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Java多線程 ReentrantLock互斥鎖詳解

發布時間:2020-09-25 17:10:30 來源:腳本之家 閱讀:110 作者:慢慢來 欄目:編程語言

加鎖和解鎖

我們來看下ReentrantLock的基本用法

ThreadDomain35類

public class ThreadDomain35 {
  private Lock lock = new ReentrantLock();
  public void testMethod()
  {
    try
    {
      lock.lock();
      for (int i = 0; i < 2; i++)
      {
        System.out.println("ThreadName = " + Thread.currentThread().getName() + ", i = " + i);
      }
    }
    finally
    {
      lock.unlock();
    }
  }
}

線程和main方法

public class MyThread35 extends Thread {

  private ThreadDomain35 td;

  public MyThread35(ThreadDomain35 td)
  {
    this.td = td;
  }

  public void run()
  {
    td.testMethod();
  }

  public static void main(String[] args)
  {
    ThreadDomain35 td = new ThreadDomain35();
    MyThread35 mt0 = new MyThread35(td);
    MyThread35 mt1 = new MyThread35(td);
    MyThread35 mt2 = new MyThread35(td);
    mt0.start();
    mt1.start();
    mt2.start();
  }
}

輸出結果

ThreadName = Thread-2, i = 0
ThreadName = Thread-2, i = 1
ThreadName = Thread-0, i = 0
ThreadName = Thread-0, i = 1
ThreadName = Thread-1, i = 0
ThreadName = Thread-1, i = 1

一個線程必須執行完才能執行下一個線程,說明ReentrantLock可以加鎖。

ReentrantLock持有的對象監視器和synchronized不同

ThreadDomain37類,methodB用synchronized修飾

public class ThreadDomain37 {
  private Lock lock = new ReentrantLock();
  public void methodA()
  {
    try
    {
      lock.lock();
      System.out.println("MethodA begin ThreadName = " + Thread.currentThread().getName());
      Thread.sleep(5000);
      System.out.println("MethodA end ThreadName = " + Thread.currentThread().getName());
    }
    catch (InterruptedException e)
    {
      e.printStackTrace();
    }
    finally
    {
      lock.unlock();
    }
  }
  public synchronized void methodB()
  {
    System.out.println("MethodB begin ThreadName = " + Thread.currentThread().getName());
    System.out.println("MethodB begin ThreadName = " + Thread.currentThread().getName());
  }
}

MyThread37_0類

public class MyThread37_0 extends Thread {
  private ThreadDomain37 td;
  public MyThread37_0(ThreadDomain37 td)
  {
    this.td = td;
  }
  public void run()
  {
    td.methodA();
  }
}

MyThread37_1類

public class MyThread37_1 extends Thread {
  private ThreadDomain37 td;
  public MyThread37_1(ThreadDomain37 td)
  {
    this.td = td;
  }

  public void run()
  {
    td.methodB();
  }
}

MyThread37_main方法

public class MyThread37_main {
  public static void main(String[] args)
  {
    ThreadDomain37 td = new ThreadDomain37();
    MyThread37_0 mt0 = new MyThread37_0(td);
    MyThread37_1 mt1 = new MyThread37_1(td);
    mt0.start();
    mt1.start();
  }
}

運行結果如下

MethodA begin ThreadName = Thread-0
MethodB begin ThreadName = Thread-1
MethodB begin ThreadName = Thread-1
MethodA end ThreadName = Thread-0

加了synchronized依然是異步執行,說明ReentrantLock和synchronized持有的對象監視器不同。ReentrantLock需要手動加鎖和釋放鎖。

Condition

基本用法

synchronized與wait()和nitofy()/notifyAll()方法可以實現等待/喚醒模型,ReentrantLock同樣可以,需要借助Condition的await()和signal/signalAll(),await()釋放鎖。

