Java編程中讀寫(xiě)鎖的示例分析
這篇文章將為大家詳細(xì)講解有關(guān)Java編程中讀寫(xiě)鎖的示例分析,小編覺(jué)得挺實(shí)用的,因此分享給大家做個(gè)參考,希望大家閱讀完這篇文章后可以有所收獲。
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ReadWriteLock也是一個(gè)接口,提供了readLock和writeLock兩種鎖的操作機(jī)制,一個(gè)資源可以被多個(gè)線程同時(shí)讀,或者被一個(gè)線程寫(xiě),但是不能同時(shí)存在讀和寫(xiě)線程。
基本規(guī)則: 讀讀不互斥 讀寫(xiě)互斥 寫(xiě)寫(xiě)互斥
問(wèn)題: 既然讀讀不互斥,為何還要加讀鎖
答: 如果只是讀,是不需要加鎖的,加鎖本身就有性能上的損耗
如果讀可以不是最新數(shù)據(jù),也不需要加鎖
如果讀必須是最新數(shù)據(jù),必須加讀寫(xiě)鎖
讀寫(xiě)鎖相較于互斥鎖的優(yōu)點(diǎn)僅僅是允許讀讀的并發(fā),除此之外并無(wú)其他。
結(jié)論: 讀寫(xiě)鎖能夠保證讀取數(shù)據(jù)的 嚴(yán)格實(shí)時(shí)性,如果不需要這種 嚴(yán)格實(shí)時(shí)性,那么不需要加讀寫(xiě)鎖。
簡(jiǎn)單實(shí)現(xiàn):
package readandwrite;
import java.util.Random;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.locks.ReentrantReadWriteLock;
public class MyTest {
private static ReentrantReadWriteLock rwl=new ReentrantReadWriteLock();
private static double data=0;
static class readClass implements Runnable{
@Override
public void run() {
rwl.readLock().lock();
System.out.println("讀數(shù)據(jù):"+data);
rwl.readLock().unlock();
}
}
static class writeClass implements Runnable{
private double i;
public writeClass(double i) {
this.i = i;
}
@Override
public void run() {
rwl.writeLock().lock();
data=i;
System.out.println("寫(xiě)數(shù)據(jù): "+data);
rwl.writeLock().unlock();
}
}
public static void main(String[] args) throws InterruptedException {
ExecutorService pool=Executors.newCachedThreadPool();
for(int i=0;i<10;i++){
pool.submit(new readClass());
pool.submit(new writeClass((double)new Random().nextDouble()));
pool.submit(new writeClass((double)new Random().nextDouble()));
Thread.sleep(1000);
}
pool.shutdown();
}
}之前我們提到的鎖都是排它鎖(同一時(shí)刻只允許一個(gè)線程進(jìn)行訪問(wèn)),而讀寫(xiě)鎖維護(hù)了一對(duì)鎖,一個(gè)讀鎖,一個(gè)寫(xiě)鎖。讀寫(xiě)鎖在同一時(shí)刻允許多個(gè)線程進(jìn)行讀操作,但是寫(xiě)線程訪問(wèn)過(guò)程中,所有的讀線程和其他寫(xiě)線程均被阻塞。如此,并發(fā)性有了很大的提升。這樣,在某些讀遠(yuǎn)遠(yuǎn)大于寫(xiě)的場(chǎng)景中,讀寫(xiě)鎖能夠提供比排它鎖更好的并發(fā)量和吞吐量。
一個(gè)關(guān)于讀寫(xiě)鎖的Demo:
分析:設(shè)計(jì)一個(gè)模擬隊(duì)列,擁有一個(gè)data成員變量用于存儲(chǔ)數(shù)據(jù)和存取兩種操作。
import java.util.Random;
import java.util.concurrent.locks.ReadWriteLock;
import java.util.concurrent.locks.ReentrantReadWriteLock;
public class ReadWriteLockDemo
{
public static void main(String[] args)
{
DefQueue queue = new DefQueue();
for (int i = 1; i < 10; i++)
{
//啟動(dòng)線程進(jìn)行讀操作
new Thread(new Runnable()
{
@Override
public void run()
{
while (true)
{
queue.get();
}
}
}).start();
//啟動(dòng)線程進(jìn)行寫(xiě)操作
