public abstract class Application extends Object
Application represents a per-web-application singleton object where applications based on JavaServer Faces (or implementations wishing to provide extended functionality) can register application-wide singletons that provide functionality required by JavaServer Faces. Default implementations of each object are provided for cases where the application does not choose to customize the behavior.
The instance of Application
is created by calling the
getApplication()
method of ApplicationFactory
.
Because this instance is shared, it must be implemented in a
thread-safe manner.
The application also acts as a factory for several types of
Objects specified in the Faces Configuration file. Please see createComponent(java.lang.String)
, createConverter(java.lang.String)
,
and createValidator(java.lang.String)
.
Constructor and Description |
---|
Application() |
Modifier and Type | Method and Description |
---|---|
void |
addBehavior(String behaviorId,
String behaviorClass)
Register a new mapping
of behavior id to the name of the corresponding
Behavior class. |
abstract void |
addComponent(String componentType,
String componentClass)
Register a new mapping of component type to the name of the
corresponding
UIComponent class. |
abstract void |
addConverter(Class<?> targetClass,
String converterClass)
Register a new converter class that is capable of performing
conversions for the specified target class.
|
abstract void |
addConverter(String converterId,
String converterClass)
Register a new mapping of converter id to the name of the
corresponding
Converter class. |
void |
addDefaultValidatorId(String validatorId)
Register a validator by its id that
is applied to all |
void |
addELContextListener(ELContextListener listener)
Provide a way for Faces applications to register an
ELContextListener that will be notified on creation
of ELContext instances. |
void |
addELResolver(ELResolver resolver)
Cause an the
argument
resolver to be added to the resolver chain
as specified in section JSF.5.5.1 of the JavaServer Faces
Specification. |
void |
addSearchKeywordResolver(SearchKeywordResolver resolver)
Cause the argument
|
abstract void |
addValidator(String validatorId,
String validatorClass)
Register a new mapping of validator id to the name of the
corresponding
Validator class. |
Behavior |
createBehavior(String behaviorId)
Instantiate and
return a new
Behavior instance of the class specified by
a previous call to addBehavior() for the specified
behavior id. |
UIComponent |
createComponent(FacesContext context,
Resource componentResource)
Instantiate and return
a new |
UIComponent |
createComponent(FacesContext context,
String componentType,
String rendererType)
Like |
abstract UIComponent |
createComponent(String componentType)
Instantiate and
return a new
UIComponent instance of the class specified
by a previous call to addComponent() for the
specified component type. |
abstract UIComponent |
createComponent(ValueBinding componentBinding,
FacesContext context,
String componentType)
Deprecated.
This has been replaced by
createComponent(javax.el.ValueExpression,javax.faces.context.FacesContext,java.lang.String) . |
UIComponent |
createComponent(ValueExpression componentExpression,
FacesContext context,
String componentType)
|
UIComponent |
createComponent(ValueExpression componentExpression,
FacesContext context,
String componentType,
String rendererType)
Like |
abstract Converter |
createConverter(Class<?> targetClass)
Instantiate and return
a new
Converter instance of the class that has registered
itself as capable of performing conversions for objects of the
specified type. |
abstract Converter |
createConverter(String converterId)
Instantiate and
return a new
Converter instance of the class specified by
a previous call to addConverter() for the specified
converter id. |
abstract MethodBinding |
createMethodBinding(String ref,
Class<?>[] params)
Deprecated.
This has been replaced by calling
getExpressionFactory() then ExpressionFactory.createMethodExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>, java.lang.Class<?>[]) . |
abstract Validator |
createValidator(String validatorId)
Instantiate and
return a new
Validator instance of the class specified by
a previous call to addValidator() for the specified
validator id. |
abstract ValueBinding |
createValueBinding(String ref)
Deprecated.
This has been replaced by calling
getExpressionFactory() then ExpressionFactory.createValueExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>) . |
<T> T |
evaluateExpressionGet(FacesContext context,
String expression,
Class<? extends T> expectedType)
Get a value by evaluating an expression.
|
abstract ActionListener |
getActionListener()
Return the default
ActionListener to be registered for
all ActionSource components in this
application. |
Iterator<String> |
getBehaviorIds()
Return an
Iterator over the set of currently registered
behavior ids for this Application . |
abstract Iterator<String> |
getComponentTypes()
Return an
Iterator over the set of currently defined
component types for this Application . |
abstract Iterator<String> |
getConverterIds()
Return an
Iterator over the set of currently registered
converter ids for this Application . |
abstract Iterator<Class<?>> |
getConverterTypes()
Return an
Iterator over the set of Class
instances for which Converter classes have been explicitly
registered. |
abstract Locale |
getDefaultLocale()
Return the default
Locale for this application. |
abstract String |
getDefaultRenderKitId()
Return the
renderKitId to be used for rendering
this application. |
Map<String,String> |
getDefaultValidatorInfo()
Return an immutable |
ELContextListener[] |
getELContextListeners()
If no calls have been made to
addELContextListener(javax.el.ELContextListener) ,
this method must return an empty array. |
ELResolver |
getELResolver()
Return the singleton
ELResolver instance to be used
for all EL resolution. |
ExpressionFactory |
getExpressionFactory()
Return the
ExpressionFactory instance for this
application. |
FlowHandler |
getFlowHandler()
Return the thread-safe singleton
|
abstract String |
getMessageBundle()
Return the fully qualified class name of the
ResourceBundle to be used for JavaServer Faces messages
for this application. |
abstract NavigationHandler |
getNavigationHandler()
Return the
NavigationHandler instance that will be passed
the outcome returned by any invoked application action for this
web application. |
ProjectStage |
getProjectStage()
Return the project stage for the currently running application instance. |
abstract PropertyResolver |
getPropertyResolver()
Deprecated.
This has been replaced by
getELResolver() . |
ResourceBundle |
getResourceBundle(FacesContext ctx,
String name)
Find a
ResourceBundle as defined in the
application configuration resources under the specified name. |
ResourceHandler |
getResourceHandler()
Return the singleton, stateless, thread-safe |
SearchExpressionHandler |
getSearchExpressionHandler()
Return the thread-safe singleton
|
SearchKeywordResolver |
getSearchKeywordResolver()
Return the singleton |
abstract StateManager |
getStateManager()
Return the
StateManager instance that will be utilized
during the Restore View and Render Response
phases of the request processing lifecycle. |
abstract Iterator<Locale> |
getSupportedLocales()
Return an
Iterator over the supported
Locale s for this appication. |
abstract Iterator<String> |
getValidatorIds()
Return an
Iterator over the set of currently registered
validator ids for this Application . |
abstract VariableResolver |
getVariableResolver()
Deprecated.
