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這篇文章主要為大家展示了“Java.util.concurrent怎么用”,內容簡而易懂,條理清晰,希望能夠幫助大家解決疑惑,下面讓小編帶領大家一起研究并學習一下“Java.util.concurrent怎么用”這篇文章吧。
Java8 在線API https://blog.fondme.cn/apidoc/jdk-1.8-google/
package com.shi.juc;
import java.util.concurrent.atomic.AtomicInteger;
/**
*
* @author shiye
*
* 二.原子變量: jdk1.5之后,java.util.concurrent.atomic 包下提供了常用的原子變量
* 1. volatile 保證了可見性
* 2. CAS (Compare - and -swap) 算法保證數據的原子性
* CAS 算法是硬件對于并發操作共享數據的支持
* CAS 包含三個操作數:
* 內存值 V
* 預估值(舊值)A
* 更新值 B
* 當且僅當V==A 時 ,把B的值賦值給V ,否則,不做任何操作
*/
public class AtomacTest {
public static void main(String[] args) {
AtomicThread thread = new AtomicThread();
for (int i = 0; i < 10; i++) {
new Thread(thread).start();
}
}
}
class AtomicThread implements Runnable{
public AtomicInteger auAtomicInteger = new AtomicInteger();
public int add() {
return auAtomicInteger.getAndIncrement();
}
@Override
public void run() {
System.out.println(add());
}
}
package com.shi.juc;
import java.util.Iterator;
import java.util.concurrent.CopyOnWriteArrayList;
/**
* CopyOnWriteArrayList/CopyOnWriteArraySet (寫入并復制)
* 注意:添加操作多時,效率低,因為每次添加時都會進行復制,開銷非常大。
* 并發迭代讀時可以選擇使用這個,提高效率
* @author shiye
*
*/
public class CopyOnWriteArrayListTest {
public static void main(String[] args) {
HelloEntity entity = new HelloEntity();
for (int i = 0; i < 10; i++) {
new Thread(()-> {
entity.forEachList();
},String.valueOf(i)).start();
}
}
}
class HelloEntity{
private static CopyOnWriteArrayList<String> list = new CopyOnWriteArrayList();
static {
list.add("aaa");
list.add("bbb");
list.add("ccc");
}
public void forEachList() {
Iterator<String> iterator = list.iterator();
while(iterator.hasNext()) {
System.out.println(Thread.currentThread().getName()+"線程"+iterator.next());
list.add("DDD");//再讀取的時候添加數據
}
}
}
package com.shi.juc;
import java.util.concurrent.CountDownLatch;
/**
* CountDownLatch : 閉鎖
* @author shiye
*
*/
public class TestCountDownLatch {
public static void main(String[] args) throws InterruptedException {
//閉鎖
final CountDownLatch latch = new CountDownLatch(10);
//開始時間
long start = System.currentTimeMillis();
/**
* 啟動10個線程 每個線程 循環答應1000次偶數,計算總的耗時時間
*/
for (int i = 0; i < 10; i++) {
new Thread( ()->{
synchronized (latch) {
for (int j = 0; j <1000; j++) {
if(j%10 == 0) {
System.out.println(j);
}
}
latch.countDown();
}
},String.valueOf(i)).start();
}
latch.await();
//結束時間
long end = System.currentTimeMillis();
System.out.println("總耗時為:"+(end - start));
}
}
package com.shi.juc;
import java.util.concurrent.BrokenBarrierException;
import java.util.concurrent.CyclicBarrier;
/**
* 允許一組線程全部等待彼此達到共同屏障點的同步輔助。
* 循環阻塞在涉及固定大小的線程方的程序中很有用,這些線程必須偶爾等待彼此。
* 屏障被稱為循環 ,因為它可以在等待的線程被釋放之后重新使用。
* @author shiye
*
*結果:
3 集到龍珠...
0 集到龍珠...
1 集到龍珠...
4 集到龍珠...
2 集到龍珠...
5 集到龍珠...
6 集到龍珠...
********7科線程集齊,召喚神龍......
7 集到龍珠...
8 集到龍珠...
9 集到龍珠...
*/
public class TestCyclicBarriar {
public static void main(String[] args) {
//必須集滿7個線程才能夠執行
CyclicBarrier cyclicBarrier = new CyclicBarrier(7, ()->{
System.out.println("********7科線程集齊,召喚神龍......");
});
for (int i = 0; i < 10; i++) {
new Thread(()->{
System.out.println(Thread.currentThread().getName()+"\t 集到龍珠...");
try {
cyclicBarrier.await();//它必須放最下面
} catch (InterruptedException e) {
e.printStackTrace();
} catch (BrokenBarrierException e) {
e.printStackTrace();
}
},String.valueOf(i)).start();
}
}
}
package com.shi.juc;
import java.util.concurrent.Semaphore;
/**
* 模擬 6部車搶占3個車位
* @author shiye
*
*運行結果:
Thread - 2 搶占到車位了 , 暫停3秒
Thread - 0 搶占到車位了 , 暫停3秒
Thread - 1 搶占到車位了 , 暫停3秒
Thread - 1 離開車位....
