Index Score
		net.sf.ehcache.constructs.blocking
		ehcache

View: Reasons, Metrics, Source Code

These are the metrics that contribute to the Enerjy Score for this file, ranked by impact. So the metrics listed at the top influence the score to a greater extent that the metrics listed at the bottom.

Metric	Description
DOC_COMMENT	Number of javadoc comment lines
JAVA0126	JAVA0126 Method declares unchecked exception in throws
DECL_COMMENTS	Comments in declarations
COMMENTS	Comment lines
RETURNS	Number of return points from functions
SIZE	Size of the file in bytes
FUNCTIONS	Number of function declarations
INTERFACE_COMPLEXITY	Interface complexity
JAVA0110	JAVA0110 Incorrect javadoc: no @return tag
LINES	Number of lines in the source file
JAVA0115	JAVA0115 Incorrect javadoc: no @throws or @exception tag for 'exception'
JAVA0144	JAVA0144 Line exceeds maximum M characters
EXITS	Procedure exits
BLOCKS	Number of blocks
PARAMS	Number of formal parameter declarations
JAVA0034	JAVA0034 Missing braces in if statement
CYCLOMATIC	Cyclomatic complexity
JAVA0132	JAVA0132 Method overload with compatible signature
UNIQUE_OPERANDS	Number of unique operands
PROGRAM_VOCAB	Halstead program vocabulary
JAVA0117	JAVA0117 Missing javadoc: method 'method'
JAVA0143	JAVA0143 Synchronized method
PROGRAM_VOLUME	Halstead program volume
JAVA0136	JAVA0136 N methods defined in class (maximum: M)
LOC	Lines of code
LINE_COMMENT	Number of line comments
COMPARISONS	Number of comparison operators
EXEC_COMMENTS	Comments in executable code
JAVA0030	JAVA0030 Private field not used
LOOPS	Number of loops
JAVA0108	JAVA0108 Incorrect javadoc: no @param tag for 'parameter'
OPERATORS	Number of operators
UNIQUE_OPERATORS	Number of unique operators
PROGRAM_LENGTH	Halstead program length
JAVA0145	JAVA0145 Tab character used in source file

/** * Copyright 2003-2008 Luck Consulting Pty Ltd * * Licensed 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 net.sf.ehcache.constructs.blocking; import net.sf.ehcache.CacheException; import net.sf.ehcache.CacheManager; import net.sf.ehcache.Ehcache; import net.sf.ehcache.Element; import net.sf.ehcache.Statistics; import net.sf.ehcache.Status; import net.sf.ehcache.loader.CacheLoader; import net.sf.ehcache.exceptionhandler.CacheExceptionHandler; import net.sf.ehcache.extension.CacheExtension; import net.sf.ehcache.config.CacheConfiguration; import net.sf.ehcache.bootstrap.BootstrapCacheLoader; import net.sf.ehcache.constructs.concurrent.ConcurrencyUtil; import net.sf.ehcache.constructs.concurrent.Mutex; import net.sf.ehcache.event.RegisteredEventListeners; import net.sf.ehcache.store.MemoryStoreEvictionPolicy; import java.io.Serializable; import java.util.List; import java.util.Map; import java.util.Collection; import java.util.logging.Logger; /** * A blocking decorator for an Ehcache, backed by a {@link Ehcache}. * <p/> * It allows concurrent read access to elements already in the cache. If the element is null, other * reads will block until an element with the same key is put into the cache. * <p/> * This is useful for constructing read-through or self-populating caches. * <p/> * This implementation uses the {@link Mutex} class from Doug Lea's concurrency package. If you wish to use * this class, you will need the concurrent package in your class path. * <p/> * It features: * <ul> * <li>Excellent liveness. * <li>Fine-grained locking on each element, rather than the cache as a whole. * <li>Scalability to a large number of threads. * </ul> * <p/> * This class has been updated to use Lock striping. The Mutex implementation gives scalability but creates * many Mutex objects of 24 bytes each. Lock striping limits their number to 100. * <p/> * A version of this class is planned which will dynamically use JDK5's concurrency package, which is * based on Doug Lea's, so as to avoid a dependency on his package for JDK5 systems. This will not * be implemented until JDK5 is released on MacOSX and Linux, as JDK5 will be required to compile * it, though any version from JDK1.2 up will be able to run the code, falling back to Doug * Lea's concurrency package, if the JDK5 package is not found in the classpath. * <p/> * The <code>Mutex</code> class does not appear in the JDK5 concurrency package. Doug Lea has * generously offered the following advice: * <p/> * "You should just be able to use ReentrantLock here. We supply * ReentrantLock, but not Mutex because the number of cases where a * non-reentrant mutex is preferable is small, and most people are more * familiar with reentrant seamantics. If you really need a non-reentrant * one, the javadocs for class AbstractQueuedSynchronizer include sample * code for them." * <p/> * -Doug * <p/> * "Hashtable / synchronizedMap uses the "one big fat lock" approach to guard the mutable state of the map. * That works, but is a big concurrency bottleneck, as you've observed. You went to the opposite extreme, one lock per key. * That works (as long as you've got sufficient synchronization in the cache itself to protect its own data structures.) * <p/> * Lock striping is a middle ground, partitioning keys into a fixed number of subsets, like the trick used at large * theaters for will-call ticket pickup -- there are separate lines for "A-F, G-M, N-R, and S-Z". * This way, there are a fixed number of locks, each guarding (hopefully) 1/Nth of the keys." * - Brian Goetz * <p/> * Further improvements to hashing suggested by Joe Bowbeer. * * @author Greg Luck * @version $Id: BlockingCache.java 744 2008-08-16 20:10:49Z gregluck $ */ public class BlockingCache implements Ehcache { /** * The default number of locks to use. Must be a power of 2 */ public static final int LOCK_NUMBER = 2048; private static final Logger LOG = Logger.getLogger(BlockingCache.class.getName()); /** * Based on the lock striping concept from Brian Goetz. See Java Concurrency in Practice 11.4.3 */ protected final Mutex[] locks = new Mutex[LOCK_NUMBER]; { for (int i = 0; i < LOCK_NUMBER; i++) { locks[i] = new Mutex(); } } /** * The backing Cache */ protected final Ehcache cache; /** * The amount of time to block a thread before a LockTimeoutException is thrown */ protected int timeoutMillis; /** * Creates a BlockingCache which decorates the supplied cache. * * @param cache a backing ehcache. * @throws CacheException * @since 1.2 */ public BlockingCache(final Ehcache cache) throws CacheException { this.cache = cache; } /** * Retrieve the EHCache backing cache */ protected Ehcache getCache() { return cache; } /** * Returns this cache's name */ public String getName() { return cache.getName(); } /** * Sets the cache name which will name. * * @param name the name of the cache. Should not be null. */ public void setName(String name) { cache.setName(name); } /** * Gets timeToIdleSeconds. */ public long getTimeToIdleSeconds() { return cache.getTimeToIdleSeconds(); } /** * Gets timeToLiveSeconds. */ public long getTimeToLiveSeconds() { return cache.getTimeToLiveSeconds(); } /** * Are elements eternal. */ public boolean isEternal() { return cache.isEternal(); } /** * Does the overflow go to disk. */ public boolean isOverflowToDisk() { return cache.isOverflowToDisk(); } /** * Gets the maximum number of elements to hold in memory. */ public int getMaxElementsInMemory() { return cache.getMaxElementsInMemory(); } /** * @return the maximum number of elements on Disk, or 0 if unlimited * @see