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In the following example the ctors #1, #1, #4 and #4 are called (in that order). I would expect #1, #1, #2, #3 to be called instead (discounting RVO).

//-----------------------------------------------------------------------------
struct A
{
    A(){}                   //  1

    A(A&&){}                //  2

    A(const A&){}           //  3

    template<typename T>
    A(T&&){}                //  4

    template<>
    A(A&&){}                //  5

    template<typename T>
    A(const T&){}           //  6
};

//-----------------------------------------------------------------------------
A wtf(){ A x; return x; }

//-----------------------------------------------------------------------------
int main( int, char*[] )
{
    A a;
    A c = wtf();
    A b(c);
}

What's going on and why?!

Note: Remove #5 to compile with GCC (it's not that important anyway) - the above does compile with VS2010. I would be interested to hear if the results are the same in GCC if anyone can test it.

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4  
FWIW this doesn't compile under GCC 4.5 (ideone.com/xcqVF) –  R. Martinho Fernandes Sep 15 '11 at 18:56
2  
What I'm getting with G++ (4.4) (-fno-elide-constructors) is (a) #1 (c) #1 #2 #2 - it takes one constructor call just to return a value and one to use it; (b) #4. The last object would be constructed with the regular copy constructor if c were const. - But then again, 4.4 probably doesn't get many things right. –  UncleBens Sep 15 '11 at 19:53

3 Answers 3

up vote 1 down vote accepted

This is a compiler bug.

Forgetting discussions about implicit rvalues for return local expressions (and throw local expessions too, by the way), this is clearly a compiler bug because --

none of the templated constructors should have been called in your example code.

No template function can be considered a copy constructor, copy assignment operator, move constructor, or move assignment operator.

C++11 support is patchy, although gcc's is the best it's still incomplete and buggy.

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+1: Correct. 12.8/2 and 12.8/3 say "non-template", and 12.8/6 further solidifies this by saying that member function templates are never instantiated to produce copy/move ctors. –  Lightness Races in Orbit Sep 28 '11 at 9:21
    
To workaround this problem I used SFINAE to cause substitution failure in the problematic templated methods when T == A –  David Sep 28 '11 at 13:42

You are having way too many constructors for a real class. This doesn't happen except in test code.

Constructor #4 with T being A&, and A& && collapsing to A&, would be a better match for A b(c) than either #2 (c is not an rvalue) or #3 (c is not const).

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Thanks for the partial explanation. This is happening in real code for me. I have a class which constructs another class so it has a number of constructors which take a number of templated arguments as rvalue refs to perfect forward them. Additionally I want a regular copy ctor and move ctor but as it is they never get called properly. –  David Sep 15 '11 at 23:24

return x; does not call the move constructor because x might not be expiring. In general terms it's just an lvalue like any other. return std::move( x ); is usually necessary. (EDIT: but see next paragraph.)

There is a special rule that requires the compiler to perform a move operation instead of copy elision if a potential elision is not performed, §12.8/32. I'm not sure why you're not seeing that. Perhaps the compiler overlooked that rule because they don't expect the user to turn off elision.

You might expect the copy constructor A( A const & ) to perform the return copy, but the template A( T && ) implements perfect forwarding. T && is deduced to A &, which is not const and therefore a better match.

Be very careful with perfect forwarding combined with copy constructors. I'm a bit surprised the language doesn't special-case this. As far as I know, the solution is to use SFINAE to disable the template under that circumstance.

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-1 "return x; does not call the move constructor because x might not be expiring.", "return std::move(x); is necessary." No -- there's a special rule for return values that implicitly makes them rvalues (FDIS §6.6.3/2), so in this case either NRVO will apply and no additional construction will take place or the move constructor will be called automatically. –  ildjarn Sep 16 '11 at 0:56
    
ildjarn: Interesting, §12.8/32. Do you think the compiler is wrong or do you have a theory why he sees this result? Also, thanks for the downvote. That's really constructive. Edit: Ah, now I see you've owned up to the downvote, but 6.6.3/2 is not the relevant paragraph. –  Potatoswatter Sep 16 '11 at 1:10
    
§12.8/32 appears to me to agree with §6.6.3/2; did you mean to imply that it validates or negates what I said? In any case, the OP never mentioned what version of GCC he's using, but I can say with almost certainty that he's just observing a compiler bug. EDIT: §6.6.3/2 says "A copy or move operation associated with a return statement may be elided or considered as an rvalue for the purpose of overload resolution in selecting a constructor" -- how is that not perfectly relevant? And I "owned up" to the downvote over 20 minutes ago -- refresh more. ;-] –  ildjarn Sep 16 '11 at 1:14
    
@ildjarn: I saw your comment 3 minutes after you posted it… not in the habit of refreshing that much. 6.6.3/2 refers to 12.8 and "may be" doesn't really say a whole lot. OP mentioned he's using MSVC and the GCC I downloaded yesterday agrees with his results. Anyway, I've edited now, is this more to your liking? –  Potatoswatter Sep 16 '11 at 1:18
    
Like ildajrn points out, half of your answer is wrong. However, and I don't know why I didn't think of this myself, SFINAE is exactly the fix to my problem that I needed and part of your explanation regarding it is correct. I'm not going to mark this as the answer though since it's not entirely correct. –  David Sep 16 '11 at 1:27

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