You can suppress the warning, but if you do so, you are relying 100% on the third-party library, and discarding the assurance of Java generic types: that any
ClassCastException raised at runtime will occur right at an explicit cast.
Our coding standard is to suppress warnings only when we can prove the code is type safe—and we treat any calls outside the package as a black box, and don't rely on any comments about the content of a raw collection. So, suppression is extremely rare. Usually, if the code is type safe, the compiler can determine it, although sometimes we have to give it some help. The few exceptions involve arrays of generic type that don't "escape" from a private context.
If you don't fully trust the third-party library, create a new collection, and add the contents after casting them to
OMEElementImpl. That way, if there is a bug in the library, you find out about it right away, rather than having some code far distant in time and space blow up with a
Iterator<?> tmp = detail.getChildElements();
Collection<OMElementImpl> elements = new ArrayList<OMElementImpl>();
elements.add((OMElementImpl) tmp.next()); /* Any type errors found here! */
String innerText = getException(elements.iterator());
Remember, generics were not invented to make code look pretty and require less typing! The promise of generics is this: Your code is guaranteed to be type-safe if it compiles without warnings. That is it. When warnings are ignored or suppressed, code without a cast operator can mysteriously raise a
Update: In this case, especially, it seems extremely risky to assume that the result of
getChildElements is a iterator of
OMElementImpl. At best, you might assume that they are
OMElement, and that's only implied from the class, not anything on the method in particular.