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Given a template like

template<int dim> class Point { ... };

this template can be instantiated explicitly like

template class Point<0>;
template class Point<1>;
template class Point<2>;
template class Point<3>;

instead of instantiating every template individually like above, I would like to instantiate them recursively with one call like

template class RecursiveInstantiate<Point, 3>;

where RecursiveInstantiate<T, i> would instantiate T<i>, T<i-1>, ..., T<0>. Is it somehow possible to create such a class RecursiveInstantiate? If it is not possible, do you know a way to do it with the preprocessor?

In fact I am interested in generalizing this for classes with multiple template parameters likeNode<int i1,int i2,int i3> for all combination of i1,i2,i3 in {0,1,2,3}. But I hope to be able to work out this second part by myself.

Any advice, also an explanation why it is impossible what I want to achieve is appreciated.


Update: thank you for your comments so far. I see now more clearly where the problem really is. The line

template class Point<3>;

instantiates the template and exports its symbols to the object file. An instantiation of the form

template class RecursiveInstantiate<Point, 3>;

may instantiate the classes class Point<3>, class Point<2>, .... Apparently this only happens locally though. The templates are not exported to the object file. Maybe I will have to look for a solution using the preprocessor.

As I see now that I did not ask my question precisely enough in the beginning, I appreciate your answers and selected ones as correct.

Note: I am trying this on linux with g++/clang as compilers.

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2 Answers 2

up vote 6 down vote accepted

You could make a little Instantiator class:

template <unsigned int N> struct Instantiator
{
  Point<N> p;
  Instantiator<N-1> i;
};

template <> struct Instantiator<0>
{
  Point<0> p;
};

Then simply add one explicit instantiation: template struct Instantiator<81>;

You can extend this idea lexicographically to any number of integral parameters.


As @Georg says, let's make it generic:

template <template <unsigned int> class T, unsigned int N> struct Instantiator
{
  T<N> t;
  Instantiator<T, N-1> i;
};

template <template <unsigned int> class T> struct Instantiator<T, 0>
{
  T<0> t;
};

template struct Instantiator<Point, 82>;
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Make it template<class T, unsigned N> struct I { T<N> p; I<T, N-1>; }; .... Also, using meta-algorithms & meta-functions would avoid hard-coding parameter counts (see what Boost.MPL does). –  Georg Fritzsche Sep 12 '11 at 23:23
    
@Georg: I like your style! –  Kerrek SB Sep 12 '11 at 23:24
    
This solution looks very nice, I really like your generic solution. I still have struggles getting this to work. The approach compiles nicely, yes, but somehow the symbols for Point<0> are not exported into the object file, which is what the code template class Point<0>; would be doing. I will have to investigate this further tomorrow. I am using g++/clang on Linux, but I'm not sure if this is specific to my architecture. –  H. Brandsmeier Sep 13 '11 at 0:00
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You can do that like this:

template<int dim> struct Point {
    static const int val = dim;
    Point<dim - 1> p;
};

template<> struct Point<0> { ... };

That creates a template specialisation for the template parameter when it is 0 so the recursion stops there, and when you instantiate one like this:

Point<4>

It instantiates from Point<4> down to Point<0>. Then you can do

Point<4>::val

to access the value of that particular one.

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3  
That requires modifying and having control over the definition of Point, though. –  Kerrek SB Sep 12 '11 at 23:20
    
@Kerrek the concept can easily be extended to be used without modifying Point. –  Seth Carnegie Sep 12 '11 at 23:21
    
This approach did not work for me. If I instantiate template class Point<4>; then only the symbols for Point<4> get exported into the object file, not the other symbols, although indeed the recursion is correctly executed by the compiler. –  H. Brandsmeier Sep 13 '11 at 7:40
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