标签:iba dem group context org compiler ring param version
关于Java线程问题,在博客上看到一篇文章挺好的:
https://blog.csdn.net/w172087242/article/details/83375022#23_ThreadLocal_175
自己动手实验了一下。
1、maven设置
<properties>
<project.build.sourceEncoding>UTF-8</project.build.sourceEncoding>
<project.reporting.outputEncoding>UTF-8</project.reporting.outputEncoding>
<maven.compiler.source>1.8</maven.compiler.source>
<maven.compiler.target>1.8</maven.compiler.target>
</properties>
<!-- https://mvnrepository.com/artifact/org.projectlombok/lombok -->
<dependency>
<groupId>org.projectlombok</groupId>
<artifactId>lombok</artifactId>
<version>1.18.4</version>
<scope>provided</scope>
</dependency>
<!-- https://mvnrepository.com/artifact/com.alibaba/transmittable-thread-local -->
<dependency>
<groupId>com.alibaba</groupId>
<artifactId>transmittable-thread-local</artifactId>
<version>2.10.2</version>
</dependency>
2、目录设置
3、公共服务类
①:用户实体类
package cn.demo.entity;
import java.time.LocalDate;
import lombok.Data;
import lombok.ToString;
@Data
@ToString
public class User {
private Integer userId;
private String name;
private LocalDate birthday;
public Integer getUserId() {
return userId;
}
public void setUserId(Integer userId) {
this.userId = userId;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
public LocalDate getBirthday() {
return birthday;
}
public void setBirthday(LocalDate birthday) {
this.birthday = birthday;
}
@Override
public String toString() {
return "User [userId=" + userId + ", name=" + name + ", birthday=" + birthday + "]";
}
}
②:用户信息管理上下文类
package cn.demo.context;
import cn.demo.entity.User;
/**
* 基于线程上下文的用户信息管理
*/
public class BaseUserContext {
//存储线程变量
public ThreadLocal<User> context = null;
/**
* 设置用户信息
*
* @param user -- 用户信息
*/
public void set(User user) {
context.set(user);
}
/**
* 获取用户信息
*
* @return -- 用户信息
*/
public User get() {
return context.get();
}
/**
* 移除用户信息
*/
public void remove() {
context.remove();
}
}
③:基本调用服务类(子类继承)
package cn.demo.context;
import cn.demo.entity.User;
/**
* 基于线程上下文的用户信息管理
*/
public class BaseUserContext {
//存储线程变量
public ThreadLocal<User> context = null;
/**
* 设置用户信息
*
* @param user -- 用户信息
*/
public void set(User user) {
context.set(user);
}
/**
* 获取用户信息
*
* @return -- 用户信息
*/
public User get() {
return context.get();
}
/**
* 移除用户信息
*/
public void remove() {
context.remove();
}
}
④:接口服务
package cn.demo.service;
import cn.demo.context.BaseUserContext;
public class UserService {
private BaseUserContext userContext;
public UserService(BaseUserContext userContext) {
this.userContext = userContext;
}
/**
* 执行添加用户
*/
public void addUser() {
System.out.println(Thread.currentThread().getName() + "添加用户信息:" + userContext.get());
}
}
4、ThreadLocal,线程变量
优点:多线程环境中存储线程级别变量,单线程没有必要使用。
代码-上下文:
package cn.demo.context;
import cn.demo.entity.User;
public class UserContext1 extends BaseUserContext {
public UserContext1() {
//1、线程开启新线程有缺陷
this.context = new ThreadLocal<User>();
}
}
代码-调用:
package cn.demo.call;
import cn.demo.context.BaseUserContext;
import cn.demo.context.UserContext1;
import cn.demo.service.UserService;
public class CallService1 extends BaseCall {
public static void main(String[] args) {
BaseUserContext userContext = new UserContext1();
UserService userService = new UserService(userContext);
//同时10个调用
for (int i = 0; i < 10; i++) {
new Thread(() -> {
userContext.set(initUser(Thread.currentThread().getName()));
//进行调用
userService.addUser();
}, "CallService1-" + i).start();
}
}
}
控制台输出结果:(正确)
CallService1-3添加用户信息:User [userId=3, name=CallService1-3, birthday=1995-07-26]
CallService1-8添加用户信息:User [userId=4, name=CallService1-8, birthday=2000-10-01]
CallService1-2添加用户信息:User [userId=8, name=CallService1-2, birthday=1995-07-26]
CallService1-5添加用户信息:User [userId=9, name=CallService1-5, birthday=2000-10-01]
CallService1-7添加用户信息:User [userId=10, name=CallService1-7, birthday=1988-09-11]
CallService1-1添加用户信息:User [userId=6, name=CallService1-1, birthday=1989-11-10]
CallService1-4添加用户信息:User [userId=7, name=CallService1-4, birthday=1990-03-07]
CallService1-9添加用户信息:User [userId=5, name=CallService1-9, birthday=1988-09-11]
CallService1-0添加用户信息:User [userId=1, name=CallService1-0, birthday=1989-11-10]
CallService1-6添加用户信息:User [userId=2, name=CallService1-6, birthday=1990-03-07]
缺点:它仅仅能获取自己当前线程设置的变量,开启新的线程后获取到初始线程设置的变量值。
代码-调用:
package cn.demo.call;
import cn.demo.context.BaseUserContext;
import cn.demo.context.UserContext1;
import cn.demo.service.UserService;
public class CallService2 extends BaseCall {
public static void main(String[] args) {
//main作为当前调用线程
