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I understand that when objects are returned by-value from a function, their copy-constructors are called. If a class has a deleted copy-constructor, returning by value will fail.

struct X {
    X(const X &) = delete;

X f() {
   return X{};

error: call to deleted constructor of 'X'

C++11 gives us extended-initializers. And I read somewhere on a SO post that this

X f() {
    return {};

is the same as

X f() {
    return X{};

So why doesn't the below code give me an error? It passes and I even get to call the function in main:

struct D {
   D(const D &) = delete;

D f() { return {}; }

int main()

Here is a demo. No error is reported. I find that weird because I believe that the copy-constructor should be called. Can anyone explain why no error is given?

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What happens if you delete the move constructor? C++11 states that it will be used if available. –  Crazy Eddie Mar 10 '13 at 22:14
Interestingly, I cannot get the code to compile on gcc 4.7.2 or a 4.8 snapshot. demo. –  juanchopanza Mar 10 '13 at 22:15
@CrazyEddie When I delete it the error is given. Wow, that was unexpected. Mind posting that as an answer? –  template boy Mar 10 '13 at 22:17
liveworkspace.org/code/4yc7Hy$2200 is a gcc 4.7.2 version of the same code. –  Yakk Mar 10 '13 at 22:17
Wouldn't feel comfortable giving it as an answer. I'm not entirely sure why it was possible to call the move there and not in the first. –  Crazy Eddie Mar 10 '13 at 22:26

1 Answer 1

up vote 10 down vote accepted

And I read somewhere on a SO post that this [...] is the same as [...]

They were wrong. They're similar, but not the same.

By using the braced-init-list, you are able to initialize the return value in-place. If you create a temporary, then what you're doing is creating the temporary and then copying it into the return value. Any compiler worth its salt will elide it, but the copy constructor still must be accessible.

But since the braced-init-list initializes the return value in-place, you don't need access to the copy constructor.

From the standard, section 6.6.3, p2:

A return statement with a braced-init-list initializes the object or reference to be returned from the function by copy-list-initialization (8.5.4) from the specified initializer list.

Note that "copy-list-initialization" is not similar to "copy-initialization"; it doesn't do any copying and therefore it doesn't require an accessible copy constructor. The only difference between "copy-list-initialization" and "direct-list-initialization" is that the former will choke on explicit constructors.

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So you're saying that, if you used a braced-init-list in a return statement, it basically forces copy/move elision? –  Seth Carnegie Mar 10 '13 at 22:25
@SethCarnegie: No. I'm saying that if you use a braced-init-list, there is no copying. Copy elision still requires an accessible copy constructor; braced-init-lists initialize the return value in-place, without a copy/move operation. –  Nicol Bolas Mar 10 '13 at 22:25
Oh, this is interesting, didn't know that. Could you quote the part of the Standard that specifies that? –  Andy Prowl Mar 10 '13 at 22:25
@NicolBolas that's why I said "basically", I know it's not really elision. And yes, I was just about to ask for a standard reference too, for when someone asks me. –  Seth Carnegie Mar 10 '13 at 22:26
@AndyProwl: Done. –  Nicol Bolas Mar 10 '13 at 22:27

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