net.sf.ehcache.Cache#getMaxElementsOnDisk */ public int getMaxElementsOnDisk() { return cache.getMaxElementsOnDisk(); } /** * The policy used to evict elements from the {@link net.sf.ehcache.store.MemoryStore}. * This can be one of: * <ol> * <li>LRU - least recently used * <li>LFU - least frequently used * <li>FIFO - first in first out, the oldest element by creation time * </ol> * The default value is LRU * * @since 1.2 */ public MemoryStoreEvictionPolicy getMemoryStoreEvictionPolicy() { return cache.getMemoryStoreEvictionPolicy(); } /** * Checks whether this cache element has expired. * <p/> * The element is expired if: * <ol> * <li> the idle time is non-zero and has elapsed, unless the cache is eternal; or * <li> the time to live is non-zero and has elapsed, unless the cache is eternal; or * <li> the value of the element is null. * </ol> * * @return true if it has expired * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} * @throws NullPointerException if the element is null */ public boolean isExpired(Element element) throws IllegalStateException, NullPointerException { return cache.isExpired(element); } /** * Clones a cache. This is only legal if the cache has not been * initialized. At that point only primitives have been set and no * {@link net.sf.ehcache.store.LruMemoryStore} or {@link net.sf.ehcache.store.DiskStore} has been created. * <p/> * A new, empty, RegisteredEventListeners is created on clone. * <p/> * * @return an object of type {@link net.sf.ehcache.Cache} * @throws CloneNotSupportedException */ public Object clone() throws CloneNotSupportedException { return super.clone(); } /** * @return true if the cache overflows to disk and the disk is persistent between restarts */ public boolean isDiskPersistent() { return cache.isDiskPersistent(); } /** * @return the interval between runs * of the expiry thread, where it checks the disk store for expired elements. It is not the * the timeToLiveSeconds. */ public long getDiskExpiryThreadIntervalSeconds() { return cache.getDiskExpiryThreadIntervalSeconds(); } /** * Use this to access the service in order to register and unregister listeners * * @return the RegisteredEventListeners instance for this cache. */ public RegisteredEventListeners getCacheEventNotificationService() { return cache.getCacheEventNotificationService(); } /** * Whether an Element is stored in the cache in Memory, indicating a very low cost of retrieval. * * @return true if an element matching the key is found in memory */ public boolean isElementInMemory(Serializable key) { return cache.isElementInMemory(key); } /** * Whether an Element is stored in the cache in Memory, indicating a very low cost of retrieval. * * @return true if an element matching the key is found in memory * @since 1.2 */ public boolean isElementInMemory(Object key) { return cache.isElementInMemory(key); } /** * Whether an Element is stored in the cache on Disk, indicating a higher cost of retrieval. * * @return true if an element matching the key is found in the diskStore */ public boolean isElementOnDisk(Serializable key) { return cache.isElementOnDisk(key); } /** * Whether an Element is stored in the cache on Disk, indicating a higher cost of retrieval. * * @return true if an element matching the key is found in the diskStore * @since 1.2 */ public boolean isElementOnDisk(Object key) { return cache.isElementOnDisk(key); } /** * The GUID for this cache instance can be used to determine whether two cache instance references * are pointing to the same cache. * * @return the globally unique identifier for this cache instance. This is guaranteed to be unique. * @since 1.2 */ public String getGuid() { return cache.getGuid(); } /** * Gets the CacheManager managing this cache. For a newly created cache this will be null until * it has been added to a CacheManager. * * @return the manager or null if there is none */ public CacheManager getCacheManager() { return cache.getCacheManager(); } /** * Resets statistics counters back to 0. */ public void clearStatistics() { cache.clearStatistics(); } /** * Accurately measuring statistics can be expensive. Returns the current accuracy setting. * * @return one of {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_BEST_EFFORT}, {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_GUARANTEED}, {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_NONE} */ public int getStatisticsAccuracy() { return cache.getStatisticsAccuracy(); } /** * Sets the statistics accuracy. * * @param statisticsAccuracy one of {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_BEST_EFFORT}, {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_GUARANTEED}, {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_NONE} */ public void setStatisticsAccuracy(int statisticsAccuracy) { cache.setStatisticsAccuracy(statisticsAccuracy); } /** * Causes all elements stored in the Cache to be synchronously checked for expiry, and if expired, evicted. */ public void evictExpiredElements() { cache.evictExpiredElements(); } /** * An inexpensive check to see if the key exists in the cache. * * @param key the key to check for * @return true if an Element matching the key is found in the cache. No assertions are made about the state of the Element. */ public boolean isKeyInCache(Object key) { return cache.isKeyInCache(key); } /** * An extremely expensive check to see if the value exists in the cache. * * @param value to check for * @return true if an Element matching the key is found in the cache. No assertions are made about the state of the Element. */ public boolean isValueInCache(Object value) { return cache.isValueInCache(value); } /** * Gets an immutable Statistics object representing the Cache statistics at the time. How the statistics are calculated * depends on the statistics accuracy setting. The only aspect of statistics sensitive to the accuracy setting is * object size. How that is calculated is discussed below. * <h3>Best Effort Size</h3> * This result is returned when the statistics accuracy setting is {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_BEST_EFFORT}. * <p/> * The size is the number of {@link net.sf.ehcache.Element}s in the {@link net.sf.ehcache.store.MemoryStore} plus * the number of {@link net.sf.ehcache.Element}s in the {@link net.sf.ehcache.store.DiskStore}. * <p/> * This number is the actual number of elements, including expired elements that have * not been removed. Any duplicates between stores are accounted for. * <p/> * Expired elements are removed from the the memory store when * getting an expired element, or when attempting to spool an expired element to * disk. * <p/> * Expired elements are removed from the disk store when getting an expired element, * or when the expiry thread runs, which is once every five minutes. * <p/> * <h3>Guaranteed Accuracy Size</h3> * This result is returned when the statistics accuracy setting is {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_GUARANTEED}. * <p/> * This method accounts for elements which might be expired or duplicated between stores. It take approximately * 200ms per 1000 elements to execute. * <h3>Fast but non-accurate Size</h3> * This result is returned when the statistics accuracy setting is {@link net.sf.ehcache.Statistics#STATISTICS_ACCURACY_NONE}. * <p/> * The number given may contain expired elements. In addition if the DiskStore is used it may contain some double * counting of elements. It takes 6ms for 1000 elements to execute. Time to execute is O(log n). 