/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.myfaces.view.facelets;
import java.beans.BeanDescriptor;
import java.beans.BeanInfo;
import java.beans.PropertyDescriptor;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.Writer;
import java.lang.reflect.Array;
import java.net.URL;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.logging.Level;
import java.util.logging.Logger;
import javax.el.ELContext;
import javax.el.ELException;
import javax.el.MethodExpression;
import javax.el.ValueExpression;
import javax.el.VariableMapper;
import javax.faces.FacesException;
import javax.faces.FacesWrapper;
import javax.faces.application.ProjectStage;
import javax.faces.application.Resource;
import javax.faces.application.StateManager;
import javax.faces.application.ViewHandler;
import javax.faces.component.ActionSource2;
import javax.faces.component.EditableValueHolder;
import javax.faces.component.UIComponent;
import javax.faces.component.UINamingContainer;
import javax.faces.component.UIViewRoot;
import javax.faces.context.ExternalContext;
import javax.faces.context.FacesContext;
import javax.faces.context.ResponseWriter;
import javax.faces.event.ActionEvent;
import javax.faces.event.ActionListener;
import javax.faces.event.MethodExpressionActionListener;
import javax.faces.event.MethodExpressionValueChangeListener;
import javax.faces.event.PhaseId;
import javax.faces.event.PreRemoveFromViewEvent;
import javax.faces.event.ValueChangeEvent;
import javax.faces.event.ValueChangeListener;
import javax.faces.render.RenderKit;
import javax.faces.validator.MethodExpressionValidator;
import javax.faces.validator.Validator;
import javax.faces.view.ActionSource2AttachedObjectHandler;
import javax.faces.view.ActionSource2AttachedObjectTarget;
import javax.faces.view.AttachedObjectHandler;
import javax.faces.view.AttachedObjectTarget;
import javax.faces.view.BehaviorHolderAttachedObjectHandler;
import javax.faces.view.BehaviorHolderAttachedObjectTarget;
import javax.faces.view.EditableValueHolderAttachedObjectHandler;
import javax.faces.view.EditableValueHolderAttachedObjectTarget;
import javax.faces.view.StateManagementStrategy;
import javax.faces.view.ValueHolderAttachedObjectHandler;
import javax.faces.view.ValueHolderAttachedObjectTarget;
import javax.faces.view.ViewMetadata;
import javax.faces.view.facelets.FaceletContext;
import javax.faces.view.facelets.ResourceResolver;
import javax.faces.view.facelets.TagDecorator;
import javax.servlet.http.HttpServletResponse;
import org.apache.myfaces.buildtools.maven2.plugin.builder.annotation.JSFWebConfigParam;
import org.apache.myfaces.config.RuntimeConfig;
import org.apache.myfaces.shared.application.DefaultViewHandlerSupport;
import org.apache.myfaces.shared.application.ViewHandlerSupport;
import org.apache.myfaces.shared.config.MyfacesConfig;
import org.apache.myfaces.shared.util.ClassUtils;
import org.apache.myfaces.shared.util.StringUtils;
import org.apache.myfaces.shared.util.WebConfigParamUtils;
import org.apache.myfaces.shared.view.ViewDeclarationLanguageBase;
import org.apache.myfaces.view.ViewMetadataBase;
import org.apache.myfaces.view.facelets.FaceletViewHandler.NullWriter;
import org.apache.myfaces.view.facelets.compiler.Compiler;
import org.apache.myfaces.view.facelets.compiler.SAXCompiler;
import org.apache.myfaces.view.facelets.compiler.TagLibraryConfig;
import org.apache.myfaces.view.facelets.el.CompositeComponentELUtils;
import org.apache.myfaces.view.facelets.el.LocationMethodExpression;
import org.apache.myfaces.view.facelets.el.LocationValueExpression;
import org.apache.myfaces.view.facelets.el.MethodExpressionMethodExpression;
import org.apache.myfaces.view.facelets.el.RedirectMethodExpressionValueExpressionActionListener;
import org.apache.myfaces.view.facelets.el.RedirectMethodExpressionValueExpressionValidator;
import org.apache.myfaces.view.facelets.el.RedirectMethodExpressionValueExpressionValueChangeListener;
import org.apache.myfaces.view.facelets.el.ValueExpressionMethodExpression;
import org.apache.myfaces.view.facelets.el.VariableMapperWrapper;
import org.apache.myfaces.view.facelets.impl.DefaultFaceletFactory;
import org.apache.myfaces.view.facelets.impl.DefaultResourceResolver;
import org.apache.myfaces.view.facelets.tag.TagLibrary;
import org.apache.myfaces.view.facelets.tag.composite.ClientBehaviorAttachedObjectTarget;
import org.apache.myfaces.view.facelets.tag.composite.ClientBehaviorRedirectBehaviorAttachedObjectHandlerWrapper;
import org.apache.myfaces.view.facelets.tag.composite.ClientBehaviorRedirectEventComponentWrapper;
import org.apache.myfaces.view.facelets.tag.composite.CompositeLibrary;
import org.apache.myfaces.view.facelets.tag.composite.CompositeResourceLibrary;
import org.apache.myfaces.view.facelets.tag.jsf.ComponentSupport;
import org.apache.myfaces.view.facelets.tag.jsf.core.AjaxHandler;
import org.apache.myfaces.view.facelets.tag.jsf.core.CoreLibrary;
import org.apache.myfaces.view.facelets.tag.jsf.html.HtmlLibrary;
import org.apache.myfaces.view.facelets.tag.jstl.core.JstlCoreLibrary;
import org.apache.myfaces.view.facelets.tag.jstl.fn.JstlFnLibrary;
import org.apache.myfaces.view.facelets.tag.ui.UIDebug;
import org.apache.myfaces.view.facelets.tag.ui.UILibrary;
import org.apache.myfaces.view.facelets.util.ReflectionUtil;
/**
* This class represents the abstraction of Facelets as a ViewDeclarationLanguage.
*
* @author Simon Lessard (latest modification by $Author: slessard $)
* @version $Revision: 696523 $ $Date: 2009-03-21 14:57:08 -0400 (mer., 17 sept. 2008) $
*
* @since 2.0
*/
public class FaceletViewDeclarationLanguage extends ViewDeclarationLanguageBase
{
//private static final Log log = LogFactory.getLog(FaceletViewDeclarationLanguage.class);
private static final Logger log = Logger.getLogger(FaceletViewDeclarationLanguage.class.getName());
private static final Class<?>[] EMPTY_CLASS_ARRAY = new Class<?>[0];
private static final Class<?>[] VALUE_CHANGE_LISTENER_SIGNATURE = new Class[]{ValueChangeEvent.class};
private static final Class<?>[] ACTION_LISTENER_SIGNATURE = new Class[]{ActionEvent.class};
private static final Class<?>[] VALIDATOR_SIGNATURE = new Class[]{FacesContext.class, UIComponent.class, Object.class};
public static final String CHARACTER_ENCODING_KEY = "javax.faces.request.charset";
public final static long DEFAULT_REFRESH_PERIOD = 2;
public final static long DEFAULT_REFRESH_PERIOD_PRODUCTION = -1;
public final static String DEFAULT_CHARACTER_ENCODING = "UTF-8";
//public final static String PARAM_BUFFER_SIZE = "javax.faces.FACELETS_BUFFER_SIZE";
/**
* Define the default buffer size value passed to ExternalContext.setResponseBufferResponse() and in a
* servlet environment to HttpServletResponse.setBufferSize().
*/
@JSFWebConfigParam(since="2.0",
desc="Define the default buffer size value passed to ExternalContext.setResponseBufferResponse() and in a servlet environment to HttpServletResponse.setBufferSize()")
public final static String PARAM_BUFFER_SIZE = "javax.faces.FACELETS_BUFFER_SIZE";
/**
* Define the default buffer size value passed to ExternalContext.setResponseBufferResponse() and in a
* servlet environment to HttpServletResponse.setBufferSize().
*/
@JSFWebConfigParam(since="2.0")
private final static String PARAM_BUFFER_SIZE_DEPRECATED = "facelets.BUFFER_SIZE";
private final static String[] PARAMS_BUFFER_SIZE = {PARAM_BUFFER_SIZE, PARAM_BUFFER_SIZE_DEPRECATED};
//private final static String PARAM_BUILD_BEFORE_RESTORE = "facelets.BUILD_BEFORE_RESTORE";
/**
* Set of class names, separated by ';', implementing TagDecorator interface, used to transform
* a view definition in a facelet abstract syntax tree, that is used later to generate a component tree.
*/
@JSFWebConfigParam(since="2.0")
public final static String PARAM_DECORATORS = "javax.faces.FACELETS_DECORATORS";
/**
* Set of class names, separated by ';', implementing TagDecorator interface, used to transform
* a view definition in a facelet abstract syntax tree, that is used later to generate a component tree.
*/
@JSFWebConfigParam(since="2.0")
private final static String PARAM_DECORATORS_DEPRECATED = "facelets.DECORATORS";
private final static String[] PARAMS_DECORATORS = {PARAM_DECORATORS, PARAM_DECORATORS_DEPRECATED};
/**
* Constant used by EncodingHandler to indicate the current encoding of the page being built,
* and indicate which one is the response encoding on getResponseEncoding(FacesContext, String) method.
