详解Java中Callable和Future的区别
iamswf 人气:1Java中为什么需要Callable
在java中有两种创建线程的方法:
一种是继承Thread
类,重写run
方法:
public class TestMain { public static void main(String[] args) { MyThread t1 = new MyThread(); t1.start(); } } class MyThread extends Thread { public void run() { System.out.println("MyThread running..."); } }
第二种是使用Runnable
创建一个线程:
public class TestMain { public static void main(String[] args) { Runnable r1 = new Runnable() { @Override public void run() { System.out.println("Thread created with runnable running..."); } }; Thread t1 = new Thread(r1); t1.start(); } }
其实这两种方式,底层都是执行Thread
类的run
方法:
无论使用这里的哪种方式创建线程,都无法在线程结束时return一个返回值。但是在非常多的场景下,我们都需要在线程执行结束时,将执行的结果封装为一个返回值返回给主线程(或者调用者线程)。因此java在1.5版本时,在java.util.concurrent
包引入了Callable
接口,用于线程执行完时return一个返回值。
Callable和Runnable的区别
Runnable和Callable都是接口,分别定义如下:
package java.lang; /** * The <code>Runnable</code> interface should be implemented by any * class whose instances are intended to be executed by a thread. The * class must define a method of no arguments called <code>run</code>. * <p> * @since JDK1.0 */ @FunctionalInterface public interface Runnable { public abstract void run(); }
package java.util.concurrent; /** * A task that returns a result and may throw an exception. * Implementors define a single method with no arguments called * {@code call}. * * <p>The {@code Callable} interface is similar to {@link * java.lang.Runnable}, in that both are designed for classes whose * instances are potentially executed by another thread. A * {@code Runnable}, however, does not return a result and cannot * throw a checked exception. * * <p>The {@link Executors} class contains utility methods to * convert from other common forms to {@code Callable} classes. * * @see Executor * @since 1.5 * @author Doug Lea * @param <V> the result type of method {@code call} */ @FunctionalInterface public interface Callable<V> { /** * @return computed result * @throws Exception if unable to compute a result */ V call() throws Exception; }
可以看出,Callable
和Runnable
主要有两点区别:
- 有返回值;
- 可以抛出异常(这里抛出的异常,会在future.get()时可以通过
ExectionException
捕获);
因此可以看出,Callable
更加实用。这里举个Callable
使用的例子:
Callable callable = new Callable<Integer>() { @Override public Integer call() throws Exception { int i = new Random().nextInt(5); try { Thread.sleep(i * 1000); } catch (InterruptedException e) { e.printStackTrace(); } return i; } };
虽然Callable
接口的call
方法可以返回执行结果,但是有两个问题需要解决:
- 线程的创建只能通过
Runnable
,通过Callable
又如何创建线程? - 如何获取执行结果?
答案是Future
和RunnableFuture
。
Future和RunnableFuture
Future
是一个接口,看下定义:
package java.util.concurrent; /** * A {@code Future} represents the result of an asynchronous * computation. Methods are provided to check if the computation is * complete, to wait for its completion, and to retrieve the result of * the computation. The result can only be retrieved using method * {@code get} when the computation has completed, blocking if * necessary until it is ready. Cancellation is performed by the * {@code cancel} method. Additional methods are provided to * determine if the task completed normally or was cancelled. Once a * computation has completed, the computation cannot be cancelled. * If you would like to use a {@code Future} for the sake * of cancellability but not provide a usable result, you can * declare types of the form {@code Future<?>} and * return {@code null} as a result of the underlying task. * * @see FutureTask * @see Executor * @since 1.5 * @author Doug Lea * @param <V> The result type returned by this Future's {@code get} method */ public interface Future<V> { /** * Attempts to cancel execution of this task. This attempt will * fail if the task has already completed, has already been cancelled, * or could not be cancelled for some other reason. If successful, * and this task has not started when {@code cancel} is called, * this task should never run. If the task has already started, * then the {@code mayInterruptIfRunning} parameter determines * whether the thread executing this task should be interrupted in * an attempt to stop the task. * * <p>After this method returns, subsequent calls to {@link #isDone} will * always return {@code true}. Subsequent calls to {@link #isCancelled} * will always return {@code true} if this method returned {@code true}. * * @param mayInterruptIfRunning {@code true} if the thread executing this * task should be interrupted; otherwise, in-progress tasks are allowed * to complete * @return {@code false} if the task could not be cancelled, * typically because it has already completed normally; * {@code true} otherwise */ boolean cancel(boolean mayInterruptIfRunning); /** * Returns {@code true} if this task was cancelled before it completed * normally. * * @return {@code true} if this task was cancelled before it completed */ boolean isCancelled(); /** * Returns {@code true} if this task completed. * * Completion may be due to normal termination, an exception, or * cancellation -- in all of these cases, this method will return * {@code true}. * * @return {@code true} if this task completed */ boolean isDone(); /** * Waits if necessary for the computation to complete, and then * retrieves its result. * * @return the computed result * @throws CancellationException if the computation was cancelled * @throws ExecutionException if the computation threw an * exception * @throws InterruptedException if the current thread was interrupted * while waiting */ V get() throws InterruptedException, ExecutionException; /** * Waits if necessary for at most the given time for the computation * to complete, and then retrieves its result, if available. * * @param timeout the maximum time to wait * @param unit the time unit of the timeout argument * @return the computed result * @throws CancellationException if the computation was cancelled * @throws ExecutionException if the computation threw an * exception * @throws InterruptedException if the current thread was interrupted * while waiting * @throws TimeoutException if the wait timed out */ V get(long timeout, TimeUnit unit) throws InterruptedException, ExecutionException, TimeoutException; }
可以看出,Future
可以用来表示线程的未来执行结果:一个容器,这个容器内将来存放的是线程的执行结果,线程执行完之前该容器内没有值,但是线程一旦执行成功(Callable
的call
方法返回之后),就会将结果存入该容器。从Future
的接口定义可看出,Future
不仅支持阻塞获取执行结果,还支持取消任务的执行,判断任务是否执行完成等。因此通过Future
,主线程(或者调用者线程)可以跟进子现场的执行情况。
Callable
其实和Runnable
很像,都会执行一个任务,只不过Callable
可以返回执行的结果。一般将执行结果封装到Future
,调用者线程即可以通过Future
获取Callable
的执行结果了。因此,一般Callable
会和Future
搭配使用。
但是问题来了:java创建线程,需要Runnable
,获取执行结果又需要Future
。因此RunnableFuture
来了:
可以看出,通过RunnableFuture
,既可以创建线程,又可以获取线程的执行结果,当然RunnableFuture
也是一个接口,我们一般情况下会使用它的具体实现类FutureTask
。
那可能又有人要问了,Callable
又是如何建立联系的呢?看下FutureTask
的使用方式就明白了:
public class TestMain { public static void main(String[] args) { Callable callable = new Callable<Integer>() { @Override public Integer call() throws Exception { int i = new Random().nextInt(5); try { Thread.sleep(i * 1000); } catch (InterruptedException e) { e.printStackTrace(); } return i; } }; /** * callable创建futureTask * FutureTask实现了RunnableFuture接口,因此即是Runnable又是Future * 作为Runnable可以传入Thread创建线程并执行 * 作为Future,可以用来获取执行的结果。 * 这里创建出来的futureTask对象有人称为"具柄"或者"存根",大家可以理解为用来获取线程执行结果的一个"引用"即可。 */ FutureTask<Integer> futureTask = new FutureTask<Integer>(callable); // 作为Runnable使用 Thread thread = new Thread(futureTask); thread.start(); try { // 作为Future使用 Integer integer = futureTask.get(); System.out.println(integer); } catch (InterruptedException e) { e.printStackTrace(); } catch (ExecutionException e) { e.printStackTrace(); } } }
因此FutureTask
是Callable
到Runnable
的桥梁。
不使用Callable和Future,仅使用Runnable实现相同功能
下面我们看下,如果不使用Callable
和Future
,仅使用Runnable
如何实现返回值。
public class TestMain { public static void main(String[] args) { MyRunnable myRunnable = new MyRunnable(); Thread t1 = new Thread(myRunnable); t1.start(); Object o = myRunnable.get(); System.out.println(o); } } class MyRunnable implements Runnable { // 存储执行结果 private Object outCome = null; @Override public void run() { int i = new Random().nextInt(5); try { Thread.sleep(i * 1000); } catch (InterruptedException e) { e.printStackTrace(); } // 存储执行结果 outCome = i; // 产出结果后唤醒等待的get方法 synchronized (this) { notifyAll(); } } public synchronized Object get() { while(outCome == null) { try { // 等待产出结果 wait(); } catch (InterruptedException e) { e.printStackTrace(); } } return outCome; } }
可以看出,通过Runnable
实现更加麻烦,因此这也体现出了Callable
+Future
的优势。
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