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The application I have in mind is something akin to a Vector<size> class, in which I wish to declare

CrossProduct(const Vector<size>& other)

only for when size is 3. I know there are ways I can hack around it...

  • Include a function definition only for size=3
  • let all other sizes yield linker errors
  • Do a static assert at the start of the method to check if size is 3

Is there any way to properly only declare the member function for a particular instantiation?

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Thanks for the edits =) –  Dan M. Katz Mar 20 '13 at 19:52
Are you looking for compile-time support, or would generating a run-time error satisfy your needs? –  Porkbutts Mar 20 '13 at 19:59

3 Answers 3

up vote 5 down vote accepted

Here's one way to do it:

template <class Type, size_t Size>
struct EnableCrossProduct


template <class Type>
struct EnableCrossProduct<Type, 3>
  void CrossProduct(const Type & other){}

template <size_t Size>
struct Vector : public EnableCrossProduct<Vector<Size>, Size>
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Have fun repeating // whatever. –  GManNickG Mar 20 '13 at 20:01
I would rather not re-write the entire class in order to add one or two functions. –  Dan M. Katz Mar 20 '13 at 20:01
@GManNickG There we go, fixed –  Zadirion Mar 20 '13 at 20:10
Looks good! Could make the destructor of EnableCrossProduct protected and yada yada but the idea is the same. –  GManNickG Mar 20 '13 at 21:24
@GManNickG interesting, good point. For anyone else wondering why, making the destructor of EnableCrossProduct protected prevents anyone from instantiating EnableCrossProduct alone, or calling delete on an EnableCrossProduct *. –  Zadirion Mar 20 '13 at 21:30

If you can get the size info at compile-time, you can use std::enable_if.

template<int N>
struct Vector
    static const int size = N;
    double data[N];
    // ...

    template<class V>
    double CrossProduct( const V& other, 
        typename std::enable_if< size == 3 && V::size == 3 >::type* = 0) const
        // ...
        return 0;

void foo( const Vector<3>& v3, const Vector<4>& v4 )
    v3.CrossProduct( v3 ); // Ok
    v3.CrossProduct( v4 ); // Compile-time error

You might just want to make that condition in the enable_if size == V::size.

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Both CrossProduct(v3) and CrossProduct(v4) are compile time errors... it's a member function. –  Alex Chamberlain Mar 20 '13 at 20:04
Your second SFINAE example isn't correct. It'll fail it the mere instantiation of Vector<4>, for example, without even trying to use CrossProduct. Also, specialization means repeating information (// ...) or factoring it out. –  GManNickG Mar 20 '13 at 20:04
Fixed both issues. –  metal Mar 20 '13 at 20:06
As far as @GManNickG's point about specialization meaning repetition, it can. But here if the OP doesn't want to support cross product for Vector4's or if he only want to support it for vectors of the same size, he could write it once with enable_if. –  metal Mar 20 '13 at 21:21

I would prefer the static_assert method. This

  • leads to the clearest error message
  • is appropriate since there is no need for SFINAE
  • is the easiest way.
share|improve this answer
Yeah...It IS nice, but it's unfortunate that it pollutes the Itellisense of Visual Studio. A minor grievance, I know, but it affects the usability of the class a bit for my purposes. –  Dan M. Katz Mar 20 '13 at 20:04
There are people out there that don't code with Intellisense (like me). If they use your code, you have to think of them as well. –  ipc Mar 20 '13 at 20:11
Ideally I would find a solution that fits both parties' needs. Seems it's unlikely though. It didn't hurt to ask =) –  Dan M. Katz Mar 20 '13 at 20:31

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