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I have a very similar problem to that presented by Morpheus, in the following question:

Overloaded member function pointer to template

The solution proposed by Richard Corden requires the user to explicitly specify the function parameter type, to distinguish it among the overloads. However, this solution does not seem to work with overloads with a varying number of arguments of the same type.

Consider this example (derived from the original question):

template <typename T>
class A
  template<class Arg1>
  void connect(void (T::*f)(Arg1)) 
    //Do some stuff

  template<class Arg1, class Arg2>
  void connect(void (T::*f)(Arg1,Arg2)) 
    //Do some stuff

  void connect(void (T::*f)()) 
    //Do some stuff

class GApp
    void foo() {}
    void foo(double d) {}
    void foo(double d1, double d2) {}

int main ()
  A<GApp> a;
  a.connect (&GApp::foo);                // foo () - OK
  a.connect<double> (&GApp::foo);        // foo (double) - FAIL
  a.connect<double,double> (&GApp::foo); // foo (double,double) - OK

GNU G++ 3.4.5 and MSVC 2008 do not compile the code above, both presenting similar error messages:

test.cpp: In function `int main()':
test.cpp:36: error: call of overloaded `connect(<unknown type>)' is ambiguous
test.cpp:7: note: candidates are: void A<T>::connect(void (T::*)(Arg1)) [with Arg1 = double, T = GApp]
test3.cpp:13: note:               void A<T>::connect(void (T::*)(Arg1, Arg2)) [with Arg1 = double, Arg2 = double, T = GApp]

I'm aware of some workarounds that can make it compile, like assigning the pointer to a variable of the exact same type (e.g. void (GApp::*tmp)(double) = &GApp::foo;) or, using a more explicity form when calling the connect function (e.g. connect((void (GApp::*)(double))(&GApp::foo));).

However, I prefer the first solution and would like to know why it is not working.

Thank you in advance!

share|improve this question
I'd actually be worried about the first one not failing. It's too easy to forget about the template arguments and have a wrong overload selected silently. – UncleBens Mar 31 '11 at 23:15
In your main(), only the second call, "a.connect<double>(&GApp::foo)" is not compiling. Why you have mentioned 3rd call also a fail ? – iammilind Apr 1 '11 at 3:23
@iammilind, Sorry for that, I just misunderstood the error messages. I edited the question. Thanks. – OBelloc Apr 1 '11 at 11:23
up vote 7 down vote accepted

For a.connect<double> (&GApp::foo), both the foo(double) and foo(double, double) will match the overload of connect with one, and with two template parameters respectively (in the case of the two parameter version, the second template argument will be deduced, the first argument was provided by you explicitly).

If you want to disambiguate ambiguous cases, I recommend that you pass the exact type, so no surprises can happen. Instead of those overloads, why not have a single overload

template<typename MType, typename T>
void connect(MType T::*f) 
  //Do some stuff

a.connect<void()> (&GApp::foo);
a.connect<void(double)> (&GApp::foo);
a.connect<void(double, double)> (&GApp::foo);

The last call to connect should work fine in your code too. You then can dissect the type MType in connect with separate templates, to get the parameter and return types.

share|improve this answer
Nice! Actually, I just had a hard time trying to understand this template defition, didnt know it was even possible to define a function pointer like that (MType T::f*). Still, when using this approach, why the compiler is not able to deduct the function pointer type, even when there are no overloads? – OBelloc Mar 31 '11 at 23:43
@NCrawl, it should be able to deduce. I think MSVC++ may have problems with that. It would be a compiler bug then. It definitely is valid C++. – Johannes Schaub - litb Apr 1 '11 at 0:01
@litb Ok then, thank you very much! Just for the record, MSVC'08 was ok with that, only GNU GCC 3.4.5 could not deduce. – OBelloc Apr 1 '11 at 0:59
@NCrawl Apparently, neither msvc9 nor msvc10 is able to compile litb's sample code (of course after correcting it). – wmamrak Jan 3 '13 at 22:51

The problem with the original code is that you are explicitly defining the wrong part. When you specify a list of template parameters, even when you specify one, the compiler will attempt to deduce the second one and then it runs right back into ambiguity because it doesn't know if you want to use (double,double) or (double) variation.

Instead of defining template parameters, let the compiler deduce them but explicitly specify which one of the foo() functions you want to use:

int main()
    A<GApp> a;
    a.connect (&GApp::foo);                                     // foo () - OK
    a.connect( ( void (GApp::*)(double) )&GApp::foo);           // foo (double) - OK
    a.connect( ( void (GApp::*)(double, double) ) &GApp::foo);  // foo (double,double) - OK
share|improve this answer

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