13

The Oracle documentation on the multi-catch feature added to Java 7 states that the exception parameter in the catch clause is implicitly final.

My question is: what's the point of such restriction? Because i can't seem to find a single crucial improvement it brings. Marking a reference object as final only protects the reference itself from being modified, not the object it references, and one is never prohibited to create another reference and modify it in whatever way they want.

A somewhat relevant question on SO discusses the reasons why modifying the exception reference in a catch clause is not the wisest thing to do, but it relates to any use of the catch clause, not just the multi-catch form of it. So why does Java make an, ahem, exception for the multi-catch and treat it in a special way?

7
  • Not much you can typically assign to a variable with a type union. – Sotirios Delimanolis Feb 18 '15 at 15:35
  • I assume it has to do with the fact, that the type is not clear in the multi-catch. – Mnementh Feb 18 '15 at 15:37
  • 1
    This answer in the question you've linked gives an explanation. – Sotirios Delimanolis Feb 18 '15 at 15:40
  • @SotiriosDelimanolis, if by the explanation you mean the phrase " There's not a lot of point in debating the apparent inconsistencies ... unless you are intending to design and implement a new language", then i beg to differ. Knowing the logic behind a certain language construct helps understanding the language designers' way of thinking, which helps using the language in a more proper and idiomatic way. – Semisonic Feb 18 '15 at 15:45
  • No, this On the other hand, allowing modification in the multi-exception catch would introduces the possibility of truly bizarre and confusing code such as this:. – Sotirios Delimanolis Feb 18 '15 at 15:45
21

In the uni-catch clause, you are free to re-assign the exception object. For example, this works fine:

try {
    ... // code that can throw IOException or some user-defined ParserException
} catch(IOException) {
    e = new IOException();  // this is acceptable (although there is no point in doing it)
    e.printStackTrace();
}

The compiler knows for sure that the thrown object is of type IOException. However, in the multi-catch clause, you can have something like:

try {
    ... // code that can throw IOException or some user-defined ParserException
} catch(IOException | ParserException e) {
    e = new IOException(); // this is NOT acceptable -- e may reference a ParserException
    e.printStackTrace();
}

In this case, the compiler has no idea which type the exception is at compile-time, so assigning a new IOException to a variable that can reference either an IOException or ParseException should not be allowed. Added to that is the lack of use-cases for assigning to the exception variable in the first place. Therefore it makes perfect sense to make the variable implicitly final and avoid all of this confusion. If you really need to assign to the variable, you can switching to the old way of writing sequence of catch blocks.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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