressed through another
operator, but not indexed by an offset, but rather with an "associated" Key and they have signature
Value& operator(Key const&) (and an rvalue-reference overload since C++11). These operators have
O(log N) complexity for
std::map and amortized
O(1) complexity for
std::unordered_map. This will give e.g. loops over all keys of these containers
O(N log N) and
O(N) complexity, respectively.
operator versions also have insert semantics: calls like
my_map[my_key] = my_value; will attempt to insert the pair
my_key, my_value into the map, and return an iterator if such an element already exists. Note that that are also no
const overloads for theses associative element accesses: use the
find() member functions for that.
std::set an overloaded
operator(Key const&) does not make any sense, since it would only express the fact that the key is associated to itself, and the insert semantics is already more directly expressed through the
insert() member function.