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Does a C++ compiler automatically convert:

MyObject object2 = object1;


MyObject object2( object1 );


Or does it treat it like:

MyObject object2;
object2 = object1;


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If it was a real performance problem, you'd probably already know the answer. In general, don't worry about micro-optimizations like this unless it's in a bottleneck and you've found it to cause a real problem. If you want to know whether a compiler does optimization X, assume that the answer is yes. – Chris Lutz Aug 25 '11 at 16:37
I guess I was also interested in best practice. Whether or not it is a micro optimisation depends a lot on the size of the object and the size/frequency of the function that creates it. – PP. Aug 26 '11 at 9:47
@PP - Yes, the degree that this might be an optimization does depend on those things. Which is why you shouldn't bother optimizing unless you've profiled and found it to be a problem. – Chris Lutz Aug 26 '11 at 17:16

4 Answers 4

up vote 2 down vote accepted

You can try this to see the exact behavior:

#include <iostream>

class MyObject {
    MyObject() {
        std::cout << "MyObject()" << std::endl;
    MyObject(const MyObject& other) {
        std::cout << "MyObject(const MyObject& other)" << std::endl;
    MyObject& operator=(const MyObject& other) {
        std::cout << "operator=(const MyObject& other)" << std::endl;
        return *this;

int main() {
    MyObject object1;
    MyObject object2 = object1;
    MyObject object3(object1);
    MyObject object4;
    object4 = object1;


MyObject(const MyObject& other)
MyObject(const MyObject& other)
operator=(const MyObject& other)

Apart from that, I recommend reading What is The Rule of Three?

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Thank you for the clear example code. As you can see some of the answers have conflicted. This leaves no doubt. – PP. Aug 26 '11 at 9:50

Yes, it's the first one. It's not an "optimisation"; they are two different syntaxes for invoking the copy constructor.

If you want to prove it, try defining a private assignment operator for MyObject. The code should still compile, which proves it can't be equivalent to the second mechanism.

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Is there some issue about explicit copy constructors, though? – Kerrek SB Aug 25 '11 at 16:36
@Kerrek: Yes.... – Oliver Charlesworth Aug 25 '11 at 16:38
@Kerrek: yes, the initialization with equals will not consider explicit constructors. – R. Martinho Fernandes Aug 25 '11 at 16:42
@Kerrek: Given type a = b; where the type of b is not type, that is transformed into an implicit conversion from b to type and copy constructor of a from the temporary (pseudo-coe): type a( implicit_conversion<type>(b) );. What Oli has stated is exactly correct: it is another syntax to invoke the copy constructor (not any constructor), and the implicit/explicit conversions only affect in as much as the argument might have to be converted before calling the copy constructor. – David Rodríguez - dribeas Aug 25 '11 at 18:44
... also note that there is not only the issue with explicitness of the constructor. Because the type is converted before calling the copy constructor, if the copy constructor cannot take an rvalue (i.e. if it is declared as: type::type( type & ); --which is a valid signature), then it will also fail to compile. Again, the reason is that the syntax is in fact an alternative syntax for copy construction. – David Rodríguez - dribeas Aug 25 '11 at 18:46

What gets called with MyObject object2 = object1; is a constructor because this is initialization. This has nothing to do with the assignment operator.

However, the transformation you suggested from MyObject object2 = object1; into MyObject object2(object1); does not happen, because these two initialization syntaxes are not the same. They are similar in that they both initialize an object by calling a constructor, but they have a slight difference.

If you have:

struct MyObject {
    explicit MyObject(MyObject const&);

Then MyObject object2 = object1; is ill-formed, but MyObject object2(object1); is well-formed.

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MyObject object2 = object1;

is copy-initialization. This will call the copy constructor, if object1 is of type MyObject.

If object1 is of a different type then it will either do an implicit conversion from object1 to MyObject, and then either copy-construct object2 from that, or do the implicit conversion directly into object2 and skip the copy construction. The copy constructor (or move constructor in C++11) must be accessible in both cases.

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I don't think C++11 requires the move constructor, does it? – Mooing Duck Aug 25 '11 at 16:58
To do copy initialization in C++11 then you must have either a copy or move constructor, or both. – Anthony Williams Aug 26 '11 at 6:43
Your last sentence implies that a move constructor must be accessible in C++11, just making sure it's clear what you meant. – Mooing Duck Aug 26 '11 at 16:39

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