随着软件开发的不断进步,在实际的开发应用中,可能一次请求需要查询若干次数据库或者调用若干次第三方,按照传统的串行执行的话,会大大增加响应时间,无法满足业务需求,更无法满足用户迫切需要响应迅速的愿望。对此,我们需要针对网络请求或内部调用中包含的“多任务”进行异步处理,并行去执行这些“任务”,这样就就会大大减小响应时间。本文是基于guava中的ListenableFuture来实现的。
测试代码:
1 package com.study1; 2 3 import java.util.Random; 4 import java.util.concurrent.Callable; 5 import java.util.concurrent.Executors; 6 import java.util.concurrent.locks.LockSupport; 7 8 import com.google.common.util.concurrent.FutureCallback; 9 import com.google.common.util.concurrent.Futures; 10 import com.google.common.util.concurrent.ListenableFuture; 11 import com.google.common.util.concurrent.ListeningExecutorService; 12 import com.google.common.util.concurrent.MoreExecutors; 13 /** 14 * GUAVA ListenableFuture 15 * @author gaojy 16 * 17 */ 18 public class TestListenableFuture { 19 //定义一个线程池,用于处理所有任务 20 final static ListeningExecutorService service 21 = MoreExecutors.listeningDecorator(Executors.newCachedThreadPool()); 22 23 public static void main(String[] args){ 24 Long t1 = System.currentTimeMillis(); 25 // 任务1 26 ListenableFuture<Boolean> booleanTask = service.submit(new Callable<Boolean>() { 27 @Override 28 public Boolean call() throws Exception { 29 Thread.sleep(10000); 30 return true; 31 } 32 }); 33 34 /** 35 * 36 */ 37 Futures.addCallback(booleanTask, new FutureCallback<Boolean>() { 38 @Override 39 public void onSuccess(Boolean result) { 40 System.err.println("BooleanTask: " + result); 41 } 42 43 @Override 44 public void onFailure(Throwable t) { 45 } 46 }); 47 48 // 任务2 49 ListenableFuture<String> stringTask = service.submit(new Callable<String>() { 50 @Override 51 public String call() throws Exception { 52 Thread.sleep(10000); 53 return "Hello World"; 54 } 55 }); 56 57 Futures.addCallback(stringTask, new FutureCallback<String>() { 58 @Override 59 public void onSuccess(String result) { 60 System.err.println("StringTask: " + result); 61 } 62 63 @Override 64 public void onFailure(Throwable t) { 65 } 66 }); 67 68 // 任务3 69 ListenableFuture<Integer> integerTask = service.submit(new Callable<Integer>() { 70 @Override 71 public Integer call() throws Exception { 72 Thread.sleep(10000); 73 return new Random().nextInt(100); 74 } 75 }); 76 77 Futures.addCallback(integerTask, new FutureCallback<Integer>() { 78 @Override 79 public void onSuccess(Integer result) { 80 try { 81 Thread.sleep(5000); 82 } catch (InterruptedException e) { 83 e.printStackTrace(); 84 } 85 System.err.println("IntegerTask: " + result); 86 } 87 88 @Override 89 public void onFailure(Throwable t) { 90 } 91 }); 92 93 // 执行时间 94 System.err.println("time: " + (System.currentTimeMillis() - t1)); 95 96 } 97 }
测试结果:
源码分析:
在26行中ListeningExecutorService的submit()方法:
public ListenableFuture submit(Runnable task, Object result)
{
// 初始化了ListenableFutureTask对象
ListenableFutureTask ftask = ListenableFutureTask.create(task, result);
//执行task,实际上调用了Callable对象的call()方法
execute(ftask);
return ftask;
}
再来查看一下Futures.addCallback的方法:
public static void addCallback(ListenableFuture future, FutureCallback callback, Executor executor)
{
//对回调task进行检查
Preconditions.checkNotNull(callback);
//创建一个新的Runnable对象,并放到一个指定的线程中,执行。
//这个Runnable对象主要任务就是获得future的结果,并根据结果调用回调函数的相应方法
Runnable callbackListener = new Runnable(future, callback) {
public void run()
{
Object value;
try
{
//获取future执行结果,内部调用future.get(),产生堵塞,而不影响main主线程的执行,当获取到value时,就调用callback的onSuccess()方法
value = Uninterruptibles.getUninterruptibly(future);
}
catch(ExecutionException e)
{
callback.onFailure(e.getCause());
return;
}
catch(RuntimeException e)
{
callback.onFailure(e);
return;
}
catch(Error e)
{
callback.onFailure(e);
return;
}
callback.onSuccess(value);
}
final ListenableFuture val$future;
final FutureCallback val$callback;
{
future = listenablefuture;
callback = futurecallback;
super();
}
}
;
future.addListener(callbackListener, executor);
}