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The java.util.Observer and java.util.Observable are ugly. They require the sorts of casts that make type-safety fans uncomfortable, and you can't define a class to be an Observer of multiple things without ugly casts. In fact, in "How do I know the generic object that the Observer class sends in Java?", an answerer says that only one type of data should be used in each observer / observable.

I'm trying to make a generic version of the observer pattern in Java to get round both these problems. It's not unlike the one in the previously mentioned post, but that question was not obviously resolved (the last comment is an unanswered question from the OP).

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Missing link on last line? –  Ed Staub Nov 18 '12 at 21:05
I suspect this is impossible to do neatly without a language extension. –  immibis Jun 30 at 5:35

5 Answers 5

up vote 5 down vote accepted

I prefer using an annotation so a listener can listen to different types of events.

public class BrokerTestMain {
    public static void main(String... args) {
        Broker broker = new Broker();
        broker.add(new Component());

        broker.publish(new Date());

class Component {
    public void onString(String s) {
        System.out.println("String - " + s);

    public void onDate(Date d) {
        System.out.println("Date - " + d);

    public void onDouble(Double d) {
        System.out.println("Double - " + d);


String - Hello
Date - Tue Nov 13 15:01:09 GMT 2012
Double - 3.1415

public @interface Subscription {

public class Broker {
    private final Map<Class, List<SubscriberInfo>> map = new LinkedHashMap<Class, List<SubscriberInfo>>();

    public void add(Object o) {
        for (Method method : o.getClass().getMethods()) {
            Class<?>[] parameterTypes = method.getParameterTypes();
            if (method.getAnnotation(Subscription.class) == null || parameterTypes.length != 1) continue;
            Class subscribeTo = parameterTypes[0];
            List<SubscriberInfo> subscriberInfos = map.get(subscribeTo);
            if (subscriberInfos == null)
                map.put(subscribeTo, subscriberInfos = new ArrayList<SubscriberInfo>());
            subscriberInfos.add(new SubscriberInfo(method, o));

    public void remove(Object o) {
        for (List<SubscriberInfo> subscriberInfos : map.values()) {
            for (int i = subscriberInfos.size() - 1; i >= 0; i--)
                if (subscriberInfos.get(i).object == o)

    public int publish(Object o) {
        List<SubscriberInfo> subscriberInfos = map.get(o.getClass());
        if (subscriberInfos == null) return 0;
        int count = 0;
        for (SubscriberInfo subscriberInfo : subscriberInfos) {
        return count;

    static class SubscriberInfo {
        final Method method;
        final Object object;

        SubscriberInfo(Method method, Object object) {
            this.method = method;
            this.object = object;

        void invoke(Object o) {
            try {
                method.invoke(object, o);
            } catch (Exception e) {
                throw new AssertionError(e);
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This is definitely a neat solution, but to me the Interface-based one feels like a better description of the intention of the code. Interested to know what you think. –  Hbcdev Nov 13 '12 at 21:50
I +1'ed you answer and I think its a good solution. Its the sort of pattern I use often. It is however limited to one broker per message type, and each listener can only receive one type of object. It is not as generic is having a broker which can handle any object type and listeners which can listen to multiple types. –  Peter Lawrey Nov 14 '12 at 8:45
Hadn't thought of that, you're right. Thanks for the answer, very useful to me, hopefully to other people too. –  Hbcdev Nov 14 '12 at 11:27


package util;

public interface Observer<ObservedType> {
    public void update(Observable<ObservedType> object, ObservedType data);


package util;

import java.util.LinkedList;
import java.util.List;

public class Observable<ObservedType> {

    private List<Observer<ObservedType>> _observers = 
      new LinkedList<Observer<ObservedType>>();

    public void addObserver(Observer<ObservedType> obs) {
        if (obs == null) {
            throw new IllegalArgumentException("Tried
                      to add a null observer");
        if (_observers.contains(obs)) {

    public void notifyObservers(ObservedType data) {
        for (Observer<ObservedType> obs : _observers) {
            obs.update(this, data);

Hopefully this will be useful to someone.

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Why would you do if(!contains) { return; } then add() when you could simply do if (contains) { add(); }. Besides, you should add some text to your IllegalArgumentException –  Alex Nov 13 '12 at 14:49
Guess you mean if(contains) first time and if(!contains) the second time round. Because I prefer the style, is all. It makes no difference. And, yeah, I'll edit the answer with fleshed-out text for the exception. –  Hbcdev Nov 13 '12 at 14:52
Hey @Alex, think your ! is still in the wrong place. :) –  Hbcdev Nov 13 '12 at 21:58

I once wrote a generic implementation of the observer pattern for Java using dynamic proxies. Here's a sample of how it could be used:

Gru gru = new Gru();
Minion fred = new Minion();

public interface IMinionListener
    public void laughing(Minion minion);

public class Minion extends AbstractObservable<IMinionListener>
    public void moo()

public class Gru implements IMinionListener
    public void punch(Minion minion) { ... }

    public void laughing(Minion minion)

The full source code of AbstractObservable is available on pastebin. Way back I blogged about how it works in a bit more detail, also referring to related projects.

Jaana wrote an interesting summary of different approaches, also contrasting the dynamic proxy approach with others. Much thanks of course goes to Allain Lalonde from which I got the original idea. I still haven't checked out PerfectJPattern, but it might just contain a stable implementation of the observer pattern; at least it seems like a mature library.

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Try to use class EventBus of Guava.

You can declare a Observer like this:

    public class EventObserver {
        public void onMessage(Message message) {

New a EventBus like this:

EventBus eventBus = new EventBus();

And register Observer like this:

eventBus.register(new EventObserver());

Last notify Observer like:

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A modern update: ReactiveX is a very nice API for asynchronous programming based on the Observer pattern, and it's fully generic. If you're using Observer/Observable to "stream" data or events from one place in your code to another, you should definitely look into it.

It's based on functional programming, so it looks very sleek with Java 8's lambda syntax:

Observable.from(Arrays.asList(1, 2, 3, 4, 5))
        .reduce((x, y) -> x + y)
        .map((v) -> "DecoratedValue: " + v)
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