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This is the master POM file for Oracle's Implementation of the JSF 2.2 Specification.

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package com.sun.faces.component.visit;

import javax.faces.component.visit.*;
import java.util.AbstractCollection;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.EnumSet;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;


import javax.faces.component.UIComponent;
import javax.faces.component.UINamingContainer;
import javax.faces.component.NamingContainer;
import javax.faces.context.FacesContext;

/**
 *
 * 

A VisitContext implementation that is * used when performing a partial component tree visit.

* * RELEASE_PENDING * @since 2.0 */ public class PartialVisitContext extends VisitContext { /** * Creates a PartialVisitorContext instance. * @param facesContext the FacesContext for the current request * @param clientIds the client ids of the components to visit * @throws NullPointerException if {@code facesContext} * is {@code null} */ public PartialVisitContext(FacesContext facesContext, Collection clientIds) { this(facesContext, clientIds, null); } /** * Creates a PartialVisitorContext instance with the specified hints. * @param facesContext the FacesContext for the current request * @param clientIds the client ids of the components to visit * @param hints a the VisitHints for this visit * @throws NullPointerException if {@code facesContext} * is {@code null} */ public PartialVisitContext(FacesContext facesContext, Collection clientIds, Set hints) { if (facesContext == null) { throw new NullPointerException(); } this.facesContext = facesContext; // Initialize our various collections initializeCollections(clientIds); // Copy and store hints - ensure unmodifiable and non-empty EnumSet hintsEnumSet = ((hints == null) || (hints.isEmpty())) ? EnumSet.noneOf(VisitHint.class) : EnumSet.copyOf(hints); this.hints = Collections.unmodifiableSet(hintsEnumSet); } /** * @see VisitContext#getFacesContext VisitContext.getFacesContext() */ @Override public FacesContext getFacesContext() { return facesContext; } /** * @see VisitContext#getHints VisitContext.getHints */ @Override public Set getHints() { return hints; } /** * @see VisitContext#getIdsToVisit VisitContext.getIdsToVisit() */ @Override public Collection getIdsToVisit() { // We just return our clientIds collection. This is // the modifiable (but proxied) collection of all of // the client ids to visit. return clientIds; } public Collection getUnvisitedClientIds() { return unvisitedClientIds; } /** * @see VisitContext#getSubtreeIdsToVisit VisitContext.getSubtreeIdsToVisit() */ @Override public Collection getSubtreeIdsToVisit(UIComponent component) { // Make sure component is a NamingContainer if (!(component instanceof NamingContainer)) { throw new IllegalArgumentException("Component is not a NamingContainer: " + component); } String clientId = component.getClientId(); Collection ids = subtreeClientIds.get(clientId); if (ids == null) return Collections.emptyList(); return Collections.unmodifiableCollection(ids); } /** * @see VisitContext#invokeVisitCallback VisitContext.invokeVisitCallback() */ @Override public VisitResult invokeVisitCallback(UIComponent component, VisitCallback callback) { // First sure that we should visit this component - ie. // that this component is represented in our id set. String clientId = getVisitId(component); if (clientId == null) { // Not visiting this component, but allow visit to // continue into this subtree in case we've got // visit targets there. return VisitResult.ACCEPT; } // If we made it this far, the component matches one of // client ids, so perform the visit. VisitResult result = callback.visit(this, component); // Remove the component from our "unvisited" collection unvisitedClientIds.remove(clientId); // If the unvisited collection is now empty, we are done. // Return VisitResult.COMPLETE to terminate the visit. if (unvisitedClientIds.isEmpty()) return VisitResult.COMPLETE; // Otherwise, just return the callback's result return result; } // Called by CollectionProxy to notify PartialVisitContext that // an new id has been added. private void idAdded(String clientId) { // An id to visit has been added, update our other // collections to reflect this. // Update the ids collection ids.add(getIdFromClientId(clientId)); // Update the unvisited ids collection unvisitedClientIds.add(clientId); // Update the subtree ids collection addSubtreeClientId(clientId); } // Called by CollectionProxy to notify PartialVisitContext that // an id has been removed private void idRemoved(String clientId) { // An id to visit has been removed, update our other // collections to reflect this. Note that we don't // update the ids collection, since we ids (non-client ids) // may not be unique. // Update the unvisited ids collection unvisitedClientIds.remove(clientId); // Update the subtree ids collection removeSubtreeClientId(clientId); } // Called to initialize our various collections. private void initializeCollections(Collection clientIds) { // We maintain 4 collections: // // 1. clientIds: contains all of the client ids to visit // 2. ids: contains just ids (not client ids) to visit. // We use this to optimize our check to see whether a // particular component is in the visit set (ie. to // avoid having to compute the client id). // 3. subtreeClientIds: contains client ids to visit broken // out by naming container subtree. (Needed by // getSubtreeIdsToVisit()). // 