new Thread(new Runnable()
{
@Override
public void run()
{
while(true)
{
queue.put(new Random().nextInt(10000));
}
}
}).start();
}
}
}
class DefQueue
{
private int data;
ReadWriteLock rwLock = new ReentrantReadWriteLock();
public void get()
{
rwLock.readLock().lock();//加讀鎖
try
{
System.out.println(Thread.currentThread().getName() + "be ready to get data");
Thread.sleep((long) (Math.random() * 1000));
System.out.println(Thread.currentThread().getName() + "get the data: " + data);
} catch (InterruptedException e)
{
e.printStackTrace();
} finally
{
rwLock.readLock().unlock();//釋放讀鎖
}
}
public void put(int data)
{
rwLock.writeLock().lock();//加寫(xiě)鎖
try
{
System.out.println(Thread.currentThread().getName() + " be ready to write data");
Thread.sleep((long) (Math.random() * 1000));
this.data = data;
System.out.println(Thread.currentThread().getName() + " has wrote the data: "+data);
} catch (InterruptedException e)
{
e.printStackTrace();
} finally
{
rwLock.writeLock().unlock();//釋放寫(xiě)鎖
}
}
}程序部分運(yùn)行結(jié)果:
Thread-0be ready to get data Thread-0get the data: 0 Thread-1 be ready to write data Thread-1 has wrote the data: 1156 Thread-2be ready to get data Thread-2get the data: 1156 Thread-3 be ready to write data Thread-3 has wrote the data: 9784 Thread-3 be ready to write data Thread-3 has wrote the data: 4370 Thread-3 be ready to write data Thread-3 has wrote the data: 1533 Thread-4be ready to get data Thread-4get the data: 1533 Thread-5 be ready to write data Thread-5 has wrote the data: 2345 Thread-6be ready to get data Thread-6get the data: 2345 Thread-9 be ready to write data Thread-9 has wrote the data: 9463 Thread-9 be ready to write data Thread-9 has wrote the data: 9301 Thread-9 be ready to write data Thread-9 has wrote the data: 549 Thread-9 be ready to write data Thread-9 has wrote the data: 4673 Thread-9 be ready to write data
我們可以看到打印語(yǔ)句結(jié)果很正常。
下面我們?cè)賮?lái)實(shí)現(xiàn)一個(gè)模擬緩沖區(qū)的小Demo:
import java.util.HashMap;
import java.util.Map;
import java.util.concurrent.locks.ReadWriteLock;
import java.util.concurrent.locks.ReentrantReadWriteLock;
/*
* @author vayne
*
* 多線程實(shí)現(xiàn)緩存的小demo
*/
class Cachend
{
volatile Map<String, String> cachmap = new HashMap<String, String>();//加volatile關(guān)鍵字保證可見(jiàn)性。
ReadWriteLock rwLock = new ReentrantReadWriteLock();//這個(gè)讀寫(xiě)鎖要定義在方法外面,使得每一個(gè)線程用的是同一個(gè)讀寫(xiě)鎖。
public String getS(String key) //如果定義在方法內(nèi)部,就是跟方法棧有關(guān)的讀寫(xiě)鎖。這樣可能不是同一個(gè)鎖。
