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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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/*
 * Copyright (C) 2011 The Guava Authors
 *
 * 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 com.google.common.cache;

import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.math.LongMath.saturatedAdd;
import static com.google.common.math.LongMath.saturatedSubtract;

import com.google.common.annotations.GwtCompatible;
import com.google.common.base.MoreObjects;
import com.google.common.base.Objects;
import java.util.concurrent.Callable;
import javax.annotation.CheckForNull;

/**
 * Statistics about the performance of a {@link Cache}. Instances of this class are immutable.
 *
 * 

Cache statistics are incremented according to the following rules: * *

    *
  • When a cache lookup encounters an existing cache entry {@code hitCount} is incremented. *
  • When a cache lookup first encounters a missing cache entry, a new entry is loaded. *
      *
    • After successfully loading an entry {@code missCount} and {@code loadSuccessCount} * are incremented, and the total loading time, in nanoseconds, is added to {@code * totalLoadTime}. *
    • When an exception is thrown while loading an entry, {@code missCount} and {@code * loadExceptionCount} are incremented, and the total loading time, in nanoseconds, is * added to {@code totalLoadTime}. *
    • Cache lookups that encounter a missing cache entry that is still loading will wait * for loading to complete (whether successful or not) and then increment {@code * missCount}. *
    *
  • When an entry is evicted from the cache, {@code evictionCount} is incremented. *
  • No stats are modified when a cache entry is invalidated or manually removed. *
  • No stats are modified by operations invoked on the {@linkplain Cache#asMap asMap} view of * the cache. *
* *

A lookup is specifically defined as an invocation of one of the methods {@link * LoadingCache#get(Object)}, {@link LoadingCache#getUnchecked(Object)}, {@link Cache#get(Object, * Callable)}, or {@link LoadingCache#getAll(Iterable)}. * * @author Charles Fry * @since 10.0 */ @GwtCompatible @ElementTypesAreNonnullByDefault public final class CacheStats { private final long hitCount; private final long missCount; private final long loadSuccessCount; private final long loadExceptionCount; @SuppressWarnings("GoodTime") // should be a java.time.Duration private final long totalLoadTime; private final long evictionCount; /** * Constructs a new {@code CacheStats} instance. * *

Five parameters of the same type in a row is a bad thing, but this class is not constructed * by end users and is too fine-grained for a builder. */ @SuppressWarnings("GoodTime") // should accept a java.time.Duration public CacheStats( long hitCount, long missCount, long loadSuccessCount, long loadExceptionCount, long totalLoadTime, long evictionCount) { checkArgument(hitCount >= 0); checkArgument(missCount >= 0); checkArgument(loadSuccessCount >= 0); checkArgument(loadExceptionCount >= 0); checkArgument(totalLoadTime >= 0); checkArgument(evictionCount >= 0); this.hitCount = hitCount; this.missCount = missCount; this.loadSuccessCount = loadSuccessCount; this.loadExceptionCount = loadExceptionCount; this.totalLoadTime = totalLoadTime; this.evictionCount = evictionCount; } /** * Returns the number of times {@link Cache} lookup methods have returned either a cached or * uncached value. This is defined as {@code hitCount + missCount}. * *

Note: the values of the metrics are undefined in case of overflow (though it is * guaranteed not to throw an exception). If you require specific handling, we recommend * implementing your own stats collector. */ public long requestCount() { return saturatedAdd(hitCount, missCount); } /** Returns the number of times {@link Cache} lookup methods have returned a cached value. */ public long hitCount() { return hitCount; } /** * Returns the ratio of cache requests which were hits. This is defined as {@code hitCount / * requestCount}, or {@code 1.0} when {@code requestCount == 0}. Note that {@code hitRate + * missRate =~ 1.0}. */ public double hitRate() { long requestCount = requestCount(); return (requestCount == 0) ? 1.0 : (double) hitCount / requestCount; } /** * Returns the number of times {@link Cache} lookup methods have returned an uncached (newly * loaded) value, or null. Multiple concurrent calls to {@link Cache} lookup methods on an absent * value can result in multiple misses, all returning the results of a single cache load * operation. */ public long missCount() { return missCount; } /** * Returns the ratio of cache requests which were misses. This is defined as {@code missCount / * requestCount}, or {@code 0.0} when {@code requestCount == 0}. Note that {@code hitRate + * missRate =~ 1.0}. Cache misses include all requests which weren't cache hits, including * requests which resulted in either successful or failed loading attempts, and requests which * waited for other threads to finish loading. It is thus the case that {@code missCount >= * loadSuccessCount + loadExceptionCount}. Multiple concurrent misses for the same key will result * in a single load operation. */ public double missRate() { long requestCount = requestCount(); return (requestCount == 0) ? 0.0 : (double) missCount / requestCount; } /** * Returns the total number of times that {@link Cache} lookup methods attempted to load new * values. This includes both successful load operations and those that threw exceptions. This is * defined as {@code loadSuccessCount + loadExceptionCount}. * *

