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The Windows Access Control Model: Part 2

, 27 Jun 2005
This second part of the Access Control series will program with the basic Access Control structures.
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// preprocessed version of 'boost/mpl/apply.hpp' header
// see the original for copyright information

namespace boost {
namespace mpl {

template<
      typename F, typename T1 = void_, typename T2 = void_
    , typename T3 = void_, typename T4 = void_, typename T5 = void_
    >
struct apply;

template< typename F >
struct apply0 : F
{
};

template<
      typename F
    >
struct apply< F,void_,void_,void_,void_,void_ >
    : apply0<F>
{
};

namespace aux {
template<
      int N, typename F, typename T1
    >
struct apply_impl1;
}

namespace aux {

template<
      typename F, typename T1
    >
struct apply_impl1<
          1
        , F
        , T1
        >
{
    typedef typename F::template apply<
          T1
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1
    >
struct apply_impl1<
          2
        , F
        , T1
        >
{
    typedef typename F::template apply<
          T1
        , void_
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1
    >
struct apply_impl1<
          3
        , F
        , T1
        >
{
    typedef typename F::template apply<
          T1
        , void_, void_
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1
    >
struct apply_impl1<
          4
        , F
        , T1
        >
{
    typedef typename F::template apply<
          T1
        , void_, void_, void_
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1
    >
struct apply_impl1<
          5
        , F
        , T1
        >
{
    typedef typename F::template apply<
          T1
        , void_, void_, void_, void_
        > type;
};

} // namespace aux

template<
      typename F, typename T1
    >
struct apply1
    : aux::apply_impl1<
          ::boost::mpl::aux::arity< F,1 >::value
        , F
        , T1
        >::type
{
};

template<
      typename F, typename T1
    >
struct apply< F,T1,void_,void_,void_,void_ >
    : apply1< F,T1 >
{
};

namespace aux {
template<
      int N, typename F, typename T1, typename T2
    >
struct apply_impl2;
}

namespace aux {

template<
      typename F, typename T1, typename T2
    >
struct apply_impl2<
          2
        , F
        , T1, T2
        >
{
    typedef typename F::template apply<
          T1, T2
         
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1, typename T2
    >
struct apply_impl2<
          3
        , F
        , T1, T2
        >
{
    typedef typename F::template apply<
          T1, T2
        , void_
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1, typename T2
    >
struct apply_impl2<
          4
        , F
        , T1, T2
        >
{
    typedef typename F::template apply<
          T1, T2
        , void_, void_
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1, typename T2
    >
struct apply_impl2<
          5
        , F
        , T1, T2
        >
{
    typedef typename F::template apply<
          T1, T2
        , void_, void_, void_
        > type;
};

} // namespace aux

template<
      typename F, typename T1, typename T2
    >
struct apply2
    : aux::apply_impl2<
          ::boost::mpl::aux::arity< F,2 >::value
        , F
        , T1, T2
        >::type
{
};

template<
      typename F, typename T1, typename T2
    >
struct apply< F,T1,T2,void_,void_,void_ >
    : apply2< F,T1,T2 >
{
};

namespace aux {
template<
      int N, typename F, typename T1, typename T2, typename T3
    >
struct apply_impl3;
}

namespace aux {

template<
      typename F, typename T1, typename T2, typename T3
    >
struct apply_impl3<
          3
        , F
        , T1, T2, T3
        >
{
    typedef typename F::template apply<
          T1, T2, T3
         
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1, typename T2, typename T3
    >
struct apply_impl3<
          4
        , F
        , T1, T2, T3
        >
{
    typedef typename F::template apply<
          T1, T2, T3
        , void_
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1, typename T2, typename T3
    >
struct apply_impl3<
          5
        , F
        , T1, T2, T3
        >
{
    typedef typename F::template apply<
          T1, T2, T3
        , void_, void_
        > type;
};

} // namespace aux

template<
      typename F, typename T1, typename T2, typename T3
    >
struct apply3
    : aux::apply_impl3<
          ::boost::mpl::aux::arity< F,3 >::value
        , F
        , T1, T2, T3
        >::type
{
};

template<
      typename F, typename T1, typename T2, typename T3
    >
struct apply< F,T1,T2,T3,void_,void_ >
    : apply3< F,T1,T2,T3 >
{
};

namespace aux {
template<
      int N, typename F, typename T1, typename T2, typename T3, typename T4
    >
struct apply_impl4;
}

namespace aux {

template<
      typename F, typename T1, typename T2, typename T3, typename T4
    >
struct apply_impl4<
          4
        , F
        , T1, T2, T3, T4
        >
{
    typedef typename F::template apply<
          T1, T2, T3, T4
         
        > type;
};

} // namespace aux

namespace aux {

template<
      typename F, typename T1, typename T2, typename T3, typename T4
    >
struct apply_impl4<
          5
        , F
        , T1, T2, T3, T4
        >
{
    typedef typename F::template apply<
          T1, T2, T3, T4
        , void_
        > type;
};

} // namespace aux

template<
      typename F, typename T1, typename T2, typename T3, typename T4
    >
struct apply4
    : aux::apply_impl4<
          ::boost::mpl::aux::arity< F,4 >::value
        , F
        , T1, T2, T3, T4
        >::type
{
};

template<
      typename F, typename T1, typename T2, typename T3, typename T4
    >
struct apply< F,T1,T2,T3,T4,void_ >
    : apply4< F,T1,T2,T3,T4 >
{
};

namespace aux {
template<
      int N, typename F, typename T1, typename T2, typename T3, typename T4
    , typename T5
    >
struct apply_impl5;
}

namespace aux {

template<
      typename F, typename T1, typename T2, typename T3, typename T4
    , typename T5
    >
struct apply_impl5<
          5
        , F
        , T1, T2, T3, T4, T5
        >
{
    typedef typename F::template apply<
          T1, T2, T3, T4, T5
         
        > type;
};

} // namespace aux

template<
      typename F, typename T1, typename T2, typename T3, typename T4
    , typename T5
    >
struct apply5
    : aux::apply_impl5<
          ::boost::mpl::aux::arity< F,5 >::value
        , F
        , T1, T2, T3, T4, T5
        >::type
{
};

// primary template (not a specialization!)
template<
      typename F, typename T1, typename T2, typename T3, typename T4
    , typename T5
    >
struct apply
    : apply5< F,T1,T2,T3,T4,T5 >
{
};

} // namespace mpl
} // namespace boost

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About the Author

oshah
Web Developer
United States United States
Mr. Shah is a reclusive C++/C# developer lurking somewhere in the depths of the city of London. He learnt physics at Kings' College London and obtained a Master in Science there. Having earned an MCAD, he teeters on the brink of transitioning from C++ to C#, unsure of which language to jump to. Fortunately, he also knows how to use .NET interop to merge code between the two languages (which means he won't have to make the choice anytime soon).
 
His interests (apart from programming) are walking, football (the real one!), philosophy, history, retro-gaming, strategy gaming, and any good game in general.
 
He maintains a website / blog / FAQ / junk at shexec32.serveftp.net, where he places the best answers he's written to the questions you've asked. If you can find him, maybe you can hire Mr. Shah to help you with anything C++[/CLI]/C#/.NET related Smile | :) .

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