Thread - 2 離開車位....
Thread - 0 離開車位....
Thread - 3 搶占到車位了 , 暫停3秒
Thread - 5 搶占到車位了 , 暫停3秒
Thread - 4 搶占到車位了 , 暫停3秒
Thread - 4 離開車位....
Thread - 5 離開車位....
Thread - 3 離開車位....
*/
public class TestSemaphore {
public static void main(String[] args) {
//模擬3個停車位 false:非公平
Semaphore semaphore = new Semaphore(3, false);
for (int i = 0; i < 6; i++) {
new Thread(()->{
try {
semaphore.acquire();//搶占車位 (搶占線程)
System.out.println(Thread.currentThread().getName() + " 搶占到車位了 , 暫停3秒" );
Thread.sleep(3000);
System.out.println(Thread.currentThread().getName() + " 離開車位....");
} catch (InterruptedException e) {
e.printStackTrace();
}finally {
semaphore.release();//釋放車位(釋放線程)
}
},"Thread - "+i).start();
}
}
}
package com.shi.juc;
import java.util.concurrent.Callable;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.FutureTask;
/**
* 一. 創建線程的方式三:實現Callalbe接口.相較于Runable接口方式,方法又返回值,并且可以拋出異常.
* 二. 可以當成閉鎖來使用
* @author shiye
*
*/
public class TestCallable {
public static void main(String[] args) throws InterruptedException, ExecutionException {
CallableDemo td = new CallableDemo();
//執行Callable方式,需要FutureTask 實現類的支持,用于接收運算結果
FutureTask<Integer> result = new FutureTask<>(td);
new Thread(result).start();
//接收執行后的結果
System.out.println("---------當前線程開始了---------");
Integer sum = result.get(); //獲取當前的值時 會導致當前線程一下的全部暫停執行,直到獲取該值(慎用)
System.out.println(" 和 : "+sum);
System.out.println("---------當前線程終止了---------");
}
}
/**
*
* @author shiye
* 創建線程并且提供返回值
*/
class CallableDemo implements Callable<Integer>{
@Override
public Integer call() throws Exception {
int sum = 0;
for (int i = 0; i < Integer.MAX_VALUE; i++) {
sum+=i;
}
Thread.sleep(10000);
return sum;
}
}
/**
* 實現Runable接口的方式實現的結果
class RunableThread implements Runnable{
@Override
public void run() {
}
}
*/
package com.shi.juc;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
/**
* 用于解決線程同步的問題
* Synchronized:隱士鎖
* 1. 同步代碼塊
* 2. 同步方法
*
* JDK 1.5 以后
* 3.同步鎖 : Lock
* 注意: 是一個顯示鎖,需要通過Lock()方法上鎖, 必須通過 unlock() 解鎖(放在finnal中最好)
*
* @author shiye
*
*/
public class TestLock {
static int toket = 100;
public static void main(String[] args) {
Lock lock = new ReentrantLock();
/**
* 創建10個線程去賣票
*/
for (int i = 0; i < 10; i++) {
new Thread(()->{
while(toket>0) {
lock.lock();//加鎖
try {
if(toket>0) {
Thread.sleep(200);
System.out.println(Thread.currentThread().getName()+"號線程正在賣票,剩余" + (--toket));
}
} catch (InterruptedException e) {
e.printStackTrace();
}finally {
lock.unlock();//解鎖
}
}
},String.valueOf(i)).start();
}
}
}
package com.shi.juc;
/**
* 使用隱士鎖實現的synchronized
* 生產者消費者問題:
* 保證生產者生產的貨能即使被消費掉(產品不存在剩余)
* @author shiye
*
*/
public class TestProductAndConsoumer {
public static void main(String[] args) {
Clerk clerk = new Clerk();
Productor pro = new Productor(clerk);
Consumer con = new Consumer(clerk);
new Thread(pro,"生產者A").start();
new Thread(con,"消費者B").start();
new Thread(pro,"生產者C").start();
new Thread(con,"消費者D").start();
}
}
//售貨員
class Clerk{
private int product = 0;
//進貨
public synchronized void get() throws InterruptedException {
while(product>=1) {
System.out.println(Thread.currentThread().getName() + " :產品已滿!");
this.wait();//wait()方法必須放到循環中才行,避免虛假喚醒的問題
}
System.out.println(Thread.currentThread().getName() +" 進貨: " + (++product));
this.notifyAll();
}
//賣貨
public synchronized void sale() throws InterruptedException {
while(product<=0) {
System.out.println(Thread.currentThread().getName() + " :產品已經售罄!");
