Tutorial

From Documentation

This tutorial guides you through the most fundamental features of ZK to help you understand ZK faster. For a real world example, please refer to Create a Real World application step by step.

Hello World!

After ZK is installed on your favorite Web server[1], writing applications is straightforward. Just create a ZUML file, say hello.zul[2], under one of the Web application's directories just as you would do for an HTML file.

 <window title="My First ZK Application" border="normal">
 	Hello World!
 </window>


Then, go to the corresponding URL, say http://localhost/myapp/hello.zul, and you'll see your first ZK application running.

DgGettingStartedHello.zul.png

In a ZUML page, an XML element describes what component[3] to create while the XML attributes are used to assign values to a component's properties. In this example, a window component is created and its title is set to "My First ZK Application" and its border is set to normal.

The text enclosed in the XML elements is also interpreted as a special component called label. Thus, the above example is equivalent to the following.

 <window title="My First ZK Application" border="normal">
	<label value="Hello World!"/>
</window>

  1. Please refer to ZK Installation Guide.
  2. The other way to try examples is to use ZK Sandbox to run them.
  3. Interface : <javadoc type="interface">org.zkoss.zk.ui.Component

Say Hello in Ajax way

Let us put some interactivity into it.

 <button label="Say Hello" onClick='Messagebox.show("Hello World!")'/>

Then, when you click the button, you'll see the following:

DgGettingStartedHello2.png

The onClick attribute is a special attribute used to add an event listener(EventListener) to the component such that it is invoked when an end user clicks the component. The attribute value could be any legal Java code. Notice that it is NOT JavaScript, and we have to use the double quotes (") to represent a string. Furthermore, to specify a double quote in an XML attribute, we could use single quotes (') to enclose it[1].


Here we invoke Messagebox.show(String) to show a message box as depicted above.

The Java code is interpreted by BeanShell at run time. In additions to event handling, we could embed the code in a ZUML page by specifying it in a special element called zscript. For example, we could define a function to simply the code as follows.

 <window title="My First ZK Application" border="normal">
 	<button label="Say Hello" onClick='alert("Hello World!")'/>
 	<zscript>
 		void alert(String message){ //declare a function
 			Messagebox.show(message);
 		}
 	</zscript>
 </window>

In fact, alert is a built-in function that you can use directly in the embedded Java code.


  1. If you are not familiar with XML, you might take a look at the XML section.

It is Java and runs at the server

The embedded Java code runs at the server so it could access any resource available at the server. For example,

<window title="Property Retrieval" border="normal">
    Enter a property name: <textbox/>
    <button label="Retrieve" onClick="alert(System.getProperty(self.getPreviousSibling().getValue()))"/>
</window>

where self is a built-in variable that references the component receiving the event.

If we entered java.version and then clicked the button, the result is as follows.

DgGettingStartedProperty.png

Architecture Overview

Architecture-s.png

As shown, a ZK application is running at the server, accessing the backend resources, and then manipulating the ZK components to show up the required user interface. The synchronization of the states of the ZK components between the browser and the server is done automatically by ZK.

Identify a component

A component is a POJO, so you can reference it any way you like. However, ZK provides a convenient way to identify and to retrieve a component: identifier. For example, the above code can be simplified if we named the textbox as input by assigning id to it, as follows.

<window title="Property Retrieval" border="normal">
    Enter a property name: <textbox id="input"/>
    <button label="Retrieve" onClick="alert(System.getProperty(input.getValue()))"/>
</window>

Once an identifier is assigned, it can be referenced directly in a ZUML page (such as onClick in the above example). In pure Java, it can be retrieved by use of Component.getFellow(String).

Window win = new Window();
win.setId("main"); //assign an identifier
...
Grid grid = (Grid)wnd.getFellow("a_grid"); //retrieve a component by identifier

A component is a POJO

A component is a POJO. You could instantiate and manipulate directly. For example, we could generate the result by instantiating a component to represent it, and then append it to another component (an instance of vlayout).

<window title="Property Retrieval" border="normal">
    Enter a property name: <textbox id="input"/>
    <button label="Retrieve" onClick="result.appendChild(new Label(System.getProperty(input.getValue())))"/>
    <vlayout id="result"/>
</window>

Similarly you could change the state of a component directly. All modifications will be synchronized back to the client automatically.

<window title="Property Retrieval" border="normal">
    Enter a property name: <textbox id="input"/>
    <button label="Retrieve" onClick="result.setValue(System.getProperty(input.getValue()))"/>
    <separator/>
    <label id="result"/>
</window>

MVC: Separate code from user interface

Embedding Java code in a ZUML page is straightforward and easy to read. However, in a production environment, it is usually better to separate the code from the user interfaces. In additions, the compiled Java code runs much faster than the embedded code which is interpreted at the run time.

To separate code from UI, we could implement a Java class (aka., the controller) that implements Composer, and then handle UI in Composer.doAfterCompose(Component). For example, we can redo the previous example by registering an event listener in Composer.doAfterCompose(Component), and then retrieve the result and instantiate a label to represent it in the event listener as follows.

package foo;
import org.zkoss.zk.ui.Component;
import org.zkoss.zk.ui.util.Composer;
import org.zkoss.zk.event.EventListener;
import org.zkoss.zul.Label;

public class PropertyRetriever implements Composer {
    public void doAfterCompose(Component target) { //handle UI here
        target.addEventListener("onClick", new EventListener() { //add a event listener in Java
            public void onEvent(Event event) {
                String prop = System.getProperty(target.getFellow("input").getValue());
                target.getFellow("result").appendChild(new Label(prop));
            }
        });
    }
}

As shown, an event listener could be registered by use of Component.addEventListener(String, EventListener). An event listener must implement EventListener, and then handle the event in EventListener.onEvent(org.zkoss.zk.ui.event.Event.