{
rwLock.readLock().lock();
String value = null;
try
{
value = cachmap.get(key);
if (cachmap.get(key) == null)//這里要重新獲得key對(duì)應(yīng)的value值
{
rwLock.readLock().unlock();
rwLock.writeLock().lock();
try
{
if (cachmap.get(key) == null)//這里也是
{
value = "" + Thread.currentThread().getName();
cachmap.put(key, value);
System.out.println(Thread.currentThread().getName() + " put the value ::::" + value);
}
} finally
{
rwLock.readLock().lock(); //將鎖降級(jí),這里跟下一句的順序不能反。
rwLock.writeLock().unlock();//關(guān)于這里的順序問(wèn)題,下面我會(huì)提到。
}
}
} finally
{
rwLock.readLock().unlock();
}
return cachmap.get(key);
}
}
public class CachendDemo
{
public static void main(String[] args)
{
Cachend ca = new Cachend();
for (int i = 0; i < 4; i++)
{
new Thread(new Runnable()
{
@Override
public void run()
{
System.out.println(Thread.currentThread().getName()+" "+ca.getS("demo1"));
System.out.println(Thread.currentThread().getName()+" "+ca.cachmap.entrySet());
}
}).start();
}
}
}運(yùn)行結(jié)果:
Thread-0 put the value ::::Thread-0 Thread-0 Thread-0 Thread-0 [demo1=Thread-0] Thread-2 Thread-0 Thread-2 [demo1=Thread-0] Thread-3 Thread-0 Thread-3 [demo1=Thread-0] Thread-1 Thread-0 Thread-1 [demo1=Thread-0]
上面我給出了一些注釋?zhuān)鋵?shí)這個(gè)代碼是很不好寫(xiě)的,考慮的東西很多。下面我來(lái)講一下上面的代碼中提到的順序問(wèn)題。
對(duì)于讀寫(xiě)鎖我們應(yīng)該了解下面的一些性質(zhì)(這些性質(zhì)是由源代碼得出來(lái)的,因?yàn)樵创a的設(shè)計(jì),所以才有下列性質(zhì)):
如果存在讀鎖,則寫(xiě)鎖不能被獲取,原因在于:讀寫(xiě)鎖要確保寫(xiě)鎖的操作對(duì)讀鎖可見(jiàn)。,如果允許讀鎖在已被獲取的情況下對(duì)寫(xiě)鎖的獲取,那么正在運(yùn)行的其他讀線程就無(wú)法感知到當(dāng)前寫(xiě)線程的操作。因此,只有等待其他讀線程都釋放了讀鎖,寫(xiě)鎖才能被當(dāng)前線程獲取,而寫(xiě)鎖一旦被獲取,則其他讀寫(xiě)線程的后續(xù)訪問(wèn)將會(huì)被阻塞。
鎖降級(jí):指的是寫(xiě)鎖降級(jí)成為讀鎖。具體操作是獲取到寫(xiě)鎖之后,在釋放寫(xiě)鎖之前,要先再次獲取讀鎖。這也就是上面我寫(xiě)注釋提醒大家注意的地方。為什么要這樣處理呢,答案就是為了保證數(shù)據(jù)可見(jiàn)性。如果當(dāng)前線程不獲取讀鎖而是直接釋放寫(xiě)鎖,假設(shè)此刻另一個(gè)線程(記作T)獲取了寫(xiě)鎖并修改了數(shù)據(jù),那么當(dāng)前線程無(wú)法感知線程T的數(shù)據(jù)更新。如果當(dāng)前線程獲取讀鎖,即遵循鎖降級(jí)的步驟,則線程T將會(huì)被阻塞,知道當(dāng)前線程使用數(shù)據(jù)并釋放讀鎖之后,T才能獲取寫(xiě)鎖進(jìn)行數(shù)據(jù)更新。
第二條對(duì)應(yīng)我們上面的程序就是,如果我們添加了“demo1”對(duì)應(yīng)的value值,然后釋放了寫(xiě)鎖,此時(shí)在當(dāng)前線程S還未獲得讀鎖時(shí),另一個(gè)線程T又獲得了寫(xiě)鎖,那么就會(huì)將S的操作給覆蓋(如果取到的值已經(jīng)緩存在S中,那么T的操作就無(wú)法被S感知了,到最后依然會(huì)返回S操作的值)。
再來(lái)看一個(gè)DEMO:
讀寫(xiě)鎖,分為讀鎖和寫(xiě)鎖,多個(gè)讀鎖不互斥,讀鎖和寫(xiě)鎖互斥,寫(xiě)鎖與寫(xiě)鎖互斥,這是JVM自己控制的,你只要上好相應(yīng)的鎖即可,如果你的代碼只讀數(shù)據(jù),可以很多人同時(shí)讀,但不能同時(shí)寫(xiě),那就上讀鎖;如果你的代碼修改數(shù)據(jù),只能有一個(gè)人在寫(xiě),且不能同時(shí)讀取,那就上寫(xiě)鎖.總之,讀的時(shí)候上讀鎖,寫(xiě)的時(shí)候上寫(xiě)鎖!
