Well these days I don't really use Boost.MPL sequences, I simply pass types as variadic template parameters and/or pack them into std::tuple in lieu of e.g. mpl::vector.
And then with_sequence<T...>::make_overload delegates to the 'real' make_overload.
so return type would be decltype( ::make_overload(t...) ) (assuming a global make_overload which should be enclosing_namespace::make_overload in real code)
The thing is, after the third time of writing template<int... Indices> struct indices { typedef indices<I..., sizeof...(Indices)> type; }; I refactored it all.
And I use just one such indices type to do it all.
The unfortunate side is that it costs a function call to use it.
@HighCommander4 I'm getting around to implement MAKE_OVERLOAD and there's a hitch: I don't think it's possible to discard the superfluous names.
Given template<typename T> make(T&&);, then make(f) is an error if f is an overloaded name: it's not possible to pick one.
It's solvable though: I'll just arbitrary pick the first type of the sequence as a parameter.
So now it's template<typename First, typename... Rest> struct with_sequence<First, Rest...> { static unspecified make_overload(First const&, Rest... const&, First const&, First const&, First const&, First const& and so on (Boost.PP for that last repetition)
Well, I think I have written an implementation. Unfortunately I can't test it because GCC doesn't behave well. It apparently is using deduction on the parameter pack Rest const&... whereas make_overload is a function, not a template!