Event Queues"

From Documentation
 
(32 intermediate revisions by 3 users not shown)
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By publishing, a module (publisher) sends out messages without explicitly specifying or having knowledge of intended recipients. By subscribing, a receiving module (subscriber) receives messages that the subscriber has registered an interest in it, without explicitly specifying or knowing the publisher.  
 
By publishing, a module (publisher) sends out messages without explicitly specifying or having knowledge of intended recipients. By subscribing, a receiving module (subscriber) receives messages that the subscriber has registered an interest in it, without explicitly specifying or knowing the publisher.  
[[File:Eventqueue-concept.jpg]]
+
[[File:Eventqueue-concept.jpg | center]]
  
 
The purpose of event queues are two folds:
 
The purpose of event queues are two folds:
  
 
# Simplify the many-to-many communication.
 
# Simplify the many-to-many communication.
# Make the application independent of the underlining communication mechanism. The application remains the same, while the event queue can be implemented with the use of Ajax, server push and even message queue.
+
# Make the application independent of the underlying communication mechanism. The application remains the same, while the event queue can be implemented with the use of Ajax, server push and even message queue.
  
 
= Identification of an Event Queue =
 
= Identification of an Event Queue =
Line 18: Line 18:
 
== Locate an Event Queue ==
 
== Locate an Event Queue ==
  
You could locate an event queue by invoking one of the <tt>lookup</tt> method of <javadoc>org.zkoss.zk.ui.event.EventQueues</javadoc>. For example,
+
You could locate an event queue by invoking one of the <code>lookup</code> methods of <javadoc>org.zkoss.zk.ui.event.EventQueues</javadoc>. For example,
  
 
<source lang="java">
 
<source lang="java">
Line 30: Line 30:
 
== The Scope of an Event Queue ==
 
== The Scope of an Event Queue ==
  
There are currently four different scopes: desktop, group, session and application. In addition, you add your own scope, such as that you can include a message queue to communicate among several servers.
+
There are currently four different scopes: desktop, group, session, and application. In addition, you add your own scope, such as that you can include a message queue to communicate among several servers.
  
{| border='1px' | width="100%"
+
{| class="wikitable" | width="100%"
! Name !! API !! Description
+
! Scope !! API !! Description
 
|-
 
|-
 
| desktop
 
| desktop
 
| <javadoc method="lookup(java.lang.String, java.lang.String)">org.zkoss.zk.ui.event.EventQueues</javadoc><br/>
 
| <javadoc method="lookup(java.lang.String, java.lang.String)">org.zkoss.zk.ui.event.EventQueues</javadoc><br/>
 
<javadoc method="lookup(java.lang.String, java.lang.String, boolean)">org.zkoss.zk.ui.event.EventQueues</javadoc>
 
<javadoc method="lookup(java.lang.String, java.lang.String, boolean)">org.zkoss.zk.ui.event.EventQueues</javadoc>
| The event queue is visible only in the same desktop.
+
| The event queue is visible only in the same desktop. ([https://www.zkoss.org/javadoc/latest/zk/org/zkoss/zk/ui/event/impl/DesktopEventQueue.html DesktopEventQueue])
 
|-
 
|-
 
| group
 
| group
Line 45: Line 45:
 
<javadoc method="lookup(java.lang.String, java.lang.String, boolean)">org.zkoss.zk.ui.event.EventQueues</javadoc>
 
<javadoc method="lookup(java.lang.String, java.lang.String, boolean)">org.zkoss.zk.ui.event.EventQueues</javadoc>
 
|
 
|
[since 5.0.4][ZK EE]
+
{{versionSince| 5.0.4}} {{ZK EE}}
The event queue is visible only in a group of desktops that belongs to the same browser tab(page). It is formed if iframe or frameset is used. Some portal container might cause a group of desktops to be formed too.
+
The event queue is visible only in a group of desktops that belongs to the same browser tab(page). It is formed if an iframe or frameset is used. Some portal containers might cause a group of desktops to be formed too.
 
Unlike the session and application scope, the group scope doesn't require the server push, so the communication is more efficient.
 
