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Suppose:

  • make_pack_indices<START, END>::type is the type pack_indices<START, START+1, START+2, ..., END-1>

  • make_reverse_indices<std::size_t SIZE>::type is the type pack_indices<SIZE-1, SIZE-2, ..., 2, 1, 0>

  • make_rotated_indices<SIZE, SHIFT>::type is the type pack_indices<SHIFT, SHIFT+1, ..., SIZE-1, 0, 1, 2, ..., SHIFT-1>

  • make_alternating_indices<SIZE, START, INTERVAL>::type is the type pack_indices<START, START + INTERVAL, START + 2 * INTERVAL, ...> until the largest index less than START is reached.

How do I carry out a combination of these forms of make_indices through some sort of composition like

compose<A, C, B, A..., D>::type,

where A,B,C,D are types (functors or whatever) representing the above four make_indices types? So for example,

A = make_pack_indices<1,4>
B = make_reverse_indices<5>
C = make_rotated_indices<5,2>

Then

compose<B,C,A>::type

would be

pack_indices<4,3,2,1,0> -> pack_indices<2,1,0,4,3> -> pack_indices<1,0,4>

A simpler example is that

compose <make_rotated_indices<10,2>, make_rotated_indices<10,4>>::type

would be

make_rotated_indices<10,6>::type. 

Here is an application. Suppose we have the argument pack

('a', 3.14 , 5, "home", '!', 4.5, "car", 20, 0.5, 'b')

We can reverse this using my make_reverse_indices<10>, and we can rotate it to the left by 3 using make_rotated_indices<10,3>. But suppose I want to reverse the pack followed by rotating to the left by 3. Instead of manually doing one followed by the other, I want to define a compose struct that will take make_reverse_indices<10> and make_rotated_indices<10,3> as parameters and give the desired result all in one go, which would be

("car", 4.5, '!', "home", 5, 3.14, 'a', 'b', 0.5, 20)

I think (in the above example) make_reverse_indices<10> and make_rotated_indices<10,3> themselves would need to be converted to something else. make_reverse_indices<10> gives 9,8,7,...,1,0. So make_rotated_indices<10,3> (instead of giving 3,4,5,...9,0,1,2) needs to be turned into another function that accepts the parameter pack 9,8,7,...,1,0 and then carry out the effect of make_rotated_indices<10,3>, thereby giving 6,5,4,...0,9,8,7. Another idea I'm working on: define a helper function to extract the indices from rotated_indices<10,3>::type, turn that into a parameter pack and then apply make_rotated_indices<10,3> on that parameter pack.

Here is the code I already have, in case anyone needs it for testing (the structs themselves have already been tested thoroughly):

#include <iostream>
#include <string>
#include <tuple>

template<std::size_t...>
struct pack_indices
{
    using type = pack_indices;
};

constexpr int positiveModulo(int i, int n)
{
    return (i % n + n) % n;
}

template<std::size_t START, std::size_t END, std::size_t... INDICES>
struct make_indices : make_indices<START + 1, END, INDICES..., START>
{};

template<std::size_t END, std::size_t... INDICES>
struct make_indices<END, END, INDICES...> : pack_indices <INDICES...>
{};


template<std::size_t SIZE, std::size_t... INDICES>
struct make_reverse_indices : make_reverse_indices<SIZE - 1, INDICES..., SIZE - 1>
{};

template<std::size_t... INDICES>
struct make_reverse_indices<0, INDICES...> : pack_indices<INDICES...>
{};


template<std::size_t SIZE, std::size_t SHIFT, std::size_t SHIFT_, std::size_t... INDICES> 
struct make_rotated_indices_helper
    : make_rotated_indices_helper<SIZE, SHIFT, SHIFT_ + 1, INDICES..., positiveModulo(SHIFT + SHIFT_, SIZE)>
{};

template<std::size_t SIZE, std::size_t SHIFT, std::size_t...INDICES>
struct make_rotated_indices_helper<SIZE, SHIFT, SIZE, INDICES...> : pack_indices<INDICES...>
{};

template<std::size_t SIZE, std::size_t SHIFT, std::size_t... INDICES>
struct make_rotated_indices
{
    using type = make_rotated_indices_helper<SIZE, SHIFT, 0, INDICES...>;
};

template<std::size_t SIZE, std::size_t START, std::size_t INTERVAL, std::size_t NUM_LEFT, std::size_t... INDICES>
    struct make_alternating_indices_helper
        : make_alternating_indices_helper<SIZE, START + INTERVAL, INTERVAL, NUM_LEFT - 1, INDICES..., positiveModulo(START, SIZE)>
    {};

template<std::size_t SIZE, std::size_t START, std::size_t INTERVAL, std::size_t... INDICES>
struct make_alternating_indices_helper<SIZE, START, INTERVAL, 0, INDICES...>
    : pack_indices<INDICES...>
{};

template<std::size_t SIZE, std::size_t START, std::size_t INTERVAL, std::size_t... INDICES>
struct make_alternating_indices 
{
    using type = make_alternating_indices_helper<SIZE, START, INTERVAL, (SIZE - 1) / INTERVAL + 1>;
};