看如下程序: 新建6個(gè)線程,3個(gè)線程用來(lái)讀,3個(gè)線程用來(lái)寫(xiě),
package javaplay.thread.test;
import java.util.Random;
import java.util.concurrent.locks.ReadWriteLock;
import java.util.concurrent.locks.ReentrantReadWriteLock;
public class ReadWriteLockTest {
public static void main(String[] args) {
final Queue3 q3 = new Queue3();
for (int i = 0; i < 3; i++) {
new Thread() {
public void run() {
while (true) {
q3.get();
}
}
}.start();
new Thread() {
public void run() {
while (true) {
q3.put(new Random().nextInt(10000));
}
}
}.start();
}
}
}
class Queue3 {
private Object data = null;// 共享數(shù)據(jù),只能有一個(gè)線程能寫(xiě)該數(shù)據(jù),但可以有多個(gè)線程同時(shí)讀該數(shù)據(jù)。
// 讀寫(xiě)鎖
ReadWriteLock rwl = new ReentrantReadWriteLock();
// 相當(dāng)于讀操作
public void get() {
rwl.readLock().lock();
try {
System.out.println(Thread.currentThread().getName() + " be ready to read data!");
Thread.sleep((long) (Math.random() * 1000));
System.out.println(Thread.currentThread().getName() + "have read data :" + data);
} catch (InterruptedException e) {
e.printStackTrace();
} finally {
rwl.readLock().unlock();
}
}
// 相當(dāng)于寫(xiě)操作
public void put(Object data) {
rwl.writeLock().lock();
try {
System.out.println(Thread.currentThread().getName() + " be ready to write data!");
Thread.sleep((long) (Math.random() * 1000));
this.data = data;
System.out.println(Thread.currentThread().getName() + " have write data: " + data);
} catch (InterruptedException e) {
e.printStackTrace();
} finally {
rwl.writeLock().unlock();
}
}
}讀寫(xiě)鎖功能很強(qiáng)大!這樣可以實(shí)現(xiàn)正常的邏輯,如果我們把讀寫(xiě)鎖相關(guān)的代碼注釋,發(fā)現(xiàn)程序正準(zhǔn)備寫(xiě)的時(shí)候,就有線程讀了,發(fā)現(xiàn)準(zhǔn)備讀的時(shí)候,有線程去寫(xiě),這樣不符合我們的邏輯;通過(guò)Java5的新特新可以很輕松的解決這樣的問(wèn)題;
查看Java API ReentrantReadWriteLock 上面有經(jīng)典(緩存)的用法,下面是doc里面的偽代碼,,它演示的是一個(gè)實(shí)體的緩存,不是緩存系統(tǒng),相當(dāng)于緩存代理,注意volatile的運(yùn)用:
package javaplay.thread.test;
import java.util.concurrent.locks.ReentrantReadWriteLock;
/*
* Sample usages. Here is a code sketch showing how to perform lock downgrading after updating a cache
* (exception handling is particularly tricky when handling multiple locks in a non-nested fashion):
*/
class CachedData {
Object data;
volatile boolean cacheValid;
final ReentrantReadWriteLock rwl = new ReentrantReadWriteLock();
void processCachedData() {
rwl.readLock().lock();
if (!cacheValid) {
// Must release read lock before acquiring write lock
rwl.readLock().unlock();
rwl.writeLock().lock();
try {
// Recheck state because another thread might have
// acquired write lock and changed state before we did.