this.wait();
}
System.out.println(Thread.currentThread().getName()+" 賣貨: " +(--product));
this.notifyAll();
}
}
//生產者
class Productor implements Runnable{
private Clerk clerk;
public Productor(Clerk clerk) {
this.clerk = clerk;
}
@Override
public void run() {
for (int i = 0; i < 20; i++) {
try {
Thread.sleep(200);
clerk.get();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
}
//消費者
class Consumer implements Runnable{
private Clerk clerk;
public Consumer(Clerk clerk) {
this.clerk = clerk;
}
@Override
public void run() {
for (int i = 0; i < 20; i++) {
try {
clerk.sale();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
}package com.shi.juc;
import java.util.concurrent.locks.Condition;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
/**
* 使用顯示鎖解決:lock
* 生產者消費者問題:
* 保證生產者生產的貨能即使被消費掉(產品不存在剩余)
* @author shiye
*
*/
public class TestProductAndConsoumerforLock {
public static void main(String[] args) {
Clerk clerk = new Clerk();
Productor pro = new Productor(clerk);
Consumer con = new Consumer(clerk);
new Thread(pro,"生產者A").start();
new Thread(con,"消費者B").start();
new Thread(pro,"生產者C").start();
new Thread(con,"消費者D").start();
}
}
//售貨員
class Clerk{
private int product = 0;
private Lock lock = new ReentrantLock();
private Condition condition = lock.newCondition();
//進貨
public void get() throws InterruptedException {
try {
lock.lock();//加鎖
while(product>=1) {//循環是為了,避免虛假喚醒的問題
System.out.println(Thread.currentThread().getName() + " :產品已滿!");
condition.await();//線程等待
}
System.out.println(Thread.currentThread().getName() +" 進貨: " + (++product));
condition.signalAll();//線程喚醒
} finally {
lock.unlock();//解鎖
}
}
//賣貨
public void sale() throws InterruptedException {
try {
lock.lock();//加鎖
while(product<=0) {//循環是為了,避免虛假喚醒的問題
System.out.println(Thread.currentThread().getName() + " :產品已經售罄!");
condition.await();//線程等待
}
System.out.println(Thread.currentThread().getName()+" 賣貨: " +(--product));
condition.signalAll();//線程喚醒
} finally {
lock.unlock();//解鎖
}
}
}
//生產者
class Productor implements Runnable{
private Clerk clerk;
public Productor(Clerk clerk) {
this.clerk = clerk;
}
@Override
public void run() {
for (int i = 0; i < 20; i++) {
try {
Thread.sleep(200);
clerk.get();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
}
//消費者
class Consumer implements Runnable{
private Clerk clerk;
public Consumer(Clerk clerk) {
this.clerk = clerk;
}
@Override
public void run() {
for (int i = 0; i < 20; i++) {
try {
clerk.sale();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
}
package com.shi.juc;
import java.util.concurrent.locks.Condition;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
/**
* 開啟6個線程,依次打印ABCABC... 循環打印
* @author shiye
*
*結果:
A-1 : 打印 0 遍
B-1 : 打印 0 遍
C-2 : 打印 0 遍
A-2 : 打印 0 遍
B-2 : 打印 0 遍
C-1 : 打印 0 遍
A-1 : 打印 0 遍
B-1 : 打印 0 遍
C-2 : 打印 0 遍
A-2 : 打印 0 遍
B-2 : 打印 0 遍
C-1 : 打印 0 遍
*/
public class TestABCAlert {
public static void main(String[] args) {
AlternateDemo demo = new AlternateDemo();
System.out.println("-----------第一輪線程-------------");
//線程A
new Thread( ()->{
while(true) {
demo.printA();
}
},"A-1").start();
//線程B
new Thread(()->{
while(true) {
demo.printB();
}
},"B-1").start();
//線程C
new Thread(()-> {
while (true) {
demo.printC();
}
},"C-1").start();
System.out.println("-----------第二輪線程-------------");
//線程A
new Thread( ()->{
while(true) {
demo.printA();
