基于 AbstractQueuedSynchronizer 的并发类实现（1）

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公平模式ReentrantLock实现原理前面的文章研究了AbstractQueuedSynchronizer的独占锁和共享锁，有了前两篇文章的基础，就可以乘胜追击，看一下基于AbstractQueuedSynchronizer的并发类是如何实现的。
ReentrantLock显然是一种独占锁，首先是公平模式的ReentrantLock，Sync是ReentractLock中的基础类，继承自AbstractQueuedSynchronizer，看一下代码实现：

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abstract static class Sync extends AbstractQueuedSynchronizer {     private static final long serialVersionUID = -5179523762034025860L;     /**      * Performs {@link Lock#lock}. The main reason for subclassing      * is to allow fast path for nonfair version.      */     abstract void lock();     /**      * Performs non-fair tryLock.  tryAcquire is      * implemented in subclasses, but both need nonfair      * try for trylock method.      */     final boolean nonfairTryAcquire(int acquires) {         final Thread current = Thread.currentThread();         int c = getState();         if (c == 0) {             if (compareAndSetState(0, acquires)) {                 setExclusiveOwnerThread(current);                 return true;             }         }         else if (current == getExclusiveOwnerThread()) {             int nextc = c + acquires;             if (nextc < 0) // overflow                 throw new Error("Maximum lock count exceeded");             setState(nextc);             return true;         }         return false;     }     protected final boolean tryRelease(int releases) {         int c = getState() - releases;         if (Thread.currentThread() != getExclusiveOwnerThread())             throw new IllegalMonitorStateException();         boolean free = false;         if (c == 0) {             free = true;             setExclusiveOwnerThread(null);         }         setState(c);         return free;     }     protected final boolean isHeldExclusively() {         // While we must in general read state before owner,         // we don't need to do so to check if current thread is owner         return getExclusiveOwnerThread() == Thread.currentThread();     }     final ConditionObject newCondition() {         return new ConditionObject();     }     // Methods relayed from outer class     final Thread getOwner() {         return getState() == 0 ? null : getExclusiveOwnerThread();     }     final int getHoldCount() {         return isHeldExclusively() ? getState() : 0;     }     final boolean isLocked() {         return getState() != 0;     }     /**      * Reconstitutes this lock instance from a stream.      * @param s the stream      */     private void readObject(java.io.ObjectInputStream s)         throws java.io.IOException, ClassNotFoundException {         s.defaultReadObject();         setState(0); // reset to unlocked state     } }

Sync属于一个公共类，它是抽象的说明Sync会被继承，简单整理一下Sync主要做了哪些事（因为Sync不是ReentrantLock公平锁的关键）：

• 定义了一个lock方法让子类去实现，我们平时之所以能调用ReentrantLock的lock()方法，就是因为Sync定义了它
• 实现了非公平锁tryAcquira的方法
• 实现了tryRelease方法，比较简单，状态-1，独占锁的线程置空
• 实现了isHeldExclusively方法
• 定义了newCondition方法，让开发者可以利用Condition实现通知/等待