Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

What is the difference between using the Runnable and Callable interfaces when designing a concurrent thread in Java, why would you choose one over the other?

share|improve this question
2  
For additional discussion, after reading this page, see Shall Callable be preferred over Runnable? – Thomas Jun 18 '13 at 8:04
up vote 262 down vote accepted

See explanation here.

The Callable interface is similar to Runnable, in that both are designed for classes whose instances are potentially executed by another thread. A Runnable, however, does not return a result and cannot throw a checked exception.

share|improve this answer

What are the differences in the applications of Runnable and Callable. Is the difference only with the return parameter present in Callable?

Basically, yes. See the answers to this question. And the javadoc for Callable.

What is the need of having both if Callable can do all that Runnable does?

Because the Runnable interface cannot do everything that Callable does!

Runnable has been around since Java 1.0, but Callable was only introduced in Java 1.5 ... to handle use-cases that Runnable does not support. In theory, the Java team could have changed the signature of the Runnable.run() method, but this would have broken binary compatiblity with pre-1.5 code, requiring recoding when migrating old Java code to newer JVMs. That is a BIG NO-NO. Java strives to be backwards compatible ... and that's been one of Java's biggest selling points for business computing.

share|improve this answer
43  
+1 for mentioning the history – Sundeep May 13 '12 at 19:02
1  
I wonder where did you get this history from. This is very useful. – spiderman May 6 '14 at 14:36
1  
@prash - the basic facts are to be found in old textbooks. Like the first edition of Java in a Nutshell. – Stephen C May 29 '14 at 11:40
    
(@prash - Also ... by starting to use Java in the Java 1.1 era.) – Stephen C Oct 23 '15 at 22:43
    
@Stephen C ......oh Snap! + 1 for being a savvy veteran. – rjdamore May 24 at 16:13
  • A Callable needs to implement call() method while a Runnable needs to implement run() method.
  • A Callable can return a value but a Runnable cannot.
  • A Callable can throw checked exception but a Runnable cannot.
  • A Callable can be used with ExecutorService#invokeXXX methods but a Runnable cannot be.

    public interface Runnable {
        void run();
    }
    
    public interface Callable<V> {
        V call() throws Exception;
    }
    
share|improve this answer
4  
ExecutorService.submit(Runnable task) also exists and is very useful – Yair Kukielka May 29 '15 at 18:00

I found this in another blog that can explain it a little bit more these differences:

Though both the interfaces are implemented by the classes who wish to execute in a different thread of execution, but there are few differences between the two interface which are:

  • A Callable<V> instance returns a result of type V, whereas a Runnable instance doesn't.
  • A Callable<V> instance may throw checked exceptions, whereas a Runnable instance can't

The designers of Java felt a need of extending the capabilities of the Runnable interface, but they didn't want to affect the uses of the Runnable interface and probably that was the reason why they went for having a separate interface named Callable in Java 1.5 than changing the already existing Runnable.

share|improve this answer

Callable interface declares call() method and you need to provide generics as type of Object call() should return -

public interface Callable<V> {
    /**
     * Computes a result, or throws an exception if unable to do so.
     *
     * @return computed result
     * @throws Exception if unable to compute a result
     */
    V call() throws Exception;
}

Runnable on the other hand is interface that declares run() method that is called when you create a Thread with the runnable and call start() on it. You can also directly call run() but that just executes the run() method is same thread.

public interface Runnable {
    /**
     * When an object implementing interface <code>Runnable</code> is used 
     * to create a thread, starting the thread causes the object's 
     * <code>run</code> method to be called in that separately executing 
     * thread. 
     * <p>
     * The general contract of the method <code>run</code> is that it may 
     * take any action whatsoever.
     *
     * @see     java.lang.Thread#run()
     */
    public abstract void run();
}

To summarize few notable Difference are

  1. A Runnable object does not return a result whereas a Callable object returns a result.
  2. A Runnable object cannot throw a checked exception wheras a Callable object can throw an exception.
  3. The Runnable interface has been around since Java 1.0 whereas Callable was only introduced in Java 1.5.

Few similarities include

  1. Instances of the classes that implement Runnable or Callable interfaces are potentially executed by another thread.
  2. Instance of both Callable and Runnable interfaces can be executed by ExecutorService via submit() method.

Methods in ExecutorService interface are

<T> Future<T> submit(Callable<T> task);
Future<?> submit(Runnable task);
<T> Future<T> submit(Runnable task, T result);
share|improve this answer

Let us look at where one would use Runnable and Callable.

Runnable and Callable both run on a different thread than the calling thread. But Callable can return a value and Runnable cannot. So where does this really apply.

Runnable : If you have a fire and forget task then use Runnable. Put your code inside a Runnable and when the run() method is called, you can perform your task. The calling thread really does not care when you perform your task.

Callable : If you are trying to retrieve a value from a task, then use Callable. Now callable on its own will not do the job. You will need a Future that you wrap around your Callable and get your values on future.get (). Here the calling thread will be blocked till the Future comes back with results which in turn is waiting for Callable's call() method to execute.