Unlike the session and application scope, the group scope doesn't require the server push, so the communication is more efficient.
 
|-
 
|-
Line 54: Line 54:
 
<javadoc method="lookup(java.lang.String, org.zkoss.zk.ui.Session)">org.zkoss.zk.ui.event.EventQueues</javadoc><br/>
 
<javadoc method="lookup(java.lang.String, org.zkoss.zk.ui.Session)">org.zkoss.zk.ui.event.EventQueues</javadoc><br/>
 
<javadoc method="lookup(java.lang.String, org.zkoss.zk.ui.Session, boolean)">org.zkoss.zk.ui.event.EventQueues</javadoc>
 
<javadoc method="lookup(java.lang.String, org.zkoss.zk.ui.Session, boolean)">org.zkoss.zk.ui.event.EventQueues</javadoc>
| The event queue is visible only in the same session. The server push will be enabled automatically if it subscribes a session-scoped event queue.
+
| The event queue is visible only in the same session. The '''server push will be enabled automatically''' if it subscribes a session-scoped event queue.
  
Notice that the server push is disabled automatically if the current desktop doesn't subscribe to any session- or application-scoped event queue. Also notice that the locating and creating of an event queue and publishing an event won't start the server push.
+
Notice that the server push is disabled automatically if the current desktop doesn't subscribe to any session- or application-scoped event queue. Also, notice that the locating and creating of an event queue and publishing an event won't start the server push.
  
ZK 5.0.5 and Prior: When a server push is enabled, a working thread is instantiated and started. It means this feature cannot be used in the environment that doesn't allow working threads, such Google App Engine. No such limitation is likely to occur in ZK 5.0.6 or later.
+
ZK 5.0.5 and Prior: When a server push is enabled, a working thread is instantiated and started. It means this feature cannot be used in an environment that doesn't allow working threads, such as Google App Engine. No such limitation is likely to occur in ZK 5.0.6 or later.
  
 
|-
 
|-
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<javadoc method="lookup(java.lang.String, org.zkoss.zk.ui.WebApp)">org.zkoss.zk.ui.event.EventQueues</javadoc><br/>
 
<javadoc method="lookup(java.lang.String, org.zkoss.zk.ui.WebApp)">org.zkoss.zk.ui.event.EventQueues</javadoc><br/>
 
<javadoc method="lookup(java.lang.String, org.zkoss.zk.ui.WebApp, boolean)">org.zkoss.zk.ui.event.EventQueues</javadoc>
 
<javadoc method="lookup(java.lang.String, org.zkoss.zk.ui.WebApp, boolean)">org.zkoss.zk.ui.event.EventQueues</javadoc>
| The event queue is visible only in the whole application. The server push will be enabled automatically.
+
| The event queue is visible only in the whole application. The '''server push will be enabled automatically'''.
  
 
Notice that the server push is disabled automatically if the current desktop doesn't subscribe to any session- or application-scoped event queue. Also notice that the locating and creating of an event queue and publishing an event won't start the server push.
 
Notice that the server push is disabled automatically if the current desktop doesn't subscribe to any session- or application-scoped event queue. Also notice that the locating and creating of an event queue and publishing an event won't start the server push.
  
ZK 5.0.5 and Prior: When a server push is enabled, a working thread is instantiated and started. It means this feature cannot be used in the environment that doesn't allow working threads, such Google App Engine. No such limitation is likely to occur in ZK 5.0.6 or later.
+
ZK 5.0.5 and Prior: When a server push is enabled, a working thread is instantiated and started. It means this feature cannot be used in an environment that doesn't allow working threads, such as Google App Engine. No such limitation is likely to occur in ZK 5.0.6 or later.
 
|}
 
|}
 +
 +
 +
 +
Here is a summary of the differences.
 +
 +
{|class="wikitable"
 +
|-
 +
!
 +
! desktop
 +
! group
 +
! session
 +
! application
 +
|-
 +
| visibility
 +
| desktop
 +
| group
 +
| session
 +
| application
 +
|-
 +
| publish
 +
| only in an event listener, or the current execution is available.
 +
| only in an event listener, or the current execution is available.
 +
| no limitation
 +
| no limitation
 +
|-
 +
| subscribe
 +
| only in an event listener, or the current execution is available.
 +
| only in an event listener, or the current execution is available.
 +
| only in an event listener, or the current execution is available.
 +
| only in an event listener, or the current execution is available.
 +
|-
 +
| multi-thread
 +
| Not used
 +
| Not used
 +
| 5.0.5 or prior: Used (transparent)<br/>
 +
5.0.6 or later: Not used
 +
| 5.0.5 or prior: Used (transparent)<br/>
 +
5.0.6 or later: Not used
 +
|-
 +
| server-push
 +
| Not used*
 +
| Not used*
 +
| Used (transparent)
 +
| Used (transparent)
 +
|-
 +
| Cluster Environment
 +
| Support
 +
| Support
 +
| Support
 +
| Unsupported (Java Spec. Limitation)
 +
|-
 +
| Availability
 +
| {{ZK All}}
 +
| {{ZK EE}}
 +
| {{ZK All}}
 +
| {{ZK All}}
 +
|-
 +
| Use Cases
 +
|
 +
* send events between different pages within one desktop
 +
|
 +
|
 +
* a user logins in one browser tab, log out the same user in other browser tabs of the same session
 +
|
 +
* send messages in a chatroom application
 +
* broadcast system messages to all users/desktops
 +
|}
 +
 +
* If you register an asynchronous listener, it still enables server-push.
  
