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I've been looking for examples that relate to what my question is about and I still cannot find a solution. The closest thing I've found is

Template function as a template argument

I will try to post a working example in case it is needed but so far part of my code involves the following:

template<class InterfaceType, class T> 
inline void write_info(InterfaceType& interface, T& t) {
    InterfaceType::write_info(interface, t);

template<class InterfaceType, class T> 
inline void write_data(InterfaceType& interface, T& t) {
    InterfaceType::write_data(interface, t);

template<class InterfaceType, class T> 
inline void write_definition(InterfaceType& interface, T& t) {
    InterfaceType::write_definition(interface, t);

Notice that the templates write_info depend on an interface type which has a method called write_info (A static method). The reason this is done is because the write_info function can be specialized later on for an specific datatype without having to redefine anything on the InterfaceType.

The simple question is: Can we reduce the above code with a template that names the function as a function parameter? Keep in mind that I really want this to be possible so that I can avoid defining all those 3 function for a specialized datatype, i.e.

Suppose that foo is a structure with two attributes int a and double b. Then I can specialize the above functions like this:

template<class InterfaceType> 
inline void write_info(InterfaceType& interface, foo& t) {
    InterfaceType::write_info(interface, t.a);
    InterfaceType::write_info(interface, t.b);

template<class InterfaceType> 
inline void write_data(InterfaceType& interface, foo& t) {
    InterfaceType::write_data(interface, t.a);
    InterfaceType::write_data(interface, t.b);

template<class InterfaceType> 
inline void write_definition(InterfaceType& interface, foo& t) {
    InterfaceType::write_definition(interface, t.a);
    InterfaceType::write_definition(interface, t.b);

As you can see I'm writing the same code over and over again. Here I'm assuming that the InterfaceType already has define write_info, write_data and write_definition for int and double. Any ideas?

share|improve this question
up vote 5 down vote accepted

Turn the logic around: rather than writing specialized write_thing overloads for each type, write a single apply function that applies an arbitrary function to an object of each type, then have a single overload of each write_thing that simply delegates to the apply:

// Define a catch-all apply that handles "everything else"
template <typename Interface, typename Function, typename Object>
void apply(Interface& i, Function f, Object& x) {
    f(i, x);

// Define overloads for "apply" that handle special cases
template <typename Interface, typename Function>
void apply(Interface& i, Function f, foo& x) {
    f(i, x.a);
    f(i, x.b);

// Define polymorphic adapters for your write_[thing] functions:
struct write_info_impl {
    template <typename Interface, typename Object>
    void operator()(Interface& i, Object& x) const {
        Interface::write_info(i, x);

// Then implement your write_[thing] functions in terms of the above:
template <typename Interface, typename Object>
void write_info(Interface& interface, Object& x) {
    apply(i, write_info_impl(), x);
share|improve this answer
I like this logic but it seems that the compiler doesn't know which &Interface::write_info to use. Obviously we want to use the one that takes care of the type we are using in apply. Is there a way to tell it explicitly that we are using &Interface::write_info<Object>? Otherwise it g++ tells <unresolved overloaded function type> in the place of the function. – jmlopez Sep 26 '12 at 18:39
@jmlopez: Ah, true. You can use a generic functor to encapsulate the overload set. See the update. It's a bit more code, but if the write_[thing] functions are all as similar as they appear, you can trivially generate them using a macro. – James McNellis Sep 26 '12 at 18:44
Nice answer. 1 hour without upvotes? The Lounge must be with recess – sehe Sep 26 '12 at 18:46
Sorry it took me a while to check this new code. Now it compiles and it works up to a certain point. It works for the basic types: int and double. But for the special case foo, and doesn't use the right apply. Any ideas why the compiler would ignore the overload apply for the special case when Object is foo? – jmlopez Sep 26 '12 at 19:02
Right, the call must be unqualified (i.e., without any ::'s) in order for argument-dependent lookup to be used based on the template argument types. Each of the apply functions needs to be in either (a) the namespace in which Interface is defined or (b) the namespace in which Object is defined (or an enclosing namespace of one of those, though generally it's best to place the overloads in the same namespace). – James McNellis Sep 26 '12 at 19:07

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