Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

sorry for the title, i don't know what suitable title of this topic. I have this test code http://ideone.com/V8h5K which as compile error, and I don't know what's wrong with this code:

my intention is to create an abstraction so that I can create a container of generic function pointer which don't care if the function pointer is a pointer to static function or a member function.

#include <stdio.h>
#include <vector>

template<typename R=void, 
typename A=void,
typename F=R (*)(A)> class Method {     
protected: F method;
public   : Method(F methodPtr):method(methodPtr){ };
           virtual R operator()(A argument) { 
               return this->method(argument); 
           };
           typedef F FuncType;
};

template<typename A, typename F> class Method<void,A,F> {       
protected: F method;
public   : Method(F methodPtr) :method(methodPtr) { };
           virtual void operator()(A argument) { 
               this->method(argument); 
           };
           typedef F FuncType;
};

template<typename R, typename F> class Method<R,void,F> {       
protected: F method;
public   : Method(F methodPtr) :method(methodPtr) { };
           virtual R operator()() { 
               return this->method(); 
           };
           typedef F FuncType;
};

template<typename F> class Method<void,void,F> {        
protected: F method;
public   : Method(F methodPtr) :method(methodPtr) { };
           virtual void operator()() { 
               this->method(); 
           };
           typedef F FuncType;
};

template<typename C=void,
typename R=void, 
typename A=void,
typename F=R (C::*)(A)> 
class ClassMethod : public Method<R,A,F> {      
protected: C& owner;
public   : ClassMethod(C& methodOwner,F methodPtr) 
               :Method<R,A,F>(methodPtr),owner(methodOwner){ };
           virtual R operator()(A argument) { 
               return ((this->owner).*(this->method))(argument); 
           };
           typedef F FuncType;
};

template<typename C, typename A, typename F> 
class ClassMethod<C,void,A,F>: public Method<void,A,F> {
protected: C& owner;
public   : ClassMethod(C& methodOwner,F methodPtr) 
               :Method<void,A,F>(methodPtr),owner(methodOwner){ };
           virtual void operator()(A argument) { 
               ((this->owner).*(this->method))(argument); 
           };
           typedef F FuncType;
};

template<typename C, typename R, typename F> 
class ClassMethod<C,R,void,F>: public Method<R,void,F> {
protected: C& owner;
public   : ClassMethod(C& methodOwner,F methodPtr) 
               :Method<R,void,F>(methodPtr),owner(methodOwner){ };
           virtual R operator()() { 
               return ((this->owner).*(this->method))(); 
           };
           typedef F FuncType;
};

template<typename C, typename F> 
class ClassMethod<C,void,void,F>: public Method<void,void,F> {
protected: C& owner;
public   : ClassMethod(C& methodOwner,F methodPtr) 
               :Method<void,void,F>(methodPtr),owner(methodOwner){ };
           virtual void operator()() { 
               ((this->owner).*(this->method))(); 
           };
           typedef F FuncType;
};

// ---- implementation -----

template<typename A> class MethodList {
protected:
    std::vector< Method<void,A> > methods;
public: 
    void add(typename Method<void,A>::FuncType fp) {
        this->methods.push_back(Method<void,A>(fp));
    }
    template<class C> void add(typename C& instance,
    typename ClassMethod<C,void,A>::FuncType fp) {
        this->methods.push_back(ClassMethod<C,void,A>(instance,fp));
    }
    void invoke(A argument) {
        typename std::vector< Method<void,A> >::iterator it;
        for(it=this->methods.begin() ; it!=this->methods.end() ; it++) {
            (*it)(argument);
        }
    }
};


void function1(int arg) {
    printf("function1(%d)",arg);
}

class Class1 {
public:
    void function1(int arg) {
        printf("Class1::function1(%d)",arg);
    }
};

int main(int argc,char* argv[] )                        
{      
    Class1 inst;
    MethodList<int> methodList;

    methodList.add(function1);
    methodList.add<Class1>(inst,&Class1::function1);
    methodList.invoke(123);

    return 0;
}   
share|improve this question
    
Showing the error text and indicating the line number might help. –  sje397 Dec 16 '10 at 6:21
    
@sj397: you can see here : ideone.com/V8h5K –  uray Dec 16 '10 at 6:34

1 Answer 1

up vote 0 down vote accepted

This virtual member function will be instantiated whenever the enclosing class is instantiated on most implementations. You don't have to use it for that instantiation to occur:

virtual R operator()(A argument) { 
    return this->method(argument); 
};

However when Fis a R(C::*)(Args), the use of this->method will be ill-formed. So this derivation is wrong:

// will instantiate Method<R, A, F>
class ClassMethod : public Method<R,A,F>

FWIW you don't need to specialize for R being void. You can have a return statement in a void function with an expression that has type void just fine.

// works fine with R being void
virtual R operator()(A argument) { 
    return static_cast<R>(this->method(argument));
};

WOW, now I see you are also slicing objects in your MethodList class template. If you don't know what "slicing" is about, I recommend you to read on basic C++ topics first, before writing this sort of code.

share|improve this answer
    
I think this one should be instantiated ...return ((this->owner).*(this->method))(argument);... because I do this->methods.push_back(ClassMethod<C,void,A>(instance,fp)); (notice ClassMethod<> instead of Method<>) for add function of member function –  uray Dec 16 '10 at 6:26
    
@uray wow now I see you are even slicing the objects. I recommend you to first read a good book on basic C++ before trying to write this sort of code. –  Johannes Schaub - litb Dec 16 '10 at 6:28
    
can I solve slicing problem by hold a pointer as Method<>* in MethodList which the instance is allocated on heap, only its pointer is casted to be pushed to vector<>? –  uray Dec 16 '10 at 6:36

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.