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I'm trying to understand how to properly define interfaces in Java with respect to how exceptions are treated in the language (and runtime).

NOTE: Perhaps this question has already been asked and adequately answered, but my search of SO (and other sites) didn't turn up anything that directly addressed the design question and the trade-offs I present. I'll happily delete this question if an analogous one can be found that answers my question. I apologize in advance for the long-winded question, but I wanted to state the problem as clearly as possible. I'm also aware of the controversy around checked exceptions, but since I am not in a position to change the language and must still work within it, I'd like to select the approach(es) that will cause the least pain in the long term.

The recurring problem I encounter is when I try to define my own interfaces I am faced with the choice of how to specify which (if any) exceptions are allowed to the members of the interface. The trouble is that I have no way of knowing which exceptions are meaningful, since I don't know ahead of time what all of the possible implementations for my interface might be. For the sake of an example, suppose we have the following interface:

// purely hypothetical interface meant to illustrate the example...
public interface SegmentPartition {
    // option 1
    bool hasSegment(Segment s);
    // option 2
    void addSegment(Segment s) throws Exception;
    // option 3
    bool tryAddSegment(Segment s) throws TimeoutException, IOException, ParseException, XmlException, SQLException;
    // option 4
    void optimizeSegments() throws SegmentPartitionException;

What exception types should this interface declare upfront? The options I see are:

  1. don't declare any exception, implementations can only throw RuntimeException's
  2. declare each method as throwing Exception
  3. try to anticipate every possible exception type that makes sense for this interface and declare them as the throwable exceptions.
  4. create my own exception type (e.g. SegmentException) and require that it be thrown with an inner exception as needed for additional detail.

There are problem with each of these approaches, and it's not entirely clear what all of the tradeoffs are likely to be, I've mentioned a few for each case. Ideally, I don't want any exceptions to be thrown by the implementation, but that's not always a practical restriction.

For option 1, the trouble is that many of the exception types that may be thrown are not derived from RuntimeException (for instance IOException or TimeoutException). I could, of course, add these specific exceptions to the interface and then allow other RuntimeExceptions to be thrown as well, but what about user-defined exceptions then? This seems like a poor option.

With option 2 we end up with an interface that seems like it could result in any exception whatsoever (which I suppose is true), and provides no guidance to implementors on what should actually be thrown. The interface is no longer self documenting. Worse yet, every call site of this interface must either be declared as throwing Exception or wrap each call to methods of this interface in try{} catch(Exception), or create a block that catches Exception and tries to suss out whether it was thrown by the interface implementation or something else in that block. Yuck. Alternatively, the code that uses this interface could catch the specific exceptions that the implementations might throw, but then it violates the purpose of having an interface to begin with (in that it requires the caller to know the runtime type of the implementation). In practice, this is the option closest to what most other languages I know take with regards to exceptions (C++, C#, Scala, etc).

With option 3 I must specifically anticipate the potential implementations that could be defined for my interface, and declare the exceptions most appropriate for them. So if I anticipate that my interface may be implemented over a remote, unreliable connection I would add TimeoutException, if I anticipate it may be implemented using external storage I would include IOException, and so on. I am almost certainly likely to get it wrong ... which means that I am going to continually churn the interface as new implementation paradigms surface (which, of course, breaks all existing implementations and requires them to declare non-sensical exceptions as being thrown). A further problem with this approach is that results in ugly, repetitive code ... particularly for large interfaces with many methods (yes, sometimes these are needed) which then need to be repeated at each implementation point.

With option 4 I must create my own exception type, together with all of the baggage that accompanies that (serializability, nesting and inner exceptions, coming up with a reasonable hierarchy, etc). What seems to inevitably happen here is that you end up with one exception type for each interface type: InterfaceFoo + InterfaceFooException. Aside from the code bloat this entails, the real problem is that the exception type doesn't mean anything ... it's just a type used to bundle together all of the error conditions for the particular interface. In some cases, perhaps, you can create a few subclasses of the exception type to indicate particular modes of failure, but even that is questionable.

So what is the right thing to do here, in general? I realize there may not be a cut and dry rule, but I'm curious about what experienced Java developers choose do.

Thanks SO.