*/
public final static String PARAM_ENCODING = "facelets.Encoding";
/**
* Set of .taglib.xml files, separated by ';' that should be loaded by facelet engine.
*/
@JSFWebConfigParam(since="2.0", desc="Set of .taglib.xml files, separated by ';' that should be loaded by facelet engine.")
public final static String PARAM_LIBRARIES = "javax.faces.FACELETS_LIBRARIES";
/**
* Set of .taglib.xml files, separated by ';' that should be loaded by facelet engine.
*/
@JSFWebConfigParam(since="2.0", desc="Set of .taglib.xml files, separated by ';' that should be loaded by facelet engine.")
private final static String PARAM_LIBRARIES_DEPRECATED = "facelets.LIBRARIES";
private final static String[] PARAMS_LIBRARIES = {PARAM_LIBRARIES, PARAM_LIBRARIES_DEPRECATED};
/**
* Define the period used to refresh the facelet abstract syntax tree from the view definition file.
*
* <p>By default is infinite (no active).</p>
*/
@JSFWebConfigParam(since="2.0", defaultValue="-1")
public final static String PARAM_REFRESH_PERIOD = "javax.faces.FACELETS_REFRESH_PERIOD";
/**
* Define the period used to refresh the facelet abstract syntax tree from the view definition file.
*
* <p>By default is infinite (no active).</p>
*/
@JSFWebConfigParam(since="2.0", defaultValue="-1")
private final static String PARAM_REFRESH_PERIOD_DEPRECATED = "facelets.REFRESH_PERIOD";
private final static String[] PARAMS_REFRESH_PERIOD = {PARAM_REFRESH_PERIOD, PARAM_REFRESH_PERIOD_DEPRECATED};
/**
* Class implementing ResourceResolver interface used to locate facelet resources.
*/
@JSFWebConfigParam(since="2.0")
public final static String PARAM_RESOURCE_RESOLVER = "javax.faces.FACELETS_RESOURCE_RESOLVER";
/**
* Class implementing ResourceResolver interface used to locate facelet resources.
*/
@JSFWebConfigParam(since="2.0")
private final static String PARAM_RESOURCE_RESOLVER_DEPRECATED = "facelets.RESOURCE_RESOLVER";
private final static String[] PARAMS_RESOURCE_RESOLVER = {PARAM_RESOURCE_RESOLVER, PARAM_RESOURCE_RESOLVER_DEPRECATED};
/**
* Skip comments found on a facelet file.
*/
@JSFWebConfigParam(since="2.0")
public final static String PARAM_SKIP_COMMENTS = "javax.faces.FACELETS_SKIP_COMMENTS";
/**
* Skip comments found on a facelet file.
*/
@JSFWebConfigParam(since="2.0")
private final static String PARAM_SKIP_COMMENTS_DEPRECATED = "facelets.SKIP_COMMENTS";
private final static String[] PARAMS_SKIP_COMMENTS = {PARAM_SKIP_COMMENTS, PARAM_SKIP_COMMENTS_DEPRECATED};
//public final static String PARAM_VIEW_MAPPINGS = "javax.faces.FACELETS_VIEW_MAPPINGS";
//private final static String PARAM_VIEW_MAPPINGS_DEPRECATED = "facelets.VIEW_MAPPINGS";
public final static String FILLED_VIEW = "org.apache.myfaces.FILLED_VIEW";
//BEGIN CONSTANTS SET ON BUILD VIEW
//public final static String BUILDING_COMPOSITE_COMPONENT_METADATA = "org.apache.myfaces.BUILDING_COMPOSITE_COMPONENT_METADATA";
public final static String BUILDING_VIEW_METADATA = "org.apache.myfaces.BUILDING_VIEW_METADATA";
public final static String REFRESHING_TRANSIENT_BUILD = "org.apache.myfaces.REFRESHING_TRANSIENT_BUILD";
public final static String REFRESH_TRANSIENT_BUILD_ON_PSS = "org.apache.myfaces.REFRESH_TRANSIENT_BUILD_ON_PSS";
public final static String USING_PSS_ON_THIS_VIEW = "org.apache.myfaces.USING_PSS_ON_THIS_VIEW";
public final static String REMOVING_COMPONENTS_BUILD = "org.apache.myfaces.REMOVING_COMPONENTS_BUILD";
//END CONSTANTS SET ON BUILD VIEW
/**
* Marker to indicate tag handlers the view currently being built is using
* partial state saving and it is necessary to call UIComponent.markInitialState
* after component instances are populated.
*/
public final static String MARK_INITIAL_STATE_KEY = "javax.faces.view.ViewDeclarationLanguage.IS_BUILDING_INITIAL_STATE";
public final static String CLEAN_TRANSIENT_BUILD_ON_RESTORE = "org.apache.myfaces.CLEAN_TRANSIENT_BUILD_ON_RESTORE";
private final static String STATE_KEY = "<!--@@JSF_FORM_STATE_MARKER@@-->";
private static final String IS_BUILDING_INITIAL_STATE = "javax.faces.IS_BUILDING_INITIAL_STATE";
private final static int STATE_KEY_LEN = STATE_KEY.length();
private int _bufferSize;
// This param evolve in jsf 2.0 to partial state saving
//private boolean _buildBeforeRestore = false;
private ViewHandlerSupport _cachedViewHandlerSupport;
private String _defaultSuffix;
private FaceletFactory _faceletFactory;
private StateManagementStrategy _stateMgmtStrategy;
private boolean _partialStateSaving;
private boolean _refreshTransientBuildOnPSS;
private boolean _refreshTransientBuildOnPSSAuto;
private Set<String> _viewIds;
/**
*
*/
public FaceletViewDeclarationLanguage(FacesContext context)
{
initialize(context);
}
/**
* {@inheritDoc}
*/
@Override
public void buildView(FacesContext context, UIViewRoot view) throws IOException
{
if (isFilledView(context, view))
return;
// setup our viewId
String renderedViewId = getRenderedViewId(context, view.getViewId());
view.setViewId(renderedViewId);
if (log.isLoggable(Level.FINEST))
{
log.finest("Building View: " + renderedViewId);
}
boolean usePartialStateSavingOnThisView = _usePartialStateSavingOnThisView(renderedViewId);
boolean refreshTransientBuild = (view.getChildCount() > 0);
boolean refreshTransientBuildOnPSS = (usePartialStateSavingOnThisView && _refreshTransientBuildOnPSS);
if (usePartialStateSavingOnThisView)
{
// Before apply we need to make sure the current view has
// a clientId that will be used as a key to save and restore
// the current view. Note that getClientId is never called (or used)
// from UIViewRoot.
if (view.getId() == null)
{
view.setId(view.createUniqueId(context,null));
}
context.getAttributes().put(USING_PSS_ON_THIS_VIEW, Boolean.TRUE);
//Add a key to indicate ComponentTagHandlerDelegate to
//call UIComponent.markInitialState after it is populated
if (!refreshTransientBuild)
{
context.getAttributes().put(MARK_INITIAL_STATE_KEY, Boolean.TRUE);
context.getAttributes().put(IS_BUILDING_INITIAL_STATE, Boolean.TRUE);
}
if (refreshTransientBuildOnPSS)
{
//This value is only set when _refreshTransientBuildOnPSSMode is "auto" or "true"
context.getAttributes().put(REFRESH_TRANSIENT_BUILD_ON_PSS, _refreshTransientBuildOnPSSAuto ? "auto" : "true");
}
}
try
{
if (refreshTransientBuild)
{
context.getAttributes().put(REFRESHING_TRANSIENT_BUILD, Boolean.TRUE);
// In theory, this should be disabled on ComponentTagHandlerDelegate,
// otherwise we could lost PostAddToViewEvent / PreRemoveFromViewEvent
// caused by c:if effect or facelets cleanup algorithm
//context.setProcessingEvents(false);
}
// populate UIViewRoot
_getFacelet(renderedViewId).apply(context, view);
}
finally
{
if (refreshTransientBuildOnPSS)
{
context.getAttributes().remove(REFRESH_TRANSIENT_BUILD_ON_PSS);
}
if (refreshTransientBuild)
{
//context.setProcessingEvents(true);
if (!usePartialStateSavingOnThisView || refreshTransientBuildOnPSS)
{
// When the facelet is applied, all components are removed and added from view,
// but the difference resides in the ordering. Since the view is
// being refreshed, if we don't do this manually, some tags like
// cc:insertChildren or cc:insertFacet will not work correctly, because
// we expect PostAddToViewEvent will be propagated from parent to child, and
// facelets refreshing algorithm do the opposite.
