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<> - read this as a template;

I can do this:

void f() {}

//Here I'm declaring a fnc as a <> param
template<void (*fnc)()>
struct Factor { };

int main()
  Factor<f> fac;
  return 0;

but I cannot do this:

#include <sstream>

template<class R, class T>
R make_(T first, T second)
    std::stringstream interpreter;
    R result = R();
    interpreter << first << '.' << second;
    interpreter >> result;
    return result;

//Here I'm (trying) to declare fnc <> as a <> param
template<template<class T,class R> R (*fnc)(T,T)>
struct Factor { };

int main(int argc, char* argv[])
  Factor<make_> fac;
  return 0;

The BIG Q is: How (if possible) can I declare as a template parameter a fnc template?


Providing that I've used Armen's advise: I would like to be able to do something like this (in main):

Factor<f<"1","02">> m;

Then in m I could make a double type out of those args ("1", "02")

share|improve this question
What's the bigger picture? – GManNickG Oct 28 '10 at 19:57
@GMan the BIGGER picture ;) is that I'm trying to create a policy for my Map container (very unusual and very non-standard) that this policy would control by how much "new" capacity would be increased if the allocated mem. would get exhausted. That's why I want this to be able to take 2 params one for real and the second for "unreal" part of the real number and by doing so I would be able to have factor for example 1.5 or 2.5 for increasing capacity for my map. – There is nothing we can do Oct 28 '10 at 20:04
@All gotta go (wife wants to watch some movie and I've promised her to do so tonight). Will check all your great comments tommorow. Thanks. – There is nothing we can do Oct 28 '10 at 20:07
Steve M's solution will work for you, though JoshD's mention of adding parameters to your make_<> template would work as well, if fnc were altered to accept functions with a return type and parameters. – Harper Shelby Oct 28 '10 at 20:13

There is no syntax for that in C++. What you should do is instead of function template use functor template, which would fit as a template template parameter.


template <class R, class T>
struct f
    R operator () (T const&)

template <template<class R, class T> class F >
struct foo

int main()
    foo<f> d;
share|improve this answer
@Armen yo my men, would you care to edit your answer with... ahem... appropriate example so my simple, murky brain can be enlightened? – There is nothing we can do Oct 28 '10 at 19:27
@There: yo yo ... done – Armen Tsirunyan Oct 28 '10 at 19:33
@Armen I'm still unclear how would I pass arg to f for it's operator()(T const &)? – There is nothing we can do Oct 28 '10 at 19:55
@Armen could you plese update your answer and show how can I pass args to f::operator() ? – There is nothing we can do Oct 29 '10 at 12:03
@There: I don't quite understand what you mean. In your code I don't see where you pass args. Where do you want to pass args? – Armen Tsirunyan Oct 29 '10 at 13:00

Your syntax has some issues. What you do at the end with Factor<make_> fac; is similar to declaring vector<map> v; You need to provide parameters to the template to make it concrete: Factor<make_<int,int> > fac;. But that isn't the whole issue; there are many.

What you're doing with your function isn't quite right. You are providing a specific function (f in the first example), which can be done as a constructor parameter. You should reevaluate your design.

share|improve this answer
Templates do more than "allow types". Quite a few template metaprogramming techniques depend on the flexibility of templates in this regard. – Harper Shelby Oct 28 '10 at 19:32
@Harper Shelby: yes, I wasn't clear about that. My point was that having a template for a function pointer is misguided. That type of thing can easily be done via a parameter to a constructor. If he were to provide a template parameter that could specify a functor class, that would be more proper (in my opinion). – JoshD Oct 28 '10 at 19:36
While I can see your syntax argument, suppose the OP wants to have Factor "remember" that template in order to allow it to call that? Seems like a worthy goal to me. – sbi Oct 28 '10 at 19:40
@sbi: I'm not sure I follow. Could you elaborate? Are you speaking about Factor<make_> specifically? – JoshD Oct 28 '10 at 19:43
A priori template templates are valid, you do not need to “provide parameters to the template to make it concrete.” However, perhaps this only works with class templates, not with function templates (I don’t know). With class templates, the syntax template <template <typename T> class C> would be correct, so OP’s attempt at least looks consistent. – Konrad Rudolph Oct 28 '10 at 20:22

From looking at your make_() function template, it seems that what you actually want is boost::lexical_cast<>(). It does what your make_() does, only better. (For starters, your conversion doesn't check for errors at all.)

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