This has been replaced by
getELResolver() . |
abstract ViewHandler |
getViewHandler()
Return the
ViewHandler instance that will be utilized
during the Restore View and Render Response
phases of the request processing lifecycle. |
void |
publishEvent(FacesContext context,
Class<? extends SystemEvent> systemEventClass,
Class<?> sourceBaseType,
Object source)
This method functions exactly like
|
void |
publishEvent(FacesContext context,
Class<? extends SystemEvent> systemEventClass,
Object source)
If |
void |
removeELContextListener(ELContextListener listener)
Remove the argument
listener from the list of
ELContextListener s. |
abstract void |
setActionListener(ActionListener listener)
Set the default
ActionListener to be registered for all
ActionSource components. |
abstract void |
setDefaultLocale(Locale locale)
Set the default
Locale for this application. |
abstract void |
setDefaultRenderKitId(String renderKitId)
Set the
renderKitId to be used to render this
application. |
void |
setFlowHandler(FlowHandler newHandler)
Set the |
abstract void |
setMessageBundle(String bundle)
Set the fully qualified class name of the
ResourceBundle
to be used for JavaServer Faces messages for this application. |
abstract void |
setNavigationHandler(NavigationHandler handler)
Set the
NavigationHandler instance that will be passed
the outcome returned by any invoked application action for this
web application. |
abstract void |
setPropertyResolver(PropertyResolver resolver)
Deprecated.
The recommended way to affect the execution of the EL
is to provide an
<el-resolver> element at the
right place in the application configuration resources which will
be considered in the normal course of expression evaluation.
This method now will cause the argument resolver to
be wrapped inside an implementation of ELResolver and
exposed to the EL resolution system as if the user had called
addELResolver(javax.el.ELResolver) . |
void |
setResourceHandler(ResourceHandler resourceHandler)
Set the |
void |
setSearchExpressionHandler(SearchExpressionHandler searchExpressionHandler)
Set the |
abstract void |
setStateManager(StateManager manager)
Set the
StateManager instance that will be utilized
during the Restore View and Render Response
phases of the request processing lifecycle. |
abstract void |
setSupportedLocales(Collection<Locale> locales)
Set the
Locale instances representing the supported
Locale s for this application. |
abstract void |
setVariableResolver(VariableResolver resolver)
Deprecated.
The recommended way to affect the execution of the EL
is to provide an
<el-resolver> element at the
right place in the application configuration resources which will
be considered in the normal course of expression evaluation.
This method now will cause the argument resolver to
be wrapped inside an implementation of ELResolver and
exposed to the EL resolution system as if the user had called
addELResolver(javax.el.ELResolver) . |
abstract void |
setViewHandler(ViewHandler handler)
Set the
ViewHandler instance that will be utilized
during the Restore View and Render Response
phases of the request processing lifecycle. |
void |
subscribeToEvent(Class<? extends SystemEvent> systemEventClass,
Class<?> sourceClass,
SystemEventListener listener)
Install the listener instance
referenced by argument |
void |
subscribeToEvent(Class<? extends SystemEvent> systemEventClass,
SystemEventListener listener)
Install the listener instance
referenced by argument |
void |
unsubscribeFromEvent(Class<? extends SystemEvent> systemEventClass,
Class<?> sourceClass,
SystemEventListener listener)
Remove the listener instance
referenced by argument |
void |
unsubscribeFromEvent(Class<? extends SystemEvent> systemEventClass,
SystemEventListener listener)
Remove the listener instance
referenced by argument |
public abstract ActionListener getActionListener()
Return the default
ActionListener
to be registered for
all ActionSource
components in this
application. If not explicitly set, a default implementation must
be provided that performs the functions
as specified in the section
titled "ActionListener Property" in the chapter titled "Application Integration"
of the spec prose document.
Note that the specification for the default
ActionListener
contiues to call for the use of a
deprecated property (action
) and
class (MethodBinding
). Unfortunately, this is
necessary because the default ActionListener
must
continue to work with components that do not implement ActionSource2
, and only implement ActionSource
.
public abstract void setActionListener(ActionListener listener)
Set the default ActionListener
to be registered for all
ActionSource
components.
listener
- The new default ActionListener
NullPointerException
- if listener
is null
public abstract Locale getDefaultLocale()
Return the default Locale
for this application. If
not explicitly set, null
is returned.
null
.public abstract void setDefaultLocale(Locale locale)
Set the default Locale
for this application.
locale
- The new default Locale
NullPointerException
- if locale
is null
public abstract String getDefaultRenderKitId()
Return the renderKitId
to be used for rendering
this application. If not explicitly set, null
is
returned.
null
.public abstract void setDefaultRenderKitId(String renderKitId)
Set the renderKitId
to be used to render this
application. Unless the client has provided a custom ViewHandler
that supports the use of multiple RenderKit
instances in the same application, this method must only be called at
application startup, before any Faces requests have been processed.
This is a limitation of the current Specification, and may be lifted in
a future release.
renderKitId
- the render kit id to set.public abstract String getMessageBundle()
Return the fully qualified class name of the
ResourceBundle
to be used for JavaServer Faces messages
for this application. If not explicitly set, null
is returned.
null
.public abstract void setMessageBundle(String bundle)
Set the fully qualified class name of the ResourceBundle
to be used for JavaServer Faces messages for this application. See the
JavaDocs for the java.util.ResourceBundle
class for more
information about the syntax for resource bundle names.
bundle
- Base name of the resource bundle to be usedNullPointerException
- if bundle
is null
public abstract NavigationHandler getNavigationHandler()
Return the NavigationHandler
instance that will be passed
the outcome returned by any invoked application action for this
web application. If not explicitly set, a default implementation
must be provided that performs the functions described in the
NavigationHandler
class description.
NavigationHandler
implementation is declared in the
application configuration resources by giving the fully qualified
class name as the value of the <navigation-handler>
element within the <application>
element.
