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I'm trying to implement μ-recursive function on C++11 templates, but I have problem with substitution function. S<f, g_1, .... g_m>::apl(x_1,... x_n) = f::apl(g_1(x_1,... x_n), ... g_m(x_1,... x_n)); Because of any possible n(args number), I use variadic templates. I can't make recursion in private function of S, use S's type template parameter pack. Is it possible fix it, or do another way? May be via using nested structs, but functions?

Problem Code:

template<typename F, typename g, typename ... G>
struct S{
            static void get_g_results(arguments const & input, arguments& output)
            {
            }

/* error is here :no matching function for call to 'get_g_results'
 get_g_results<G...>(v, output); 
 candidate template ignored: "could't infer template argument 'q'"*/

            template<typename q, typename ... Q>
            static void get_g_results(arguments const & input, arguments& output) {
                    output.push_back(q::apply(input));
                    get_g_results<Q...>(input, output);
            }

            static nat apply(arguments const & v) {
                    arguments output(1, g::apply(v));
                    get_g_results<G...>(v, output);
                    return F::apply(output);
            }
            template<typename ... T>
            static nat apl(T ... ret) {
                    return apply(get_arguments(ret...));
            }
}

S<N,U<2, 1> >::apl(5, 3);

All Code:

using namespace std;
typedef unsigned nat;
typedef vector<nat> arguments;
    void get_arguments(arguments &a)
{
    a.size();
}

template<typename ... T>
void get_arguments(arguments& a,nat first, T ... rest)
{
    a.push_back(first);
get_arguments(a, rest...);

}


template<typename ... T>
arguments get_arguments(nat first, T ... rest)
{
    arguments a(1, first);
get_arguments(a, rest...);
return a;
}

template <nat n, nat m>
struct U{
    static const nat arg_num = n;
    static_assert(n != 0 && m != 0 && n >= m, "invalid template parametrs ");

    static nat apply(arguments const & v) {
        assert(v.size() == arg_num);
        return v[m - 1];
    }

    template<typename ... T>
    static nat apl(T ... ret) {
            return apply(get_arguments(ret...));
   }

};

struct N {

    static const nat arg_num = 1;
    static nat apply(arguments const & v) {
        assert(v.size() == arg_num);
        return v[0] + 1;
    }

    template<typename ... T>
    static nat apl(T ... ret) {
        return apply(get_arguments(ret...));
    }

};



template<typename F, typename g, typename ... G>
struct S{
        static const nat arg_num = g::arg_num;
        static const nat f_arg_num = F::arg_num;
private:
        static void get_g_results(arguments const & input, arguments& output)
        {
        }

/* error is here :no matching function for call to 'get_g_results'
     get_g_results<G...>(v, output); 
     candidate template ignored: "could't infer template argument 'q'"*/

        template<typename q, typename ... Q>
        static void get_g_results(arguments const & input, arguments& output) {
                output.push_back(q::apply(input));
                get_g_results<Q...>(input, output);

        }

        static nat apply(arguments const & v) {
                assert(v.size() == arg_num);
                arguments output(1, g::apply(v));
                get_g_results<G...>(v, output);
                return F::apply(output);
        }
public:
        template<typename ... T>
        static nat apl(T ... ret) {
                return apply(get_arguments(ret...));
        }

};


int main(int argc, const char * argv[]) {
    cout << U<4, 3>::apl(1, 2, 3, 4) << endl;// output: 3
    cout << N::apl(4) << endl; // output: 5
    cout << S<N,U<2, 1> >::apl(5, 3) << endl; 
   // error:could't infer template argument 'q'

    return 0;
}
share|improve this question
    
What is N in N::apl(4) and S<N,U<2,2>>? (I don't see any declaration..) –  dyp Nov 16 '13 at 13:37
    
Well the error is originating here: get_g_results<G...>(v, output); When you haven't supplied any template arguments for G, you don't specify any template argument for get_g_results, and q requires one (that cannot be deduced from the function arguments). –  dyp Nov 16 '13 at 13:40
    
Sorry, I have forgotten about N. Fixed. But how can I fix it? –  Skipor Nov 16 '13 at 13:46

1 Answer 1

up vote 2 down vote accepted

This should do the trick:

template<typename F, typename... G>
struct S {

    static nat apply(arguments const & args) {
        arguments output = { G::apply(args)... };
        return F::apply(output);
    }

    template<typename... T>
    static nat apl(T... x) {
        arguments args = { static_cast<nat>(x)... };
        return apply(args);
    }
};

See a live demo here!

share|improve this answer
    
Wow! Really nice solution. Thanks!!! –  Skipor Nov 16 '13 at 15:58

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