/*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER.
*
* Copyright (c) 1997-2012 Oracle and/or its affiliates. All rights reserved.
*
* The contents of this file are subject to the terms of either the GNU
* General Public License Version 2 only ("GPL") or the Common Development
* and Distribution License("CDDL") (collectively, the "License"). You
* may not use this file except in compliance with the License. You can
* obtain a copy of the License at
* https://glassfish.dev.java.net/public/CDDL+GPL_1_1.html
* or packager/legal/LICENSE.txt. See the License for the specific
* language governing permissions and limitations under the License.
*
* When distributing the software, include this License Header Notice in each
* file and include the License file at packager/legal/LICENSE.txt.
*
* GPL Classpath Exception:
* Oracle designates this particular file as subject to the "Classpath"
* exception as provided by Oracle in the GPL Version 2 section of the License
* file that accompanied this code.
*
* Modifications:
* If applicable, add the following below the License Header, with the fields
* enclosed by brackets [] replaced by your own identifying information:
* "Portions Copyright [year] [name of copyright owner]"
*
* Contributor(s):
* If you wish your version of this file to be governed by only the CDDL or
* only the GPL Version 2, indicate your decision by adding "[Contributor]
* elects to include this software in this distribution under the [CDDL or GPL
* Version 2] license." If you don't indicate a single choice of license, a
* recipient has the option to distribute your version of this file under
* either the CDDL, the GPL Version 2 or to extend the choice of license to
* its licensees as provided above. However, if you add GPL Version 2 code
* and therefore, elected the GPL Version 2 license, then the option applies
* only if the new code is made subject to such option by the copyright
* holder.
*/
package com.sun.faces.application.view;
import com.sun.faces.application.ApplicationAssociate;
import com.sun.faces.context.StateContext;
import com.sun.faces.facelets.Facelet;
import com.sun.faces.facelets.FaceletFactory;
import com.sun.faces.facelets.el.ContextualCompositeMethodExpression;
import com.sun.faces.facelets.el.VariableMapperWrapper;
import com.sun.faces.facelets.impl.DefaultFaceletFactory;
import com.sun.faces.facelets.tag.composite.CompositeComponentBeanInfo;
import com.sun.faces.facelets.tag.jsf.CompositeComponentTagHandler;
import com.sun.faces.facelets.tag.ui.UIDebug;
import com.sun.faces.scripting.groovy.GroovyHelper;
import com.sun.faces.util.Cache.Factory;
import com.sun.faces.util.Cache;
import com.sun.faces.util.FacesLogger;
import com.sun.faces.util.HtmlUtils;
import com.sun.faces.util.RequestStateManager;
import com.sun.faces.util.Util;
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.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;
import javax.el.ExpressionFactory;
import javax.el.MethodExpression;
import javax.el.ValueExpression;
import javax.el.VariableMapper;
import javax.faces.FacesException;
import javax.faces.FactoryFinder;
import javax.faces.application.Resource;
import javax.faces.application.ResourceHandler;
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.UIPanel;
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.MethodExpressionActionListener;
import javax.faces.event.MethodExpressionValueChangeListener;
import javax.faces.event.PostAddToViewEvent;
import javax.faces.event.ValueChangeEvent;
import javax.faces.render.RenderKit;
import javax.faces.validator.MethodExpressionValidator;
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.ViewDeclarationLanguage;
import javax.faces.view.ViewDeclarationLanguageFactory;
import javax.faces.view.ViewMetadata;
import javax.faces.view.facelets.FaceletContext;
import javax.servlet.http.HttpServletResponse;
import javax.servlet.http.HttpSession;
import static com.sun.faces.config.WebConfiguration.WebContextInitParameter.FaceletsBufferSize;
import static com.sun.faces.config.WebConfiguration.WebContextInitParameter.FaceletsViewMappings;
import static com.sun.faces.config.WebConfiguration.WebContextInitParameter.StateSavingMethod;
import com.sun.faces.util.ComponentStruct;
import static javax.faces.application.StateManager.IS_BUILDING_INITIAL_STATE;
import javax.faces.component.ContextCallback;
import javax.faces.component.visit.VisitCallback;
import javax.faces.component.visit.VisitContext;
import javax.faces.component.visit.VisitResult;
import static com.sun.faces.RIConstants.DYNAMIC_COMPONENT;
import javax.faces.application.ProjectStage;
/**
* This {@link ViewHandlingStrategy} handles Facelets/PDL-based views.
*/
public class FaceletViewHandlingStrategy extends ViewHandlingStrategy {
private static final Logger LOGGER = FacesLogger.APPLICATION.getLogger();
private ViewDeclarationLanguageFactory vdlFactory;
// FaceletFactory singleton for this application
private FaceletFactory faceletFactory;
// Array of viewId extensions that should be handled by Facelets
private String[] extensionsArray;
// Array of viewId prefixes that should be handled by Facelets
private String[] prefixesArray;
public static final String IS_BUILDING_METADATA =
FaceletViewHandlingStrategy.class.getName() + ".IS_BUILDING_METADATA";
private MethodRetargetHandlerManager retargetHandlerManager =
new MethodRetargetHandlerManager();
private boolean groovyAvailable;
private int responseBufferSize;
private boolean responseBufferSizeSet;
private Cache<Resource, BeanInfo> metadataCache;
// ------------------------------------------------------------ Constructors
public FaceletViewHandlingStrategy() {
initialize();
}
// ------------------------------------------------------------ Constructors
public static boolean isBuildingMetadata(FacesContext context) {
return context.getAttributes().containsKey(FaceletViewHandlingStrategy.IS_BUILDING_METADATA);
}
// ------------------------------------ Methods from ViewDeclarationLanguage
@Override
public StateManagementStrategy getStateManagementStrategy(FacesContext context, String viewId) {
StateManagementStrategy result;
StateContext stateCtx = StateContext.getStateContext(context);
if (stateCtx.isPartialStateSaving(context, viewId)) {
result = new FaceletPartialStateManagementStrategy(context);
} else {
result = new FaceletFullStateManagementStrategy(context);
}
return result;
}
/*
* Called by Application.createComponent(Resource).
*
* This method creates two temporary UIComponent instances to aid in
* the creation of the compcomp metadata. These instances no longer
* needed after the method returns and can be safely garbage
* collected.
*
* PENDING(): memory analysis should be done to verify there are no
* memory leaks as a result of this implementation.
* The instances are
* 1. tmp: a javax.faces.NamingContainer to serve as the temporary
* top level component
* 2. facetComponent: a javax.faces.Panel to serve as the parent
* UIComponent that is passed to Facelets so that the <cc:interface>
* section can be parsed and understood.
* Per the compcomp spec, tmp has the compcomp Resource stored in
* its attr set under the key Resource.COMPONENT_RESOURCE_KEY. tmp
* has the facetComponent added as its
* UIComponent.COMPOSITE_FACET_NAME facet.
