The <o:importFunctions> taghandler allows the developer to have access to all functions of the given fully qualified name of a type in the
Facelet scope using the usual EL functions syntax without the need to register them in .taglib.xml file. The functions are those
public static methods with a non-void return type.
For example:
<o:importFunctions type="java.lang.Math" var="m" />
...
#{m:abs(-10)}
#{m:max(bean.number1, bean.number2)}
The functions prefix becomes by default the simple name of the type. You can override this by explicitly specifying the var attribute.
The resolved functions are by reference stored in the cache to improve retrieving performance.
EL functions does not support method overloading. It's therefore not possible to provide overloaded methods like
Math#abs(int), Math#abs(long), Math#abs(float) and Math#abs(double) in four separate EL functions.
If there are multiple function methods discovered with exactly the same name, then the one with the least amount of parameters will be used. If there are multiple function methods with exactly the same name and amount of parameters, then the choice is unspecified (technically, JVM-dependent, the first one in the methods array as found by reflection would be picked up) and should not be relied upon. So if you absolutely need to differentiate functions in such case, give them each a different name.
Since version 4.3, you can use the loader attribute to specify an object whose class loader will be used to load the class specified in the
type attribute. The class loader of the given object is resolved as specified in Utils#getClassLoader(Object). In the end this should
allow you to use a more specific class when there are duplicate instances in the runtime classpath, e.g. via multiple (plugin) libraries.
Note that the colon : operator to invoke the method is as required by EL functions spec. It's by design not easily possible to change it to the
period . operator. Also note that in case of org.omnifaces.util.Faces it's considered poor practice if the same functionality is
already available through the implicit EL objects #{faces}, #{facesContext}, #{view}, #{request}, etc
such as #{faces.development} or #{request.contextPath} which should be preferred over #{Faces:isDevelopment()} or
#{Faces:getRequestContextPath()}.
| Name | Required | Type | Description |
|---|---|---|---|
loader | false | jakarta.el.ValueExpression
(must evaluate to java.lang.String)
| The object to be used as source of the class loader to load the class specified in the type attribute. Can be an instance of ClassLoader, Class or any object. |
type | true | jakarta.el.ValueExpression
(must evaluate to java.lang.String)
| The fully qualified name of the class to import the public static non-void methods for. |
var | false | jakarta.el.ValueExpression
(must evaluate to java.lang.String)
| The EL functions prefix which exposes the functions in the Facelet scope. |
Output generated by Vdldoc View Declaration Language Documentation Generator.