 
= Publish and Subscribe =
 
= Publish and Subscribe =
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== Publish an Event ==
 
== Publish an Event ==
  
To publish, just invoke one of the <tt>publish</tt> methods of <javadoc>org.zkoss.zk.ui.event.EventQueue</javadoc> (returned by <tt>lookup</tt>). For example,
+
To publish, just invoke one of the <code>publish</code> methods of <javadoc>org.zkoss.zk.ui.event.EventQueue</javadoc> (returned by <code>lookup</code>). For example,
  
 
<source lang="java">
 
<source lang="java">
Line 84: Line 153:
 
</source>
 
</source>
  
The message used to communicate among publishers and subscribes are the event instances, so you can use any event you prefer.
+
The message used to communicate among publishers and subscribers is <javadoc>org.zkoss.zk.ui.event.Event</javadoc> object, so you can use any of its subclasses you prefer.
  
== Subscribe to an Event Queue ==
+
== Subscribe with a Synchronous Event Listener==
  
The event being published will be sent to each subscriber by calling the event listener the subscriber to subscribe. To subscribe, just invoke one of the <tt>subscribe</tt> methods of <javadoc>org.zkoss.zk.ui.event.EventQueue</javadoc> (returned by <tt>lookup</tt>). For example,
+
An event queue will broadcast a published event to all subscribers by calling each subscriber's event listener. To subscribe an event queue with a synchronous listener, just invoke [https://www.zkoss.org/javadoc/latest/zk/org/zkoss/zk/ui/event/EventQueue.html#subscribe-org.zkoss.zk.ui.event.EventListener- EventQueue.subscribe] (returned by <code>lookup</code>). The event listener is invoked just like a normal event. You can manipulate ZK components, update UI by notifying a bean's change or implement your business logic. For example:
  
 
<source lang="java">
 
<source lang="java">
Line 94: Line 163:
 
   new EventListener() {
 
   new EventListener() {
 
     public void onEvent(Event evt) {
 
     public void onEvent(Event evt) {
       //handle the event just like any other event listener
+
       //handle the event just like any other event listener, can change components' state
 
     }
 
     }
 
   });
 
   });
 
</source>
 
</source>
  
The event listener is invoked just like a normal event. You can manipulate the component or do whatever as you want.
+
= Asynchronous Event Listener =
 +
 
 +
By default, the subscribed event listeners are invoked the same way as invocations of the listeners for a posted event. They are invoked one-by-one. No two event listeners belonging to the same desktop will be invoked at the same time. In addition, it is invoked under an execution (i.e., <javadoc method="getCurrent">org.zkoss.zk.ui.Executions</javadoc> is never null). It is allowed to manipulate the components belonging to the current execution. For the sake of description, we call them synchronous event listeners.
 +
 
 +
On the other hand, the event queue also supports the so-called asynchronous event listener, which is invoked '''asynchronously in another thread'''. There is '''no current execution''' available. It is '''not''' allowed to access any component. It is designed to execute a long operation without blocking users from accessing other UI in a browser.
 +
 
 +
For more information and examples, please refer to [[ZK Developer's Reference/UI Patterns/Long Operations/Use Event Queues|the Long Operations: Use Event Queue]] section.
 +
 
 +
= Clean Up=
 +
Remember to [https://www.zkoss.org/javadoc/latest/zk/org/zkoss/zk/ui/event/EventQueue.html#unsubscribe(org.zkoss.zk.ui.event.EventListener)  unsubscribe] to an event queue with a listener when you don't need it anymore to avoid performing duplicate actions.
 +
 