//FaceletViewDeclarationLanguage._publishPreRemoveFromViewEvent(context, view);
//FaceletViewDeclarationLanguage._publishPostAddToViewEvent(context, view);
FaceletViewDeclarationLanguage._publishPostBuildComponentTreeOnRestoreViewEvent(context, view);
}
context.getAttributes().remove(REFRESHING_TRANSIENT_BUILD);
}
}
// set this view as filled
if (refreshTransientBuild)
{
//This option will be true on this cases:
//- pss is false, but we are refreshing
//- pss is true, and we are refreshing a view already filled
setFilledView(context, view);
}
else if (!refreshTransientBuildOnPSS)
{
// This option will be true on this cases:
// -pss is true and refresh is not active
setFilledView(context, view);
}
//At this point refreshTransientBuild = false && refreshTransientBuildOnPSS is true
else if (_refreshTransientBuildOnPSSAuto && !context.getAttributes().containsKey(CLEAN_TRANSIENT_BUILD_ON_RESTORE))
{
setFilledView(context, view);
}
// Suscribe listeners if we are using partialStateSaving
if (usePartialStateSavingOnThisView)
{
// UIViewRoot.markInitialState() is not called because it does
// not have a facelet tag handler class that create it, instead
// new instances are created programatically.
if (!refreshTransientBuild)
{
if (!refreshTransientBuildOnPSS ||
!view.getAttributes().containsKey(DefaultFaceletsStateManagementStrategy.COMPONENT_ADDED_AFTER_BUILD_VIEW))
{
view.markInitialState();
}
//Remove the key that indicate we need to call UIComponent.markInitialState
//on the current tree
context.getAttributes().remove(MARK_INITIAL_STATE_KEY);
context.getAttributes().remove(IS_BUILDING_INITIAL_STATE);
}
// We need to suscribe the listeners of changes in the component tree
// only the first time here. Later we suscribe this listeners on
// DefaultFaceletsStateManagement.restoreView after calling
// _publishPostBuildComponentTreeOnRestoreViewEvent(), to ensure
// relocated components are not retrieved later on getClientIdsRemoved().
if (!(refreshTransientBuild && PhaseId.RESTORE_VIEW.equals(context.getCurrentPhaseId())))
{
((DefaultFaceletsStateManagementStrategy) getStateManagementStrategy(context, view.getViewId())).suscribeListeners(view);
}
context.getAttributes().remove(USING_PSS_ON_THIS_VIEW);
}
// Remove this var from faces context because this one prevent AjaxHandler
// register the standard script library on Post-Redirect-Get pattern or
// in the next view
context.getAttributes().remove(AjaxHandler.STANDARD_JSF_AJAX_LIBRARY_LOADED);
}
private static void _publishPreRemoveFromViewEvent(FacesContext context, UIComponent component)
{
context.getApplication().publishEvent(context, PreRemoveFromViewEvent.class, component.getClass(), component);
if (component.getChildCount() > 0)
{
for (UIComponent child : component.getChildren())
{
_publishPreRemoveFromViewEvent(context, child);
}
}
if (component.getFacetCount() > 0)
{
for (UIComponent child : component.getFacets().values())
{
_publishPreRemoveFromViewEvent(context, child);
}
}
}
public static void _publishPostBuildComponentTreeOnRestoreViewEvent(FacesContext context, UIComponent component)
{
context.getApplication().publishEvent(context, PostBuildComponentTreeOnRestoreViewEvent.class, component.getClass(), component);
if (component.getChildCount() > 0)
{
// PostAddToViewEvent could cause component relocation
// (h:outputScript, h:outputStylesheet, composite:insertChildren, composite:insertFacet)
// so we need to check if the component was relocated or not
List<UIComponent> children = component.getChildren();
UIComponent child = null;
UIComponent currentChild = null;
int i = 0;
while (i < children.size())
{
child = children.get(i);
// Iterate over the same index if the component was removed
// This prevents skip components when processing
do
{
_publishPostBuildComponentTreeOnRestoreViewEvent(context, child);
currentChild = child;
}
while ((i < children.size()) &&
((child = children.get(i)) != currentChild) );
i++;
}
}
if (component.getFacetCount() > 0)
{
for (UIComponent child : component.getFacets().values())
{
_publishPostBuildComponentTreeOnRestoreViewEvent(context, child);
}
}
}
private boolean isFilledView(FacesContext context, UIViewRoot view)
{
// The view is only built on restoreView or renderView, but if
// we are not using partial state saving, we need to mark the current
// view as filled, otherwise it will be filled again on renderView.
return context.getAttributes().containsKey(view);
// -= Leonardo Uribe =- save this key on view cause render fail, because the view
// is built before render view to "restore" the transient components that has
// facelet markup (facelets UIInstructions ...) This effect is only notice when
// partial state saving is not used.
//return view.getAttributes().containsKey(FILLED_VIEW);
}
private void setFilledView(FacesContext context, UIViewRoot view)
{
context.getAttributes().put(view, Boolean.TRUE);
// -= Leonardo Uribe =- save this key on view cause render fail, because the view
// is built before render view to "restore" the transient components that has
// facelet markup (facelets UIInstructions ...) This effect is only notice when
// partial state saving is not used.
// view.getAttributes().put(FILLED_VIEW, Boolean.TRUE);
}
/**
* retargetMethodExpressions(FacesContext, UIComponent) has some clues about the behavior of this method
*
* {@inheritDoc}
*/
@Override
public BeanInfo getComponentMetadata(FacesContext context, Resource componentResource)
{
BeanInfo beanInfo = null;
try
{
Facelet compositeComponentFacelet;
FaceletFactory.setInstance(_faceletFactory);
try
{
compositeComponentFacelet = _faceletFactory.getCompositeComponentMetadataFacelet(componentResource.getURL());
}
finally
{
FaceletFactory.setInstance(null);
}
//context.getAttributes().put(BUILDING_COMPOSITE_COMPONENT_METADATA, Boolean.TRUE);
// Create a temporal tree where all components will be put, but we are only
// interested in metadata.
UINamingContainer compositeComponentBase = (UINamingContainer) context.getApplication().createComponent(UINamingContainer.COMPONENT_TYPE);
// Fill the component resource key, because this information should be available
// on metadata to recognize which is the component used as composite component base.
// Since this method is called from Application.createComponent(FacesContext,Resource),
// and in that specific method this key is updated, this is the best option we
// have for recognize it (also this key is used by UIComponent.isCompositeComponent)
compositeComponentBase.getAttributes().put(Resource.COMPONENT_RESOURCE_KEY, componentResource);
// According to UserTagHandler, in this point we need to wrap the facelet
// VariableMapper, so local changes are applied on "page context", but
// data is retrieved from full context
FaceletContext faceletContext = (FaceletContext) context.
getAttributes().get(FaceletContext.FACELET_CONTEXT_KEY);
VariableMapper orig = faceletContext.getVariableMapper();
try
{
faceletContext.setVariableMapper(new VariableMapperWrapper(orig));
compositeComponentBase.pushComponentToEL(context, compositeComponentBase);
compositeComponentFacelet.apply(context, compositeComponentBase);
compositeComponentBase.popComponentFromEL(context);
}
finally
{
faceletContext.setVariableMapper(orig);
}
beanInfo = (BeanInfo) compositeComponentBase.getAttributes().get(UIComponent.BEANINFO_KEY);
}
catch(IOException e)
{
throw new FacesException(e);
}
//finally
//{
//context.getAttributes().remove(BUILDING_COMPOSITE_COMPONENT_METADATA);
//}
return beanInfo;
}
/**
* Check if the current facelet applied is used to build composite component metadata.
*
* @param context
* @return
*/
//public static boolean isBuildingCompositeComponentMetadata(FacesContext context)
//{
// return context.getAttributes().containsKey(BUILDING_COMPOSITE_COMPONENT_METADATA);
//}
/**
* Check if the current facelet applied is used to build view metadata.
*
* @param context
* @return
*/
public static boolean isBuildingViewMetadata(FacesContext context)
{
return context.getAttributes().containsKey(BUILDING_VIEW_METADATA);
}
public static boolean isRefreshingTransientBuild(FacesContext context)
{
return context.getAttributes().containsKey(REFRESHING_TRANSIENT_BUILD);
}
public static boolean isRemovingComponentBuild(FacesContext context)
{
return context.getAttributes().containsKey(REMOVING_COMPONENTS_BUILD);
}
public static boolean isMarkInitialState(FacesContext context)
{
return context.getAttributes().containsKey(MARK_INITIAL_STATE_KEY);
}
public static boolean isRefreshTransientBuildOnPSS(FacesContext context)
{
//this include both "true" and "auto"
return context.getAttributes().containsKey(REFRESH_TRANSIENT_BUILD_ON_PSS);
}
public static boolean isRefreshTransientBuildOnPSSAuto(FacesContext context)
{
return "auto".equalsIgnoreCase((String) context.getAttributes().get(REFRESH_TRANSIENT_BUILD_ON_PSS));
}
public static boolean isCleanTransientBuildOnRestore(FacesContext context)
{
return context.getAttributes().containsKey(CLEAN_TRANSIENT_BUILD_ON_RESTORE);
}
public static void cleanTransientBuildOnRestore(FacesContext context)
{
context.getAttributes().put(CLEAN_TRANSIENT_BUILD_ON_RESTORE, Boolean.TRUE);
}
public static boolean isUsingPSSOnThisView(FacesContext context)
{
return context.getAttributes().containsKey(USING_PSS_ON_THIS_VIEW);
}
/**
* In short words, this method take care of "target" an "attached object".
* <ul>
* <li>The "attached object" is instantiated by a tag handler.</li>
* <li>The "target" is an object used as "marker", that exposes a List<UIComponent></li>
* </ul>
* This method should be called from some composite component tag handler, after
* all children of composite component has been applied.
