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This artifact provides a single jar that contains all classes required to use remote EJB and JMS, including all dependencies. It is intended for use by those not using maven, maven users should just import the EJB and JMS BOM's instead (shaded JAR's cause lots of problems with maven, as it is very easy to inadvertently end up with different versions on classes on the class path).

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/*
 *  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.commons.collections.bidimap;

import java.util.Collection;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;

import org.apache.commons.collections.BidiMap;
import org.apache.commons.collections.MapIterator;
import org.apache.commons.collections.ResettableIterator;
import org.apache.commons.collections.collection.AbstractCollectionDecorator;
import org.apache.commons.collections.iterators.AbstractIteratorDecorator;
import org.apache.commons.collections.keyvalue.AbstractMapEntryDecorator;

/**
 * Abstract BidiMap implemented using two maps.
 * 

* An implementation can be written simply by implementing the * createMap method. * * @see DualHashBidiMap * @see DualTreeBidiMap * @since Commons Collections 3.0 * @version $Id: AbstractDualBidiMap.java 646777 2008-04-10 12:33:15Z niallp $ * * @author Matthew Hawthorne * @author Stephen Colebourne */ public abstract class AbstractDualBidiMap implements BidiMap { /** * Delegate map array. The first map contains standard entries, and the * second contains inverses. */ protected transient final Map[] maps = new Map[2]; /** * Inverse view of this map. */ protected transient BidiMap inverseBidiMap = null; /** * View of the keys. */ protected transient Set keySet = null; /** * View of the values. */ protected transient Collection values = null; /** * View of the entries. */ protected transient Set entrySet = null; /** * Creates an empty map, initialised by createMap. *

* This constructor remains in place for deserialization. * All other usage is deprecated in favour of * {@link #AbstractDualBidiMap(Map, Map)}. */ protected AbstractDualBidiMap() { super(); maps[0] = createMap(); maps[1] = createMap(); } /** * Creates an empty map using the two maps specified as storage. *

* The two maps must be a matching pair, normal and reverse. * They will typically both be empty. *

* Neither map is validated, so nulls may be passed in. * If you choose to do this then the subclass constructor must populate * the maps[] instance variable itself. * * @param normalMap the normal direction map * @param reverseMap the reverse direction map * @since Commons Collections 3.1 */ protected AbstractDualBidiMap(Map normalMap, Map reverseMap) { super(); maps[0] = normalMap; maps[1] = reverseMap; } /** * Constructs a map that decorates the specified maps, * used by the subclass createBidiMap implementation. * * @param normalMap the normal direction map * @param reverseMap the reverse direction map * @param inverseBidiMap the inverse BidiMap */ protected AbstractDualBidiMap(Map normalMap, Map reverseMap, BidiMap inverseBidiMap) { super(); maps[0] = normalMap; maps[1] = reverseMap; this.inverseBidiMap = inverseBidiMap; } /** * Creates a new instance of the map used by the subclass to store data. *

* This design is deeply flawed and has been deprecated. * It relied on subclass data being used during a superclass constructor. * * @return the map to be used for internal storage * @deprecated For constructors, use the new two map constructor. * For deserialization, populate the maps array directly in readObject. */ protected Map createMap() { return null; } /** * Creates a new instance of the subclass. * * @param normalMap the normal direction map * @param reverseMap the reverse direction map * @param inverseMap this map, which is the inverse in the new map * @return the inverse map */ protected abstract BidiMap createBidiMap(Map normalMap, Map reverseMap, BidiMap inverseMap); // Map delegation //----------------------------------------------------------------------- public Object get(Object key) { return maps[0].get(key); } public int size() { return maps[0].size(); } public boolean isEmpty() { return maps[0].isEmpty(); } public boolean containsKey(Object key) { return maps[0].containsKey(key); } public boolean equals(Object obj) { return maps[0].equals(obj); } public int hashCode() { return maps[0].hashCode(); } public String toString() { return maps[0].toString(); } // BidiMap changes //----------------------------------------------------------------------- public Object put(Object key, Object value) { if (maps[0].containsKey(key)) { maps[1].remove(maps[0].get(key)); } if (maps[1].containsKey(value)) { maps[0].remove(maps[1].get(value)); } final Object obj = maps[0].put(key, value); maps[1].put(value, key); return obj; } public void putAll(Map map) { for (Iterator it = map.entrySet().iterator(); it.hasNext();) { Map.Entry entry = (Map.Entry) it.next(); put(entry.getKey(), entry.getValue()); } } public Object remove(Object key) { Object value = null; if (maps[0].containsKey(key)) { value = maps[0].remove(key); maps[1].remove(value); } return value; } public void clear() { maps[0].clear(); maps[1].clear(); } public boolean containsValue(Object value) { return maps[1].containsKey(value); } // BidiMap //----------------------------------------------------------------------- /** * Obtains a MapIterator over the map. * The iterator implements ResetableMapIterator. * This implementation relies on the entrySet iterator. *

