Composite Component
Like a macro component, a composite component is an approach to compose a component based on a template. Unlike a macro component, a composite component has to create and wire the child components by itself, and handle ID space if necessary. The advantage is that a composite component can extend from any component, such as Row, such that it is easier to fit to any situation (and no need for the inline concept).
In short, it is suggested to use a macro component if applicable (since it is easier), while using a composite component otherwise.
If you'd like to assemble UI at runtime (aka., templating), please refer to the Templating section for more information.
Implement a Composite Component
First, you have to decide which component to extend from. Div is a common choice as it is a simple component. However, here our example extends from Row, so it can be used under Rows, which the regular macros cannot.
Second, you have to implement a template (in a ZUML document) to define what child components the composite component has. Then, you have to implement a Java class to put them together.
Implement a Template
The implementation of a template is straightforward. There is nothing special to handle. Since it is rendered by Execution.createComponents(String, Component, Map), you could pass whatever data you prefer to it (through the arg
argument).
Suppose we have a template as follows, and it is placed at /WEB-INF/composite/username.zul
.
<zk>
Usename: <textbox id="mc_who"/>
</zk>
Implement a Java Class
To implement a Java class we shall:
- Extend from the component class you want.
- (Optional) Implement IdSpace to make it an ID space owner.
- Render the template in the constructor by the use of Executions.createComponents(String, Component, Map) or others.
- (Optional) Wire variables, components and event listeners after rendering with the use of Selectors.wireVariables(Component, Object, List) (wiring variables), Selectors.wireComponents(Component, Object, boolean) (wiring components) and Selectors.wireEventListeners(Component, Object) (wiring event listener).
For example,
package foo;
import org.zkoss.zk.ui.IdSpace;
import org.zkoss.zk.ui.select.Selectors;
import org.zkoss.zul.Row;
import org.zkoss.zul.Textbox;
public class Username extends Row implements IdSpace {
@Wire
private Textbox mc_who; //will be wired when Components.wireVariables is called
public Username() {
//1. Render the template
Executions.createComponents("/WEB-INF/composite/username.zul", this, null);
//2. Wire variables, components and event listeners (optional)
Selectors.wireVariables(this, this, null);
Selectors.wireComponents(this, this, false);
Selectors.wireEventListeners(this, this);
}
public String getWho() {
return mc_who.getValue();
}
public void setWho(String who) {
mc_who.setValue(who);
}
//public void onOK() {..} //Add event listeners if required, and wired by Components.addForwards
}
After Executions.createComponents(String, Component, Map) is called, all components specified in the template will be instantiated and become the child component of the composite component (Row). Notice that the URI must match the location of the template correctly.
Depending on the implementation you want, you could wire the data members (mc_who
) by calling Selectors.wireComponents(Component, Object, boolean). This method will search all data members and setter methods and wire the component with the same ID. Similarly, Selectors.wireEventListeners(Component, Object) is used to wire event listeners.
For more information, please refer to the the Wire Components section and Wire Event the Listeners section sections.
Notice that there is a utility called ZK Composite. With the help of ZK Composite, components are created and wired automatically based on the Java annoataions you provide. In other words, Step 3 and 4 are done automatically. For more information, please refer to the Define Components with Java Annotations section.
Wire Spring-managed Beans
Selectors.wireVariables(Component, Object, List) will wire variables that can be resolved by the registered variable resolver. In additions to the variable-resolver directive, you can create any variable resolver manually and pass it as the third argument. Selectors.newVariableResolvers(Class, Class) provides a convenient way to instantiate variable resolvers. For example, let us say we'd like to wire Spring-manage beans, then we can do as follows.
@VariableResolver(org.zkoss.zkplus.spring.DelegatingVariableResolver)
public class Username extends Row implements IdSpace {
@WireVariable
private User user;
public Username() {
Executions.createComponents("/WEB-INF/composite/username.zul", this, null);
Selectors.wireVariables(this, this,
Selectors.newVariableResolvers(getClass(), Row.class));
Selectors.wireComponents(this, this, false);
Selectors.wireEventListeners(this, this);
}
...
Selectors.newVariableResolvers(Class, Class) will look for the @VariableResolver
annotation and instantiate it automatically. As shown, we annotate DelegatingVariableResolver to resolve Spring managed bean.
For more information, please refer to the Wire Variables section.
ID Space
Unless you extend a component that is an ID space owner (such as Window), all child components specified in the template will be in the same ID space as its parent. It might be convenient at the first glance. However, it will cause the ID conflict if we have multiple instances of the same composite component. Thus, it is generally suggested to make the composite component as a space owner
It can be done easily by implementing an extra interface IdSpace. No other method needs to be implemented.
public class Username extends Row implements IdSpace {
...
Of course, if you prefer not to have an additional ID space, you don't need to implement an IdSpace.
Use Composite Component
Like macros and any other primitive components, you have to declare a composite component before using it. This can be done by using component directives. Then, we could use it the same way (they are actually primitive components). For example,
<?component name="username" extends="row" class="foo.Username"?>
<grid>
<rows>
<username who="Joe"/>
<username who="Hellen"/>
</rows>
</grid>
Define Composite Components as Standard Components
If a composite component is used in multiple pages, it is better to define it in the application level, such that it can be accessed in any page without any component directives.
There are basic two approaches to define a component in the application level:
- Define it in a XML file which is called language addon.
- Define it with Java annoataions.
Define Components in a Language Addon
A language addon is a XML file providing additional component definitions or customizing the standard components. For example, you can define the username component described in the previous section as follows.
<language-addon>
<addon-name>myapp</addon-name>
<component>
<component-name>username</component-name>
<extends>rows</extends>
<component-class>foo.Username</component-class>
</component>
</language-addon>
For more information, please refer to Customization: Component Properties.
Define Components with Java Annotations
Instead of maintaining the definitions in the language addon as described above, you can define the component with Java annotation. For example,
@Composite(name="username", macroURI="/WEB-INF/partial/username.zul")
public class Username extends Rows implements IdSpace {
@Wire
private Textbox mc_who; //will be wired when Components.wireVariables is called
//Note: no need to create components and wire variables/components
public String getWho() {
return mc_who.getValue();
}
public void setWho(String who) {
mc_who.setValue(who);
}
}
This approach is suggested if you have to develop several composite components. As shown, it is more convenient since you don't have to maintain a separated XML file (the language addon). Furthermore, it will create the components and wire them automatically based on the annotations.
Notice that it requires additional JAR files, please refer to Small Talks: Define Composite Component using Java Annotation in ZK6 for the details.
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