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According to the Java Language Sepecification, 3rd edition:

It is a compile-time error if a generic class is a direct or indirect subclass of Throwable.

I wish to understand why this decision has been made. What's wrong with generic exceptions?

(As far as I know, generics are simply compile-time syntactic sugar, and they will be translated to Object anyway in the .class files, so effectively declaring a generic class is as if everything in it was an Object. Please correct me if I'm wrong.)

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1  
Generic type arguments are replaced by the upper bound, which by default is Object. If you have something like List<? extends A>, then A is used in the class files. –  Torsten Marek Feb 1 '09 at 18:12
    
Thank you @Torsten. I didn't think of that case before. –  Hosam Aly Feb 1 '09 at 18:24
2  
It's a good interview question, this one. –  skaffman Jul 7 '09 at 13:57
    
@TorstenMarek: If one calls myList.get(i), obviously get still returns an Object. Does the compiler insert a cast to A in order to capture some of the constraint at runtime? If not, the OP is right that in the end it boils down to Objects at runtime. (The class file certainly contains metadata about A, but it's only metadata AFAIK.) –  Mihai Danila Jan 19 at 4:51

3 Answers 3

up vote 70 down vote accepted

As mark said, the types are not reifiable, which is a problem in the following case:

try {
   doSomeStuff();
} catch (SomeException<Integer> e) {
   // ignore that
} catch (SomeException<String> e) {
   crashAndBurn()
}

Both SomeException<Integer> and SomeException<String> are erased to the same type, there is no way for the JVM to distinguish the exception instances, and therefore no way to tell which catch block should be executed.

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2  
Thanks @Torsten. This is the clearest answer IMO. –  Hosam Aly Feb 1 '09 at 19:29
    
+1, I agree with Hosam –  JaredPar Feb 1 '09 at 22:26
1  
@aberrant80: simply speaking it means that you can get to the concret type at runtime. Which is not the fact in Java. –  Joachim Sauer Aug 17 '09 at 8:57
7  
So the rule should not be "generic types cannot subclass Throwable" but instead "catch clauses must always use raw types". –  Archie Apr 19 '11 at 16:39
2  
Oh, now I get it. My solution would cause problems with RuntimeExceptions, which don't have to be declared. So if SomeExc is a subclass of RuntimeException, I could throw and explicitly catch SomeExc<Integer>, but maybe some other function is silently throwing SomeExc<String> and my catch block for SomeExc<Integer> would accidentally catch that too. –  Viliam Búr Feb 14 '13 at 13:08

Here is a simple example of how to use the exception:

class IntegerExceptionTest {
  public static void main(String[] args) {
    try {
      throw new IntegerException(42);
    } catch (IntegerException e) {
      assert e.getValue() == 42;
    }
  }
}

The body of the TRy statement throws the exception with a given value, which is caught by the catch clause.

In contrast, the following definition of a new exception is prohibited, because it creates a parameterized type:

class ParametricException<T> extends Exception {  // compile-time error
  private final T value;
  public ParametricException(T value) { this.value = value; }
  public T getValue() { return value; }
}

An attempt to compile the above reports an error:

% javac ParametricException.java
ParametricException.java:1: a generic class may not extend
java.lang.Throwable
class ParametricException<T> extends Exception {  // compile-time error
                                     ^
1 error

This restriction is sensible because almost any attempt to catch such an exception must fail, because the type is not reifiable. One might expect a typical use of the exception to be something like the following:

class ParametricExceptionTest {
  public static void main(String[] args) {
    try {
      throw new ParametricException<Integer>(42);
    } catch (ParametricException<Integer> e) {  // compile-time error
      assert e.getValue()==42;
    }
  }
}

This is not permitted, because the type in the catch clause is not reifiable. At the time of this writing, the Sun compiler reports a cascade of syntax errors in such a case:

% javac ParametricExceptionTest.java
ParametricExceptionTest.java:5: <identifier> expected
    } catch (ParametricException<Integer> e) {
                                ^
ParametricExceptionTest.java:8: ')' expected
  }
  ^
ParametricExceptionTest.java:9: '}' expected
}
 ^
3 errors

Because exceptions cannot be parametric, the syntax is restricted so that the type must be written as an identifier, with no following parameter.

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What do you mean when you say 'reifiable'? 'reifiable' is not a word. –  ForYourOwnGood Feb 1 '09 at 18:53
    
I didn't know the word myself, but a quick search in google got me this: java.sun.com/docs/books/jls/third_edition/html/… –  Hosam Aly Feb 1 '09 at 19:04
    
Thank you @mark. –  Hosam Aly Feb 1 '09 at 19:30

I would expect that it's because there's no way to guarantee the parameterization. Consider the following code:

try
{
    doSomethingThatCanThrow();
}
catch (MyException<Foo> e)
{
    // handle it
}

As you note, parameterization is just syntactic sugar. However, the compiler tries to ensure that parameterization remains consistent across all references to an object in compilation scope. In the case of an exception, the compiler has no way to guarantee that MyException is only thrown from a scope that it is processing.

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Yes, but why isn't it flagged as "unsafe" then, as with casts for example? –  eljenso Feb 1 '09 at 19:17
    
Because with a cast, you are telling the compiler "I know that this execution path produces the expected result." With an exception, you can't say (for all possible exceptions) "I know where this was thrown." But, as I say above, it's a guess; I wasn't there. –  kdgregory Feb 1 '09 at 19:29
    
"I know that this execution path produces the expected result." You don't know, you hope so. That's why generic and downcasts are statically unsafe, but they are nevertheless allowed. I upvoted Torsten's answer, because there I see the problem. Here I don't. –  eljenso Feb 1 '09 at 20:04
    
If you don't know that an object is of a particular type, you shouldn't be casting it. The whole idea of a cast is that you have more knowledge than the compiler, and are making that knowledge explicitly part of the code. –  kdgregory Feb 1 '09 at 22:02
    
Yes, and here you may have more knowledge than the compiler as well, since you want to do an unchecked conversion from MyException to MyException<Foo>. Maybe you "know" it will be a MyException<Foo>. –  eljenso Feb 1 '09 at 22:31

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