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In C++ is there a way to convert a type to an integer at compile-time (maybe with typeid) ? My goal is to pass a unique code for each type in that class :

template<int TypeCode>
class MyClass

EDIT : Some more details about what I am trying to do. In fact, MyClass will be more like that :

template<int Code>
class AbstractBase

I write a highly templated code with a lot of CRTP technique, and I need to check compatibilites between types for some operations. To do so, my idea was to inherit compatible types from the AbstractBase class specifying the same code for all these types. Using that, and simply calling std::enable_if<std::is_base_of<AbstractBase<MyCode>, T>::value>::typeI would be able to check for type compatibility for some operations.

At first order, I can generate a code by hand, but it would be more elegant, if I can generate this code from types automatically.

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static_cast if it's properly convertible. typeid is runtime. – chris Dec 19 '12 at 19:39
It's not possible to get a compile time integer from a type, but you can get runtime integer from an address bound to a type which can be then converted to an integer... – K-ballo Dec 19 '12 at 19:40
Can you explain a bit more about what you're trying to do here? – Mark B Dec 19 '12 at 19:46
What info your program will have? Is it void*, unknown template typename T, or derived class? – queen3 Dec 19 '12 at 19:47
What do you need a code for? Why doesn't the type suffice as a unique identifier of itself? :P – Xeo Dec 19 '12 at 19:51
up vote 2 down vote accepted

There are many methods. Here is template specialization:

using namespace std;

template<class T>   struct type_code        { enum{value=0}; };  // unknown type code
template<>          struct type_code <int>  { enum{value=1}; }; 
template<>          struct type_code <float>{ enum{value=2}; }; 

int main() {
        cout << type_code<void>::value << endl;
        cout << type_code<int>::value << endl;
        cout << type_code<float>::value << endl;


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Not sure if I understand you completely. Is this what you are talking about?

template<int TypeCode>
class MyClass
    int i;
    double d;

    template<typename T>
    operator T()
            return i;
        else if(strcmp(typeid(T).name(),"double")==0)
            return d;
        // some other types here ...
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This is not compile-time – Leonid Volnitsky Dec 19 '12 at 20:10
@Leonid - It is not, but he mentioned typeid in his question, which is RTTI. – StackHeapCollision Dec 19 '12 at 20:14

Well, you can create a list of types, then extract the index of a type in that list, at compile time.

From another answer of mine, here is this technique:

#include <type_traits>

template<typename... Types>
struct Seq {};

template<typename T, typename Seq, typename=void>
struct IndexOf;

template<typename T, typename First, typename... Types>
struct IndexOf<T, Seq<First, Types...>, typename std::enable_if< std::is_same<T, First>::value >::type > {
  enum { value = 0 };
template<typename T, typename First, typename... Types>
struct IndexOf<T, Seq<First, Types...>, typename std::enable_if< !std::is_same<T, First>::value >::type > {
  enum { value = 1+IndexOf<T,Seq<Types...>>::value };

typedef Seq< bool, char, unsigned char, short, unsigned short, int, unsigned int, long, unsigned long > IntegerTypes;

#include <iostream>

int main() {
  std::cout << IndexOf< int, IntegerTypes >::value << "\n";
  // this next line will not compile, because void is not in the IntegerTypes sequence:
  // std::cout << IndexOf< void, IntegerTypes >::value << "\n";

where I'm using it on integers.

So if you have a list of types you want integers for, you can just list all the types, and the above technique will give a unique integer for each one (the reverse mapping is also relatively easy -- compile time index into the list to type).

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