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This compiles fine in GCC 3 and 4. MSVC++ can't figure out the type of noFunction and throws some hideous errors. Note if you cast noFunction to BFunction, it works just fine in VS2010.

My question: is this a defect in VS2010, or GCC bending the rules?

#include <map>

using namespace std;

typedef bool (*AFunction)(int arg1, int arg2);
typedef bool (*BFunction)(long arg1, bool arg2);

bool noFunction(long, bool) { return true; }

void test(AFunction a)
{

    make_pair(a, noFunction); //fails in VS2010

}

N.B. casting noFunction to BFunction fixes the problem in VS2010.

make_pair(a, (BFunction)noFunction);  //works everywhere

.

.

.

Here is the error for reference:

    1>  makepairtest.cpp
1>c:\program files (x86)\microsoft visual studio 10.0\vc\include\type_traits(197): error C2752: 'std::tr1::_Remove_reference<_Ty>' : more than one partial specialization matches the template argument list
1>          with
1>          [
1>              _Ty=bool (__cdecl &)(long,bool)
1>          ]
1>          c:\program files (x86)\microsoft visual studio 10.0\vc\include\xtr1common(356): could be 'std::tr1::_Remove_reference<_Ty&&>'
1>          c:\program files (x86)\microsoft visual studio 10.0\vc\include\xtr1common(350): or       'std::tr1::_Remove_reference<_Ty&>'
1>          c:\program files (x86)\microsoft visual studio 10.0\vc\include\type_traits(962) : see reference to class template instantiation 'std::tr1::remove_reference<_Ty>' being compiled
1>          with
1>          [
1>              _Ty=bool (__cdecl &)(long,bool)
1>          ]
1>          c:\program files (x86)\microsoft visual studio 10.0\vc\include\utility(26) : see reference to class template instantiation 'std::tr1::decay<_Ty>' being compiled
1>          with
1>          [
1>              _Ty=bool (__cdecl &)(long,bool)
1>          ]
1>          c:\xxx\makepairtest.cpp(14) : see reference to class template instantiation 'std::tr1::_Unrefwrap<_Type>' being compiled
1>          with
1>          [
1>              _Type=bool (__cdecl &)(long,bool)
1>          ]
1>c:\program files (x86)\microsoft visual studio 10.0\vc\include\type_traits(965): error C2528: 'abstract declarator' : pointer to reference is illegal
1>c:\program files (x86)\microsoft visual studio 10.0\vc\include\type_traits(349): error C2528: 'type' : pointer to reference is illegal
1>          c:\program files (x86)\microsoft visual studio 10.0\vc\include\type_traits(967) : see reference to class template instantiation 'std::tr1::add_pointer<_Ty>' being compiled
1>          with
1>          [
1>              _Ty=bool (__cdecl &)(long,bool)
1>          ]
1>c:\program files (x86)\microsoft visual studio 10.0\vc\include\utility(148): error C2535: 'std::_Pair_base<_Ty1,_Ty2>::_Pair_base(const _Ty1 &,const _Ty2)' : member function already defined or declared
1>          with
1>          [
1>              _Ty1=bool (__cdecl *)(int,int),
1>              _Ty2=bool (__cdecl &)(long,bool)
1>          ]
1>          c:\program files (x86)\microsoft visual studio 10.0\vc\include\utility(134) : see declaration of 'std::_Pair_base<_Ty1,_Ty2>::_Pair_base'
1>          with
1>          [
1>              _Ty1=bool (__cdecl *)(int,int),
1>              _Ty2=bool (__cdecl &)(long,bool)
1>          ]
1>          c:\program files (x86)\microsoft visual studio 10.0\vc\include\utility(174) : see reference to class template instantiation 'std::_Pair_base<_Ty1,_Ty2>' being compiled
1>          with
1>          [
1>              _Ty1=bool (__cdecl *)(int,int),
1>              _Ty2=bool (__cdecl &)(long,bool)
1>          ]
1>          c:\xxx\makepairtest.cpp(14) : see reference to class template instantiation 'std::pair<_Ty1,_Ty2>' being compiled
1>          with
1>          [
1>              _Ty1=bool (__cdecl *)(int,int),
1>              _Ty2=bool (__cdecl &)(long,bool)
1>          ]
share|improve this question
up vote 2 down vote accepted

Taking the address of noFunction works with VC10 and gcc 4.5.2, i.e.:

make_pair(a, &noFunction);

Per the error message you posted, I would guess it has to do with how VC handles binding to rvalues.

share|improve this answer
    
what would be the advantage of taking the address over just casting it to the intended type? – marathon Sep 18 '11 at 3:02
    
Using the C-style cast you're using right now, one could argue the typedef could change and the types might go out of sync without your compiler helping you catch it. If you were using static_cast, the only advantage I can think of is less typing ;) (of taking the address vs static_caating) – Pablo Sep 18 '11 at 16:17
    
The advantage of using the 'address-of' operator over using a cast is that the cast will allow you to accidentally pass a pointer to an incorrect function type. – Michael Burr Sep 19 '11 at 7:25

"My question: is this a defect in VS2010, or GCC bending the rules?"

When in doubt blame Visual C++ and/or Bill Gates. Note that there is a difference between the value of noFunction when used in your code and the type defined by BFunction. noFunction will be a reference to a function whereas BFunction defines a pointer to a function. It is a bit hard to explain but it might help to contemplate the following program.

#include <iostream>
#include <typeinfo>


bool noFunction(long, bool) { return true; }

typedef bool (function_ref)(long, bool);
typedef bool (*function_ptr)(long, bool);

int
main()
{
    std::cout << typeid(noFunction).name() << '\n';
    std::cout << typeid(&noFunction).name() << '\n';
    std::cout << typeid(function_ref).name() << '\n';
    std::cout << typeid(function_ptr).name() << '\n';

    return 0;
}

It seems that Visual C++ is choking on function references. I'm not sure if there is a legitimate reason why it would reject that but I would expect that you should be able to construct a pair with types that are a model of copy constructable. Eg you should be able construct but not assign std::pair<int, int const&>.

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