ThreadDomain38類

public class ThreadDomain38 {
  private Lock lock = new ReentrantLock();
  private Condition condition = lock.newCondition();
  public void await()
  {
    try
    {
      lock.lock();
      System.out.println("await時間為:" + System.currentTimeMillis());
      condition.await();
      System.out.println("await等待結束");
    }
    catch (InterruptedException e)
    {
      e.printStackTrace();
    }
    finally
    {
      lock.unlock();
    }
  }
  public void signal()
  {
    try
    {
      lock.lock();
      System.out.println("signal時間為:" + System.currentTimeMillis());
      condition.signal();
      System.out.println("signal等待結束");
    }
    finally
    {
      lock.unlock();
    }
  }
}

MyThread38類,線程和main方法

public class MyThread38 extends Thread
{
  private ThreadDomain38 td;

  public MyThread38(ThreadDomain38 td)
  {
    this.td = td;
  }
  public void run()
  {
    td.await();
  }
  public static void main(String[] args) throws Exception
  {
    ThreadDomain38 td = new ThreadDomain38();
    MyThread38 mt = new MyThread38(td);
    mt.start();
    Thread.sleep(3000);
    td.signal();
  }
}


運行結果如下

await時間為:1563505465346
signal時間為:1563505468345
signal等待結束
await等待結束

可以看到,ReentrantLock和Condition實現了等待/通知模型。

一個Lock可以創建多個Condition;

notify()喚醒的線程是隨機的,signal()可以有選擇性地喚醒。

Condition選擇 喚醒/等待

現在看一個利用Condition選擇等待和喚醒的例子

ThreadDomain47類,定義add和sub方法

public class ThreadDomain47 {
  private final Lock lock = new ReentrantLock();

  private final Condition addCondition = lock.newCondition();

  private final Condition subCondition = lock.newCondition();


  private static int num = 0;
  private List<String> lists = new LinkedList<String>();

  public void add() {
    lock.lock();

    try {
      while(lists.size() == 10) {//當集合已滿,則"添加"線程等待
        addCondition.await();
      }

      num++;
      lists.add("add Banana" + num);
      System.out.println("The Lists Size is " + lists.size());
      System.out.println("The Current Thread is " + "增加線程");
      System.out.println("==============================");
      this.subCondition.signal();

    } catch (InterruptedException e) {
      e.printStackTrace();
    } finally {//釋放鎖
      lock.unlock();
    }
  }
  public void sub() {
    lock.lock();

    try {
      while(lists.size() == 0) {//當集合為空時,"減少"線程等待
        subCondition.await();
      }

      String str = lists.get(0);
      lists.remove(0);
      System.out.println("The Token Banana is [" + str + "]");
      System.out.println("The Current Thread is " + "減少線程");
      System.out.println("==============================");
      num--;
      addCondition.signal();

    } catch (InterruptedException e) {
      e.printStackTrace();
    } finally {
      lock.unlock();
    }
  }
}

MyThread40_0類,增加線程

public class MyThread40_0 implements Runnable {
  private ThreadDomain47 task;
  public MyThread40_0(ThreadDomain47 task) {
    this.task = task;
  }
  @Override
  public void run() {
    task.add();
  }
}

MyThread40_1類,減少線程

public class MyThread40_1 implements Runnable {
  private ThreadDomain47 task;

  public MyThread40_1(ThreadDomain47 task) {
    this.task = task;
  }
  @Override
  public void run() {
    task.sub();
  }
}

main方法,啟動線程

public class MyThread40_main {
  public static void main(String[] args) {
    ThreadDomain47 task = new ThreadDomain47();
    Thread t1=new Thread(new MyThread40_0(task));
    Thread t3=new Thread(new MyThread40_0(task));
    Thread t7=new Thread(new MyThread40_0(task));
    Thread t8=new Thread(new MyThread40_0(task));
    Thread t2 = new Thread(new MyThread40_1(task));
    Thread t4 = new Thread(new MyThread40_1(task));
    Thread t5 = new Thread(new MyThread40_1(task));
    Thread t6 = new Thread(new MyThread40_1(task));
    t1.start();
    t2.start();
    t3.start();
    t4.start();
    t5.start();
    t6.start();
    t7.start();
    t8.start();
  }
}

