If a class implements an interface, how should it handle the situations where either
- In the execution of a method or property, an internal error occurs which is of a type which a caller might reasonably be expecting to handle, but which a caller perhaps should not. For example, IDictionary.Add does something internally which yields an ArgumentException under circumstances which would imply that the dictionary is corrupt, but would not imply anything bad about the rest of the system? Or they imply that something is corrupted beyond the dictionary? A caller may be expecting to catch and handle the fact that a duplicate key exists in the dictionary, since in some cases the exception may be Vexing (e.g. the same code may be used for a Dictionary that's not accessed by other threads and for a ConcurrentDictionary which is, and the semantics would be workable if an attempt to add a duplicate record caused a clean failure). Letting an ArgumentException percolate would lead a caller to believe that the dictionary is in the same state as if the add never occurred, which could be dangerous, but throwing some other exception type would seem confusing.
- In the execution of a method or property, an exception occurs which the caller maybe should or shouldn't handle, and the definition of the interface doesn't provide any hint that any even-remotely-related exception might occur. For example, suppose something goes wrong in the evaluation of IEnumerator, either implying (1) the enumerator got corrupted (possibly by unexpected action on another thread) but retrying the enumeration might succeed; (2) the enumerable object itself is probably corrupted or unusable, but everything else in the system is probably okay (e.g. a lazily-evaluated file parsing routine hit an invalid record); (3) something beyond the enumerable object has been corrupted. IEnumerable only has one defined exception it can throw, but a caller may want to vary its action based upon the 'severity' of the exception.
BTW, one pattern I've not seen implemented, but would seem useful, would be for methods to accept a delegate parameter to be executed in case the method fails in a way that would cause a "try" method to return false. Such a delegate, supplied by the caller, could then not only throw an exception which the recipient would know to look for, but could also set a flag that was otherwise available only to the caller. The caller could thus know that the exception being caught was indeed the one expected.