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Some time ago I was told, that the usual pattern to implement two-ary operators needs a final move in the return.

Matrix operator+(const Matrix &a, Matrix &&b) {
    b += a;
    return std::move(b);

But now there is the special rule that in a return the compiler may treat the return value as a temporary, and then this would not be necessary -- a simple return b would suffice.

But then again, b has a name in this function, therefore, its an LValue -- which hinders the compiler to m consider it being a temp, and the move is required.

Is this still the case in the most recent version of the C++0x Standard? We need the move to implement the above pattern?

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According to this answer, the std::move is not necessary. –  fredoverflow Aug 21 '11 at 19:45
Although it could make a difference that the parameter is a Matrix&& instead of a Matrix... –  fredoverflow Aug 21 '11 at 19:57
It is complicated, yes. And yes, I think you are right. If its a value parameter like Matrix then you have a pristine copy for you alone -- a temp. The compiler knows that you can grab from it. With Matrix&& I am not that sure- –  towi Aug 21 '11 at 20:06

2 Answers 2

up vote 7 down vote accepted

You need the explicit std::move in this example because b is not the name of a non-volatile automatic object. Reference 12.8 [class.copy] /p31/b1:

  • in a return statement in a function with a class return type, when the expression is the name of a non-volatile automatic object (other than a function or catch-clause parameter) with the same cv- unqualified type as the function return type, the copy/move operation can be omitted by constructing the automatic object directly into the function’s return value
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Ah, and references aren't objects. I think you should emphasize "object" instead of "automatic" (or both). –  fredoverflow Aug 21 '11 at 20:09
I think automatic is the right \em here, because it translates (roughly? exactly?) to "local variable". –  towi Aug 21 '11 at 20:22

I'm not sure why this function returns by value. Shouldn't this function return a Matrix&& like the following?

Matrix&& operator+(const Matrix &a, Matrix &&b) {
  b += a;
  return std::move(b);

This has the added advantage that x1 + x2 + x3 + ... + xn creates at most one temporary, which is important if Matrix happens to be stack allocated (as it then gains nothing from moves).

I think the signatures should be like the following:

Matrix&& operator+(Matrix &&a,      Matrix &&b     );
Matrix&& operator+(const Matrix &a, Matrix &&b     );
Matrix&& operator+(Matrix &&a,      const Matrix &b);
Matrix   operator+(const Matrix &a, const Matrix &b);
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No. You should not return a &&. This would mean, that you return a reference to one of the arguments, where you do not have the control of where it is coming from ("dont pick up whats lying on the street"). If you return a Matrix you can just move in the content from one of the arguments and you accomplish the same effect with perfect performance. Also, you dont need to overload on (&&, &&): The code you would write there would be the same as in either (&,&&) or (&&,&&). If you spare the (&&,&&) overload, one of those will be selected by the compiler. You need only 3 overloads. –  towi Aug 23 '11 at 5:17
towi: What's wrong with returning a reference to one of the arguments? I thought only returning a reference to a temporary was an issue. –  Clinton Aug 23 '11 at 5:46
@towi: Also, what evidence have you got that the (&&, &&) overload is not needed? I believe ideone.com/qf3Rn shows that it is needed. –  Clinton Aug 23 '11 at 6:17
You are right, I think. It is correct, that a && can bind to a & parameter, if there is no overload (there are of course many places which this is needed). But I missed, that, if you provide the overloads (&,&&) and (&&,&) for your/our example the compiler can not decide which one is better. I But it would be nice if there would be a "better" solution that adding an overload here, just to "deconfuse" the compiler. Feel free to edit here ideone.com/9ZhO3 –  towi Aug 24 '11 at 8:58
No, you can also create issues returning a reference from an argument. Consider (modulo some consts) Value& get(map<Key,Value> &d, Value &dfault) { if(not-found) return dfault;}. And then use it with Value &v = get(..., Value{}); cout << v; your program will crash, because v is a reference to the temp you created for dfault. And that will disappear at the ;. When you cout << v it, it's gone. –  towi Aug 24 '11 at 9:08

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