*/
@Override
public BeanInfo getComponentMetadata(FacesContext context,
Resource ccResource) {
FaceletFactory factory = (FaceletFactory)
RequestStateManager.get(context, RequestStateManager.FACELET_FACTORY);
assert(factory instanceof DefaultFaceletFactory);
DefaultFaceletFactory ourFactory = (DefaultFaceletFactory) factory;
if (ourFactory.needsToBeRefreshed(ccResource.getURL())) {
metadataCache.remove(ccResource);
}
return metadataCache.get(ccResource);
}
public BeanInfo createComponentMetadata(FacesContext context,
Resource ccResource) {
// PENDING this implementation is terribly wasteful.
// Must find a better way.
CompositeComponentBeanInfo result;
FaceletContext ctx = (FaceletContext)
context.getAttributes().get(FaceletContext.FACELET_CONTEXT_KEY);
FaceletFactory factory = (FaceletFactory)
RequestStateManager.get(context, RequestStateManager.FACELET_FACTORY);
VariableMapper orig = ctx.getVariableMapper();
// create tmp and facetComponent
UIComponent tmp = context.getApplication().createComponent("javax.faces.NamingContainer");
UIPanel facetComponent = (UIPanel)
context.getApplication().createComponent("javax.faces.Panel");
// PENDING I think this can be skipped because we don't render
// this component instance.
facetComponent.setRendererType("javax.faces.Group");
// PENDING This could possibly be skipped too. However, I think
// this is important because other tag handlers, within
// <cc:interface> expect it will be there.
tmp.getFacets().put(UIComponent.COMPOSITE_FACET_NAME, facetComponent);
// We have to put the resource in here just so the classes that eventually
// get called by facelets have access to it.
tmp.getAttributes().put(Resource.COMPONENT_RESOURCE_KEY,
ccResource);
Facelet f;
try {
f = factory.getFacelet(ccResource.getURL());
VariableMapper wrapper = new VariableMapperWrapper(orig) {
@Override
public ValueExpression resolveVariable(String variable) {
return super.resolveVariable(variable);
}
};
ctx.setVariableMapper(wrapper);
context.getAttributes().put(IS_BUILDING_METADATA, Boolean.TRUE);
// Because mojarra currently requires a <cc:interface>
// element within the compcomp markup, we can rely on the
// fact that its tag handler, InterfaceHandler.apply(), is
// called. In this method, we first imbue facetComponent
// with any config information present on the <cc:interface>
// element.
// Then we do the normal facelet thing:
// this.nextHandler.apply(). This causes any child tag
// handlers of the <cc:interface> to be called. The
// compcomp spec says each such tag handler is responsible
// for adding to the compcomp metadata, referenced from the
// facetComponent parent.
f.apply(context, facetComponent);
// When f.apply() returns (and therefore
// InterfaceHandler.apply() returns), the compcomp metadata
// pointed to by facetComponent is fully populated.
} catch (Exception e) {
if (e instanceof FacesException) {
throw (FacesException) e;
} else {
throw new FacesException(e);
}
}
finally {
context.getAttributes().remove(IS_BUILDING_METADATA);
ctx.setVariableMapper(orig);
}
// we extract the compcomp metadata and return it, making sure
// to discard tmp and facetComponent. The compcomp metadata
// should be cacheable and shareable across threads, but this is
// not yet implemented.
result = (CompositeComponentBeanInfo)
tmp.getAttributes().get(UIComponent.BEANINFO_KEY);
return result;
}
@Override
public ViewMetadata getViewMetadata(FacesContext context, String viewId) {
Util.notNull("context", context);
Util.notNull("viewId", viewId);
return new ViewMetadataImpl(viewId);
}
/**
* @see javax.faces.view.ViewDeclarationLanguage#getScriptComponentResource(javax.faces.context.FacesContext, javax.faces.application.Resource)
*/
public Resource getScriptComponentResource(FacesContext context,
Resource componentResource) {
Util.notNull("context", context);
Util.notNull("componentResource", componentResource);
if (!groovyAvailable) {
return null;
}
Resource result = null;
String resourceName = componentResource.getResourceName();
if (resourceName.endsWith(".xhtml")) {
resourceName = resourceName.substring(0,
resourceName.length() - 6) + ".groovy";
ResourceHandler resourceHandler = context.getApplication().getResourceHandler();
result = resourceHandler.createResource(resourceName,
componentResource.getLibraryName());
}
return result;
}
/**
* @see javax.faces.view.ViewDeclarationLanguage#renderView(javax.faces.context.FacesContext, javax.faces.component.UIViewRoot)
*/
public void renderView(FacesContext ctx,
UIViewRoot viewToRender)
throws IOException {
// suppress rendering if "rendered" property on the component is
// false
if (!viewToRender.isRendered()) {
return;
}
// log request
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.fine("Rendering View: " + viewToRender.getViewId());
}
WriteBehindStateWriter stateWriter = null;
try {
// Only build the view if this view has not yet been built.
if (!Util.isViewPopulated(ctx, viewToRender)) {
ViewDeclarationLanguage vdl = vdlFactory.getViewDeclarationLanguage(viewToRender.getViewId());
vdl.buildView(ctx, viewToRender);
}
// setup writer and assign it to the ctx
ResponseWriter origWriter = ctx.getResponseWriter();
if (origWriter == null) {
origWriter = createResponseWriter(ctx);
}
ExternalContext extContext = ctx.getExternalContext();
/*
* Make sure we have a session here if we are using server state
* saving. The WriteBehindStateWriter needs an active session when
* it writes out state to a server session.
*
* Note if you flag a view as transient then we won't acquire the
* session as you are stating it does not need one.
*/
if (isServerStateSaving() && !viewToRender.isTransient()) {
getSession(ctx);
}
Writer outputWriter = extContext.getResponseOutputWriter();
stateWriter = new WriteBehindStateWriter(outputWriter,
ctx,
responseBufferSize);
ResponseWriter writer = origWriter.cloneWithWriter(stateWriter);
ctx.setResponseWriter(writer);
// Don't call startDoc and endDoc on a partial response
if (ctx.getPartialViewContext().isPartialRequest()) {
viewToRender.encodeAll(ctx);
try {
ctx.getExternalContext().getFlash().doPostPhaseActions(ctx);
} catch (UnsupportedOperationException uoe) {
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.fine("ExternalContext.getFlash() throw UnsupportedOperationException -> Flash unavailable");
}
}
} else {
if (ctx.isProjectStage(ProjectStage.Development)) {
FormOmittedChecker.check(ctx);
}
// render the view to the response
writer.startDocument();
viewToRender.encodeAll(ctx);
try {
ctx.getExternalContext().getFlash().doPostPhaseActions(ctx);
} catch (UnsupportedOperationException uoe) {
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.fine("ExternalContext.getFlash() throw UnsupportedOperationException -> Flash unavailable");
}
}
writer.endDocument();
}
// finish writing
writer.close();
boolean writtenState = stateWriter.stateWritten();
// flush to origWriter
if (writtenState) {
stateWriter.flushToWriter();
}
} catch (FileNotFoundException fnfe) {
this.handleFaceletNotFound(ctx,
viewToRender.getViewId(),
fnfe.getMessage());
} catch (Exception e) {
this.handleRenderException(ctx, e);
} finally {
if (stateWriter != null)
stateWriter.release();
}
}
/**
* Are we saving state server side?