 +
It's better to remove an event queue manually as you don't need it. If you create a '''desktop''' scope event queue, since it's stored as a desktop's attribute, it will be destroyed when the desktop is destroyed. The same rule applies to a session-scoped event queue.
 +
 
 +
= Extend Event Queue: Add a Custom Scope =
 +
 
 +
The location and creation of an event queue are actually done by a so-called event queue provider. An event-queue provider must implement the <javadoc>org.zkoss.zk.ui.event.impl.EventQueueProvider</javadoc> interface.
 +
 
 +
To customize it, just provide an implementation, and then specify the class name in the property called <code>org.zkoss.zk.ui.event.EventQueueProvider.class</code>.
 +
 
 +
For example, let us say we want to introduce the JMS scope, then we can implement as follows (only pseudo-code):
 +
 
 +
<source lang="java">
 +
public class MyEventQueueProvider extends org.zkoss.zk.ui.event.impl.EventQueueProviderImpl {
 +
  public EventQueue lookup(String name, String scope, boolean autocreate) {
 +
    if ("jms".equals(scope)) {
 +
      //create an event queue based on JMS's name
 +
    } else
 +
      return super.lookup(name, scope, autocreate);
 +
  }
 +
  public boolean remove(String name, String scope) {
 +
    if ("jms".equals(scope)) {
 +
      //remove the event queue based on JMS's name
 +
    } else
 +
      return super.removename, scope);
 +
  }
 +
}
 +
</source>
 +
 
 +
Then, specify the property in <code>WEB-INF/zk.xml</code>
  
== Example: Chat ==
+
<source lang="xml">
 +
<library-property>
 +
<name>org.zkoss.zk.ui.event.EventQueueProvider.class</name>
 +
<value>MyEventQueueProvider</value>
 +
</library-property>
 +
</source>
 +
 
 +
 
 +
== Event Queues and Server Push ==
 +
 
 +
When an application-scope event queue is used, the server push is enabled automatically for each desktop that subscribers belong to. In addition, a thread is created to forward the event to subscribers.
 +
 
 +
ZK supports several server push implementations and configurations including client-polling and [http://en.wikipedia.org/wiki/Comet_(programming) comet], please refer to [[ZK_Developer%27s_Reference/Server_Push/Configuration | Server_Push/Configuration]].
 +
 
 +
= Use Case =
 +
 
 +
== Application-scope: Chatroom ==
  
 
Here is an example: chat.
 
Here is an example: chat.
Line 132: Line 255:
 
Then, you can chat among two or more different computers.
 
Then, you can chat among two or more different computers.
  
== Example: interactive between multiple ZUL pages ==
+
==Desktop scope: among Multiple ZUL Pages ==
It is a typical approach to split page layout with several ZUL pages, and EventQueue could also be used for communicating between these pages. Here is an example for using EventQueue to interactive between two composers. Lets say you have a main.zul page that is actually divided in two page1.zul and page2.zul
+
It is a typical approach to split page layout with several ZUL pages, and EventQueue could also be used for communicating between these pages. Here is an example for using EventQueue to interact between two composers. Let's say you have a main.zul page that is actually divided into two: page1.zul and page2.zul.
  
Main page main.zul
+
'''main.zul'''
 
<source lang="xml">
 
<source lang="xml">
 
<zk>
 
<zk>
Line 143: Line 266:
 
</source>
 
</source>
  
The first ZUL page and composer class:
+
'''page1.zul'''
 
<source lang="xml">
 
<source lang="xml">
 
<window title="ZUL page 1" border="normal" apply="demo.WindowComposer1">
 
<window title="ZUL page 1" border="normal" apply="demo.WindowComposer1">
Line 156: Line 279:
 
@Wire
 
@Wire
 
Button btn;
 
Button btn;
 
public void doAfterCompose(Component comp) throws Exception {
 
super.doAfterCompose(comp);
 
}
 
 
 
 
@Listen("onClick = button#btn")
 
@Listen("onClick = button#btn")
 
public void changeLabel() {
 
public void changeLabel() {
eq = EventQueues.lookup("interactive", EventQueues.DESKTOP, false);
+
eq = EventQueues.lookup("interactive", EventQueues.DESKTOP, true);
 
eq.publish(new Event("onButtonClick", btn, "label is Changed!"));
 
eq.publish(new Event("onButtonClick", btn, "label is Changed!"));
 
}
 
}
 
}
 
}
 
</source>
 
</source>
The second ZUL page and composer class:
+
 
 +
'''page2.zul'''
 
