I have a template class which does some computation and returns multi_array, a bit oversimplified like this:

```
template <typename T>
class C
{
public:
typedef boost::multi_array<T, 2> result_type;
void do_something(T const& data, unsigned i, unsigned j); // add result to R[i][j]
result_type R;
};
```

Instantiating the class with a simple type `T=double`

works fine. Now, I want to instantiate with "`T=boost::multi_array<double, 1>`

", but such that the result type is `boost::multi_array<double, 3>`

.

The definition `multi_array<multi_array<T, N>, M>>`

does clearly not result in `multi_array<T, N+M>`

, it is just a N-dimensional multi_array with elements being M-dimensional multi_arrays ...

The idea to generate such a type is motivated by the Boost manual saying

MultiArray is recursively defined; the containers at each level of the container hierarchy model MultiArray as well. Actually, it turns out that the "elements" of the intermediate

`multi_array`

levels are of type`subarray`

.

Can one use `subarray`

to generate a `multi_array`

type with an effective dimensionality `N+M`

? Maybe somehow along the following lines:

```
typedef typename boost::multi_array<double, 3>::subarray<1>::type value_type;
boost::multi_array<value_type, 2> a;
```

I'm looking for a relatively clean solution (not a lengthy hack), if this is not possible with the multi_array interface I will better rethink the design of what I'm going to implement.