*
* @return true if we are, false otherwise.
*/
private boolean isServerStateSaving() {
boolean result = false;
String stateMode = webConfig.getOptionValue(StateSavingMethod);
if (StateManager.STATE_SAVING_METHOD_SERVER.equals(stateMode)) {
result = true;
}
return result;
}
/**
* Get a session (if we are using server state saving).
*
* @param context the Faces context.
* @return the session, or null if we are not using server state saving.
*/
private HttpSession getSession(FacesContext context) {
HttpSession result = null;
Object sessionObj = context.getExternalContext().getSession(true);
if (sessionObj instanceof HttpSession) {
result = (HttpSession) sessionObj;
}
return result;
}
/**
* <p>
* If {@link UIDebug#debugRequest(javax.faces.context.FacesContext)}} is <code>true</code>,
* simply return a new UIViewRoot(), otherwise, call the default logic.
* </p>
* @see {@link javax.faces.view.ViewDeclarationLanguage#restoreView(javax.faces.context.FacesContext, String)}
*/
@Override
public UIViewRoot restoreView(FacesContext context,
String viewId) {
Util.notNull("context", context);
Util.notNull("viewId", viewId);
if (UIDebug.debugRequest(context)) {
context.getApplication().createComponent(UIViewRoot.COMPONENT_TYPE);
}
UIViewRoot viewRoot;
if (StateContext.getStateContext(context).isPartialStateSaving(context, viewId)) {
try {
context.setProcessingEvents(false);
ViewDeclarationLanguage vdl = vdlFactory.getViewDeclarationLanguage(viewId);
viewRoot = vdl.getViewMetadata(context, viewId).createMetadataView(context);
context.setViewRoot(viewRoot);
context.setProcessingEvents(true);
vdl.buildView(context, viewRoot);
} catch (IOException ioe) {
throw new FacesException(ioe);
}
}
UIViewRoot root = super.restoreView(context, viewId);
StateContext stateCtx = StateContext.getStateContext(context);
stateCtx.startTrackViewModifications(context, root);
return root;
}
/**
* @see ViewHandlingStrategy#retargetAttachedObjects(javax.faces.context.FacesContext, javax.faces.component.UIComponent, java.util.List)
*/
@SuppressWarnings({"unchecked"})
@Override
public void retargetAttachedObjects(FacesContext context,
UIComponent topLevelComponent,
List<AttachedObjectHandler> handlers) {
Util.notNull("context", context);
Util.notNull("topLevelComponent", topLevelComponent);
Util.notNull("handlers", handlers);
//List<AttachedObjectHandler> handlers =
// getAttachedObjectHandlers(topLevelComponent, false);
if (handlers == null || handlers.isEmpty()) {
return;
}
BeanInfo componentBeanInfo = (BeanInfo)
topLevelComponent.getAttributes().get(UIComponent.BEANINFO_KEY);
// PENDING(edburns): log error message if componentBeanInfo is null;
if (null == componentBeanInfo) {
return;
}
BeanDescriptor componentDescriptor = componentBeanInfo.getBeanDescriptor();
// There is an entry in targetList for each attached object in the
// <composite:interface> section of the composite component.
List<AttachedObjectTarget> targetList = (List<AttachedObjectTarget>)
componentDescriptor.getValue(AttachedObjectTarget.ATTACHED_OBJECT_TARGETS_KEY);
// Each entry in targetList will vend one or more UIComponent instances
// that is to serve as the target of an attached object in the consuming
// page.
List<UIComponent> targetComponents;
String forAttributeValue, curTargetName;
// For each of the attached object handlers...
for (AttachedObjectHandler curHandler : handlers) {
// Get the name given to this attached object by the page author
// in the consuming page.
forAttributeValue = curHandler.getFor();
// For each of the attached objects in the <composite:interface> section
// of this composite component...
for (AttachedObjectTarget curTarget : targetList) {
// Get the name given to this attached object target by the
// composite component author
curTargetName = curTarget.getName();
targetComponents = curTarget.getTargets(topLevelComponent);
if (curHandler instanceof ActionSource2AttachedObjectHandler &&
curTarget instanceof ActionSource2AttachedObjectTarget) {
if (forAttributeValue.equals(curTargetName)) {
for (UIComponent curTargetComponent : targetComponents) {
retargetHandler(context, curHandler, curTargetComponent);
}
break;
}
}
else if (curHandler instanceof EditableValueHolderAttachedObjectHandler &&
curTarget instanceof EditableValueHolderAttachedObjectTarget) {
if (forAttributeValue.equals(curTargetName)) {
for (UIComponent curTargetComponent : targetComponents) {
retargetHandler(context, curHandler, curTargetComponent);
}
break;
}
}
else if (curHandler instanceof ValueHolderAttachedObjectHandler &&
curTarget instanceof ValueHolderAttachedObjectTarget) {
if (forAttributeValue.equals(curTargetName)) {
for (UIComponent curTargetComponent : targetComponents) {
retargetHandler(context, curHandler, curTargetComponent);
}
break;
}
} else if(curHandler instanceof BehaviorHolderAttachedObjectHandler &&
curTarget instanceof BehaviorHolderAttachedObjectTarget) {
BehaviorHolderAttachedObjectHandler behaviorHandler = (BehaviorHolderAttachedObjectHandler) curHandler;
BehaviorHolderAttachedObjectTarget behaviorTarget = (BehaviorHolderAttachedObjectTarget) curTarget;
String eventName = behaviorHandler.getEventName();
if((null !=eventName && eventName.equals(curTargetName))||(null ==eventName && behaviorTarget.isDefaultEvent())){
for (UIComponent curTargetComponent : targetComponents) {
retargetHandler(context, curHandler, curTargetComponent);
}
}
}
}
}
}
/**
* @see ViewHandlingStrategy#retargetMethodExpressions(javax.faces.context.FacesContext, javax.faces.component.UIComponent)
*/
@Override
public void retargetMethodExpressions(FacesContext context,
UIComponent topLevelComponent) {
Util.notNull("context", context);
Util.notNull("topLevelComponent", topLevelComponent);
BeanInfo componentBeanInfo = (BeanInfo)
topLevelComponent.getAttributes().get(UIComponent.BEANINFO_KEY);
// PENDING(edburns): log error message if componentBeanInfo is null;
if (null == componentBeanInfo) {
return;
}
PropertyDescriptor attributes[] = componentBeanInfo.getPropertyDescriptors();
MethodMetadataIterator allMetadata = new MethodMetadataIterator(context, attributes);
for (CompCompInterfaceMethodMetadata metadata : allMetadata) {
String attrName = metadata.getName();
String[] targets = metadata.getTargets(context);
Object attrValue = topLevelComponent.getValueExpression(attrName);
// In all cases but one, the attrValue will be a ValueExpression.
