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I've got 3 classes, like so:

template <typename RET, typename ARG1 = int, [...], typename ARG5 = int>
class FunctionPointer {
    virtual operator()(ARG1, [...], ARG5);

template <typename RET, class TYPE, typename ARG1 = int, [...], typename ARG5 = int>
class ClassFunctionPointer : public FunctionPointer<RET, ARG1, [...], ARG5> {
    // make it so that class functions fit here

template <typename RET, typename ARG1 = int, [...], typename ARG5 = int>
class GlobalFunctionPointer : public FunctionPointer<RET, ARG1, [...], ARG5> {
    // make it so that non-member functions fit here

They are all overloaded so that every class may be instantiated with a variable number of arguments, meaning all of the following examples are valid:

GlobalFunctionPointer<void> a(&test1);
GlobalFunctionPointer<void, int> b(&test2);
ClassFunctionPointer<void, TestClass, int, char> c(testObject, &TestClass::test1);
ClassFunctionPointer<void, TestClass, int, char, std::string, float, SomeClass> d(testObject, &TestClass::test2);

But for all this, I wrote a lot of code, roughly 500 lines, see here. I find this is pretty ugly so I'm looking for a more elegant solution. Is there one at all?

(By the way, all the tangled code is meant to be the base for a more sophisticated event system.)

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You're not alone. VS11 doesn't have variadic templates so they had to go through some terribly ugly macros to achieve roughly the same behavior for most cases. – Cubic Nov 5 '12 at 20:41
Sorry, I can't resist. You can beat me if you want. But what about removing the empty lines? would reduce your code from 500 downto 250! – pbhd Nov 5 '12 at 20:41
@pbhd: Haha, I could do so but I find my code to be a lot more readable with these 2000 empty lines within it. – dasdave Nov 5 '12 at 20:53
up vote 5 down vote accepted

You're looking for C++11's variadic templates, invented for precisely this purpose.

Alternatively let a single template argument T be an actual function type, then it can be void(), void(int) or void(int, char) etc as your heart desires.

By the way, what is wrong with std::function<T> (or boost::function<T>)? This has all been solved already. :-)

share|improve this answer
Well on the one hand I'm not too familiar with C++11 and on the other I don't like it too much for some reason, so this isn't a suitable solution for me. // std::function<T>: Uh, I've never heard of that, this just crushes all my work up to now. Thanks for the answer though. :) – dasdave Nov 5 '12 at 20:41
@Martin You should become familiar with C++11. Soon. Like, 2 years ago. – Cubic Nov 5 '12 at 20:42
@MartinD.: That's a silly reason to ignore the correct and globally-accepted way to do something. – PreferenceBean Nov 5 '12 at 20:42
@Lightness Races in Orbit: Well it seems like C++11 walked past me. – dasdave Nov 5 '12 at 20:47
@MartinD.: People have been using boost::function<T> at least since long before C++11! This is idiomatic C++ and has been for at least half a decade. – PreferenceBean Nov 6 '12 at 0:57

If your compiler do not have support of variadic templates, then you can try to use Boost.Preprocessor library for emulation.

Check how boost::container::vector::emplace_back is implemented:

It uses Boost.Preprocessor for auto-generation of functions taking different number of arguments. It generates some predefined number of functions.

As the result, you don't have to write each function by hands. Instead, you can write your pattern only once.

For instance:

#include <boost/preprocessor/iteration/local.hpp>
#include <boost/preprocessor/repetition/enum.hpp>
#include <boost/preprocessor/repetition/enum_trailing_params.hpp>

struct Entity
#define ENTITY_PP_PARAM_LIST(z, n, data) const BOOST_PP_CAT(P, n) & BOOST_PP_CAT(p, n)
#define ENTITY_PP_PARAM_PASS(z, n, data) BOOST_PP_CAT(p, n)

    template<typename GenericType BOOST_PP_ENUM_TRAILING_PARAMS(n, typename P) > \
    void AddComponent(BOOST_PP_ENUM(n, ENTITY_PP_PARAM_LIST, _)) \
    { \
        something=new GenericType(BOOST_PP_ENUM(n, ENTITY_PP_PARAM_PASS, _)); \
    } \

#define BOOST_PP_LOCAL_LIMITS (0, 3)

After preprocessing expands to:

struct Entity
    template<typename GenericType  >
    void AddComponent()
        something=new GenericType();

    template<typename GenericType , typename P0 >
    void AddComponent( const P0 & p0)
        something=new GenericType( p0);

    template<typename GenericType , typename P0 , typename P1 >
    void AddComponent( const P0 & p0 , const P1 & p1)
        something=new GenericType( p0 , p1);

    template<typename GenericType , typename P0 , typename P1 , typename P2 >
    void AddComponent( const P0 & p0 , const P1 & p1 , const P2 & p2)
        something=new GenericType( p0 , p1 , p2);

P.S. I agree with "Lightness Races in Orbit", consider to use boost/std ::function instead.

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