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I am learning Boost.MPL and I am just starting. So please forgive me if solution is obvios. I look at such sample:

#include <boost/mpl/vector.hpp>
#include <boost/mpl/for_each.hpp>
#include <iostream>

using namespace std;

struct A
    template <class T>
    void    operator()(T t)
        cout << typeid(T).name() << "\t" << t << endl;

    template <class TypeVector>
    void    FooAll(void)

void main(void)
    A   a;
    a.FooAll<boost::mpl::vector<int, float, long>>();

and cant help but wonder how to get rid of boost::mpl::vector when calling FooALL (turn it into a.FooAll<int, float, long>();) and for each argument call some static/global/or class internal function, not *this that confuses me?

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1 Answer 1

please look at boost tuple implementation (solves a similar problem). The main idea is that you can specify a maximum number of template arguments for your FollAll<...>() method, and provide default types for most of them. Here is a sketch of what I have in mind

#include <boost/type_traits/is_same.hpp>
#include <boost/mpl/eval_if.hpp>
#include <boost/mpl/vector.hpp>
#include <boost/mpl/push_back.hpp>

using boost::is_same;
using boost::mpl::eval_if;
using boost::mpl::vector;
using boost::mpl::push_back;

struct EmptyType {  };

struct A
  template<typename arg1, typename arg2=EmptyType, typename arg3=EmptyType, ..., typename argN=EmptyType>
  void    FooAll() {
      // reconstruct the type vector for easy manipulation later
      // Bolierplate code!
      typedef vector<arg>   vector_arg1;       
      typedef typename eval_if<is_same<arg2, EmptyType>,
                                push_back<vector_arg1, arg2> >::type  vector_arg2;
      typedef typename eval_if<is_same<arg3, EmptyType>,
                                push_back<vector_arg2, arg3> >::type  vector_arg3;
      //... rest of arguments
      typedef typename eval_if<is_same<argN, EmptyType>,
                                push_back<vector_arg(N-1), argN> >::type  vector_argN;

      // now you can manipulate the reconstructed type vector

If you want to go 'high-tech' you can try out a C++11 standard feature named Variadic Templates. But be sure that compilers you are targeting, already support this feature.

Best Regards, Marcin

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@user1072853 I've updated the example with more details. I did not have access to compiler, so please treat this code only as a sketch. –  Marcin Dec 1 '11 at 16:38

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