50,000 elements take * 36ms. * * @return the number of elements in the ehcache, with a varying degree of accuracy, depending on accuracy setting. * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public Statistics getStatistics() throws IllegalStateException { return cache.getStatistics(); } /** * Sets the CacheManager * * @param cacheManager */ public void setCacheManager(CacheManager cacheManager) { cache.setCacheManager(cacheManager); } /** * Accessor for the BootstrapCacheLoader associated with this cache. For testing purposes. */ public BootstrapCacheLoader getBootstrapCacheLoader() { return cache.getBootstrapCacheLoader(); } /** * Sets the bootstrap cache loader. * * @param bootstrapCacheLoader the loader to be used * @throws net.sf.ehcache.CacheException if this method is called after the cache is initialized */ public void setBootstrapCacheLoader(BootstrapCacheLoader bootstrapCacheLoader) throws CacheException { cache.setBootstrapCacheLoader(bootstrapCacheLoader); } /** * DiskStore paths can conflict between CacheManager instances. This method allows the path to be changed. * * @param diskStorePath the new path to be used. * @throws net.sf.ehcache.CacheException if this method is called after the cache is initialized */ public void setDiskStorePath(String diskStorePath) throws CacheException { cache.setDiskStorePath(diskStorePath); } /** * Newly created caches do not have a {@link net.sf.ehcache.store.MemoryStore} or a {@link net.sf.ehcache.store.DiskStore}. * <p/> * This method creates those and makes the cache ready to accept elements */ public void initialise() { cache.initialise(); } /** * Bootstrap command. This must be called after the Cache is intialised, during * CacheManager initialisation. If loads are synchronous, they will complete before the CacheManager * initialise completes, otherwise they will happen in the background. */ public void bootstrap() { cache.bootstrap(); } /** * Flushes all cache items from memory to auxilliary caches and close the auxilliary caches. * <p/> * Should be invoked only by CacheManager. * * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public void dispose() throws IllegalStateException { cache.dispose(); } /** * Gets the cache configuration this cache was created with. * <p/> * Things like listeners that are added dynamically are excluded. */ public CacheConfiguration getCacheConfiguration() { return cache.getCacheConfiguration(); } /** * Looks up an entry. Blocks if the entry is null until a call to {@link #put} is done * to put an Element in. * <p/> * If a put is not done, the lock is never released. * <p/> * If this method throws an exception, it is the responsibility of the caller to catch that exception and call * <code>put(new Element(key, null));</code> to release the lock acquired. See {@link net.sf.ehcache.constructs.blocking.SelfPopulatingCache} * for an example. * * Note. If a LockTimeoutException is thrown while doing a {@link #get} it means the lock was never acquired, * therefore it is a threading error to call {@link #put} * * @throws LockTimeoutException if timeout millis is non zero and this method has been unable to * acquire a lock in that time * @throws RuntimeException if thrown the lock will not released. Catch and call<code>put(new Element(key, null));</code> * to release the lock acquired. */ public Element get(final Object key) throws RuntimeException, LockTimeoutException { Mutex lock = getLockForKey(key); try { if (timeoutMillis == 0) { lock.acquire(); } else { boolean acquired = lock.attempt(timeoutMillis); if (!acquired) { StringBuffer message = new StringBuffer("Lock timeout. Waited more than ") .append(timeoutMillis) .append("ms to acquire lock for key ") .append(key).append(" on blocking cache ").append(cache.getName()); throw new LockTimeoutException(message.toString()); } } final Element element = cache.get(key); if (element != null) { //ok let the other threads in lock.release(); return element; } else { //don't release the read lock until we put return null; } } catch (InterruptedException e) { throw new CacheException("Get interrupted for key " + key + ". Message was: " + e.getMessage()); } } /** * Gets the Mutex to use for a given key. * * @param key the key * @return one of a limited number of Mutexes. */ protected Mutex getLockForKey(final Object key) { int lockNumber = ConcurrencyUtil.selectLock(key, LOCK_NUMBER); return locks[lockNumber]; } /** * Adds an entry and unlocks it */ public void put(Element element) { if (element == null) { return; } Object key = element.getObjectKey(); Object value = element.getObjectValue(); Mutex lock = getLockForKey(key); try { if (value != null) { cache.put(element); } else { cache.remove(key); } } finally { //Release the readlock here. This will have been acquired in the get, where the element was null lock.release(); } } /** * Put an element in the cache. * <p/> * Resets the access statistics on the element, which would be the case if it has previously been * gotten from a cache, and is now being put back. * <p/> * Also notifies the CacheEventListener that: * <ul> * <li>the element was put, but only if the Element was actually put. * <li>if the element exists in the cache, that an update has occurred, even if the element would be expired * if it was requested * </ul> * * @param element An object. If Serializable it can fully participate in replication and the DiskStore. * @param doNotNotifyCacheReplicators whether the put is coming from a doNotNotifyCacheReplicators cache peer, in which case this put should not initiate a * further notification to doNotNotifyCacheReplicators cache peers * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} * @throws IllegalArgumentException if the element is null */ public void put(Element element, boolean doNotNotifyCacheReplicators) throws IllegalArgumentException, IllegalStateException, CacheException { cache.put(element, doNotNotifyCacheReplicators); } /** * Put an element in the cache, without updating statistics, or updating listeners. This is meant to be used * in conjunction with {@link #getQuiet} * * @param element An object. If Serializable it can fully participate in replication and the DiskStore. * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} * @throws IllegalArgumentException if the element is null */ public void putQuiet(Element element) throws IllegalArgumentException, IllegalStateException, CacheException { cache.putQuiet(element); } /** * Gets an element from the cache. Updates Element Statistics * <p/> * Note that the Element's lastAccessTime is always the time of this get. * Use {@link #getQuiet(Object)} to peak into the Element to see its last access time with get * * @param key a serializable value * @return the element, or null, if it does not exist. * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} * @see #isExpired */ public Element get(Serializable key) throws IllegalStateException, CacheException { return this.get((Object) key); } /** * Gets an element from the cache, without updating Element statistics. Cache statistics are * still updated. * <p/> * * @param key a serializable value * @return the element, or null, if it does not exist. * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} * @see #isExpired */ public Element getQuiet(Serializable key) throws IllegalStateException, CacheException { return cache.getQuiet(key); } /** * Gets an element from the cache, without updating Element statistics. Cache statistics are * still updated. * <p/> * * @param key a serializable value * @return the element, or null, if it does not exist. * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} * @see #isExpired * @since 1.2 */ public Element getQuiet(Object key) throws IllegalStateException, CacheException { return cache.getQuiet(key); } /** * Returns the keys for this cache. * * @return a list of {@link Object} keys for this cache. This is not a live set, so it will not track changes to the key set. */ public List getKeys() throws CacheException { return cache.getKeys(); } /** * Returns a list of all elements in the cache. Only keys of non-expired * elements are returned. * <p/> * The returned keys are unique and can be considered a set. * <p/> * The List returned is not live. It is a copy. * <p/> * The time taken is O(n), where n is the number of elements in the cache. On * a 1.8Ghz P4, the time taken is approximately 200ms per 1000 entries. This method * is not synchronized, because it relies on a non-live list returned from {@link #getKeys()} * , which is synchronised, and which takes 8ms per 1000 entries. This way * cache liveness is preserved, even if this method is very slow to return. * <p/> * Consider whether your usage requires checking for expired keys. Because * this method takes so long, depending on cache settings, the list could be * quite out of date by the time you get it. * * @return a list of {@link Object} keys * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public List getKeysWithExpiryCheck() throws IllegalStateException, CacheException { return cache.getKeysWithExpiryCheck(); } /** * Returns a list of all elements in the cache, whether or not they are expired. * <p/> * The returned keys are not unique and may contain duplicates. If the cache is only * using the memory store, the list will be unique. If the disk store is being used * as well, it will likely contain duplicates, because of the internal store design. * <p/> * The List returned is not live. It is a copy. * <p/> * The time taken is O(log n). On a single cpu 1.8Ghz P4, approximately 6ms is required * for 1000 entries and 36 for 50000. * <p/> * This is the fastest getKeys method * * @return a list of {@link Object} keys * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public List getKeysNoDuplicateCheck() throws IllegalStateException { return cache.getKeysNoDuplicateCheck(); } /** * Removes an {@link net.sf.ehcache.Element} from the Cache. This also removes it from any * stores it may be in. * <p/> * Also notifies the CacheEventListener after the element was removed, but only if an Element * with the key actually existed. * * @param key * @return true if the element was removed, false if it was not found in the cache * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public boolean remove(Serializable key) throws IllegalStateException { return cache.remove(key); } /** * Removes an {@link net.sf.ehcache.Element} from the Cache. This also removes it from any * stores it may be in. * <p/> * Also notifies the CacheEventListener after the element was removed, but only if an Element * with the key actually existed. * * @param key * @return true if the element was removed, false if it was not found in the cache * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} * @since 1.2 */ public boolean remove(Object key) throws IllegalStateException { return cache.remove(key); } /** * Removes an {@link net.sf.ehcache.Element} from the Cache. This also removes it from any * stores it may be in. * <p/> * Also notifies the CacheEventListener after the element was removed, but only if an Element * with the key actually existed. * * @param key * @param doNotNotifyCacheReplicators whether the put is coming from a doNotNotifyCacheReplicators cache peer, in which case this put should not initiate a * further notification to doNotNotifyCacheReplicators cache peers * @return true if the element was removed, false if it was not found in the cache * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public boolean remove(Serializable key, boolean doNotNotifyCacheReplicators) throws IllegalStateException { return cache.remove(key, doNotNotifyCacheReplicators); } /** * Removes an {@link net.sf.ehcache.Element} from the Cache. This also removes it from any * stores it may be in. * <p/> * Also notifies the CacheEventListener after the element was removed, but only if an Element * with the key actually existed. * * @param key * @param doNotNotifyCacheReplicators whether the put is coming from a doNotNotifyCacheReplicators cache peer, in which case this put should not initiate a * further notification to doNotNotifyCacheReplicators cache peers * @return true if the element was removed, false if it was not found in the cache * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public boolean remove(Object key, boolean doNotNotifyCacheReplicators) throws IllegalStateException { return cache.remove(key, doNotNotifyCacheReplicators); } /** * Removes an {@link net.sf.ehcache.Element} from the Cache, without notifying listeners. This also removes it from any * stores it may be in. * <p/> * * @param key * @return true if the element was removed, false if it was not found in the cache * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public boolean removeQuiet(Serializable key) throws IllegalStateException { return cache.removeQuiet(key); } /** * Removes an {@link net.sf.ehcache.Element} from the Cache, without notifying listeners. This also removes it from any * stores it may be in. * <p/> * * @param key * @return true if the element was removed, false if it was not found in the cache * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} * @since 1.2 */ public boolean removeQuiet(Object key) throws IllegalStateException { return cache.removeQuiet(key); } /** * Removes all cached items. * * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public void removeAll() throws IllegalStateException, CacheException { cache.removeAll(); } /** * Removes all cached items. * * @param doNotNotifyCacheReplicators whether the put is coming from a doNotNotifyCacheReplicators cache peer, * in which case this put should not initiate a further notification to doNotNotifyCacheReplicators cache peers * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public void removeAll(boolean doNotNotifyCacheReplicators) throws IllegalStateException, CacheException { cache.removeAll(doNotNotifyCacheReplicators); } /** * Flushes all cache items from memory to the disk store, and from the DiskStore to disk. * * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public void flush() throws IllegalStateException, CacheException { cache.flush(); } /** * Gets the size of the cache. This is a subtle concept. See below. * <p/> * The size is the number of {@link net.sf.ehcache.Element}s in the {@link net.sf.ehcache.store.MemoryStore} plus * the number of {@link net.sf.ehcache.Element}s in the {@link net.sf.ehcache.store.DiskStore}. * <p/> * This number is the actual number of elements, including expired elements that have * not been removed. * <p/> * Expired elements are removed from the the memory store when * getting an expired element, or when attempting to spool an expired element to * disk. * <p/> * Expired elements are removed