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Should it be possible to write the following code? What I'd like to do is that the do_vector_action could automatically deduce the correct return type of the function (the code I actually have has the function defined in a cpp file, not in the header as here).

class some_class
{
    public:
        std::vector<int> int_vector;
        auto do_vector_action() -> decltype(int_vector_.size())
        {
            decltype(int_vector.size()) something + 1;
            return something;
        }
}

Moreover, I'd like also know, would it be possible to replace typedefs such as

class some_class
{
    public:
        typedef std::vector<int> int_vector_type;
        int_vector_type int_vector;
        int_vector_type::size_type size;
}

with using decltype or some other construct such as

  class some_class
  {
       public:
           std::vector<int> int_vector;
           decltype(int_vector)::size_type size;
  }

as the last snippet with decltype doesn't compile with Visual Studio 2012 RC.

share|improve this question
    
decltype is a C0xx extension (not C++11). It was first implemented in MSVS2010: blogs.msdn.com/b/vcblog/archive/2009/04/22/… – paulsm4 Aug 3 '12 at 21:52
3  
@paulsm4: decltype is a C++11 feature (I'm not sure what C0xx is?) – James McNellis Aug 3 '12 at 22:17
1  
While this can be done, it raises the question of whether it should be done. I in particular, find the typedefs in the first block easier to read than the second block... In particular, if the declaration of the variable and the use are separated, in the decltype case you need to (think) map the variable to it's type, and then think on the member types. I don't like thinking... – David Rodríguez - dribeas Aug 4 '12 at 0:27
    
David, I'm more like just getting my hands and heads around this new syntax and how it feels (my last active usage of C++ was with the C++98 version). You have have point there. – Veksi Aug 4 '12 at 7:52
up vote 5 down vote accepted
decltype(int_vector.size()) something + 1;

This is equivalent to:

std::vector<int>::size_type something + 1;

which is ill-formed (you are declaring a variable named something then... adding one to it?

Your second example, using decltype(int_vector)::size_type is valid. Visual C++ 2010 and 2012 reject it due to a compiler bug(*). As a workaround, you should be able to declare size as:

identity<decltype(int_vector)>::type::size_type size;

assuming the presence of a standard identity template declared as:

template <typename T>
struct identity { typedef T type; };

(*) The ability to use decltype in a nested name specifier was added very near the end of the C++11 standardization process (see N3031 [PDF]). This was after Visual C++ 2010 was completed, and support for this addition was not added in Visual C++ 2012.

share|improve this answer
    
VC++ 2012 claims to implement N3276 -- does that include the pertinent changes from N3031? If so, then VC++ 2012 RTM should support decltype in nested name specifiers. – ildjarn Aug 3 '12 at 22:32
    
Great information, I dropped my answer. – Johan Lundberg Aug 3 '12 at 22:37
    
@ildjarn: I do not know the answer to that question, but I can try to find out (I'm not that familiar with either of these two documents, I just found the one while searching for information on this issue). Out of curiosity: where is it stated that Visual C++ 2012 supports N3276? Visual C++ 2012 does not support the use of decltype in a nested name specifier, so while pieces of N3031 may be supported, this particular piece is not. – James McNellis Aug 3 '12 at 23:39
    
It's mentioned in this blog post. – ildjarn Aug 4 '12 at 1:15
    
@James McNellis: decltype itself was introduced in c++0x and first supported in MSVS 2010, as discussed here, here and here. – paulsm4 Aug 4 '12 at 4:28

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