Java 并发LRU缓存实现_Java_Multithreading

Java 并发LRU缓存实现

java multithreading

Java 并发LRU缓存实现,java,multithreading,Java,Multithreading,我需要线程安全且高效的LRU缓存实现代码。下面的代码不是线程安全的。是否可以使用ConcurrentHashMap增强此代码。提前谢谢 private class LruCache<A, B> extends LinkedHashMap<A, B> { private final int maxEntries; public LruCache(final int maxEntries) { super(maxEntries + 1,

我需要线程安全且高效的

LRU

缓存实现代码。下面的代码不是线程安全的。是否可以使用

ConcurrentHashMap

增强此代码。提前谢谢

private class LruCache<A, B> extends LinkedHashMap<A, B> {
    private final int maxEntries;

    public LruCache(final int maxEntries) {
        super(maxEntries + 1, 1.0f, true);
        this.maxEntries = maxEntries;
    }

    @Override
    protected boolean removeEldestEntry(final Map.Entry<A, B> eldest) {
        return super.size() > maxEntries;
    }
}

私有类LruCache扩展LinkedHashMap{
私人最终int maxEntries；
公共LruCache（最终整数maxEntries）{
超级（maxEntries+1，1.0f，真）；
this.maxEntries=maxEntries；
}
@凌驾
受保护的布尔重构（最终映射。条目最早）{
返回super.size（）>maxEntries；
}
}

要使其线程安全，最好的办法是按照javadoc中的说明用

请注意，此实现未同步。如果有多个线程同时访问链接的哈希映射，并至少访问其中一个线程如果从结构上修改贴图，则必须从外部对其进行同步。这通常是通过在某个自然地封装了地图。如果不存在这样的对象，则映射应使用
Collections.synchronizedMap
方法“包装”。这最好在创建时执行，以防止意外的不同步访问地图：
但是，仅使其完全线程安全是不够的。您需要使用包装贴图的实例作为对象的监视器来保护对贴图内容的任何迭代：

Map m = Collections.synchronizedMap(map); ... Set s = m.keySet(); // Needn't be in synchronized block ... synchronized (m) { // Synchronizing on m, not s! Iterator i = s.iterator(); // Must be in synchronized block while (i.hasNext()) foo(i.next()); }

这几乎是你能轻松做的所有事情，我们在
JDK
中提供了现成的东西，如果你想要线程安全和更高效的东西，你应该从谷歌番石榴上看看
以下是使用
guava
构建的最大大小为
2
的
LRU
缓存示例：

与使用
Collections.synchronozedMap（）
作为包装器相比，我认为最好同时使用
ConcurrentHashMap
和
ConcurrentLinkedList
并实现
java.util.Map
接口，如果需要，还可以实现
List
接口。但是，您需要在内部映射和列表上的操作之间使用一些自定义逻辑来确保并发性。但性能仍然比完全同步的地图要好。
发现了番石榴。我自己没用过
缓存类似于ConcurrentMap，但并不完全相同
资料来源：
例如：

LoadingCache<Key, Graph> graphs = CacheBuilder.newBuilder() .expireAfterAccess(10, TimeUnit.MINUTES) .maximumSize(1000) .build( new CacheLoader<Key, Graph>() { public Graph load(Key key) { // no checked exception return createExpensiveGraph(key); } }); ... return graphs.getUnchecked(key);

LoadingCache-graphs=CacheBuilder.newBuilder（） .expireAfterAccess（10，时间单位：分钟） .最大尺寸（1000） .建造( 新缓存加载程序（）{ 公共图加载（键）{//无已检查异常返回createExpensiveGraph（键）； } }); ... 返回图形。getUnchecked（键）；
您可以使用Android的解决方案，它是线程安全的（它说“这个类是线程安全的”）：