Also notice that a component assigned with an identifier could be retrieved by use of Component.getFellow(String).

Then, we could associate the controller (foo.PropertyRetriever) with a component by use of the apply attribute as shown below.

<window title="Property Retrieval" border="normal">
    Enter a property name: <textbox id="input"/>
    <button label="Retrieve" apply="foo.PropertyRetriever"/>
    <vlayout id="result"/>
</window>

MVC: Autowire UI objects to data members

Implementing and registering event listeners is a bit tedious. Thus, ZK provides a feature called autowiring. By extending from GenericForwardComposer, ZK will looks for the members if their names match the identifiers of components. For example, we could rewrite foo.PropertyRetriever by utilizing the autowriing as follows.

package foo;
import org.zkoss.zk.ui.Component;
import org.zkoss.zk.ui.util.GenericForwardComposer;
import org.zkoss.zul.*;

public class PropertyRetriever extends GenericForwardComposer {
    Textbox input; // Autowired by same component type/ID
    Vlayout result; // Autowired by same component type/ID

    public retrieve$onClick(Event event) {
        //handle onClick of the retrieve button
        String prop = System.getProperty(input.getValue());
        result.appendChild(new Label(prop));
    }
}

and the ZUL page is as follows.

<window title="Property Retrieval" border="normal" apply="foo.PropertyRetriever">
    Enter a property name: <textbox id="input"/>
    <button label="Retrieve" id="retrieve"/>
    <vlayout id="result"/>
</window>

As shown above, input and result are automatically assigned such that we could access the real components directly. Also retrieve$onClick indicates an event listener will be registered to the component called retrieve to handle the onClick event.

Notice : MVC pattern is recommended for a production application. On the other hand, to maintain readability, most examples in our documents embed code directly in ZUML pages.

Express data with variable resolver and EL expressions

In a ZUML page, we could locate data with a variable resolver (VariableResolver), and then express it with EL expressions.

For example, assumes we have a class called foo.User, and we can retrieve a list of users by its static method called getAll(). Then, we can implement a variable resolver as follows.

package foo;
public UserResolver implements org.zkoss.xel.VariableResolver {
    public Object resolveVariable(String name) {
        return "users".equals(name) ? Users.getAll(): null;
}

And, we can list all users as follows.

<?variable-resolver class="foo.UserResolver"?>
<grid>
    <columns>
        <column label="Name" sort="auto"/>
        <column label="Title" sort="auto"/>
        <column label="Age" sort="auto"/>
    </columns>
    <rows>
        <row forEach="${users}">
            <label value="${each.name}"/>
            <label value="${each.title}"/>
            <label value="${each.age}"/>
        </row>
    </rows>
</grid>

where we assume foo.User has three methods: getName(), getTitle() and getAge(). forEach is used to instantiate components by iterating through a collection of objects.

DgGettingStartedUsers.png

Automate the access with data binding

EL expressions are convenient but it is limited to display the read-only data. If we allow the end users to modify data, we could use the data binder to handling the display and modification for us. We need to provide the model (POJO) with proper getter and setter methods (such as getName() and setName(String)).

First, we declare a initial class AnnotateDataBinderInit. Then, express the data (read-only or writable) with annotation expressions[1]. The annotation expression is similar to EL expressions, exception it starts with @{.

<?init class="org.zkoss.zkplus.databind.AnnotateDataBinderInit"?>
<?variable-resolver class="foo.VariableResolver"?>
<grid model="@{users}">
    <columns>
        <column label="Name" sort="auto"/>
        <column label="Title" sort="auto"/>
        <column label="Age" sort="auto"/>
    </columns>
    <rows>
        <row self="@{each='user'}">
            <textbox value="@{user.name}"/>
            <textbox value="@{user.title}"/>
            <intbox value="@{user.age}"/>
        </row>
    </rows>
</grid>

where a special annotation expression, self="@{each='user'}", is used to iterate through a collection of users.

DgGettingStartedUsers2.png

Notice that developers need not to handle the display and modification. They only need to prepare a POJO (such as foo.User). Any modification made to each input (by the end user) will be stored back to the object (foo.User) automatically, assuming the POJO has the required setter methods, such as setName(String).


  1. Annotation expressions can be used by another tools, not limited to the data binder.

Add client-side functionality

In additions to handling events and components at the server, ZK also provides an option allowing developers to control UI at the client. We have dubbed this blending of technology, Server+client Fusion.

For example, we could re-implement the Hello World example with client-side code as follows.

<button label="Say Hello" w:onClick='jq.alert("Hello World!")' xmlns:w="client"/>

where we declare a XML namespace named client to indicate the event handler shall be evaluated at the client. In additions, jq.alert(String, Map) is a client-side method equivalent to Messagebox.show(String).

All components are available and accessible at the client. For example, here is a number guessing game that manipulates UI at the client.

<window title="Guess a number" border="normal">
	<vlayout>
    Type number between 0 and 99 and then press Enter to guess:
    <intbox w:onOK="guess(this)" xmlns:w="client"/>
    </vlayout>
    <script><![CDATA[
	var num = Math.floor(Math.random() * 100);
	function guess(wgt) {
		var val = wgt.getValue(),
			mesg = val > num ? "smaller than " + val:
				val < num ? "larger than "+val: val + " is correct!";
		wgt.parent.appendChild(new zul.wgt.Label({value: mesg}));
		wgt.setValue("");
	}
    ]]></script>
</window>

where onOK is an event fired when the user presses Enter, and script is used to embed the client-side code (in contrast to zscript for embedding the server-side code).

DgGettingStartedGuessNumber.png


Last Update : 2010/09/30