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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.openjpa.lib.util.collections;

import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.Map;

/**
 * A Map implementation with a fixed maximum size which removes
 * the least recently used entry if an entry is added when full.
 * 

* The least recently used algorithm works on the get and put operations only. * Iteration of any kind, including setting the value by iteration, does not * change the order. Queries such as containsKey and containsValue or access * via views also do not change the order. *

*

* A somewhat subtle ramification of the least recently used * algorithm is that calls to {@link #get(Object)} stand a very good chance * of modifying the map's iteration order and thus invalidating any * iterators currently in use. It is therefore suggested that iterations * over an {@link LRUMap} instance access entry values only through a * {@link MapIterator} or {@link #entrySet()} iterator. *

*

* The map implements OrderedMap and entries may be queried using * the bidirectional OrderedMapIterator. The order returned is * least recently used to most recently used. Iterators from map views can * also be cast to OrderedIterator if required. *

*

* All the available iterators can be reset back to the start by casting to * ResettableIterator and calling reset(). *

*

* Note that LRUMap is not synchronized and is not thread-safe. * If you wish to use this map from multiple threads concurrently, you must use * appropriate synchronization. The simplest approach is to wrap this map * using {@link java.util.Collections#synchronizedMap(Map)}. This class may throw * NullPointerException's when accessed by concurrent threads. *

* * @param the type of the keys in this map * @param the type of the values in this map * @since 3.0 (previously in main package v1.0) */ public class LRUMap extends AbstractLinkedMap implements BoundedMap, Serializable, Cloneable { /** Serialisation version */ private static final long serialVersionUID = -612114643488955218L; /** Default maximum size */ protected static final int DEFAULT_MAX_SIZE = 100; /** Maximum size */ private transient int maxSize; /** Scan behaviour */ private boolean scanUntilRemovable; /** * Constructs a new empty map with a maximum size of 100. */ public LRUMap() { this(DEFAULT_MAX_SIZE, DEFAULT_LOAD_FACTOR, false); } /** * Constructs a new, empty map with the specified maximum size. * * @param maxSize the maximum size of the map * @throws IllegalArgumentException if the maximum size is less than one */ public LRUMap(final int maxSize) { this(maxSize, DEFAULT_LOAD_FACTOR); } /** * Constructs a new, empty map with the specified maximum size. * * @param maxSize the maximum size of the map * @param initialSize the initial size of the map * @throws IllegalArgumentException if the maximum size is less than one * @throws IllegalArgumentException if the initial size is negative or larger than the maximum size * @since 4.1 */ public LRUMap(final int maxSize, final int initialSize) { this(maxSize, initialSize, DEFAULT_LOAD_FACTOR); } /** * Constructs a new, empty map with the specified maximum size. * * @param maxSize the maximum size of the map * @param scanUntilRemovable scan until a removeable entry is found, default false * @throws IllegalArgumentException if the maximum size is less than one * @since 3.1 */ public LRUMap(final int maxSize, final boolean scanUntilRemovable) { this(maxSize, DEFAULT_LOAD_FACTOR, scanUntilRemovable); } /** * Constructs a new, empty map with the specified max capacity and * load factor. * * @param maxSize the maximum size of the map * @param loadFactor the load factor * @throws IllegalArgumentException if the maximum size is less than one * @throws IllegalArgumentException if the load factor is less than zero */ public LRUMap(final int maxSize, final float loadFactor) { this(maxSize, loadFactor, false); } /** * Constructs a new, empty map with the specified max / initial capacity and * load factor. * * @param maxSize the maximum size of the map * @param initialSize the initial size of the map * @param loadFactor the load factor * @throws IllegalArgumentException if the maximum size is less than one * @throws IllegalArgumentException if the initial size is negative or larger than the maximum size * @throws IllegalArgumentException if the load factor is less than zero * @since 4.1 */ public LRUMap(final int maxSize, final int initialSize, final float loadFactor) { this(maxSize, initialSize, loadFactor, false); } /** * Constructs a new, empty map with the specified max capacity and load factor. * * @param maxSize the maximum size of the map * @param loadFactor the load factor * @param scanUntilRemovable scan until a removeable entry is found, default false * @throws IllegalArgumentException if the maximum size is less than one * @throws IllegalArgumentException if the load factor is less than zero * @since 3.1 */ public LRUMap(final int maxSize, final float loadFactor, final boolean scanUntilRemovable) { this(maxSize, maxSize, loadFactor, scanUntilRemovable); } /** * Constructs a new, empty map with the specified max / initial capacity and load factor. * * @param maxSize the maximum size of the map * @param initialSize the initial size of the map * @param loadFactor the load factor * @param scanUntilRemovable scan until a removeable entry is found, default false * @throws IllegalArgumentException if the maximum size is less than one * @throws IllegalArgumentException if the initial size is negative or larger than the maximum size * @throws IllegalArgumentException if the load factor is less than zero * @since 4.1 */ public LRUMap(final int maxSize, final int initialSize, final float loadFactor, final boolean scanUntilRemovable) { super(initialSize, loadFactor); if (maxSize < 1) { throw new IllegalArgumentException("LRUMap max size must be greater than 0"); } if (initialSize > maxSize) { throw new IllegalArgumentException("LRUMap initial size must not be greather than max size"); } this.maxSize = maxSize; this.scanUntilRemovable = scanUntilRemovable; } /** * Constructor copying elements from another map. *

