Given N, you could generate a sequence-type called`seq<0,1,2,3,...N-1>`

using a generator called `genseq_t<>`

, then do this:

```
template<typename T, int N>
void f(T value)
{
//genseq_t<N> is seq<0,1,...N-1>
std::array<T, N> items = repeat(value, genseq_t<N>{});
}
```

where `repeat`

is defined as:

```
template<typename T, int...N>
auto repeat(T value, seq<N...>) -> std::array<T, sizeof...(N)>
{
//unpack N, repeating `value` sizeof...(N) times
//note that (X, value) evaluates to value
return {(N, value)...};
}
```

And the rest is defined as:

```
template<int ... N>
struct seq
{
using type = seq<N...>;
static const std::size_t size = sizeof ... (N);
template<int I>
struct push_back : seq<N..., I> {};
};
template<int N>
struct genseq : genseq<N-1>::type::template push_back<N-1> {};
template<>
struct genseq<0> : seq<> {};
template<int N>
using genseq_t = typename genseq<N>::type;
```

Online demo

Hope that helps.

`std::array`

is an aggregate, there is not that much you can do about itthat much you can do, although you can to this :) +13more comments