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Google App Engine compliant variation of FreeMarker. FreeMarker is a "template engine"; a generic tool to generate text output based on templates.

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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 freemarker.cache;

import java.lang.ref.ReferenceQueue;
import java.lang.ref.SoftReference;
import java.util.HashMap;
import java.util.Map;

/**
 * A cache storage that implements a two-level Most Recently Used cache. In the
 * first level, items are strongly referenced up to the specified maximum. When
 * the maximum is exceeded, the least recently used item is moved into the  
 * second level cache, where they are softly referenced, up to another 
 * specified maximum. When the second level maximum is also exceeded, the least 
 * recently used item is discarded altogether. This cache storage is a 
 * generalization of both {@link StrongCacheStorage} and 
 * {@link SoftCacheStorage} - the effect of both of them can be achieved by 
 * setting one maximum to zero and the other to the largest positive integer. 
 * On the other hand, if you wish to use this storage in a strong-only mode, or
 * in a soft-only mode, you might consider using {@link StrongCacheStorage} or
 * {@link SoftCacheStorage} instead, as they can be used by 
 * {@link TemplateCache} concurrently without any synchronization on a 5.0 or 
 * later JRE.
 *  
 * 

This class is NOT thread-safe. If it's accessed from multiple * threads concurrently, proper synchronization must be provided by the callers. * Note that {@link TemplateCache}, the natural user of this class provides the * necessary synchronizations when it uses the class. * Also you might consider whether you need this sort of a mixed storage at all * in your solution, as in most cases SoftCacheStorage can also be sufficient. * SoftCacheStorage will use Java soft references, and they already use access * timestamps internally to bias the garbage collector against clearing * recently used references, so you can get reasonably good (and * memory-sensitive) most-recently-used caching through * {@link SoftCacheStorage} as well. * * @see freemarker.template.Configuration#setCacheStorage(CacheStorage) */ public class MruCacheStorage implements CacheStorageWithGetSize { private final MruEntry strongHead = new MruEntry(); private final MruEntry softHead = new MruEntry(); { softHead.linkAfter(strongHead); } private final Map map = new HashMap(); private final ReferenceQueue refQueue = new ReferenceQueue(); private final int strongSizeLimit; private final int softSizeLimit; private int strongSize = 0; private int softSize = 0; /** * Creates a new MRU cache storage with specified maximum cache sizes. Each * cache size can vary between 0 and {@link Integer#MAX_VALUE}. * @param strongSizeLimit the maximum number of strongly referenced templates; when exceeded, the entry used * the least recently will be moved into the soft cache. * @param softSizeLimit the maximum number of softly referenced templates; when exceeded, the entry used * the least recently will be discarded. */ public MruCacheStorage(int strongSizeLimit, int softSizeLimit) { if (strongSizeLimit < 0) throw new IllegalArgumentException("strongSizeLimit < 0"); if (softSizeLimit < 0) throw new IllegalArgumentException("softSizeLimit < 0"); this.strongSizeLimit = strongSizeLimit; this.softSizeLimit = softSizeLimit; } @Override public Object get(Object key) { removeClearedReferences(); MruEntry entry = (MruEntry) map.get(key); if (entry == null) { return null; } relinkEntryAfterStrongHead(entry, null); Object value = entry.getValue(); if (value instanceof MruReference) { // This can only happen with strongSizeLimit == 0 return ((MruReference) value).get(); } return value; } @Override public void put(Object key, Object value) { removeClearedReferences(); MruEntry entry = (MruEntry) map.get(key); if (entry == null) { entry = new MruEntry(key, value); map.put(key, entry); linkAfterStrongHead(entry); } else { relinkEntryAfterStrongHead(entry, value); } } @Override public void remove(Object key) { removeClearedReferences(); removeInternal(key); } private void removeInternal(Object key) { MruEntry entry = (MruEntry) map.remove(key); if (entry != null) { unlinkEntryAndInspectIfSoft(entry); } } @Override public void clear() { strongHead.makeHead(); softHead.linkAfter(strongHead); map.clear(); strongSize = softSize = 0; // Quick refQueue processing while (refQueue.poll() != null); } private void relinkEntryAfterStrongHead(MruEntry entry, Object newValue) { if (unlinkEntryAndInspectIfSoft(entry) && newValue == null) { // Turn soft reference into strong reference, unless is was cleared MruReference mref = (MruReference) entry.getValue(); Object strongValue = mref.get(); if (strongValue != null) { entry.setValue(strongValue); linkAfterStrongHead(entry); } else { map.remove(mref.getKey()); } } else { if (newValue != null) { entry.setValue(newValue); } linkAfterStrongHead(entry); } } private void linkAfterStrongHead(MruEntry entry) { entry.linkAfter(strongHead); if (strongSize == strongSizeLimit) { // softHead.previous is LRU strong entry MruEntry lruStrong = softHead.getPrevious(); // Attila: This is equaivalent to strongSizeLimit != 0 // DD: But entry.linkAfter(strongHead) was just executed above, so // lruStrong != strongHead is true even if strongSizeLimit == 0. if (lruStrong != strongHead) { lruStrong.unlink(); if (softSizeLimit > 0) { lruStrong.linkAfter(softHead); lruStrong.setValue(new MruReference(lruStrong, refQueue)); if (softSize == softSizeLimit) { // List is circular, so strongHead.previous is LRU soft entry MruEntry lruSoft = strongHead.getPrevious(); lruSoft.unlink(); map.remove(lruSoft.getKey()); } else { ++softSize; } } else { map.remove(lruStrong.getKey()); } } } else { ++strongSize; } } private boolean unlinkEntryAndInspectIfSoft(MruEntry entry) { entry.unlink(); if (entry.getValue() instanceof MruReference) { --softSize; return true; } else { --strongSize; return false; } } private void removeClearedReferences() { for (; ; ) { MruReference ref = (MruReference) refQueue.poll(); if (ref == null) { break; } removeInternal(ref.getKey()); } } /** * Returns the configured upper limit of the number of strong cache entries. * * @since 2.3.21 */ public int getStrongSizeLimit() { return strongSizeLimit; } /** * Returns the configured upper limit of the number of soft cache entries. * * @since 2.3.21 */ public int getSoftSizeLimit() { return softSizeLimit; } /** * Returns the current number of strong cache entries. * * @see #getStrongSizeLimit() * @since 2.3.21 */ public int getStrongSize() { return strongSize; } /** * Returns a close approximation of the current number of soft cache entries. * * @see #getSoftSizeLimit() * @since 2.3.21 */ public int getSoftSize() { removeClearedReferences(); return softSize; } /** * Returns a close approximation of the current number of cache entries. * * @see #getStrongSize() * @see #getSoftSize() * @since 2.3.21 */ @Override public int getSize() { return getSoftSize() + getStrongSize(); } private static final class MruEntry { private MruEntry prev; private MruEntry next; private final Object key; private Object value; /** * Used solely to construct the head element */ MruEntry() { makeHead(); key = value = null; } MruEntry(Object key, Object value) { this.key = key; this.value = value; } Object getKey() { return key; } Object getValue() { return value; } void setValue(Object value) { this.value = value; } MruEntry getPrevious() { return prev; } void linkAfter(MruEntry entry) { next = entry.next; entry.next = this; prev = entry; next.prev = this; } void unlink() { next.prev = prev; prev.next = next; prev = null; next = null; } void makeHead() { prev = next = this; } } private static class MruReference extends SoftReference { private final Object key; MruReference(MruEntry entry, ReferenceQueue queue) { super(entry.getValue(), queue); this.key = entry.getKey(); } Object getKey() { return key; } } }





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