I tried to find a solution for the problem of the question C++ template non-type parameter type deduction, which does not involve a template parameter to call f, but implicitly chooses the correct type for the template parameter.

Since *constexpr* should guarantee that a function only contains compile time constants, and is evaluated at compile time (at least thats what i think it does), i thought it might be the solution for this issue.
So i came up with this:

```
template <class T, T VALUE> void f() {}
//first i tried this:
template <class T> auto get_f(T t) -> decltype( &f<T,t> ) { return f<T,t>; }
//second try:
template <class T> constexpr void (&get_f( T t ))() { return f<T,t>; }
int main()
{
get_f(10)(); //gets correct f and calls it
}
```

first version generates following error:

```
error: use of parameter 't' outside function body
```

which is really confusing, since the usage of parameters in the decltype statement of a trailing return type should be ok?

second version generates following error:

```
error: invalid initialization of non-const reference of type 'void (&)()'
from an rvalue of type '<unresolved overloaded function type>'
```

which is kinda confusing, since i fully qualified `f`

in `get_f`

.
I would expect this kind of error messages if i did not have the `constexpr`

. So do i have a false understanding of what `constexpr`

does, or is the C++0x implementation of GCC flawed for this case ?

I am using GCC 4.6.2

`insufficient contextual information to determine type`

. I can imagine that the problem is that the different template instances of`f`

all have indistinguishable signatures for varying values of`t`

. – Kerrek SB Jul 18 '11 at 23:55