Java实现线程间同步与互斥有两种方法：

1. 关键字synchronized与wait()和notify()/notifyAll()方法相结合实现等待/通知模式
2. ReentrantLock+Condition对象

水果盘问题是一个经典的多生产者消费者之间同步与互斥问题：
家中有一个水果盘，只能放一个水果，爸爸负责放橘子，妈妈放苹果，而儿子只吃苹果，女儿吃橘子。

下面就分别用以上两种方式解决该问题

synchronized与wait()和notify()/notifyAll()

先定义水果和盘子

enum Fruit{
    APPLE, ORANGE, NONE
}

class Dish{
    public static Fruit sFruit=Fruit.NONE;
}

生产者

class Product{
    private Object lock;
    private Fruit mFruit;//生产者放的水果

    Product(Object lock){
        this.lock=lock;
    }

    void setFruit(Fruit fruit){
        mFruit=fruit;
    }

    void putFruit(){
        synchronized (lock){
            try {
                String threadName=Thread.currentThread().getName();

                //盘子里有水果则等待
                while (!Dish.sFruit.equals(Fruit.NONE)){
                    System.out.println(threadName+": Dish is full and I am waiting...");
                    lock.wait();
                }

                System.out.println(threadName +": Dish is empty and I put an "+mFruit);
                Dish.sFruit=mFruit;
                //通知其他所有等待的线程
                lock.notifyAll();
            }catch (Exception e){
                e.printStackTrace();
            }
        }
    }
}

消费者

class Consumer{
    private Object lock;
    private Fruit mFruit;//消费者吃的水果

    Consumer(Object lock){
        this.lock=lock;
    }

    void setFruit(Fruit fruit){
        mFruit=fruit;
    }

    void eatFruit(){
        synchronized (lock){
            try {
                String threadName=Thread.currentThread().getName();
                while (!Dish.sFruit.equals(mFruit)){
                    if (Dish.sFruit.equals(Fruit.NONE)) {
                        System.out.println(threadName +": Dish is empty and I am waiting");
                    }else {
                        System.out.println(threadName +": There is no fruit I eat and I am waiting");
                    }
                    lock.wait();
                }

                System.out.println(threadName +": I get an " +mFruit +" and then eat it.");
                Dish.sFruit=Fruit.NONE;
                lock.notifyAll();
            }catch (Exception e){
                e.printStackTrace();
            }
        }
    }

生产者线程

class ProductThread extends Thread{
    private Product mProduct;

    ProductThread(Product product, String name, Fruit fruit){
        mProduct=product;
        mProduct.setFruit(fruit);
        setName(name);
    }

    @Override
    public void run() {
        while (true){
            mProduct.putFruit();
        }
    }
}

消费者线程

class ConsumerThread extends Thread{
    private Consumer mConsumer;

    ConsumerThread(Consumer consumer, String name, Fruit fruit){
        mConsumer=consumer;
        mConsumer.setFruit(fruit);
        setName(name);
    }

    @Override
    public void run() {
        while (true){
            mConsumer.eatFruit();
        }
    }
}

main

public class FruitDish {
    public static void main(String args[]) {
        Object lock=new Object();
        ProductThread father=new ProductThread(new Product(lock), "Father", Fruit.ORANGE);
        ProductThread mather=new ProductThread(new Product(lock), "Mather", Fruit.APPLE);
        ConsumerThread son=new ConsumerThread(new Consumer(lock), "Son", Fruit.APPLE);
        ConsumerThread daughter=new ConsumerThread(new Consumer(lock), "Daughter", Fruit.ORANGE);

        father.start();
        mather.start();
        son.start();
        daughter.start();
    }
}

打印结果

Father: Dish is empty and I put an ORANGE
Father: Dish is full and I am waiting...
Son: There is no fruit I eat and I am waiting
Mather: Dish is full and I am waiting...
Daughter: I get an ORANGE and then eat it.
Daughter: Dish is empty and I am waiting
Mather: Dish is empty and I put an APPLE
Mather: Dish is full and I am waiting...
Son: I get an APPLE and then eat it.
Son: Dish is empty and I am waiting
Father: Dish is empty and I put an ORANGE
Father: Dish is full and I am waiting...