* The setValue() methods only allow a new value to be set. * If the value being set is already in the map, an IllegalArgumentException * is thrown (as setValue cannot change the size of the map). * * @return a map iterator */ public MapIterator mapIterator() { return new BidiMapIterator(this); } public Object getKey(Object value) { return maps[1].get(value); } public Object removeValue(Object value) { Object key = null; if (maps[1].containsKey(value)) { key = maps[1].remove(value); maps[0].remove(key); } return key; } public BidiMap inverseBidiMap() { if (inverseBidiMap == null) { inverseBidiMap = createBidiMap(maps[1], maps[0], this); } return inverseBidiMap; } // Map views //----------------------------------------------------------------------- /** * Gets a keySet view of the map. * Changes made on the view are reflected in the map. * The set supports remove and clear but not add. * * @return the keySet view */ public Set keySet() { if (keySet == null) { keySet = new KeySet(this); } return keySet; } /** * Creates a key set iterator. * Subclasses can override this to return iterators with different properties. * * @param iterator the iterator to decorate * @return the keySet iterator */ protected Iterator createKeySetIterator(Iterator iterator) { return new KeySetIterator(iterator, this); } /** * Gets a values view of the map. * Changes made on the view are reflected in the map. * The set supports remove and clear but not add. * * @return the values view */ public Collection values() { if (values == null) { values = new Values(this); } return values; } /** * Creates a values iterator. * Subclasses can override this to return iterators with different properties. * * @param iterator the iterator to decorate * @return the values iterator */ protected Iterator createValuesIterator(Iterator iterator) { return new ValuesIterator(iterator, this); } /** * Gets an entrySet view of the map. * Changes made on the set are reflected in the map. * The set supports remove and clear but not add. *