}
},"A-2").start();
//線程B
new Thread(()->{
while(true) {
demo.printB();
}
},"B-2").start();
//線程C
new Thread(()-> {
while (true) {
demo.printC();
}
},"C-2").start();
}
}
class AlternateDemo{
private int number = 1;//當前線程執行線程的標記
private Lock lock = new ReentrantLock();//顯示鎖
private Condition condition1 = lock.newCondition();//線程之間的通訊
private Condition condition2 = lock.newCondition();
private Condition condition3 = lock.newCondition();
//打印A
public void printA() {
lock.lock();//加鎖
try {
while(number != 1) { //一定要用while 不能要if 因為:存在線程線程虛假喚醒,線程搶占的問題
condition1.await();//線程 A 等待
}
for (int i = 0; i < 1; i++) {
System.out.println(Thread.currentThread().getName() + " : 打印 "+ i + " 遍 ");
}
number = 2;
condition2.signal();//喚醒2線程
} catch (Exception e) {
e.printStackTrace();
}finally {
lock.unlock();//解鎖
}
}
//打印B
public void printB() {
lock.lock();//上鎖
try {
while(number != 2) {//一定要用while 不能要if 因為:存在線程線程虛假喚醒,線程搶占的問題
condition2.await();
}
for (int i = 0; i < 1; i++) {
System.out.println(Thread.currentThread().getName() + " : 打印 "+ i + " 遍 ");
}
number = 3;
condition3.signal();//喚醒3線程
} catch (Exception e) {
e.printStackTrace();
}finally {
lock.unlock();//解鎖
}
}
//打印C
public void printC() {
lock.lock();//上鎖
try {
while(number != 3) {//一定要用while 不能要if 因為:存在線程線程虛假喚醒,線程搶占的問題
condition3.await();
}
for (int i = 0; i < 1; i++) {
System.out.println(Thread.currentThread().getName() + " : 打印 "+ i + " 遍 ");
}
number = 1;
condition1.signal();//喚醒1線程
} catch (Exception e) {
e.printStackTrace();
}finally {
lock.unlock();//解鎖
}
}
}
package com.shi.juc;
import java.time.LocalTime;
import java.util.concurrent.locks.ReadWriteLock;
import java.util.concurrent.locks.ReentrantReadWriteLock;
/**
* 讀寫鎖
* 寫寫/讀寫 需要互斥
* 讀讀 不需要互斥
* @author shiye
*
* 結果: 完全證明上面的理論成功
read-0 正在讀 0 當前時間:14:47:47.534
read-1 正在讀 0 當前時間:14:47:47.534
write-0 寫過之后的值為: 111 當前時間:14:47:52.535
write-1 寫過之后的值為: 111 當前時間:14:47:57.536
write-2 寫過之后的值為: 111 當前時間:14:48:02.536
read-2 正在讀 111 當前時間:14:48:07.537
read-3 正在讀 111 當前時間:14:48:07.537
write-3 寫過之后的值為: 111 當前時間:14:48:12.537
write-5 寫過之后的值為: 111 當前時間:14:48:17.537
*
*/
public class TestReadAndWrite {
public static void main(String[] args) {
ReadAndWrite item = new ReadAndWrite();
//啟動100個讀寫線程操作數據
for (int i = 0; i < 10; i++) {
//讀線程
new Thread(()->{
item.read();
},"read-" + i ).start();
//寫線程
new Thread(()->{
item.write();
},"write-" + i ).start();
}
}
}
class ReadAndWrite{
private int number = 0;
private ReadWriteLock readWriteLock = new ReentrantReadWriteLock();//讀寫鎖
//讀
public void read() {
readWriteLock.readLock().lock();//上讀鎖
try {
Thread.sleep(5000);//睡眠5秒鐘
System.out.println(Thread.currentThread().getName() + " 正在讀 " + number + " 當前時間:"+ LocalTime.now());
} catch (InterruptedException e) {
e.printStackTrace();
}finally {
readWriteLock.readLock().unlock();//釋放讀鎖
}
}
//寫
public void write() {
readWriteLock.writeLock().lock();
try {
number = 111;
Thread.sleep(5000);//寫需要花費5s鐘時間
System.out.println(Thread.currentThread().getName() + " 寫過之后的值為: " + number+ " 當前時間:"+ LocalTime.now());
} catch (Exception e) {
e.printStackTrace();
}finally {
readWriteLock.writeLock().unlock();
}
}
}
package com.shi.juc;
/**
* 線程8鎖
* @author shiye
*
* 1. 倆個普通同步方法,倆個線程,標準打印,打印?// one two
* 2. 新增Thread.sleep() 給 getOne() , 打印?// one two
* 3. 新增普通getThree(), 打印? // Three one two
* 4. 倆個普通同步方法, 倆個Number對象 打印?// two one
