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Is there some vendor-specific type inference mechanism in Microsoft Visual C++ 2008, similar to the standardized auto or decltype in C++0x?

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2 Answers 2

up vote 5 down vote accepted

No, nothing like that, standard nor vendor specific nor addon. You'll have to upgrade to VS2010, it implements auto.

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If you need the Visual C++ 2010 compilers now, you can download the Windows SDK. –  In silico Nov 27 '10 at 14:35
    
+1: You have to upgrade to VS2010 for auto or decltype or equivalents- there's no GCC-style typeof(). The Express edition is of course free, but the others are not. –  Puppy Nov 27 '10 at 14:36

Quoting from a Boost mailing list article by Arkadiy Vertleyb:

God only knows what else can be found inside this compiler if one is willing to dig real deep.

For example, Igor' Chesnokov from RSDN (Russian Software Development Network) has found a way to implement typeof() that does not require registration, and probably has compile-time performance of a native typeof.

How? Apparently, some weird "feature" of Visual C++ allowed him to twick a template body at the moment of instantiation, when additional context is available, thus "registering" classes on the fly, at the moment of taking typeof().

Microsoft-specific "bugfeatures" are generally not in the area of my interests. However I do realize that, on the Microsoft compiler, this might look much more attractive then anything Peder and I have implemented. And even though I realize that this might be a serious competition, I would feel really bad not to mention this here:

http://rsdn.ru/Forum/?mid=1094305

And quoting Igor Chesnokov's code from the page referenced by the quoted link above:

// type_of() evil implementation for VC7
//
// (c) Chez
// mailto:chezu@pisem.net

#include "stdafx.h"

// This file contains:
// 1) type_id(type)
// 2) var_type_id(expersssion)
// 3) type_of(expression)

// IMPLEMENTATION
template<int ID>
class CTypeRegRoot
{
public:
    class id2type;
};

template<typename T, int ID>
class CTypeReg : public CTypeRegRoot<ID>
{
public:
    class CTypeRegRoot<ID>::id2type // This uses nice VC6-VC7 bugfeature
    {
    public:
        typedef T Type;
    };

    typedef void Dummy;
};

template<int N>
class CCounter;

// TUnused is required to force compiler to recompile CCountOf class
template<typename TUnused, int NTested = 0>
class CCountOf
{
public:
    enum
    {
        __if_exists(CCounter<NTested>) { count = CCountOf<TUnused, NTested + 1>::count }
        __if_not_exists(CCounter<NTested>) { count = NTested }
    };
};

template<class TTypeReg, class TUnused, int NValue> // Helper class
class CProvideCounterValue
{
public:
    enum { value = NValue };
};

// type_id
#define type_id(type) \
    (CProvideCounterValue< \
        /*register TYPE--ID*/ typename CTypeReg<type, CCountOf<type >::count>::Dummy, \
        /*increment compile-time Counter*/ CCounter<CCountOf<type >::count>, \
        /*pass value of Counter*/CCountOf<type >::count \
     >::value)

// Lets type_id() be > than 0
class __Increment_type_id { enum { value = type_id(__Increment_type_id) }; };

template<int NSize>
class sized
{
private:
    char m_pad[NSize];
};

template<typename T>
typename sized<type_id(T)> VarTypeID(T&);
template<typename T>
typename sized<type_id(const T)> VarTypeID(const T&);
template<typename T>
typename sized<type_id(volatile  T)> VarTypeID(volatile T&);
template<typename T>
typename sized<type_id(const volatile T)> VarTypeID(const volatile T&);

// Unfortunatelly, var_type_id() does not recognize references
#define var_type_id(var) \
    (sizeof(VarTypeID(var)))

// type_of
#define type_of(expression) \
    /* This uses nice VC6-VC7 bugfeature */ \
    CTypeRegRoot<var_type_id(expression)>::id2type::Type

// auto_operator
#define auto_operator(arg1, arg2, op) \
    type_of(instance(arg1) op instance(arg2)) operator op


// TEST    
class A
{
public:
    friend static const char* operator +(const A& a, const A& b)
    {
        return "chijik-pijik";
    }
};

template<typename T>
class Plus
{
public:
    friend static type_of(T() + T()) operator +(const Plus<T>& a, const Plus<T>& b)
    {
        return a.m + b.m;
    }

    T m;
};

int _tmain(int argc, _TCHAR* argv[])
{
    Plus<A> a1, a2;
    const char* x = a1 + a2;

    return 0;
}

Now I haven't tried this code, and, since it uses compiler-specific stuff, do note that it's for MSVC 7.x. So it may or may not work with a later version. Hopefully it does?

Cheers & hth.,

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