package com.jack.thread; /**  * 线程简单演示例子程序  *  * @author pinefantasy  * @since 2013-10-31  */ public class ThreadDemo1 {     /**      * 第一种方式：继承自Thread类，覆写run方法      */     public static class Test1Thread extends Thread {         @Override         public void run() {             for (int i = 0; i < 100; i++) {                 System.out.println("Test1," + Thread.currentThread().getName() + ", i = " + i);             }         }     }     /**      * 第二种方式：实现Runnable接口，实现run方法      */     public static class Test2Thread implements Runnable {         @Override         public void run() {             for (int i = 0; i < 100; i++) {                 System.out.println("Test2," + Thread.currentThread().getName() + ", i = " + i);             }         }     }     /**      * <pre>      *      * 主线程为main线程      * 分支线程为：1 2 3 三种简单实现方式      *      * @param args      */     public static void main(String[] args) {         new Test1Thread().start();// 启动线程1         new Thread(new Test2Thread()).start();// 启动线程2         new Thread(new Runnable() {             @Override             public void run() {                 for (int i = 0; i < 100; i++) {                     System.out.println("Test3," + Thread.currentThread().getName() + ", i = " + i);                 }             }         }).start();// 启动线程3     } }

package com.jack.thread; import java.util.concurrent.atomic.AtomicInteger; /**  * 多线程对同一个变量进行操作  *  * @author pinefantasy  * @since 2013-10-31  */ public class ThreadDemo2 {     private static int count = 0;     public static class CountThread implements Runnable {// 1.这边有线程安全问题，共享变量乱套了         @Override         public void run() {             for (int i = 0; i < 100; i++) {                 try {                     Thread.sleep(50);                 } catch (InterruptedException e) {                     e.printStackTrace();                 }                 count++;                 System.out.println(Thread.currentThread().getName() + ", count = " + count);             }         }     }     private static final Object lock = new Object();// 这边使用的lock对象     public static class Count2Thread implements Runnable {// 这边使用的是互斥锁方式         @Override         public void run() {             synchronized (lock) {// 使用互斥锁方式处理                 for (int i = 0; i < 100; i++) {                     count++;                     System.out.println(Thread.currentThread().getName() + ", count = " + count);                 }             }         }     }     private static AtomicInteger ai = new AtomicInteger();// 这边使用的是并发包的AtomicXXX类，使用的是CAS方式：compare and swap     public static class Count3Thread implements Runnable {// AtomicInteger内部的CAS实现方式，采用的是：循环、判断、设置三部曲方式         @Override         public void run() {             for (int i = 0; i < 100; i++) {                 int tmp = ai.incrementAndGet();// 采用CAS方式处理                 System.out.println(Thread.currentThread().getName() + ", count = " + tmp);             }         }     }     private static volatile int countV = 0;// 定义成volatile，让多线程感知，因为值是放在主存中     public static class Count4Thread implements Runnable {// volatile定义的变量只是说放到了主存，当时++操作并不是原子操作，这个要小心         @Override         public void run() {             for (int i = 0; i < 100; i++) {                 try {                     Thread.sleep(50);// 这边让线程休眠下，增加出错概率                 } catch (InterruptedException e) {                     e.printStackTrace();                 }                 countV++;// volatile要正确使用，不是说定义成volatile就是安全的，还是要注意++ --操作并不是原子操作                 System.out.println(Thread.currentThread().getName() + ", count = " + countV);             }         }     }     /**      * 使用泛型简单编写一个测试方法      *      * @param <T>      * @param t      * @throws InstantiationException      * @throws IllegalAccessException      * @throws InterruptedException      */     public static <T> void testTemplate(T t) throws InstantiationException, IllegalAccessException, InterruptedException {         for (int i = 0; i < 5; i++) {             if (t instanceof Runnable) {                 Class<?> c = t.getClass();                 Object object = c.newInstance();                 new Thread((Runnable) object).start();             }         }     }     /**      * <pre>      * 1.test1 线程不安全演示例子，count变量不能得到预期的效果      * 2.test2 在test1基础上改进的，用互斥锁sync处理      * 3.test3 在test1基础上改进的，用AtomicInteger类来实现      * 4.test4 有问题的方法，因为i++并不是原子操作，将count定义为volatile类型的      *      * @param args      * @throws InterruptedException      * @throws IllegalAccessException      * @throws InstantiationException      */     public static void main(String[] args) throws InterruptedException, InstantiationException, IllegalAccessException {         // 1.测试1         // testTemplate(new CountThread());         // 2.测试2         // testTemplate(new Count2Thread());         // 3.测试3         // testTemplate(new Count3Thread());         // 4.测试4         testTemplate(new Count4Thread());         Thread.sleep(15000);         System.out.println(count);         System.out.println(ai.get());         System.out.println(countV);     } }

