国土局网站建设制度百度域名注册
- ThreadLocal
- ThreadLocalMap
- get
- set
- remove
- 内存泄漏
- key用强/弱引用
- entry继承了弱引用
ThreadLocal
-
一个对象的所有线程会共享其全局变量——>线程不安全
解决方式:
方式一:同步机制,加锁(时间换空间)
方式二:ThreadLocal在每个线程中都创建了一个变量的副本,线程各自访问自己的副本变量,则不存在变量共享问题。(空间换时间)变量与线程的关系private static,所以ThreadLocal与线程的关系private static
eg:session -
同一个线程内多个函数/组件间公共变量传递复杂,降低了多模块间的耦合度。关联线程和线程上下文
ThreadLocalMap
每一个thread都有一个threadLocalMap变量,key=threadLocal value=值
(一个thread可以有多个threadLocal)
public class Thread implements Runnable {//存储与此线程相关的threadLocal,值由threadLocal维护ThreadLocal.ThreadLocalMap threadLocals;
}
jdk1.7的实现方式为每一个threadLocal都有一个threadLocalMap变量,key=threadID value=值
- 储存的entry减少,之前由thread数量决定,现在由threadLocal决定
- thread销毁对应的threadLocalMap也销毁。threadLocalMap的生命周期=线程的生命周期,内存使用减少
get
private T get(Thread t) {ThreadLocalMap map = getMap(t);if (map != null) {if (map == ThreadLocalMap.NOT_SUPPORTED) {return initialValue();} else {//根据ThreadLocalHash计算index,取得Entry ThreadLocalMap.Entry e = map.getEntry(this);if (e != null) {@SuppressWarnings("unchecked")T result = (T) e.value;return result;}}}return setInitialValue(t);
}private T setInitialValue(Thread t) {T value = initialValue();ThreadLocalMap map = getMap(t);assert map != ThreadLocalMap.NOT_SUPPORTED;if (map != null) {map.set(this, value);} else {createMap(t, value);}if (this instanceof TerminatingThreadLocal<?> ttl) {TerminatingThreadLocal.register(ttl);}return value;
}
set
private void set(Thread t, T value) {ThreadLocalMap map = getMap(t);if (map == ThreadLocalMap.NOT_SUPPORTED) {throw new UnsupportedOperationException();}if (map != null) {map.set(this, value);} else {createMap(t, value);}
}//存入值
private void set(ThreadLocal<?> key, Object value) {// We don't use a fast path as with get() because it is at// least as common to use set() to create new entries as// it is to replace existing ones, in which case, a fast// path would fail more often than not.Entry[] tab = table;int len = tab.length;int i = key.threadLocalHashCode & (len-1);for (Entry e = tab[i];e != null;e = tab[i = nextIndex(i, len)]) {if (e.refersTo(key)) {e.value = value;return;}if (e.refersTo(null)) {replaceStaleEntry(key, value, i);return;}}tab[i] = new Entry(key, value);int sz = ++size;if (!cleanSomeSlots(i, sz) && sz >= threshold)rehash();
}//初始化map
void createMap(Thread t, T firstValue) {t.threadLocals = new ThreadLocalMap(this, firstValue);
}
remove
private void remove(Thread t) {ThreadLocalMap m = getMap(t);if (m != null && m != ThreadLocalMap.NOT_SUPPORTED) {m.remove(this);}
}
内存泄漏
引用链:threadRef->thread->threadLocalMap<threadLocal,value>->entry->value
弱引用:如果这个对象只存在弱引用,那么在下一次GC时会被清理。
ThreadLocalMap 中使用的 key 为 ThreadLocal 的弱引用。所以如果 ThreadLocal 没有被外部强引用,在GC时ThreadLocal 会被清理掉,ThreadLocalMap中使用这个 ThreadLocal 的 key 也会被设为null。由于value 是强引用,不会被清理,依然存在,就会出现 key 为 null 的 value,value无法访问。在map中value为强引用不会被清除,直到map被清除。然而由于threadLocalMap的生命周期=线程,线程池通常采取线程复用的方法,所以线程池中的线程很难结束。所以value可能一直无法回收。
key用强/弱引用
- key用强引用:引用ThreadLocal的对象被回收了,但threadLocalMap中还有threadLocal的强引用,若未手动删除,threadLocal不会被回收,导致entry内存泄漏
- key用弱引用:引用ThreadLocal的对象被回收了,但threadLocalMap中还有threadLocal的弱引用,即使未手动删除,threadLocal也会被回收,导致value内存泄漏
- 结论:若未手动删除key,都会导致内存泄漏。强引用threadLocal不会被回收,弱引用value。 内存泄漏与强/弱引用无关,根本原因在于threadLocalMap的生命周期=线程。
解决方式:用完threadLocal,调用remove清除无用的entry,由于Entry继承了弱引用类,会在下次GC时被JVM回收。get(),set(),remove(),会顺便移除key=null的entry
entry继承了弱引用
public class ThreadLocal<T> {static class ThreadLocalMap {private Entry[] table;//轻量级map,桶中存entry而非entry链表//Entry 继承弱引用static class Entry extends WeakReference<ThreadLocal<?>> {/** The value associated with this ThreadLocal. */Object value;Entry(ThreadLocal<?> k, Object v) {super(k);value = v;}}}
}