然而，遗憾的是，它似乎没有提供并发性。只是同步东西
当前代码：

/* * Copyright (C) 2011 The Android Open Source Project * * 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 android.util; import java.util.LinkedHashMap; import java.util.Map; /** * BEGIN LAYOUTLIB CHANGE * This is a custom version that doesn't use the non standard LinkedHashMap#eldest. * END LAYOUTLIB CHANGE * * A cache that holds strong references to a limited number of values. Each time * a value is accessed, it is moved to the head of a queue. When a value is * added to a full cache, the value at the end of that queue is evicted and may * become eligible for garbage collection. * * If your cached values hold resources that need to be explicitly released, * override {@link #entryRemoved}. * * If a cache miss should be computed on demand for the corresponding keys, * override {@link #create}. This simplifies the calling code, allowing it to * assume a value will always be returned, even when there's a cache miss. * * By default, the cache size is measured in the number of entries. Override * {@link #sizeOf} to size the cache in different units. For example, this cache * is limited to 4MiB of bitmaps: * <pre> {@code * int cacheSize = 4 * 1024 * 1024; // 4MiB * LruCache<String, Bitmap> bitmapCache = new LruCache<String, Bitmap>(cacheSize) { * protected int sizeOf(String key, Bitmap value) { * return value.getByteCount(); * } * }}</pre> * * This class is thread-safe. Perform multiple cache operations atomically by * synchronizing on the cache: <pre> {@code * synchronized (cache) { * if (cache.get(key) == null) { * cache.put(key, value); * } * }}</pre> * * This class does not allow null to be used as a key or value. A return * value of null from {@link #get}, {@link #put} or {@link #remove} is * unambiguous: the key was not in the cache. * * This class appeared in Android 3.1 (Honeycomb MR1); it's available as part * of <a href="http://developer.android.com/sdk/compatibility-library.html">Android's * Support Package</a> for earlier releases. */ public class LruCache<K, V> { private final LinkedHashMap<K, V> map; /** Size of this cache in units. Not necessarily the number of elements. */ private int size; private int maxSize; private int putCount; private int createCount; private int evictionCount; private int hitCount; private int missCount; /** * @param maxSize for caches that do not override {@link #sizeOf}, this is * the maximum number of entries in the cache. For all other caches, * this is the maximum sum of the sizes of the entries in this cache. */ public LruCache(int maxSize) { if (maxSize <= 0) { throw new IllegalArgumentException("maxSize <= 0"); } this.maxSize = maxSize; this.map = new LinkedHashMap<K, V>(0, 0.75f, true); } /** * Sets the size of the cache. * @param maxSize The new maximum size. * * @hide */ public void resize(int maxSize) { if (maxSize <= 0) { throw new IllegalArgumentException("maxSize <= 0"); } synchronized (this) { this.maxSize = maxSize; } trimToSize(maxSize); } /** * Returns the value for {@code key} if it exists in the cache or can be * created by {@code #create}. If a value was returned, it is moved to the * head of the queue. This returns null if a value is not cached and cannot * be created. */ public final V get(K key) { if (key == null) { throw new NullPointerException("key == null"); } V mapValue; synchronized (this) { mapValue = map.get(key); if (mapValue != null) { hitCount++; return mapValue; } missCount++; } /* * Attempt to create a value. This may take a long time, and the map * may be different when create() returns. If a conflicting value was * added to the map while create() was working, we leave that value in * the map and release the created value. */ V createdValue = create(key); if (createdValue == null) { return null; } synchronized (this) { createCount++; mapValue = map.put(key, createdValue); if (mapValue != null) { // There was a conflict so undo that last put map.put(key, mapValue); } else { size += safeSizeOf(key, createdValue); } } if (mapValue != null) { entryRemoved(false, key, createdValue, mapValue); return mapValue; } else { trimToSize(maxSize); return createdValue; } } /** * Caches {@code value} for {@code key}. The value is moved to the head of * the queue. * * @return the previous value mapped by {@code key}. */ public final V put(K key, V value) { if (key == null || value == null) { throw new NullPointerException("key == null || value == null"); } V previous; synchronized (this) { putCount++; size += safeSizeOf(key, value); previous = map.put(key, value); if (previous != null) { size -= safeSizeOf(key, previous); } } if (previous != null) { entryRemoved(false, key, previous, value); } trimToSize(maxSize); return previous; } /** * @param maxSize the maximum size of the cache before returning. May be -1 * to evict even 0-sized elements. */ private void trimToSize(int maxSize) { while (true) { K key; V value; synchronized (this) { if (size < 0 || (map.isEmpty() && size != 0)) { throw