4. unvisitedClientIds: contains the client ids to visit that // have not yet been visited. // // We populate these now. // // Note that we use default HashSet/Map initial capacities, though // perhaps we could pick more intelligent defaults. // Initialize unvisitedClientIds collection this.unvisitedClientIds = new HashSet(); // Initialize ids collection this.ids = new HashSet(); // Intialize subtreeClientIds collection this.subtreeClientIds = new HashMap>(); // Initialize the clientIds collection. Note that we proxy // this collection so that we can trap adds/removes and sync // up all of the other collections. this.clientIds = new CollectionProxy(new HashSet()); // Finally, populate the clientIds collection. This has the // side effect of populating all of the other collections. this.clientIds.addAll(clientIds); } // Tests whether the specified component should be visited. // If so, returns its client id. If not, returns null. private String getVisitId(UIComponent component) { // We first check to see whether the component's id // is in our id collection. We do this before checking // for the full client id because getting the full client id // is more expensive than just getting the local id. String id = component.getId(); if ((id != null) && !ids.contains(id)) return null; // The id was a match - now check the client id. // note that client id should never be null (should be // generated even if id is null, so asserting this.) String clientId = component.getClientId(); assert(clientId != null); return clientIds.contains(clientId) ? clientId : null; } // Converts an client id into a plain old id by ripping // out the trailing id segmetn. private String getIdFromClientId(String clientId) { FacesContext facesContext = getFacesContext(); char separator = UINamingContainer.getSeparatorChar(facesContext); int lastIndex = clientId.lastIndexOf(separator); String id = null; if (lastIndex < 0) { id = clientId; } else if (lastIndex < (clientId.length() - 1)) { id = clientId.substring(lastIndex + 1); } return id; } // Given a single client id, populate the subtree map with all possible // subtree client ids private void addSubtreeClientId(String clientId) { FacesContext facesContext = getFacesContext(); char separator = UINamingContainer.getSeparatorChar(facesContext); // Loop over the client id and find the substring corresponding to // each ancestor NamingContainer client id. For each ancestor // NamingContainer, add an entry into the map for the full client // id. int length = clientId.length(); for (int i = 0; i < length; i++) { if (clientId.charAt(i) == separator) { // We found an ancestor NamingContainer client id - add // an entry to the map. String namingContainerClientId = clientId.substring(0, i); // Check to see whether we've already ids under this // NamingContainer client id. If not, create the // Collection for this NamingContainer client id and // stash it away in our map Collection c = subtreeClientIds.get(namingContainerClientId); if (c == null) { c = new ArrayList(); subtreeClientIds.put(namingContainerClientId, c); } // Stash away the client id c.add(clientId); } } } // Given a single client id, remove any entries corresponding // entries from our subtree collections private void removeSubtreeClientId(String clientId) { // Loop through each entry in the map and check to see whether // the client id to remove should be contained in the corresponding // collection - ie. whether the key (the NamingContainer client id) // is present at the start of the client id to remove. for (String key : subtreeClientIds.keySet()) { if (clientId.startsWith(key)) { // If the clientId starts with the key, we should // have an entry for this clientId in the corresponding // collection. Remove it. Collection ids = subtreeClientIds.get(key); ids.remove(clientId); } } } // Little proxy collection implementation. We proxy the id // collection so that we can detect modifications and update // our internal state when ids to visit are added or removed. private class CollectionProxy extends AbstractCollection { private CollectionProxy(Collection wrapped) { this.wrapped = wrapped; } @Override public int size() { return wrapped.size(); } @Override public Iterator iterator() { return new IteratorProxy(wrapped.iterator()); } @Override public boolean add(E o) { boolean added = wrapped.add(o); if (added) { idAdded(o); } return added; } private Collection wrapped; } // Little proxy iterator implementation used by CollectionProxy // so that we can catch removes. private class IteratorProxy implements Iterator { private IteratorProxy(Iterator wrapped) { this.wrapped = wrapped; } public boolean hasNext() { return wrapped.hasNext(); } public E next() { current = wrapped.next(); return current; } public void remove() { if (current != null) { idRemoved(current); } wrapped.remove(); } private Iterator wrapped; private E current = null; } // The client ids to visit private Collection clientIds; // The ids to visit private Collection ids; // The client ids that have yet to be visited private Collection unvisitedClientIds; // This map contains the information needed by getSubtreeIdsToVisit(). // The keys in this map are NamingContainer client ids. The values // are collections containing all of the client ids to visit within // corresponding naming container. private Map> subtreeClientIds; // The FacesContext for this request private FacesContext facesContext; // Our visit hints private Set hints; }




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