I have a scenario where I need to convert a function that can be chained by *this to returning std::optional<std::reference_wrapper<T>> instead of T& (reason is out of scope for this question). The reason why I use std::reference_wrapper is since std::optional cannot take a reference, at least not in C++11. However, that doesn't work because I seem to be encountering lifetime issues. Here is a minimal example:

#include <iostream>
#include <functional>

struct test {
    std::reference_wrapper<test> foo() {
        val = 42;
        return *this;

    test& foo2() {
        val = 50;
        return *this;

    int val;

void bar(test t) {
    std::cout << std::move(t).val << "\n";

int main()
    auto f = test().foo();
    auto g = test().foo2();

This outputs 0 50 instead of the expected 42 50. If I split it up into two statements:

auto f = test();
auto f2 = f.foo();

It works as expected. Using the debugger, I discover that the compiler is optimizing some of the expression away and val is left uninitialized, which leads me to think I have undefined behavior in my code.

Do I have undefined behavior? If so, how do I avoid it here?


Do I have undefined behavior?

Yes. auto deduces the type of the object from the expression used to initialize it. And you use an expression of type std::reference_wrapper<test> to initialize f. The temporary test() is gone after f is initialized, so f dangles immediately.

You can either split the declaration as you do already, or use std::references_wrappers's get member function:

auto f = test().foo().get();

Either way, std::reference_wrapper<test> is not a drop in replacement for a reference in all contexts C++ supports. Proxy objects never are.

  • It's worse. See my answer too. – Martin Bonner Mar 7 at 10:10
  • No. It isn't - g is of type test - that's the way auto works. Wrong answer deleted. – Martin Bonner Mar 7 at 10:11

Do I have undefined behavior?

Yes. Have a look at the line auto f = test().foo();. f is a std::reference_wrapper<test> and the test instance it refers to is test(). The lifetime of test() ends right at the end of this line, and you end up with a dangling reference. That's not the case for auto g = test().foo2(); as it copies the return value (thanks to @StoryTeller for helping me out here).

how do I avoid it here?

You need to tear apart lifetime management from the std::reference_wrapper part. This will work:

test t;
auto f = t.foo();

// Do stuff with f until this scope ends.
  • 2
    "Same issue for auto g = test().foo2();" - No. g is copy initialized from the reference to the still living temporary. – StoryTeller Mar 7 at 10:09

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