I think this one basically has to be recursive. There is no such thing in the standard library, and for once I can't come up with a Boost.Mp11 one-liner.

```
namespace impl {
template <typename T>
struct unfold_t {
using type = std::tuple<T>;
};
template <typename A, typename B>
struct unfold_t<std::pair<A, B>> {
using type = mp_push_back<typename unfold_t<A>::type, B>;
};
}
template <typename T>
using unfold = typename impl::unfold_t<T>::type;
```

With an assist from T.C., the newest edition of Mp11 (1.73) has an algorithm named `mp_iterate`

which we can use thusly.

Given `std::pair<std::pair<X, Y>, Z>`

, if we apply `mp_first`

repeatedly (as `R`

) we get the sequence:

`std::pair<std::pair<X, Y>, Z>`

`std::pair<X, Y>`

`X`

Then, if we apply `mp_second`

to that sequence, we get:

That's pretty close. We do need that `X`

. So we need a more complex metafunction for `F`

: we need to get the second value if possible. There's a metafunction for that:

```
template <typename L>
using second_or_self = mp_eval_or<L, mp_second, L>;
```

And now `mp_iterate<T, second_or_self, mp_first>`

gives us `mp_list<Z, Y, X>`

. All we need to do at that point is reverse it and turn it into a `std::tuple`

:

```
template <typename L>
using unfold = mp_rename<mp_reverse<
mp_iterate<L, second_or_self, mp_first>>,
std::tuple>;
```

Now that Boost.173 is on compiler-explorer, demo.

Or, I suppose, if you really hate your readers, you can make this a single alias:

```
template <typename L>
using unfold = mp_rename<mp_reverse<
mp_iterate_q<L,
mp_bind<mp_eval_or_q, _1, mp_quote<mp_second>, _1>,
mp_quote<mp_first>>>,
std::tuple>;
```

`pair<pair<a, b>, c>`

into`tuple<a, b, c>`

? That doesn't seem like a "fold" to me - more like an unfold. – Barry May 1 '20 at 14:13