*/
@Override
@SuppressWarnings("unchecked")
public void retargetAttachedObjects(FacesContext context,
UIComponent topLevelComponent, List<AttachedObjectHandler> handlerList)
{
BeanInfo compositeComponentMetadata = (BeanInfo) topLevelComponent.getAttributes().get(UIComponent.BEANINFO_KEY);
if (compositeComponentMetadata == null)
{
log.severe("Composite component metadata not found for: "+topLevelComponent.getClientId());
return;
}
BeanDescriptor compositeComponentDescriptor = compositeComponentMetadata.getBeanDescriptor();
List<AttachedObjectTarget> targetList = (List<AttachedObjectTarget>)
compositeComponentDescriptor.getValue(AttachedObjectTarget.ATTACHED_OBJECT_TARGETS_KEY);
if (targetList == null || targetList.isEmpty())
{
return;
}
for (AttachedObjectHandler currentHandler : handlerList)
{
// In the spec javadoc this variable is referred as forAttributeValue, but
// note it is also called curTargetName
String forValue = currentHandler.getFor();
for (AttachedObjectTarget currentTarget : targetList)
{
FaceletCompositionContext mctx = FaceletCompositionContext.getCurrentInstance();
if ( ( forValue != null && forValue.equals(currentTarget.getName()) ) &&
((currentTarget instanceof ActionSource2AttachedObjectTarget &&
currentHandler instanceof ActionSource2AttachedObjectHandler) ||
(currentTarget instanceof EditableValueHolderAttachedObjectTarget &&
currentHandler instanceof EditableValueHolderAttachedObjectHandler) ||
(currentTarget instanceof ValueHolderAttachedObjectTarget &&
currentHandler instanceof ValueHolderAttachedObjectHandler)) )
{
for (UIComponent component : currentTarget.getTargets(topLevelComponent))
{
// If we found composite components when traverse the tree
// we have to call this one recursively, because each composite component
// should have its own AttachedObjectHandler list, filled earlier when
// its tag handler is applied.
if (UIComponent.isCompositeComponent(component))
{
// How we obtain the list of AttachedObjectHandler for
// the current composite component? It should be a component
// attribute or retrieved by a key inside component.getAttributes
// map. Since api does not specify any attribute, we suppose
// this is an implementation detail and it should be retrieved
// from component attribute map.
// But this is only the point of the iceberg, because we should
// define how we register attached object handlers in this list.
// ANS: see CompositeComponentResourceTagHandler.
// The current handler should be added to the list, to be chained.
// Note that the inner component should have a target with the same name
// as "for" attribute
mctx.addAttachedObjectHandler(component, currentHandler);
List<AttachedObjectHandler> handlers = mctx.getAttachedObjectHandlers(component);
retargetAttachedObjects(context, component, handlers);
handlers.remove(currentHandler);
}
else
{
currentHandler.applyAttachedObject(context, component);
}
}
}
else if ((currentTarget instanceof BehaviorHolderAttachedObjectTarget &&
currentHandler instanceof BehaviorHolderAttachedObjectHandler))
{
String eventName = ((BehaviorHolderAttachedObjectHandler) currentHandler).getEventName();
boolean isDefaultEvent = ((BehaviorHolderAttachedObjectTarget) currentTarget).isDefaultEvent();
if ( (eventName != null && eventName.equals(currentTarget.getName()) ) ||
(eventName == null && isDefaultEvent) )
{
for (UIComponent component : currentTarget.getTargets(topLevelComponent))
{
// If we found composite components when traverse the tree
// we have to call this one recursively, because each composite component
// should have its own AttachedObjectHandler list, filled earlier when
// its tag handler is applied.
if (UIComponent.isCompositeComponent(component))
{
if (currentTarget instanceof ClientBehaviorAttachedObjectTarget)
{
mctx.addAttachedObjectHandler(component,
new ClientBehaviorRedirectBehaviorAttachedObjectHandlerWrapper(
(BehaviorHolderAttachedObjectHandler) currentHandler,
((ClientBehaviorAttachedObjectTarget) currentTarget).getEvent()));
}
else
{
mctx.addAttachedObjectHandler(component, currentHandler);
}
List<AttachedObjectHandler> handlers = mctx.getAttachedObjectHandlers(component);
retargetAttachedObjects(context, component, handlers);
handlers.remove(currentHandler);
}
else
{
if (currentHandler instanceof ClientBehaviorRedirectBehaviorAttachedObjectHandlerWrapper)
{
currentHandler.applyAttachedObject(context, new ClientBehaviorRedirectEventComponentWrapper(component,
((ClientBehaviorRedirectBehaviorAttachedObjectHandlerWrapper) currentHandler).getWrappedEventName(), eventName));
}
else
{
currentHandler.applyAttachedObject(context, component);
}
}
}
}
}
}
}
}
@Override
public void retargetMethodExpressions(FacesContext context,
UIComponent topLevelComponent)
{
BeanInfo compositeComponentMetadata = (BeanInfo) topLevelComponent.getAttributes().get(UIComponent.BEANINFO_KEY);
if (compositeComponentMetadata == null)
{
log.severe("Composite component metadata not found for: "+topLevelComponent.getClientId());
return;
}
// "...For each attribute that is a MethodExpression..." This means we have to scan
// all attributes with "method-signature" attribute and no "type" attribute
// javax.faces.component._ComponentAttributesMap uses BeanInfo.getPropertyDescriptors to
// traverse over it, but here the metadata returned by UIComponent.BEANINFO_KEY is available
// only for composite components.
// That means somewhere we need to create a custom BeanInfo object for composite components
// that will be filled somewhere (theorically in ViewDeclarationLanguage.getComponentMetadata())
PropertyDescriptor[] propertyDescriptors = compositeComponentMetadata.getPropertyDescriptors();
ELContext elContext = (ELContext) context.getAttributes().get(FaceletContext.FACELET_CONTEXT_KEY);
for (PropertyDescriptor propertyDescriptor : propertyDescriptors)
{
if (propertyDescriptor.getValue("type") != null)
{
// This check is necessary if we have both "type" and "method-signature" set.
// In that case, "method-signature" is ignored
continue;
}
String attributeName = propertyDescriptor.getName();
boolean isKnownMethod = "action".equals(attributeName) || "actionListener".equals(attributeName)
|| "validator".equals(attributeName) || "valueChangeListener".equals(attributeName);
// <composite:attribute> method-signature attribute is
// ValueExpression that must evaluate to String
ValueExpression methodSignatureExpression
= (ValueExpression) propertyDescriptor.getValue("method-signature");
String methodSignature = null;
if (methodSignatureExpression != null)
{
// Check if the value expression holds a method signature
// Note that it could be null, so in that case we don't have to do anything
methodSignature = (String) methodSignatureExpression.getValue(elContext);
}
// either the attributeName has to be a knownMethod or there has to be a method-signature
if (isKnownMethod || methodSignature != null)
{
ValueExpression targetsExpression =
(ValueExpression) propertyDescriptor.getValue("targets");
String targets = null;
// <composite:attribute> targets attribute is
// ValueExpression that must evaluate to String
if (targetsExpression != null)
{
targets = (String) targetsExpression.getValue(elContext);
}
if (targets == null)
{
// "...let the name of the metadata element be the
// evaluated value of the targets attribute..."
targets = attributeName;
}
FaceletCompositionContext mctx = FaceletCompositionContext.getCurrentInstance();
// If the MethodExpression attribute has been already applied, there is no need to
// handle it and it is probably a MethodExpression instance is on attribute map, so the
// inner code will cause a ClassCastException.
if (!mctx.isMethodExpressionAttributeApplied(topLevelComponent, attributeName))
{
ValueExpression attributeNameValueExpression =
(ValueExpression) topLevelComponent.getAttributes().get(attributeName);
if (attributeNameValueExpression == null)
{
// composite:attribute has a default property, so if we can't found on the
// component attribute map, we should get the default as CompositeComponentELResolver
// does.
attributeNameValueExpression = (ValueExpression) propertyDescriptor.getValue("default");
if (attributeNameValueExpression == null)
{
// It is only valid to log an error if the attribute is required
ValueExpression ve = (ValueExpression) propertyDescriptor.getValue("required");
if (ve != null)
{
Object requiredValue = ve.getValue (elContext);
Boolean required = null;
if (requiredValue instanceof Boolean)
{
required = (Boolean) requiredValue;
}
else
{
required = Boolean.getBoolean(requiredValue.toString());
}
if (required != null && required.booleanValue())
{
if (log.isLoggable(Level.SEVERE))
log.severe("attributeValueExpression not found under the key \""+attributeName+
"\". Looking for the next attribute");
}
}
continue;
}
}
String [] targetsArray = StringUtils.splitShortString(targets, ' ');
String attributeExpressionString = attributeNameValueExpression.getExpressionString();
MethodExpression methodExpression = null;
MethodExpression methodExpression2 = null;
//Check if the stored valueExpression is a ccRedirection, to handle it properly later.
boolean ccAttrMeRedirection =
attributeNameValueExpression instanceof LocationValueExpression &&
CompositeComponentELUtils.isCompositeComponentAttrsMethodExpression(
attributeNameValueExpression.getExpressionString());
if (isKnownMethod)
{
// To add support to #{cc.attrs.action}, #{cc.attrs.actionListener}, #{cc.attrs.validator} or
// #{cc.attrs.valueChangeListener} it is necessary to put a MethodExpression or a
// ValueExpression pointing to the associated java method in the component attribute map.
