public class JSPFactory extends Object implements IExecutableExtensionFactory, IExecutableExtension
The JSPFactory can be used in conjunction with org.eclipse.equinox.http.registry and the Servlets extension point to allow the use of JSPs declaratively with the extension registry.
JSPFactory will accept a "path" parameter corresponding to the base path in the bundle to look up JSP resources. This parameter can be set using the ":" separator approach or by xml parameter.e.g. class="org.eclipse.equinox.jsp.jasper.registry.JSPFactory:/A/PATH" or <parameter name="path" value="/A/PATH"/>
|Constructor and Description|
|Modifier and Type||Method and Description|
Creates and returns a new instance.
This method is called by the implementation of the method
public void setInitializationData(IConfigurationElement config, String propertyName, Object data) throws CoreException
IConfigurationElement.createExecutableExtensionon a newly constructed extension, passing it its relevant configuration information. Most executable extensions only make use of the first two call arguments.
Regular executable extensions specify their Java implementation class name as an attribute of the configuration element for the extension. For example
<action run="com.example.BaseAction"/>In the above example, this method would be called with a reference to the
<action>element (first argument), and
"run"as the name of the attribute that defined this executable extension (second argument).
The last parameter is for the specific use of extension adapters and is typically not used by regular executable extensions.
There are two supported ways of associating additional adapter-specific data with the configuration in a way that is transparent to the extension point implementor:
(1) by specifying adapter data as part of the implementation
class attribute value. The Java class name can be followed
by a ":" separator, followed by any adapter data in string
form. For example, if the extension point specifies an attribute
"run" to contain the name of the extension implementation,
an adapter can be configured as
<action run="com.example.ExternalAdapter:./cmds/util.exe -opt 3"/>
(2) by converting the attribute used to specify the executable extension to a child element of the original configuration element, and specifying the adapter data in the form of xml markup. Using this form, the example above would become
runclass="com.xyz.ExternalAdapter"> <parameter name="exec" value="./cmds/util.exe"/> <parameter name="opt" value="3"/> </ run> </action>
Form (2) will typically only be used for extension points that anticipate the majority of extensions configured into it will in fact be in the form of adapters.
In either case, the specified adapter class is instantiated using its 0-argument public constructor. The adapter data is passed as the last argument of this method. The data argument is defined as Object. It can have the following values:
null, if no adapter data was supplied
Hashtablecontaining the actual parameter names and values (both
config- the configuration element used to trigger this execution. It can be queried by the executable extension for specific configuration properties
propertyName- the name of an attribute of the configuration element used on the
createExecutableExtension(String)call. This argument can be used in the cases where a single configuration element is used to define multiple executable extensions.
data- adapter data in the form of a
CoreException- if error(s) detected during initialization processing
public Object create() throws CoreException
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