from the disk store when getting an expired element, * or when the expiry thread runs, which is once every five minutes. * <p/> * To get an exact size, which would exclude expired elements, use {@link #getKeysWithExpiryCheck()}.size(), * although see that method for the approximate time that would take. * <p/> * To get a very fast result, use {@link #getKeysNoDuplicateCheck()}.size(). If the disk store * is being used, there will be some duplicates. * * @return The size value * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public int getSize() throws IllegalStateException, CacheException { return cache.getSize(); } /** * Gets the size of the memory store for this cache * <p/> * Warning: This method can be very expensive to run. Allow approximately 1 second * per 1MB of entries. Running this method could create liveness problems * because the object lock is held for a long period * <p/> * * @return the approximate size of the memory store in bytes * @throws IllegalStateException */ public long calculateInMemorySize() throws IllegalStateException, CacheException { return cache.calculateInMemorySize(); } /** * Returns the number of elements in the memory store. * * @return the number of elements in the memory store * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public long getMemoryStoreSize() throws IllegalStateException { return cache.getMemoryStoreSize(); } /** * Returns the number of elements in the disk store. * * @return the number of elements in the disk store. * @throws IllegalStateException if the cache is not {@link net.sf.ehcache.Status#STATUS_ALIVE} */ public int getDiskStoreSize() throws IllegalStateException { return cache.getDiskStoreSize(); } /** * Gets the status attribute of the Cache. * * @return The status value from the Status enum class */ public Status getStatus() { return cache.getStatus(); } /** * Synchronized version of getName to test liveness of the object lock. * <p/> * The time taken for this method to return is a useful measure of runtime contention on the cache. */ public synchronized String liveness() { return getName(); } /** * Sets the time to wait to acquire a lock. This may be modified at any time. * <p/> * The consequences of setting a timeout are: * <ol> * <li>if a lock cannot be acquired in the given time a LockTimeoutException is thrown. * <li>if there is a queue of threads waiting for the first thread to complete, but it does not complete within * the time out period, the successive threads may find that they have exceeded their lock timeouts and fail. This * is usually a good thing because it stops a build up of threads from overwhelming a busy resource, but it does * need to be considered in the design of user interfaces. The timeout should be set no greater than the time a user * would be expected to wait before considering the action will never return * <li>it will be common to see a number of threads timeout trying to get the same lock. This is a normal and desired * consequence. * </ol> * The consequences of not setting a timeout (or setting it to 0) are: * <ol> * <li>There are no partial failures in the system. But there is a greater possibility that a temporary overload * in one part of the system can cause a back up that may take a long time to recover from. * <li>A failing method that perhaps fails because a resource is overloaded will be hit by each thread in turn, no matter whether there is a still a user who * cares about getting a response. * </ol> * * @param timeoutMillis the time in ms. Must be a positive number. 0 means wait forever. */ public void setTimeoutMillis(int timeoutMillis) { if (timeoutMillis < 0) { throw new CacheException("The lock timeout must be a positive number of ms. Value was " + timeoutMillis); } this.timeoutMillis = timeoutMillis; } /** * Gets the time to wait to acquire a lock. * * @return the time in ms. */ public int getTimeoutMillis() { return timeoutMillis; } /** * Register a {@link net.sf.ehcache.extension.CacheExtension} with the cache. It will then be tied into the cache lifecycle. */ public void registerCacheExtension(CacheExtension cacheExtension) { cache.registerCacheExtension(cacheExtension); } /** * Unregister a {@link net.sf.ehcache.extension.CacheExtension} with the cache. It will then be detached from the cache lifecycle. */ public void unregisterCacheExtension(CacheExtension cacheExtension) { cache.unregisterCacheExtension(cacheExtension); } /** * The average get time in ms. */ public float getAverageGetTime() { return cache.getAverageGetTime(); } /** * Sets an ExceptionHandler on the Cache. If one is already set, it is overwritten. */ public void setCacheExceptionHandler(CacheExceptionHandler cacheExceptionHandler) { cache.setCacheExceptionHandler(cacheExceptionHandler); } /** * Sets an ExceptionHandler on the Cache. If one is already set, it is overwritten. */ public CacheExceptionHandler getCacheExceptionHandler() { return cache.getCacheExceptionHandler(); } /** * This method is not appropriate to use with BlockingCache. */ public void setCacheLoader(CacheLoader cacheLoader) { throw new CacheException("This method is not appropriate for a Blocking Cache"); } /** * Gets the CacheLoader registered in this cache * * @return the loader, or null if there is none */ public CacheLoader getCacheLoader() { return cache.getCacheLoader(); } /** * This method is not appropriate to use with BlockingCache. * @throws CacheException if this method is called */ public Element getWithLoader(Object key, CacheLoader loader, Object loaderArgument) throws CacheException { throw new CacheException("This method is not appropriate for a Blocking Cache"); } /** * This method is not appropriate to use with BlockingCache. * @throws CacheException if this method is called */ public Map getAllWithLoader(Collection keys, Object loaderArgument) throws CacheException { throw new CacheException("This method is not appropriate for a Blocking Cache"); } /** * This method is not appropriate to use with BlockingCache. * @throws CacheException if this method is called */ public void load(Object key) throws CacheException { throw new CacheException("This method is not appropriate for a Blocking Cache"); } /** * This method is not appropriate to use with BlockingCache. * @throws CacheException if this method is called */ public void loadAll(Collection keys, Object argument) throws CacheException { throw new CacheException("This method is not appropriate for a Blocking Cache"); } /** * Whether this cache is disabled. "Disabled" means: * <ol> * <li>bootstrap is disabled * <li>puts are discarded * <li>putQuites are discarded * </ol> * In all other respects the cache continues as it is. * <p/> * You can disable and enable a cache programmatically through the {@link #setDisabled(boolean)} method. * <p/> * By default caches are enabled on creation, unless the <code>net.sf.ehcache.disabled</code> system * property is set. * @return true if the cache is disabled. */ public boolean isDisabled() { return cache.isDisabled(); } /** * Disables or enables this cache. This call overrides the previous value of disabled, even if the * <code>net.sf.ehcache.disabled</code> system property is set * <p/> * @param disabled true if you wish to disable, false to enable * @see #isDisabled() */ public void setDisabled(boolean disabled) { cache.setDisabled(disabled); } }

The table below shows all metrics for BlockingCache.java.