* The maximum size is set from the map's size. * * @param map the map to copy * @throws NullPointerException if the map is null * @throws IllegalArgumentException if the map is empty */ public LRUMap(final Map map) { this(map, false); } /** * Constructor copying elements from another map. * *

The maximum size is set from the map's size.

* * @param map the map to copy * @param scanUntilRemovable scan until a removeable entry is found, default false * @throws NullPointerException if the map is null * @throws IllegalArgumentException if the map is empty * @since 3.1 */ public LRUMap(final Map map, final boolean scanUntilRemovable) { this(map.size(), DEFAULT_LOAD_FACTOR, scanUntilRemovable); putAll(map); } //----------------------------------------------------------------------- /** * Gets the value mapped to the key specified. *

* This operation changes the position of the key in the map to the * most recently used position (last). * * @param key the key * @return the mapped value, null if no match */ @Override public V get(final Object key) { return get(key, true); } /** * Gets the value mapped to the key specified. *

* If {@code updateToMRU} is {@code true}, the position of the key in the map * is changed to the most recently used position (last), otherwise the iteration * order is not changed by this operation. * * @param key the key * @param updateToMRU whether the key shall be updated to the * most recently used position * @return the mapped value, null if no match * @since 4.1 */ public V get(final Object key, final boolean updateToMRU) { final LinkEntry entry = getEntry(key); if (entry == null) { return null; } if (updateToMRU) { moveToMRU(entry); } return entry.getValue(); } //----------------------------------------------------------------------- /** * Moves an entry to the MRU position at the end of the list. *

* This implementation moves the updated entry to the end of the list. * * @param entry the entry to update */ protected void moveToMRU(final LinkEntry entry) { if (entry.after != header) { modCount++; // remove if(entry.before == null) { throw new IllegalStateException("Entry.before is null." + " This should not occur if your keys are immutable, and you have used synchronization properly."); } entry.before.after = entry.after; entry.after.before = entry.before; // add first entry.after = header; entry.before = header.before; header.before.after = entry; header.before = entry; } else if (entry == header) { throw new IllegalStateException("Can't move header to MRU" + " This should not occur if your keys are immutable, and you have used synchronization properly."); } } /** * Updates an existing key-value mapping. *

* This implementation moves the updated entry to the end of the list * using {@link #moveToMRU(LinkEntry)}. * * @param entry the entry to update * @param newValue the new value to store */ @Override protected void updateEntry(final HashEntry entry, final V newValue) { moveToMRU((LinkEntry) entry); // handles modCount entry.setValue(newValue); } /** * Adds a new key-value mapping into this map. *

* This implementation checks the LRU size and determines whether to * discard an entry or not using {@link #removeLRU(LinkEntry)}. *

* From Commons Collections 3.1 this method uses {@link #isFull()} rather * than accessing size and maxSize directly. * It also handles the scanUntilRemovable functionality. * * @param hashIndex the index into the data array to store at * @param hashCode the hash code of the key to add * @param key the key to add * @param value the value to add */ @Override protected void addMapping(final int hashIndex, final int hashCode, final K key, final V value) { if (isFull()) { LinkEntry reuse = header.after; boolean removeLRUEntry = false; if (scanUntilRemovable) { while (reuse != header && reuse != null) { if (removeLRU(reuse)) { removeLRUEntry = true; break; } reuse = reuse.after; } if (reuse == null) { throw new IllegalStateException( "Entry.after=null, header.after=" + header.after + " header.before=" + header.before + " key=" + key + " value=" + value + " size=" + size + " maxSize=" + maxSize + " This should not occur if your keys are immutable, and you have used synchronization properly."); } } else { removeLRUEntry = removeLRU(reuse); } if (removeLRUEntry) { if (reuse == null) { throw new IllegalStateException( "reuse=null, header.after=" + header.after + " header.before=" + header.before + " key=" + key + " value=" + value + " size=" + size + " maxSize=" + maxSize + " This should not occur if your keys are immutable, and you have used synchronization properly."); } reuseMapping(reuse, hashIndex, hashCode, key, value); } else { super.addMapping(hashIndex, hashCode, key, value); } } else { super.addMapping(hashIndex, hashCode, key, value); } } /** * Reuses an entry by removing it and moving it to a new place in the map. *

