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I am trying to store pointers to memberfunctions of different Classes in C++. What are the possibilities in C++?

I would like to do this:

class A {
    T0 f(T1,T2);
};

class B {
    T0 g(T1,T2);
    T0 h(T1,T2);  //interfaces cant be used since the number of functions per class differs.
};

typedef WHATTOPUTHERE type;

type x;
x = A::f;
x = B::h;

Update: Another Problem is that the code should be continueable like this:

B myB;
myB::x(a,b); //not sure about the syntax, should result in myB::h(a,b) being called

This means that I can not bind at the time I store the pointer, since the instance does not exist (yet).

share|improve this question
5  
What have you tried? Why didn't it work? What do (or don't) you expect to work? –  Chris Lutz Nov 18 '11 at 20:32
    
The question is unclear. Are you trying to establish a pointer that can point to either this member function or that member function? –  John Dibling Nov 18 '11 at 20:37
    
@JohnDibling yes, I tried to clarify it, see the (pseudo)code I added. Certainly the typedef would look different –  ted Nov 18 '11 at 20:43
    
Much better, thank you. –  John Dibling Nov 18 '11 at 20:48

4 Answers 4

up vote 4 down vote accepted

Function objects to encapsulate your function pointers should work.

boost::function is one option, maybe something like this:

class SomeObj
{
public:
   void SetInt(int i);
};

SomeObj myObject;
std::vector<boost::function> memberFuncs;
// in the template arg to boost::bind specify the function type
// _1 here denotes late binding so you can pass whatever value you want when invoked
// you could simply bind a parameter as a variable or literal instead
memberFuncs.push_back(boost::bind<void(int)>(&SomeObj::SetInt, &myObject, _1));
memberFuncs[0](42); // myObject->SetInt(42);

Untested/uncompiled code disclaimer this is just for a general idea.

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2  
+1. boost::function is std::function in C++11 –  K-ballo Nov 18 '11 at 20:40
    
well I will fail at the bind part, I dont have actual instances at the time i generate the pointers. But the direction seems to be good. –  ted Nov 18 '11 at 20:46
    
You should be able to wrap it in template<typename ClassType, typename FuncType> ... also if you have access to C++11 features in your compiler K-ballo brings up an excellent point that there is std::function and std::bind now defined in <functional> –  AJG85 Nov 18 '11 at 20:50
    
thanks for the pseudocode, i still have the issue with the early bind. Is there a way to omit the bind and supply a instance reference upon calling/executing the code? e.g. memberFuncs.push_back(...); X myX; memberFuncs[0](&myX,42).? –  ted Nov 18 '11 at 20:53
1  
@ted: Take a look at this. Not very clean, not very nice to the user, but it works. Note however, that it can be improved a lot. Though, the weak point is obviously the enumeration. I hope that will give you a starting point. –  Xeo Nov 18 '11 at 21:47

One possible implementation (using C++11) can easily be done using std::function and a lambda like this:

typedef std::function<void(int)> FunctionType;

SomeClass someClass;

FunctionType func = [&someClass](int argument)
{
    someClass.SomeMemberFunction(argument);
};
share|improve this answer
    
can you give me a hint were to read up on this? The syntax with the [] confuses me since I know those only as opperator/array index access –  ted Nov 18 '11 at 20:47
1  
That's the lambda introducer and tells the compiler that you are defining a lambda function. You can read about that here: msdn.microsoft.com/en-us/library/dd293603.aspx –  Bleep Bloop Nov 18 '11 at 20:55

To have a pointer to Fred::f(char, float) you need this sort of pointer:

int (Fred::*)(char,float)

http://www.parashift.com/c++-faq-lite/pointers-to-members.html

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This is not exactly what I am looking for, to clarify i have different Base classes. I want to store Fred::* and Tina::* in one type. I will clarify my question –  ted Nov 18 '11 at 20:37

The answer to your particular question is that there is no type that you can add to the typedef and make the code compile. The reason is that member function pointers take a hidden argument of the type of the class form which they are obtained. The type of that hidden argument will be different when you take the address of a member function from A or B.

The next question is whether it makes sense or not from a design perspective, considering that you cannot apply the function pointer A::f to an instance of type B, what is the point of considering member pointers of A and B together?

Now, there are possible workarounds for this particular problem (if it makes sense in your case, but I would first review the design) that involve performing type-erasure on the function pointer to remove the hidden argument and generate an object that is callable with the given set of arguments and return type that is common to all of the member functions. This is already done inside std::function (alternatively boost::function if your compiler does not support C++11), as has been suggested before:

A a_instance;
std::function< T0 (T1,T2) > f( std::bind( &A::f, &a_instance, _1, _2 ) );
T0 r = f( T1(), T2() );

Note that part of the trick is that std::bind binds the member function pointer with the pointer to the instance, filling in the hidden argument, while leaving the other two arguments unbound. At this point, because the result of bind does no longer depend on the type of the first argument, type-erasure can be applied removing A from the type of the resulting object.

share|improve this answer
    
Thank you. What you said is basically right, however it has been said before and I think I can follow. However I see no new concepts. And I think my Problem is a bit trickier. I cant use the "wrapper" trick (at least that easy) since I would like to create the actual instances just in time. –  ted Nov 18 '11 at 21:31
    
@ted: And how do you plan on knowing whether the pointer stored in the generic refers to type A or B? You should really state the problem to solve and then you will get help for that, if you state your intended solution (I really doubt this would be a solution, even if you could that you can't for the reasons stated above) BTW, the syntax for your edit would be myB.*x(a,b), but that will only work if x is a B::* –  David Rodríguez - dribeas Nov 19 '11 at 0:07
    
@ted: Also, while you consider that the answer does not add anything new, I think it does, it explains why you cannot do what you ask for, because there is a hidden type argument, which I am not sure you have clear: the type of the pointer includes all shown arguments (T1,T2), the return type (T0) and the type of the implicit this argument (A or B). –  David Rodríguez - dribeas Nov 19 '11 at 0:29
    
(hope i got your name right): I tried to explain my whole problem and the way I tried to solve it in other questions (e.g. stackoverflow.com/questions/8082450/c-factory-pattern stackoverflow.com/questions/8093704/…) however the answers were unsatisfactory / I was told about and XY-question. I am trying to avoid fast delegates (codeproject.com/KB/cpp/FastDelegate.aspx), since the code is old and i hoped for better ways with cpp0x. –  ted Nov 20 '11 at 23:52
    
On the "how do I plan to know whether the pointer stored refers to type A or B", the answer is I am trying to not have to know. Lets say I store a factory method along with the pointer. The factory method is called in a wrapper to create the object and the memberfunction pointer wil then be used on the created object. (Guess I have to jiggle a little bit with this, maybe I have to put the factory method into a trampolin function so i dont have to worry about the actual return type), but in general I am interested on how to achieve this. –  ted Nov 20 '11 at 23:57

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