Metric	Value	Description
BLOCKS	93.00	Number of blocks
BLOCK_COMMENT	0.00	Number of block comment lines
COMMENTS	672.00	Comment lines
COMMENT_DENSITY	3.07	Comment density
COMPARISONS	7.00	Number of comparison operators
CYCLOMATIC	86.00	Cyclomatic complexity
DECL_COMMENTS	84.00	Comments in declarations
DOC_COMMENT	669.00	Number of javadoc comment lines
ELOC	219.00	Effective lines of code
EXEC_COMMENTS	3.00	Comments in executable code
EXITS	81.00	Procedure exits
FUNCTIONS	78.00	Number of function declarations
HALSTEAD_DIFFICULTY	48.37	Halstead difficulty
HALSTEAD_EFFORT	0.00	Halstead effort
INTERFACE_COMPLEXITY	176.00	Interface complexity
JAVA0001	0.00	JAVA0001 Package name does not contain only lower case letters
JAVA0002	0.00	JAVA0002 Package name does not begin with a top level domain name or country code
JAVA0003	0.00	JAVA0003 Minimize use of on-demand (.*) imports
JAVA0004	0.00	JAVA0004 Unnecessary import from java.lang
JAVA0005	1.00	JAVA0005 Imports not in specified order
JAVA0006	0.00	JAVA0006 Empty finally block
JAVA0007	0.00	JAVA0007 Should not declare public field
JAVA0008	0.00	JAVA0008 Empty catch block
JAVA0009	0.00	JAVA0009 Protected member in final class
JAVA0010	0.00	JAVA0010 Non-instantiable class does not contain a non-private static member
JAVA0011	0.00	JAVA0011 Abstract class does not contain an abstract method
JAVA0012	0.00	JAVA0012 Non-constructor method with same name as declaring class
JAVA0013	0.00	JAVA0013 Non-blank final field is not static
JAVA0014	0.00	JAVA0014 Class with only static members has non-private constructor
JAVA0015	0.00	JAVA0015 Package class contains public nested type
JAVA0016	0.00	JAVA0016 Abstract class contains public constructor
JAVA0017	0.00	JAVA0017 Class name does not have required form
JAVA0018	0.00	JAVA0018 Method name does not have required form
JAVA0019	0.00	JAVA0019 Interface name does not have required form
JAVA0020	0.00	JAVA0020 Field name does not have required form
JAVA0021	0.00	JAVA0021 Interface method name does not have required form
JAVA0022	0.00	JAVA0022 Static final field name does not have required form
JAVA0023	0.00	JAVA0023 Empty finalize method
JAVA0024	0.00	JAVA0024 Empty class
JAVA0025	0.00	JAVA0025 Method override is empty
JAVA0026	0.00	JAVA0026 Finalize method with parameters
JAVA0029	0.00	JAVA0029 Private method not used
JAVA0030	1.00	JAVA0030 Private field not used
JAVA0031	0.00	JAVA0031 Case statement not properly closed
JAVA0032	0.00	JAVA0032 Switch statement missing default
JAVA0033	0.00	JAVA0033 default: not last case in switch statement
JAVA0034	0.00	JAVA0034 Missing braces in if statement
JAVA0035	0.00	JAVA0035 Missing braces in for statement
JAVA0036	0.00	JAVA0036 Missing braces in while statement
JAVA0038	0.00	JAVA0038 Non-case label in switch statement
JAVA0039	0.00	JAVA0039 Break statement with label
JAVA0040	0.00	JAVA0040 Switch statement contains N cases (maximum: M)
JAVA0041	0.00	JAVA0041 Nested synchronized block
JAVA0042	0.00	JAVA0042 Empty synchronized statement
JAVA0043	0.00	JAVA0043 Inner class does not use outer class
JAVA0044	0.00	JAVA0044 Serializable class with no instance variables
JAVA0045	0.00	JAVA0045 Serializable class with only transient fields
JAVA0046	0.00	JAVA0046 Name of class not derived from Exception ends with 'Exception'
JAVA0047	0.00	JAVA0047 Serializable class derives from invalid base class
JAVA0048	0.00	JAVA0048 Name of class derived from Exception does not end with 'Exception'
JAVA0049	0.00	JAVA0049 Nested block at depth N (maximum: M)
JAVA0050	0.00	JAVA0050 Class derives from java.lang.Error
JAVA0051	0.00	JAVA0051 Class derives from java.lang.RuntimeException
JAVA0052	0.00	JAVA0052 Class derives from java.lang.Throwable
JAVA0053	0.00	JAVA0053 Unused label
JAVA0054	0.00	JAVA0054 Inheritance depth N exceeds maximum M
JAVA0055	0.00	JAVA0055 Class should be interface
JAVA0056	0.00	JAVA0056 Unnecessary abstract modifier for interface or annotation
JAVA0057	0.00	JAVA0057 Unnecessary default constructor
JAVA0058	0.00	JAVA0058 Constructor calls super()
JAVA0059	1.00	JAVA0059 Method override only calls super()
JAVA0061	0.00	JAVA0061 Inaccessible member in anonymous class
JAVA0062	0.00	JAVA0062 Public class missing public member or protected constructor
JAVA0063	0.00	JAVA0063 Identifier name should not contain '$'
JAVA0064	0.00	JAVA0064 N variations of identifier name (maximum: M)
JAVA0065	0.00	JAVA0065 Unnecessary final modifier for method in final class
JAVA0066	0.00	JAVA0066 Unnecessary modifier for interface nested type
JAVA0067	0.00	JAVA0067 Array descriptor on identifier name
JAVA0068	0.00	JAVA0068 Modifiers not declared in recommended order
JAVA0071	0.00	JAVA0071 Strings compared with ==