// The only case when it will not be a ValueExpression is
// the case when the attrName is an action, and even then, it'll be a
// ValueExpression in all cases except when it's a literal string.
if (null == attrValue) {
Map<String, Object> attrs = topLevelComponent.getAttributes();
attrValue = (attrs.containsKey(attrName)) ?
attrs.get(attrName) : metadata.getDefault();
if (attrValue == null) {
if (metadata.isRequired(context)) {
Object location = attrs.get(UIComponent.VIEW_LOCATION_KEY);
if (location == null) {
location = "";
}
throw new FacesException(
// RELEASE_PENDING need a better message
location.toString()
+ ": Unable to find attribute with name \""
+ attrName
+ "\" in top level component in consuming page, "
+ " or with default value in composite component. "
+ "Page author or composite component author error.");
} else {
continue;
}
}
}
String targetAttributeName = metadata.getTargetAttributeName(context);
UIComponent targetComp = null;
if (null != targetAttributeName) {
attrName = targetAttributeName;
}
if (targets != null) {
MethodRetargetHandler handler = retargetHandlerManager.getRetargetHandler(attrName);
if (handler != null) {
for (String curTarget : targets) {
targetComp = topLevelComponent.findComponent(curTarget);
if (null == targetComp) {
throw new FacesException(attrValue.toString()
+ " : Unable to re-target MethodExpression as inner component referenced by target id '"
+ curTarget
+ "' cannot be found.");
}
handler.retarget(context,
metadata,
attrValue,
targetComp);
}
} else {
// the developer has specified a target for a MethodExpression
// but the attribute name doesn't match one action, actionListener,
// validator, or valueChangeListener. We can ignore the
// target(s) in this case
if (LOGGER.isLoggable(Level.WARNING)) {
LOGGER.log(Level.WARNING,
"jsf.compcomp.unecessary.targets.attribute",
new Object[] { getCompositeComponentName(topLevelComponent),
attrName });
}
handler = retargetHandlerManager.getDefaultHandler();
handler.retarget(context, metadata, attrValue, topLevelComponent);
}
} else {
MethodRetargetHandler handler = null;
if (null != targetAttributeName) {
targetComp = topLevelComponent.findComponent(metadata.getName());
handler = retargetHandlerManager.getRetargetHandler(attrName);
}
if (null == handler) {
targetComp = topLevelComponent;
handler = retargetHandlerManager.getDefaultHandler();
}
handler.retarget(context, metadata, attrValue, targetComp);
}
// clear out the ValueExpression that we've retargeted as a
// MethodExpression
topLevelComponent.setValueExpression(attrName, null);
}
}
/**
* @see javax.faces.view.ViewDeclarationLanguage#createView(javax.faces.context.FacesContext, String)
* @return
*/
@Override
public UIViewRoot createView(FacesContext ctx,
String viewId) {
Util.notNull("context", ctx);
Util.notNull("viewId", viewId);
if (UIDebug.debugRequest(ctx)) {
UIViewRoot root = (UIViewRoot)
ctx.getApplication().createComponent(UIViewRoot.COMPONENT_TYPE);
root.setViewId(viewId);
return root;
}
return super.createView(ctx, viewId);
}
// --------------------------------------- Methods from ViewHandlingStrategy
/**
* @param viewId the view ID to check
* @return <code>true</code> if assuming a default configuration and the
* view ID's extension is <code>.xhtml</code> Otherwise try to match
* the view ID based on the configured extendsion and prefixes.
*
* @see com.sun.faces.config.WebConfiguration.WebContextInitParameter#FaceletsViewMappings
*/
@Override
public boolean handlesViewId(String viewId) {
if (viewId != null) {
// If there's no extensions array or prefixes array, then
// assume defaults. .xhtml extension is handled by
// the FaceletViewHandler and .jsp will be handled by
// the JSP view handler
if ((extensionsArray == null) && (prefixesArray == null)) {
return (viewId.endsWith(ViewHandler.DEFAULT_FACELETS_SUFFIX));
}
if (extensionsArray != null) {
for (String extension : extensionsArray) {
if (viewId.endsWith(extension)) {
return true;
}
}
}
if (prefixesArray != null) {
for (String prefix : prefixesArray) {
if (viewId.startsWith(prefix)) {
return true;
}
}
}
}
return false;
}
/**
* Build the view.
* @param ctx the {@link FacesContext} for the current request
* @param view the {@link UIViewRoot} to populate based
* of the Facelet template
* @throws IOException if an error occurs building the view.
*/
@Override
public void buildView(FacesContext ctx, UIViewRoot view)
throws IOException {
StateContext stateCtx = StateContext.getStateContext(ctx);
if (Util.isViewPopulated(ctx, view)) {
Facelet f = faceletFactory.getFacelet(view.getViewId());
// Disable events from being intercepted by the StateContext by
// virute of re-applying the handlers.
try {
stateCtx.setTrackViewModifications(false);
f.apply(ctx, view);
reapplyDynamicActions(ctx);
} finally {
stateCtx.setTrackViewModifications(true);
}
return;
}
view.setViewId(view.getViewId());
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.fine("Building View: " + view.getViewId());
}
if (faceletFactory == null) {
ApplicationAssociate associate = ApplicationAssociate.getInstance(ctx.getExternalContext());
faceletFactory = associate.getFaceletFactory();
assert (faceletFactory != null);
}
RequestStateManager.set(ctx,
RequestStateManager.FACELET_FACTORY,
faceletFactory);
Facelet f = faceletFactory.getFacelet(view.getViewId());
// populate UIViewRoot
try {
ctx.getAttributes().put(IS_BUILDING_INITIAL_STATE, Boolean.TRUE);
stateCtx.setTrackViewModifications(false);
f.apply(ctx, view);
if (!stateCtx.isPartialStateSaving(ctx, view.getViewId())) {
reapplyDynamicActions(ctx);
}
doPostBuildActions(ctx, view);
} finally {
ctx.getAttributes().remove(IS_BUILDING_INITIAL_STATE);
}
ctx.getApplication().publishEvent(ctx,
PostAddToViewEvent.class,
UIViewRoot.class,
view);
markInitialState(ctx, view);
Util.setViewPopulated(ctx, view);
}
@Override
public boolean viewExists(FacesContext context,
String viewId) {
if (handlesViewId(viewId)) {
if (faceletFactory == null) {
ApplicationAssociate associate = ApplicationAssociate.getInstance(context.getExternalContext());
faceletFactory = associate.getFaceletFactory();
assert (faceletFactory != null);
}
return faceletFactory.getResourceResolver().resolveUrl(viewId) != null;
}
return false;
}
@Override
public String getId() {
return FACELETS_VIEW_DECLARATION_LANGUAGE_ID;
}
// ------------------------------------------------------- Protected Methods
/**
* Initialize the core Facelets runtime.
