(一)学习总结
1.用思维导图对java多线程的学习内容进行总结。
2.下面是一个单线程实现的龟兔赛跑游戏。
public class Test {
public static void main(String[] args) {
int totalStep = 10;
int tortoiseStep = 0;
int hareStep = 0;
boolean[] flags = { true, false };
System.out.println("龟兔赛跑开始了...");
while (tortoiseStep < totalStep && hareStep < totalStep) {
tortoiseStep++;
System.out.println("乌龟跑了" + tortoiseStep + "步...");
boolean isHareSleep = flags[((int) (Math.random() * 10)) % 2];
if (isHareSleep) {
System.out.println("兔子睡着了zzzz");
} else {
hareStep += 2;
System.out.println("兔子跑了" + hareStep + "步...");
}
}
}
}
阅读程序,采用实现Runnable接口的方式用多线程实现这个小游戏。下面给出主线程类,补充Tortoise线程类和Hare线程类。
public class Test {
public static void main(String[] args) {
System.out.println("龟兔赛跑开始了...");
Tortoise tortoise = new Tortoise(10);
Hare hare = new Hare(10);
Thread tortoiseThread = new Thread(tortoise);
Thread hareThread = new Thread(hare);
tortoiseThread.start();
hareThread.start();
}
}
public class Tortoise implements Runnable {
private int tortoiseStep = 0;
private int totalStep = 10;
public Tortoise(int totalStep) {
this.totalStep = totalStep;
};
public void run() {
while (tortoiseStep <this.totalStep) {
tortoiseStep++;
System.out.println("乌龟爬了" + tortoiseStep + "步");
}
}
}
public class Hare implements Runnable {
private int hareStep = 0;
private int totalStep = 10;
public Hare(int totalStep) {
this.totalStep = totalStep;
}
public void run() {
while (hareStep <this.totalStep) {
boolean[] flags = { true, false };
boolean isHareSleep = flags[((int) (Math.random() * 10)) % 2];
if (isHareSleep) {
System.out.println("兔子睡着了zzzz");
} else {
hareStep += 2;
System.out.println("兔子跑了" + hareStep + "步...");
}
}
}
}
3.下面的程序是模拟了生产者——消费者问题,生产者生产10个数,消费者依次消费10个数,运行程序,看结果是否正常?存在什么问题?说明原因。使用synchronized, wait, notify解决程序出现的问题。写出修改的部分程序即可。
class Consumer implements Runnable {
private Clerk clerk;
public Consumer(Clerk clerk) {
this.clerk = clerk;
}
public void run() {
System.out.println("消费者开始消耗整数......");
// 消耗10个整数
for(int i = 1; i <= 10; i++) {
try {
// 等待随机时间
Thread.sleep((int) (Math.random() * 3000));
}
catch(InterruptedException e) {
e.printStackTrace();
}
clerk.getProduct();// 从店员处取走整数
}
}
}class Producer implements Runnable {
private Clerk clerk;
public Producer(Clerk clerk) {
this.clerk = clerk;
}
public void run() {
System.out.println( "生产者开始生产整数......");
// 生产1到10的整数
for(int product = 1; product <= 10; product++) {
try {
Thread.sleep((int) Math.random() * 3000);
}
catch(InterruptedException e) {
e.printStackTrace();
}
clerk.setProduct(product); // 将产品交给店员
}
}
}public class ProductTest {
public static void main(String[] args) {
Clerk clerk = new Clerk();
Thread consumerThread = new Thread(new Consumer(clerk));
Thread producerThread = new Thread(new Producer(clerk));
consumerThread.start();
producerThread.start();
}
}class Clerk {
private int product = -1; // -1 表示目前没有产品
// 这个方法由生产者呼叫
public void setProduct(int product) {
this.product = product;
System.out.printf("生产者设定 (%d)%n", this.product);
}
// 这个方法由消费者呼叫
public int getProduct() {
int p = this.product;
System.out.printf("消费者取走 (%d)%n", this.product);
return p;
}
}
public class ProductTest {
public static void main(String[] args) {
Clerk clerk = new Clerk();
Thread consumerThread = new Thread(new Consumer(clerk));
Thread producerThread = new Thread(new Producer(clerk));
consumerThread.start();
producerThread.start();
}
}
class Consumer implements Runnable {
private Clerk clerk;
public Consumer(Clerk clerk) {
this.clerk = clerk;
}
public void run() {
System.out.println("消费者开始消耗整数......");
// 消耗10个整数
for (int i = 1; i <= 10; i++) {
try {
// 等待随机时间
Thread.sleep((int) (Math.random() * 3000));
} catch (InterruptedException e) {
e.printStackTrace();
}
clerk.getProduct();// 从店员处取走整数
}
}
}
class Producer implements Runnable {
private Clerk clerk;
public Producer(Clerk clerk) {
this.clerk = clerk;
}
public void run() {
System.out.println("生产者开始生产整数......");
// 生产1到10的整数
for (int product = 1; product <= 10; product++) {
try {
Thread.sleep((int) Math.random() * 3000);
} catch (InterruptedException e) {
e.printStackTrace();
}
clerk.setProduct(product); // 将产品交给店员
}
}
}
class Clerk {
private int product = -1; // -1 表示目前没有产品
private int p;
// 这个方法由生产者呼叫
public synchronized void setProduct(int product) {
if (this.product != -1) {
try {
super.wait();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
this.product = product;
p = this.product;
System.out.printf("生产者设定 (%d)%n", this.product);
getProduct();
this.product = -1;
super.notify();
}
// 这个方法由消费者呼叫
public synchronized int getProduct() {
if (this.product == -1) {
try {
super.wait();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
System.out.printf("消费者取走 (%d)%n", p);
this.product = -1;
super.notify();
return this.product;
}
}
(二)实验总结
实验内容:
1.模拟三个老师同时分发80分作业,每个老师相当于一个线程。
设计思路:建一个runnerble接口,定义作业的份数,利用线程来发放作业,建一个测试类,创建对象,启动线程。
类图:
2.模拟一个银行存款的程序。假设有两个储户都去银行往同一个账户进行存款,一次存100,每人存三次。要求储户每存一次钱,账户余额增加100,并在控制台输出当前账户的余额。
设计思路:设计一个银行类,定义一个存储账户余额的变量以及一个存款的方法,在设计一个储户类,实现向账户存款3次,每一个储户是一个线程使用synchronized关键字同步存储,最后设计一个测试类,创建客户对象,启动线程。
类图:
(三)代码托管
(务必链接到你的项目)
码云commit历史截图
https://git.oschina.net/hebau_cs15/FMM.git
