I would suggest that in many cases, exceptions could be most usefully handled by reducing them to three types:
- The operation could not be completed, but the local and global system state is okay except to the extent implied by that failure (e.g. trying to reference a non-existent item in a Dictionary).
- The operation could not be completed, and the local system state is corrupt (e.g. trying to reference an item from a corrupted Dictionary).
- The operation could not be completed, and the global system state is corrupt (e.g. a shared cache got corrupted).
Note that in many cases the caller of a routine won't be nearly as interested in why it failed as in what the failure implies about the state of the system. Exceptions of the first type may generally be safely caught, and execution resumed, if the programmer knows why they might occur and what to do about them. In some cases, they may need to be rethrown as exceptions of the second type (e.g. if the system was unable to perform some operation which would be necessary to maintain consistency in a data structure). Those of the second type should only be caught and rethrown as the first type at a level where the corrupt state is going to be abandoned (e.g. a "Load document" routine might catch such exceptions and rethrow as a "state ok" exception if any corrupt data structures used in the failed attempt to load a document are going to be jettisoned). Those of the third type should generally trigger a program shut down.
To be sure, it may be useful to have some gradations between the different types (e.g. indicating a global problem sufficient that the program should be shut down gently, saving user data, versus indicating that things are so bad that attempting to save user data would corrupt things worse). Nonetheless, catching exceptions and rethrowing one that indicates something about the system state may be nicer than simply leaving higher levels of the code to wonder what to do with an InvalidArgumentException.