Note: the values of the metrics are undefined in case of overflow (though it is * guaranteed not to throw an exception). If you require specific handling, we recommend * implementing your own stats collector. */ public long loadCount() { return saturatedAdd(loadSuccessCount, loadExceptionCount); } /** * Returns the number of times {@link Cache} lookup methods have successfully loaded a new value. * This is usually incremented in conjunction with {@link #missCount}, though {@code missCount} is * also incremented when an exception is encountered during cache loading (see {@link * #loadExceptionCount}). Multiple concurrent misses for the same key will result in a single load * operation. This may be incremented not in conjunction with {@code missCount} if the load occurs * as a result of a refresh or if the cache loader returned more items than was requested. {@code * missCount} may also be incremented not in conjunction with this (nor {@link * #loadExceptionCount}) on calls to {@code getIfPresent}. */ public long loadSuccessCount() { return loadSuccessCount; } /** * Returns the number of times {@link Cache} lookup methods threw an exception while loading a new * value. This is usually incremented in conjunction with {@code missCount}, though {@code * missCount} is also incremented when cache loading completes successfully (see {@link * #loadSuccessCount}). Multiple concurrent misses for the same key will result in a single load * operation. This may be incremented not in conjunction with {@code missCount} if the load occurs * as a result of a refresh or if the cache loader returned more items than was requested. {@code * missCount} may also be incremented not in conjunction with this (nor {@link #loadSuccessCount}) * on calls to {@code getIfPresent}. */ public long loadExceptionCount() { return loadExceptionCount; } /** * Returns the ratio of cache loading attempts which threw exceptions. This is defined as {@code * loadExceptionCount / (loadSuccessCount + loadExceptionCount)}, or {@code 0.0} when {@code * loadSuccessCount + loadExceptionCount == 0}. * *

Note: the values of the metrics are undefined in case of overflow (though it is * guaranteed not to throw an exception). If you require specific handling, we recommend * implementing your own stats collector. */ public double loadExceptionRate() { long totalLoadCount = saturatedAdd(loadSuccessCount, loadExceptionCount); return (totalLoadCount == 0) ? 0.0 : (double) loadExceptionCount / totalLoadCount; } /** * Returns the total number of nanoseconds the cache has spent loading new values. This can be * used to calculate the miss penalty. This value is increased every time {@code loadSuccessCount} * or {@code loadExceptionCount} is incremented. */ @SuppressWarnings("GoodTime") // should return a java.time.Duration public long totalLoadTime() { return totalLoadTime; } /** * Returns the average time spent loading new values. This is defined as {@code totalLoadTime / * (loadSuccessCount + loadExceptionCount)}. * *

Note: the values of the metrics are undefined in case of overflow (though it is * guaranteed not to throw an exception). If you require specific handling, we recommend * implementing your own stats collector. */ public double averageLoadPenalty() { long totalLoadCount = saturatedAdd(loadSuccessCount, loadExceptionCount); return (totalLoadCount == 0) ? 0.0 : (double) totalLoadTime / totalLoadCount; } /** * Returns the number of times an entry has been evicted. This count does not include manual * {@linkplain Cache#invalidate invalidations}. */ public long evictionCount() { return evictionCount; } /** * Returns a new {@code CacheStats} representing the difference between this {@code CacheStats} * and {@code other}. Negative values, which aren't supported by {@code CacheStats} will be * rounded up to zero. */ public CacheStats minus(CacheStats other) { return new CacheStats( Math.max(0, saturatedSubtract(hitCount, other.hitCount)), Math.max(0, saturatedSubtract(missCount, other.missCount)), Math.max(0, saturatedSubtract(loadSuccessCount, other.loadSuccessCount)), Math.max(0, saturatedSubtract(loadExceptionCount, other.loadExceptionCount)), Math.max(0, saturatedSubtract(totalLoadTime, other.totalLoadTime)), Math.max(0, saturatedSubtract(evictionCount, other.evictionCount))); } /** * Returns a new {@code CacheStats} representing the sum of this {@code CacheStats} and {@code * other}. * *

Note: the values of the metrics are undefined in case of overflow (though it is * guaranteed not to throw an exception). If you require specific handling, we recommend * implementing your own stats collector. * * @since 11.0 */ public CacheStats plus(CacheStats other) { return new CacheStats( saturatedAdd(hitCount, other.hitCount), saturatedAdd(missCount, other.missCount), saturatedAdd(loadSuccessCount, other.loadSuccessCount), saturatedAdd(loadExceptionCount, other.loadExceptionCount), saturatedAdd(totalLoadTime, other.totalLoadTime), saturatedAdd(evictionCount, other.evictionCount)); } @Override public int hashCode() { return Objects.hashCode( hitCount, missCount, loadSuccessCount, loadExceptionCount, totalLoadTime, evictionCount); } @Override public boolean equals(@CheckForNull Object object) { if (object instanceof CacheStats) { CacheStats other = (CacheStats) object; return hitCount == other.hitCount && missCount == other.missCount && loadSuccessCount == other.loadSuccessCount && loadExceptionCount == other.loadExceptionCount && totalLoadTime == other.totalLoadTime && evictionCount == other.evictionCount; } return false; } @Override public String toString() { return MoreObjects.toStringHelper(this) .add("hitCount", hitCount) .add("missCount", missCount) .add("loadSuccessCount", loadSuccessCount) .add("loadExceptionCount", loadExceptionCount) .add("totalLoadTime", totalLoadTime) .add("evictionCount", evictionCount) .toString(); } }





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