You can disambiguate by calling:
this.MyMethod();
(in MyMethod2()
)
Whether it is a bug is tricky; it does look inconsistent, though. ReSharper warns you simply not to have changes to the default value in an override, if that helps ;p Of course, ReSharper also tells you the this.
is redundant, and offers to remove it for you ... which changes the behaviour - so ReSharper also isn't perfect.
It does look like it could qualify as a compiler bug, I'll grant you. I'd need to look really carefully to be sure... where's Eric when you need him, eh?
Edit:
The key point here is the language spec; let's look at §7.5.3:
For example, the set of candidates for a method invocation does not include methods marked override (§7.4), and methods in a base class are not candidates if any method in a derived class is applicable (§7.6.5.1).
(and indeed §7.4 clearly omits override
methods from consideration)
There's some conflict here.... it states that the base methods are not used if there is an applicable method in a derived class - which would lead us to the derived method, but at the same time, it says that methods marked override
are not considered.
But, §7.5.1.1 then states:
For virtual methods and indexers defined in classes, the parameter list is picked from the most specific declaration or override of the function member, starting with the static type of the receiver, and searching through its base classes.
and then §7.5.1.2 explains how the values are evaluated at the time of the invoke:
During the run-time processing of a function member invocation (§7.5.4), the expressions or variable references of an argument list are evaluated in order, from left to right, as follows:
...(snip)...
When arguments are omitted from a function member with corresponding optional parameters, the default arguments of the function member declaration are implicitly passed. Because these are always constant, their evaluation will not impact the evaluation order of the remaining arguments.
This explicitly highlights that it is looking at the argument list, which was previously defined in §7.5.1.1 as coming from the most specific declaration or override. It seems reasonable that this is the "method declaration" that is referred to in §7.5.1.2, thus the value passed should be from the most derived up-to the static type.
This would suggest: csc has a bug, and it should be using the derived version ("bbb bbb") unless it is restricted (via base.
, or casting to a base-type) to looking at the base method declarations (§7.6.8).