if (!cacheValid) {
data = ...
cacheValid = true;
}
// Downgrade by acquiring read lock before releasing write lock
rwl.readLock().lock();
} finally {
rwl.writeLock().unlock(); // Unlock write, still hold read
}
}
try {
use(data);
} finally {
rwl.readLock().unlock();
}
}
}假設(shè)現(xiàn)在多個(gè)線程來(lái)讀了,那第一個(gè)線程讀到的數(shù)據(jù)是空的,那它就要寫(xiě)就要填充數(shù)據(jù),那么第二個(gè)第三個(gè)就應(yīng)該互斥等著,一進(jìn)來(lái)是來(lái)讀數(shù)據(jù)的所以上讀鎖,進(jìn)來(lái)后發(fā)現(xiàn)數(shù)據(jù)是空的,就先把讀鎖釋放再重新獲取寫(xiě)鎖,就開(kāi)始寫(xiě)數(shù)據(jù),數(shù)據(jù)寫(xiě)完了,就把寫(xiě)鎖釋放,把讀鎖重新掛上,持有讀鎖時(shí)不能同時(shí)獲取寫(xiě)鎖,但擁有寫(xiě)鎖時(shí)可同時(shí)再獲取讀鎖,自己線程掛的寫(xiě)鎖可同時(shí)掛讀鎖的,這就是降級(jí),就是除了讀鎖和寫(xiě)鎖外,還有讀寫(xiě)鎖也叫更新鎖,就是自己即可以讀又可以寫(xiě)的鎖,也就是在自己擁有寫(xiě)鎖還沒(méi)釋放寫(xiě)鎖時(shí)就獲取了讀鎖就降級(jí)為讀寫(xiě)鎖/更新鎖,但是不能在持有讀鎖時(shí)再獲取寫(xiě)鎖;
基于上面的例子,我們可以實(shí)現(xiàn)一個(gè)緩存系統(tǒng):
package javaplay.thread.test;
import java.util.HashMap;
import java.util.Map;
import java.util.concurrent.locks.ReadWriteLock;
import java.util.concurrent.locks.ReentrantReadWriteLock;
public class CacheDemo {
private Map<String, Object> cache = new HashMap<>();
public static void main(String[] args) {
}
// 可做到多個(gè)線程并必的讀 讀和寫(xiě)又互斥 系統(tǒng)性能很高
// 這就是讀寫(xiě)鎖的價(jià)值
private ReadWriteLock rwl = new ReentrantReadWriteLock();
public Object getData(String key) {
rwl.readLock().lock();
Object value = null;
try {
value = cache.get(key);
if (value == null) {// 避免首次多次查詢要加synchronized
rwl.readLock().unlock();
rwl.writeLock().lock();
try {
if (value == null) // 就算第二個(gè)第三個(gè)線程進(jìn)來(lái)時(shí)也不用再寫(xiě)了 跟偽代碼相同原理
value = "aaa";// 實(shí)際去query db
} finally {
rwl.writeLock().unlock();
}
rwl.readLock().lock();
}
} finally {
rwl.readLock().unlock();
}
return value;
}
}
錯(cuò)誤之處:沒(méi)有把不存在的值put;要用get(key)來(lái)判空關(guān)于“Java編程中讀寫(xiě)鎖的示例分析”這篇文章就分享到這里了,希望以上內(nèi)容可以對(duì)大家有一定的幫助,使各位可以學(xué)到更多知識(shí),如果覺(jué)得文章不錯(cuò),請(qǐng)把它分享出去讓更多的人看到。
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