...breaks m[y] OOP goal of the user not needing to know about the underlying objects.
Throwing the same exception does nothing for encapsulation. Either your (implied/documented - since we don't have checked exceptions or DbC) contract states that you'll throw an
ArgumentOutOfRange exception in this case or not. How that exception is generated, and what it's stack trace looks like is irrelevant to a caller.
If you move your internal implementation to something that doesn't throw an ArgumentOutOfRange exception, then you'll need to throw one yourself to fulfill your contract (or do a breaking change to the contract).
Stack traces (and the param name) is for the guy debugging - not for programmatic access. Unless there's some security concern, there's no worry to letting them "leak".
BTW, the advice (which you may be thinking of) of wrapping exceptions comes from a more abstract scenario. Consider an
IAuthenticationService that throws if a user can't
If there's both an
LdapAuthenticationService and a
DatabaseAuthenticationService implementation, then you'd have to catch both
SqlException to determine a failed login. When a 3rd implementation is done, you'd need to add it's specific exception types as well. By all implementers wrapping their specific exception in a
FailedAuthenticationException, you only have the single type to worry about.
It'd still be a good idea to include the original exception in
InnerException though, since it aids in debugging.
I hope you can see the difference between this scenario and yours - in your case, you're just throwing the same exception type so there's no difference.
All that being said, if it was for a library - then I'd check for it and throw. But not for OOP purity - but because it makes the contract explicit and less likely to be changed inadvertently. If I was using [T|B]DD, then I'd just write a test for it and let the
List throw instead - the test makes the contract explicit.