可以看到实现了生产者消费者之间的同步与互斥，但 lock.notifyAll() 会唤醒所有等待的线程，例如爸爸放了一个橘子后，有可能是妈妈，儿子，女儿都被唤醒，这样就白白浪费了时间，能不能爸爸只通知唤醒女儿呢。用wait()和notify()/notifyAll()无法实现，但可以用Condition来做

Condition

关键字synchronized与wait()和notify()/notifyAll()方法相结合可以实现等待/通知模式，类似ReentrantLock也可以实现同样的功能，但需要借助于Condition对象。

特殊之处：synchronized相当于整个ReentrantLock对象只有一个单一的Condition对象情况。而一个ReentrantLock却可以拥有多个Condition对象，来实现通知部分线程。

生产者

class Product{
    private ReentrantLock lock;
    private Condition mCondition;
    private Fruit mFruit;//生产者放的水果

    Product(ReentrantLock lock, Condition condition){
        this.lock=lock;
        mCondition=condition;
    }

    void setFruit(Fruit fruit){
        mFruit=fruit;
    }

    void putFruit(){
        lock.lock();
        try {
            String threadName=Thread.currentThread().getName();

            //盘子里有水果则等待
            while (!Dish.sFruit.equals(Fruit.NONE)){
                System.out.println(threadName+": Dish is full and I am waiting...");
                mCondition.await();
            }

            System.out.println(threadName +": Dish is empty and I put an "+mFruit);
            Dish.sFruit=mFruit;
            //通知其他所有等待的线程
            mCondition.signalAll();
        }catch (Exception e){
            e.printStackTrace();
        }finally {
            lock.unlock();
        }

    }
}

消费者

class Consumer{
    private ReentrantLock lock;
    private Condition mCondition;
    private Condition mOtherCondition;
    private Fruit mFruit;//消费者吃的水果

    Consumer(ReentrantLock lock,Condition condition, Condition otherCondition){
        this.lock=lock;
        mCondition=condition;
        mOtherCondition=otherCondition;
    }

    void setFruit(Fruit fruit){
        mFruit=fruit;
    }

    void eatFruit(){
        lock.lock();
        try {
            String threadName=Thread.currentThread().getName();
            while (!Dish.sFruit.equals(mFruit)){
                if (Dish.sFruit.equals(Fruit.NONE)) {
                    System.out.println(threadName +": Dish is empty and I am waiting");
                }else {
                    System.out.println(threadName +": There is no fruit I eat and I am waiting");
                }
                mCondition.await();
            }

            System.out.println(threadName +": I get an " +mFruit +" and then eat it.");
            Dish.sFruit=Fruit.NONE;
            mOtherCondition.signalAll();
        }catch (Exception e){
            e.printStackTrace();
        }finally {
            lock.unlock();
        }
    }
}

生产者消费者线程未变
main

public class FruitDish {
    public static void main(String args[]) {
        ReentrantLock lock=new ReentrantLock();
        Condition[] conditions=new Condition[2];
        conditions[0]=lock.newCondition();
        conditions[1]=lock.newCondition();

        ProductThread father=new ProductThread(new Product(lock, conditions[0]), "Father", Fruit.ORANGE);
        ProductThread mather=new ProductThread(new Product(lock, conditions[1]), "Mather", Fruit.APPLE);
        ConsumerThread son=new ConsumerThread(new Consumer(lock, conditions[1], conditions[0]), "Son", Fruit.APPLE);
        ConsumerThread daughter=new ConsumerThread(new Consumer(lock, conditions[0], conditions[1]), "Daughter", Fruit.ORANGE);

        father.start();
        mather.start();
        son.start();
        daughter.start();
    }
}

打印结果

Mather: Dish is empty and I put an APPLE
Mather: Dish is full and I am waiting...
Son: I get an APPLE and then eat it.
Son: Dish is empty and I am waiting
Father: Dish is empty and I put an ORANGE
Father: Dish is full and I am waiting...
Daughter: I get an ORANGE and then eat it.
Daughter: Dish is empty and I am waiting
Mather: Dish is empty and I put an APPLE
Mather: Dish is full and I am waiting...
Son: I get an APPLE and then eat it.
Son: Dish is empty and I am waiting

可以看到打印结果基本很规律，因为父亲女儿共用一个condition，母亲儿子共用一个，父亲放了橘子，只有女儿被通知到，女儿被唤醒吃完了后通知母亲，这样既保证效率高同时也保证了公平（父母间隔放水果）