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I have trouble compiling a class, which has function pointers as member variables. The pointers are to functions which take an instance of a class as argument.


template<class T, int N>
double (*f)(Vector<T,N> v);

I get "error: data member 'f' cannot be a member template" Compiler is gcc 4.2.


Before using templates I just had

double (*f)(Vector v);

This also works

double (*f)(Vector<double,2> v)

But I would like to have a function pointer for a function which takes a generic Vector as argument..

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Can you post the signature of a function that f can point to? –  rlbond Apr 27 '10 at 18:07
A bit more context would be helpful for suggesting what you should do. –  GManNickG Apr 27 '10 at 18:11

6 Answers 6

up vote 2 down vote accepted

Use a member typedef:

template <typename T, int N>
class Vector

    /// type of function pointer
    typedef double (*FuncPtr)( const Vector& );


// concrete type
typedef Vector<double,10> VecDouble10;

// actual function
double func( const VecDouble10>& );

// usage
VecDouble10::FuncPtr fp = func;
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I don't understand the first typedef, what would be the alias name for the function pointer? –  Nils Apr 27 '10 at 18:23
Could you explain your answer a bit more, why should it work with typedef if it does not without it? –  Nils Apr 27 '10 at 18:28
There's no magic - it's just a "template" for a concrete typedef in a specialized template. You can explicitly use a type like double (*FP)( const Vector<double,10>& ), typedef just makes it cleaner. –  Nikolai N Fetissov Apr 27 '10 at 18:41
Humm I still don't understand it.. Why are you just using const Vector & in the function pointer, shouldn't it be const vector<T,N>& if it's templated? –  Nils Apr 27 '10 at 18:48
Because it's within the template definition - template parameters are assumed. –  Nikolai N Fetissov Apr 27 '10 at 19:13

If you want to have a "template pointer", you could try a function object. The example below adds 1.0 to the wrapped function template.

struct AcceptsVector {
  template<typename T, int N>
  double operator()(Vector<T,N> v) const { return 1.0 + real_f(v); }

AcceptsVector f;

The difference to a "real" template pointer is that you cannot re-seat "AcceptsVector" to call another template, like you can do with normal function pointers. The binding is hardcoded at compile-time. However you can pass along f like a function pointer, and can call f with any Vector<T, N> like a template.

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That isn't quite valid c++, basically what you're looking for are template-template parameters. explains all about them

Generally, if you get yourself into this situation, you want to find a workaroumd, because your code becomes illegible VERY quickly

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Well, the compiler doesn't know at the compile time, how many f's are you going to have (one for each possible T and N?). Therefore the compiler cannot calculate how much memory do objects of your class need. That's why such constructs are prohibited.

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You can't have a templated pointer to function, that makes no sense. But what you can do is

#include <vector>

template <typename T>
void foo(const std::vector<T>& v) {
   // do something

void (*ptr_foo)(const std::vector<int>&) = &foo<int>;

(here the function pointers a templated function, which template argument is explicitly set to int)

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Because your code makes just as much sense as:

struct X
  template < typename T >
  std::vector<T> vect;

You're trying to make a member variable a template. This is just not a valid C++ construct and I seriously doubt it ever will be.

How do you do what you actually want? I'm not sure since I don't know what you actually are trying to accomplish and why.

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