I have a set of types related with a one-to-one relation, for example:

TypeA ---> Type1
TypeB ---> Type2 
TypeC ---> Type3

I know these relation at compile time.

Then, I have a template class that depends on this two types:

template<class T1,class T2>
class MyClass
  T1 foo;
  T2 bar;

Now, the user of my library will type something like:

MyClass<TypeA,Type1> x;

This is inconvenient because there is a dependency between the two types and it should be enough for the user specify only the first type.

Also, mixing the two types shouldn't be possible:

MyClass<TypeA,Type2> y; //it should not compile

I am not very familiar with template meta programming, I got the impression that this is doable task, but I may be wrong.

The number of types involved is big, however I am happy to run a script to generate the code if necessary.

Do you know if it is possible or I am wasting my time? Do you have any ideas to point me on the right direction?

3 Answers 3

template<class T>
struct get_mapped;

struct get_mapped<TypeA>{
    typedef Type1 type;

// and so on....

template<class T>
class MyClass{
    typedef typename get_mapped<T>::type T2;

    T foo;
    T2 bar;
template<class T> struct TypeLetter2TypeDigit;

template<> struct TypeLetter2TypeDigit<TypeA> { typedef Type1 type; };
template<> struct TypeLetter2TypeDigit<TypeB> { typedef Type2 type; };
template<> struct TypeLetter2TypeDigit<TypeC> { typedef Type3 type; };

template<class T1>  // Type2 is not needed
class MyClass 
  // Type2 is deduced.
  typedef typename TypeLetter2TypeDigit<T1>::type T2;
  T1 foo; 
  T2 bar; 
  • Made some corrections. See if it's proper. (Also, do you really need such a long name TypeLetter2TypeDigit ? IMHO something like TypeMap is enough. )
    – iammilind
    Oct 12, 2011 at 12:25
  • @iammilind. Thank you. Long name is needed to show what I want. You or OP may use any name. Oct 12, 2011 at 12:28

Why not just create a wrapper type:

template <typename T1, typename T2>
struct wrapper
   typedef T1 type1;
   typedef T2 type2;

typedef wrapper<TypeA, Type1> TypeX;
typedef wrapper<TypeB, Type2> TypeY;
typedef wrapper<TypeC, Type3> TypeZ;

Then the user says, MyClass<TypeX>;, and you define:

template <typename T>
class MyClass
  typename T::type1 foo;
  typename T::type2 bar;

If you want to guard against misuse of the template, use a partial specialization:

template <typename> class MyClass; // undefined

template <typename S, typename T>
class MyClass<wrapper<S,T>>
  S foo;
  T bar;

This approach can easily be extended to include further compile-time data into the wrapper class. Alternatively, you could use std::pair with member types first_type and second_type instead.

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