new IllegalStateException(getClass().getName() + ".sizeOf() is reporting inconsistent results!"); } if (size <= maxSize) { break; } // BEGIN LAYOUTLIB CHANGE // get the last item in the linked list. // This is not efficient, the goal here is to minimize the changes // compared to the platform version. Map.Entry<K, V> toEvict = null; for (Map.Entry<K, V> entry : map.entrySet()) { toEvict = entry; } // END LAYOUTLIB CHANGE if (toEvict == null) { break; } key = toEvict.getKey(); value = toEvict.getValue(); map.remove(key); size -= safeSizeOf(key, value); evictionCount++; } entryRemoved(true, key, value, null); } } /** * Removes the entry for {@code key} if it exists. * * @return the previous value mapped by {@code key}. */ public final V remove(K key) { if (key == null) { throw new NullPointerException("key == null"); } V previous; synchronized (this) { previous = map.remove(key); if (previous != null) { size -= safeSizeOf(key, previous); } } if (previous != null) { entryRemoved(false, key, previous, null); } return previous; } /** * Called for entries that have been evicted or removed. This method is * invoked when a value is evicted to make space, removed by a call to * {@link #remove}, or replaced by a call to {@link #put}. The default * implementation does nothing. * * The method is called without synchronization: other threads may * access the cache while this method is executing. * * @param evicted true if the entry is being removed to make space, false * if the removal was caused by a {@link #put} or {@link #remove}. * @param newValue the new value for {@code key}, if it exists. If non-null, * this removal was caused by a {@link #put}. Otherwise it was caused by * an eviction or a {@link #remove}. */ protected void entryRemoved(boolean evicted, K key, V oldValue, V newValue) {} /** * Called after a cache miss to compute a value for the corresponding key. * Returns the computed value or null if no value can be computed. The * default implementation returns null. * * The method is called without synchronization: other threads may * access the cache while this method is executing. * * If a value for {@code key} exists in the cache when this method * returns, the created value will be released with {@link #entryRemoved} * and discarded. This can occur when multiple threads request the same key * at the same time (causing multiple values to be created), or when one * thread calls {@link #put} while another is creating a value for the same * key. */ protected V create(K key) { return null; } private int safeSizeOf(K key, V value) { int result = sizeOf(key, value); if (result < 0) { throw new IllegalStateException("Negative size: " + key + "=" + value); } return result; } /** * Returns the size of the entry for {@code key} and {@code value} in * user-defined units. The default implementation returns 1 so that size * is the number of entries and max size is the maximum number of entries. * * An entry's size must not change while it is in the cache. */ protected int sizeOf(K key, V value) { return 1; } /** * Clear the cache, calling {@link #entryRemoved} on each removed entry. */ public final void evictAll() { trimToSize(-1); // -1 will evict 0-sized elements } /** * For caches that do not override {@link #sizeOf}, this returns the number * of entries in the cache. For all other caches, this returns the sum of * the sizes of the entries in this cache. */ public synchronized final int size() { return size; } /** * For caches that do not override {@link #sizeOf}, this returns the maximum * number of entries in the cache. For all other caches, this returns the * maximum sum of the sizes of the entries in this cache. */ public synchronized final int maxSize() { return maxSize; } /** * Returns the number of times {@link #get} returned a value that was * already present in the cache. */ public synchronized final int hitCount() { return hitCount; } /** * Returns the number of times {@link #get} returned null or required a new * value to be created. */ public synchronized final int missCount() { return missCount; } /** * Returns the number of times {@link #create(Object)} returned a value. */ public synchronized final int createCount() { return createCount; } /** * Returns the number of times {@link #put} was called. */ public synchronized final int putCount() { return putCount; } /** * Returns the number of values that have been evicted. */ public synchronized final int evictionCount() { return evictionCount; } /** * Returns a copy of the current contents of the cache, ordered from least * recently accessed to most recently accessed. */ public synchronized final Map<K, V> snapshot() { return new LinkedHashMap<K, V>(map); } @Override public synchronized final String toString() { int accesses = hitCount + missCount; int hitPercent = accesses != 0 ? (100 * hitCount / accesses) : 0; return String.format("LruCache[maxSize=%d,hits=%d,misses=%d,hitRate=%d%%]", maxSize, hitCount, missCount, hitPercent); } }

