#include <utility>
template <typename Container>
decltype(auto) index(Container &&arr, int n) {
    return std::forward<Container>(arr)[n];

Make a function call :

#include <vector>
index(std::vector {1, 2, 3, 4, 5}, 2) = 0;

When function calling finished, the object std::vector {1, 2, 3, 4, 5} will be destroyed, assigning a value to a deallocated address would cause undefined behaviour. But the above code works well and valgrind detected nothing. Maybe the compile helps me make another invisible variable like

auto &&invisible_value {index(std::vector {1, 2, 3, 4, 5}, 2)};
invisible_value = 9;

If my guess is incorrect, I want to know why assigning a value to an rvalue reference returned from function is worked and when the temporary object index(std::vector {1, 2, 3, 4, 5}, 2) will be destroyed.

This idea originated from 《Effective Modern C++》, Item3 : Understand decltype.

  • How do you imagine function chaining works if you can't access the returned value from a function without storing it? The fact that you are returning an rvalue reference in this case is not really relevant. An rvalue reference is also an lvalue. – super Jun 3 '20 at 6:45

You said "When function calling finished, the object vector {1, 2, 3, 4, 5} will be destroyed" but that is untrue. The temporary created for the function call is not deleted until the statement ends, i.e. the next line of code. Otherwise imagine how much code would break that passes c_str() of a temporary string.

  • 1
    Not quite sure about this, do you have any sources? The vector is in fact not returned, but instead passed to a function, so it should be destroyed when index returns. Instead, what I think is going on is that a copy of element n is returned as an rvalue reference, which would survive until the calling scope ends and thus can be assigned another value. However, I could also be wrong here. :-) – Carsten Jun 3 '20 at 5:56
  • 5
    @Carsten "All temporary objects are destroyed as the last step in evaluating the full-expression that (lexically) contains the point where they were created" Source – cdhowie Jun 3 '20 at 6:00
  • 1
    @Carsten Of course it refers to temporaries. We are talking about the lifetime of temporaries. The quote I pasted indicates that temporaries are destroyed as the last step in evaluating the full-expression where they appear. That clearly indicates that the vector temporary exists until after the assignment to the reference returned by the function. The question is whether the vector still exists when the assignment happens, because if it does not the code invokes UB. The answer is: yes, it does exist because until the assignment happens, the full-expression hasn't been evaluated. – cdhowie Jun 3 '20 at 7:24
  • 1
    @Evg Yes. It is now implementation-defined whether arr has been destroyed when the assignment happens, which means that the assignment either succeeds or invokes UB. – cdhowie Jun 3 '20 at 7:29
  • 2
    @Carsten Also, the quote that you pasted actually agrees with the quote I pasted, and contradicts your claim that the expression ends with the return statement. The full-expression where the temporary is created is index(vector {1, 2, 3, 4, 5}, 2) = 0;, so this is the full-expression that the temporary is guaranteed to outlive. Whatever happens in index() is irrelevant to this point. – cdhowie Jun 3 '20 at 7:31

invisible_value = 9; is completely legal assignment as 9 is indeed a temporary. rvalue references can be assigned with a temporary but not bound to an lvalue (for example a variable; but you can achieve this like below:

int a =10;

https://godbolt.org/z/iTNGFr. Mode detailed explanation in this question C++ Double Address Operator? (&&).


the assignment is only legal if it is in the same scope. invisible_value in this case refers to something that was in the scope of index function and it's behavior is undefined if you have a reference to it.

  • 1
    No, this is wrong. In the invisible_value case, the vector is destroyed after initialization of invisible_value and it is a dangling reference. invisible_value = anything; is UB at that point. – cdhowie Jun 3 '20 at 7:36
  • yes! you are right. my mistake. The above point is only valid if it is in same scope. The invisible_value case is a reference from the function and it's scope/lifetime ends in the function. – djacob Jun 3 '20 at 9:21

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