Returning a const rvalue is an anti-pattern in C++11. First consider returning non-const rvalues:
std::vector<int> f(int n)
v = f(3);
In C++98/03, this code will go to the heap at least twice:
- To create the vector inside of f (if the RVO applies)
- To assign from f's return to v.
If your compiler does not apply the RVO, you get 3 heap allocations.
In C++11, you only get 1 heap allocation: to create the vector inside of
f. This happens regardless of the RVO. The reason is that all the STL containers have move constructors and move assignment operators that have the signatures
vector( vector&& other );
vector& operator=( vector&& other );
The rvalue references
&& will move the resources from inside your creation function directly to their destination. However, your code has the signature
const std::vector<int> f(int n)
will disable the move semantics because a T&& (i.e. the argument of the move constructor and assignment operator) will not bind to a const rvalue parameter (i.e. the return value of your function). This effectively makes your code run as under C++98/03 (i.e. with 2 or 3 heap allocations).