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typedef boost::function<void (int,bool)> MyCallback;
void RegisterCallback(MyCallback callback);

class A {
    void GoodCallback(int intArg,bool boolArg) {
        printf("calling GoodCallback (%d,%s)\n",intArg,boolArg?"true":"false");

    void BadCallback(int intArg) {
        printf("calling BadCallback (%d)\n",intArg);

int TestFunction() {
    A * myA=new A();


    return 0;

Is there any way that I can make the second call to RegisterCallback not compile?

For context:
I recently changed the callback signature and added the bool argument. I thought I had updated everything that was using this, but I was mistaken. Other than renaming RegisterCallback everytime I change the signature, I would like to have a way to have the compiler enforce that all arguments are used.

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up vote 0 down vote accepted

I'm a bit late with this answer but since the problem is the binding you could do this step later with the help of a templated version for your callback registration function and another one for regular function pointers:

template<typename C>
void RegisterCallback(void (C::* func)(int, bool), C* inst)
  MyCallback callback(boost::bind(func, inst, _1,_2));

void RegisterCallback(void (*func)(int, bool))
  MyCallback callback(func);

A * myA = new A();     
RegisterCallback(&A::GoodCallback, myA);      
RegisterCallback(&A::BadCallback, myA); // DOES NOT COMPILE

RegisterCallback(BadCallback); // DOES NOT COMPILE

This works as expected in VS2010 but has the disavantage of needing not one but two callback registration functions to correctly deal with member and non-member functions.

As another option you might have a look at the boost function_types library. It provides a parameter_types metafunction that extracts the parameter types of function pointers and returns them as a MPL sequence. Then with a bit template magic it's possible to validate the parameters of the callback function, something like:

#include <boost/function.hpp>
#include <boost/bind.hpp>
#include <boost/function_types/parameter_types.hpp>
#include <boost/mpl/equal.hpp>

using namespace boost;
using namespace boost::function_types;

template< typename Function >
void RegisterCallback(Function f)
        parameter_types< Function >, 
        parameter_types< void(int,bool) >

   MyCallback callback(f);

template<typename Function, typename T>
void RegisterCallback(Function f, T* inst)
       parameter_types< Function >, 
       parameter_types< void (T::*)(int,bool) >

   MyCallback callback(boost::bind(f, inst, _1, _2));  

This also works as expected in VS2010 but you still need two function declarations although it should be possible to pack them in one if you define them inside a struct (and use a default template parameter argument for T);

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There needs to be three registration functions void RegisterCallback(void (C::* func)(int, bool) const, const C* inst) – IronMensan Aug 1 '11 at 13:56
Yes, you're right, this is the disavantage of using function overloads for registering the callback - you'll need to provide overloads for every const/non-const member/non-member volatile/non-volatile etc. combination of signatures to handle general cases and the number of overloads grows exponentialy with the parameter count. For this reason I would be more inclined to use the function_types libraries to validate the function pointer since this is exactly the kind of problem that the library attempts to solve. – floyd73 Aug 2 '11 at 6:49

The documentation says

Any extra arguments are silently ignored

It has to be this way in order to support _N placeholders. Witness:

void foo (int a, const char* b) {
  std::cout << "called foo(" << a << "," << b << ")" << std::endl;

int main () {
  boost::bind(foo,_1, _2)(1, "abc", foo, main, 2.0);
  boost::bind(foo,_2, _5)(3.0, 2, foo, main, "def");


called foo(1,abc)
called foo(2,def)

Any combination of arguments in the beginning, in the end or in the middle of the argument list can be ignored.

You need a simpler binder that doesn't support anything like _N placeholders. Boost doesn't seem to have one.

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The problem isn't boost::function; the problem is that the function object boost::bind returns will take anything as parameters. Bind is, more or less, runtime defined, not compile-time defined. Therefore, the boost::bind object can be used with any boost::function.

[edit] OK, apparently boost::function is also a problem. But it's not the only problem.

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boost::function will also accept pretty much anything, and not complain until the function is actually called. – Dennis Zickefoose Jul 26 '11 at 21:01
@Dennis: I guess without concepts, there's no way to verify that a particular object is callable with a particular template parameter signature. – Nicol Bolas Jul 26 '11 at 21:11
@Nicol You could try to assert this with declval and decltype. – pmr Jul 26 '11 at 21:16

You could always use std::function<...> instead.

The following does not compile on VS2010 SP1:

#include <functional>

void foo();
void bar(int);

int main()
    std::function<void ()> f= std::bind(foo);
    std::function<void ()> g= std::bind(bar); // does not match signature, does not compile.
    return 0;
share|improve this answer
+1 for the idea, maybe someday my company will upgrade from VS2005 and I'll be able to use it. – IronMensan Jul 27 '11 at 13:55

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