Checked exceptions are intended for use in situations where a method may expect its caller to be prepared to deal with certain problems that may arise. If callers of
BaseFoo.Bar() are not required to deal with a
FnordException, then method
DerivedFoo.Bar() cannot expect its callers to deal with a
FnordException either (since many of its callers will be the same ones that were unprepared to have
BaseFoo.Bar() throw it).
Conceptually, that's great. In practice, not so much. The problem is that the design of checked exceptions in the language assumes that either no callers will be prepared to deal gracefully with a particular problem, or all callers will be prepared to deal with it. The normal state of affairs in practice is for callers to be unprepared to deal with exceptions--even those that some callers might be able to handle. Most of the time, the proper course of action when code receives a checked exception it's not explicitly expecting would be to wrap it in an unchecked exception and throw that. Ironically, the easiest course of action--adding a "throws" clause and letting the checked exception bubble up, is probably the one which is least likely to be correct. While there are a few cases (e.g.
IOException) where such behavior would make sense (e.g. when trying to read a collection from a file, an I/O error while reading one item is an I/O error while reading the collection), an exception thrown from within a nested method call will represent a different condition than will an exception of the same type thrown by the outer method, and code which would be prepared to handle the latter may not be prepared to handle the former.
In your situation, your best bet may be to catch
IOException and wrap it in some other type that derives from
RuntimeException, being aware that your callers are unlikely to be able to handle it.