輸出結果如下

The Lists Size is 1
The Current Thread is 增加線程
==============================
The Lists Size is 2
The Current Thread is 增加線程
==============================
The Token Banana is [add Banana1]
The Current Thread is 減少線程
==============================
The Token Banana is [add Banana2]
The Current Thread is 減少線程
==============================
The Lists Size is 1
The Current Thread is 增加線程
==============================
The Token Banana is [add Banana1]
The Current Thread is 減少線程
==============================
The Lists Size is 1
The Current Thread is 增加線程
==============================
The Token Banana is [add Banana1]
The Current Thread is 減少線程
==============================

可以看到,lists的數量不會增加太多,也不會減少太多。當集合滿,使增加線程等待,喚醒減少線程;當集合空,使減少線程等待,喚醒增加線程。我們用wait()/notify()機制無法實現該效果,這里體現了Condition的強大之處。

ReentrantLock中的方法

公平鎖和非公平鎖

ReentrantLock可以指定公平鎖和非公平鎖,公平鎖根據線程運行的順序獲取鎖,非公平鎖則通過搶占獲得鎖,不按線程運行順序。synchronized是非公平鎖。在ReentrantLock(boolean fair)構造函數傳入true/false來指定公平鎖/非公平鎖。
看個例子

ThreadDomain39類和main方法

public class ThreadDomain39 {
  private Lock lock = new ReentrantLock(true);

  public void testMethod()
  {
    try
    {
      lock.lock();
      System.out.println("ThreadName" + Thread.currentThread().getName() + "獲得鎖");
    }
    finally
    {
      lock.unlock();
    }
  }

  public static void main(String[] args) throws Exception
  {
    final ThreadDomain39 td = new ThreadDomain39();
    Runnable runnable = new Runnable()
    {
      public void run()
      {
        System.out.println("線程" + Thread.currentThread().getName() + "運行了");
        td.testMethod();
      }
    };
    Thread[] threads = new Thread[5];
    for (int i = 0; i < 5; i++)
      threads[i] = new Thread(runnable);
    for (int i = 0; i < 5; i++)
      threads[i].start();
  }
}

輸出結果如下

線程Thread-0運行了
ThreadNameThread-0獲得鎖
線程Thread-1運行了
線程Thread-2運行了
ThreadNameThread-1獲得鎖
線程Thread-3運行了
線程Thread-4運行了
ThreadNameThread-2獲得鎖
ThreadNameThread-3獲得鎖
ThreadNameThread-4獲得鎖

可以看到公平鎖獲得鎖的順序和線程運行的順序相同。公平鎖盡可能地讓線程獲取鎖的順序和線程運行順序保持一致,再執行幾次,可能不一致。

ReentrantLock構造函數傳入false,輸出結果如下:

線程Thread-0運行了
線程Thread-2運行了
線程Thread-4運行了
線程Thread-3運行了
ThreadNameThread-0獲得鎖
線程Thread-1運行了
ThreadNameThread-1獲得鎖
ThreadNameThread-2獲得鎖
ThreadNameThread-4獲得鎖
ThreadNameThread-3獲得鎖

非公平鎖獲得鎖的順序和線程運行的順序不同

getHoldCount()

獲取當前線程調用lock()的次數,一般debug使用。

看個例子

public class ThreadDomain40 {
  private ReentrantLock lock = new ReentrantLock();
  public void testMethod1()
  {
    try
    {
      lock.lock();
      System.out.println("testMethod1 getHoldCount = " + lock.getHoldCount());
      testMethod2();
    }
    finally
    {
      lock.unlock();
    }
  }
  public void testMethod2()
  {
    try
    {
      lock.lock();
      System.out.println("testMethod2 getHoldCount = " + lock.getHoldCount());
    }
    finally
    {
      lock.unlock();
    }
  }
  public static void main(String[] args)
  {
    ThreadDomain40 td = new ThreadDomain40();
    td.testMethod1();
  }
}