The runtime must employ the decorator pattern as for every other pluggable artifact in JSF.
public abstract void setNavigationHandler(NavigationHandler handler)
Set the NavigationHandler
instance that will be passed
the outcome returned by any invoked application action for this
web application.
handler
- The new NavigationHandler
instanceNullPointerException
- if handler
is null
public ResourceHandler getResourceHandler()
Return the singleton, stateless, thread-safe ResourceHandler
for this application. The JSF implementation
must support the following techniques for declaring an alternate
implementation of ResourceHandler
.
The ResourceHandler
implementation is
declared in the application configuration resources by giving
the fully qualified class name as the value of the
<resource-handler>
element within the
<application>
element.
In all of the above cases, the runtime must employ the decorator pattern as for every other pluggable artifact in JSF.
A default implementation is provided
that throws UnsupportedOperationException
so that
users that decorate Application
can continue to
function
public void setResourceHandler(ResourceHandler resourceHandler)
Set the ResourceHandler
instance that will be utilized
for rendering the markup for resources, and for satisfying client
requests to serve up resources.
resourceHandler
- The new ResourceHandler
instanceIllegalStateException
- if this method is called after
at least one request has been processed by the
Lifecycle
instance for this application.NullPointerException
- if resourceHandler
is null
public abstract PropertyResolver getPropertyResolver()
getELResolver()
.Return a PropertyResolver
instance that wraps the
ELResolver
instance that Faces provides to the unified EL
for the resolution of expressions that appear programmatically in
an application.
Note that this no longer returns the default
PropertyResolver
since that class is now a no-op
that aids in allowing custom PropertyResolver
s to
affect the EL resolution process.
public abstract void setPropertyResolver(PropertyResolver resolver)
<el-resolver>
element at the
right place in the application configuration resources which will
be considered in the normal course of expression evaluation.
This method now will cause the argument resolver
to
be wrapped inside an implementation of ELResolver
and
exposed to the EL resolution system as if the user had called
addELResolver(javax.el.ELResolver)
.Set the PropertyResolver
instance that will be utilized
to resolve method and value bindings.
This method is now deprecated but the implementation must
cause the argument to be set as the head of the legacy
PropertyResolver
chain, replacing any existing value
that was set from the application configuration resources.
It is illegal to call this method after the application has received any requests from the client. If an attempt is made to register a listener after that time it must have no effect.
resolver
- The new PropertyResolver
instanceNullPointerException
- if resolver
is null
IllegalStateException
- if called after the first
request to the FacesServlet
has been
serviced.public ResourceBundle getResourceBundle(FacesContext ctx, String name)
Find a ResourceBundle
as defined in the
application configuration resources under the specified name. If
a ResourceBundle
was defined for the name, return an
instance that uses the locale of the current UIViewRoot
.
The default implementation throws
UnsupportedOperationException
and is provided
for the sole purpose of not breaking existing applications that extend
this class.
ctx
- the Faces context.name
- the name of the resource bundle.FacesException
- if a bundle was defined, but not resolvableNullPointerException
- if ctx == null || name == nullpublic ProjectStage getProjectStage()
Return the project stage
for the currently running application instance. The default
value is ProjectStage.Production
The implementation of this method must perform the following algorithm or an equivalent with the same end result to determine the value to return.
If the value has already been determined by a previous call to this method, simply return that value.
Look for a
JNDI
environment entry under the key given by the value ofProjectStage.PROJECT_STAGE_JNDI_NAME
(return type ofjava.lang.String
). If found, continue with the algorithm below, otherwise, look for an entry in theinitParamMap
of theExternalContext
from the currentFacesContext
with the key given by the value ofProjectStage.PROJECT_STAGE_PARAM_NAME
If a value is found, see if an enum constant can be obtained by calling
ProjectStage.valueOf()
, passing the value from theinitParamMap
. If this succeeds without exception, save the value and return it.If not found, or any of the previous attempts to discover the enum constant value have failed, log a descriptive error message, assign the value as
ProjectStage.Production
and return it.
A default implementation is provided
that throws UnsupportedOperationException
so that
users that decorate Application
can continue to
function
public abstract VariableResolver getVariableResolver()
getELResolver()
.Return the VariableResolver
that wraps the ELResolver
instance that Faces provides to the unified EL for
the resolution of expressions that appear programmatically in an
application. The implementation of the
VariableResolver
must pass null
as the
base argument for any methods invoked on the underlying
ELResolver
.
Note that this method no longer returns the default
VariableResolver
, since that class now is a no-op
that aids in allowing custom VariableResolver
s to
affect the EL resolution process.
public abstract void setVariableResolver(VariableResolver resolver)
<el-resolver>
element at the
right place in the application configuration resources which will
be considered in the normal course of expression evaluation.
This method now will cause the argument resolver
to
be wrapped inside an implementation of ELResolver
and
exposed to the EL resolution system as if the user had called
addELResolver(javax.el.ELResolver)
.Set the VariableResolver
instance that will be consulted
to resolve method and value bindings.
This method is now deprecated but the implementation must
cause the argument to be set as the head of the legacy
VariableResolver
chain, replacing any existing value
that was set from the application configuration resources.
It is illegal to call this method after the application has received any requests from the client. If an attempt is made to register a listener after that time it must have no effect.
resolver
- The new VariableResolver
instanceNullPointerException
- if resolver
is null
IllegalStateException
- if called after the first
request to the FacesServlet
has been
serviced.public void addELResolver(ELResolver resolver)
Cause an the
argument resolver
to be added to the resolver chain
as specified in section JSF.5.5.1 of the JavaServer Faces
Specification.
It is not possible to remove an ELResolver
registered with this method, once it has been registered.
It is illegal to register an ELResolver
after
the application has received any requests from the client. If an
attempt is made to register a listener after that time, an
IllegalStateException
must be thrown. This restriction is
in place to allow the JSP container to optimize for the common
case where no additional ELResolver
s are in the
chain, aside from the standard ones. It is permissible to add
ELResolver
s before or after initialization to a
CompositeELResolver
that is already in the
chain.
The default implementation throws
UnsupportedOperationException
and is provided
for the sole purpose of not breaking existing applications that extend
Application
.
resolver
- the EL resolver to add.IllegalStateException
- if called after the first
request to the FacesServlet
has been
serviced.public ELResolver getELResolver()
Return the singleton ELResolver
instance to be used
for all EL resolution. This is actually an instance of CompositeELResolver
that must contain the following
ELResolver
instances in the following order:
ELResolver
instances declared using the
<el-resolver> element in the application configuration
resources.