*/
protected void initialize() {
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.fine("Initializing FaceletViewHandlingStrategy");
}
this.initializeMappings();
groovyAvailable = GroovyHelper.isGroovyAvailable(FacesContext.getCurrentInstance());
metadataCache = new Cache<Resource, BeanInfo>(new Factory<Resource, BeanInfo>() {
public BeanInfo newInstance(Resource ccResource) throws InterruptedException {
FacesContext context = FacesContext.getCurrentInstance();
return FaceletViewHandlingStrategy.this.createComponentMetadata(context, ccResource);
}
});
try {
responseBufferSizeSet = webConfig.isSet(FaceletsBufferSize);
responseBufferSize =
Integer.parseInt(webConfig.getOptionValue(FaceletsBufferSize));
} catch (NumberFormatException nfe) {
responseBufferSize = Integer.parseInt(FaceletsBufferSize.getDefaultValue());
}
if (LOGGER.isLoggable(Level.FINE)) {
LOGGER.fine("Initialization Successful");
}
vdlFactory = (ViewDeclarationLanguageFactory) FactoryFinder.getFactory(FactoryFinder.VIEW_DECLARATION_LANGUAGE_FACTORY);
}
/**
* Initialize mappings, during the first request.
*/
protected void initializeMappings() {
String viewMappings = webConfig.getOptionValue(FaceletsViewMappings);
if ((viewMappings != null) && (viewMappings.length() > 0)) {
String[] mappingsArray = Util.split(viewMappings, ";");
List<String> extensionsList = new ArrayList<String>(mappingsArray.length);
List<String> prefixesList = new ArrayList<String>(mappingsArray.length);
for (String aMappingsArray : mappingsArray) {
String mapping = aMappingsArray.trim();
int mappingLength = mapping.length();
if (mappingLength <= 1) {
continue;
}
if (mapping.charAt(0) == '*') {
extensionsList.add(mapping.substring(1));
} else if (mapping.charAt(mappingLength - 1) == '*') {
prefixesList.add(mapping.substring(0, mappingLength - 1));
}
}
extensionsArray = new String[extensionsList.size()];
extensionsList.toArray(extensionsArray);
prefixesArray = new String[prefixesList.size()];
prefixesList.toArray(prefixesArray);
}
}
/**
* @param context the {@link FacesContext} for the current request
* @return a {@link ResponseWriter} for processing the request
* @throws IOException if the writer cannot be created
*/
protected ResponseWriter createResponseWriter(FacesContext context)
throws IOException {
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 + "\"");
}
if (responseBufferSizeSet) {
// set the buffer for content
extContext.setResponseBufferSize(responseBufferSize);
}
// get our content type
String contentType =
(String) context.getAttributes().get("facelets.ContentType");
// get the encoding
String encoding =
(String) context.getAttributes().get("facelets.Encoding");
// Create a dummy ResponseWriter with a bogus writer,
// so we can figure out what content type the ReponseWriter
// is really going to ask for
ResponseWriter writer = renderKit.createResponseWriter(NullWriter.Instance,
contentType,
encoding);
contentType = getResponseContentType(context, writer.getContentType());
encoding = getResponseEncoding(context, writer.getCharacterEncoding());
// apply them to the response
char[] buffer = new char[1028];
HtmlUtils.writeTextForXML(writer, contentType, buffer);
String str = String.valueOf(buffer).trim();
extContext.setResponseContentType(str);
extContext.setResponseCharacterEncoding(encoding);
// Now, clone with the real writer
writer = writer.cloneWithWriter(extContext.getResponseOutputWriter());
return writer;
}
/**
* Handles the case where rendering throws an Exception.
*
* @param context the {@link FacesContext} for the current request
* @param e the caught Exception
* @throws IOException if the custom debug content cannot be written
*/
protected void handleRenderException(FacesContext context, Exception e)
throws IOException {
// always log
if (LOGGER.isLoggable(Level.SEVERE)) {
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(']');
}
LOGGER.log(Level.SEVERE, sb.toString(), e);
}
if (e instanceof RuntimeException) {
throw (RuntimeException) e;
} else if (e instanceof IOException) {
throw (IOException) e;
} else {
throw new FacesException(e.getMessage(), e);
}
}
/**
* Handles the case where a Facelet cannot be found.
*
* @param context the {@link FacesContext} for the current request
* @param viewId the view ID that was to be mapped to a Facelet
* @param message optional message to include in the 404
* @throws IOException if an error occurs sending the 404 to the client
*/
protected void handleFaceletNotFound(FacesContext context,
String viewId,
String message)
throws IOException {
context.getExternalContext().responseSendError(HttpServletResponse.SC_NOT_FOUND, ((message != null)
? (viewId + ": " + message)
: viewId));
context.responseComplete();
}
/**
* @param context the {@link FacesContext} for the current request
* @param orig the original encoding
* @return the encoding to be used for this response
*/
protected String getResponseEncoding(FacesContext context, String orig) {
String encoding = orig;
// 1. get it from request
encoding = context.getExternalContext().getRequestCharacterEncoding();
// 2. get it from the session
if (encoding == null) {
if (null != context.getExternalContext().getSession(false)) {
Map<String, Object> sessionMap = context.getExternalContext().getSessionMap();
encoding = (String) sessionMap.get(ViewHandler.CHARACTER_ENCODING_KEY);
if (LOGGER.isLoggable(Level.FINEST)) {
LOGGER.log(Level.FINEST,
"Session specified alternate encoding {0}",
encoding);
}
}
}
// see if we need to override the encoding
Map<Object,Object> ctxAttributes = context.getAttributes();
// 3. check the request attribute
if (ctxAttributes.containsKey("facelets.Encoding")) {
encoding = (String) ctxAttributes.get("facelets.Encoding");
if (LOGGER.isLoggable(Level.FINEST)) {
LOGGER.log(Level.FINEST,
"Facelet specified alternate encoding {0}",
encoding);
}
if (null != context.getExternalContext().getSession(false)) {
Map<String, Object> sessionMap = context.getExternalContext().getSessionMap();
sessionMap.put(ViewHandler.CHARACTER_ENCODING_KEY, encoding);
}
}
// 4. default it
if (encoding == null) {
if (null != orig && 0 < orig.length()) {
encoding = orig;
} else {
encoding = "UTF-8";
}
if (LOGGER.isLoggable(Level.FINEST)) {
LOGGER.log(Level.FINEST, "ResponseWriter created had a null CharacterEncoding, defaulting to {0}", orig);
}
}
return encoding;
}
/**
* @param context the {@link FacesContext} for the current request
* @param orig the original contentType
* @return the content type to be used for this response
*/
protected String getResponseContentType(FacesContext context, String orig) {
String contentType = orig;
// see if we need to override the contentType
Map<Object,Object> m = context.getAttributes();
if (m.containsKey("facelets.ContentType")) {
contentType = (String) m.get("facelets.ContentType");
if (LOGGER.isLoggable(Level.FINEST)) {
LOGGER.finest("Facelet specified alternate contentType '"
+ contentType + "'");
}
}
// safety check
if (contentType == null) {
contentType = "text/html";
if (LOGGER.isLoggable(Level.FINEST)) {
LOGGER.finest("ResponseWriter created had a null ContentType, defaulting to text/html");
}
}
return contentType;
}
// --------------------------------------------------------- Private Methods
private String getCompositeComponentName(UIComponent compositeComponent) {
Resource resource =
(Resource) compositeComponent.getAttributes().get(Resource.COMPONENT_RESOURCE_KEY);
String name = resource.getResourceName();
String library = resource.getLibraryName();
if (library != null) {
return "Composite Component: " + name + ", library: " + library;
} else {
return "Composite Component: " + name;
}
}
private void doPostBuildActions(FacesContext ctx, UIViewRoot root) {
StateContext stateCtx = StateContext.getStateContext(ctx);
if (stateCtx.isPartialStateSaving(ctx, root.getViewId())) {
// lu4242 root.markInitialState();
}
stateCtx.startTrackViewModifications(ctx, root);
}
private void markInitialState(FacesContext ctx, UIViewRoot root)
{
StateContext stateCtx = StateContext.getStateContext(ctx);
if (stateCtx.isPartialStateSaving(ctx, root.getViewId())) {
try {
ctx.getAttributes().put(IS_BUILDING_INITIAL_STATE, Boolean.TRUE);
if (!root.isTransient()) {
markInitialState(root);
}
} finally {
ctx.getAttributes().remove(IS_BUILDING_INITIAL_STATE);
}
}
}
private void markInitialState(final UIComponent component)
{
component.markInitialState();
for (Iterator<UIComponent> it = component.getFacetsAndChildren() ; it.hasNext() ; ) {
UIComponent child = it.next();
if (!child.isTransient()) {
markInitialState(child);
}
}
}
private void retargetHandler(FacesContext context,
AttachedObjectHandler handler,
UIComponent targetComponent) {
if (UIComponent.isCompositeComponent(targetComponent)) {
// RELEASE_PENDING Not keen on calling CompositeComponentTagHandler here....
