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I want to do something like this:

template<template<int d, class>
         class container,
         int dim = d, typename content_data_type>
class MyClass {

My Compiler tells me that this is not possible because "d" is not defined outside of:

template<int d, class> class container

Is there maybe another way of doing this ?

Thanks in advance for any help on this topic.


@ Rook: i want to access the "dim" and "content_data_type" parameters later on in a specialization


General class:

template<template<int d, class>
         class container>
class MyClass {

Spec. class:

class MyClass<vec> {
    vec c; // Error: vec needs template parameters

This gave me an error because i used my template class "vec" whitout template parameters, i expected the compiler to deduce the template parameters, e.g. when i use

MyClass<vec<3, float> >

then variable "c" should have the type

vec<3, float>

Because this didn't work, I thought i can create two excplicit template paramters "dim" and "content_data_type" which i can access in the specialization class like this:

template<template<int d, class t>
     class container,
     int dim = d, typename content_data_type = t>
class MyClass<vec> {
    vec<dim, content_data_type> c;

... and sorry again for not being specific enough with the initial question :)

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What are you actually trying to accomplish? Evidently you're going about it the wrong way, but it is hard to give you useful advice without knowing a little more about the underlying problem. –  Rook Jun 27 '12 at 8:57
do you have a complete compilable program? –  BЈовић Jun 27 '12 at 9:06
@SteveJessop maybe post that as an answer anyway.. the answer to the OP's question in the title is obviously 'NO' for the reason you state –  stijn Jun 27 '12 at 9:09
@stijn: done. Thanks, I didn't notice that my comment implied a concrete answer to the question asked :-) –  Steve Jessop Jun 27 '12 at 9:16

3 Answers 3

up vote 3 down vote accepted

I don't think what you're doing makes sense, so the answer is "no".

The template parameter container is a class template, not a class. When MyClass is instantiated, its argument is the whole template, not just one instantiation of it. So it's not possible to default the dimension of MyClass to "the dimension of container", because container doesn't have values for its own template parameters. Your class MyClass can create and use one or more instantiations of container with different values of d, but it isn't given any one of them in particular, it's given the template.

By analogy, suppose you pass a pointer-to-function f as a parameter to a function g. You can't then use "the arguments passed to f" in the definition of g. The function g can call f one or more times with different arguments, but it isn't given any one call in particular, it's given the function.

From your update:

e.g. when i use MyClass<vec<3, float> >

You don't use MyClass<vec<3, float> >, there's no such thing. As I say, MyClass takes a template not a class. vec is a template, vec<3, float> is a class. It sounds like maybe you don't need a template as a template parameter at all.

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Thank you for the clarification! I use the solution proposed by stijn , but your answer points out my error in reasoning. Thank you very much. –  amonsch Jun 27 '12 at 10:51

normally the container would expose the dim member, so this would work:

template< template< int, class> class container, int dim, class content_data_type >
class MyClass 
  typedef typename container< dim, content_data_type > container_type;

  static const int dim = container_type::dim;

template< int d, class >
class acontainer
  static const int dim = d;

MyClass< acontainer, 2, sometype > x;
std::cout << "container size " << x.dim << std::endl;
share|improve this answer
this is exactly what i was trying to avoid, i do not want to specify the dimension and type two times e.g. MyClass<vec<2, float>, 2, float> –  amonsch Jun 27 '12 at 10:04
that's not needed at all (nor legal in your exampl). The syntax I propose is MyClass< vec, 2, float > x; –  stijn Jun 27 '12 at 10:12
i see, sorry :) –  amonsch Jun 27 '12 at 10:23

Below is a workaround, you have to define the two arguments as a type and a static exposed by the container class though (see for example boost::array)

#include <iostream>

template <int d, class T>
struct container
  typedef T value_type;
  static const int static_size = d;

template<typename cont, int d = cont::static_size, class T = typename cont::value_type>
struct A
  static const int dimension = d;

int main(void)
  A<container<10, int> > a;
  std::cout << a.dimension << std::endl;
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