An implementation
that wraps the head of
the legacy VariableResolver
chain, as per section
VariableResolver ChainWrapper in Chapter JSF.5 in the spec
document.
An implementation
that wraps the head of
the legacy PropertyResolver
chain, as per section
PropertyResolver ChainWrapper in Chapter JSF.5 in the spec
document.
Any ELResolver
instances added by calls to
addELResolver(javax.el.ELResolver)
.
The default implementation throws UnsupportedOperationException
and is provided for the sole purpose of not breaking existing applications
that extend Application
.
public FlowHandler getFlowHandler()
Return the thread-safe singleton
FlowHandler
for this application. For implementations declaring
compliance with version 2.2 of the specification, this method must never return
null
, even if the application has no flows. This is necessary to enable
dynamic flow creation during the application's lifetime.
All implementations that declare compliance with version 2.2
of the specification must implement this method. For the purpose
of backward compatibility with environments that extend Application
but do not override this method, an implementation is
provided that returns null
. Due to the decoratable nature
of Application
, code calling this method should always check
for a null
return.
public void setFlowHandler(FlowHandler newHandler)
Set the FlowHandler
instance used by
the NavigationHandler
to satisfy the requirements of the faces
flows feature.
newHandler
- the flow handler to set.NullPointerException
- if newHandler is null
IllegalStateException
- if this method is called after at least one
request has been processed by the Lifecycle
instance for this application.public abstract ViewHandler getViewHandler()
Return the ViewHandler
instance that will be utilized
during the Restore View and Render Response
phases of the request processing lifecycle. If not explicitly set,
a default implementation must be provided that performs the functions
described in the ViewHandler
description in the
JavaServer Faces Specification.
public abstract void setViewHandler(ViewHandler handler)
Set the ViewHandler
instance that will be utilized
during the Restore View and Render Response
phases of the request processing lifecycle.
handler
- The new ViewHandler
instanceIllegalStateException
- if this method is called after
at least one request has been processed by the
Lifecycle
instance for this application.NullPointerException
- if handler
is null
public abstract StateManager getStateManager()
Return the StateManager
instance that will be utilized
during the Restore View and Render Response
phases of the request processing lifecycle. If not explicitly set,
a default implementation must be provided that performs the functions
described in the StateManager
description
in the JavaServer Faces Specification.
public abstract void setStateManager(StateManager manager)
Set the StateManager
instance that will be utilized
during the Restore View and Render Response
phases of the request processing lifecycle.
manager
- The new StateManager
instanceIllegalStateException
- if this method is called after
at least one request has been processed by the
Lifecycle
instance for this application.NullPointerException
- if manager
is null
public void addBehavior(String behaviorId, String behaviorClass)
Register a new mapping
of behavior id to the name of the corresponding
Behavior
class. This allows subsequent calls
to createBehavior()
to serve as a factory for
Behavior
instances.
behaviorId
- The behavior id to be registeredbehaviorClass
- The fully qualified class name of the
corresponding Behavior
implementationNullPointerException
- if behaviorId
or behaviorClass
is null
public Behavior createBehavior(String behaviorId) throws FacesException
Instantiate and
return a new Behavior
instance of the class specified by
a previous call to addBehavior()
for the specified
behavior id.
behaviorId
- The behavior id for which to create and
return a new Behavior
instanceFacesException
- if the Behavior
cannot be
createdNullPointerException
- if behaviorId
is null
public Iterator<String> getBehaviorIds()
Return an Iterator
over the set of currently registered
behavior ids for this Application
.
public abstract void addComponent(String componentType, String componentClass)
Register a new mapping of component type to the name of the
corresponding UIComponent
class. This allows subsequent calls
to createComponent()
to serve as a factory for
UIComponent
instances.
componentType
- The component type to be registeredcomponentClass
- The fully qualified class name of the
corresponding UIComponent
implementationNullPointerException
- if componentType
or
componentClass
is null
public abstract UIComponent createComponent(String componentType) throws FacesException
Instantiate and
return a new UIComponent
instance of the class specified
by a previous call to addComponent()
for the
specified component type.
Before the component instance is
returned, it must be inspected for the presence of a ListenerFor
(or ListenersFor
) or ResourceDependency
(or ResourceDependencies
) annotation. If any of these
annotations are present, the action listed in ListenerFor
or ResourceDependency
must
be taken on the component, before it is returned from this
method. This variant of createComponent
must
not inspect the Renderer
for the component to be returned for
any of the afore mentioned annotations. Such inspection is the
province of createComponent(ValueExpression,
FacesContext, String, String)
or createComponent(FacesContext, String, String)
.
componentType
- The component type for which to create and
return a new UIComponent
instanceFacesException
- if a UIComponent
of the
specified type cannot be createdNullPointerException
- if componentType
is null
public abstract UIComponent createComponent(ValueBinding componentBinding, FacesContext context, String componentType) throws FacesException
createComponent(javax.el.ValueExpression,javax.faces.context.FacesContext,java.lang.String)
.Wrap the argument componentBinding
in an
implementation of ValueExpression
and call through to
createComponent(javax.el.ValueExpression,javax.faces.context.FacesContext,java.lang.String)
.
componentBinding
- ValueBinding
representing a
component value binding expression (typically specified by the
component
attribute of a custom tag)context
- FacesContext
for the current requestcomponentType
- Component type to create if the ValueBinding
does not return a component instanceFacesException
- if a UIComponent
cannot be createdNullPointerException
- if any parameter is null
public UIComponent createComponent(ValueExpression componentExpression, FacesContext context, String componentType) throws FacesException
Call the
getValue()
method on the specified ValueExpression
. If it returns a UIComponent
instance,
return it as the value of this method. If it does not,
instantiate a new UIComponent
instance of the specified
component type, pass the new component to the
setValue()
method of the specified ValueExpression
, and return it.
Before the component instance is
returned, it must be inspected for the presence of a ListenerFor
(or ListenersFor
) or ResourceDependency
(or ResourceDependencies
) annotation. If any of these
annotations are present, the action listed in ListenerFor
or ResourceDependency
must
be taken on the component, before it is returned from this
method. This variant of createComponent
must
not inspect the Renderer
for the component to be returned for
any of the afore mentioned annotations. Such inspection is the
province of createComponent(ValueExpression,
FacesContext, String, String)
or createComponent(FacesContext, String, String)
.