* The Map Entry setValue() method only allow a new value to be set. * If the value being set is already in the map, an IllegalArgumentException * is thrown (as setValue cannot change the size of the map). * * @return the entrySet view */ public Set entrySet() { if (entrySet == null) { entrySet = new EntrySet(this); } return entrySet; } /** * Creates an entry set iterator. * Subclasses can override this to return iterators with different properties. * * @param iterator the iterator to decorate * @return the entrySet iterator */ protected Iterator createEntrySetIterator(Iterator iterator) { return new EntrySetIterator(iterator, this); } //----------------------------------------------------------------------- /** * Inner class View. */ protected static abstract class View extends AbstractCollectionDecorator { /** The parent map */ protected final AbstractDualBidiMap parent; /** * Constructs a new view of the BidiMap. * * @param coll the collection view being decorated * @param parent the parent BidiMap */ protected View(Collection coll, AbstractDualBidiMap parent) { super(coll); this.parent = parent; } public boolean removeAll(Collection coll) { if (parent.isEmpty() || coll.isEmpty()) { return false; } boolean modified = false; Iterator it = iterator(); while (it.hasNext()) { if (coll.contains(it.next())) { it.remove(); modified = true; } } return modified; } public boolean retainAll(Collection coll) { if (parent.isEmpty()) { return false; } if (coll.isEmpty()) { parent.clear(); return true; } boolean modified = false; Iterator it = iterator(); while (it.hasNext()) { if (coll.contains(it.next()) == false) { it.remove(); modified = true; } } return modified; } public void clear() { parent.clear(); } } //----------------------------------------------------------------------- /** * Inner class KeySet. */ protected static class KeySet extends View implements Set { /** * Constructs a new view of the BidiMap. * * @param parent the parent BidiMap */ protected KeySet(AbstractDualBidiMap parent) { super(parent.maps[0].keySet(), parent); } public Iterator iterator() { return parent.createKeySetIterator(super.iterator()); } public boolean contains(Object key) { return parent.maps[0].containsKey(key); } public boolean remove(Object key) { if (parent.maps[0].containsKey(key)) { Object value = parent.maps[0].remove(key); parent.maps[1].remove(value); return true; } return false; } } /** * Inner class KeySetIterator. */ protected static class KeySetIterator extends AbstractIteratorDecorator { /** The parent map */ protected final AbstractDualBidiMap parent; /** The last returned key */ protected Object lastKey = null; /** Whether remove is allowed at present */ protected boolean canRemove = false; /** * Constructor. * @param iterator the iterator to decorate * @param parent the parent map */ protected KeySetIterator(Iterator iterator, AbstractDualBidiMap parent) { super(iterator); this.parent = parent; } public Object next() { lastKey = super.next(); canRemove = true; return lastKey; } public void remove() { if (canRemove == false) { throw new IllegalStateException("Iterator remove() can only be called once after next()"); } Object value = parent.maps[0].get(lastKey); super.remove(); parent.maps[1].remove(value); lastKey = null; canRemove = false; } } //----------------------------------------------------------------------- /** * Inner class Values. */ protected static class Values extends View implements Set { /** * Constructs a new view of the BidiMap. * * @param parent the parent BidiMap */ protected Values(AbstractDualBidiMap parent) { super(parent.maps[0].values(), parent); } public Iterator iterator() { return parent.createValuesIterator(super.iterator()); } public boolean contains(Object value) { return parent.maps[1].containsKey(value); } public boolean remove(Object value) { if (parent.maps[1].containsKey(value)) { Object key = parent.maps[1].remove(value); parent.maps[0].remove(key); return true; } return false; } } /** * Inner class ValuesIterator. */ protected static class ValuesIterator extends AbstractIteratorDecorator { /** The parent map */ protected final AbstractDualBidiMap parent; /** The last returned value */ protected Object lastValue = null; /** Whether remove is allowed at present */ protected boolean canRemove = false; /** * Constructor. * @param iterator the iterator to decorate * @param parent the parent map */ protected ValuesIterator(Iterator iterator, AbstractDualBidiMap parent) { super(iterator); this.parent = parent; } public Object next() { lastValue = super.next(); canRemove = true; return lastValue; } public void remove() { if (canRemove == false) { throw new IllegalStateException("Iterator remove() can only be called once after next()"); } super.remove(); // removes from maps[0] parent.maps[1].remove(lastValue); lastValue = null; canRemove = false; } } //----------------------------------------------------------------------- /** * Inner class EntrySet. */ protected static class EntrySet extends View implements Set { /** * Constructs a new view of the BidiMap. * * @param parent the parent BidiMap */ protected EntrySet(AbstractDualBidiMap parent) { super(parent.maps[0].entrySet(), parent); } public Iterator iterator() { return parent.createEntrySetIterator(super.iterator()); } public boolean remove(Object obj) { if (obj instanceof Map.Entry == false) { return false; } Map.Entry entry = (Map.Entry) obj; Object key = entry.getKey(); if (parent.containsKey(key)) { Object value = parent.maps[0].get(key); if (value == null ? entry.getValue() == null : value.equals(entry.getValue())) { parent.maps[0].remove(key); parent.maps[1].remove(value); return true; } } return false; } } /** * Inner class EntrySetIterator. */ protected static class EntrySetIterator extends AbstractIteratorDecorator { /** The parent map */ protected final AbstractDualBidiMap parent; /** The last returned entry */ protected Map.Entry last = null; /** Whether remove is allowed at present */ protected boolean canRemove = false; /** * Constructor. * @param iterator the iterator to decorate * @param parent the parent map */ protected EntrySetIterator(Iterator iterator, AbstractDualBidiMap parent) { super(iterator); this.parent = parent; } public Object next() { last = new MapEntry((Map.Entry) super.next(), parent); canRemove = true; return last; } public void remove() { if (canRemove == false) { throw new IllegalStateException("Iterator remove() can only be called once after next()"); } // store value as remove may change the entry in the decorator (eg.TreeMap) Object value = last.getValue(); super.remove(); parent.maps[1].remove(value); last = null; canRemove = false; } } /** * Inner class MapEntry. */ protected static class MapEntry extends AbstractMapEntryDecorator { /** The parent map */ protected final AbstractDualBidiMap parent; /** * Constructor. * @param entry the entry to decorate * @param parent the parent map */ protected MapEntry(Map.Entry entry, AbstractDualBidiMap parent) { super(entry); this.parent = parent; } public Object setValue(Object value) { Object key = MapEntry.this.getKey(); if (parent.maps[1].containsKey(value) && parent.maps[1].get(value) != key) { throw new IllegalArgumentException("Cannot use setValue() when the object being set is already in the map"); } parent.put(key, value); final Object oldValue = super.setValue(value); return oldValue; } } /** * Inner class MapIterator. */ protected static class BidiMapIterator implements MapIterator, ResettableIterator { /** The parent map */ protected final AbstractDualBidiMap parent; /** The iterator being wrapped */ protected Iterator iterator; /** The last returned entry */ protected Map.Entry last = null; /** Whether remove is allowed at present */ protected boolean canRemove = false; /** * Constructor. * @param parent the parent map */ protected BidiMapIterator(AbstractDualBidiMap parent) { super(); this.parent = parent; this.iterator = parent.maps[0].entrySet().iterator(); } public boolean hasNext() { return iterator.hasNext(); } public Object next() { last = (Map.Entry) iterator.next(); canRemove = true; return last.getKey(); } public void remove() { if (canRemove == false) { throw new IllegalStateException("Iterator remove() can only be called once after next()"); } // store value as remove may change the entry in the decorator (eg.TreeMap) Object value = last.getValue(); iterator.remove(); parent.maps[1].remove(value); last = null; canRemove = false; } public Object getKey() { if (last == null) { throw new IllegalStateException("Iterator getKey() can only be called after next() and before remove()"); } return last.getKey(); } public Object getValue() { if (last == null) { throw new IllegalStateException("Iterator getValue() can only be called after next() and before remove()"); } return last.getValue(); } public Object setValue(Object value) { if (last == null) { throw new IllegalStateException("Iterator setValue() can only be called after next() and before remove()"); } if (parent.maps[1].containsKey(value) && parent.maps[1].get(value) != last.getKey()) { throw new IllegalArgumentException("Cannot use setValue() when the object being set is already in the map"); } return parent.put(last.getKey(), value); } public void reset() { iterator = parent.maps[0].entrySet().iterator(); last = null; canRemove = false; } public String toString() { if (last != null) { return "MapIterator[" + getKey() + "=" + getValue() + "]"; } else { return "MapIterator[]"; } } } }





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