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I'd advise against throws Exception whenever possible. If you don't know what should be thrown and handled, declare nothing at all, and let the implementations throw runtime exceptions. These should be appropriately documented for all implementations. –  afsantos Nov 30 '13 at 20:31
So what should implementors do if they need to throw TimeoutException (which is NOT a runtime exception)? –  LBushkin Nov 30 '13 at 20:34
The context is relevant. If you know what the implementations might do, you can predict some specific exceptions to be thrown. These should make sense at the interface level. It makes sense that a method related to sockets or files throw an IOException, for instance. If you really can't predict what the implementations might do, roll your own exception type, in order to wrap these core checked exceptions. That's what I'd do, in general. –  afsantos Nov 30 '13 at 20:38
Could you elaborate on why you advise against throws Exception? Here's an example where it feels like it would be the best option: public interface IPredicate<T> { bool apply(T item) throws Exception; } If you don't use throws Exception then using IPredicate as an anonymous inner class becomes more painful than it already is. –  LBushkin Nov 30 '13 at 20:42
Throwing exception from an IPredicate is imho diametrically to the common purpose of that interface. It should establish a two valued logic - either an item satisfies the condition or not. Adding throws Exception changes that into the dreaded three valued logic - an item satisfies the condition, does not satisfy it or you do not know whether it does or not. I would say that is a bad design. –  Pyranja Nov 30 '13 at 21:23

4 Answers 4

Having throws Exception (it it's a checked exception) in an interface means you know under what condition such a checked exception should be thrown. That means that interface already has some knowledge of its implementation. Which should not be the case. Therefore I would go against any throws Exception in an interface. If an interface throws a checked Exception I would suggest simplifying it leaving exception logic to the implementation(s).

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@LBuskin the reason to have throws Exception is to save the implementor the boilerplate of catching and converting things to some RuntimeException subclass in the situation where that adds no value. Basically, if the calling context is going to have to cope with "whatever the implementation throws back at it", then forcing the impl to catch and re-encapsulate everything isn't adding any value. Runner frameworks are an example of this. I.e., framework that runs components which can have very widely ranging behavior. –  user1645765 Apr 15 at 19:35

A possible simple answer is - one should declare those exceptions which can be and typically will be processed during execution - i.e. to propagate, log or quit after an exception. Apart from an being error, I think that an exception is an unconditionally returned result type.

If the interface will be used internally, i.e. in a database, one possible way is to throw those exceptions that you specifically will/are processing.

If it's a public library, i.e. ExecutorService, some deep analysis can be required.

Example - JavaDoc from ExecutorService:

 * ...
 * @return the result returned by one of the tasks
 * @throws InterruptedException if interrupted while waiting
 * @throws TimeoutException if the given timeout elapses before
 *         any task successfully completes
 * @throws ExecutionException if no task successfully completes
 * @throws RejectedExecutionException if tasks cannot be scheduled
 *         for execution
<T> T invokeAny(Collection<? extends Callable<T>> tasks,
                long timeout, TimeUnit unit)
    throws InterruptedException, ExecutionException, TimeoutException;

All these exceptions are domain-specific and one can may decisions based on their general meaning. So you can actually guess what they mean in the context of invokeAny method given only this method's description.

This means that a couple of prototype implementations can be required to understand what your domain is, what are the typical use cases and which typical errors can be thrown. I don't know how Java libraries were designed, in my case I do many refactorings for my prototype implementations and by doing this I understand the domain.

Some more points:

  • Java's libraries document runtime exception which can be thrown, so it's perfectly fine to have them.
  • Thus, implementing classes can throw a domain specific runtime exception if you forget one of the cases.
  • One may document to wrap undeclared exceptions into one of the returned type exceptions, i.e. into ExecutionException - this is how it's done for java.util.concurrent.
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Try a mixture of option's 1 and 4.

  1. Declare your own SegmentException that extends RuntimeException.
  2. Add an ErrorCode interface to SegmentException.
  3. Implement ErrorCode with an enum, listing your known/expected errors (NOT_FOUND, INVALID, TOO_MANY, etc.).

The benefits are:

  1. A clean interface.
  2. Non-runtime exceptions can be nested inside SegmentException
  3. Implementers can create their own enum error codes

You can read the expanded details on my blog:

6 Tips to Improve Your Exception Handling

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In general? In my experience given the complexities of an engineering issue, and given the options available in a given engineering context, the answer of greatest expeditious value is given highest priority.

Elegance is a question of opinion. However it seems most elegant to me to throw an custom SegmentException on add (if that's a possibility), and to try and minimize the possibility of Exception(s) in general.

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