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There are two pointers to different functions

typedef std::vector<double> TData;
double ( * p_test1 ) ( const TData> &arg);
double ( * p_test2 ) ( const TData> &ar1, char *arg2, char *arg3);

and a method which has as an argument a pointer to the function

double f (double ( * p_test1 ) ( const TData  &arg ))
{
    //Long and not trivial algorithm processing results of p_test
    for ( i = 0;... )
    {
       double res = p_test (arg);  //Some computations
    }
}

The f() method contains difficult calculations (here replaced by a for cycle).

Is it possible to templatize this argument (i.e., pointer to a function having different amount of parameters) to get a general function processing both types arguments

double f (double ( * p_test1 ) ( const TData  &arg ));
double f (double ( * p_test2 ) ( const TData> &ar1, char *arg2, char *arg3));

Or is there any way how to write such a function, for example to write a pointer to a pointer to the function?

I would like to avoid the partial specialization of f() function because of its complexity (repetitively overwritten of the long code is not efficient).

Thanks for your help...

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Rather than bother with function pointers, wouldn't it be easier to simply create some function objects with operator() overloaded to provide the interface you want? The main issue though, as Kerrek SB points out, is the context in which you're calling the functions. –  Component 10 Oct 5 '12 at 12:33
    
@ Component 10 May I ask you for a short code sample? Thanks. –  justik Oct 5 '12 at 12:36
    
Problem is that a function with 1 argument needs to be called with 1 argument and function with 3 needs to be called with 3. So either the implementations need to be different, or you need to pack the arguments, which is best done by wrapping the pointer in a functor (perhaps using boost::bind or similar). –  Jan Hudec Oct 5 '12 at 12:42
    
@justik: I could but I don't think it would really help, otherwise I would have done so as an answer. I tend to prefer function objects as they make code a lot clearer. However the problem here is not your function pointers, but how you intend to call functions which have different signatures in a (presumably) polymorphic manner. –  Component 10 Oct 5 '12 at 13:01
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2 Answers

up vote 1 down vote accepted

A method that can take anything can, as a special case, also take function pointer. E.g.

template<typename Function>
double f (Function p_test)
{ ...
    // if p_test is a function pointer or has operator(), this will work
    double res = p_test (arg);
  ... }

The problem however gets down to the fact, that the two functions are taking different arguments. So the arguments either have to come somehow bundled to f, there need to be several different implementations anyway, or the arguments will always be the same.

To bundle the arguments, usual method is to use std::bind (C++11) or boost::bind. Say you have a function that needs 3 arguments (test2) and need to pass it to generic algorithm (f) that will only provide the first. And you know the other 2. So you do:

f(bind(&test2, _1, secondarg, thirdarg))

(In C++11 bind is std::bind and _1 is std::placeholders::_1, in Boost bind is boost::bind and _1 is in anonymous namespace provided by the header.) In this case f needs to take any argument, because the return type of bind is unspecified class type with appropriate operator().

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@ Jan Hudec Is there any acceptable solution for C++ 03 (without Boost)? –  justik Oct 5 '12 at 13:24
    
@justik: You can write the wrapper functors yourself. If you only need a few cases, it's just a structure with the inner functor, the bound arguments and operator() which forwards appropriate combination of arguments to the inner functor/function pointer. If you wanted the general solution, I suggest you just take it out of boost (you can copy it out if you want; there is even a tool to do that, bcp). –  Jan Hudec Oct 5 '12 at 13:37
    
Thanks for your explanation and greetings to MFF. –  justik Oct 5 '12 at 13:41
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You can certainly write a template, at least in C++11:

template <typename ...Args>
double f(double(*fp)(Args...))
{
    double res = fp( /* ??? */ );
}

The question is: how do you know how to call the function?

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@ Kerrek: And in older versions of C++, is there any solution? There are not many cases to solve (2 or 3), if/else construction can take this function. –  justik Oct 5 '12 at 11:10
    
@justik: You can write a couple of templates for zero, one, two... arguments. It should be a matter of simple copy-paste. –  Kerrek SB Oct 5 '12 at 11:12
    
@ Kerrek. Yes, it is possible. But I do not want modify the code inside f() function... Maybe if/else statement to call a different fp(). –  justik Oct 5 '12 at 11:15
2  
@justik: That rapidly starts to make no sense. If you've got a finite number of if/else branches (say 5), with 5 different calls to fp, then you can turn that into 5 template specializations that each call fp once. –  MSalters Oct 5 '12 at 11:35
    
@ MSalters There is a big problem: algorithm inside f is not trivial. I found its repeatedly overwritten implementation (5 times) not effective. –  justik Oct 5 '12 at 12:21
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