<source lang="xml">
 
<source lang="xml">
 
<window title="ZUL page 2" border="normal" apply="demo.WindowComposer2">
 
<window title="ZUL page 2" border="normal" apply="demo.WindowComposer2">
Line 195: Line 315:
 
</source>
 
</source>
  
By doing this, you can change data in ZUL page 2 by clicking the button in ZUL page 1 Note: Open main.zul page in browser to run the above sample codes. If there are any other ZUL pages that have subscribed to the same name of the EventQueues, the content in those ZUL pages will also be updated.
+
By doing this, you can change data in ZUL page 2 by clicking the button in ZUL page 1. Note: Open main.zul page in browser to run the above sample codes. If there are any other ZUL pages that have subscribed to the same name in the EventQueues, the content in those ZUL pages will also be updated.
 
 
= Asynchronous Event Listener =
 
 
 
By default, the subscribed event listeners are invoked the same way as invocation of the listeners for a posted event. They are invoked one-by-one. No two event listeners belonging to the same desktop will be invoked at the same time. In addition, it is invoked under an execution (i.e., <javadoc method="getCurrent">org.zkoss.zk.ui.Executions</javadoc> is never null). It is allowed to manipulate the components belonging to the current execution. For sake of description, we call them synchronous event listeners.
 
 
 
On the other hand, the event queue also supports the so-called asynchronous event listener, which is invoked asynchronously in another thread. There is no current execution available. It is <i>not</i> allowed to access any component. It is designed to execute a long operation without blocking users from accessing the other functions.
 
 
 
For more information and examples, please refer to [[ZK Developer's Reference/UI Patterns/Long Operations/Use Event Queues|the Long Operations: Use Event Queue]] section.
 
 
 
= More About Scopes =
 
 
 
Here is a summary of the differences.
 
 
 
{|border="1" cellspacing="0" width="100%"
 
|-
 
!
 
! desktop
 
! group
 
! session
 
! application
 
|-
 
| visibility
 
| desktop
 
| group
 
| session
 
| application
 
|-
 
| publish
 
| only in an event listener, or the current execution is available.
 
| only in an event listener, or the current execution is available.
 
| no limitation
 
| no limitation
 
|-
 
| subscribe
 
| only in an event listener, or the current execution is available.
 
| only in an event listener, or the current execution is available.
 
| only in an event listener, or the current execution is available.
 
| only in an event listener, or the current execution is available.
 
|-
 
| multi-thread
 
| Not used
 
| Not used
 
| 5.0.5 or prior: Used (transparent)<br/>
 
5.0.6 or later: Not used
 
| 5.0.5 or prior: Used (transparent)<br/>
 
5.0.6 or later: Not used
 
|-
 
| server-push
 
| Not used
 
| Not used
 
| Used (transparent)
 
| Used (transparent)
 
|-
 
| Cluster Environment
 
| Support
 
| Support
 
| Support
 
| Unsupported (Java Spec. Limitation)
 
|-
 
| Availability
 
| CE
 
| EE
 
| CE
 
| CE
 
|}
 
 
 
= Extend Event Queue: Add a Custom Scope =
 
 
 
The location and creation of an event queue is actually done by a so-called event queue provider. An event-queue provider must implement the <javadoc>org.zkoss.zk.ui.event.impl.EventQueueProvider</javadoc> interface.
 
 
 
To customize it, just provide an implementation, and then specify the class name in the property called <tt>org.zkoss.zk.ui.event.EventQueueProvider.class</tt>.
 
 
 
For example, let us say we want to introduce the JMS scope, then we can implement as follows (only pseudo-code):
 
 
 
<source lang="java">
 
public class MyEventQueueProvider extends org.zkoss.zk.ui.event.impl.EventQueueProviderImpl {
 
  public EventQueue lookup(String name, String scope, boolean autocreate) {
 
    if ("jms".equals(scope)) {
 
      //create an event queue based on JMS's name
 
    } else
 
      return super.lookup(name, scope, autocreate);
 
  }
 
  public boolean remove(String name, String scope) {
 
    if ("jms".equals(scope)) {
 
      //remove the event queue based on JMS's name
 
    } else
 
      return super.removename, scope);
 
  }
 
}
 
</source>
 
 
 
Then, specify the property in <tt>WEB-INF/zk.xml</tt>
 
 
 
<source lang="xml">
 
<library-property>
 
<name>org.zkoss.zk.ui.event.EventQueueProvider.class</name>
 
<value>MyEventQueueProvider</value>
 
</library-property>
 
</source>
 
 
 
== Event Queues and Server Push ==
 
 
 
When an application-scope event queue is used, the server push is enabled for each desktop that subscribers belong to. In additions, a thread is created to forward the event to subscribers.
 