/* *版权所有（C）2011安卓开源项目 * *根据Apache许可证2.0版（以下简称“许可证”）获得许可； *除非遵守许可证，否则不得使用此文件。 *您可以通过以下方式获得许可证副本： * * http://www.apache.org/licenses/LICENSE-2.0 * *除非适用法律要求或书面同意，软件 *根据许可证进行的分发是按“原样”进行分发的， *无任何明示或暗示的保证或条件。 *请参阅许可证以了解管理权限和权限的特定语言 *许可证下的限制。 */ 包android.util；导入java.util.LinkedHashMap；导入java.util.Map； /** *开始布局库更改 *这是一个自定义版本，不使用非标准LinkedHashMap#eldest。 *结束布局库更改 * *对有限数量的值进行强引用的缓存。每次 *如果访问一个值，它将移动到队列的头部。当值为 *添加到完全缓存后，该队列末尾的值将被逐出，并且可能会丢失 *有资格进行垃圾收集。 * *如果缓存的值包含需要显式释放的资源， *重写{@link#entryRemoved}。 * *如果应根据相应密钥的要求计算缓存未命中， *重写{@link#create}。这简化了调用代码，允许它 *假设始终返回一个值，即使缓存未命中。 * *默认情况下，缓存大小以条目数度量。推翻 *{@link#sizeOf}以不同的单位调整缓存的大小。例如，这个缓存 *限制为4MB的位图： *{@code *int cacheSize=4*1024*1024；//4MiB *LruCache位图缓存=新LruCache（缓存大小）{ *受保护的int-sizeOf（字符串键、位图值）{ *返回值。getByteCount（）； * } * }} * *此类是线程安全的。通过以下方式以原子方式执行多个缓存操作： *正在缓存上同步：{@code *已同步（缓存）{ *if（cache.get（key）==null）{ *cache.put（键、值）； * } * }} * *此类不允许将null用作键或值。回报 *{@link#get}、{@link#put}或{@link#remove}的null值为 *明确：密钥不在缓存中。 * *这个类出现在Android 3.1（蜂巢MR1）中；它作为一部分提供 *早期版本的。 */ 公共类LruCache{ 私人最终LinkedHashMap地图； /**此缓存的大小（单位）。不一定是元素数*/ 私有整数大小；私有int-maxSize；私人整数计数；私有int-createCount；私人int驱逐计数；私人整数命中率；私人整数错误计数； /** *@param maxSize对于不覆盖{@link#sizeOf}的缓存，这是 *缓存中的最大条目数。对于所有其他缓存， *这个我 {b=c, a=b} {b=c, a=d} {c=d, a=d} LoadingCache<Key, Graph> graphs = CacheBuilder.newBuilder() .expireAfterAccess(10, TimeUnit.MINUTES) .maximumSize(1000) .build( new CacheLoader<Key, Graph>() { public Graph load(Key key) { // no checked exception return createExpensiveGraph(key); } }); ... return graphs.getUnchecked(key); /* * Copyright (C) 2011 The Android Open Source Project * * 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 android.util; import java.util.LinkedHashMap; import java.util.Map; /** * BEGIN LAYOUTLIB CHANGE * This is a custom version that doesn't use the non standard LinkedHashMap#eldest. * END LAYOUTLIB CHANGE * * A cache that holds strong references to a limited number of values. Each time * a value is accessed, it is moved to the head of a queue. When a value is * added to a full cache, the value at the end of that queue is evicted and may * become eligible for garbage collection. * * If your cached values hold resources that need to be explicitly released, * override {@link #entryRemoved}. * * If a cache miss should be computed on demand for the corresponding keys, * override {@link #create}. This simplifies the calling code, allowing it to * assume a value will always be returned, even when there's a cache miss. * * By default, the cache size is measured in the number of entries. Override * {@link #sizeOf} to size the cache in different units. For example, this cache * is limited to 4MiB of bitmaps: * <pre> {@code * int cacheSize = 4 * 1024 * 1024; // 4MiB * LruCache<String, Bitmap> bitmapCache = new LruCache<String, Bitmap>(cacheSize) { * protected int sizeOf(String key, Bitmap value) { * return value.getByteCount(); * } * }}</pre> * * This class is thread-safe. Perform multiple cache operations atomically by * synchronizing on the cache: <pre> {@code * synchronized (cache) { * if (cache.get(key) == null) { * cache.put(key, value); * } * }}</pre> * * This class does not allow null to be used as a key or value. A return * value of null from {@link #get}, {@link #put} or {@link #remove} is * unambiguous: the key was not in the cache. * * This class appeared in Android 3.1 (Honeycomb MR1); it's available as part * of <a href="http://developer.android.com/sdk/compatibility-library.html">Android's * Support Package</a> for earlier releases. */ public class LruCache<K, V> { private final LinkedHashMap<K, V> map; /** Size of this cache in units. Not necessarily the number of elements. */ private int size; private int maxSize; private int putCount; private int createCount; private int evictionCount; private int hitCount; private int