There are basically two ways, which differ in the idea only: Indices (when you have (functional) variadic templates available), or manually building the tuple as you go along (when you have Visual C++).

Indices:

```
template<unsigned... Is> struct seq{};
template<unsigned I, unsigned... Is>
struct gen_seq : gen_seq<I-1, I-1, Is...>{};
template<unsigned... Is>
struct gen_seq<0, Is...>{ using type = seq<Is...>; };
template<unsigned N, template<unsigned> class TT,
class Seq = typename gen_seq<N>::type>
struct tuple_over{};
template<unsigned N, template<unsigned> class TT, unsigned... Is>
struct tuple_over<N, TT, seq<Is...>>{
using type = std::tuple<typename TT<Is>::type...>;
};
```

Manual recursion:

```
template<unsigned N, template<unsigned> class TT, class TupleAcc = std::tuple<>>
struct tuple_over{
using tt_type = typename TT<N-1>::type;
// since we're going from high to low index,
// prepend the new type, so the order is correct
using cat_type = decltype(std::tuple_cat(std::declval<std::tuple<tt_type>>(), std::declval<TupleAcc>()));
using type = typename tuple_over<N-1, TT, cat_type>::type;
};
template<template<unsigned> class TT, class Tuple>
struct tuple_over<0, TT, Tuple>{ using type = Tuple; }
```

Usage is the same for both versions:

```
using result = tuple_over<COUNT, Element>::type;
```

Live example for indices.

Live example for manual recursion.

`unsigned...`

? – Kerrek SB Jul 11 '13 at 20:30