 
 
ZK has two kinds of server push: client-polling and comet<ref>[http://en.wikipedia.org/wiki/Comet_(programming) Comet Programming]</ref>. The client-polling server push is implemented with an implicit timer at the client. The interval of the timer depends on the loading of the server. For example, the interval becomes longer if the time to get a response has become longer.
 
 
 
On the other hand, the comet server push is implemented with a pre-established and 'virtual' permanent connection. It is like sending a taxi to the server, and waiting in the server until there is data to send back. Meanwhile, the client-polling server is like sending a taxi periodically to the server, and leave immediately if no data is available.
 
 
 
By default, the comet server push is used. If you prefer to use the client-polling approach, just specify the following in <tt>WEB-INF/zk.xml</tt><ref>Like most ZK features, you can provide your own implementation if you like.</ref>.
 
 
 
<source lang="xml">
 
<device-config>
 
<device-type>ajax</device-type>
 
<server-push-class>org.zkoss.zk.ui.impl.PollingServerPush</server-push-class>
 
</device-config>
 
</source>
 
 
 
<blockquote>
 
----
 
<references/>
 
</blockquote>
 
  
 
=Version History=
 
=Version History=
  
{| border='1px' | width="100%"
+
{| class='wikitable' | width="100%"
 
! Version !! Date !! Content
 
! Version !! Date !! Content
 
|-
 
|-

Latest revision as of 03:06, 2 February 2024

Overview

An event queue is an event-based publish-subscriber solution for application information delivery and messaging. It provides asynchronous communications for different modules/roles in a loosely-coupled and autonomous fashion.

By publishing, a module (publisher) sends out messages without explicitly specifying or having knowledge of intended recipients. By subscribing, a receiving module (subscriber) receives messages that the subscriber has registered an interest in it, without explicitly specifying or knowing the publisher.

Eventqueue-concept.jpg

The purpose of event queues are two folds:

  1. Simplify the many-to-many communication.
  2. Make the application independent of the underlying communication mechanism. The application remains the same, while the event queue can be implemented with the use of Ajax, server push and even message queue.

Identification of an Event Queue

An event queue is identified by a name and a scope. The scope represents the visibility of an event queue. For example, while a desktop-scoped event queue is visible in the same desktop, the application-scoped event queue is only visible in the whole application.

Locate an Event Queue

You could locate an event queue by invoking one of the lookup methods of EventQueues. For example,

EventQueues.lookup("myQueue"); //assumes the desktop scope
EventQueues.lookup("anotherQueue", EventQueues.SESSION, true);
EventQueues.lookup("anotherQueue", session, true);

Notice that if you want to locate an event queue in a working thread (rather than an event listener), you have to use EventQueues.lookup(String, Session) or EventQueues.lookup(String, Application), depending on your requirement.

The Scope of an Event Queue

There are currently four different scopes: desktop, group, session, and application. In addition, you add your own scope, such as that you can include a message queue to communicate among several servers.

Scope API Description
desktop EventQueues.lookup(String, String)

EventQueues.lookup(String, String, boolean)

The event queue is visible only in the same desktop. (DesktopEventQueue)
group EventQueues.lookup(String, String)

EventQueues.lookup(String, String, boolean)

Since 5.0.4
  • Available for ZK:
  • http://www.zkoss.org/product/zkhttp://www.zkoss.org/whyzk/zkeeVersion ee.png

The event queue is visible only in a group of desktops that belongs to the same browser tab(page). It is formed if an iframe or frameset is used. Some portal containers might cause a group of desktops to be formed too. Unlike the session and application scope, the group scope doesn't require the server push, so the communication is more efficient.

session EventQueues.lookup(String, String)

EventQueues.lookup(String, String, boolean)
EventQueues.lookup(String, Session)
EventQueues.lookup(String, Session, boolean)

The event queue is visible only in the same session. The server push will be enabled automatically if it subscribes a session-scoped event queue.

Notice that the server push is disabled automatically if the current desktop doesn't subscribe to any session- or application-scoped event queue. Also, notice that the locating and creating of an event queue and publishing an event won't start the server push.

