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Let us suppose that we have a function of n variables

y = f (x1, ..., xn) 

Such a function I would like to pass as an argument.

In Matlab the following construction using a handle is available:

function y=func(x)
y = sin(x(0)) * cos(x(1))  //Any definition, not important

p_func=@func; //Define handle

It is possible to use the handle as a parameter of another function:

y = function2(p_func, n);

where n represents a dimension...

How to rewrite this code using C++? We use a simple model with the function template

temmplate <typename T>
T func( const T *arg, const short n) {return sin(arg[0]) * cos(arg[1])};

where xi arguments are represented by the 1-dimensional array of n elements. The problem is that in this case it is not possible to use a pointer to the function template

template <class T>
static T ( *pfunc ) ( const T *arg, const short n )

only a specialization... Perhaps another model could be more appropriate...Thanks for your help...

Remark: I know that a class template is useful

template  <typename T>
class Foo
    T func( const T *args, const short n);

and this construction works:

template <class T>
static T ( *pfunc ) ( const T *arg, const short n )

But it may not be used in the current model of the library (I can not affect this).

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"But it may not be used in the current model of the library (I can not affect this)." What specifically about this can't be used? Or more to the point, what are the exact limitations? –  Nicol Bolas Oct 1 '12 at 19:31
@Nicol: Limitations are given by the model of the library where I am adding code in. But I am afraid that I will have to do it :-). –  justik Oct 1 '12 at 19:41

4 Answers 4

C++ is a statically typed language. Every object in C++, whether a function pointer, or whatever, must have a specific type. And the type of a function pointer is based on the types of arguments that the function to be pointed to is given.

A template is not an object, so you can't get a pointer to one. You can get a pointer to an instantiation of a template. Using your func definition, func<int> is a function that takes a const int* and a short. You can get a pointer to func<int>. But func is a template; you can't get a pointer to a template.

That's why C++ programs often throw functors around instead of function pointers. Functors can have a template operator() method, so you can call them as though you were passing around template functions. But since you say that you have to use a function pointer, there's not much that can be done.

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I don't think this is easily solved in C++, but there are approaches for similar cases. You should take a look at the boost::bind and boost::function library. It was made for getting around the nasty details of passing function pointers around in C++ (and they allow to pass for class methods as well). As far as i recall they don't really use a generic N but instantiate templates for arbitrary N parameters. It's definitely worth a look if you want to get to something similar.

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The problem is not the "n". The problem is the templated type T.

Are you trying to declare a variable (of type pointer to function), here?

template <class T>
static T ( *pfunc ) ( const T *arg, const short n )

This will not work without instantiating the template.

This is because of otherwise, type checking would be impossible. The type checker could not check if, when you initialized the pointer, T was the same as when you dereference it.

You will probably need to look at a bigger context. Where do you want to USE that declaration? Move the template parameter to that context.

For example, you could have a function, or class with template parameter T. There, you could declare, initialize and dereference any function pointer which has T somewhere in it's type.

Maybe you can "bind" the parameters at the place where you assign the function pointer. So the resulting function will be a nullary function, which you can use without knowing the parameter types.

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You cannot obtain pointer to template function, because template is not an object, it's just compile-time syntax construction producing multiple specific functions - template instantiations. Template instantiations, e.g. f<int>(const int*, short) are objects and can be pointed.

If you just want some simple and unified way to obtain function pointer from template instantiation, use declspec() (I'm supposing you are using modern C++11 compatible compiler):

template <class T> static T f(const T *, const short )
  // Implementation

// Declaring function pointers for int & double
typedef decltype(&f<int>) IntFuncPtr;
typedef decltype(&f<double>) DoubleFuncPtr;

// Sample usage
IntFuncPtr intFunc = &f<int>;
intFunc(NULL, 0);

DoubleFuncPtr doubleFunc = &f<double>;
doubleFunc(NULL, 0);
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