A default implementation is provided that throws
UnsupportedOperationException
so that users
that decorate Application
can continue to function.
componentExpression
- ValueExpression
representing a
component value expression (typically specified by the
component
attribute of a custom tag)context
- FacesContext
for the current requestcomponentType
- Component type to create if the ValueExpression
does not return a component instanceFacesException
- if a UIComponent
cannot be createdNullPointerException
- if any parameter is null
public UIComponent createComponent(ValueExpression componentExpression, FacesContext context, String componentType, String rendererType)
Like createComponent(ValueExpression, FacesContext, String)
except
the Renderer
for the component to be returned must
be inspected for the annotations mentioned in createComponent(ValueExpression, FacesContext, String)
as
specified in the documentation for that method. The
Renderer
instance to inspect must be obtained by
calling FacesContext.getRenderKit()
and calling RenderKit.getRenderer(java.lang.String, java.lang.String)
on the result, passing
the argument componentType
as the first argument and
the result of calling UIComponent.getFamily()
on the newly
created component as the second argument. If no such
Renderer
can be found, a message must be logged with
a helpful error message. Otherwise, UIComponent.setRendererType(java.lang.String)
must be called on the newly created
UIComponent
instance, passing the argument
rendererType
as the argument.
A default implementation is provided
that throws UnsupportedOperationException
so that
users that decorate Application
can continue to
function.
componentExpression
- ValueExpression
representing a
component value expression (typically specified by the
component
attribute of a custom tag)context
- FacesContext
for the current requestcomponentType
- Component type to create if the ValueExpression
does not return a component instancerendererType
- The renderer-type of the
Renderer
that will render this component. A
null
value must be accepted for this parameter.FacesException
- if a UIComponent
cannot be createdNullPointerException
- if any of the parameters
componentExpression
, context
, or
componentType
are null
public UIComponent createComponent(FacesContext context, String componentType, String rendererType)
Like createComponent(String)
except the Renderer
for
the component to be returned must be inspected for the
annotations mentioned in createComponent(ValueExpression,
FacesContext, String)
as specified in the documentation for that
method. The Renderer
instance to inspect must be
obtained by calling FacesContext.getRenderKit()
and calling
RenderKit.getRenderer(java.lang.String, java.lang.String)
on the result,
passing the argument componentType
as the first
argument and the result of calling UIComponent.getFamily()
on the newly created component as the second argument. If no
such Renderer
can be found, a message must be logged
with a helpful error message. Otherwise, UIComponent.setRendererType(java.lang.String)
must be called on the newly created
UIComponent
instance, passing the argument
rendererType
as the argument.
A default implementation is provided
that throws UnsupportedOperationException
so that
users that decorate Application
can continue to
function
context
- FacesContext
for the current requestcomponentType
- Component type to createrendererType
- The renderer-type of the
Renderer
that will render this component. A
null
value must be accepted for this parameter.FacesException
- if a UIComponent
cannot be createdNullPointerException
- if any of the parameters
context
, or componentType
are
null
public UIComponent createComponent(FacesContext context, Resource componentResource)
Instantiate and return
a new UIComponent
instance from the argument Resource
. An algorithm semantically equivalent to the following
must be followed to instantiate the UIComponent
to
return.
Obtain a reference to the ViewDeclarationLanguage
for this Application
instance by calling ViewHandler.getViewDeclarationLanguage(javax.faces.context.FacesContext, java.lang.String)
,
passing the viewId
found by calling
UIViewRoot.getViewId()
on the
UIViewRoot
in the argument
FacesContext
.
Obtain a reference to the composite component
metadata for this composite component by calling ViewDeclarationLanguage.getComponentMetadata(javax.faces.context.FacesContext, javax.faces.application.Resource)
, passing the
facesContext
and componentResource
arguments to this method. This version of JSF specification
uses JavaBeans as the API to the component metadata.
Determine if the component author declared a
componentType
for this component instance by obtaining the
BeanDescriptor
from the component metadata and
calling its getValue()
method, passing UIComponent.COMPOSITE_COMPONENT_TYPE_KEY
as the argument. If
non-null
, the result must be a
ValueExpression
whose value is the
component-type
of the UIComponent
to
be created for this Resource
component. Call
through to createComponent(java.lang.String)
to
create the component.
Otherwise, determine if a script based component for
this Resource
can be found by calling ViewDeclarationLanguage.getScriptComponentResource(javax.faces.context.FacesContext, javax.faces.application.Resource)
. If the
result is non-null
, and is a script written in
one of the languages listed in JSF.4.3 of the specification prose
document, create a UIComponent
instance from the
script resource.
Otherwise, let library-name be the return from
calling Resource.getLibraryName()
on the argument
componentResource
and resource-name be
the return from calling Resource.getResourceName()
on
the argument componentResource
. Create a fully
qualified Java class name by removing any file extension from
resource-name and let fqcn be
library-name + "." +
resource-name
. If a class with the name of
fqcn cannot be found, take no action and continue to
the next step. If any of InstantiationException
,
IllegalAccessException
, or
ClassCastException
are thrown, wrap the exception
in a FacesException
and re-throw it. If any
other exception is thrown, log the exception and
continue to the next step.
If none of the previous steps have yielded a
UIComponent
instance, call createComponent(java.lang.String)
passing
"javax.faces.NamingContainer
" as the
argument.
Call UIComponent.setRendererType(java.lang.String)
on the
UIComponent
instance, passing
"javax.faces.Composite
" as the argument.
Store the argument Resource
in the
attributes Map
of the UIComponent
under the key, Resource.COMPONENT_RESOURCE_KEY
.
Store composite component metadata in the
attributes Map
of the UIComponent
under the key, UIComponent.BEANINFO_KEY
.
Before the component instance is returned, it must be
inspected for the presence of a ListenerFor
annotation. If this annotation is
present, the action listed in ListenerFor
must be taken on the component,
before it is returned from this method.
