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Given the following code:

        template <typename T>
        bool TryQueryInterface(
            IUnknown* in_toQuery,
            REFIID riid,
            void **ppvObject,
            ComObject* in_parent,
            HRESULT out_result)
        {
            if (InterfaceProperties<T>::GetIID() == riid)
            {
                void *underlying;
                HRESULT result = in_toQuery->QueryInterface(riid, &underlying);
                if (SUCCEEDED(result))
                {
                    *ppvObject = new typename InterfaceProperties<T>::WrapperClass(
                        *this,
                        (T*)underlying,
                        in_parent);
                }

                return true;
            }

            return false;
        }

        template <typename T, typename... Interfaces>
        bool TryQueryInterfaces(
            IUnknown* in_toQuery,
            REFIID riid,
            void **ppvObject,
            ComObject* in_parent,
            HRESULT out_result)
        {
            return TryQueryInterface<T>(in_toQuery, riid, ppvObject, in_parent, out_result) ||
                   TryQueryInterfaces<Interfaces...>(in_toQuery, riid, ppvObject, in_parent, out_result);
        }

        template <typename T>
        bool TryQueryInterfaces(
            IUnknown* in_toQuery,
            REFIID riid,
            void **ppvObject,
            ComObject* in_parent,
            HRESULT out_result)
        {
            return TryQueryInterface<T>(in_toQuery, riid, ppvObject, in_parent, out_result);
        }

I'm getting the following error:

    error C2668: 'TryQueryInterfaces' : ambiguous call to overloaded function
TryQueryInterfaces<ITrusteeGroupAdmin>(IUnknown *,const IID &,void **,ComObject *,HRESULT)'
 or       TryQueryInterfaces<ITrusteeGroupAdmin,>(IUnknown *,const IID &,void **,ComObject *,HRESULT)'
          while trying to match the argument list '(IUnknown *, const IID, void **, ComObject *, HRESULT)'
see reference to function template instantiation 'bool TryQueryInterfaces<ITrusteeAdmin,ITrusteeGroupAdmin>(IUnknown *,const IID &,void **,ComObject *,HRESULT)' being compiled

What am I missing here? How do I construct an unambiguous base case for the recursion?

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4 Answers 4

up vote 2 down vote accepted

It's ambiguous because the parameter pack Interfaces... could be empty. Make sure that you take at least one argument plus a number of additional (possibly zero) parameters. Change the second method to:

template <typename T, typename Interface, typename... Interfaces>
bool TryQueryInterfaces(
    IUnknown* in_toQuery,
    REFIID riid,
    void **ppvObject,
    ComObject* in_parent,
    HRESULT out_result)
{
    return TryQueryInterface<T>(in_toQuery, riid, ppvObject, in_parent, out_result) ||
           TryQueryInterfaces<Interface, Interfaces...>(in_toQuery, riid, ppvObject, in_parent, out_result);
}
share|improve this answer
    
This worked, thanks! –  Bwmat Jul 21 at 21:57

Another solution would be to use enable_if to only enable the TryQueryInterfaces implementation taking a parameter pack when the pack is not empty. You should also rearrange the two TryQueryInterfaces implementations so that the terminal case, handling the single template parameter, is above the other one. This allows name lookup within the parameter pack version to succeed.

This also allows you to get rid of the TryQueryInterface implementation.

template<typename T>
bool TryQueryInterfaces(IUnknown* in_toQuery,
                        REFIID riid,
                        void **ppvObject,
                        ComObject* in_parent,
                        HRESULT out_result)
{
    // query single interface here
}

template<typename T, typename... Interfaces>
typename std::enable_if<sizeof...(Interfaces) != 0, bool>::type
 TryQueryInterfaces(IUnknown* in_toQuery,
                    REFIID riid,
                    void **ppvObject,
                    ComObject* in_parent,
                    HRESULT out_result)
{
    return TryQueryInterfaces<T>(in_toQuery, riid, ppvObject, in_parent, out_result) || 
           TryQueryInterfaces<Interfaces...>(in_toQuery, riid, ppvObject, in_parent, out_result);
}

Live demo

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Overloading functions with variadic templates is a little bit different than with regular templates.

You can overload:

void foo()
{
}

and

template <typename Arg1, typename ...Args>
void foo()
{
}

but not

template <typename Arg1>
void foo()
{
}

and

template <typename Arg1, typename ...Args>
void foo()
{
}

because there is no way to disambiguate which function to call when there is one argument.

In your case, you can use a helper class to handle the calls.

// Forward declaration of the helper class and its template arguments.
template <typename ...Types> struct TryQueryInterfacesHelper;

// helper class with just one argument.
template <typename T>
struct TryQueryInterfacesHelper<T>
{
   bool operator()(IUnknown* in_toQuery,
                   REFIID riid,
                   void **ppvObject,
                   ComObject* in_parent,
                   HRESULT out_result)
   {
      return TryQueryInterface<T>(in_toQuery, riid, ppvObject, in_parent, out_result);
   }
};

// helper class with more than one argument.
template <typename T, typename ...Interfaces>
struct TryQueryInterfacesHelper<T, Interfaces...>
{
   bool operator()(IUnknown* in_toQuery,
                   REFIID riid,
                   void **ppvObject,
                   ComObject* in_parent,
                   HRESULT out_result)
   {
      return TryQueryInterface<T>(in_toQuery, riid, ppvObject, in_parent, out_result) ||
         TryQueryInterfacesHelper<Interfaces...>()(in_toQuery, riid, ppvObject, in_parent, out_result);
   }
};

template <typename... Interfaces>
bool TryQueryInterfaces(
      IUnknown* in_toQuery,
      REFIID riid,
      void **ppvObject,
      ComObject* in_parent,
      HRESULT out_result)
{
   // Implement the function using the helper class.
   return TryQueryInterfacesHelper<Interfaces...>()(in_toQuery, riid, ppvObject, in_parent, out_result);
}

Here's an example program that tests the idea with a simpler class and function.

#include <iostream>

template <class ...Types> struct X;

template <class T>
struct X<T>
{
   void operator()(){std::cout << "Came to X<T>\n";}
};

template <class T, class ...Types>
struct X<T, Types...> 
{
   void operator()(){std::cout << "Came to X<T, Types...>\n"; X<Types...>()();}
};

template <class ...Types>
void foo()
{
   X<Types...>()();
}

int main()
{
   foo<int>();
   foo<int, double>();
   foo<int, double, char>();
}

Output:

Came to X<T>
Came to X<T, Types...>
Came to X<T>
Came to X<T, Types...>
Came to X<T, Types...>
Came to X<T>
share|improve this answer
 template <typename T>
 void foo();

and

 template <typename T, template ...R>
 void foo();

both match foo<X>();

To make some difference use two types:

 template <typename T1, typename T2, template ...R>
 void foo();
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