Not directly possible with typedefs; wherever a typedef is used, it is *equivalent* to the original type, so if you write

```
typedef boost::function<void(A)> B;
typedef boost::function<void(B)> A;
```

then `B`

would be equivalent to `boost::function<void(A)>`

,
which is equivalent to `boost::function<void(boost::function<void(B)>)>`

, and so on, until you get

```
boost::function<void(boost::function<void(boost::function<void(...)>)>)>
```

, which is a type of infinite length.

You can, however, define (at least) one of the two types as a `struct`

or `class`

:

```
struct A;
typedef boost::function<void(A)> B;
struct A
{
B b;
A(B b) : b(b) {}
// optional:
void operator() (A a) { b(a); }
};
```

You might need to add more constructors and/or a conversion operator to make the type behave completely "transparently", or you could just access the struct explicitly.