A default implementation is provided that throws
UnsupportedOperationException
so that users
that decorate Application
can continue to function.
context
- FacesContext
for the current requestcomponentResource
- A Resource
that points to a
source file that provides an implementation of a component.FacesException
- if a UIComponent
from the Resource
cannot be createdNullPointerException
- if any parameter is null
NullPointerException
- if unable, for any reason, to obtain a
ViewDeclarationLanguage
instance as described above.public abstract Iterator<String> getComponentTypes()
Return an Iterator
over the set of currently defined
component types for this Application
.
public abstract void addConverter(String converterId, String converterClass)
Register a new mapping of converter id to the name of the
corresponding Converter
class. This allows subsequent calls
to createConverter()
to serve as a factory for
Converter
instances.
converterId
- The converter id to be registeredconverterClass
- The fully qualified class name of the
corresponding Converter
implementationNullPointerException
- if converterId
or converterClass
is null
public abstract void addConverter(Class<?> targetClass, String converterClass)
Register a new converter class that is capable of performing conversions for the specified target class.
targetClass
- The class for which this converter is registeredconverterClass
- The fully qualified class name of the
corresponding Converter
implementationNullPointerException
- if targetClass
or converterClass
is null
public abstract Converter createConverter(String converterId)
Instantiate and
return a new Converter
instance of the class specified by
a previous call to addConverter()
for the specified
converter id.
If the toLowerCase()
of
the String
represenation of the value of the
"javax.faces.DATETIMECONVERTER_DEFAULT_TIMEZONE_IS_SYSTEM_TIMEZONE
"
application configuration parameter is "true
"
(without the quotes) and the Converter
instance to
be returned is an instance of DateTimeConverter
, DateTimeConverter.setTimeZone(java.util.TimeZone)
must be
called, passing the return from
TimeZone.getDefault()
.
The argument
converter
must be inspected for the presence of the
ResourceDependency
annotation.
If the ResourceDependency
annotation is present,
the action described in ResourceDependency
must
be taken. If the ResourceDependency
annotation is
not present, the argument converter
must be inspected
for the presence of the ResourceDependencies
annotation.
If the ResourceDependencies
annotation
is present, the action described in ResourceDependencies
must be taken.
converterId
- The converter id for which to create and
return a new Converter
instanceFacesException
- if the Converter
cannot be
createdNullPointerException
- if converterId
is null
public abstract Converter createConverter(Class<?> targetClass)
Instantiate and return
a new Converter
instance of the class that has registered
itself as capable of performing conversions for objects of the
specified type. If no such Converter
class can be
identified, return null
.
To locate an appropriate Converter
class, the following
algorithm is performed, stopping as soon as an appropriate Converter
class is found:
Converter
registered for the target class itself.
Converter
registered for interfaces that are
implemented by the target class (directly or indirectly).Converter
registered for the superclass (if any)
of the target class, recursively working up the inheritance
hierarchy.If the Converter
has a single argument constructor that
accepts a Class
, instantiate the Converter
using that constructor, passing the argument targetClass
as
the sole argument. Otherwise, simply use the zero-argument constructor.
If the toLowerCase()
of
the String
represenation of the value of the
"javax.faces.DATETIMECONVERTER_DEFAULT_TIMEZONE_IS_SYSTEM_TIMEZONE
"
application configuration parameter is "true
"
(without the quotes) and the Converter
instance to
be returned is an instance of DateTimeConverter
, DateTimeConverter.setTimeZone(java.util.TimeZone)
must be
called, passing the return from
TimeZone.getDefault()
.
targetClass
- Target class for which to return a Converter
FacesException
- if the Converter
cannot be
createdNullPointerException
- if targetClass
is null
public abstract Iterator<String> getConverterIds()
Return an Iterator
over the set of currently registered
converter ids for this Application
.
public abstract Iterator<Class<?>> getConverterTypes()
Return an Iterator
over the set of Class
instances for which Converter
classes have been explicitly
registered.
public void addDefaultValidatorId(String validatorId)
Register a validator by its id that
is applied to all UIInput
components in a view. The
validator to most often serve this role is the
BeanValidator
. The usage contract for this method
assumes that the validator has been registered using the normal
“by-id” registration mechanism.
An implementation is provided that takes no action
so that users that decorate
the Application
continue to work.
validatorId
- the validator id.public Map<String,String> getDefaultValidatorInfo()
Return an immutable Map
over
the set of currently registered default validator IDs and their class
name for this Application
.
An implementation is provided that returns Collections.emptyMap
so that users that decorate
the Application
continue to work.
public ExpressionFactory getExpressionFactory()
Return the ExpressionFactory
instance for this
application. This instance is used by the convenience method
evaluateExpressionGet(javax.faces.context.FacesContext, java.lang.String, java.lang.Class<? extends T>)
.
The implementation must return the
ExpressionFactory
from the JSP container by calling
JspFactory.getDefaultFactory().getJspApplicationContext(servletContext).getExpressionFactory()
.
An implementation is provided that throws
UnsupportedOperationException
so that users that decorate
the Application
continue to work.
public <T> T evaluateExpressionGet(FacesContext context, String expression, Class<? extends T> expectedType) throws ELException
Get a value by evaluating an expression.
Call getExpressionFactory()
then call ExpressionFactory.createValueExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>)
passing the argument
expression
and expectedType
. Call
FacesContext.getELContext()
and pass it to ValueExpression.getValue(javax.el.ELContext)
, returning the result.
An implementation is provided that throws
UnsupportedOperationException
so that users that decorate
the Application
continue to work.
T
- the return type.context
- the Faces context.expression
- the expression.expectedType
- the expected type.ELException
public abstract MethodBinding createMethodBinding(String ref, Class<?>[] params) throws ReferenceSyntaxException
getExpressionFactory()
then ExpressionFactory.createMethodExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>, java.lang.Class<?>[])
.Call getExpressionFactory()
then call ExpressionFactory.createMethodExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>, java.lang.Class<?>[])
, passing the given
arguments, and wrap the result in a MethodBinding
implementation, returning it.
ref
- Method binding expression for which to return a
MethodBinding
instanceparams
- Parameter signatures that must be compatible with those
of the method to be invoked, or a zero-length array or null
for a method that takes no parametersNullPointerException
- if ref
is null
ReferenceSyntaxException
- if the specified ref
has invalid syntaxpublic abstract Iterator<Locale> getSupportedLocales()
Return an Iterator
over the supported
Locale
s for this appication.
public abstract void setSupportedLocales(Collection<Locale> locales)
Set the Locale
instances representing the supported
Locale
s for this application.
locales
- The set of supported Locale
s
for this applicationNullPointerException
- if the argument
newLocales
is null
.public void addELContextListener(ELContextListener listener)
Provide a way for Faces applications to register an
ELContextListener
that will be notified on creation
of ELContext
instances. This listener will be
called once per request.