So think about an interface to a target class where you have both Runnable and Callable wrapped methods defined. The calling class will randomly call your interface methods not knowing which is Runnable and which is Callable. The Runnable methods will execute asynchronously, till a Callable method is called. Here the calling class's thread will block since you are retrieving values from your target class.

NOTE : Inside your target class you can make the calls to Callable and Runnable on a single thread executor, making this mechanism similar to a serial dispatch queue. So as long as the caller calls your Runnable wrapped methods the calling thread will execute really fast without blocking. As soon as it calls a Callable wrapped in Future method it will have to block till all the other queued items are executed. Only then the method will return with values. This is a synchronization mechanism.

share|improve this answer

As it was already mentioned here Callable is relatively new interface and it was introduced as a part of concurrency package. Both Callable and Runnable can be used with executors. Class Thread (that implements Runnable itself) supports Runnable only.

You can still use Runnable with executors. The advantage of Callable that you can send it to executor and immediately get back Future result that will be updated when the execution is finished. The same may be implemented with Runnable, but in this case you have to manage the results yourself. For example you can create results queue that will hold all results. Other thread can wait on this queue and deal with results that arrive.

share|improve this answer
    
i wonder what is the example on a thread throwing exception out in java? will the main thread be able to catch that exception? If not, i wouldn't use Callable. Alex, do you have some insight on this? thanks! – trillions Mar 25 '14 at 9:04
1  
Code running in custom thread as any other code can throw exception. To catch it in other thread you have to perform some efforts either using custom notification mechanism (e.g. based on listeners) or by using Future or by adding hook that catches all uncought exceptions: docs.oracle.com/javase/6/docs/api/java/lang/… – AlexR Mar 25 '14 at 9:27
    
Great info! Thanks, Alex! :) – trillions Mar 25 '14 at 17:34
    
I upvoted this answer because it asserts (correctly if taken at face value) one must use the thread pool model with callable objects. The apparently unfortunate thing about this is that one cannot extend Thread to make meaningful use of the Callable interface so that a single thread can be customised to do callable things and other things the developer might want. If anyone who reads this comment thinks I am wrong, I'd like to know better... – Owen Thomas Oct 20 '15 at 3:06

The differences between Callable and Runnable & use cases to use each of them are clear from earlier answers.

I will provide more info on exception handling part.

I have a written a code to simulate "Arithmetic exception : divide by zero". If you submit the Callable and did not check the status of Future task (by calling get() method on Future), you will be misled with result of future task.

future.isDone() returns true even divide by zero exception has been encountered in Callable task.

These types of Exceptions are secretly caught by Framework.

Have a look at example code ( Without inspecting get() method on Future).

import java.util.concurrent.*;
import java.util.*;

public class CallableDemo{
    public CallableDemo(){
        System.out.println("creating service");
        ExecutorService service = Executors.newFixedThreadPool(10);

        List<MyCallable> futureList = new ArrayList<MyCallable>();
        for ( int i=0; i<12; i++){
            MyCallable myCallable = new MyCallable((long)i);
            futureList.add(myCallable);
        }
        System.out.println("Start");
        try{
            List<Future<Long>> futures = service.invokeAll(futureList);  
            for(Future<Long> future : futures){
                try{
                    System.out.println("future.isDone = " + future.isDone());
                    //System.out.println("future: call ="+future.get());
                }
                catch(Exception err1){
                    err1.printStackTrace();
                }
            }
        }catch(Exception err){
            err.printStackTrace();
        }
        service.shutdown();
    }
    public static void main(String args[]){
        CallableDemo demo = new CallableDemo();
    }
    class MyCallable implements Callable<Long>{
        Long id = 0L;
        public MyCallable(Long val){
            this.id = val;
        }
        public Long call(){
            int a=4, b = 0;
            System.out.println("a/b:"+(a/b));
            return id;
        }
    }
}

output:

java CallableDemo
creating service
Start
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true
future.isDone = true

Now uncomment the code from

//System.out.println("future: call ="+future.get());

to

System.out.println("future: call ="+future.get());

output:

java CallableDemo
creating service
Start
future.isDone = true
java.util.concurrent.ExecutionException: java.lang.ArithmeticException: / by zero
        at java.util.concurrent.FutureTask.report(FutureTask.java:122)
        at java.util.concurrent.FutureTask.get(FutureTask.java:188)
        at CallableDemo.<init>(CallableDemo.java:19)
        at CallableDemo.main(CallableDemo.java:27)
Caused by: java.lang.ArithmeticException: / by zero
        at CallableDemo$MyCallable.call(CallableDemo.java:36)
        at CallableDemo$MyCallable.call(CallableDemo.java:29)
        at java.util.concurrent.FutureTask.run(FutureTask.java:262)
        at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1145)
        at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:615)
        at java.lang.Thread.run(Thread.java:744)

The other ways of handling these type of exceptions are explained in :

Handling exceptions from Java ExecutorService tasks

Why is UncaughtExceptionHandler not called by ExecutorService?

share|improve this answer

protected by Aniket Thakur Feb 6 at 5:17

Thank you for your interest in this question. Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site (the association bonus does not count).

Would you like to answer one of these unanswered questions instead?

Not the answer you're looking for? Browse other questions tagged or ask your own question.