missCount; /** * @param maxSize for caches that do not override {@link #sizeOf}, this is * the maximum number of entries in the cache. For all other caches, * this is the maximum sum of the sizes of the entries in this cache. */ public LruCache(int maxSize) { if (maxSize <= 0) { throw new IllegalArgumentException("maxSize <= 0"); } this.maxSize = maxSize; this.map = new LinkedHashMap<K, V>(0, 0.75f, true); } /** * Sets the size of the cache. * @param maxSize The new maximum size. * * @hide */ public void resize(int maxSize) { if (maxSize <= 0) { throw new IllegalArgumentException("maxSize <= 0"); } synchronized (this) { this.maxSize = maxSize; } trimToSize(maxSize); } /** * Returns the value for {@code key} if it exists in the cache or can be * created by {@code #create}. If a value was returned, it is moved to the * head of the queue. This returns null if a value is not cached and cannot * be created. */ public final V get(K key) { if (key == null) { throw new NullPointerException("key == null"); } V mapValue; synchronized (this) { mapValue = map.get(key); if (mapValue != null) { hitCount++; return mapValue; } missCount++; } /* * Attempt to create a value. This may take a long time, and the map * may be different when create() returns. If a conflicting value was * added to the map while create() was working, we leave that value in * the map and release the created value. */ V createdValue = create(key); if (createdValue == null) { return null; } synchronized (this) { createCount++; mapValue = map.put(key, createdValue); if (mapValue != null) { // There was a conflict so undo that last put map.put(key, mapValue); } else { size += safeSizeOf(key, createdValue); } } if (mapValue != null) { entryRemoved(false, key, createdValue, mapValue); return mapValue; } else { trimToSize(maxSize); return createdValue; } } /** * Caches {@code value} for {@code key}. The value is moved to the head of * the queue. * * @return the previous value mapped by {@code key}. */ public final V put(K key, V value) { if (key == null || value == null) { throw new NullPointerException("key == null || value == null"); } V previous; synchronized (this) { putCount++; size += safeSizeOf(key, value); previous = map.put(key, value); if (previous != null) { size -= safeSizeOf(key, previous); } } if (previous != null) { entryRemoved(false, key, previous, value); } trimToSize(maxSize); return previous; } /** * @param maxSize the maximum size of the cache before returning. May be -1 * to evict even 0-sized elements. */ private void trimToSize(int maxSize) { while (true) { K key; V value; synchronized (this) { if (size < 0 || (map.isEmpty() && size != 0)) { throw new IllegalStateException(getClass().getName() + ".sizeOf() is reporting inconsistent results!"); } if (size <= maxSize) { break; } // BEGIN LAYOUTLIB CHANGE // get the last item in the linked list. // This is not efficient, the goal here is to minimize the changes // compared to the platform version. Map.Entry<K, V> toEvict = null; for (Map.Entry<K, V> entry : map.entrySet()) { toEvict = entry; } // END LAYOUTLIB CHANGE if (toEvict == null) { break; } key = toEvict.getKey(); value = toEvict.getValue(); map.remove(key); size -= safeSizeOf(key, value); evictionCount++; } entryRemoved(true, key, value, null); } } /** * Removes the entry for {@code key} if it exists. * * @return the previous value mapped by {@code key}. */ public final V remove(K key) { if (key == null) { throw new NullPointerException("key == null"); } V previous; synchronized (this) { previous = map.remove(key); if (previous != null) { size -= safeSizeOf(key, previous); } } if (previous != null) { entryRemoved(false, key, previous, null); } return previous; } /** * Called for entries that have been evicted or removed. This method is * invoked when a value is evicted to make