JAVA0073	0.00	JAVA0073 Integer division in floating-point context
JAVA0074	0.00	JAVA0074 Use of Object.notify()
JAVA0075	0.00	JAVA0075 Method parameter hides field
JAVA0076	0.00	JAVA0076 Use of magic number
JAVA0077	0.00	JAVA0077 Private field not used in declaring class
JAVA0078	0.00	JAVA0078 Floating point values compared with ==
JAVA0079	0.00	JAVA0079 Use of instance to reference static member
JAVA0080	0.00	JAVA0080 Import declaration not used
JAVA0081	0.00	JAVA0081 Boolean literal in comparison
JAVA0082	1.00	JAVA0082 Unnecessary widening cast
JAVA0083	0.00	JAVA0083 Unnecessary instanceof test
JAVA0084	0.00	JAVA0084 Should use compound assignment operator
JAVA0085	0.00	JAVA0085 Use of sun.* class
JAVA0087	0.00	JAVA0087 Use of Thread.sleep()
JAVA0089	0.00	JAVA0089 Use of restricted package
JAVA0092	0.00	JAVA0092 Use of restricted type
JAVA0093	0.00	JAVA0093 Redundant assignment
JAVA0094	0.00	JAVA0094 Field hides a superclass field
JAVA0095	0.00	JAVA0095 Uninitialized private field
JAVA0096	0.00	JAVA0096 Field in nested class hides outer field
JAVA0098	0.00	JAVA0098 Minimize use of implicit field initializers
JAVA0100	0.00	JAVA0100 Class contains N non-final fields (maximum: M)
JAVA0101	0.00	JAVA0101 Unnecessary modifier for field in interface
JAVA0102	0.00	JAVA0102 Last statement in finalize() not super.finalize()
JAVA0103	0.00	JAVA0103 Explicit call to finalize()
JAVA0104	0.00	JAVA0104 finalize() only calls super.finalize()
JAVA0105	0.00	JAVA0105 Duplicate import declaration
JAVA0106	0.00	JAVA0106 Unnecessary import from current package
JAVA0108	0.00	JAVA0108 Incorrect javadoc: no @param tag for 'parameter'
JAVA0109	0.00	JAVA0109 Incorrect javadoc: no parameter 'parameter'
JAVA0110	16.00	JAVA0110 Incorrect javadoc: no @return tag
JAVA0111	0.00	JAVA0111 Incorrect javadoc: @return tag for void method
JAVA0112	0.00	JAVA0112 Incorrect javadoc: no exception 'exception' in throws
JAVA0113	0.00	JAVA0113 Incorrect javadoc: no @author tag
JAVA0114	0.00	JAVA0114 Incorrect javadoc: no @version tag
JAVA0115	12.00	JAVA0115 Incorrect javadoc: no @throws or @exception tag for 'exception'
JAVA0116	0.00	JAVA0116 Missing javadoc: field 'field'
JAVA0117	0.00	JAVA0117 Missing javadoc: method 'method'
JAVA0118	0.00	JAVA0118 Missing javadoc: type 'type'
JAVA0119	0.00	JAVA0119 Control variable changed within body of for loop
JAVA0123	0.00	JAVA0123 Use all three components of for loop
JAVA0125	0.00	JAVA0125 Continue statement with label
JAVA0126	47.00	JAVA0126 Method declares unchecked exception in throws
JAVA0128	0.00	JAVA0128 Public constructor in non-public class
JAVA0130	0.00	JAVA0130 Non-static method does not use instance fields
JAVA0131	0.00	JAVA0131 Compatible method does not override base
JAVA0132	6.00	JAVA0132 Method overload with compatible signature
JAVA0133	0.00	JAVA0133 Non-synchronized method overrides synchronized method
JAVA0135	0.00	JAVA0135 Only one of Object.equals and Object.hashCode defined: missing 'method'
JAVA0136	1.00	JAVA0136 N methods defined in class (maximum: M)
JAVA0137	0.00	JAVA0137 Non-abstract class missing constructor
JAVA0138	0.00	JAVA0138 N parameters defined for method (maximum: M)
JAVA0139	0.00	JAVA0139 Definition of main other than public static void main(java.lang.String[])
JAVA0141	0.00	JAVA0141 Unnecessary modifier for method in interface
JAVA0143	1.00	JAVA0143 Synchronized method
JAVA0144	11.00	JAVA0144 Line exceeds maximum M characters
JAVA0145	0.00	JAVA0145 Tab character used in source file
JAVA0150	0.00	JAVA0150 java.lang.Error (or subclass) thrown
JAVA0153	0.00	JAVA0153 Inefficient conversion of integer to string
JAVA0159	0.00	JAVA0159 Inefficient conversion of string to integer
JAVA0160	0.00	JAVA0160 Method does not throw specified exception
JAVA0161	0.00	JAVA0161 Conditional wait() not in loop
JAVA0163	0.00	JAVA0163 Empty statement
JAVA0165	0.00	JAVA0165 Conflicting return statement in finally block
JAVA0166	0.00	JAVA0166 Generic exception caught
JAVA0167	0.00	JAVA0167 ThreadDeath not rethrown
JAVA0169	0.00	JAVA0169 Unnecessary catch block: exception 'exception'
JAVA0170	0.00	JAVA0170 Caught exception not derived from java.lang.Exception
JAVA0171	0.00	JAVA0171 Unused local variable
JAVA0173	0.00	JAVA0173 Unused method parameter
JAVA0174	0.00	JAVA0174 Assigned local variable never used
JAVA0175	0.00	JAVA0175 Successive assignment to variable
JAVA0176	0.00	JAVA0176 Local variable name does not have required form
JAVA0177	0.00	JAVA0177 Variable declaration missing initializer
JAVA0179	0.00	JAVA0179 Local variable hides visible field
JAVA0233	0.00	JAVA0233 Definition of serialVersionUID other than 'private static final long serialVersionUID'