// org.apache.myfaces.view.facelets.tag.composite.RetargetMethodExpressionRule already put
// a ValueExpression, so we only need to put a MethodExpression when a non redirecting
// expression is used (for example when a nested #{cc.attrs.xxx} is used).
if ("action".equals(attributeName))
{
// target is ActionSource2
methodExpression = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, null, EMPTY_CLASS_ARRAY), attributeNameValueExpression);
//Store the method expression to the topLevelComponent to allow reference it through EL
if (!ccAttrMeRedirection)
{
//Replace it with a method expression
topLevelComponent.getAttributes().put(attributeName, methodExpression);
}
// Otherwise keep the current ValueExpression, because it will be used chain other value expressions
}
else if ("actionListener".equals(attributeName))
{
// target is ActionSource2
methodExpression = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE, ACTION_LISTENER_SIGNATURE), attributeNameValueExpression);
methodExpression2 = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE, EMPTY_CLASS_ARRAY), attributeNameValueExpression);
//Store the method expression to the topLevelComponent to allow reference it through EL
if (!ccAttrMeRedirection)
{
//Replace it with a method expression
topLevelComponent.getAttributes().put(attributeName, new MethodExpressionMethodExpression(methodExpression, methodExpression2));
}
// Otherwise keep the current ValueExpression, because it will be used chain other value expressions
}
else if ("validator".equals(attributeName))
{
// target is EditableValueHolder
methodExpression = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE,
VALIDATOR_SIGNATURE), attributeNameValueExpression);
//Store the method expression to the topLevelComponent to allow reference it through EL
if (!ccAttrMeRedirection)
{
//Replace it with a method expression
topLevelComponent.getAttributes().put(attributeName, methodExpression);
}
// Otherwise keep the current ValueExpression, because it will be used chain other value expressions
}
else if ("valueChangeListener".equals(attributeName))
{
// target is EditableValueHolder
methodExpression = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE,
VALUE_CHANGE_LISTENER_SIGNATURE), attributeNameValueExpression);
methodExpression2 = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE,
EMPTY_CLASS_ARRAY), attributeNameValueExpression);
//Store the method expression to the topLevelComponent to allow reference it through EL
if (!ccAttrMeRedirection)
{
//Replace it with a method expression
topLevelComponent.getAttributes().put(attributeName, new MethodExpressionMethodExpression(methodExpression, methodExpression2));
}
// Otherwise keep the current ValueExpression, because it will be used chain other value expressions
}
UIComponent topLevelComponentBase = topLevelComponent.getFacet(UIComponent.COMPOSITE_FACET_NAME);
for (String target : targetsArray)
{
UIComponent innerComponent = ComponentSupport.findComponentChildOrFacetFrom(context, topLevelComponentBase, target);
if (innerComponent == null)
{
//if (log.isLoggable(Level.SEVERE))
// log.severe("Inner component " + target + " not found when retargetMethodExpressions");
continue;
}
if (isCompositeComponentRetarget(context, innerComponent, attributeName))
{
innerComponent.getAttributes().put(attributeName, attributeNameValueExpression);
mctx.clearMethodExpressionAttribute(innerComponent, attributeName);
retargetMethodExpressions(context, innerComponent);
}
else
{
if ("action".equals(attributeName))
{
// target is ActionSource2
methodExpression = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, null, EMPTY_CLASS_ARRAY), attributeNameValueExpression);
// If it is a redirection, a wrapper is used to locate the right instance and call it properly.
if (ccAttrMeRedirection)
{
((ActionSource2)innerComponent).setActionExpression(new ValueExpressionMethodExpression(attributeNameValueExpression));
}
else
{
((ActionSource2)innerComponent).setActionExpression(methodExpression);
}
}
else if ("actionListener".equals(attributeName))
{
//First try to remove any prevous target if any
ActionListener o = (ActionListener) mctx.removeMethodExpressionTargeted(innerComponent, attributeName);
if (o != null)
{
((ActionSource2)innerComponent).removeActionListener(o);
}
// target is ActionSource2
ActionListener actionListener = null;
// If it is a redirection, a wrapper is used to locate the right instance and call it properly.
if (ccAttrMeRedirection)
{
actionListener = new RedirectMethodExpressionValueExpressionActionListener(attributeNameValueExpression);
}
else
{
methodExpression = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE, ACTION_LISTENER_SIGNATURE), attributeNameValueExpression);
methodExpression2 = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE, EMPTY_CLASS_ARRAY), attributeNameValueExpression);
actionListener = new MethodExpressionActionListener(methodExpression, methodExpression2);
}
((ActionSource2)innerComponent).addActionListener(actionListener);
mctx.addMethodExpressionTargeted(innerComponent, attributeName, actionListener);
}
else if ("validator".equals(attributeName))
{
//First try to remove any prevous target if any
Validator o = (Validator) mctx.removeMethodExpressionTargeted(innerComponent, attributeName);
if (o != null)
{
((EditableValueHolder)innerComponent).removeValidator(o);
}
// target is EditableValueHolder
Validator validator = null;
// If it is a redirection, a wrapper is used to locate the right instance and call it properly.
if (ccAttrMeRedirection)
{
validator = new RedirectMethodExpressionValueExpressionValidator(attributeNameValueExpression);
}
else
{
methodExpression = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE,
VALIDATOR_SIGNATURE), attributeNameValueExpression);
validator = new MethodExpressionValidator(methodExpression);
}
((EditableValueHolder)innerComponent).addValidator( validator );
mctx.addMethodExpressionTargeted(innerComponent, attributeName, validator);
}
else if ("valueChangeListener".equals(attributeName))
{
ValueChangeListener o = (ValueChangeListener) mctx.removeMethodExpressionTargeted(innerComponent, attributeName);
if (o != null)
{
((EditableValueHolder)innerComponent).removeValueChangeListener(o);
}
// target is EditableValueHolder
ValueChangeListener valueChangeListener = null;
// If it is a redirection, a wrapper is used to locate the right instance and call it properly.
if (ccAttrMeRedirection)
{
valueChangeListener = new RedirectMethodExpressionValueExpressionValueChangeListener(attributeNameValueExpression);
}
else
{
methodExpression = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE,
VALUE_CHANGE_LISTENER_SIGNATURE), attributeNameValueExpression);
methodExpression2 = reWrapMethodExpression(context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, Void.TYPE,
EMPTY_CLASS_ARRAY), attributeNameValueExpression);
valueChangeListener = new MethodExpressionValueChangeListener(methodExpression, methodExpression2);
}
((EditableValueHolder)innerComponent).addValueChangeListener( valueChangeListener );
mctx.addMethodExpressionTargeted(innerComponent, attributeName, valueChangeListener);
}
}
}
}
else
{
// composite:attribute targets property only has sense for action, actionListener,
// validator or valueChangeListener. This means we have to retarget the method expression
// to the topLevelComponent.
// Since a MethodExpression has no state, we can use it multiple times without problem, so
// first create it here.
methodSignature = methodSignature.trim();
methodExpression = context.getApplication().getExpressionFactory().
createMethodExpression(elContext,
attributeExpressionString, _getReturnType(methodSignature),
_getParameters(methodSignature));
methodExpression = reWrapMethodExpression(methodExpression, attributeNameValueExpression);
UIComponent topLevelComponentBase = topLevelComponent.getFacet(UIComponent.COMPOSITE_FACET_NAME);
for (String target : targetsArray)
{
UIComponent innerComponent = ComponentSupport.findComponentChildOrFacetFrom(context, topLevelComponentBase, target);
if (innerComponent == null)
{
continue;
}
// If a component is found, that means the expression should be retarget to the
// components related
if (isCompositeComponentRetarget(context, innerComponent, attributeName))
{
innerComponent.getAttributes().put(attributeName, attributeNameValueExpression);
mctx.clearMethodExpressionAttribute(innerComponent, attributeName);
retargetMethodExpressions(context, innerComponent);
}
else
{
//Put the retarget
if (ccAttrMeRedirection)
{
// Since we require here a method expression, it is necessary to wrap the ValueExpression
// into a MethodExpression that handles redirection.
innerComponent.getAttributes().put(attributeName, new ValueExpressionMethodExpression(attributeNameValueExpression));
}
else
{
innerComponent.getAttributes().put(attributeName, methodExpression);
}
}
}
//Store the method expression to the topLevelComponent to allow reference it through EL
if (!ccAttrMeRedirection)
{
//Replace it with a method expression
topLevelComponent.getAttributes().put(attributeName, methodExpression);
}
// Othewise keep the current ValueExpression, because it will be used chain other value expressions
}
mctx.markMethodExpressionAttribute(topLevelComponent, attributeName);
}
// We need to remove the previous ValueExpression, to prevent some possible
// confusion when the same value is retrieved from the attribute map.
topLevelComponent.setValueExpression(attributeName, null);
}
}
}
private boolean isCompositeComponentRetarget(FacesContext context, UIComponent component, String attributeName)
{
if (UIComponent.isCompositeComponent(component))
{
BeanInfo compositeComponentMetadata = (BeanInfo) component.getAttributes().get(UIComponent.BEANINFO_KEY);
PropertyDescriptor[] propertyDescriptors = compositeComponentMetadata.getPropertyDescriptors();
ELContext elContext = (ELContext) context.getAttributes().get(FaceletContext.FACELET_CONTEXT_KEY);
for (PropertyDescriptor propertyDescriptor : propertyDescriptors)
{
if (propertyDescriptor.getValue("type") != null)
{
// This check is necessary if we have both "type" and "method-signature" set.
