打开一看,原来相关代码并不多,下面看下细节
主要方法也就是注册,取消注册和发送事件,可以看到两个主要的变量就是subscribers和dispatcher
public void register(Object object) { subscribers.register(object); }
首先看下注册类中做了什么,在下面的注册类中,可以看到首先调用了这个方法,对传入的listener类型,利用反射拿到信息
/** * Returns all subscribers for the given listener grouped by the type of event they subscribe to. */ private Multimap<Class<?>, Subscriber> findAllSubscribers(Object listener) { Multimap<Class<?>, Subscriber> methodsInListener = HashMultimap.create(); Class<?> clazz = listener.getClass(); for (Method method : getAnnotatedMethods(clazz)) { Class<?>[] parameterTypes = method.getParameterTypes(); Class<?> eventType = parameterTypes[0]; methodsInListener.put(eventType, Subscriber.create(bus, listener, method)); } return methodsInListener; }
debug下就清楚了
/** Registers all subscriber methods on the given listener object. */ void register(Object listener) { Multimap<Class<?>, Subscriber> listenerMethods = findAllSubscribers(listener); for (Entry<Class<?>, Collection<Subscriber>> entry : listenerMethods.asMap().entrySet()) { Class<?> eventType = entry.getKey(); Collection<Subscriber> eventMethodsInListener = entry.getValue(); CopyOnWriteArraySet<Subscriber> eventSubscribers = subscribers.get(eventType); if (eventSubscribers == null) { CopyOnWriteArraySet<Subscriber> newSet = new CopyOnWriteArraySet<>(); eventSubscribers = MoreObjects.firstNonNull(subscribers.putIfAbsent(eventType, newSet), newSet); } eventSubscribers.addAll(eventMethodsInListener); } }
注册后这里的订阅者会保存如下信息。
其次是分发
public void post(Object event) { Iterator<Subscriber> eventSubscribers = subscribers.getSubscribers(event); if (eventSubscribers.hasNext()) { dispatcher.dispatch(event, eventSubscribers); } else if (!(event instanceof DeadEvent)) { // the event had no subscribers and was not itself a DeadEvent post(new DeadEvent(this, event)); } }
可见是先拿注册信息,再分发
@Override void dispatch(Object event, Iterator<Subscriber> subscribers) { checkNotNull(event); checkNotNull(subscribers); Queue<Event> queueForThread = queue.get(); queueForThread.offer(new Event(event, subscribers)); if (!dispatching.get()) { dispatching.set(true); try { Event nextEvent; while ((nextEvent = queueForThread.poll()) != null) { while (nextEvent.subscribers.hasNext()) { nextEvent.subscribers.next().dispatchEvent(nextEvent.event); } } } finally { dispatching.remove(); queue.remove(); } } }
这里的dispatch通过反射执行
/** Dispatches {@code event} to this subscriber using the proper executor. */ final void dispatchEvent(final Object event) { executor.execute( new Runnable() { @Override public void run() { try { invokeSubscriberMethod(event); } catch (InvocationTargetException e) { bus.handleSubscriberException(e.getCause(), context(event)); } } }); }
再下级
/** * Invokes the subscriber method. This method can be overridden to make the invocation * synchronized. */ @VisibleForTesting void invokeSubscriberMethod(Object event) throws InvocationTargetException { try { method.invoke(target, checkNotNull(event)); } catch (IllegalArgumentException e) { throw new Error("Method rejected target/argument: " + event, e); } catch (IllegalAccessException e) { throw new Error("Method became inaccessible: " + event, e); } catch (InvocationTargetException e) { if (e.getCause() instanceof Error) { throw (Error) e.getCause(); } throw e; } }
至此结束调用,这种设计还蛮特别的,值得学习