* 5. 修改getOne() 為靜態同步方法, 一個Number對象?//two one
* 6. 修改倆個方法均為 靜態同步方法,一個Number對像?//one two
* 7. 一個靜態同步方法,一個非靜態同步方法,倆個Number?//two one
* 8. 倆個靜態同步方法,倆個Number對象 ? //one two
*
* 線程八鎖的關鍵:
* 一. 非靜態方法鎖的默認為this,靜態方法的鎖為對應的Class實力
* 二. 某一個時刻內,只能有一個線程持有鎖,無論幾個方法。
*
*/
public class TestThread8Lock {
public static void main(String[] args) {
Number number = new Number();
Number number2 = new Number();
//線程1
new Thread(()->{
number.getOne();
}).start();
//線程2
new Thread(()->{
// number.getTwo();
number2.getTwo();
}).start();
//線程3
// new Thread(()->{
// number.getThree();
// }).start();
}
}
class Number{
public static synchronized void getOne() {
try {
Thread.sleep(3000);
} catch (InterruptedException e) {
e.printStackTrace();
}
System.out.println("one");
}
public static synchronized void getTwo() {
System.out.println("two");
}
// public void getThree() {
// System.out.println("Three");
// }
}
package com.shi.juc;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.Future;
/**
* 一、線程池:提供了一個線程隊列,隊列中保存著所有等待狀態的線程。避免了創建與銷毀額外開銷,提高了響應的速度。
*
* 二、線程池的體系結構:
* java.util.concurrent.Executor : 負責線程的使用與調度的根接口
* |--**ExecutorService 子接口: 線程池的主要接口
* |--ThreadPoolExecutor 線程池的實現類
* |--ScheduledExecutorService 子接口:負責線程的調度
* |--ScheduledThreadPoolExecutor :繼承 ThreadPoolExecutor, 實現 ScheduledExecutorService
*
* 三、工具類 : Executors
* ExecutorService newFixedThreadPool() : 創建固定大小的線程池
* ExecutorService newCachedThreadPool() : 緩存線程池,線程池的數量不固定,可以根據需求自動的更改數量。
* ExecutorService newSingleThreadExecutor() : 創建單個線程池。線程池中只有一個線程
*
* ScheduledExecutorService newScheduledThreadPool() : 創建固定大小的線程,可以延遲或定時的執行任務。
* @author shiye
*
*/
public class TestThreadPool {
public static void main(String[] args) throws InterruptedException, ExecutionException {
Number1 number1 = new Number1();
//1 創建長度5個線程的線程池
ExecutorService pool = Executors.newFixedThreadPool(5);
//2 創建10個線程 執行線程
//結果: 每個線程都要按順序 一個一個執行,而且必須要一個線程把值返回了才執行下一個線程(閉鎖)
for (int i = 0; i < 10; i++) {
Future<Integer> future = pool.submit(()->{
int sum = number1.sum();
return sum;
});
Integer sum = future.get();
System.out.println(Thread.currentThread().getName()+ " 線程 執行的結果為: " + sum);
}
//3 創建10個線程 執行線程
//結果 ,每個線程分開操作不需要過多的等待,
for (int i = 0; i < 10; i++) {
pool.submit(()->{
number1.sum();
});
}
pool.shutdown();//一定要關閉線程池
}
}
/**
* 計算 1—100 的和 ,每次計算睡眠1s
* @author shiye
*
*/
class Number1{
public int sum() {
try {
Thread.sleep(1000);
} catch (InterruptedException e) {
e.printStackTrace();
}
int sum = 0;
for (int i = 0; i < 101; i++) {
sum +=i;
}
System.out.println(Thread.currentThread().getName()+ " 線程 執行的結果為: " + sum);
return sum;
}
}
package com.shi.juc;
import java.util.Random;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.TimeUnit;
/**
* ScheduledExecutorService newScheduledThreadPool() : 創建固定大小的線程,可以延遲或定時的執行任務。
* @author shiye
*
*/
public class TestScheduledThreadPool {
public static void main(String[] args) throws InterruptedException, ExecutionException {
//1 創建一個帶任務調度的線程池
ScheduledExecutorService pool = Executors.newScheduledThreadPool(5);
for (int i = 0; i < 10; i++) {
//啟動一個任務調度
ScheduledFuture<?> future = pool.schedule(()->{
int num = new Random().nextInt(100);
System.out.println(Thread.currentThread().getName() + " 線程 產生的隨機數為: " + num);
return num;
},3,TimeUnit.SECONDS);// 延遲3s創建一個線程
System.out.println(future.get());
}
pool.shutdown();//關閉線程池
}
}
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