// Testing
namespace Pack 
{
    template<typename LAST>
    void print(LAST && last)
    {
        std::cout << std::forward<LAST>(last) << std::endl;
    }

    template<typename FIRST, typename... REST>
    void print(FIRST && first, REST&&... rest)
    {
        std::cout << std::forward<FIRST>(first) << ", ";
        print<REST...>(std::forward<REST>(rest)...);
    }
}

template<typename TUPLE, std::size_t... INDICES>
void showValuesHelper(TUPLE&& tuple,
                                const pack_indices<INDICES...>&)
{
    Pack::print(std::get<INDICES>(std::forward<TUPLE>(tuple))...);
}

template<std::size_t START, std::size_t END, typename... TYPES>
void showMiddleValues(TYPES && ...types)
{
    const auto tuple = std::forward_as_tuple(std::forward<TYPES>(types)...);
    const typename make_indices<START, END>::type indices;
    showValuesHelper (tuple, indices);
}

int main()
{
    std::cout << "original argument pack: ";
    Pack::print('a', 3.14, 5, "home", '!', 4.5, "car", 20, 0.5, 'b');

    std::cout << "showMiddleValues<2,7> = ";
    showMiddleValues<2, 7>('a', 3.14, 5, "home", '!', 4.5, "car", 20, 0.5, 'b'); // 5, home, !, 4.5, car
}
share|improve this question
    
This post is unreadable. I made an edit to fix it, but you overwrote it. Take a look in the revision history to see how to format code. –  Kerrek SB Jun 18 '14 at 21:21
    
I think it is fixed now. –  prestokeys Jun 18 '14 at 21:24
    
So...you're looking for a way to concatenate multiple index sequences into a single sequence? Something like template <typename, typename> struct concat; template <std::size_t..I, std::size_t...J> struct concat<pack_indices<I...>, pack_indices<J...>> { using type = pack_indices<I..., J...>; }; ? –  Casey Jun 18 '14 at 21:28
    
Your compose example does not seem to concatenate the sequences. I really can't say what it does. If you consider your templates as functions composition would be applying the result of one function to another function. This is simply not possible with your templates since the accepted types and the return types do not match. –  pmr Jun 18 '14 at 21:38
    
@0x499602D2 Ah, that's supposed to be a list. So OP wants a meta-function taking N nullary meta-functions returning a list with the results of those functions. I don't see the purpose of such a thing. –  pmr Jun 18 '14 at 21:55

2 Answers 2

One posible solution could be using simple recursion and the binary concatenation:

template<typename LHS , typename RHS>
struct concat;

template<std::size_t... Is , std::size_t... Js>
struct concat<sequence<Is...>,sequence<Js...>>
{
    using type = sequence<Is...,Js...>;
};

template<typename... Ss>
struct multi_concat;

template<typename HEAD , typename... TAIL>
struct multi_concat<HEAD,TAIL...>
{
    using type = typename concat<HEAD,typename multi_concat<TAIL...>::type>::type;
};

template<>
struct multi_concat<>
{
    using type = sequence<>;
};
share|improve this answer
    
But I don't see how 'concat<make_rotated_indices<10,2>, make_rotated_indices<10,4>>::type' would give the net effect make_rotated_indices<10,6>::type as it is expected to be. I think it is composition that I searching for after all, not concatenation (sorry I misunderstood what you guys meant by concatenation). –  prestokeys Jun 18 '14 at 22:32

This is just a start of what I'm trying to achieve. It is not generalized because it is being carried out only for rotation as an illustration (and it is self-composition instead of general composition of arbitrarily many functions):

template <int N, std::size_t SHIFT, std::size_t... INDICES>
struct rotateAgain;

template <int N, std::size_t SHIFT, typename... TYPES>  // N is the number of times rotation by SHIFT is being done
void rotatePack (TYPES&&... types) {
    const typename make_rotated_indices<sizeof...(TYPES), SHIFT>::type indices;
    rotateAgain<N-1, SHIFT>()(indices, types...);
}

template <int N, std::size_t SHIFT, std::size_t... INDICES>
struct rotateAgain {
    template <typename... TYPES>
    void operator() (const pack_indices<INDICES...>&, const TYPES&... types) const {
        const typename make_rotated_indices<sizeof...(TYPES), SHIFT>::type indices;
        Pack::print (Pack::get<INDICES>(types...)...);
        rotatePack<N, SHIFT> (Pack::get<INDICES>(types...)...);
    }
};

template <std::size_t SHIFT, std::size_t... INDICES>
struct rotateAgain<0, SHIFT, INDICES...> {
    template <typename... TYPES>
    void operator() (const pack_indices<INDICES...>&, const TYPES&... types) const {
        std::cout << "End of recursion" << std::endl;
    }
};

There must be some way to generalize this from make_rotated_indices (which is being used above) to any of the make_indices types defined.

share|improve this answer

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