輸出結果如下

testMethod1 getHoldCount = 1
testMethod2 getHoldCount = 2

可以看到,testMethod1()被調用了一次,testMethod2()被調用了兩次,ReentrantLock和synchronized一樣,鎖都是可重入的。

getQueueLength()和isFair()

getQueueLength()獲取等待的線程數量,isFair()判斷是否是公平鎖。

ThreadDomain41類和main方法,Thread.sleep(2000)使第一個線程之后的線程都來不及啟動,Thread.sleep(Integer.MAX_VALUE)使線程無法unlock()。

public class ThreadDomain41 {
  public ReentrantLock lock = new ReentrantLock();

  public void testMethod()
  {
    try
    {
      lock.lock();
      System.out.println("ThreadName = " + Thread.currentThread().getName() + "進入方法!");
      System.out.println("是否公平鎖?" + lock.isFair());
      Thread.sleep(Integer.MAX_VALUE);
    }
    catch (InterruptedException e)
    {
      e.printStackTrace();
    }
    finally
    {
      lock.unlock();
    }
  }

  public static void main(String[] args) throws InterruptedException
  {
    final ThreadDomain41 td = new ThreadDomain41();
    Runnable runnable = new Runnable()
    {
      public void run()
      {
        td.testMethod();
      }
    };
    Thread[] threads = new Thread[10];
    for (int i = 0; i < 10; i++)
      threads[i] = new Thread(runnable);
    for (int i = 0; i < 10; i++)
      threads[i].start();
    Thread.sleep(2000);
    System.out.println("有" + td.lock.getQueueLength() + "個線程正在等待!");
  }
}

輸出結果如下

ThreadName = Thread-1進入方法!
是否公平鎖?false
有9個線程正在等待!

ReentrantLock默認是非公平鎖,只有一個線程lock(),9個線程在等待。

hasQueuedThread()和hasQueuedThreads()

hasQueuedThread(Thread thread)查詢指定線程是否在等待鎖,hasQueuedThreads()查詢是否有線程在等待鎖。
看個例子

ThreadDomain41類和main方法,和上面例子類似,Thread.sleep(Integer.MAX_VALUE); 讓線程不釋放鎖,Thread.sleep(2000);讓第一個線程之后的線程都無法啟動。

public class ThreadDomain42 extends ReentrantLock {
  public void waitMethod()
  {
    try
    {
      lock();
      Thread.sleep(Integer.MAX_VALUE);
    }
    catch (InterruptedException e)
    {
      e.printStackTrace();
    }
    finally
    {
      unlock();
    }
  }

  public static void main(String[] args) throws InterruptedException
  {
    final ThreadDomain42 td = new ThreadDomain42();
    Runnable runnable = new Runnable()
    {
      public void run()
      {
        td.waitMethod();
      }
    };
    Thread t0 = new Thread(runnable);
    t0.start();
    Thread.sleep(500);
    Thread t1 = new Thread(runnable);
    t1.start();
    Thread.sleep(500);
    Thread t2 = new Thread(runnable);
    t2.start();
    Thread.sleep(500);
    System.out.println("t0 is waiting?" + td.hasQueuedThread(t0));
    System.out.println("t1 is waiting?" + td.hasQueuedThread(t1));
    System.out.println("t2 is waiting?" + td.hasQueuedThread(t2));
    System.out.println("Is any thread waiting?" + td.hasQueuedThreads());
  }
}

輸出結果如下

t0 is waiting?false
t1 is waiting?true
t2 is waiting?true
Is any thread waiting?true

t0線程獲得了鎖,t0沒有釋放鎖,導致t1,t2等待鎖。

isHeldByCurrentThread()和isLocked()

isHeldByCurrentThread()判斷鎖是否由當前線程持有,isLocked()判斷鎖是否由任意線程持有。
請看示例

ThreadDomain43類和main方法

public class ThreadDomain43 extends ReentrantLock {
  public void testMethod()
  {
    try
    {
      lock();
      System.out.println(Thread.currentThread().getName() + "線程持有了鎖!");
      System.out.println(Thread.currentThread().getName() + "線程是否持有鎖?" +
          isHeldByCurrentThread());
      System.out.println("是否任意線程持有了鎖?" + isLocked());
    } finally
    {
      unlock();
    }
  }
  public void testHoldLock()
  {
    System.out.println(Thread.currentThread().getName() + "線程是否持有鎖?" +
        isHeldByCurrentThread());
    System.out.println("是否任意線程持有了鎖?" + isLocked());
  }

