I'm finding myself busy refactoring my pet project and removing all the noise associated with exception throwing declarations. Basically, everything that violates a condition is assertion violation or, formally, AssertionError, which in Java is generously allowed to be omitted from method's signature. My question is: what is the point of having Exceptions hierarchy? My experience is that each and every exception is unique, and there is no formal criteria to establish that one set of exceptions is a subset of the other. Even distinction between checked and unchecked exceptions is fuzzy, why, for example, would I insist on the client code catching exception when a lazy (or impatient) programmer can easily wrap it into RuntimeException and rethrow it on me?
I don't think the hierarchy is bad, it just isn't too useful. 99% of the time, an exception signals that something very bad has happened and my options are few. We're basically dead. The only choice is the selection of an appropriate error message to display to the users.
I'm one of those lazy programmers. If I call a 'processFile()' method from the bowels of my code and it throws an exception, I'll probably formulate a "Your file could not be processed" message and rethrow a RuntimeException. We can't recover. We are an ex-program. We Are No More. There's nothing to be gained in junking up the code by tacking a checked exception to every method in the call stack.
Invariably, I code something like this:
Now the RuntimeException rattles all the way to the main method and is handled responsibly.
At the top of the code, I catch all exceptions, log as appropriate, generally roll back the transaction, and do what's needed to display the customer-friendly error message.
I like the distinction between checked and unchecked exceptions though I can't say why as I think about it. IntelliJ will automatically fill in several exception catch blocks. I think 'hmm that's interesting' and replace them with a single
The only time I can think of where I handle specific exceptions is when I call a method that improperly throws an exception instead of returning an error condition.
In theory the Java exception hierarchy makes a certain amount of sense:
Now the theory behind these actually makes a certain amount of sense. (The actual implementation leaves something to be desired because of accumulated cruft, sadly.)
So does this hierarchy make sense? Well, at some level it seems to.
That last item is the problem. Checked exceptions are, to put it bluntly, a serious pain in the lower reaches of the torso's anatomy. They needlessly clutter up the code with exception handling boilerplate in such a way as to render, in my opinion (and many others' I might add!), the whole point of exceptions moot: separation of error detection and error handling. By forcing every method in the chain to handle the exception—even if it's just to rewrap it and pass it on!—the code gets cluttered with minutiae of error handling to the point that it is little better than returning status codes and handling them after each method call.
Were Java a smarter programming language the checked exceptions would be checked at compile/link time to see if they were properly handled system-wide, not at each and every method call in each and every class file. Unfortunately Java's entire architecture doesn't permit this level of whole-program analysis and the result is, again in my opinion (but again shared by many), actually a blend of the worst of the two worlds of exception handling and error returns: you get most of the boilerplate scaffolding of explicit error returns but you also get the
"My experience is that each and every exception is unique, and there is no formal criteria to establish that one set of exceptions is a subset of the other. Even distinction between checked and unchecked exceptions is fuzzy, why, for example, would I insist on the client code catching exception when a lazy (or impatient) programmer can easily wrap it into RuntimeException and rethrow it on me?"
All of that is correct.
Like Joel Spolsky once put it : "design is the art of making choices". And thus, designing an exceptions hierarchy involves making choices. Sometimes they work out pretty well, sometimes they don't.
One advantage [of having exceptions hierarchies] I see is that by catching a supertype-exception, you catch a whole host of exception types with a single catch clause. Is that always what the user wants ? Definitely not. Can the user escape from it in those (and only those) cases where it is not what he wants ? Definitely yes. Is the alternative of not having supertype-exceptions at all better ? Imo definitely not. Take a look at the IOException hierarchy and imagine having to write a catch clause for each and every one of its children, in each and every place where they can arise ...
Even with all the arguable disadvantages that are, by this time, pretty well known, I still believe Java's exception handling mechanism beats any other I've ever seen.