List<AttachedObjectHandler> nHandlers =
CompositeComponentTagHandler
.getAttachedObjectHandlers(targetComponent);
nHandlers.add(handler);
retargetAttachedObjects(context, targetComponent, nHandlers);
} else {
handler.applyAttachedObject(context, targetComponent);
}
}
// ---------------------------------------------------------- Nested Classes
/**
* Provides iteration services over a composite component's
* MethodExpression-enabled <code>PropertyDescriptors</code>.
*/
private static final class MethodMetadataIterator implements Iterable<CompCompInterfaceMethodMetadata>, Iterator<CompCompInterfaceMethodMetadata> {
private final PropertyDescriptor[] descriptors;
private FacesContext context;
private int curIndex = -1;
// -------------------------------------------------------- Constructors
MethodMetadataIterator(FacesContext context, PropertyDescriptor[] descriptors) {
this.context = context;
this.descriptors = descriptors;
if (descriptors != null && descriptors.length > 0) {
curIndex = 0;
}
}
// ----------------------------------------------- Methods from Iterable
public Iterator<CompCompInterfaceMethodMetadata> iterator() {
return this;
}
// ----------------------------------------------- Methods from Iterator
public boolean hasNext() {
if (curIndex != -1 && curIndex < descriptors.length) {
int idx = curIndex;
while (idx < descriptors.length) {
PropertyDescriptor pd = descriptors[idx];
if (shouldSkip(pd)) {
// this is a ValueExpression-enabled attribute and
// should be ignored.
idx++;
} else {
if (idx != curIndex) {
// the PD that was found to be returned by the
// next() call has a different offset from the
// current index; update the current index.
curIndex = idx;
}
return (curIndex < descriptors.length);
}
}
}
return false;
}
public CompCompInterfaceMethodMetadata next() {
return new CompCompInterfaceMethodMetadata(descriptors[curIndex++]);
}
public void remove() {
throw new UnsupportedOperationException();
}
private boolean shouldSkip(PropertyDescriptor pd) {
boolean result;
String name = pd.getName();
ValueExpression ve = (ValueExpression) pd.getValue("targetAttributeName");
String targetAttributeName = ((ve != null) ? (String) ve.getValue(context.getELContext()) : "");
boolean isSpecialAttributeName = Util.isSpecialAttributeName(name) ||
Util.isSpecialAttributeName(targetAttributeName);
result = (!isSpecialAttributeName &&
(pd.getValue("type") != null ||
pd.getValue("method-signature") == null));
return result;
}
} // END MethodMetadataIterator
/**
* Utility class to encapsulate the ValueExpression evaluation of the various
* MethodExpression composite component properties.
*/
private static final class CompCompInterfaceMethodMetadata {
private final PropertyDescriptor pd;
// -------------------------------------------------------- Constructors
CompCompInterfaceMethodMetadata(PropertyDescriptor pd) {
this.pd = pd;
}
// ------------------------------------------------------ Public Methods
/**
* @param ctx the <code>FacesContext</code> for the current request
* @return the <code>method-signature</code> for this attribute
*/
public String getMethodSignature(FacesContext ctx) {
ValueExpression ms = (ValueExpression) pd.getValue("method-signature");
if (ms != null) {
return (String) ms.getValue(ctx.getELContext());
}
return null;
}
/**
* @param ctx the <code>FacesContext</code> for the current request
* @return an array of component targets to which a MethodExpression
* should be retargeted
*/
public String[] getTargets(FacesContext ctx) {
ValueExpression ts = (ValueExpression) pd.getValue("targets");
if (ts != null) {
String targets = (String) ts.getValue(ctx.getELContext());
if (targets != null) {
return Util.split(targets, " ");
}
}
return null;
}
public String getTargetAttributeName(FacesContext ctx) {
ValueExpression ve = (ValueExpression) pd.getValue("targetAttributeName");
return ((ve != null) ? (String) ve.getValue(ctx.getELContext()) : null);
}
/**
* @param ctx the <code>FacesContext</code> for the current request
* @return <code>true<code> if this attribute is required to be present,
* otherwise, returns <code>false</code>
*/
public boolean isRequired(FacesContext ctx) {
ValueExpression rd = (ValueExpression) pd.getValue("required");
return ((rd != null) ? Boolean.valueOf(rd.getValue(ctx.getELContext()).toString()) : false);
}
/**
* @return the default value as designated by the composite component
* author if no attribute was specified by the composite component
* consumer. This value may be a ValueExpression, or a literal.
*/
public Object getDefault() {
return pd.getValue("default");
}
/**
* @return the composite component attribute name
*/
public String getName() {
return pd.getName();
}
} // END CompCompInterfaceMethodMetadata
/**
* Managed the <code>MethodRetargetHandler</code> implementations for the
* current <code>MethodExpression</code> enabled component attributes:
* <ul>
* <li>action</li>
* <li>actionListener</li>
* <li>validator</li>
* <li>valueChangeListener</li>
* </ul>
*
* Instances of this object also provide a default handler that can be
* used to re-target <code>MethodExperssions</code> that don't match
* on of the four names described above.