ZK 5.0.5 and Prior: When a server push is enabled, a working thread is instantiated and started. It means this feature cannot be used in an environment that doesn't allow working threads, such as Google App Engine. No such limitation is likely to occur in ZK 5.0.6 or later.

application EventQueues.lookup(String, String)

EventQueues.lookup(String, String, boolean)
EventQueues.lookup(String, WebApp)
EventQueues.lookup(String, WebApp, boolean)

The event queue is visible only in the whole application. The server push will be enabled automatically.

Notice that the server push is disabled automatically if the current desktop doesn't subscribe to any session- or application-scoped event queue. Also notice that the locating and creating of an event queue and publishing an event won't start the server push.

ZK 5.0.5 and Prior: When a server push is enabled, a working thread is instantiated and started. It means this feature cannot be used in an environment that doesn't allow working threads, such as Google App Engine. No such limitation is likely to occur in ZK 5.0.6 or later.


Here is a summary of the differences.

desktop group session application
visibility desktop group session application
publish only in an event listener, or the current execution is available. only in an event listener, or the current execution is available. no limitation no limitation
subscribe only in an event listener, or the current execution is available. only in an event listener, or the current execution is available. only in an event listener, or the current execution is available. only in an event listener, or the current execution is available.
multi-thread Not used Not used 5.0.5 or prior: Used (transparent)

5.0.6 or later: Not used

5.0.5 or prior: Used (transparent)

5.0.6 or later: Not used

server-push Not used* Not used* Used (transparent) Used (transparent)
Cluster Environment Support Support Support Unsupported (Java Spec. Limitation)
Availability
  • Available for ZK:
  • http://www.zkoss.org/product/zkhttp://www.zkoss.org/whyzk/zkeeVersion ce-pe-ee.png
  • Available for ZK:
  • http://www.zkoss.org/product/zkhttp://www.zkoss.org/whyzk/zkeeVersion ee.png
  • Available for ZK:
  • http://www.zkoss.org/product/zkhttp://www.zkoss.org/whyzk/zkeeVersion ce-pe-ee.png
  • Available for ZK:
  • http://www.zkoss.org/product/zkhttp://www.zkoss.org/whyzk/zkeeVersion ce-pe-ee.png
Use Cases
  • send events between different pages within one desktop
  • a user logins in one browser tab, log out the same user in other browser tabs of the same session
  • send messages in a chatroom application
  • broadcast system messages to all users/desktops
  • If you register an asynchronous listener, it still enables server-push.

Publish and Subscribe

Publish an Event

To publish, just invoke one of the publish methods of EventQueue (returned by lookup). For example,

EventQueues.lookup("my super queue", EventQueues.APPLICATION, true)
  .publish(new Event("onSomethingHapping", null, new SomeAdditionInfo()));

The message used to communicate among publishers and subscribers is Event object, so you can use any of its subclasses you prefer.

Subscribe with a Synchronous Event Listener

An event queue will broadcast a published event to all subscribers by calling each subscriber's event listener. To subscribe an event queue with a synchronous listener, just invoke EventQueue.subscribe (returned by lookup). The event listener is invoked just like a normal event. You can manipulate ZK components, update UI by notifying a bean's change or implement your business logic. For example:

EventQueues.lookup("my super queue", EventQueues.APPLICATION, true).subscribe(
  new EventListener() {
    public void onEvent(Event evt) {
       //handle the event just like any other event listener, can change components' state
    }
  });

Asynchronous Event Listener

By default, the subscribed event listeners are invoked the same way as invocations of the listeners for a posted event. They are invoked one-by-one. No two event listeners belonging to the same desktop will be invoked at the same time. In addition, it is invoked under an execution (i.e., Executions.getCurrent is never null). It is allowed to manipulate the components belonging to the current execution. For the sake of description, we call them synchronous event listeners.

On the other hand, the event queue also supports the so-called asynchronous event listener, which is invoked asynchronously in another thread. There is no current execution available. It is not allowed to access any component. It is designed to execute a long operation without blocking users from accessing other UI in a browser.

For more information and examples, please refer to the Long Operations: Use Event Queue section.

Clean Up

Remember to unsubscribe to an event queue with a listener when you don't need it anymore to avoid performing duplicate actions.

It's better to remove an event queue manually as you don't need it. If you create a desktop scope event queue, since it's stored as a desktop's attribute, it will be destroyed when the desktop is destroyed. The same rule applies to a session-scoped event queue.

