采用LinkedHashMap自带的LRU 算法缓存数据, 可检测对象是否已被虚拟机回收,并且重新计算当前缓存大小,清除缓存中无用的键值对象(即已经被虚拟机回收但未从缓存清除的数据);
* 默认内存缓存大小为: 4 * 1024 * 1024 可通过通过setMaxCacheSize重新设置缓存大小,可手动清空内存缓存
* <br>支持内存缓存和磁盘缓存方式, 通过 {@link cc.util.cache.NetByteWrapper} 支持HTTP缓存 (注:详细参考cc.util.http包); 注:使用JDK7
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package cc.util.cache; import java.io.Serializable; import java.util.Objects; /** 封装网络数据, 将数据的Etag、lastModified获取到, 下次请求的时候提取出来到服务器比对 * Help to wrap byte data which obtains from network, It will work with {@link cc.util.cache.NetChacheManager} * @author wangcccong * @version 1.1406 * <br> create at: Tues, 10 Jun 2014 */ public class NetByteWrapper implements Serializable { private final static long serialVersionUID = 1L; /** data from network */ private byte [] data; /** data size */ int contentLength; /** latested modify time */ private long lastModified; /** ETag: look up HTTP Protocol */ private String ETag; public NetByteWrapper( byte [] data, long lastModified, String Etag) { this .data = data; this .lastModified = lastModified; this .ETag = Etag; } public byte [] getData() { return data; } public void setData( byte [] data) { this .data = data; } public long getLastModified() { return lastModified; } public void setLastModified( long lastModified) { this .lastModified = lastModified; } public String getETag() { return ETag; } public void setETag(String eTag) { this .ETag = eTag; } public int getContentLength() { return Objects.isNull(data) ? 0 : data.length; } } package cc.util.cache; import java.lang.ref.ReferenceQueue; import java.lang.ref.SoftReference; /**采用软引用方式将数据存放起来 * enclose {@link cc.util.cache.NetByteWrapper} with {@link java.lang.ref.SoftReference}, In order to recycle the memory * @author wangcccong * @version 1.1406 * <br> create at: Tues, 10 Jun. 2014 */ public class NetByteSoftReference extends SoftReference<NetByteWrapper> { private String key = "" ; private long length = 0 ; public NetByteSoftReference(String key, NetByteWrapper arg0) { this (key, arg0, null ); } public NetByteSoftReference(String key, NetByteWrapper arg0, ReferenceQueue<? super NetByteWrapper> arg1) { super (arg0, arg1); // TODO Auto-generated constructor stub this .key = key; this .length = arg0.getContentLength(); } public String getKey() { return key; } public long getLength() { return length; } } package cc.util.cache; import java.lang.ref.ReferenceQueue; import java.lang.ref.SoftReference; import java.io.FileInputStream; import java.io.FileOutputStream; import java.io.ObjectInputStream; import java.io.ObjectOutputStream; import java.util.Iterator; import java.util.LinkedHashMap; import java.util.Objects; /** * 采用LinkedHashMap自带的LRU 算法缓存数据, 可检测对象是否已被虚拟机回收,并且重新计算当前缓存大小,清除缓存中无用的键值对象(即已经被虚拟机回收但未从缓存清除的数据); * 默认内存缓存大小为: 4 * 1024 * 1024 可通过通过setMaxCacheSize重新设置缓存大小,可手动清空内存缓存,支持采用内存映射方式读取缓存 * <br>支持内存缓存和磁盘缓存方式, 通过 {@link cc.util.cache.NetByteWrapper} 支持HTTP缓存 (注:详细参考cc.util.http包) * @author wangcccong * @version 1.1406 * <br> create at: Tues, 10 Jun 2014 */ public class NetCacheManager { /** max cache size */ private long MAX_CACHE_SIZE = 4 * 1024 * 1024 ; private long cacheSize = 0 ; private static NetCacheManager instance = null ; private final ReferenceQueue<NetByteWrapper> referenceQueue; private final LinkedHashMap<String, NetByteSoftReference> cacheMap; private NetCacheManager(){ referenceQueue = new ReferenceQueue<NetByteWrapper>(); cacheMap = new LinkedHashMap<String, NetByteSoftReference>( 16 , 0 .75f, true ) { private static final long serialVersionUID = -8378285623387632829L; @Override protected boolean removeEldestEntry( java.util.Map.Entry<String, NetByteSoftReference> eldest) { // TODO Auto-generated method stub boolean shouldRemove = cacheSize > MAX_CACHE_SIZE; if (shouldRemove) { cacheSize -= eldest.getValue().getLength(); System.gc(); } return shouldRemove; } }; } /** singleton model */ public static synchronized NetCacheManager newInstance(){ if (Objects.isNull(instance)) { instance = new NetCacheManager(); } return instance; } /** * reset the memory cache size * @param cacheSize */ public void setMaxCacheSize( long cacheSize) { this .MAX_CACHE_SIZE = cacheSize; } /** * 获取当前内存缓存大小 * @return */ public long getCacheSize() { return cacheSize; } /** * 将数据缓存至内存, 如果http返回的数据<b>不支持</b>缓存则采用此方法,缓存的key一般为请求的url * @param key * @param value */ public void cacheInMemory(String key, byte [] value) { this .cacheInMemory(key, value, 0 , null ); } /** * 将数据缓存至内存, 如果http返回的数据<b>支持</b>缓存则采用此方法 * @param key * @param value * @param lastModified */ public void cacheInMemory(String key, byte [] value, long lastModified) { this .cacheInMemory(key, value, lastModified, null ); } /** * 将数据缓存至内存, 如果http返回的数据<b>支持</b>缓存则采用此方法 * @param key * @param value * @param Etags */ public void cacheInMemory(String key, byte [] value, String Etags) { this .cacheInMemory(key, value, 0 , Etags); } /** * 将数据缓存至内存, 如果http返回的数据<b>支持</b>缓存则采用此方法 * @param key * @param value * @param lastModified * @param Etags */ private void cacheInMemory(String key, byte [] value, long lastModified, String Etags) { Objects.requireNonNull(key, "key must not be null" ); clearRecycledObject(); NetByteWrapper wrapper = new NetByteWrapper(value, lastModified, Etags); NetByteSoftReference byteRef = new NetByteSoftReference(key, wrapper, referenceQueue); cacheMap.put(key, byteRef); value = null ; wrapper = null ; } /** * 缓存至磁盘, 默认不首先缓存到内存 * @param key * @param value * @param path */ public void cacheInDisk(String key, byte [] value, String path) { cacheInDisk(key, value, path, false ); } /** * * @param key * @param value * @param path * @param cacheInMemory */ public void cacheInDisk(String key, byte [] value, String path, boolean cacheInMemory) { this .cacheInDisk(key, value, 0 , null , path, cacheInMemory); } /** * * @param key * @param value * @param lastModified * @param Etags * @param path * @param cacheInMemory */ private void cacheInDisk(String key, byte [] value, long lastModified, String Etags, String path, boolean cacheInMemory) { if (cacheInMemory) cacheInMemory(key, value, lastModified, Etags); try (FileOutputStream fos = new FileOutputStream(path); ObjectOutputStream oos = new ObjectOutputStream(fos)) { NetByteWrapper wrapper = new NetByteWrapper(value, lastModified, Etags); oos.writeObject(wrapper); } catch (Exception e) { // TODO: handle exception e.printStackTrace(); } } /** * get {@link cc.util.cache.NetByteWrapper} from memory according to key * @param key * @return {@link cc.util.cache.NetByteWrapper} */ public NetByteWrapper getFromMemory(String key) { SoftReference<NetByteWrapper> softReference = cacheMap.get(key); return Objects.nonNull(softReference) ? softReference.get() : null ; } /** * get byte[] from memory according to key * @param context * @param key * @return */ public byte [] getByteFromMemory(String key) { NetByteWrapper wrapper = getFromMemory(key); return Objects.nonNull(wrapper) ? wrapper.getData() : null ; } /** * 从磁盘获取数据 * @param path * @return {@link cc.util.cache.NetByteWrapper} */ public NetByteWrapper getFromDisk(String path) { try (FileInputStream fis = new FileInputStream(path); ObjectInputStream ois = new ObjectInputStream(fis)) { NetByteWrapper wrapper = (NetByteWrapper) ois.readObject(); return wrapper; } catch (Exception e) { // TODO: handle exception e.printStackTrace(); return null ; } } /** * 采用内存映射的方式从磁盘获取数据(加快读取缓存的大文件) * @param path * @return */ public NetByteWrapper getFromDiskByMapped(String path) { try (FileInputStream fis = new FileInputStream(path); FileChannel channel= fis.getChannel(); ByteArrayOutputStream baos = new ByteArrayOutputStream()){ MappedByteBuffer mbb = channel.map(FileChannel.MapMode.READ_ONLY, 0 , channel.size()); byte [] bts = new byte [ 1024 ]; int len = ( int ) channel.size(); for ( int offset = 0 ; offset < len; offset += 1024 ) { if (len - offset > 1024 ) mbb.get(bts); else mbb.get((bts = new byte [len - offset])); baos.write(bts); } ByteArrayInputStream bais = new ByteArrayInputStream(baos.toByteArray()); ObjectInputStream ois = new ObjectInputStream(bais); NetByteWrapper wrapper = (NetByteWrapper) ois.readObject(); bais.close(); ois.close(); return wrapper; } catch (Exception e) { // TODO: handle exception e.printStackTrace(); return null ; } } /** * 从磁盘获取缓存的byte[] 数据 * @param path * @return */ public byte [] getByteFromDisk(String path) { NetByteWrapper wrapper = getFromDisk(path); return Objects.isNull(wrapper) ? null : wrapper.getData(); } /** * 通过内存映射放射从磁盘获取缓存的byte[] 数据 * @param path * @return */ public byte [] getByteFromDiskByMapped(String path) { NetByteWrapper wrapper = getFromDiskByMapped(path); return Objects.isNull(wrapper) ? null : wrapper.getData(); } /** * calculate the size of the cache memory */ private void clearRecycledObject() { NetByteSoftReference ref = null ; //检测对象是否被回收,如果被回收则从缓存中移除死项 while (Objects.nonNull((ref = (NetByteSoftReference) referenceQueue.poll()))) { cacheMap.remove(ref.getKey()); } cacheSize = 0 ; Iterator<String> keys = cacheMap.keySet().iterator(); while (keys.hasNext()) { cacheSize += cacheMap.get(keys.next()).getLength(); } } /** * clear the memory cache */ public void clearCache() { clearRecycledObject(); cacheMap.clear(); System.gc(); System.runFinalization(); } } |
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