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I'm working with pointer-to-member types inside templates, currently I have something like this going on:

template <typename Base, typename Type, Type Base::* Var>
struct Member
    //Stuff goes here.

But having to define Base, Type, and then Var, seems a little redundant, since Base and Type are implied in Var's type.

Is there some way to do this, such that, when using/calling the Member struct, it only needs to use the single pointer-to-member argument? Like, in theory, something like this:

template <typename Base, typename Type, Type Base::* Var>
struct Member<Var>
    //stuff goes here

struct S
    int memberVal;

int main()
    Member<&S::memberVal> example;

Thanks for the help!

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2 Answers 2

up vote 1 down vote accepted

No way. Only your first variant is correct. You are giving example where the C++ cyntax is not that elegant. Bit it is as it is.

Your second example has syntax of a template specialization. While it is definition of a new template. Most likely this will be put as an objection.

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Theoretically, would it be something that could be added to the C++ standards, or is there some logical flaw or fallacy which would prevent this, in theory, as a whole? –  Serge Aug 8 '12 at 4:04
I do not see flaws in what you are proposing. On the other hand templates are already OVERCOMPLICATED. There is little chance that this would be considered. Presonally I do not see significant gain in adding this feature. By the way, everybody can propose a change. C++ committee is very democratic. –  Kirill Kobelev Aug 8 '12 at 4:07
True; however, as insignificant as it is, in the rare cases that it might come up, it could save a whole lot of boilerplate code. I suppose that the suggestion, as a whole, would be to have implied-type constants in template parameter lists... this is the 2nd "C++ inelegance" issue I've come upon in 2 days... yesterday, it was the lack of pointer-to-member-members issue. –  Serge Aug 8 '12 at 4:13
@Serge: There is a basic issue here: type deduction is never applied to the template arguments. The template argument you want to pass in is a non-type argument, and for those the type must be provided in the template definition. –  David Rodríguez - dribeas Aug 8 '12 at 4:18
I heard stories that a lot of additions were rejected simply because they will be used not enough often. Committee agrees that the proposed feature is useful, but, well, the C++ book is already thick. Think about developer who will read your code years later. What is the chance that he will know something that is written only on the page 836 of the doc? –  Kirill Kobelev Aug 8 '12 at 4:19

What you are asking for cannot be achieved in C++ directly. The limitation is that for non-type template arguments, the type must be provided in the template definition. Type deduction is only applied to function arguments.

Depending on your real use case, there are alternatives that can be done, but they imply moving the member pointer from being a template argument (compile time) to a function argument (runtime). That is, given a type:

template <typename C, typename M>
struct Member {
   M C::*ptr;
   Member( M C::*ptr ) : ptr(ptr) {}

It is possible to create instances of it with the syntax:

auto x = create_member( &S::memberVal );

By using a few metaprogramming tricks, not too complex though:

template <typename T> struct MemberType;
template <typename T, typename M> 
struct MemberType<M T::*> {
   typedef Member<T,M> type;
template <typename T>
typename MemberType<T>::type
create_member( T mbrptr ) {
    typename MemberType::type r(mbrptr);
    return r;

But as I already mentioned, that means transforming the compile time argument into a runtime argument, and thus potentially inhibiting some of the optimizations that the compiler would do (namely inlining).

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Ah, metaprogramming. Perhaps one of my favorite things about C++ these days! –  Serge Aug 8 '12 at 13:59

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