I have the following problem:

template< std::size_t N >
class A
  std::function< std::size_t( /*std::size_t,....,std::size_t <- N-times*/) > foo;

As you can see above, I try to declare an std::function<...> foo as a member of a class A. Here, I want foo to have the return type std::size_t (which is no problem) and as input, I will pass N-times the type std::size_t but I don't know how. Is there any possibility?

Many thanks in advance.

up vote 12 down vote accepted

You can use std::index_sequence:

struct AHelper;

template<std::size_t... S>
struct AHelper<std::index_sequence<S...>> {
    std::function<std::size_t(decltype(S)...)> foo;

template<std::size_t N>
struct A : AHelper<std::make_index_sequence<N>> {};

Live example at coliru

If you like, you could also define to what type it expands:

template<typename, typename>
struct AHelper;

template<typename T, std::size_t... S>
struct AHelper<T, std::index_sequence<S...>> {
    using type = T;

    std::function<std::size_t(type<S>...)> foo;

template<typename T, std::size_t N>
struct A : AHelper<T, std::make_index_sequence<N>> {};

For arbitrary type and not just size_t, just write a helper alias:

template<class T, size_t>
using Type = T;

template<std::size_t... S>
struct AHelper<std::index_sequence<S...>> {
    std::function<size_t(Type<MyArbitraryTypeHere, S>...)> foo;

Ok this was fun. Here is my solution:

namespace details {
template <size_t N, class F = size_t()>
struct Function_type_helper {};

template <size_t N, class... Args>
struct Function_type_helper<N, size_t(Args...)> {
    using Type = typename Function_type_helper<N - 1, size_t(Args..., size_t)>::Type;

template <class... Args>
struct Function_type_helper<0, size_t(Args...)> {
    using Type = size_t(Args...);

template <size_t N, class F = size_t()>
using Function_type_helper_t = typename Function_type_helper<N, F>::Type;

static_assert(std::is_same_v<Function_type_helper_t<3>, size_t(size_t, size_t, size_t)>);
} // ns details

template<size_t N>
struct A
  std::function<details::Function_type_helper_t<N>> foo;

This works by recursively creating the type size_t(size_t, size_t, ..., size_t)

For instance:

H<3>::Type == H<3, size_t()>::Type ==
              H<2, size_t(size_t)>::Type == 
              H<1, size_t(size_t, size_t)>::Type ==
              H<0, size_t(size_t, size_t, size_t)>::Type ==
              size_t(size_t, size_t, size_t)

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