*/
private static final class MethodRetargetHandlerManager {
private Map<String,MethodRetargetHandler> handlerMap =
new HashMap<String,MethodRetargetHandler>(4, 1.0f);
private MethodRetargetHandler arbitraryHandler = new ArbitraryMethodRegargetHandler();
// -------------------------------------------------------- Constructors
MethodRetargetHandlerManager() {
MethodRetargetHandler[] handlers = {
new ActionRegargetHandler(),
new ActionListenerRegargetHandler(),
new ValidatorRegargetHandler(),
new ValueChangeListenerRegargetHandler()
};
for (MethodRetargetHandler h : handlers) {
handlerMap.put(h.getAttribute(), h);
}
}
// ------------------------------------------------------ Public Methods
/**
* Lookup/return a <code>MethodRetargetHandler</code> appropriate to the
* provided attribute name
* @param attrName the attribute name
* @return a <code>MethodRetargetHandler</code> that can properly handle
* retargeting expressions for the specified attribute, or </code>null</code>
* if there is no handler available.
*/
private MethodRetargetHandler getRetargetHandler(String attrName) {
return handlerMap.get(attrName);
}
/**
* @return a <code>MethodRetargetHandler</code> that can retarget
* arbitrarily named MethodExpressions.
*/
private MethodRetargetHandler getDefaultHandler() {
return arbitraryHandler;
}
// ------------------------------------------------------ Nested Classes
/**
* Base MethodRetargetHandler implementation.
*/
private static abstract class AbstractRetargetHandler implements MethodRetargetHandler {
protected static final Class[] NO_ARGS = new Class[0];
} // END AbstractRetargetHandler
/**
* This handler is responsible for creating/retargeting MethodExpressions defined
* associated with the <code>action</code> attribute
*/
private static final class ActionRegargetHandler extends AbstractRetargetHandler {
private static final String ACTION = "action";
// ------------------------------ Methods from MethodRetargetHandler
public void retarget(FacesContext ctx,
CompCompInterfaceMethodMetadata metadata,
Object sourceValue,
UIComponent target) {
String expr = (sourceValue instanceof ValueExpression)
? ((ValueExpression) sourceValue).getExpressionString()
: sourceValue.toString();
ExpressionFactory f = ctx.getApplication().getExpressionFactory();
MethodExpression me = f.createMethodExpression(ctx.getELContext(),
expr,
Object.class,
NO_ARGS);
((ActionSource2) target)
.setActionExpression(
new ContextualCompositeMethodExpression(((sourceValue instanceof ValueExpression)
? (ValueExpression) sourceValue
: null),
me));
}
public String getAttribute() {
return ACTION;
}
} // END ActionRegargetHandler
/**
* This handler is responsible for creating/retargeting MethodExpressions defined
* associated with the <code>actionListener</code> attribute
*/
private static final class ActionListenerRegargetHandler extends AbstractRetargetHandler {
private static final String ACTION_LISTENER = "actionListener";
private static final Class[] ACTION_LISTENER_ARGS = new Class[] { ActionEvent.class };
// ------------------------------ Methods from MethodRetargetHandler
public void retarget(FacesContext ctx,
CompCompInterfaceMethodMetadata metadata,
Object sourceValue,
UIComponent target) {
ValueExpression ve = (ValueExpression) sourceValue;
ExpressionFactory f = ctx.getApplication().getExpressionFactory();
MethodExpression me = f.createMethodExpression(ctx.getELContext(),
ve.getExpressionString(),
Void.TYPE,
ACTION_LISTENER_ARGS);
MethodExpression noArg = f.createMethodExpression(ctx.getELContext(),
ve.getExpressionString(),
Void.TYPE,
NO_ARGS);
((ActionSource2) target).addActionListener(
new MethodExpressionActionListener(
new ContextualCompositeMethodExpression(ve,
me),
new ContextualCompositeMethodExpression(ve,
noArg)));
}
public String getAttribute() {
return ACTION_LISTENER;
}
} // END ActionListenerRegargetHandler
/**
* This handler is responsible for creating/retargeting MethodExpressions defined
* associated with the <code>validator</code> attribute
*/
private static final class ValidatorRegargetHandler extends AbstractRetargetHandler {
private static final String VALIDATOR = "validator";
private static final Class[] VALIDATOR_ARGS = new Class[]{
FacesContext.class,
UIComponent.class,
Object.class
};
// ------------------------------ Methods from MethodRetargetHandler
public void retarget(FacesContext ctx,
CompCompInterfaceMethodMetadata metadata,
Object sourceValue,
UIComponent target) {
ValueExpression ve = (ValueExpression) sourceValue;
ExpressionFactory f = ctx.getApplication().getExpressionFactory();
MethodExpression me = f.createMethodExpression(ctx.getELContext(),
ve.getExpressionString(),
Void.TYPE,
VALIDATOR_ARGS);
((EditableValueHolder) target).addValidator(
new MethodExpressionValidator(
new ContextualCompositeMethodExpression(ve,
me)));
}
public String getAttribute() {
return VALIDATOR;
}
} // END ValidatorRegargetHandler
/**
* This handler is responsible for creating/retargeting MethodExpressions defined
* associated with the <code>valueChangeListener</code> attribute
*/
private static final class ValueChangeListenerRegargetHandler extends AbstractRetargetHandler {
private static final String VALUE_CHANGE_LISTENER = "valueChangeListener";
private static final Class[] VALUE_CHANGE_LISTENER_ARGS = new Class[]{
ValueChangeEvent.class
};
// ------------------------------ Methods from MethodRetargetHandler
public void retarget(FacesContext ctx,
CompCompInterfaceMethodMetadata metadata,
Object sourceValue,
UIComponent target) {
ValueExpression ve = (ValueExpression) sourceValue;
ExpressionFactory f = ctx.getApplication().getExpressionFactory();
MethodExpression me = f.createMethodExpression(ctx.getELContext(),
ve.getExpressionString(),
Void.TYPE,
VALUE_CHANGE_LISTENER_ARGS);
MethodExpression noArg = f.createMethodExpression(ctx.getELContext(),
ve.getExpressionString(),
Void.TYPE,
NO_ARGS);
((EditableValueHolder) target).addValueChangeListener(
new MethodExpressionValueChangeListener(
new ContextualCompositeMethodExpression(ve,
me),
new ContextualCompositeMethodExpression(ve,
noArg)));
}
public String getAttribute() {
return VALUE_CHANGE_LISTENER;
}
} // END ValueChangeListenerRegargetHandler
/**
* This handler is responsible for creating/retargeting MethodExpressions defined
* using arbitrary attribute names.
*/
private static final class ArbitraryMethodRegargetHandler extends AbstractRetargetHandler {
// ------------------------------ Methods from MethodRetargetHandler
public void retarget(FacesContext ctx, CompCompInterfaceMethodMetadata metadata, Object sourceValue, UIComponent target) {
ValueExpression ve = (ValueExpression) sourceValue;
ExpressionFactory f = ctx.getApplication()
.getExpressionFactory();
// There is no explicit methodExpression property on
// an inner component to which this MethodExpression
// should be retargeted. In this case, replace the
// ValueExpression with a method expresson.