space, removed by a call to * {@link #remove}, or replaced by a call to {@link #put}. The default * implementation does nothing. * * The method is called without synchronization: other threads may * access the cache while this method is executing. * * @param evicted true if the entry is being removed to make space, false * if the removal was caused by a {@link #put} or {@link #remove}. * @param newValue the new value for {@code key}, if it exists. If non-null, * this removal was caused by a {@link #put}. Otherwise it was caused by * an eviction or a {@link #remove}. */ protected void entryRemoved(boolean evicted, K key, V oldValue, V newValue) {} /** * Called after a cache miss to compute a value for the corresponding key. * Returns the computed value or null if no value can be computed. The * default implementation returns null. * * The method is called without synchronization: other threads may * access the cache while this method is executing. * * If a value for {@code key} exists in the cache when this method * returns, the created value will be released with {@link #entryRemoved} * and discarded. This can occur when multiple threads request the same key * at the same time (causing multiple values to be created), or when one * thread calls {@link #put} while another is creating a value for the same * key. */ protected V create(K key) { return null; } private int safeSizeOf(K key, V value) { int result = sizeOf(key, value); if (result < 0) { throw new IllegalStateException("Negative size: " + key + "=" + value); } return result; } /** * Returns the size of the entry for {@code key} and {@code value} in * user-defined units. The default implementation returns 1 so that size * is the number of entries and max size is the maximum number of entries. * * An entry's size must not change while it is in the cache. */ protected int sizeOf(K key, V value) { return 1; } /** * Clear the cache, calling {@link #entryRemoved} on each removed entry. */ public final void evictAll() { trimToSize(-1); // -1 will evict 0-sized elements } /** * For caches that do not override {@link #sizeOf}, this returns the number * of entries in the cache. For all other caches, this returns the sum of * the sizes of the entries in this cache. */ public synchronized final int size() { return size; } /** * For caches that do not override {@link #sizeOf}, this returns the maximum * number of entries in the cache. For all other caches, this returns the * maximum sum of the sizes of the entries in this cache. */ public synchronized final int maxSize() { return maxSize; } /** * Returns the number of times {@link #get} returned a value that was * already present in the cache. */ public synchronized final int hitCount() { return hitCount; } /** * Returns the number of times {@link #get} returned null or required a new * value to be created. */ public synchronized final int missCount() { return missCount; } /** * Returns the number of times {@link #create(Object)} returned a value. */ public synchronized final int createCount() { return createCount; } /** * Returns the number of times {@link #put} was called. */ public synchronized final int putCount() { return putCount; } /** * Returns the number of values that have been evicted. */ public synchronized final int evictionCount() { return evictionCount; } /** * Returns a copy of the current contents of the cache, ordered from least * recently accessed to most recently accessed. */ public synchronized final Map<K, V> snapshot() { return new LinkedHashMap<K, V>(map); } @Override public synchronized final String toString() { int accesses = hitCount + missCount; int hitPercent = accesses != 0 ? (100 * hitCount / accesses) : 0; return String.format("LruCache[maxSize=%d,hits=%d,misses=%d,hitRate=%d%%]", maxSize, hitCount, missCount, hitPercent); } }