Someone correct me if I'm wrong but it seems like it's correct from this quote:

3 A template-argument matches a template template-parameter (call it P) when each of the template parameters in the template-parameter-list of the template-argument’s corresponding class template or [FI 11] template aliasalias template (call it A) matches the corresponding template parameter in the template-parameter-list of P

`A`

(the given template) has to match each of it's templates parameters to `P`

's the template template.

From the second part of the section we learn the restriction doesn't apply in the reverse, meaning a template template containing a parameter pack can match anything.

When P’s template-parameter-list contains a template parameter pack (14.5.3), the template parameter pack will match zero or more template parameters or template parameter packs in the template-parameter- list of A with the same type and form as the template parameter pack in P

As you probably already knew the way to make it work is

```
template<template<class> class T,class U>
struct apply
{
typedef T<U> type;
};
template<class T> using tuple_type = std::tuple<T>;
typedef apply<tuple_type,int>::type tuple_of_one_int;
```

The c++11 standard also has an equivalent example to yours.

```
template <class ... Types> class C { /∗ ... ∗/ };
template<template<class> class P> class X { /∗ ... ∗/ };
X<C> xc; //ill-formed: a template parameter pack does not match a template parameter
```

The last comment completely describes your situation, class `C`

would be the equivalent of `std::tuple`

in this case.

`template<typename T> using my_tuple = std::tuple<T>; typedef apply<my_tuple, int>::type tuple_of_one_int`

. – Simple Dec 3 '13 at 16:36`template<class T> using tupl = std::tuple<T>;`

. – zch Dec 3 '13 at 16:36`template<class>`

to`template<class...>`

makes it work, btw. – Nazar554 Dec 3 '13 at 16:37