Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Here is the problem: 1.) i have a class

class Some_class
{
public:
    Some_type some_value;
    int some_function(double *a, double *b, int c, int d, void *e);
};

2.) inside some_function i use some_values from some_class object to get a result.

3.) So i have a concrete object and i want to get a pointer to this object some_function. Is it possible? I cant use some_fcn_ptr, because result of this function depends on concrete some_value of a object. How can i get a pointer to some_function of an object? Thanks.

typedef  int (Some_class::*some_fcn_ptr)(double*, double*, int, int, void*);
share|improve this question
1  
You are talking about pointer-to-member-functions –  Seth Carnegie Jan 14 '12 at 22:18
    
See stackoverflow.com/questions/130322/… for details. You can't get function pointer for some concrete object, you need pointer to object and pointer to member function to call method of some object. –  volodymyr Jan 14 '12 at 22:19
add comment

4 Answers 4

up vote 5 down vote accepted

You cannot, at least it won't be only a pointer to a function.

Member function is common for all instances of this class. All member functions have implicit (first) parameter - this. To call a member function for specific instance you need pointer to this member function and this instance.

class Some_class
{
public:
    void some_function() {}
};

int main()
{
    typedef void (Some_class::*Some_fnc_ptr)();
    Some_fnc_ptr fnc_ptr = &Some_class::some_function;

    Some_class sc;

    (sc.*fnc_ptr)();

    return 0;
}

More info here in C++ FAQ

Using Boost this can look like:

#include <boost/bind.hpp>
#include <boost/function.hpp>

boost::function<void(Some_class*)> fnc_ptr = boost::bind(&Some_class::some_function, _1);
Some_class sc;
fnc_ptr(&sc);
share|improve this answer
    
Boost and C++11. –  moshbear Jan 14 '12 at 22:42
add comment

No, you can't get a pointer to a C++ class method (unless the method is declared static). The reason is that a class method always has the pointer this, a pointer to its class. But were you to call the method through a pointer, that pointer could not encapsulate the this pointer, and then then there would be no class attached, and therefore this behavior is not legal.

share|improve this answer
add comment

While not exactly what you requested, if you can use C++11 the following might nevertheless suit your needs (untested):

std::function<int(double*, double*, int, int, void*)>
  some_function_of(Some_class& obj)
{
  return [&](double* a, double* b, int c, int d, void* e){
    return obj.some_func(a, b, c, d, e); };
}
share|improve this answer
add comment

You may write some kind of Wrapper which is able to use both function or method as parameter.

I used following classes for launching functions (it was used in one my SDL program):

class CallbackFunction {
public:
    // Constructor, copy constructor and destructor

    virtual int execute( SDL_keysym* keysym) const;
    virtual int operator()( SDL_keysym* keysym) const;

protected:
    int( *callback)( SDL_keysym*));
}

int CallbackFunction::execute( SDL_keysym* keysym) const{
    return callback(keysym);
}

int CallbackFunction::operator()( SDL_keysym* keysym) const{
    return callback( keysym);
}

And this extension for "methods":

template<class T>
class CallbackMethod : public CallbackFunction {
public:
    // Constructor, copy constructor and destructor
    CallbackMethod( T *object, int(T::*callback)( SDL_keysym* keysym));

    int execute( SDL_keysym* keysym) const;
    int operator()(SDL_keysym* keysym) const;

protected:
    T *object;
    int(T::*method)( SDL_keysym* keysym);
};

// Object initialization (constructor)
template<class T>
CallbackMethod<T>::CallbackMethod( T *object, int(T::*callback)( SDL_keysym* keysym)):
    CallbackFunction( NULL),object(object),method(callback){
}


// Responsible for executing
template<class T>
int CallbackMethod<T>::execute( SDL_keysym* keysym) const {
    return (object->*method)(keysym);
}
template<class T>
int CallbackMethod<T>::operator()( keysym) const {
    return (object->*method)( keysym);
}

And then use it as:

CallbackFunction *callback;
callback = new CallbackFunction( myFunction);
callback = new CallbackMethod<A>( instanceOfA, instanceOfA::myMethod);
callback = new CallbackMethod<B>( instanceOfB, instanceOfB::myMethod);
...
callback( keysym);

I found macro as this:

CALLBACK(object,method) new CallbackMethod<typeof(*object)>( object, &method)

really useful

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.