What is the best way to handle an ExecutionException?
I have a method that performs some task with a timeout. I use the ExecutorServer.submit() to get a Future object, and then I call future.get() with a timeout. This is working fine, but my question is the best way to handle checked exceptions that can be thrown by my task. The following code works, and preserves the checked exceptions, but it seems extremely clumsy and prone to break if the list of checked exceptions in the method signature changes.
Any suggestions on how to fix this? I need to target Java 5, but I'd also be curious to know if there are good solutions in newer versions of Java.
public static byte[] doSomethingWithTimeout( int timeout ) throws ProcessExecutionException, InterruptedException, IOException, TimeoutException {
Callable<byte[]> callable = new Callable<byte[]>() {
public byte[] call() throws IOException, InterruptedException, ProcessExecutionException {
//Do some work that could throw one of these exceptions
return null;
}
};
try {
ExecutorService service = Executors.newSingleThreadExecutor();
try {
Future<byte[]> future = service.submit( callable );
return future.get( timeout, TimeUnit.MILLISECONDS );
} finally {
service.shutdown();
}
} catch( Throwable t ) { //Exception handling of nested exceptions is painfully clumsy in Java
if( t instanceof ExecutionException ) {
t = t.getCause();
}
if( t instanceof ProcessExecutionException ) {
throw (ProcessExecutionException)t;
} else if( t instanceof InterruptedException ) {
throw (InterruptedException)t;
} else if( t instanceof IOException ) {
throw (IOException)t;
} else if( t instanceof TimeoutException ) {
throw (TimeoutException)t;
} else if( t instanceof Error ) {
throw (Error)t;
} else if( t instanceof RuntimeException) {
throw (RuntimeException)t;
} else {
throw new RuntimeException( t );
}
}
}
=== UPDATE ===
Many people posted responses that recommended either 1) re-throwing as a general exception, or 2) re-throw as an unchecked exception. I don't want to do either of these, because these exception types (ProcessExecutionException, InterruptedException, IOException, TimeoutException) are important - they will each be handled differently by the calling processed. If I were not needing a timeout feature, then I would want my method to throw these 4 specific exception types (well, except for TimeoutException). I don't think that adding a timeout feature should change my method signature to throw a generic Exception type.
I've looked at this problem in depth, and it's a mess. There is no easy answer in Java 5, nor in 6 or 7. In addition to the clumsiness, verbosity and fragility that you point out, your solution actually has the problem that the ExecutionException
that you are stripping off when you call getCause()
actually contains most of the important stack trace information!
That is, all the stack information of the thread executing the method in the code you presented is only in the ExcecutionException, and not in the nested causes, which only cover frames starting at call()
in the Callable. That is, your doSomethingWithTimeout
method won't even appear in the stack traces of the exceptions you are throwing here! You'll only get the disembodied stack from the executor. This is because the ExecutionException
is the only one that was created on the calling thread (see FutureTask.get()
).
The only solution I know is complicated. A lot of the problem originates with the liberal exception specification of Callable
- throws Exception
. You can define new variants of Callable
which specify exactly which exceptions they throw, such as:
public interface Callable1<T,X extends Exception> extends Callable<T> {
@Override
T call() throws X;
}
This allows methods which executes callables to have a more precise throws
clause. If you want to support signatures with up to N exceptions, you'll need N variants of this interface, unfortunately.
Now you can write a wrapper around the JDK Executor
which takes the enhanced Callable, and returns an enhanced Future
, something like guava's CheckedFuture. The checked exception type(s) are propagated at compile time from the creation and type of the ExecutorService
, to the returned Future
s, and end up on the getChecked
method on the future.
That's how you thread the compile-time type safety through. This means that rather than calling:
Future.get() throws InterruptedException, ExecutionException;
You can call:
CheckedFuture.getChecked() throws InterruptedException, ProcessExecutionException, IOException
So the unwrapping problem is avoided - your method immediately throws the exceptions of the required type and they are available and checked at compile time.
Inside getChecked
, however you still need to solve the "missing cause" unwrapping problem described above. You can do this by stitching the current stack (of the calling thread) onto the stack of the thrown exception. This a stretching the usual use of a stack trace in Java, since a single stack stretches across threads, but it works and is easy to understand once you know what is going on.
Another option is to create another exception of the same thing as the one being thrown, and set the original as the cause of the new one. You'll get the full stack trace, and the cause relationship will be the same as how it works with ExecutionException
- but you'll have the right type of exception. You'll need to use reflection, however, and is not guaranteed to work, e.g., for objects with no constructor having the usual parameters.
Here's what I do in this situation. This accomplishes the following:
- Re-throws checked exceptions without wrapping them
- Glues together the stack traces
Code:
public <V> V waitForThingToComplete(Future<V> future) {
boolean interrupted = false;
try {
while (true) {
try {
return future.get();
} catch (InterruptedException e) {
interrupted = true;
}
}
} catch (ExecutionException e) {
final Throwable cause = e.getCause();
this.prependCurrentStackTrace(cause);
throw this.<RuntimeException>maskException(cause);
} catch (CancellationException e) {
throw new RuntimeException("operation was canceled", e);
} finally {
if (interrupted)
Thread.currentThread().interrupt();
}
}
// Prepend stack frames from the current thread onto exception trace
private void prependCurrentStackTrace(Throwable t) {
final StackTraceElement[] innerFrames = t.getStackTrace();
final StackTraceElement[] outerFrames = new Throwable().getStackTrace();
final StackTraceElement[] frames = new StackTraceElement[innerFrames.length + outerFrames.length];
System.arraycopy(innerFrames, 0, frames, 0, innerFrames.length);
frames[innerFrames.length] = new StackTraceElement(this.getClass().getName(),
"<placeholder>", "Changed Threads", -1);
for (int i = 1; i < outerFrames.length; i++)
frames[innerFrames.length + i] = outerFrames[i];
t.setStackTrace(frames);
}
// Checked exception masker
@SuppressWarnings("unchecked")
private <T extends Throwable> T maskException(Throwable t) throws T {
throw (T)t;
}
Seems to work.
Here are couple of interesting information for checked and against Checked Exceptions. Brian Goetz discussion and an argument of against checked exceptions from Eckel Discussion. But I did not know if you have already implemented and given a thought about the checked exception refactor that is discussed by Joshua in this book.
According the Effective Java pearls, one of the preferred method of handling Checked exceptions is to turn a checked exception into an Un-Checked Exception. So for example,
try{
obj.someAction()
}catch(CheckedException excep){
}
change this implementation to
if(obj.canThisOperationBeperformed){
obj.someAction()
}else{
// Handle the required Exception.
}
I'm afraid there's no answer to your problem. Basically, you are launching a task in a different thread than the one you are in, and want to use the ExecutorService pattern to catch all the exceptions that task can throw, plus the bonus of interrupting that task after a certain amount of time. Your approach is the right one : you couldnt do that with a bare Runnable.
And this exception, that you have no information about, you want to throw it again, with a certain type : ProcessExecutionException, InterruptedException or IOException. If it's another type, you want to rethrow it as a RuntimeException (which is btw not the best solution, since you dont cover all the cases).
So you have an impendance mismatch there : a Throwable on one hand, and a known exception type on the other. The only solution you have to solve it is to do what you've done : check the type, and throw it again with a cast. It can be written differently, but will look the same in the end...