* This method uses {@link #removeEntry}, {@link #reuseEntry} and {@link #addEntry}. * * @param entry the entry to reuse * @param hashIndex the index into the data array to store at * @param hashCode the hash code of the key to add * @param key the key to add * @param value the value to add */ protected void reuseMapping(final LinkEntry entry, final int hashIndex, final int hashCode, final K key, final V value) { // find the entry before the entry specified in the hash table // remember that the parameters (except the first) refer to the new entry, // not the old one try { final int removeIndex = hashIndex(entry.hashCode, data.length); final HashEntry[] tmp = data; // may protect against some sync issues HashEntry loop = tmp[removeIndex]; HashEntry previous = null; while (loop != entry && loop != null) { previous = loop; loop = loop.next; } if (loop == null) { throw new IllegalStateException( "Entry.next=null, data[removeIndex]=" + data[removeIndex] + " previous=" + previous + " key=" + key + " value=" + value + " size=" + size + " maxSize=" + maxSize + " This should not occur if your keys are immutable, and you have used synchronization properly."); } // reuse the entry modCount++; removeEntry(entry, removeIndex, previous); reuseEntry(entry, hashIndex, hashCode, key, value); addEntry(entry, hashIndex); } catch (final NullPointerException ex) { throw new IllegalStateException( "NPE, entry=" + entry + " entryIsHeader=" + (entry==header) + " key=" + key + " value=" + value + " size=" + size + " maxSize=" + maxSize + " This should not occur if your keys are immutable, and you have used synchronization properly."); } } /** * Subclass method to control removal of the least recently used entry from the map. *

* This method exists for subclasses to override. A subclass may wish to * provide cleanup of resources when an entry is removed. For example: *

     * protected boolean removeLRU(LinkEntry entry) {
     *   releaseResources(entry.getValue());  // release resources held by entry
     *   return true;  // actually delete entry
     * }
     * 
*

* Alternatively, a subclass may choose to not remove the entry or selectively * keep certain LRU entries. For example: *

     * protected boolean removeLRU(LinkEntry entry) {
     *   if (entry.getKey().toString().startsWith("System.")) {
     *     return false;  // entry not removed from LRUMap
     *   } else {
     *     return true;  // actually delete entry
     *   }
     * }
     * 
* The effect of returning false is dependent on the scanUntilRemovable flag. * If the flag is true, the next LRU entry will be passed to this method and so on * until one returns false and is removed, or every entry in the map has been passed. * If the scanUntilRemovable flag is false, the map will exceed the maximum size. *

* NOTE: Commons Collections 3.0 passed the wrong entry to this method. * This is fixed in version 3.1 onwards. * * @param entry the entry to be removed * @return {@code true} */ protected boolean removeLRU(final LinkEntry entry) { return true; } //----------------------------------------------------------------------- /** * Returns true if this map is full and no new mappings can be added. * * @return true if the map is full */ @Override public boolean isFull() { return size >= maxSize; } /** * Gets the maximum size of the map (the bound). * * @return the maximum number of elements the map can hold */ @Override public int maxSize() { return maxSize; } /** * Whether this LRUMap will scan until a removable entry is found when the * map is full. * * @return true if this map scans * @since 3.1 */ public boolean isScanUntilRemovable() { return scanUntilRemovable; } //----------------------------------------------------------------------- /** * Clones the map without cloning the keys or values. * * @return a shallow clone */ @Override public LRUMap clone() { return (LRUMap) super.clone(); } /** * Write the map out using a custom routine. * * @param out the output stream * @throws IOException if an error occurs while writing to the stream */ private void writeObject(final ObjectOutputStream out) throws IOException { out.defaultWriteObject(); doWriteObject(out); } /** * Read the map in using a custom routine. * * @param in the input stream * @throws IOException if an error occurs while reading from the stream * @throws ClassNotFoundException if an object read from the stream can not be loaded */ private void readObject(final ObjectInputStream in) throws IOException, ClassNotFoundException { in.defaultReadObject(); doReadObject(in); } /** * Writes the data necessary for put() to work in deserialization. * * @param out the output stream * @throws IOException if an error occurs while writing to the stream */ @Override protected void doWriteObject(final ObjectOutputStream out) throws IOException { out.writeInt(maxSize); super.doWriteObject(out); } /** * Reads the data necessary for put() to work in the superclass. * * @param in the input stream * @throws IOException if an error occurs while reading from the stream * @throws ClassNotFoundException if an object read from the stream can not be loaded */ @Override protected void doReadObject(final ObjectInputStream in) throws IOException, ClassNotFoundException { maxSize = in.readInt(); super.doReadObject(in); } }





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