An implementation is provided that throws
UnsupportedOperationException
so that users that decorate
the Application
continue to work.
listener
- the EL context listener to add.public void removeELContextListener(ELContextListener listener)
Remove the argument listener
from the list of
ELContextListener
s. If listener
is null, no
exception is thrown and no action is performed. If
listener
is not in the list, no exception is thrown
and no action is performed.
An implementation is provided that throws
UnsupportedOperationException
so that users that decorate
the Application
continue to work.
listener
- the EL context listener to remove.public ELContextListener[] getELContextListeners()
If no calls have been made to addELContextListener(javax.el.ELContextListener)
,
this method must return an empty array.
Otherwise, return an array representing the list of listeners
added by calls to addELContextListener(javax.el.ELContextListener)
.
An implementation is provided that throws
UnsupportedOperationException
so that users that decorate
the Application
continue to work.
public abstract void addValidator(String validatorId, String validatorClass)
Register a new mapping of validator id to the name of the
corresponding Validator
class. This allows subsequent calls
to createValidator()
to serve as a factory for
Validator
instances.
validatorId
- The validator id to be registeredvalidatorClass
- The fully qualified class name of the
corresponding Validator
implementationNullPointerException
- if validatorId
or validatorClass
is null
public abstract Validator createValidator(String validatorId) throws FacesException
Instantiate and
return a new Validator
instance of the class specified by
a previous call to addValidator()
for the specified
validator id.
The argument
validator
must be inspected for the presence of the
ResourceDependency
annotation.
If the ResourceDependency
annotation is present,
the action described in ResourceDependency
must
be taken. If the ResourceDependency
annotation is
not present, the argument validator
must be inspected
for the presence of the ResourceDependencies
annotation.
If the ResourceDependencies
annotation
is present, the action described in ResourceDependencies
must be taken.
validatorId
- The validator id for which to create and
return a new Validator
instanceFacesException
- if a Validator
of the
specified id cannot be createdNullPointerException
- if validatorId
is null
public abstract Iterator<String> getValidatorIds()
Return an Iterator
over the set of currently registered
validator ids for this Application
.
public abstract ValueBinding createValueBinding(String ref) throws ReferenceSyntaxException
getExpressionFactory()
then ExpressionFactory.createValueExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>)
.Call getExpressionFactory()
then call ExpressionFactory.createValueExpression(javax.el.ELContext, java.lang.String, java.lang.Class<?>)
, passing the argument
ref
, Object.class
for the expectedType,
and null
, for the fnMapper.
ref
- Value binding expression for which to return a
ValueBinding
instanceNullPointerException
- if ref
is null
ReferenceSyntaxException
- if the specified ref
has invalid syntaxpublic void publishEvent(FacesContext context, Class<? extends SystemEvent> systemEventClass, Object source)
If FacesContext.isProcessingEvents()
is
true
and there are one or more listeners
for events of the type represented by
systemEventClass
, call those listeners, passing
source
as the source of the event. The
implementation should be as fast as possible in determining
whether or not a listener for the given
systemEventClass
and source
has been
installed, and should return immediately once such a
determination has been made. The implementation of
publishEvent
must honor the requirements stated in
subscribeToEvent(java.lang.Class<? extends javax.faces.event.SystemEvent>, java.lang.Class<?>, javax.faces.event.SystemEventListener)
regarding the storage and retrieval of
listener instances. Specifically, if subscribeToEvent(Class,Class,SystemEventListener)
was called,
the sourceClass
argument must match exactly the
Class
of the source
argument in the
call to publishEvent()
. The implementation must not
do any inheritance hierarachy inspection when looking for a match
between the sourceClass
passed to subscribeToEvent(Class,Class,SystemEventListener)
and the
sourceClass
passed to publishEvent()
in
order to find any listeners to which the event should be
published. In the case where the Class
of the
source
argument does not match the
Class
of the sourceClass
used when the
listener was subscribed using subscribeToEvent()
,
publishEvent(FacesContext,Class,Class,Object)
can be used to
provide the Class
used to perform the listener lookup and
match.
The default implementation must implement an algorithm semantically equivalent to the following to locate listener instances and to invoke them.
If the source
argument implements SystemEventListenerHolder
, call SystemEventListenerHolder.getListenersForEventClass(java.lang.Class<? extends javax.faces.event.SystemEvent>)
on it, passing the systemEventClass
argument. If
the list is not empty, perform algorithm
traverseListenerList on the list.
If any view level listeners have been installed
by previous calls to subscribeToEvent(Class, Class,
javax.faces.event.SystemEventListener)
on the UIViewRoot
, perform algorithm
traverseListenerList on the list of listeners for that
event installed on the UIViewRoot
.
If any Application
level listeners have
been installed by previous calls to subscribeToEvent(Class, Class,
javax.faces.event.SystemEventListener)
, perform algorithm
traverseListenerList on the list.
If any Application
level listeners have
been installed by previous calls to subscribeToEvent(Class, javax.faces.event.SystemEventListener)
,
perform algorithm traverseListenerList on the
list.
If the act of invoking the processListener
method
causes an AbortProcessingException
to
be thrown, processing of the listeners must be aborted, no
further processing of the listeners for this event must take
place, and the exception must be logged with
Level.SEVERE
.
Algorithm traverseListenerList: For each listener in the list,
Call SystemEventListener.isListenerForSource(java.lang.Object)
, passing the
source
argument. If this returns
false
, take no action on the listener.
Otherwise, if the event to be passed to the listener
instances has not yet been constructed, construct the event,
passing source
as the argument to the
one-argument constructor that takes an Object
.
This same event instance must be passed to all listener
instances.
Call SystemEvent.isAppropriateListener(javax.faces.event.FacesListener)
,
passing the listener instance as the argument. If this
returns false
, take no action on the
listener.
Call SystemEvent.processListener(javax.faces.event.FacesListener)
,
passing the listener instance.
A default implementation is provided
that throws UnsupportedOperationException
so that
users that decorate Application
can continue to
function
context
- the FacesContext
for the current requestsystemEventClass
- The Class
of event that is
being published.source
- The source for the event of type
systemEventClass
.NullPointerException
- if either context
,
systemEventClass
or source
is null
public void publishEvent(FacesContext context, Class<? extends SystemEvent> systemEventClass, Class<?> sourceBaseType, Object source)
This method functions exactly like
publishEvent(FacesContext,Class,Object)
, except the run-time
must use the argument sourceBaseType
to find the matching
listener instead of using the Class
of the
source
argument.