// In that case, "method-signature" is ignored
continue;
}
if (attributeName.equals(propertyDescriptor.getName()))
{
boolean isKnownMethod = "action".equals(attributeName) || "actionListener".equals(attributeName)
|| "validator".equals(attributeName) || "valueChangeListener".equals(attributeName);
// <composite:attribute> method-signature attribute is
// ValueExpression that must evaluate to String
ValueExpression methodSignatureExpression
= (ValueExpression) propertyDescriptor.getValue("method-signature");
String methodSignature = null;
if (methodSignatureExpression != null)
{
// Check if the value expression holds a method signature
// Note that it could be null, so in that case we don't have to do anything
methodSignature = (String) methodSignatureExpression.getValue(elContext);
}
// either the attributeName has to be a knownMethod or there has to be a method-signature
if (isKnownMethod || methodSignature != null)
{
if ("action".equals(attributeName))
{
return !(component instanceof ActionSource2);
}
else if ("actionListener".equals(attributeName))
{
return !(component instanceof ActionSource2);
}
else if ("validator".equals(attributeName))
{
return !(component instanceof EditableValueHolder);
}
else if ("valueChangeListener".equals(attributeName))
{
return !(component instanceof EditableValueHolder);
}
else
{
return true;
}
}
}
}
return false;
}
else
{
return false;
}
}
@SuppressWarnings("unchecked")
private MethodExpression reWrapMethodExpression(MethodExpression createdMethodExpression, ValueExpression originalValueExpression)
{
if (originalValueExpression instanceof LocationValueExpression)
{
return new LocationMethodExpression(
((LocationValueExpression)originalValueExpression).getLocation(),
reWrapMethodExpression(createdMethodExpression,
((LocationValueExpression)originalValueExpression).getWrapped()));
}
else if (originalValueExpression instanceof FacesWrapper &&
((FacesWrapper)originalValueExpression).getWrapped() instanceof ValueExpression)
{
return reWrapMethodExpression(createdMethodExpression,
(ValueExpression) ((FacesWrapper)originalValueExpression).getWrapped());
}
else
{
return createdMethodExpression;
}
}
/**
* This method is similar to shared ClassUtils.javaTypeToClass,
* but the default package is java.lang
* TODO: Move to shared project
*
* @param type
* @return
* @throws ClassNotFoundException
*/
public static Class _javaTypeToClass(String type)
throws ClassNotFoundException
{
if (type == null) throw new NullPointerException("type");
// try common types and arrays of common types first
Class clazz = (Class) ClassUtils.COMMON_TYPES.get(type);
if (clazz != null)
{
return clazz;
}
int len = type.length();
if (len > 2 && type.charAt(len - 1) == ']' && type.charAt(len - 2) == '[')
{
String componentType = type.substring(0, len - 2);
Class componentTypeClass = ClassUtils.classForName(componentType);
return Array.newInstance(componentTypeClass, 0).getClass();
}
if (type.indexOf('.') == -1)
{
type = "java.lang."+type;
}
return ClassUtils.classForName(type);
}
private Class _getReturnType(String signature)
{
int endName = signature.indexOf('(');
if (endName < 0)
{
throw new FacesException("Invalid method signature:" + signature);
}
int end = signature.lastIndexOf(' ', endName);
if (end < 0)
{
throw new FacesException("Invalid method signature:" + signature);
}
try
{
return _javaTypeToClass(signature.substring(0,end));
}
catch(ClassNotFoundException e)
{
throw new FacesException("Invalid method signature:"+signature);
}
}
/**
* Get the parameters types from the function signature.
*
* @return An array of parameter class names
*/
private Class[] _getParameters(String signature) throws FacesException
{
ArrayList<Class> params = new ArrayList<Class>();
// Signature is of the form
// <return-type> S <method-name S? '('
// < <arg-type> ( ',' <arg-type> )* )? ')'
int start = signature.indexOf('(') + 1;
boolean lastArg = false;
while (true)
{
int p = signature.indexOf(',', start);
if (p < 0)
{
p = signature.indexOf(')', start);
if (p < 0)
{
throw new FacesException("Invalid method signature:"+signature);
}
lastArg = true;
}
String arg = signature.substring(start, p).trim();
if (!"".equals(arg))
{
try
{
params.add(_javaTypeToClass(arg));
}
catch(ClassNotFoundException e)
{
throw new FacesException("Invalid method signature:"+signature);
}
}
if (lastArg)
{
break;
}
start = p + 1;
}
return params.toArray(new Class[params.size()]);
}
/**
* {@inheritDoc}
*/
@Override
public Resource getScriptComponentResource(FacesContext context, Resource componentResource)
{
// TODO Auto-generated method stub
return null;
}
/**
* {@inheritDoc}
*/
@Override
public StateManagementStrategy getStateManagementStrategy(FacesContext context, String viewId)
{
// Use partial state saving strategy only if javax.faces.PARTIAL_STATE_SAVING is "true" and
// the current view is not on javax.faces.FULL_STATE_SAVING_VIEW_IDS.
if (_partialStateSaving && _stateMgmtStrategy == null)
{
_stateMgmtStrategy = new DefaultFaceletsStateManagementStrategy();
}
return _usePartialStateSavingOnThisView(viewId) ? _stateMgmtStrategy : null;
}
/**
* {@inheritDoc}
*/
@Override
public ViewMetadata getViewMetadata(FacesContext context, String viewId)
{
return new FaceletViewMetadata(viewId);
}
/**
* {@inheritDoc}
*/
@Override
public void renderView(FacesContext context, UIViewRoot view) throws IOException
{
if (!view.isRendered())
{
return;
}
// log request
if (log.isLoggable(Level.FINE))
{
log.fine("Rendering View: " + view.getViewId());
}
try
{
// build view - but not if we're in "buildBeforeRestore"
// land and we've already got a populated view. Note
// that this optimizations breaks if there's a "c:if" in
// the page that toggles as a result of request processing -
// should that be handled? Or
// is this optimization simply so minor that it should just
// be trimmed altogether?
// See JSF 2.0 spec section 2.2.6, buildView is called before
// Render Response
//if (!isFilledView(context, view))
//{
// buildView(context, view);
//}
// setup writer and assign it to the context
ResponseWriter origWriter = createResponseWriter(context);
ExternalContext extContext = context.getExternalContext();
Writer outputWriter = extContext.getResponseOutputWriter();
StateWriter stateWriter = new StateWriter(outputWriter, 1024);
try
{
ResponseWriter writer = origWriter.cloneWithWriter(stateWriter);
try
{
context.setResponseWriter(writer);
StateManager stateMgr = context.getApplication().getStateManager();
// force creation of session if saving state there
// -= Leonardo Uribe =- Do this does not have any sense!. The only reference
// about these lines are on http://java.net/projects/facelets/sources/svn/revision/376
// and it says: "fixed lazy session instantiation with eager response commit"
// This code is obviously to prevent this exception:
// java.lang.IllegalStateException: Cannot create a session after the response has been committed
// But in theory if that so, StateManager.saveState must happen before writer.close() is called,
// which can be done very easily.
//if (!stateMgr.isSavingStateInClient(context))
//{
// extContext.getSession(true);
//}
// render the view to the response
writer.startDocument();
view.encodeAll(context);
writer.endDocument();
// finish writing
// -= Leonardo Uribe =- This does not has sense too, because that's the reason
// of the try/finally block. In practice, it only forces the close of the tag
// in HtmlResponseWriter if necessary, but according to the spec, this should
// be done using writer.flush() instead.
// writer.close();
// flush to origWriter
if (stateWriter.isStateWritten())
{
// Call this method to force close the tag if necessary.
// The spec javadoc says this:
// "... Flush any ouput buffered by the output method to the underlying
// Writer or OutputStream. This method will not flush the underlying
// Writer or OutputStream; it simply clears any values buffered by this
// ResponseWriter. ..."
writer.flush();
// =-= markoc: STATE_KEY is in output ONLY if
// stateManager.isSavingStateInClient(context)is true - see
// org.apache.myfaces.application.ViewHandlerImpl.writeState(FacesContext)
// TODO this class and ViewHandlerImpl contain same constant <!--@@JSF_FORM_STATE_MARKER@@-->
Object stateObj = stateMgr.saveView(context);
String content = stateWriter.getAndResetBuffer();
int end = content.indexOf(STATE_KEY);
// See if we can find any trace of the saved state.
