From the article Anders Hejsberg interview, "the way we do overload resolution in C# is different from any other language" Can somebody provide some examples with C# and Java?
What Anders was getting at here was that the original design team explicitly designed the overload resolution algorithm to have certain properties that worked nicely with versioning scenarios, even though those properties seem backwards or confusing when you consider the scenarios without versioning.
Probably the most common example of that is the rule in C# that if any method on a more-derived class is an applicable candidate, it is automatically better than any method on a less-derived class, even if the less-derived method has a better signature match. This rule is not, to my knowledge, found in other languages that have overload resolution. It seems counterintuitive; if there's a method that is a better signature match, why not choose it? The reason is because the method that is a better signature match might have been added in a later version and thereby be introducing a "brittle base class" failure.
For more thoughts on how various languages handle brittle base class failures, see
and for more thoughts on overload resolution, see
The way that C# handles overloading from an internal perspective is what's different.
The complete quote from Anders: