There is no generic runtime solution to this. As Joachim notes, if you simply try to repaint there is a good chance that the repaint will trigger the same exception, and your user interface will lock up.
The best approach is to find out what causes the exceptions and fix your code so that either the root cause of the exceptions is removed, or the painting code takes the appropriate action to avoid the problem. (The second alternative only applies if the painting code is your code ...)
What if I am using a library that fails at rendering due to its bad coding or whatever?
You fix the library, or implement some kind of workaround that avoids the scenario that triggers the library failure (if that is possible). And if that doesn't work you replace the library with an alternative that works properly.
What if rendering fails for unknown reasons (that cannot be figured)?
Then you have a major problem. If you can't figure out what is triggering the failure you won't be able to figure out a reliable remedy. You are left with questionable / unreliable remedies ... and your application is likely to be unreliable.
I would like to know what to do when all other systems of protection fail.
There is no way to build a reliable system from unreliable components if you cannot properly characterize the nature and/or cause of the unreliability.
It should also be noted that a lot of "random unreliability" in Java applications is due to inadequate synchronization; i.e. where one thread is updating some object or data structure while another thread might be trying to read it. And most GUI-based applications are inherently multi-threaded. If you have a library that appears to be unreliable, it could be that the real problem is that your application-level code is not synchronizing properly.