Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

When using different libraries, I always found that each have a custom type for the same "real word entity".

Say I have a project using points in 3 dimensions, I just use algorithms from OpenCv and PCL(Point Cloud Library). I found myself with these types for a point :

  • Point3_ for OpenCv
  • PointXYZ for PCL
  • Point3d my custom type

Now I have algorithms I wrote for my Point3d, but I also want to use algorithms from these libraries. Converting each point in a big set from one type to another, back and forth, takes memory and time.

What would be the best way to have some kind of abstraction around this ?

share|improve this question
are they binary compatible? –  user1773602 Nov 29 '12 at 14:56
I'm not sure what you mean by binary compatible, but I guess the answer is no : different sizeof, members, padding... I probably need some sort of casting, but I was expecting some black magic. –  ThePluc Nov 29 '12 at 15:03
post the declaration of all three structs –  user1773602 Nov 29 '12 at 15:16
@ThePluc Well, if it's just about black magic, you can probably "assume" that they are binary compatible. As long as they don't use virtual functions or unusual alignment (e.g. for use with SSE) they should just amount to 3 floats/doubles one after the other. So an evil reinterpret_cast might do. Otherwise, if they all have a []-operator, just make your algorithms templates (and probably provide some fundamental things yourself, like normalize...). –  Christian Rau Nov 29 '12 at 15:40
add comment

1 Answer

You could do something like this

template<class T>
    struct Getter{


template<class T>
struct Getter<Point3_<T>>{
     typedef T& type;
     static type getx(Point3_<T>& p){
         return p.x;
struct Getter<PointXYZ>{
     typedef float& type;
     static type getx(PointXYZ& p){
         return p.x;

template <class T>
point_x(T& p) -> Getter<T>::type{
      return Getter<T>::getx(p);


Do the same for y and z Then modify your algorithms to take a template and instead of using p.x = ... use

getx(p) = ..
auto x = getx(p)
share|improve this answer
If you're lucky, they all have the []-operator overloaded and you don't even need those getx wrappers. –  Christian Rau Nov 29 '12 at 15:44
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.