/*
 * Copyright 2002-2020 the original author or 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
 *
 *      https://www.apache.org/licenses/LICENSE-2.0
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 * 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
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package org.springframework.cache.concurrent;

import java.util.concurrent.Callable;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;

import org.springframework.cache.support.AbstractValueAdaptingCache;
import org.springframework.core.serializer.support.SerializationDelegate;
import org.springframework.lang.Nullable;
import org.springframework.util.Assert;

Simple Cache implementation based on the core JDK java.util.concurrent package.

Useful for testing or simple caching scenarios, typically in combination with SimpleCacheManager or dynamically through ConcurrentMapCacheManager.

Note: As ConcurrentHashMap (the default implementation used) does not allow for null values to be stored, this class will replace them with a predefined internal object. This behavior can be changed through the ConcurrentMapCache(String, ConcurrentMap<Object,Object>, boolean) constructor.

Author:Costin Leau, Juergen Hoeller, Stephane Nicoll
See Also:
Since:3.1
/** * Simple {@link org.springframework.cache.Cache} implementation based on the * core JDK {@code java.util.concurrent} package. * * <p>Useful for testing or simple caching scenarios, typically in combination * with {@link org.springframework.cache.support.SimpleCacheManager} or * dynamically through {@link ConcurrentMapCacheManager}. * * <p><b>Note:</b> As {@link ConcurrentHashMap} (the default implementation used) * does not allow for {@code null} values to be stored, this class will replace * them with a predefined internal object. This behavior can be changed through the * {@link #ConcurrentMapCache(String, ConcurrentMap, boolean)} constructor. * * @author Costin Leau * @author Juergen Hoeller * @author Stephane Nicoll * @since 3.1 * @see ConcurrentMapCacheManager */
public class ConcurrentMapCache extends AbstractValueAdaptingCache { private final String name; private final ConcurrentMap<Object, Object> store; @Nullable private final SerializationDelegate serialization;
Create a new ConcurrentMapCache with the specified name.
Params:
  • name – the name of the cache
/** * Create a new ConcurrentMapCache with the specified name. * @param name the name of the cache */
public ConcurrentMapCache(String name) { this(name, new ConcurrentHashMap<>(256), true); }
Create a new ConcurrentMapCache with the specified name.
Params:
  • name – the name of the cache
  • allowNullValues – whether to accept and convert null values for this cache
/** * Create a new ConcurrentMapCache with the specified name. * @param name the name of the cache * @param allowNullValues whether to accept and convert {@code null} * values for this cache */
public ConcurrentMapCache(String name, boolean allowNullValues) { this(name, new ConcurrentHashMap<>(256), allowNullValues); }
Create a new ConcurrentMapCache with the specified name and the given internal ConcurrentMap to use.
Params:
  • name – the name of the cache
  • store – the ConcurrentMap to use as an internal store
  • allowNullValues – whether to allow null values (adapting them to an internal null holder value)
/** * Create a new ConcurrentMapCache with the specified name and the * given internal {@link ConcurrentMap} to use. * @param name the name of the cache * @param store the ConcurrentMap to use as an internal store * @param allowNullValues whether to allow {@code null} values * (adapting them to an internal null holder value) */
public ConcurrentMapCache(String name, ConcurrentMap<Object, Object> store, boolean allowNullValues) { this(name, store, allowNullValues, null); }
Create a new ConcurrentMapCache with the specified name and the given internal ConcurrentMap to use. If the SerializationDelegate is specified, store-by-value is enabled
Params:
  • name – the name of the cache
  • store – the ConcurrentMap to use as an internal store
  • allowNullValues – whether to allow null values (adapting them to an internal null holder value)
  • serialization – the SerializationDelegate to use to serialize cache entry or null to store the reference
Since:4.3
/** * Create a new ConcurrentMapCache with the specified name and the * given internal {@link ConcurrentMap} to use. If the * {@link SerializationDelegate} is specified, * {@link #isStoreByValue() store-by-value} is enabled * @param name the name of the cache * @param store the ConcurrentMap to use as an internal store * @param allowNullValues whether to allow {@code null} values * (adapting them to an internal null holder value) * @param serialization the {@link SerializationDelegate} to use * to serialize cache entry or {@code null} to store the reference * @since 4.3 */
protected ConcurrentMapCache(String name, ConcurrentMap<Object, Object> store, boolean allowNullValues, @Nullable SerializationDelegate serialization) { super(allowNullValues); Assert.notNull(name, "Name must not be null"); Assert.notNull(store, "Store must not be null"); this.name = name; this.store = store; this.serialization = serialization; }
Return whether this cache stores a copy of each entry (true) or a reference (false, default). If store by value is enabled, each entry in the cache must be serializable.
Since:4.3
/** * Return whether this cache stores a copy of each entry ({@code true}) or * a reference ({@code false}, default). If store by value is enabled, each * entry in the cache must be serializable. * @since 4.3 */
public final boolean isStoreByValue() { return (this.serialization != null); } @Override public final String getName() { return this.name; } @Override public final ConcurrentMap<Object, Object> getNativeCache() { return this.store; } @Override @Nullable protected Object lookup(Object key) { return this.store.get(key); } @SuppressWarnings("unchecked") @Override @Nullable public <T> T get(Object key, Callable<T> valueLoader) { return (T) fromStoreValue(this.store.computeIfAbsent(key, k -> { try { return toStoreValue(valueLoader.call()); } catch (Throwable ex) { throw new ValueRetrievalException(key, valueLoader, ex); } })); } @Override public void put(Object key, @Nullable Object value) { this.store.put(key, toStoreValue(value)); } @Override @Nullable public ValueWrapper putIfAbsent(Object key, @Nullable Object value) { Object existing = this.store.putIfAbsent(key, toStoreValue(value)); return toValueWrapper(existing); } @Override public void evict(Object key) { this.store.remove(key); } @Override public boolean evictIfPresent(Object key) { return (this.store.remove(key) != null); } @Override public void clear() { this.store.clear(); } @Override public boolean invalidate() { boolean notEmpty = !this.store.isEmpty(); this.store.clear(); return notEmpty; } @Override protected Object toStoreValue(@Nullable Object userValue) { Object storeValue = super.toStoreValue(userValue); if (this.serialization != null) { try { return this.serialization.serializeToByteArray(storeValue); } catch (Throwable ex) { throw new IllegalArgumentException("Failed to serialize cache value '" + userValue + "'. Does it implement Serializable?", ex); } } else { return storeValue; } } @Override protected Object fromStoreValue(@Nullable Object storeValue) { if (storeValue != null && this.serialization != null) { try { return super.fromStoreValue(this.serialization.deserializeFromByteArray((byte[]) storeValue)); } catch (Throwable ex) { throw new IllegalArgumentException("Failed to deserialize cache value '" + storeValue + "'", ex); } } else { return super.fromStoreValue(storeValue); } } }