/*
* Copyright 2015 Terracotta, Inc., a Software AG company.
*
* 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 org.terracotta.offheapstore.concurrent;
import org.terracotta.offheapstore.WriteLockedOffHeapClockCache;
import org.terracotta.offheapstore.eviction.EvictionListener;
import org.terracotta.offheapstore.eviction.EvictionListeningWriteLockedOffHeapClockCache;
import org.terracotta.offheapstore.paging.PageSource;
import org.terracotta.offheapstore.storage.StorageEngine;
import org.terracotta.offheapstore.util.Factory;
/**
* Factory of {@link WriteLockedOffHeapClockCache} instances.
*
* @param <K> the type of keys held by the generated caches
* @param <V> the type of mapped values
*
* @author Chris Dennis
*/
public class WriteLockedOffHeapClockCacheFactory<K, V> implements Factory<WriteLockedOffHeapClockCache<K, V>> {
private static final int DEFAULT_TABLE_SIZE = 128;
private final Factory<? extends StorageEngine<? super K, ? super V>> storageEngineFactory;
private final PageSource tableSource;
private final int tableSize;
private final EvictionListener<K, V> evictionListener;
/**
* Creates segments using the given table buffer source and storage engine
* factory.
*
* @param tableSource buffer source from which the segment hash tables are allocated
* @param storageEngineFactory factory for the segment storage engines
*/
public WriteLockedOffHeapClockCacheFactory(PageSource tableSource, Factory<? extends StorageEngine<? super K, ? super V>> storageEngineFactory) {
this(tableSource, storageEngineFactory, DEFAULT_TABLE_SIZE);
}
/**
* Creates segments using the given table buffer source and storage engine
* factory.
*
* @param tableSource buffer source from which the segment hash tables are allocated
* @param storageEngineFactory factory for the segment storage engines
* @param evictionListener listener notified on evictions
*/
public WriteLockedOffHeapClockCacheFactory(PageSource tableSource, Factory<? extends StorageEngine<? super K, ? super V>> storageEngineFactory, EvictionListener<K, V> evictionListener) {
this(tableSource, storageEngineFactory, evictionListener, DEFAULT_TABLE_SIZE);
}
/**
* Creates segments using the given table buffer source, storage engine
* factory, and initial table size.
*
* @param tableSource buffer source from which the segment hash tables are allocated
* @param storageEngineFactory factory for the segment storage engines
* @param tableSize initial table size for each segment
*/
public WriteLockedOffHeapClockCacheFactory(PageSource tableSource, Factory<? extends StorageEngine<? super K, ? super V>> storageEngineFactory, int tableSize) {
this(tableSource, storageEngineFactory, null, tableSize);
}
/**
* Creates segments using the given table buffer source, storage engine
* factory, eviction listener and initial table size.
*
* @param tableSource buffer source from which the segment hash tables are allocated
* @param storageEngineFactory factory for the segment storage engines
* @param evictionListener listener notified on evictions
* @param tableSize initial table size for each segment
*/
public WriteLockedOffHeapClockCacheFactory(PageSource tableSource, Factory<? extends StorageEngine<? super K, ? super V>> storageEngineFactory, EvictionListener<K, V> evictionListener, int tableSize) {
this.storageEngineFactory = storageEngineFactory;
this.tableSource = tableSource;
this.tableSize = tableSize;
this.evictionListener = evictionListener;
}
/**
* Creates a new {@code WriteLockedOffHeapClockCache} for use in a
* segmented cache.
*
* @return a new {@code WriteLockedOffHeapClockCache}
*/
@Override
public WriteLockedOffHeapClockCache<K, V> newInstance() {
StorageEngine<? super K, ? super V> storageEngine = storageEngineFactory.newInstance();
try {
if (evictionListener == null) {
return new WriteLockedOffHeapClockCache<K, V>(tableSource, storageEngine, tableSize);
} else {
return new EvictionListeningWriteLockedOffHeapClockCache<K, V>(evictionListener, tableSource, storageEngine, tableSize);
}
} catch (RuntimeException e) {
storageEngine.destroy();
throw e;
}
}
}