package com.jack.thread; import java.util.ArrayList; import java.util.List; import com.jack.thread.ThreadDemo3.CarBigHouse.Car; /**  * 第一个版本的生产者和消费者线程  *  * @author pinefantasy  * @since 2013-11-1  */ public class ThreadDemo3 {     /**      * 姑且卖车的当做是生产者线程      */     public static class CarSeller implements Runnable {         private CarBigHouse bigHouse;         public CarSeller(CarBigHouse bigHouse) {             this.bigHouse = bigHouse;         }         @Override         public void run() {             for (int i = 0; i < 100; i++) {// 当做生产者线程，往仓库里边增加汽车，其实是触发增加汽车                 int count = bigHouse.put();                 System.out.println("生产汽车-->count = " + count);             }         }     }     /**      * 姑且买车的人当做是消费者线程      */     public static class Consumer implements Runnable {         private CarBigHouse bigHouse;         public Consumer(CarBigHouse bigHouse) {             this.bigHouse = bigHouse;         }         @Override         public void run() {             for (int i = 0; i < 100; i++) {// 当做消费者线程，从仓库里边提取汽车，其实是触发，从仓库里边提取一辆汽车出来                 int count = bigHouse.get();                 System.out.println("消费汽车-->count = " + count);             }         }     }     /**      * 这边姑且当做是车子big house放车子的仓库房      */     public static class CarBigHouse {         public int carNums = 0;// 这边是仓库房子中车子的数量总数         public List<Car> carList = new ArrayList<Car>();// 这边模拟用来放汽车的list         public int put() {// 提供给生产者放汽车到仓库的接口             Car car = CarFactory.makeNewCar();             carList.add(car);// 加到仓库中去             carNums++;// 总数增加1             return carNums;         }         public int get() {// 提供给消费者从这边取汽车接口             Car car = null;             if (carList.size() != 0) {// size不为空才去取车                 car = carList.get(carList.size() - 1);// 提取最后一个car                 carList.remove(car);// 从从库list中移除掉                 carNums--;// 总数减少1             }             return carNums;         }         public static class Car {             public String carName;// 汽车名称             public double carPrice;// 汽车价格             public Car() {             }             public Car(String carName, double carPrice) {                 this.carName = carName;                 this.carPrice = carPrice;             }         }     }     /**      * 采用静态工厂方式创建car对象，这个只是简单模拟，不做设计模式上的过多考究      */     public static class CarFactory {         private CarFactory() {         }         public static Car makeNewCar(String carName, double carPrice) {             return new Car(carName, carPrice);         }         public static Car makeNewCar() {             return new Car();         }     }     /**      * 第一个版本的生产者和消费者线程，没有加上同步机制的演示例子      *      * @param args      */     public static void main(String[] args) {         CarBigHouse bigHouse = new CarBigHouse();         new Thread(new CarSeller(bigHouse)).start();         new Thread(new Consumer(bigHouse)).start();     } }

package com.jack.thread; import java.util.ArrayList; import java.util.List; import com.jack.thread.ThreadDemo4.CarBigHouse.Car; /**  * 第二个版本的生产者消费者线程  *  * @author pinefantasy  * @since 2013-11-1  */ public class ThreadDemo4 {     /**      * 姑且卖车的当做是生产者线程      */     public static class CarSeller implements Runnable {         private CarBigHouse bigHouse;         public CarSeller(CarBigHouse bigHouse) {             this.bigHouse = bigHouse;         }         @Override         public void run() {             for (int i = 0; i < 100; i++) {// 当做生产者线程，往仓库里边增加汽车，其实是触发增加汽车                 int count = bigHouse.put();                 System.out.println("生产汽车-->count = " + count);             }         }     }     /**      * 姑且买车的人当做是消费者线程      */     public static class Consumer implements Runnable {         private CarBigHouse bigHouse;         public Consumer(CarBigHouse bigHouse) {             this.bigHouse = bigHouse;         }         @Override         public void run() {             for (int i = 0; i < 100; i++) {// 当做消费者线程，从仓库里边提取汽车，其实是触发，从仓库里边提取一辆汽车出来                 int count = bigHouse.get();                 System.out.println("消费汽车-->count = " + count);             }         }     }     /**      * 这边姑且当做是车子big house放车子的仓库房      */     public static class CarBigHouse {         public int carNums = 0;// 这边是仓库房子中车子的数量总数         public List<Car> carList = new ArrayList<Car>();// 这边模拟用来放汽车的list         // 直接增加上synchronized关键字方式，成员方法，锁的是当前bigHouse对象         // 这种锁是互斥锁，方法在同一个时刻，只有一个线程可以访问到里边的代码         public synchronized int put() {// 提供给生产者放汽车到仓库的接口             Car car = CarFactory.makeNewCar();             carList.add(car);// 加到仓库中去             carNums++;// 总数增加1             return carNums;         }         public synchronized int get() {// 提供给消费者从这边取汽车接口             Car car = null;             if (carList.size() != 0) {// size不为空才去取车                 car = carList.get(carList.size() - 1);// 提取最后一个car                 carList.remove(car);// 从从库list中移除掉                 carNums--;// 总数减少1             }             return carNums;         }         public static class Car {             public String carName;// 汽车名称             public double carPrice;// 汽车价格             public Car() {             }             public Car(String carName, double carPrice) {                 this.carName = carName;                 this.carPrice = carPrice;             }         }     }     /**      * 采用静态工厂方式创建car对象，这个只是简单模拟，不做设计模式上的过多考究      */     public static class CarFactory {         private CarFactory() {         }         public static Car makeNewCar(String carName, double carPrice) {             return new Car(carName, carPrice);         }         public static Car makeNewCar() {             return new Car();         }     }     /**      * 第二个版本的生产者和消费者线程，加上了同步机制的方法      *      * @param args      */     public static void main(String[] args) {         CarBigHouse bigHouse = new CarBigHouse();         new Thread(new CarSeller(bigHouse)).start();         new Thread(new Consumer(bigHouse)).start();     } }

package com.jack.thread; import java.util.ArrayList; import java.util.List; import com.jack.thread.ThreadDemo4.CarBigHouse.Car; /**  * 第二个版本的生产者消费者线程  *  * @author pinefantasy  * @since 2013-11-1  */ public class ThreadDemo4 {     /**      * 姑且卖车的当做是生产者线程      */     public static class CarSeller implements Runnable {         private CarBigHouse bigHouse;         public CarSeller(CarBigHouse bigHouse) {             this.bigHouse = bigHouse;         }         @Override         public void run() {             for (int i = 0; i < 100; i++) {// 当做生产者线程，往仓库里边增加汽车，其实是触发增加汽车                 int count = bigHouse.put();                 System.out.println("生产汽车-->count = " + count);             }         }     }     /**      * 姑且买车的人当做是消费者线程      */     public static class Consumer implements Runnable {         private CarBigHouse bigHouse;         public Consumer(CarBigHouse bigHouse) {             this.bigHouse = bigHouse;         }         @Override         public void run() {             for (int i = 0; i < 100; i++) {// 当做消费者线程，从仓库里边提取汽车，其实是触发，从仓库里边提取一辆汽车出来                 int count = bigHouse.get();                 System.out.println("消费汽车-->count = " + count);             }         }     }     /**      * 这边姑且当做是车子big house放车子的仓库房      */     public static class CarBigHouse {         public int carNums = 0;// 这边是仓库房子中车子的数量总数         public List<Car> carList = new ArrayList<Car>();// 这边模拟用来放汽车的list         public static final int max = 100;// 简单设置下，做下上限设置         private Object lock = new Object();// 采用object的wait和notify方式处理同步问题         public int put() {// 提供给生产者放汽车到仓库的接口             synchronized (lock) {                 if (carList.size() == max) {// 达到了上限，不再生产car                     try {                         lock.wait();// 进行阻塞处理                     } catch (InterruptedException e) {                         e.printStackTrace();                     }                 }                 Car car = CarFactory.makeNewCar();                 carList.add(car);// 加到仓库中去                 carNums++;// 总数增加1                 lock.notify();// 唤醒等待的线程                 return carNums;             }         }         public int get() {// 提供给消费者从这边取汽车接口             Car car = null;             synchronized (lock) {                 if (carList.size() == 0) {// 没有汽车可以用来消费                     try {                         lock.wait();                     } catch (InterruptedException e) {                         e.printStackTrace();                     }                 }                 if (carList.size() != 0) {// size不为空才去取车                     car = carList.get(carList.size() - 1);// 提取最后一个car                     carList.remove(car);// 从从库list中移除掉                     carNums--;// 总数减少1                 }                 lock.notify();                 return carNums;             }         }         public static class Car {             public String carName;// 汽车名称             public double carPrice;// 汽车价格             public Car() {             }             public Car(String carName, double carPrice) {                 this.carName = carName;                 this.carPrice = carPrice;             }         }     }     /**      * 采用静态工厂方式创建car对象，这个只是简单模拟，不做设计模式上的过多考究      */     public static class CarFactory {         private CarFactory() {         }         public static Car makeNewCar(String carName, double carPrice) {             return new Car(carName, carPrice);         }         public static Car makeNewCar() {             return new Car();         }     }     /**      * 第二个版本的生产者和消费者线程，加上了同步机制的方法      *      * @param args      */     public static void main(String[] args) {         CarBigHouse bigHouse = new CarBigHouse();         new Thread(new CarSeller(bigHouse)).start();         new Thread(new Consumer(bigHouse)).start();     } }