This question is a slight variant on a related question shown here.

In C++17 I have a local variable that I want to be const to demonstrate it is unmodified once created per Scott Meyers Effective C++ item 3 recommendation to use const whenever possible:

#include <string>

std::string foo()
    const std::string str = "bar";

    return str;

int main()
    std::string txt = foo();

Can a compiler perform (named) return-value optimization for txt, even though the type of str is different from the return type of foo due to the const-ness difference?

  • Semantically, return str creates an object that is a copy of str, so RVO is possible. It is questionable whether NVRO can be performed, since the returned object needs to be distinct from str. However, depending on what analysis the compiler performs if the function is in the same compilation unit as the caller, it could inline and then eliminate the function call entirely, and replace std::string txt = foo() with the notional equivalent of std::string txt("bar").
    – Peter
    May 17, 2019 at 23:36
  • IANALL but surely const must apply to the scope of the variable to guarantee str remains unmodified during the call of foo(). How does destruction work otherwise?
    – Paul Evans
    May 17, 2019 at 23:45

1 Answer 1


The named return value optimization is enabled by copy elision specified in C++17 in [class.copy.elision]. The relevant part here is [class.copy.elision]/1.1:

When certain criteria are met, an implementation is allowed to omit the copy/move construction of a class object, even if the constructor selected for the copy/move operation and/or the destructor for the object have side effects. […]

  • in a return statement in a function with a class return type, when the expression is the name of a non-volatile automatic object (other than a function parameter or a variable introduced by the exception-declaration of a handler ([except.handle])) with the same type (ignoring cv-qualification) as the function return type, the copy/move operation can be omitted by constructing the automatic object directly into the function call's return object


emphasis mine. Thus, compilers are allowed to perform the optimization here. And a quick test would seem to verify that compilers will actually perform this optimization here…

Note that the const may be problematic nevertheless. If a compiler does not perform copy elision (it's only allowed, not guaranteed to happen here; even in C++17 since the expression in the return statement is not a prvalue), the const will generally prevent the object from being moved from instead (normally cannot move from const object)…

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