A default implementation is provided
that throws UnsupportedOperationException
so that
users that decorate Application
can continue to
function
context
- the FacesContext
for the current requestsystemEventClass
- The Class
of event that is
being published.sourceBaseType
- The Class
of the source event
that must be used to lookup the listener to which this event must
be published. If this argument is null
the return
from source.getClass()
must be used as the
sourceBaseType
.source
- The source for the event of type
systemEventClass
.NullPointerException
- if any arguments except for
sourceBaseType
are null
public void subscribeToEvent(Class<? extends SystemEvent> systemEventClass, Class<?> sourceClass, SystemEventListener listener)
Install the listener instance
referenced by argument listener
into the application
as a listener for events of type systemEventClass
that originate from objects of type sourceClass
.
If argument sourceClass
is non-null
,
sourceClass
and systemEventClass
must be
used to store the argument listener
in the application in
such a way that the listener
can be quickly looked
up by the implementation of publishEvent(javax.faces.context.FacesContext, java.lang.Class<? extends javax.faces.event.SystemEvent>, java.lang.Object)
given
systemEventClass
and an instance of the
Class
referenced by sourceClass
. If
argument sourceClass
is null
, the
listener
must be discoverable by the implementation
of publishEvent(javax.faces.context.FacesContext, java.lang.Class<? extends javax.faces.event.SystemEvent>, java.lang.Object)
given only systemEventClass
.
It is valid to call this method during the processing of an event which was subscribed to by a previous call to this method.
systemEventClass
- the Class
of event for which
listener
must be fired.sourceClass
- the Class
of the instance which
causes events of type systemEventClass
to be fired.
May be null
.listener
- the implementation of SystemEventListener
whose SystemEventListener.processEvent(javax.faces.event.SystemEvent)
method must be called when
events of type systemEventClass
are fired.NullPointerException
- if any combination of
systemEventClass
, or listener
are
null
.public void subscribeToEvent(Class<? extends SystemEvent> systemEventClass, SystemEventListener listener)
Install the listener instance
referenced by argument listener
into application as
a listener for events of type systemEventClass
. The
default implementation simply calls through to subscribeToEvent(Class, Class,
javax.faces.event.SystemEventListener)
passing null
as the sourceClass
argument
A default implementation is provided
that throws UnsupportedOperationException
so that
users that decorate Application
can continue to
function
systemEventClass
- the Class
of event for which
listener
must be fired.listener
- the implementation of SystemEventListener
whose SystemEventListener.processEvent(javax.faces.event.SystemEvent)
method must
be called when events of type systemEventClass
are
fired.
See subscribeToEvent(java.lang.Class,java.lang.Class,javax.faces.event.SystemEventListener)
for an additional requirement regarding when it is valid to call
this method.
NullPointerException
- if any combination of
systemEventClass
, or listener
are
null
.public void unsubscribeFromEvent(Class<? extends SystemEvent> systemEventClass, Class<?> sourceClass, SystemEventListener listener)
Remove the listener instance
referenced by argument listener
from the application
as a listener for events of type
systemEventClass
that originate from objects of type
sourceClass
. See subscribeToEvent(Class, Class,
javax.faces.event.SystemEventListener)
for the specification
of how the listener is stored, and therefore, how it must be
removed.
See subscribeToEvent(java.lang.Class,java.lang.Class,javax.faces.event.SystemEventListener)
for an additional requirement regarding when it is valid to call
this method.
systemEventClass
- the Class
of event for which
listener
must be fired.sourceClass
- the Class
of the instance which
causes events of type systemEventClass
to be fired.
May be null
.listener
- the implementation of SystemEventListener
to remove from the internal data
structure.NullPointerException
- if any combination of
context
,
systemEventClass
, or listener
are
null
.public void unsubscribeFromEvent(Class<? extends SystemEvent> systemEventClass, SystemEventListener listener)
Remove the listener instance
referenced by argument listener
from the application
as a listener for events of type systemEventClass
. The
default implementation simply calls through to unsubscribeFromEvent(Class, javax.faces.event.SystemEventListener)
passing null
as the sourceClass
argument
See subscribeToEvent(java.lang.Class,java.lang.Class,javax.faces.event.SystemEventListener)
for an additional requirement regarding when it is valid to call
this method.
systemEventClass
- the Class
of event for which
listener
must be fired.listener
- the implementation of SystemEventListener
to remove from the internal data
structure.NullPointerException
- if any combination of
context
, systemEventClass
, or
listener
are
null
.public SearchExpressionHandler getSearchExpressionHandler()
Return the thread-safe singleton
SearchExpressionHandler
for this application.
SearchExpressionHandler
.public void setSearchExpressionHandler(SearchExpressionHandler searchExpressionHandler)
Set the SearchExpressionHandler
instance used by the application.
searchExpressionHandler
- the SearchExpressionHandler
.NullPointerException
- if searchExpressionHandler is null
IllegalStateException
- if this method is called after at least one
request has been processed by the Lifecycle
instance for this application.public void addSearchKeywordResolver(SearchKeywordResolver resolver)
Cause the argument
resolver
to be added to the head of the resolver
chain.
It is not possible to remove a SearchKeywordResolver
registered with this method, once it has been registered.
The default implementation throws
UnsupportedOperationException
and is provided
for the sole purpose of not breaking existing applications that extend
Application
.
resolver
- the SearchKeywordResolver to add.IllegalStateException
- if called after the first
request to the FacesServlet
has been serviced.NullPointerException
- when resolver is null.public SearchKeywordResolver getSearchKeywordResolver()
Return the singleton SearchKeywordResolver
instance to be used
for all search keyword resolution. This is actually an instance of a composite SearchKeywordResolver
that must contain the following SearchKeywordResolver
instances in the following order:
SearchKeywordResolver
instances declared using the
<search-keyword-resolver> element in the application configuration
resources.
Any SearchKeywordResolver
instances added by calls to
addSearchKeywordResolver(javax.faces.component.search.SearchKeywordResolver)
.
The SearchKeywordResolver
implementations for @all
, @child(n)
,
@form
, @id(...)
, @namingcontainer
, @next
, @none
, @parent
,
@previous
, @root
and @this
.
The default implementation throws UnsupportedOperationException
and is provided for the sole purpose of not breaking existing applications
that extend Application
.
SearchKeywordResolver
.Copyright © 1996-2017, Oracle and/or its affiliates. All Rights Reserved. Use is subject to license terms.