JAVA0234	0.00	JAVA0234 Class is Serializable but does not define serialVersionUID
JAVA0235	0.00	JAVA0235 Class defines serialVersionUID but does not implement Serializable
JAVA0236	0.00	JAVA0236 Attempt to clone an object which does not implement Cloneable
JAVA0237	0.00	JAVA0237 Class implements Cloneable but does not have public clone method
JAVA0238	0.00	JAVA0238 Clone method does not call super.clone()
JAVA0239	0.00	JAVA0239 Class declares 'readObject' or 'writeObject' but does not implement Serializable
JAVA0240	0.00	JAVA0240 Serializable class which declares readObject or writeObject but not both
JAVA0241	0.00	JAVA0241 'readObject' or 'writeObject' should be declared private in Serializable class
JAVA0242	0.00	JAVA0242 Transient field in non-Serializable class
JAVA0243	0.00	JAVA0243 'readResolve' or 'writeReplace' should be declared private or protected
JAVA0244	0.00	JAVA0244 Field or method name in subclass differs only by case from inherited field or method
JAVA0245	0.00	JAVA0245 JUnit TestCase with non-trivial constructor
JAVA0246	0.00	JAVA0246 JUnit assertXXX statement missing message parameter
JAVA0247	0.00	JAVA0247 JUnit 'setUp()' and 'tearDown()' should call super method
JAVA0248	0.00	JAVA0248 JUnit method 'setUp' or 'tearDown' with incorrect signature
JAVA0249	0.00	JAVA0249 JUnit TestCase 'suite()' should be declared static
JAVA0250	0.00	JAVA0250 JUnit TestCase declares testXXX method with incorrect signature
JAVA0251	0.00	JAVA0251 Use '%n' for line breaks in printf/format for platform independence
JAVA0252	0.00	JAVA0252 'enum' is a Java 1.5 reserved word
JAVA0253	0.00	JAVA0253 Not all enum constants consumed in switch statement
JAVA0254	0.00	JAVA0254 Use enhanced for loop construct instead of Iterator
JAVA0255	0.00	JAVA0255 Result of method invocation not used
JAVA0256	0.00	JAVA0256 Assignment of external collection/array to field
JAVA0257	0.00	JAVA0257 Use of 'Constant Interface' anti-pattern
JAVA0258	0.00	JAVA0258 Implement Iterable for foreach compatibility
JAVA0259	0.00	JAVA0259 Return of collection/array field
JAVA0260	0.00	JAVA0260 Use 'enum' instead of Enumerated Type pattern
JAVA0261	0.00	JAVA0261 Use specialized Enum collection types
JAVA0262	0.00	JAVA0262 Use of char in integer context
JAVA0263	0.00	JAVA0263 Long literal ends with 'l' instead of 'L'
JAVA0264	0.00	JAVA0264 Integer math in long context - check for overflow
JAVA0265	0.00	JAVA0265 Use of Throwable.printStackTrace()
JAVA0266	0.00	JAVA0266 Use of System.out
JAVA0267	0.00	JAVA0267 Use of System.err
JAVA0269	0.00	JAVA0269 Contents of StringBuffer never used
JAVA0270	0.00	JAVA0270 Use Java 5.0 enhanced for loop construct to iterate over all elements in an array
JAVA0271	0.00	JAVA0271 Minimize use of on-demand (.*) static imports
JAVA0272	0.00	JAVA0272 Thread.run() called
JAVA0273	0.00	JAVA0273 Non-final derivative of Thread calls start() in constructor
JAVA0274	0.00	JAVA0274 Serializable class has a synchronized readObject()
JAVA0275	0.00	JAVA0275 Serializable class has a synchronized writeObject() and no other synchronized methods
JAVA0276	0.00	JAVA0276 Unnecessary use of String constructor
JAVA0277	0.00	JAVA0277 Iterator.next() implementation does not throw NoSuchElementException
JAVA0278	0.00	JAVA0278 Unnecessary use of Boolean constructor
JAVA0279	0.00	JAVA0279 Serialization method readObject or readObjectNoData calls an overridable method
JAVA0280	0.00	JAVA0280 IllegalMonitorStateException caught
JAVA0281	0.00	JAVA0281 Iterator.next() not called in loop
JAVA0282	0.00	JAVA0282 Call to Iterator.next() in loop which does not test Iterator.hasNext()
JAVA0283	0.00	JAVA0283 Control variable not updated in loop body
JAVA0284	0.00	JAVA0284 Explicit garbage collection
JAVA0285	0.00	JAVA0285 Dereference of potentially null variable
JAVA0286	0.00	JAVA0286 Dereference of null variable
JAVA0287	0.00	JAVA0287 Unnecessary null check
JAVA0288	0.00	JAVA0288 Inconsistent null check
LINES	1083.00	Number of lines in the source file
LINE_COMMENT	3.00	Number of line comments
LOC	309.00	Lines of code
LOGICAL_LINES	124.00	Number of statements
LOOPS	1.00	Number of loops
NEST_DEPTH	4.00	Maximum nesting depth
OPERANDS	609.00	Number of operands
OPERATORS	1213.00	Number of operators
PARAMS	45.00	Number of formal parameter declarations
PROGRAM_LENGTH	1822.00	Halstead program length
PROGRAM_VOCAB	321.00	Halstead program vocabulary
PROGRAM_VOLUME	0.00	Halstead program volume
RETURNS	131.00	Number of return points from functions
SIZE	41759.00	Size of the file in bytes
UNIQUE_OPERANDS	277.00	Number of unique operands
UNIQUE_OPERATORS	44.00	Number of unique operators
WHITESPACE	102.00	Number of whitespace lines