// If so, we need to perform token replacement
if (end >= 0)
{
// save state
String stateStr;
if (stateObj == null)
{
stateStr = null;
}
else
{
stateMgr.writeState(context, stateObj);
stateStr = stateWriter.getAndResetBuffer();
}
int start = 0;
while (end != -1)
{
origWriter.write(content, start, end - start);
if (stateStr != null)
{
origWriter.write(stateStr);
}
start = end + STATE_KEY_LEN;
end = content.indexOf(STATE_KEY, start);
}
origWriter.write(content, start, content.length() - start);
// No trace of any saved state, so we just need to flush
// the buffer
}
else
{
origWriter.write(content);
}
}
else if (stateWriter.isStateWrittenWithoutWrapper())
{
// The state token has been written but the state has not been
// saved yet.
stateMgr.saveView(context);
}
}
finally
{
// The Facelets implementation must close the writer used to write the response
writer.close();
}
}
finally
{
stateWriter.release();
}
}
catch (FileNotFoundException fnfe)
{
handleFaceletNotFound(context, view.getViewId());
}
catch (Exception e)
{
handleRenderException(context, e);
}
}
/**
* {@inheritDoc}
*/
@Override
public UIViewRoot createView(FacesContext context, String viewId)
{
// we have to check for a possible debug request
if (UIDebug.debugRequest(context))
{
// the current request is a debug request, so we don't need
// to create a view, since the output has already been written
// in UIDebug.debugRequest() and facesContext.responseComplete()
// has been called.
return null;
}
else
{
return super.createView(context, viewId);
}
}
/**
* {@inheritDoc}
*/
@Override
public UIViewRoot restoreView(FacesContext context, String viewId)
{
// Currently there is no way, in which UIDebug.debugRequest(context)
// can create debug information and return true at this point,
// because this method is only accessed if the current request
// is a postback, which will never be true for a debug page.
// The only point where valid debug output can be produced by now
// is in createView() -= Jakob Korherr =-
//if (UIDebug.debugRequest(context))
//{
// return new UIViewRoot();
//}
//else if (!_buildBeforeRestore)
//{
return super.restoreView(context, viewId);
//}
//else
//{
// TODO: VALIDATE - Is _buildBeforeRestore relevant at all for 2.0? -= SL =-
// ANS: buildBeforeRestore evolved to partial state saving, so this logic
// is now on StateManagerStrategy implementation -= Leo U =-
/*
UIViewRoot viewRoot = createView(context, viewId);
context.setViewRoot(viewRoot);
try
{
buildView(context, viewRoot);
}
catch (IOException ioe)
{
log.severe("Error Building View", ioe);
}
Application application = context.getApplication();
ViewHandler applicationViewHandler = application.getViewHandler();
String renderKitId = applicationViewHandler.calculateRenderKitId(context);
application.getStateManager().restoreView(context, viewId, renderKitId);
return viewRoot;
}
*/
}
/**
* {@inheritDoc}
*/
@Override
protected String calculateViewId(FacesContext context, String viewId)
{
if (_cachedViewHandlerSupport == null)
{
_cachedViewHandlerSupport = new DefaultViewHandlerSupport();
}
return _cachedViewHandlerSupport.calculateViewId(context, viewId);
}
/**
* Creates the Facelet page compiler.
*
* @param context
* the current FacesContext
*
* @return the application's Facelet page compiler
*/
protected Compiler createCompiler(FacesContext context)
{
Compiler compiler = new SAXCompiler();
compiler.setDevelopmentProjectStage(context.isProjectStage(ProjectStage.Development));
loadLibraries(context, compiler);
loadDecorators(context, compiler);
loadOptions(context, compiler);
return compiler;
}
/**
* Creates a FaceletFactory instance using the specified compiler.
*
* @param context
* the current FacesContext
* @param compiler
* the compiler to be used by the factory
*
* @return the factory used by this VDL to load pages
*/
protected FaceletFactory createFaceletFactory(FacesContext context, Compiler compiler)
{
ExternalContext eContext = context.getExternalContext();
// refresh period
long refreshPeriod;
if(context.isProjectStage(ProjectStage.Production))
refreshPeriod = WebConfigParamUtils.getLongInitParameter(eContext, PARAMS_REFRESH_PERIOD, DEFAULT_REFRESH_PERIOD_PRODUCTION);
else
refreshPeriod = WebConfigParamUtils.getLongInitParameter(eContext, PARAMS_REFRESH_PERIOD, DEFAULT_REFRESH_PERIOD);
// resource resolver
ResourceResolver resolver = new DefaultResourceResolver();
String faceletsResourceResolverClassName = WebConfigParamUtils.getStringInitParameter(eContext, PARAMS_RESOURCE_RESOLVER, null);
if (faceletsResourceResolverClassName != null)
{
ArrayList<String> classNames = new ArrayList<String>(1);
classNames.add(faceletsResourceResolverClassName);
resolver = ClassUtils.buildApplicationObject(ResourceResolver.class, classNames, resolver);
}
return new DefaultFaceletFactory(compiler, resolver, refreshPeriod);
}
protected ResponseWriter createResponseWriter(FacesContext context) throws IOException, FacesException
{
ExternalContext extContext = context.getExternalContext();
RenderKit renderKit = context.getRenderKit();
// Avoid a cryptic NullPointerException when the renderkit ID
// is incorrectly set
if (renderKit == null)
{
String id = context.getViewRoot().getRenderKitId();
throw new IllegalStateException("No render kit was available for id \"" + id + "\"");
}
// set the buffer for content
if (_bufferSize != -1)
{
extContext.setResponseBufferSize(_bufferSize);
}
// get our content type
String contentType = (String) extContext.getRequestMap().get("facelets.ContentType");
// get the encoding
String encoding = (String) extContext.getRequestMap().get("facelets.Encoding");
// -= Leonardo Uribe =- Add */* to the contentType is a fix done from FaceletViewHandler
// to make old RI versions work, but since this is for JSF 2.0 it is not necessary that code.
ResponseWriter writer = renderKit.createResponseWriter(NullWriter.Instance, contentType, encoding);
//ResponseWriter writer;
// append */* to the contentType so createResponseWriter will succeed no matter
// the requested contentType.
//if (contentType != null && !contentType.equals("*/*"))
//{
// contentType += ",*/*";
//}
// Create a dummy ResponseWriter with a bogus writer,
// so we can figure out what content type the ReponseWriter
// is really going to ask for
//try
//{
// writer = renderKit.createResponseWriter(NullWriter.Instance, contentType, encoding);
//}
// catch (IllegalArgumentException e)
//{
// Added because of an RI bug prior to 1.2_05-b3. Might as well leave it in case other
// impls have the same problem. https://javaserverfaces.dev.java.net/issues/show_bug.cgi?id=613
//log.finest("The impl didn't correctly handled '*/*' in the content type list. Trying '*/*' directly.");
//writer = renderKit.createResponseWriter(NullWriter.Instance, "*/*", encoding);
//}
// Override the JSF provided content type if necessary
contentType = getResponseContentType(context, writer.getContentType());
encoding = getResponseEncoding(context, writer.getCharacterEncoding());
// apply them to the response
extContext.setResponseContentType(contentType + "; charset=" + encoding);
// removed 2005.8.23 to comply with J2EE 1.3
// response.setCharacterEncoding(encoding);
// Now, clone with the real writer
writer = writer.cloneWithWriter(extContext.getResponseOutputWriter());
return writer;
}
/**
* @deprecated this code is not used anymore
*/
@Deprecated
protected String getDefaultSuffix(FacesContext context) throws FacesException
{
if (_defaultSuffix == null)
{
ExternalContext eContext = context.getExternalContext();
String viewSuffix = eContext.getInitParameter(ViewHandler.DEFAULT_SUFFIX_PARAM_NAME);
_defaultSuffix = viewSuffix == null ? ViewHandler.DEFAULT_FACELETS_SUFFIX : viewSuffix;
}
return _defaultSuffix;
}
/**
* @deprecated
*/
@Deprecated
protected String getRenderedViewId(FacesContext context, String actionId)
{
return actionId;
}
/**
* Generate the content type
*
* @param context
* @param orig
* @return
*/
protected String getResponseContentType(FacesContext context, String orig)
{
String contentType = orig;
// see if we need to override the contentType
Map<String, Object> m = context.getExternalContext().getRequestMap();
if (m.containsKey("facelets.ContentType"))
{
contentType = (String) m.get("facelets.ContentType");
if (log.isLoggable(Level.FINEST))
{
log.finest("Facelet specified alternate contentType '" + contentType + "'");
}
}
// safety check
if (contentType == null)
{
contentType = "text/html";
log.finest("ResponseWriter created had a null ContentType, defaulting to text/html");
}
return contentType;
}
/**
* Generate the encoding
*
* @param context
* @param orig
* @return
*/
protected String getResponseEncoding(FacesContext context, String orig)
{
String encoding = orig;
// see if we need to override the encoding
Map<String, Object> m = context.getExternalContext().getRequestMap();
Map<String, Object> sm = context.getExternalContext().getSessionMap();
// 1. check the request attribute
if (m.containsKey(PARAM_ENCODING))
{
encoding = (String) m.get(PARAM_ENCODING);
if (encoding != null && log.isLoggable(Level.FINEST))
{
log.finest("Facelet specified alternate encoding '" + encoding + "'");
}
sm.put(CHARACTER_ENCODING_KEY, encoding);
}
// 2. get it from request
Object request = context.getExternalContext().getRequest();
if (encoding == null)
{
encoding = context.getExternalContext().getRequestCharacterEncoding();
}
// 3. get it from the session
if (encoding == null)
{
encoding = (String) sm.get(CHARACTER_ENCODING_KEY);
if (encoding != null && log.isLoggable(Level.FINEST))
{
log.finest("Session specified alternate encoding '" + encoding + "'");
}
}
// 4. default it
if (encoding == null)
{
encoding = DEFAULT_CHARACTER_ENCODING;
if (log.isLoggable(Level.FINEST))
{
log.finest("ResponseWriter created had a null CharacterEncoding, defaulting to " + encoding);
}
}
return encoding;
}
protected void handleFaceletNotFound(FacesContext context, String viewId) throws FacesException, IOException
{
String actualId = context.getApplication().getViewHandler().getActionURL(context, viewId);
context.getExternalContext().responseSendError(HttpServletResponse.SC_NOT_FOUND, actualId);
context.responseComplete();
}
protected void handleRenderException(FacesContext context, Exception e)
throws IOException, ELException, FacesException
{
/*
UIViewRoot root = context.getViewRoot();
StringBuffer sb = new StringBuffer(64);
sb.append("Error Rendering View");
if (root != null)
{
sb.append('[');
sb.append(root.getViewId());
sb.append(']');
}
log.log(Level.SEVERE, sb.toString(), e);
*/
// rethrow the Exception to be handled by the ExceptionHandler
if (e instanceof RuntimeException)
{
throw (RuntimeException) e;
}
else if (e instanceof IOException)
{
throw (IOException) e;
}
else
{
throw new FacesException(e.getMessage(), e);
}
}
/**
* Initialize the ViewHandler during its first request.
