ThreadLocal 直译为 “线程本地,但如果真那么认为就是错的,ThreadLocal 它是一个容器,用来存放线程的局部变量.ThreadLocal的诞生 是为了解决多线程并发问题而设计的,只不过设计比较难用而已,至今没有得到广泛应用而已。
一个序列号生成器的程序可能同时会有多个线程并发访问它,要保证每个序列号都是自增的,并且互不干扰。
直接上代码:
先定义了一个接口:
public interface Sequence {
int getNumber();
}
序列号自增
public class ClientThread extends Thread {
private Sequence sequence;
public ClientThread(Sequence sequence) {
this.sequence = sequence;
}
@Override
public void run() {
// super.run();
for (int i=0;i<3;i++){
System.out.println(Thread.currentThread().getName()+"=>"+sequence.getNumber());
}
}
}
此时这里先不用ThreadLocal 来实现
public class SequenceA implements Sequence {
private static int number = 0;
@Override
public int getNumber() {
number = number + 1;
return number;
}
public static void main(String[] args) {
Sequence sequence = new SequenceA();
ClientThread thread1 = new ClientThread(sequence);
ClientThread thread2 = new ClientThread(sequence);
ClientThread thread3 = new ClientThread(sequence);
thread1.start();
thread2.start();
thread3.start();
}
}
看一下运行的结果图:
这里写图片描述
为什么会出现这种效果? 序列号是连续自增的,共享的static 变量无法保证线程安全,才会出现这种情况的。所以我们要做到线程安全的。
public class SequenceB implements Sequence{
private static ThreadLocal<Integer> numberContainer = new ThreadLocal<Integer>(){
@Override
protected Integer initialValue() { // 思考 此时为什么是protected?
return 0;
}
};
@Override
public int getNumber() {
numberContainer.set(numberContainer.get()+1);
return numberContainer.get();
}
public static void main(String[] args) {
Sequence sequence = new SequenceB();
ClientThread thread1 = new ClientThread(sequence);
ClientThread thread2 = new ClientThread(sequence);
ClientThread thread3 = new ClientThread(sequence);
thread1.start();
thread2.start();
thread3.start();
}
}
再来看看运行的结果:
这里写图片描述
此时每个线程都是安全的,每个线程的数字都是1-3递增.ThreadLocal 保证了每个线程都是相互独立的,同样是static 变量,对于不同的线程,它没有被共享,而是各个线程各一份,这样就保证了线程的安全。
这里写图片描述
这是ThreadLocal 的api
当然我们也可以自己来实现一个ThreadLocal
import java.util.Collections;
import java.util.HashMap;
import java.util.Map;
/**
* Created by hello world on 2017/8/8.
*/
public class MyThreadLocal<T> {
private Map<Thread,T> container = Collections.synchronizedMap(new HashMap<Thread, T>()); // 此时 container 是线程安全的map 这是为什么?
// set 方法实现
public void Set(T value){
container.put(Thread.currentThread(),value);
}
//
public T get(){
Thread thread = Thread.currentThread();
T value = container.get(thread);
if(value ==null &&!container.containsKey(thread)){
value = initialValue();
container.put(thread,value);
}
return value;
}
public void remove(){
container.remove(Thread.currentThread());
}
protected T initialValue(){
return null;
}
}
我们再来用MyThreadLocal 来实现一编
public class SequenceC implements Sequence {
private static MyThreadLocal<Integer> numberContainer = new MyThreadLocal<Integer>(){
@Override
protected Integer initialValue() {
return 0;
}
};
@Override
public int getNumber() {
numberContainer.Set(numberContainer.get()+1);
return numberContainer.get();
}
public static void main(String[] args) {
Sequence sequence = new SequenceB();
ClientThread thread1 = new ClientThread(sequence);
ClientThread thread2 = new ClientThread(sequence);
ClientThread thread3 = new ClientThread(sequence);
thread1.start();
thread2.start();
thread3.start();
}
}
效果都是一样,就不截图了。当我们遇到static 修饰的变量,多个线程需要独享自己static成员变量?
如果需要,可以考虑用ThreadLocal .
