# Unique Numerical ID for a Templated Class using Function Address

So, this question has been asked before, but I wanted a question with some of those key words in the title.

The issue is simple: How can I have a templated class, such that for each instance of the template - but not each instance of the class - there is a unique, numerical identifier?

That is, a way to differentiate:

``````foo<int> f1;
foo<char> f2;
classID(f1) != classID(f2);
``````

but,

``````foo<int> f3;
foo<int> f4;
classID(f3) == classID(f4);
``````

Related to:

http://stackoverflow.com/questions/2172879/in-c-how-to-use-a-singleton-to-ensure-that-each-class-has-a-unique-integral-id

http://stackoverflow.com/questions/1409562/assigning-unique-numerical-identifiers-to-instances-of-a-templated-class

-

``````template<class T>
class Base
{
public:
static void classID(){}
private:
T* t;
};

int main()
{
Base<int> foo;
Base<int> foo2;
Base<char> foo3;

/*
unsigned int i  = reinterpret_cast<unsigned int>(Base<int>::classID);
unsigned int ii = reinterpret_cast<unsigned int>(Base<char>::classID);
unsigned int iii = reinterpret_cast<unsigned int>(Base<int>::classID);
/*/
unsigned int i  = reinterpret_cast<unsigned int>(foo.classID);
unsigned int ii  = reinterpret_cast<unsigned int>(foo2.classID);
unsigned int iii  = reinterpret_cast<unsigned int>(foo3.classID);
//*/

return ((i != ii) + (i <= ii) + (i >= ii)) == 2;
}
``````

That's how! It's lightweight, super easy, and doesn't use RTTI, although it uses the ridiculously unsafe reinterpret_cast.

Although, maybe I'm missing something?

-
I've selected my own answer because it is a) simpler and b) static compile time constant, afaik. –  Narfanator Feb 11 '10 at 5:29

I think you can just use a static function for this, and inherit its class:

``````struct IdCounter { static int counter; };
int IdCounter::counter;

template<typename Derived>
struct Id : IdCounter {
static int classId() {
static int id = counter++;
return id;
}
};

struct One : Id<One> { };
struct Two : Id<Two> { };

int main() { assert(One::classId() != Two::classId()); }
``````

Of course, that won't be a static compile time constant - i don't think that is possible automatically (you would have to add those types manually to some type list like `mpl::vector`). Please notice that for just comparing types for equality, you don't need all this. You just need to use `is_same` (found in boost and other libraries and trivial to write) which yields a compile time constant

``````template<typename A, typename B>
struct is_same { static bool const value = false; };
template<typename A>
struct is_same<A, A> { static bool const value = true; };

int main() { char not_true[!is_same<One, Two>::value ? 1 : -1]; }
``````
-
The problem with `is_same`, AFAIK, is that it doesn't support > or <, which means it's not sortable and thus can't use any effective storage object like a tree or map. –  Narfanator Feb 1 '10 at 22:33
This meets all requirements, however, you point out that it's not a static compile time constant? Do you know if my own answer is? (I think it would be, but I'm not sure how to test that.) –  Narfanator Feb 1 '10 at 22:35