In the following code, are pS and s.pS guaranteed to be equal in the final line? In other words, in the statement S s = S();, can I be sure that a temporary S will not be constructed?

#include <iostream>
using namespace std;

struct S
  S() { pS = this; }
  S* pS;

int main()
  S s = S();
  S* pS = &s;
  cout << pS << " " << s.pS << endl;

In every compiler I've tested this in pS == s.pS, but I'm not sufficiently familiar with the standard to be able to satisfy myself that this is guaranteed.

  • 2
    No - it is a temporary which might get optimized out
    – user2249683
    Commented Oct 12, 2015 at 16:57
  • To the best of my knowledge, you can assume that it will be RVO and only need worry about it if you have special circumstances that demand special treatment or performance guarantees. Otherwise, this is virtually guaranteed and should be used.
    – Mordachai
    Commented Oct 12, 2015 at 17:07
  • 2
    @Mordachai This has nothing to do with RVO. The R stands for return. There is no return here.
    – Barry
    Commented Oct 12, 2015 at 17:11

3 Answers 3



The compiler isn't obligated to do copy elision. The standard simply specifies that, [class.copy]:

When certain criteria are met, an implementation is allowed to omit the copy/move construction of a class object [...]

I can disable copy elision via -fno-elide-constructors, and then the two pointers will definitely be different. For example:

$g++ -std=c++11 -Wall -pedantic -fno-elide-constructors -Wall -Wextra main.cpp && ./a.out
0x7fff5a598920 0x7fff5a598930

And in the general case, if we add S(S&& ) = delete, then the above code wouldn't even compile.

  • I thought C++11 or 13 made this mandatory. And even so - I believe it is in the category of "virtually guaranteed" and "best practices" not to worry about this anymore (with the normal caveat of: if you do performance testing, and find that this is an actual issue is a hot code path, then and only then would you manually involve yourself in optimizing this manually)...
    – Mordachai
    Commented Oct 12, 2015 at 17:05
  • @Mordachai Nope. The wording I quoted is from N4527.
    – Barry
    Commented Oct 12, 2015 at 17:10
  • 2
    @Mordachai It is absolutely not "best practice" to not worry about this! Commented Oct 12, 2015 at 18:36
  • 6
    @Mordachai: What is C++13? Commented Oct 12, 2015 at 21:54
  • I guess I was wrong. Ah well. I really had taken from some C++ conferences that type x = ctor(initializers) and type x(initializers); were identical as far as the compiler was concerned. But... I'm just going from memory from the '14 Beyond C++ conference - and my memory is fallible. C++13 is also irrelevant - there were various possibilities to what would follow C++11, 13 was just one unofficial possibility that became C++14 when it slipped into '14.
    – Mordachai
    Commented Dec 14, 2015 at 19:42

Most compilers performs what's called copy/move elision, which is specified by the C++ standard. But it is not guaranteed. For example, you can compile with -fno-elide-constructors in gcc and you'll see all constructors in all their glory.

Live example on Coliru


There is no guarantee that there will be no temporary. But the Big Three compilers will optimize it out (even with the -O0 switch).

To guarantee no temporary at all just write:

int main()
  // ...
  S s{};
  // ...

Or simply S s;.


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