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This looks like a compiler bug, but the case is so simple I am a bit skeptical, so I am looking for a confirmation. Reproducible with both VS2010 and VS2012. The below example does not compile. This error is given:

Error 1 error C2440: 'type cast' : cannot convert from 'ConvertibleToAny' to 'OtherType<_Ty>' test.cpp 40

If you move the position of the move constructor OtherType(ThisType &&) above the constructor OtherType( int ), it suddenly compiles.

#include "stdafx.h"
#include <string>

using namespace std;

template<class _Ty>
struct OtherType
{
  typedef OtherType<_Ty>  ThisType;

  OtherType()
  { 
  }

  OtherType( int )
  { 
  }

  // The move constructor
  OtherType(ThisType && )
  {
  }
};

struct ConvertibleToAny
{    
  template <class AnyType>
  operator AnyType()
  {
    return AnyType();
  }
};

int _tmain(int argc, _TCHAR* argv[])
{

  (OtherType<wstring>) ConvertibleToAny();

    return 0;
}

Is this a bug or is this expected behavior? If it's expected, please quote the relevant paragraph from the C++11 specification. I already posted this as a bug at Microsoft Connect, click here to open it.

share|improve this question
    
"If you move the position of the move constructor above the [other] constructor" - If that is really the solution, this can never be expected behaviour. –  Christian Rau Sep 11 '12 at 7:49
    
yes, that's what I am thinking too, but the case is so simple I find it a bit hard to believe it simply slipped, and is a bug. –  EddieBytes Sep 11 '12 at 7:50
    
@EddieBytes Bug in MSVC is, that moving of move c-tor fix problem. Your code is incorrect by C++ standard. –  ForEveR Sep 11 '12 at 8:00
    
@ForEveR I am sorry, I am not sure I understand. Could you please elaborate? –  EddieBytes Sep 11 '12 at 8:02
1  
Note: The position/order of constructors, etc. does not matter. The behavior you are seeing is a result of the MSVC compiler not compiling templates correctly . It helps to use a better compiler such as gcc or clang for these types of issues. –  Jesse Good Sep 11 '12 at 21:54

1 Answer 1

up vote 6 down vote accepted

Your expression

(OtherType<wstring>) ConvertibleToAny()

is a unary explicit cast (5.4) from a temporary of user-defined type to a user-defined type, interpreted per 5.4:4 as a static_cast:

static_cast<OtherType<wstring>>(ConvertibleToAny())

which per 5.2.9:4 has the validity of initializing a temporary variable t:

OtherType<wstring> t(ConvertibleToAny())

This is direct-initialization (8.5:15) and as such (8.5:16) all the one-argument constructors of OtherType participate in overload resolution per the rules in 13.3.1.3.

Following 13.3:2, both the int and move constructors are available and are viable per 13.3.2, so we have two possible implicit conversion sequences (13.3.3.1) for the single argument:

ConvertibleToAny [temporary] -> int
ConvertibleToAny [temporary] -> OtherType<wstring> &&

Following 13.3.3.1.2 there is no ordering between these sequences, so there is no best viable function, overload resolution fails (13.3:3), and the program is ill-formed.


If the conversion function (12.3.2) is made explicit (12.3.2:2) then it is only considered for direct-initialization. Although implicit conversion sequences (13.3.3.1) are implicit conversions (4:3) and so involve copy-initialization, the intent of the standard in the example to 12.3.2:2 is clearly that explicit conversion functions should be considered in this case; as such, it appears again that overload resolution should fail.

share|improve this answer
    
+1. Nice. Very interesting. –  ForEveR Sep 11 '12 at 12:24
    
outstanding answer –  EddieBytes Sep 12 '12 at 6:50

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