  public static void main(String[] args)
  {
    final ThreadDomain43 td = new ThreadDomain43();
    Runnable runnable0 = new Runnable()
    {
      public void run()
      {
        td.testMethod();
      }
    };
    Runnable runnable1 = new Runnable()
    {
      public void run()
      {
        td.testHoldLock();
      }
    };
    Thread t0 = new Thread(runnable0);
    Thread t1 = new Thread(runnable1);
    t0.start();
    t1.start();
  }
}

輸出結果如下

Thread-0線程持有了鎖!
Thread-1線程是否持有鎖?false
Thread-0線程是否持有鎖?true
是否任意線程持有了鎖?true
是否任意線程持有了鎖?true

Thread-0線程testMethod方法持有鎖,Thread-1線程testHoldLock方法沒有lock操作,所以不持有鎖。

tryLock()和tryLock(long timeout, TimeUnit unit)

tryLock()有加鎖的功能,獲得了鎖且鎖沒有被另外一個線程持有,此時返回true,否則返回false,可以有效避免死鎖。tryLock(long timeout, TimeUnit unit)表示在給定的時間內獲得了鎖,鎖沒有被其他線程持有,且不處于中斷狀態。返回true,否則返回false;

看個例子

public class MyThread39 {
  public static void main(String[] args) {

    System.out.println("開始");
    final Lock lock = new ReentrantLock();
    new Thread() {
      @Override
      public void run() {
        String tName = Thread.currentThread().getName();
        if (lock.tryLock()) {
          System.out.println(tName + "獲取到鎖!");
        } else {
          System.out.println(tName + "獲取不到鎖!");
          return;
        }
        try {
          for (int i = 0; i < 5; i++) {
            System.out.println(tName + ":" + i);
          }
          Thread.sleep(5000);
        } catch (Exception e) {
          System.out.println(tName + "出錯了!");
        } finally {
          System.out.println(tName + "釋放鎖!");
          lock.unlock();
        }

      }
    }.start();

    new Thread() {
      @Override
      public void run() {
        String tName = Thread.currentThread().getName();

        try {
          if (lock.tryLock(1,TimeUnit.SECONDS)) {
            System.out.println(tName + "獲取到鎖!");
          } else {
            System.out.println(tName + "獲取不到鎖!");
            return;
          }
        } catch (InterruptedException e) {
          e.printStackTrace();
        }

        try {
          for (int i = 0; i < 5; i++) {
            System.out.println(tName + ":" + i);
          }

        } catch (Exception e) {
          System.out.println(tName + "出錯");
        } finally {
          System.out.println(tName + "釋放鎖!");
          lock.unlock();
        }
      }
    }.start();

    System.out.println("結束");
  }
}

輸出結果如下

開始
Thread-0獲取到鎖!
Thread-0:0
Thread-0:1
Thread-0:2
Thread-0:3
Thread-0:4
結束
Thread-1獲取不到鎖!
Thread-0釋放鎖!

Thread-0先獲得了鎖,且sleep了5秒,導致Thread-1獲取不到鎖,我們給Thread-1的tryLock設置1秒,一秒內獲取不到鎖就會返回false。

如果Thread.sleep(0),那么Thread-0和Thread-1都可以獲得鎖,園友可以自己試下。

synchronized和ReentrantLock的比較

1.synchronized關鍵字是語法層面的實現,ReentrantLock要手動lock()和unlock();

2.synchronized是不公平鎖,ReentrantLock可以指定是公平鎖還是非公平鎖;

3.synchronized等待/喚醒機制是隨機的,ReentrantLock借助Condition的等待/喚醒機制可以自行選擇等待/喚醒;

以上就是本文的全部內容,希望對大家的學習有所幫助,也希望大家多多支持億速云。

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