// Pull apart the methodSignature to derive the
// expectedReturnType and expectedParameters
String methodSignature = metadata.getMethodSignature(ctx);
assert (null != methodSignature);
methodSignature = methodSignature.trim();
Class<?> expectedReturnType;
Class<?>[] expectedParameters = NO_ARGS;
// Get expectedReturnType
int j, i = methodSignature.indexOf(" ");
if (-1 != i) {
String strValue = methodSignature.substring(0, i);
try {
expectedReturnType = Util.getTypeFromString(strValue.trim());
} catch (ClassNotFoundException cnfe) {
throw new FacesException(methodSignature
+ " : Unable to load type '"
+ strValue
+ '\'');
}
} else {
if (LOGGER.isLoggable(Level.SEVERE)) {
LOGGER.severe(
"Unable to determine expected return type for " +
methodSignature);
}
return;
}
// derive the arguments
i = methodSignature.indexOf("(");
if (-1 != i) {
j = methodSignature.indexOf(")", i + 1);
if (-1 != j) {
String strValue = methodSignature.substring(i + 1, j);
if (0 < strValue.length()) {
String[] params = strValue.split(",");
expectedParameters = new Class[params.length];
boolean exceptionThrown = false;
for (i = 0; i < params.length; i++) {
try {
expectedParameters[i] =
Util.getTypeFromString(params[i].trim());
} catch (ClassNotFoundException cnfe) {
if (LOGGER.isLoggable(Level.SEVERE)) {
LOGGER.log(Level.SEVERE,
"Unable to determine parameter type for "
+ methodSignature,
cnfe);
}
exceptionThrown = true;
break;
}
}
if (exceptionThrown) {
return;
}
} else {
expectedParameters = NO_ARGS;
}
}
}
assert (null != expectedReturnType);
assert (null != expectedParameters);
MethodExpression me = f
.createMethodExpression(ctx.getELContext(),
ve.getExpressionString(),
expectedReturnType,
expectedParameters);
target.getAttributes().put(metadata.getName(),
new ContextualCompositeMethodExpression(
ve,
me));
}
public String getAttribute() {
return null;
}
} // END ArbitraryMethodRegargetHandler
} // END MethodRegargetHandlerManager
/**
* Implementations of this interface provide the <code>strategy</code> to
* properly retarget a method expression for a particular attribute.
*/
private interface MethodRetargetHandler {
/**
* Constructs and retargets a <code>MethodExpression</code> as appropriate
* based on the provided arguments.
*
* @param ctx the <code>FacesContext</code> for the current request
* @param metadata the metadata describing the method to be retargeted
* @param sourceValue typically, this will be a ValueExpression, however,
* there are cases where this could be provided as a literal. It basically
* represents the attribute value being passed to the composite component
* @param target the component that will be target of the method expression
*/
void retarget(FacesContext ctx,
CompCompInterfaceMethodMetadata metadata,
Object sourceValue,
UIComponent target);
/**
* @return the attribute name this <code>MethodRetargetHandler</code>
* is designed to handle
*/
String getAttribute();
} // END MethodRetargetHandler
/**
* Simple no-op writer.
*/
protected static final class NullWriter extends Writer {
static final NullWriter Instance = new NullWriter();
public void write(char[] buffer) {
}
public void write(char[] buffer, int off, int len) {
}
public void write(String str) {
}
public void write(int c) {
}
public void write(String str, int off, int len) {
}
public void close() {
}
public void flush() {
}
} // END NullWriter
/**
* Clear out the dynamic actions.
*
* @param stateContext the state context.
*/
private void clearDynamicActions(StateContext stateContext) {
if (stateContext != null && stateContext.getDynamicActions() != null) {
stateContext.getDynamicActions().clear();
}
}
/**
* Find the given component in the component tree.
*
* @param context the Faces context.
* @param clientId the client id of the component to find.
*/
private UIComponent locateComponentByClientId(final FacesContext context, final String clientId) {
final List<UIComponent> found = new ArrayList<UIComponent>();
UIComponent result = null;
context.getViewRoot().invokeOnComponent(context, clientId, new ContextCallback() {
public void invokeContextCallback(FacesContext context, UIComponent target) {
found.add(target);
}
});
/*
* Since we did not find it the cheaper way we need to assume there is a
* UINamingContainer that does not prepend its ID. So we are going to
* walk the tree to find it.
*/
if (found.isEmpty()) {
VisitContext visitContext = VisitContext.createVisitContext(context);
context.getViewRoot().visitTree(visitContext, new VisitCallback() {
public VisitResult visit(VisitContext visitContext, UIComponent component) {
VisitResult result = VisitResult.ACCEPT;
if (component.getClientId(visitContext.getFacesContext()).equals(clientId)) {
found.add(component);
result = VisitResult.COMPLETE;
}
return result;
}
});
}
if (!found.isEmpty()) {
result = found.get(0);
}
return result;
}
/**
* Reapply the dynamic actions after Facelets reapply.
*
* <p> Note a precondition to this method is that tracking view
* modifications is turned off during the execution of this method. The
* caller of this method is responsible for turning tracking view
* modifications off and on as required. </p>
*
* @param context the Faces context.
*/
private void reapplyDynamicActions(FacesContext context) {
StateContext stateContext = StateContext.getStateContext(context);
List<ComponentStruct> actions = stateContext.getDynamicActions();
if (actions != null) {
for (ComponentStruct action : actions) {
if (ComponentStruct.REMOVE.equals(action.action)) {
reapplyDynamicRemove(context, action);
}
if (ComponentStruct.ADD.equals(action.action)) {
reapplyDynamicAdd(context, action);
}
}
}
}
/**
* Reapply the dynamic add after Facelets reapply.
*
* @param context the Faces context.
* @param struct the component struct.
*/
private void reapplyDynamicAdd(FacesContext context, ComponentStruct struct) {
UIComponent parent = locateComponentByClientId(context, struct.parentClientId);
if (parent != null) {
UIComponent child = locateComponentByClientId(context, struct.clientId);
StateContext stateContext = StateContext.getStateContext(context);
if (child == null) {
child = stateContext.getDynamicComponents().get(struct.clientId);
}
if (child != null) {
if (struct.facetName != null) {
parent.getFacets().remove(struct.facetName);
parent.getFacets().put(struct.facetName, child);
child.getClientId();
} else {
int childIndex = -1;
if (child.getAttributes().containsKey(DYNAMIC_COMPONENT)) {
childIndex = (Integer) child.getAttributes().get(DYNAMIC_COMPONENT);
}
child.setId(struct.id);
if (childIndex >= parent.getChildCount() || childIndex == -1) {
parent.getChildren().add(child);
} else {
parent.getChildren().add(childIndex, child);
}
child.getClientId();
child.getAttributes().put(DYNAMIC_COMPONENT, child.getParent().getChildren().indexOf(child));
}
stateContext.getDynamicComponents().put(struct.clientId, child);
}
}
}
/**
* Reapply the dynamic remove after Facelets reapply.
*
* @param context the Faces context.
* @param struct the component struct.
*/
private void reapplyDynamicRemove(FacesContext context, ComponentStruct struct) {
UIComponent child = locateComponentByClientId(context, struct.clientId);
if (child != null) {
StateContext stateContext = StateContext.getStateContext(context);
stateContext.getDynamicComponents().put(struct.clientId, child);
UIComponent parent = child.getParent();
parent.getChildren().remove(child);
}
}
}