In my program, I would like to take the address of a temporary. Here is an example:

#include <iostream>

struct Number {
    int value;
    Number(int n) {
        value = n;

void print(Number *number) {
    std::cout << number->value << std::endl;

int main() {
    Number example(123);
    print(&Number(456)); // Is this safe and reliable?

This would output:


To compile, the -fpermissive flag is requied.

Here is my question: is this safe and reliable? In what possible case could something go wrong?

  • You used the g++ tag. Does that mean you don't care if it's portable to other compilers? – Barmar Apr 7 '18 at 0:41
  • @Barmar Good point, I actually do care. They've been removed. – Luke Apr 7 '18 at 0:42
  • Reliable by what standard exactly? By the C++ standard, it's not even legal. – Benjamin Lindley Apr 7 '18 at 0:44
  • 2
    The fact that you have to use -fpermissive should be a sign that something is hinky about it. – Barmar Apr 7 '18 at 0:48
  • 5
    Passing it by const reference for example is a lot more effort? That raw pointer already shows pretty bad design – Slava Apr 7 '18 at 0:54

&Number(456) is an error because the built-in & operator cannot be applied to an rvalue. Since it is an error, it is neither safe nor reliable. "What could go wrong" is that the code could be rejected and/or behave unexpectedly by a compiler which follows the C++ Standard. You are relying on your compiler supporting some C++-like dialect in which this code is defined.

You can output the address of the temporary object in various ways. For example add a member function auto operator&() { return this; } . The overloaded operator& can be applied to prvalues of class type.

Another way would be to have a function that is like the opposite of move:

template<typename T>
T& make_lvalue(T&& n)
     return n;

and then you can do print(&make_lvalue(Number(456)));

If you are feeling evil, you could make a global template overload of operator&.

  • 1
    It wasn't obvious to me that the object created by Number(456) should continue to exist beyond the completion of make_lvalue. But I think the c++14 standard supports it: in [class.temporary], "A temporary object bound to a reference parameter in a function call (5.2.2) persists until the completion of the full-expression containing the call. " – user1084944 Apr 7 '18 at 7:35
  • @Hurkyl indeed, any temporary persists until (at least) the end of the full-expression it was created by – M.M Apr 7 '18 at 9:19

If your definition of "safe and reliable" includes "will compile and produce the same results if the compiler is updated" then your example is invalid.

Your example is ill-formed in all C++ standards.

This means, even if a compiler can be coerced to accept it now, there is no guarantee that a future update of your compiler will accept it or, if the compiler does accept the code, will produce the same desired effect.

Most compiler vendors have form for supporting non-standard features in compilers, and either removing or altering support of those features in later releases of the compiler.

Consider changing your function so it accepts a const Number & rather than a pointer. A const reference CAN be implicitly bound to a temporary without needing to bludgeon the compiler into submission (e.g. with command line options). A non-const reference cannot.

  • 1
    A non-const reference cannot, but an rvalue reference can again – Ruslan Apr 7 '18 at 8:09
  • Sorry about the late comment. Using const Number & will work for print(Number(456)) but not for print(&example) in my code. For one I need const, but not for the other. Is it possible to make it work for both, without having two function signatures? Thanks so so much. – Luke Sep 11 '18 at 5:48
  • I've created a new question for it. – Luke Sep 11 '18 at 5:57

This is fine but..

Number *a;
print(a); // this would be a null ptr error

How I would change it is

void print(const Number num) // make the paramater const so it doesnt change
   std::cout << num.value << std::endl; // note the . instead of -> cuz this is a reference not a pointer

You would remove the "&" from your code like:

Number example(123);

and if you need to pass a pointer you just put a "*" to dereference it.


  • The code that I supplied in my question works fine, it's just matter of safety and reliability. I don't need an alternate solution. – Luke Apr 7 '18 at 0:50
  • 1
    Number *a; print(a); does not produce a null pointer. a is uninitialised, so accessing its value produces undefined behavior. – Peter Apr 7 '18 at 1:29

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