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I am currently programming an event passing system for a game in C++ and I thought it would be useful if the events inherited from each other in a logical way.

This means I could for example raise an event of type NukeExplosion, which derives from Explosion (which would probably derive from an empty base class Event) and it would get passed to all listeners to an event of type NukeExplosion, as well as the more generic Explosion.

So far I was able to come up with two possible solutions:

  • Doing a dynamic_cast on the event for each set of listeners to the same event type. If it succeeds, I can then pass the event to all the listeners in the set.
  • Adding a piece of code to each Event type which raises the event again, but with a more generic type. The event would then be passed to listeners using the result of the typeid operator in conjunction with a map of listeners.

I don't really like the second option, because it's error-prone, and requires me to write almost the same code in every event class.

The problem with the first option is that it might need to do a lot of dynamic_casts, and I would like to avoid that.

So, is there any other way which I haven't taken into accont, or is the first option the best I can do? Or should I completely drop the inheritance of events?

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2 Answers 2

up vote 1 down vote accepted

I came here with almost exactly this question. The problem is basically that C++ won't let a function like handle (ExplosionEvent *e) accept an argument e with static type Event * even when the dynamic type of e is ExplosionEvent *. It would be a nice feature to have, but I'm not quite sure what else would have to change in the language.

The Visitor pattern is the cleanest solution I can think of. The drawbacks are that it's verbose and that it may not be cheaper than dynamic_cast<>.

Main.hpp:

#include <iostream>

class Event;
class Handler;

#include "Event.hpp"
#include "Handler.hpp"

Event.hpp:

#ifndef EVENT_H
#define EVENT_H

class Event 
{
public:
  virtual void accept (Handler *handler) { }
};

class ExplosionEvent : public Event 
{
  void accept (Handler *handler);
};

#endif // !EVENT_H

Event.cpp:

#include "Main.hpp"

void 
ExplosionEvent::accept (Handler *handler) 
{ 
  handler->handleExplosion (this);
}

Handler.hpp:

#ifndef HANDLER_H
#define HANDLER_H

class Handler
{
public:
  void handle (Event *event) { event->accept (this); }
  virtual void handleExplosion (ExplosionEvent *explosionEvent) { }
};

class ExplosionHandler : public Handler
{
  void handleExplosion (ExplosionEvent *explosionEvent);
};

#endif // !HANDLER_H

Handler.cpp:

#include "Main.hpp"

void
ExplosionHandler::handleExplosion (ExplosionEvent *explosionEvent)
{
  std::cout << "BOOM!" << std::endl;
}

Main.cpp:

#include "Main.hpp"

int
main (int argc, char *args)
{
  Event *event = new ExplosionEvent;
  Handler *handler = new ExplosionHandler;
  handler->handle (event);
}

Compile and run:

$ g++ -o boom *.cpp
$ ./boom 
BOOM!
$ 
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Even though I already used the second approach I described, I actually like this solution. The only problem I can see is that in a system with a lot of handlers the empty functions in Handler would probably get called quite a lot. –  f4st Mar 17 '13 at 11:56

Doing a dynamic cast for every listener will get really expensive for a large number of listeners so you probably will have to implement a map of typeid to listeners anyway.

My listener would have an HandleEvent which would take an Event object. This method would cast(with a static_cast) the base event to the event type it is expecting(it needs to trust the event dispatcher for the event registering mechanism).

I would also implement a method in the Event class which would return a new base event if valid because you might not want to send a base Event. This could be done with a macro but I have a feeling it could also be done with a template method although I haven't been able to make it work yet. The dispatcher would then get that base event before calling the event handlers and then call the handlers for the base event.

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I feel that what you are suggesting is what I described as my second option. And as I said, I don't like it because it requires adding similar code to all the event classes. On the other hand, it's a fast and quite simple solution. –  f4st Feb 6 '12 at 0:36

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