Extend Event Queue: Add a Custom Scope

The location and creation of an event queue are actually done by a so-called event queue provider. An event-queue provider must implement the EventQueueProvider interface.

To customize it, just provide an implementation, and then specify the class name in the property called org.zkoss.zk.ui.event.EventQueueProvider.class.

For example, let us say we want to introduce the JMS scope, then we can implement as follows (only pseudo-code):

public class MyEventQueueProvider extends org.zkoss.zk.ui.event.impl.EventQueueProviderImpl {
  public EventQueue lookup(String name, String scope, boolean autocreate) {
    if ("jms".equals(scope)) {
      //create an event queue based on JMS's name
    } else
      return super.lookup(name, scope, autocreate);
  }
  public boolean remove(String name, String scope) {
    if ("jms".equals(scope)) {
      //remove the event queue based on JMS's name
    } else
      return super.removename, scope);
  }
}

Then, specify the property in WEB-INF/zk.xml

<library-property>
	<name>org.zkoss.zk.ui.event.EventQueueProvider.class</name>
	<value>MyEventQueueProvider</value>
</library-property>


Event Queues and Server Push

When an application-scope event queue is used, the server push is enabled automatically for each desktop that subscribers belong to. In addition, a thread is created to forward the event to subscribers.

ZK supports several server push implementations and configurations including client-polling and comet, please refer to Server_Push/Configuration.

Use Case

Application-scope: Chatroom

Here is an example: chat.

<window title="Chat" border="normal">
	<zscript><![CDATA[
	import org.zkoss.zk.ui.event.*;
	EventQueue que = EventQueues.lookup("chat", EventQueues.APPLICATION, true);
	que.subscribe(new EventListener() {
		public void onEvent(Event evt) {
			new Label(evt.getData()).setParent(inf);
		}
	});	
	void post(Textbox tb) {
		String text = tb.value;
		if (text.length() > 0) {
			tb.value = "";
			que.publish(new Event("onChat", null, text));
		}
	}
	]]></zscript>

	Say <textbox onOK="post(self)" onChange="post(self)"/>
	<separator bar="true"/>
	<vbox id="inf"/>
</window>

Then, you can chat among two or more different computers.

Desktop scope: among Multiple ZUL Pages

It is a typical approach to split page layout with several ZUL pages, and EventQueue could also be used for communicating between these pages. Here is an example for using EventQueue to interact between two composers. Let's say you have a main.zul page that is actually divided into two: page1.zul and page2.zul.

main.zul

<zk>
	<include src="page1.zul"></include>
	<include src="page2.zul"></include>
</zk>

page1.zul

<window title="ZUL page 1" border="normal" apply="demo.WindowComposer1">
	<button id="btn" label="change label in ZUL page 2" />
</window>
package demo;
public class WindowComposer1 extends SelectorComposer {

	private EventQueue eq;
	@Wire
	Button btn;
	
	@Listen("onClick = button#btn")
	public void changeLabel() {
		eq = EventQueues.lookup("interactive", EventQueues.DESKTOP, true);
		eq.publish(new Event("onButtonClick", btn, "label is Changed!"));
	}
}

page2.zul

<window title="ZUL page 2" border="normal" apply="demo.WindowComposer2">
	<label id="lbl" value="label in ZUL page 2" />
</window>
package demo;
public class WindowComposer2 extends SelectorComposer {

	private EventQueue eq;
	@Wire
	private Label lbl;
	
	public void doAfterCompose(Component comp) throws Exception {
		super.doAfterCompose(comp);
		eq = EventQueues.lookup("interactive", EventQueues.DESKTOP, true);
		eq.subscribe(new EventListener() {
			public void onEvent(Event event) throws Exception {
				String value = (String)event.getData();
				lbl.setValue(value);
			}
		});
	}
}

By doing this, you can change data in ZUL page 2 by clicking the button in ZUL page 1. Note: Open main.zul page in browser to run the above sample codes. If there are any other ZUL pages that have subscribed to the same name in the EventQueues, the content in those ZUL pages will also be updated.

Version History

Version Date Content
5.0.4 August 2010 The group scope was introduced to allow the communication among inline frames without Server Push (minimizing the network bandwidth consumption).
5.0.6 November 2010 The event queue won't start any working threads and they are serializable, so it is safe to use them in a clustering environment.



Last Update : 2024/02/02

Copyright © Potix Corporation. This article is licensed under GNU Free Documentation License.