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Here is the little code snippet:

class A
    A(int value) : value_(value)
    	cout <<"Regular constructor" <<endl;

    A(const A& other)	: value_(other.value_)	
    	cout <<"Copy constructor" <<endl;

    int value_;
int main()
    A a = A(5);

I assumed that output would be "Regular Constructor" (for RHS) followed by "Copy constructor" for LHS. So I avoided this style and always declared variable of class as A a(5);. But to my surprise in the code above copy constructor is never called (Visual C++ 2008)

Does anybody know if this behavior is a result of compiler optimization, or some documented (and portable) feature of C++? Thanks.

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it's optimized, avoiding construct+copying. I find that it's a good assumption that no user would construct from parameters, differently from what it's done copy-constructing –  jpinto3912 Nov 18 '09 at 19:10
See also: stackoverflow.com/questions/1394229/… –  Rob Kennedy Nov 18 '09 at 19:48
In g++, you can disable this optimization with the option -fno-elide-constructors –  Fred Nov 18 '09 at 23:33

5 Answers 5

up vote -1 down vote accepted

This is so called RVO.

To experiment a little try to comment out copy constructor.

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RVO is Return value optimization. What return? –  Alexey Malistov Nov 18 '09 at 18:43
Thanks. So by default I should not rely on it (as it may depend on the compiler) –  BostonLogan Nov 18 '09 at 18:44
Return A(5). Instead it just put it straight in the a –  Mykola Golubyev Nov 18 '09 at 18:44
It is not NRVO. The only function involved is the constructor, and it has no named return value. NRVO is for when you have a normal function that declares a variable of the same type as its return type, and then it returns that variable. The compiler is allowed to construct the returned variable directly in the location that the caller would use for the return value. Ordinary copy-constructor elision, as in Logan's question, is called RVO, even without an explicit return. Both RVO and NRVO are described in the same paragraph of the standard (§12.8/15). –  Rob Kennedy Nov 18 '09 at 19:47
-1 This is wrong answer. –  big-z Nov 19 '09 at 5:27

From another comment: "So by default I should not rely on it (as it may depend on the compiler)"

No, it does not depend on the compiler, practically anyway. Any compiler worth a grain of sand won't waste time constructing an A, then copying it over.

In the standard it explicitly says that it is completely acceptable for T = x; to be equivalent to saying T(x);. (§12.8.15, pg. 211) Doing this with T(T(x)) is obviously redundant, so it removes the inner T.

To get the desired behavior, you'd force the compiler to default construct the first A:

A a;
// A is now a fully constructed object,
// so it can't call constructors again:
a = A(5);
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Thanks GMan, I never use this syntax anyway. Just something to remember. Oh, just found on msdn: C++ standard allows the elision of the copy constructor (see section 12.8. Copying class objects, paragraph 15) –  BostonLogan Nov 18 '09 at 18:56
Thanks, I see it now. It's a bit much to quote in an answer, so I'll just refer it by number. –  GManNickG Nov 18 '09 at 19:01
It depends on compiler. Standard allows different behavior, see my answer. –  Kirill V. Lyadvinsky Nov 19 '09 at 5:25

Here you have copy-initialization of a from temporary A(5). Implementation allowed to skip calling copy constructor here according to C++ Standard 12.2/2.

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I don't think that's correct. The example in 12.2.2 involves a temporary being passed to a function before constructing the local object. –  Michael Kristofik Nov 19 '09 at 17:42

I was researching this to answer another question that was closed as a dupe, so in order to not let the work go to waste I 'm answering this one instead.

A statement of the form A a = A(5) is called copy-initialization of the variable a. The C++11 standard, 8.5/16 states:

The function selected is called with the initializer expression as its argument; if the function is a constructor, the call initializes a temporary of the cv-unqualified version of the destination type. The temporary is a prvalue. The result of the call (which is the temporary for the constructor case) is then used to direct-initialize, according to the rules above, the object that is the destination of the copy-initialization. In certain cases, an implementation is permitted to eliminate the copying inherent in this direct-initialization by constructing the intermediate result directly into the object being initialized; see 12.2, 12.8.

This means that the compiler looks up the appropriate constructor to handle A(5), creates a temporary and copies that temporary into a. But under what circumstances can the copy be eliminated?

Let's see what 12.8/31 says:

When certain criteria are met, an implementation is allowed to omit the copy/move construction of a class object, even if the copy/move constructor and/or destructor for the object have side effects. In such cases, the implementation treats the source and target of the omitted copy/move operation as simply two different ways of referring to the same object, and the destruction of that object occurs at the later of the times when the two objects would have been destroyed without the optimization. This elision of copy/move operations, called copy elision, is permitted in the following circumstances (which may be combined to eliminate multiple copies):


  • when a temporary class object that has not been bound to a reference (12.2) would be copied/moved to a class object with the same cv-unqualified type, the copy/move operation can be omitted by constructing the temporary object directly into the target of the omitted copy/move

Having all this in mind, here's what happens with the expression A a = A(5):

  1. The compiler sees a declaration with copy-initialization
  2. The A(int) constructor is selected to initialize a temporary object
  3. Because the temporary object is not bound to a reference, and it does have the same type A as the destination type in the copy-initialization expression, the compiler is permitted to directly construct an object into a, eliding the temporary
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A a = A(5);

This line is equivalent to

A a(5);

Despite its function-style appearance, the first line simply constructs a with the argument 5. No copying or temporaries are involved. From the C++ standard, section 12.1.11:

A functional notation type conversion (5.2.3) can be used to create new objects of its type. [ Note: The syntax looks like an explicit call of the constructor. —end note ]

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No, it's not equivalent. One is copy-initialization, the other is direct-initialization. –  Ben Voigt Jan 10 '12 at 4:49

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