BaseUserContext userContext = new UserContext1();
userContext.set(initUser(Thread.currentThread().getName()));
UserService userService = new UserService(userContext);
//开启新线程来进行调用
new Thread(() -> userService.addUser(), "CallService2").start();
}
}
控制台输出结果:(错误)
CallService2添加用户信息:null
5、InheritableThreadLocal
解决开启新的线程后,ThreadLocal无法获取到线程变量问题。
但是在应用线程池的场景中,线程复用导致读取线程变量数据混乱问题(真实项目中线程池应用很广泛)
代码-上下文:
package cn.demo.context;
import cn.demo.entity.User;
public class UserContext3 extends BaseUserContext {
public UserContext3() {
//2、线程复用导致数据混乱
this.context = new InheritableThreadLocal<User>();
}
}
代码-调用:
package cn.demo.call;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.atomic.AtomicInteger;
import cn.demo.context.BaseUserContext;
import cn.demo.context.UserContext3;
import cn.demo.service.UserService;
public class CallService3 extends BaseCall {
//申明一个简单的线程池,3个核心线程
private static final AtomicInteger threadIdCreator = new AtomicInteger(1);
private static ExecutorService pool = Executors.newFixedThreadPool(3, (runnable) ->
new Thread(runnable, "ThreadName-" + threadIdCreator.getAndIncrement())
);
public static void main(String[] args) {
BaseUserContext userContext = new UserContext3();
UserService userService = new UserService(userContext);
//同时10个调用
for (int i = 0; i < 10; i++) {
new Thread(() -> {
userContext.set(initUser(Thread.currentThread().getName()));
//使用线程池进行调用
pool.execute(userService::addUser);
}, "CallService3-" + i).start();
}
}
}
控制台输出结果:(错误:复用线程导致线程变量混乱,只有用户1,2,3)
ThreadName-2添加用户信息:User [userId=3, name=CallService3-4, birthday=1995-07-26]
ThreadName-3添加用户信息:User [userId=2, name=CallService3-1, birthday=1990-03-07]
ThreadName-3添加用户信息:User [userId=2, name=CallService3-1, birthday=1990-03-07]
ThreadName-1添加用户信息:User [userId=1, name=CallService3-0, birthday=1989-11-10]
ThreadName-3添加用户信息:User [userId=2, name=CallService3-1, birthday=1990-03-07]
ThreadName-3添加用户信息:User [userId=2, name=CallService3-1, birthday=1990-03-07]
ThreadName-2添加用户信息:User [userId=3, name=CallService3-4, birthday=1995-07-26]
ThreadName-3添加用户信息:User [userId=2, name=CallService3-1, birthday=1990-03-07]
ThreadName-1添加用户信息:User [userId=1, name=CallService3-0, birthday=1989-11-10]
ThreadName-2添加用户信息:User [userId=3, name=CallService3-4, birthday=1995-07-26]
6、TransmittableThreadLocal
必须配合如TtlRunnable/TtlCallable等一起使用,也可以配合ExecutorServiceTtlWrapper的线程池使用
代码-上下文:
package cn.demo.context;
import com.alibaba.ttl.TransmittableThreadLocal;
import cn.demo.entity.User;
public class UserContext4 extends BaseUserContext {
public UserContext4() {
//3、提供的无侵入式实现
this.context = new TransmittableThreadLocal<User>();
}
}
代码-调用:
package cn.demo.call;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.atomic.AtomicInteger;
import com.alibaba.ttl.TtlRunnable;
import cn.demo.context.BaseUserContext;
import cn.demo.context.UserContext4;
import cn.demo.service.UserService;
public class CallService4 extends BaseCall {
//申明一个简单的线程池,3个核心线程
private static final AtomicInteger threadIdCreator = new AtomicInteger(1);
private static ExecutorService pool = Executors.newFixedThreadPool(3, (runnable) ->
new Thread(runnable, "ThreadName-" + threadIdCreator.getAndIncrement())
);
public static void main(String[] args) {
BaseUserContext userContext = new UserContext4();
UserService userService = new UserService(userContext);
//同时10个调用
for (int i = 0; i < 10; i++) {
new Thread(() -> {
userContext.set(initUser(Thread.currentThread().getName()));
//使用线程池进行调用
//pool.execute(userService::addUser);
pool.execute(TtlRunnable.get(userService::addUser));
}, "CallService4-" + i).start();
}
}
}
控制台输出结果:(正确)
ThreadName-2添加用户信息:User [userId=7, name=CallService4-6, birthday=1990-03-07]
ThreadName-1添加用户信息:User [userId=4, name=CallService4-2, birthday=2000-10-01]
ThreadName-2添加用户信息:User [userId=10, name=CallService4-9, birthday=1988-09-11]
ThreadName-1添加用户信息:User [userId=3, name=CallService4-5, birthday=1995-07-26]
ThreadName-2添加用户信息:User [userId=6, name=CallService4-3, birthday=1989-11-10]
ThreadName-1添加用户信息:User [userId=1, name=CallService4-0, birthday=1989-11-10]
ThreadName-2添加用户信息:User [userId=9, name=CallService4-8, birthday=2000-10-01]
ThreadName-3添加用户信息:User [userId=5, name=CallService4-1, birthday=1988-09-11]
ThreadName-1添加用户信息:User [userId=2, name=CallService4-4, birthday=1990-03-07]
ThreadName-3添加用户信息:User [userId=8, name=CallService4-7, birthday=1995-07-26]
项目地址:
https://github.com/wangymd/ThreadTest.git
标签:iba dem group context org compiler ring param version
原文地址:https://www.cnblogs.com/wangymd/p/11012658.html