Spring线程池ThreadPoolTaskExecutor配置及详情
Spring线程池ThreadPoolTaskExecutor配置及详情
1. ThreadPoolTaskExecutor配置
1 <!-- spring thread pool executor --> 2 <bean id="taskExecutor" class="org.springframework.scheduling.concurrent.ThreadPoolTaskExecutor"> 3 <!-- 线程池维护线程的最少数量 --> 4 <property name="corePoolSize" value="5" /> 5 <!-- 允许的空闲时间 --> 6 <property name="keepAliveSeconds" value="200" /> 7 <!-- 线程池维护线程的最大数量 --> 8 <property name="maxPoolSize" value="10" /> 9 <!-- 缓存队列 --> 10 <property name="queueCapacity" value="20" /> 11 <!-- 对拒绝task的处理策略 --> 12 <property name="rejectedExecutionHandler"> 13 <bean class="java.util.concurrent.ThreadPoolExecutor$CallerRunsPolicy" /> 14 </property> 15 </bean>
属性字段说明
corePoolSize:线程池维护线程的最少数量
keepAliveSeconds:允许的空闲时间
maxPoolSize:线程池维护线程的最大数量
queueCapacity:缓存队列
rejectedExecutionHandler:对拒绝task的处理策略
2. execute(Runable)方法执行过程
如果此时线程池中的数量小于corePoolSize,即使线程池中的线程都处于空闲状态,也要创建新的线程来处理被添加的任务。
如果此时线程池中的数量等于 corePoolSize,但是缓冲队列 workQueue未满,那么任务被放入缓冲队列。
如果此时线程池中的数量大于corePoolSize,缓冲队列workQueue满,并且线程池中的数量小于maxPoolSize,建新的线程来处理被添加的任务。
如果此时线程池中的数量大于corePoolSize,缓冲队列workQueue满,并且线程池中的数量等于maxPoolSize,那么通过handler所指定的策略来处理此任务。也就是:处理任务的优先级为:核心线程corePoolSize、任务队列workQueue、最大线程 maximumPoolSize,如果三者都满了,使用handler处理被拒绝的任务。
当线程池中的线程数量大于corePoolSize时,如果某线程空闲时间超过keepAliveTime,线程将被终止。这样,线程池可以动态的调整池中的线程数。
3. 示例代码
Junit Test
1 @RunWith(SpringJUnit4ClassRunner.class) 2 @ContextConfiguration(classes = { MultiThreadConfig.class }) 3 public class MultiThreadTest { 4 5 @Autowired 6 private ThreadPoolTaskExecutor taskExecutor; 7 8 @Autowired 9 private MultiThreadProcessService multiThreadProcessService; 10 11 @Test 12 public void test() { 13 14 int n = 20; 15 for (int i = 0; i < n; i++) { 16 taskExecutor.execute(new MultiThreadDemo(multiThreadProcessService)); 17 System.out.println("int i is " + i + ", now threadpool active threads totalnum is " + taskExecutor.getActiveCount()); 18 } 19 20 try { 21 System.in.read(); 22 } catch (IOException e) { 23 throw new RuntimeException(e); 24 } 25 } 26 }
MultiThreadDemo
1 /** 2 * 多线程并发处理demo 3 * @author daniel.zhao 4 * 5 */ 6 public class MultiThreadDemo implements Runnable { 7 8 private MultiThreadProcessService multiThreadProcessService; 9 10 public MultiThreadDemo() { 11 } 12 13 public MultiThreadDemo(MultiThreadProcessService multiThreadProcessService) { 14 this.multiThreadProcessService = multiThreadProcessService; 15 } 16 17 @Override 18 public void run() { 19 multiThreadProcessService.processSomething(); 20 } 21 22 }
MultiThreadProcessService
1 @Service 2 public class MultiThreadProcessService { 3 4 public static final Logger logger = Logger.getLogger(MultiThreadProcessService.class); 5 6 /** 7 * 默认处理流程耗时1000ms 8 */ 9 public void processSomething() { 10 logger.debug("MultiThreadProcessService-processSomething" + Thread.currentThread() + "......start"); 11 try { 12 Thread.sleep(1000); 13 } catch (InterruptedException e) { 14 throw new RuntimeException(e); 15 } 16 logger.debug("MultiThreadProcessService-processSomething" + Thread.currentThread() + "......end"); 17 } 18 }
MultiThreadConfig
1 @Configuration 2 @ComponentScan(basePackages = { "com.xxx.multithread" }) 3 @ImportResource(value = { "classpath:config/application-task.xml" }) 4 @EnableScheduling 5 public class MultiThreadConfig { 6 }