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Trail: Essential Java Classes
Lesson: Handling Errors with Exceptions

The catch Block(s)

As you learned on the previous page, the try statement defines the scope of its associated exception handlers. You associate exception handlers with a try statement by providing one or more catch blocks directly after the try block:
try {
    . . . 
} catch ( . . . ) {
    . . . 
} catch ( . . . ) {
    . . . 
} . . . 
There can be no intervening code between the end of the try statement and the beginning of the first catch statement. The general form of Java's catch statement is:
catch (SomeThrowableObject variableName) {
    Java statements
}
As you can see, the catch statement requires a single formal argument. The argument to the catch statement looks like an argument declaration for a method. The argument type, SomeThrowableObject, declares the type of exception that the handler can handle and must be the name of a class that inherits from the Throwable(in the API reference documentation) class defined in the java.lang(in the API reference documentation) package. When Java programs throw an exception they are really just throwing an object, and only objects that derive from Throwable can be thrown. You'll learn more about throwing exceptions in How to Throw Exceptions.

variableName is the name by which the handler can refer to the exception caught by the handler. For example, the exception handlers for the writeList method (shown later) each call the exception's getMessage method using the exception's declared name e:

e.getMessage()
You access the instance variables and methods of exceptions in the same manner that you access the instance variables and methods of other objects. getMessage is a method provided by the Throwable class that prints additional information about the error that occurred. The Throwable class also implements two methods for filling in and printing the contents of the execution stack when the exception occurred. Subclasses of Throwable can add other methods or instance variables. To find out what methods an exception implements, check its class definition and definitions for any of its ancestor classes.

The catch block contains a series of legal Java statements. These statements are executed if and when the exception handler is invoked. The runtime system invokes the exception handler when the handler is the first one in the call stack whose type matches that of the exception thrown.

The writeList method from the ListOfNumbers(in a .java source file) class uses two exception handlers for its try statement, with one handler for each of the two types of exceptions that can be thrown within the try block -- ArrayIndexOutOfBoundsException and IOException.

try {
    . . . 
} catch (ArrayIndexOutOfBoundsException e) {
    System.err.println("Caught ArrayIndexOutOfBoundsException: " +
		        e.getMessage());
} catch (IOException e) {
    System.err.println("Caught IOException: " +
		        e.getMessage());
}

Catching Multiple Exception Types with One Handler

The two exception handlers used by the writeList method are very specialized. Each handles only one type of exception. The Java language allows you to write general exception handlers that handle multiple types of exceptions.

As you know, Java exceptions are Throwable objects; they are instances of Throwable or a subclass of Throwable. The Java packages contain numerous classes that derive from Throwable and thus, build a hierarchy of Throwable classes.

Your exception handler can be written to handle any class that inherits from Throwable. If you write a handler for a "leaf" class (a class with no subclasses), you've written a specialized handler: it will only handle exceptions of that specific type. If you write a handler for a "node" class (a class with subclasses), you've written a general handler: it will handle any exception whose type is the node class or any of its subclasses.

Let's modify the writeList method once again. Only this time, let's write it so that it handles both IOExceptions and ArrayIndexOutOfBoundsExceptions. The closest common ancester of IOException and ArrayIndexOutOfBoundsException is the Exception class. An exception handler that handles both types of exceptions looks like this:

try {
    . . .
} catch (Exception e) {
    System.err.println("Exception caught: " + e.getMessage());
}
The class is pretty high in the Throwable class hierarchy. So in addition to the IOException and ArrayIndexOutOfBoundsException types that this exception handler is intended to catch, it will catch numerous other types. Generally speaking, your exception handlers should be more specialized. Handlers that can catch most or all exceptions are typically useless for error recovery because the handler has to determine what type of exception occurred anyway to determine the best recovery strategy. Also, exception handlers that are too general can make code more error prone by catching and handling exceptions that weren't anticipated by the programmer and for which the handler was not intended.

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