死锁定义
死锁是指两个或者多个线程被永久阻塞的一种局面,产生的前提是要有两个或两个以上的线程,并且来操作两个或者多个以上的共同资源;我的理解是用两个线程来举例,现有线程a和b同时操作两个共同资源a和b,a操作a的时候上锁locka,继续执行的时候,a还需要lockb进行下面的操作,这个时候b资源在被b线程操作,刚好被上了锁lockb,假如此时线程b刚好释放了lockb则没有问题,但没有释放lockb锁的时候,线程a和b形成了对lockb锁资源的争夺,从而造成阻塞,形成死锁;具体其死锁代码如下:
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public class mydeadlocktest {
public static void main(string[] args){
object obj1 = new object();
thread thread1 = new thread(new deadres(true,obj1));
thread thread2 = new thread(new deadres(false,obj1));
thread1.start();
thread2.start();
}
}
class deadres implements runnable{
boolean flag;
object obj;
public deadres(boolean flag, object obj1) {
this.flag = flag;
this.obj = obj1;
}
@override
public void run() {
if(flag){
synchronized (deadres.class){
system.out.println(thread.currentthread().getname()+" acquie lock is deadres.class");
synchronized (obj){
system.out.println(thread.currentthread().getname()+" acquie lock is obj");
}
}
}else{
synchronized (obj){
system.out.println(thread.currentthread().getname()+" acquie lock is obj");
synchronized (deadres.class){
system.out.println(thread.currentthread().getname()+" acquie lock is deadres.class");
}
}
}
}
}
执行结果如下图:
thread-1 acquie lock is obj thread-0 acquie lock is deadres.class
当然每次执行的结果不一样,有可能是一种和谐状态,没有发生死锁,此时为保证每次死锁,可以让run()方法中,执行while(true)循环,这样保证了每次必定发生死锁;当然实际应用中,我们应该尽量避免死锁,当有多线程操作多个共同资源的时候,避免发生同一锁对象的同步嵌套。
线程间的通讯—-生产者与消费者模式
1、让两个线程交替进行操作,当生产了一个数字后,紧接着消费一个,首先采用object对象中的wait-notify来实现,具体代码如下:
public class threadproconsume {
public static void main(string[] args){
product product = new product();
thread thread1 = new thread(new producer(product));
thread thread2 = new thread(new consumer(product));
thread1.start();
thread2.start();
}
}
class product{
string name;
private int count = 1;
boolean flag = false;
public synchronized void set(string name){
if(flag){
try {
this.wait();
} catch (interruptedexception e) {
e.printstacktrace();
}
}
this.name = name +"--"+count++;
flag = true;
system.out.println(thread.currentthread().getname()+" produce num : "+this.name);
this.notify();
}
public synchronized void out(){
if(!flag){
try {
this.wait();
} catch (interruptedexception e) {
e.printstacktrace();
}
}
system.out.println(thread.currentthread().getname()+" consume num is : "+this.name);
flag = false;
this.notify();
}
}
class producer implements runnable{
product res;
public producer(product product) {
this.res = product;
}
@override
public void run() {
while(true){
res.set("guyue");
}
}
}
class consumer implements runnable{
product res;
public consumer(product product) {
this.res = product;
}
@override
public void run() {
while(true){
res.out();
}
}
}
执行结果如图:
thread-1 consume num is : guyue--3938 thread-0 produce num : guyue--3939 thread-1 consume num is : guyue--3939 thread-0 produce num : guyue--3940 thread-1 consume num is : guyue--3940 thread-0 produce num : guyue--3941 thread-1 consume num is : guyue--3941
当超过两个以上线程操作的时候,这里需要在set()与out()方法中的if判断改为while,并且notif方法,改为notifyall(),这样多个线程操作的时候,便可以交替进行,具体代码如下:
public class threadproconsume {
public static void main(string[] args){
product product = new product();
thread thread1 = new thread(new producer(product));
thread thread3 = new thread(new producer(product));
thread thread2 = new thread(new consumer(product));
thread thread4 = new thread(new consumer(product));
thread1.start();
thread3.start();
thread2.start();
thread4.start();
}
}
class product{
string name;
private int count = 1;
boolean flag = false;
public synchronized void set(string name){
while(flag){
try {
this.wait();
} catch (interruptedexception e) {
e.printstacktrace();
}
}
this.name = name +"--"+count++;
flag = true;
system.out.println(thread.currentthread().getname()+" produce num : "+this.name);
this.notifyall();
}
public synchronized void out(){
while (!flag){
try {
this.wait();
} catch (interruptedexception e) {
e.printstacktrace();
}
}
system.out.println(thread.currentthread().getname()+" consume num is : "+this.name);
flag = false;
this.notifyall();
}
}
执行结果如下:
thread-0 produce num : guyue--50325 thread-2 consume num is : guyue--50325 thread-1 produce num : guyue--50326 thread-3 consume num is : guyue--50326 thread-0 produce num : guyue--50327 thread-2 consume num is : guyue--50327 thread-1 produce num : guyue--50328 thread-3 consume num is : guyue--50328
2、采用lock-condition方法实现如下:
class product{
string name;
private int count = 1;
boolean flag = false;
lock lock = new reentrantlock();
condition conditon = lock.newcondition();
public void set(string name){
try{
lock.lock();
while(flag){
conditon.await();
}
this.name = name +"--"+count++;
flag = true;
system.out.println(thread.currentthread().getname()+" produce num : "+this.name);
conditon.signalall();
}catch (exception e){
}finally {
lock.unlock();
}
}
public void out(){
try{
lock.lock();
while(!flag){
conditon.await();
}
flag = false;
system.out.println(thread.currentthread().getname()+" consumer num is : "+this.name);
conditon.signalall();
}catch (exception e){
}finally {
lock.unlock();
}
}
}
执行结果如下:
thread-0 produce num : guyue--20305 thread-3 consumer num is : guyue--20305 thread-1 produce num : guyue--20306 thread-2 consumer num is : guyue--20306 thread-0 produce num : guyue--20307 thread-3 consumer num is : guyue--20307 thread-1 produce num : guyue--20308 thread-2 consumer num is : guyue--20308
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