Others have pointed out that this isn't overriding, but that still leaves your original question: why are you able to do it? (But the question is really "why can you hide static methods".)
It's an inevitable feature of supporting the independent versioning of component that contain base classes and components that use those base classes.
For example, imagine that component CompB contains the base class, and some other component CompD contains a derived class. In version 1 of CompB, there might not have been any property called LogName. The author of CompD decides to add a static property called LogName.
The critical thing to understand at this point is that the author of v1 of CompD was not intending to replace or hide any feature of the base class - there was no member called LogName in the base class when they wrote that code.
Now imagine that a new version of the CompB library is released. In this new version, the author added a LogName property. What's supposed to happen in CompD? The options appear to be:
- CompD no longer works because the LogName it introduces clashes with the LogName added to CompB
- Somehow make the CompD's LogName replace the base CompB LogName. (It's not actually remotely clear how this could work with statics. You could envisage this with non-statics though.)
- Treat the two LogName members as being completely different members that happen to have the same name. (In reality, they don't - they're called BaseLogger.LogName and SpecificLogger.LogName. But since in C# we don't always need to qualify the member name with the class, it looks like they're the same name.)
.NET chooses to do 3. (And it does that with both statics and non-statics. If you want behaviour 2 - replacement - with non-statics, then the base has to be
virtual and the derived class has to mark the method as
override to make it clear that they were deliberately overriding a method in the base class. C# will never make a derived class's method replace a base class's method unless the derived class explicitly stated that this is what they wanted.) This is likely to be safe because the two members are unrelated - the base LogName didn't even exist at the point where the derived one was introduced. And this is preferable to simply breaking because the latest version of the base class introduced a new member.
Without this feature, it would be impossible for new versions of the .NET Framework to add new members to existing base classes without that being a breaking change.
You say that the behaviour isn't what you expect. Actually it's exactly what I'd expect, and what you'd probably want in practice. The BaseLogger has no idea that the SpecificLogger has introduced its own LogName property. (There's no mechanism by which it could because you cannot override static methods.) And when the author of SpecificLogger wrote that LogName property, remember that they were writing against v1 of BaseLogger which didn't have a LogName, so they weren't intending that it should replace the base method either. Since neither class wants replacement, clearly replacement would be the wrong thing.
The only scenario in which you should ever end up in this situation is because the two classes are in different components. (Obviously you can contrive a scenario when they're in the same component, but why would you ever do that? If you own both pieces of code and release them in a single component, it'd be mad ever to do this.) And so BaseLogger should get its own LogName property, which is exactly what happens. You may have written:
but the C# compiler sees that SpecificLogger doesn't provide a Log method, so it turns this into:
because that's where the Log method is defined.
So whenever you define a method in a derived class that isn't attempting to override an existing method, the C# compiler indicates this in the metadata. (There's a "newslot" setting in the method metadata that says, this method is meant to be brand new, unrelated to anything in the base class.)
But this gives you a problem if you want to recompile CompD. Let's say you've got a bug report due to some entirely unrelated bit of code and you need to release a new version of CompD. You compile it against the new verison of CompB. If the code you've written wasn't allowed, you wouldn't actually be able to - old code that's already compiled would work, but you wouldn't be able to compile new versions of that code, which would be a bit mad.
And so, to support this (frankly somewhat obscure) scenario, they allow you to do this. They generate a warning to let you know that you've got a naming clash here. You need to supply the
new keyword to get rid of it.
This is an obscure scenario, but if you want to support inheritance across component boundaries, you need this, otherwise the addition of new public or protected members on a base class would invariably be a breaking change. That's why this is here. But it's bad practice ever to rely on it, hence the fact that you get a compiler warning. The use of the
new keyword to get rid of the warning should only ever be a stopgap.
The bottom line is this: this feature exists for one reason only, and that's to get you out of a hole in situations where a new version of some base class has added a member that didn't previously exist, and which clashes with a member that's already on your derived class. If that's not the situation you're in, don't use this feature.
(I think they should actually issue an error rather than a warning when you leave out new, to make this more clear.)