*/
protected void initialize(FacesContext context)
{
log.finest("Initializing");
Compiler compiler = createCompiler(context);
_faceletFactory = createFaceletFactory(context, compiler);
ExternalContext eContext = context.getExternalContext();
_initializeBuffer(eContext);
_initializeMode(eContext);
log.finest("Initialization Successful");
}
/**
* Load the various decorators for Facelets.
*
* @param context
* the current FacesContext
* @param compiler
* the page compiler
*/
protected void loadDecorators(FacesContext context, Compiler compiler)
{
String param = WebConfigParamUtils.getStringInitParameter(context.getExternalContext(), PARAMS_DECORATORS);
if (param != null)
{
for (String decorator : param.split(";"))
{
try
{
compiler.addTagDecorator((TagDecorator) ReflectionUtil.forName(decorator).newInstance());
if (log.isLoggable(Level.FINE))
{
log.fine("Successfully loaded decorator: " + decorator);
}
}
catch (Exception e)
{
log.log(Level.SEVERE, "Error Loading decorator: " + decorator, e);
}
}
}
}
/**
* Load the various tag libraries for Facelets.
*
* @param context
* the current FacesContext
* @param compiler
* the page compiler
*/
protected void loadLibraries(FacesContext context, Compiler compiler)
{
ExternalContext eContext = context.getExternalContext();
compiler.addTagLibrary(new CoreLibrary());
compiler.addTagLibrary(new HtmlLibrary());
compiler.addTagLibrary(new UILibrary());
compiler.addTagLibrary(new JstlCoreLibrary());
compiler.addTagLibrary(new JstlFnLibrary());
compiler.addTagLibrary(new CompositeLibrary());
compiler.addTagLibrary(new CompositeResourceLibrary());
String param = WebConfigParamUtils.getStringInitParameter(eContext, PARAMS_LIBRARIES);
if (param != null)
{
for (String library : param.split(";"))
{
try
{
URL src = eContext.getResource(library.trim());
if (src == null)
{
throw new FileNotFoundException(library);
}
TagLibrary tl = TagLibraryConfig.create(src);
if (tl != null)
{
compiler.addTagLibrary(tl);
}
if (log.isLoggable(Level.FINE))
{
log.fine("Successfully loaded library: " + library);
}
}
catch (IOException e)
{
log.log(Level.SEVERE, "Error Loading library: " + library, e);
}
}
}
}
/**
* Load the various options for Facelets compiler. Currently only comment skipping is supported.
*
* @param context
* the current FacesContext
* @param compiler
* the page compiler
*/
protected void loadOptions(FacesContext context, Compiler compiler)
{
ExternalContext eContext = context.getExternalContext();
// skip comments?
compiler.setTrimmingComments(WebConfigParamUtils.getBooleanInitParameter(eContext, PARAMS_SKIP_COMMENTS, false));
}
/**
* {@inheritDoc}
*/
@Override
protected void sendSourceNotFound(FacesContext context, String message)
{
try
{
context.responseComplete();
context.getExternalContext().responseSendError(HttpServletResponse.SC_NOT_FOUND, message);
}
catch (IOException ioe)
{
throw new FacesException(ioe);
}
}
/**
* Gets the Facelet representing the specified view identifier.
*
* @param viewId
* the view identifier
*
* @return the Facelet representing the specified view identifier
*
* @throws IOException
* if a read or parsing error occurs
*/
private Facelet _getFacelet(String viewId) throws IOException
{
// grab our FaceletFactory and create a Facelet
FaceletFactory.setInstance(_faceletFactory);
try
{
return _faceletFactory.getFacelet(viewId);
}
finally
{
FaceletFactory.setInstance(null);
}
}
private Facelet _getViewMetadataFacelet(String viewId) throws IOException
{
// grab our FaceletFactory and create a Facelet used to create view metadata
FaceletFactory.setInstance(_faceletFactory);
try
{
return _faceletFactory.getViewMetadataFacelet(viewId);
}
finally
{
FaceletFactory.setInstance(null);
}
}
private void _initializeBuffer(ExternalContext context)
{
_bufferSize = WebConfigParamUtils.getIntegerInitParameter(context, PARAMS_BUFFER_SIZE, -1);
}
private void _initializeMode(ExternalContext context)
{
String facesVersion = RuntimeConfig.getCurrentInstance(context).getFacesVersion();
boolean partialStateSavingDefault;
// Per spec section 11.1.3, the default value for the partial state saving feature needs
// to be true if 2.0, false otherwise.
partialStateSavingDefault = "2.0".equals(facesVersion);
// In jsf 2.0 this code evolve as PartialStateSaving feature
//_buildBeforeRestore = _getBooleanParameter(context, PARAM_BUILD_BEFORE_RESTORE, false);
_partialStateSaving = WebConfigParamUtils.getBooleanInitParameter(context,
StateManager.PARTIAL_STATE_SAVING_PARAM_NAME, partialStateSavingDefault);
String [] viewIds = StringUtils.splitShortString(WebConfigParamUtils.getStringInitParameter(context,
StateManager.FULL_STATE_SAVING_VIEW_IDS_PARAM_NAME), ',');
if (viewIds.length > 0)
{
_viewIds = new HashSet<String>(viewIds.length, 1.0f);
Collections.addAll(_viewIds, viewIds);
}
else
{
_viewIds = null;
}
if (_partialStateSaving)
{
_refreshTransientBuildOnPSS = MyfacesConfig.getCurrentInstance(context).isRefreshTransientBuildOnPSS();
_refreshTransientBuildOnPSSAuto = MyfacesConfig.getCurrentInstance(context).isRefreshTransientBuildOnPSSAuto();
}
}
private boolean _usePartialStateSavingOnThisView(String viewId)
{
return _partialStateSaving && !(_viewIds != null && _viewIds.contains(viewId) );
}
private class FaceletViewMetadata extends ViewMetadataBase
{
/**
* Constructor
*
* Note that this viewId is not the one after calculateViewId() method
*/
public FaceletViewMetadata(String viewId)
{
super(viewId);
}
/**
* {@inheritDoc}
*/
@Override
public UIViewRoot createMetadataView(FacesContext context)
{
try
{
context.setProcessingEvents(false);
// spec doesn't say that this is necessary, but we blow up later if
// the viewroot isn't available from the FacesContext.
// -= Leonardo Uribe =- since it is supposed when we apply view metadata
// facelet we don't apply components with renderers and we don't call getRenderKit()
// it is safe to let this one commented
// context.setViewRoot(view);
// -= Leonardo Uribe =- This part is related to section 2.5.5 of jsf 2.0 spec.
// In theory what we need here is fill UIViewRoot.METADATA_FACET_NAME facet
// with UIViewParameter instances. Later, ViewHandlerImpl.getBookmarkableURL(),
// ViewHandlerImpl.getRedirectURL() and UIViewRoot.encodeEnd uses them.
// For now, the only way to do this is call buildView(context,view) method, but
// this is a waste of resources. We need to find another way to handle facelets view metadata.
// Call to buildView causes the view is not created on Render Response phase,
// if buildView is called from here all components pass through current lifecycle and only
// UIViewParameter instances should be taken into account.
// It should be an additional call to buildView on Render Response phase.
// buildView(context, view);
context.getAttributes().put(BUILDING_VIEW_METADATA, Boolean.TRUE);
// we have to invoke createView() on the application's ViewHandler
// here instead of invoking it directly in FaceletVDL, because
// the ViewHandler might be wrapped and wants to do some work
// in createView() (e.g. in Trinidad - see MYFACES-2641)
UIViewRoot view = context.getApplication().getViewHandler().createView(context, getViewId());
if (view != null)
{
// inside createView(context,viewId), calculateViewId() is called and
// the result is stored inside created UIViewRoot, so we can safely take the derived
// viewId from there.
Facelet facelet = _getViewMetadataFacelet(view.getViewId());
facelet.apply(context, view);
}
return view;
}
catch (IOException ioe)
{
throw new FacesException(ioe);
}
finally
{
context.getAttributes().remove(BUILDING_VIEW_METADATA);
context.setProcessingEvents(true);
}
}
}
}