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I am using the following code snippet to compare two methods for creating an object in C++.

#include <iostream>

using std::cout;
using std::endl;

class Foo {
        Foo() : x(0) { cout << "In Foo constructor." << endl; }
        ~Foo() { cout << "In Foo destructor." << endl; }
        Foo(const Foo&) { cout << "In Foo copy constructor." << endl; }

        // Assignment operator.
        Foo& operator=(const Foo&) {
            cout << "In assignment operator." << endl;
            return *this;

        int x;

int main() {

    cout << "Constructing Foo 1" << endl;
    Foo Foo_1;
    cout << "Constructing Foo 2" << endl;
    Foo Foo_2 = Foo();

    return 0;

The output from this code snippet is:

  Constructing Foo 1
  In Foo constructor.
  Constructing Foo 2
  In Foo constructor.
  In Foo destructor.
  In Foo destructor.

I am using Visual C++ 2010 (compiler version 16.x) and I am compiling the snippet using cl /EHsc /W4 test.cpp. In the construction of Foo_2, I was expecting to see an extra call to the constructor and destructor in order to create a temporary object and a call to the assignment operator in order to assign the temporary object to Foo_2. Can someone explain to me why this is not the case. Apologies if I am missing something very obvious here.

share|improve this question

There are two forms of initialization available for Foo:

Foo f1;
Foo f2 = Foo();

The first constructs f directly, using the default constructor. The second constructs a temporary of type Foo, using the default constructor, and copies that temporary into f2. The latter is what you describe as what you expected. And you're right, except for one additional rule: if that form of initialization is valid (which it is here; make the copy constructor private and see what happens), the compiler is allowed to "elide" the copy construction and construct f2 directly, just as in the first version. That's what you're seeing. The compiler isn't required to elide the copy constructor, but every one I've used recently does.

share|improve this answer
Hi Pete, Thanks a lot for the feedback. This explains it for me. – Francis Oct 24 '12 at 17:55
Hi Pete, I tried your test of making the copy constructor private and the code does not compile. It states that it cannot access private member Foo::Foo. My question now is that if it is copy constructing then why do I not see "In Foo copy constructor." in the output. – Francis Oct 24 '12 at 18:14
Hi, Apologies, I think that I see from the link in Sapien2's post why I am not seeing it. The compiler optimizes it away. Quote from the link: "The compiler is actually allowed (but not required) to optimize away the copy construction in this kind of situation. If it does optimize it, the copy ctor must still be accessible." You say this above also. – Francis Oct 24 '12 at 18:16
@Francis - right. The compiler can skip the copy constructor, but only if it's available. So making it private makes copy construction invalid, and eliding the copy constructor then is also invalid. – Pete Becker Oct 24 '12 at 18:55

Foo Foo_2 = Foo(); is similar to Foo Foo_2(Foo());. Compiler is smart enough to do this, no assignment operator is being called. BTW, you have a bug in the assignment operator - you return reference to your object instead of copying it.

share|improve this answer
No, it's not syntax sugar. Make Foo's copy constructor private and try it again. – Pete Becker Oct 24 '12 at 17:44
@Pete Becker - my bad, fixed the reply – SomeWittyUsername Oct 24 '12 at 17:44
Foo Foo_2(Foo()); does not explain why there are only two constructors in his sample rather than three. – Mooing Duck Oct 24 '12 at 18:42

The very first "Guru of the Week" problem is just about your question http://www.gotw.ca/gotw/001.htm Especially a note of compiler optimization.

share|improve this answer
Thanks for the link. It is helpful also. I should have done more googling before asking!! – Francis Oct 24 '12 at 18:17

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