It means exactly that. If you are expecting code you're running to throw an exception, and when that exception is thrown your code knows what went wrong and how to proceed, then catch the exception and handle it.
Basically, the rule exists to prevent anti-patterns like:
The catch here does nothing but add a speed bump to unwinding the call stack. If you don't actually want to anything with the exception you're catching, you shouldn't even bother with the catch.
A related but far more valid case is where you don't care about the exception being thrown, but you need to clean up in all cases. In that case, skip the catch; you don't need it, just make it a try-finally block.
EDIT: To answer the question in the post, not just the subject, you could write a rule as follows: "Do not code a try-catch statement that does not do anything, or only rethrows the caught exception. All catch statements should perform some value-added action relating to the thrown exception."
For example, let's say you are trying to connect to a SQL Server instance using credentials supplied by the user when they log into your app. Dozens of things could go wrong, some of which you can't expect, some of which you should.
- Server isn't responding - you can try again; perhaps call the connection method recursively in the catch, with a "retry counter" to break the otherwise infinite loop.
- User failed authentication - show a friendly (or not-so-friendly, but concise and understandable) message in red on the dialog box.
- User not authorized to connect to the specified DB - Depends on your security setup; in most offices, that's something you should e-mail the DBA about, because it means he created the login but forgot to assign the proper rights.
- Network not available: You can alert the user through an error on the login dialog or a new dialog, retry a couple times, etc.
- Division by zero - WTF? What could possibly cause a Div by Zero during a login? You're not expecting this exception, you have no clue what went wrong in this case and therefore can't continue running code, so don't catch it.
- If anything goes wrong, you may want to log the message to a file or a shared resource for audit/security purposes. This should happen at lower levels if you want to continue execution, or higher levels if you're going to gracefully shut down afterward.
All of these examples involve first catching an exception of a known type and interrogating it to see what exactly went wrong, then performing some known action that can allow the program to continue execution. The object is to prevent the application from crashing and burning when something goes wrong that you know could go wrong, but know how to keep the program running in that case.
The basic rules for catching exceptions:
- If you aren't expecting an exception, don't catch one.
- If you can't or don't want to continue execution of code after receiving an exception, whether you know it can happen or not, don't catch it.
- If you are expecting the exception to occur, and know how to continue executing code when it happens (at least for a while), then catch and perform any special actions you need in order to do so.
- NEVER trap exceptions (an empty catch block); that causes applications to fail silently in even more unpredictable ways.
- NEVER leave catch-and-rethrow (a catch block with only a rethrow) in production code. They can sometimes be useful when debugging as they allow you to identify specific segments of code that are failing, but in production code they're just a speed bump to throwing out or actually dealing with the exception.