And yet another enable_shared_from_this question: Basically, I got three things.

  1. System classes that contain application logic and might or might not be event listeners.
  2. Some kind of EventManager, that maps events to shared_ptrs of interested systems.
  3. Some kind of SystemManager, that holds a std::list of shared_ptrs to System objects.

Now, each system should be able to register itself with the EventManager for all kinds of events it is interested in. Moreover, they should be able to de-register themselves for these events if they aren't interested in them any more.

However, I'm not sure how to create systems in the system manager and sign them up in a way that avoids two ownership groups.

From the SystemManager:

void SystemManager::AddSystem(GameSystem* system)
    // Take ownership of the specified system.

From the EventManager:

typedef std::shared_ptr<IEventListener> EventListenerPtr;

void EventManager::AddListener(EventListenerPtr const & listener, HashedString const & eventType)
    // Get the event type entry in the listeners map.
    std::map<unsigned long, std::list<EventListenerPtr>>::iterator iterator = this->listeners.find(eventType.getHash());

    if (iterator != this->listeners.end())
        std::list<EventListenerPtr> & eventListeners = iterator->second;

        // Add listener.
        // Add new entry to listeners map, removed for sake of simplicity of this example.

From some arbitrary system that wants to receive events:

void RenderSystem::InitSystem(std::shared_ptr<GameInfrastructure> game)
    // BAD: Creates second ownership group.
    this->game->eventManager->AddListener(std::shared_ptr<IEventListener>(this), AppWindowChangedEvent::AppWindowChangedEventType);

I have read my references recommending enable_shared_from_this. However, as the systems don't own themselves, they don't have access to the shared_ptr held by the SystemManager who originally created the systems and took ownership of them.

Any ideas of an elegant way to solve this?

  • That is the very use case of enable_shared_from_this, it gives you access to the shared_ptr owning you. – Drax Jul 28 '14 at 16:13

Your first problem is IEventListener. I'm guessing it is an interface to a simple callback.

Don't use inheritance for interfaces to simple callbacks, use type erasure on a simple callback.

typedef std::function<void(EventData)> EventListener;
typedef std::weak_ptr<EventListener> wpEventListener;
typedef std::shared_ptr<EventListener> EventToken;

EventToken EventManager::AddListener(EventListener listener, HashedString const & eventType)
  // note type changes (3 of them!) -- change the type of this->listeners to match
  // probably HashedString should have a std::hash<HashedString> specialization to make this
  // less painful
  // also should be auto iterator = -- the type of an iterator is not interesting.
  std::unordered_map<unsigned long, std::vector<wpEventListener>>::iterator iterator = this->listeners.find(eventType.getHash());

  if (iterator != this->listeners.end())
    auto & eventListeners = iterator->second;

    EventToken retval = std::make_shared<EventListener>(std::move(listener));
    return retval;
  } else {
    // Add new entry to listeners map, removed for sake of simplicity of this example.

now when you install Listener, you are responsible to hold your EventToken until you no longer want to listen to it. When you no longer want to listen to it, EventToken.reset().

In the EventManager, when you iterate over people listening, do auto listener = it->lock(); if (!listener) continue;, and in addition do a quick erase-remove-if to remove dead weak_ptrs.

Now our EventManager doesn't own the lifetime of its listeners, they can go away (almost) whenever they want. The EventManager notices the next time an event is invoked, and cleans up the dead ones.

You can retrofit this into using IEventListener, but even here you'll want a weak pointer, not a shared pointer. Using shared pointers everywhere is going to get you in trouble, as you'll have circular self-supporting references and resource leaks aplenty.

Finally, shared_from_this actually lets you access the shared_ptr that owns you. It means that when a shared_ptr is constructed, a weak_ptr is stored in the shared_from_this, which can later be extracted even if you only have the this pointer.

I typically find this a bad sign: you should rarely be upgrading raw pointers to shared pointers in random contexts. The lifetime semantics of a method should be obvious from its interface, and taking a T* and turning it internally into a shared_ptr<T> makes the lifetime semantics completely unclear.

  • Hey Yakk, thank you for the verbose answer! std::function definitely looks much cleaner to me, I'm just trying to refactor everything into this. However, if I get that pattern right (from other discussions like stackoverflow.com/questions/14814158/…), the event manager would require references to objects of all classes to call the callbacks? If that is true, wouldn't it need to store those as well...? Or am I missing something? – Nick Pruehs Jul 28 '14 at 18:29
  • @NickPruehs no, the class stores a reference to themselves in the callback. And the class stores the shared_ptr token to the callback in itself. When it dies, it kills the event token, thus preventing most cases where it is called after being deleted. (If the callback causes the object to be deleted, well, that is your fault!) Ie, pass [this]( event_data d ){ this->ProcessEvent(d); } to AddListener as your EventListener. – Yakk - Adam Nevraumont Jul 28 '14 at 20:49
  • Your solution works fine for all functions that don't take manages objects as parameters. As I'm writing a Windows Store app, I have just a few of these, so I'm sticking to the interface solution right now, but I didn't mention this requirement, so thank you again for your answer! The hint not to use shared_ptrs everywhere made it work. – Nick Pruehs Jul 29 '14 at 11:34

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