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struct TimerEvent
   event Event;
   timeval TimeOut;
   static void HandleTimer(int Fd, short Event, void *Arg);

HandleTimer needs to be static since I'm passing it to C library (libevent).

I want to inherit from this class. How can this be done?


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Just inherit and it should work. Are you having any particular problems with it? –  jpalecek Feb 5 '09 at 12:49
I agree with the above comment, I don't understand the question. –  Edouard A. Feb 5 '09 at 12:50
I third the above comment. :) –  j_random_hacker Feb 5 '09 at 13:26

3 Answers 3

up vote 23 down vote accepted

You can easily inherit from that class:

class Derived: public TimerEvent {

However, you can't override HandleTimer in your subclass and expect this to work:

TimerEvent *e = new Derived();

This is because static methods don't have an entry in the vtable, and can't thus be virtual. You can however use the "void* Arg" to pass a pointer to your instance... something like:

struct TimerEvent {
    virtual void handle(int fd, short event) = 0;

    static void HandleTimer(int fd, short event, void *arg) {
        ((TimerEvent *) arg)->handle(fd, event);

class Derived: public TimerEvent {
    virtual void handle(int fd, short event) {
        // whatever

This way, HandleTimer can still be used from C functions, just make sure to always pass the "real" object as the "void* Arg".

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no need use static like this, i would rather use: Derived t; t.handle(...); –  raidsan Dec 2 '12 at 4:43

You've got a bit of a conflict here in your question. When you pass &TimerEvent::TimerHandler to a C library, you do exactly that. You could also have passed &DerivedTimerEvent::TimerHandler, if you wanted. But you can't pass &TimerEvent::TimerHandler and expect the C library (!) to figure out you actually meant &DerivedTimerEvent::TimerHandler.

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Since its static, I'd expect the compiler to resolve that long before flow reaches the C library. –  Mark K Cowan Aug 26 '14 at 16:56

To some extend the traits pattern lets you to inherit and redefine static methods.

First start with a base class:

struct base {
  static void talk()  { std::cout << "hello" << std::endl; }
  static void shout() { std::cout << "HELLO !!" << std::endl; }

Then derive it and redefine some methods:

struct derived: public base {
  static void talk()  { std::cout << "goodbye" << std::endl; }

And now call the methods via a traits class:

template < class T >
struct talker_traits {
  static void talk() { T::talk(); }
  static void shout() { T::shout(); }

talker_traits<base>::talk()     // prints "hello"
talker_traits<base>::shout()    // prints "HELLO !!"

talker_traits<derived>::talk()  // prints "goodbye"
talker_traits<derived>::shout() // prints "HELLO !!"

ideone demo

The traits class lets you reuse the static method base::shout while "overriding" base::talk with derived::talk. Still, there are several difference with actual inheritance:

  • The function to call is resolved at compile time
  • The child method needs not have the same signature as the parent one

It works with static fields and typedefs too, the best example is std::iterator_traits.

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