Should the following code give a warning?

class Foo { public void Do() { /*...*/ } /*...*/ }
class Bar : Foo { public static void Do()  { /*...*/ } /*...*/ }

It gives:

"Warning CS0108: 'Bar.Do()' hides inherited member 'Foo.Do()'. Use the new keyword if hiding was intended."

If I make a change to the code:

class Foo { public static void Do() { /*...*/ } /*...*/ }
class Bar : Foo { public void Do()  { /*...*/ } /*...*/ }

I get the same warning.

If I make the following change, however, the warning goes away.

class Foo { public void Do() { /*...*/ } /*...*/ }
class Bar : Foo { new public static void Do() { /*...*/ } /*...*/ }

Let me make a further change:

class Foo { public void Do() { /*...*/ } /*...*/ }
class Bar : Foo { 
    new public static void Do() 
    { new Bar().Do();/*...*/ } /*...*/ 

This does not compile:

"Error CS0176: Member 'Bar.Do()' cannot be accessed with an instance reference; qualify it with a type name instead."

So, I lose access to my inherited method via an instance reference from a static method!

What would be the logic behind it? Or did I make a typo somewhere?

I came across this when I was trying to define a static method 'Show' for my form derived from 'Form'.


Where do you think the bug is? The fact that there is a warning is absolutely right. From the C# 3.0 spec, section 10.3.4:

A class-member-declaration is permitted to declare a member with the same name or signature as an inherited member. When this occurs, the derived class member is said to hide the base class member. Hiding an inherited member is not considered an error, but it does cause the compiler to issue a warning. To suppress the warning, the declaration of the derived class member can include a new modifier to indicate that the derived member is intended to hide the base member.

The fact that your method invocation fails is subtler, but it's basically because the member lookup algorithm picks the static method, and then this part of section is used:

Final validation of the chosen best method is performed:

The method is validated in the context of the method group: If the best method is a static method, the method group must have resulted from a simple-name or a member-access through a type. If the best method is an instance method, the method group must have resulted from a simple-name, a member-access through a variable or value, or a base-access. If neither of these requirements is true, a compile-time error occurs.

  • Hi Jon, +1 for answer. I think, from language user perspective, bug is in the way of choosing best method to call :-). To me, "new Bar().Do()" clearly tells which method is being called at compile time and there is no need to produce error! – isntn Apr 16 '09 at 16:50
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    I suspect the alternative is to make the language much more complicated though. There are quite often edge cases which could be improved if the language were smarter - but it would then be harder to "know" the language well, and also to correctly implement it in a compiler. It's all balance... – Jon Skeet Apr 16 '09 at 17:02

No, that makes perfect sense. This works as expected:

using System;
using System.Collections.Generic;

class Foo { public void Do() { /*...*/ } /*...*/ }
class Bar : Foo { 
    new public static void Do() 
    { ((Foo)new Bar()).Do();/*...*/ } /*...*/ 

That's because the compiler assumes that you have a Bar type, and then finds the static member. By casting it to Foo (which comes for free btw.) you make it look in the metdadata for Foo() and all is fine.

  • When I say "new Bar().Do();" I am surely calling instance method "Do", which is available in Bar via Foo. So, why do we have to type cast? – isntn Apr 16 '09 at 16:28
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    Because the compiler does not look at the instance, but at the type metadata. And here it finds only one method with the correct signature (name and empty argument list), and that's the static one. – Lucero Apr 16 '09 at 16:29
  • Think of it in terms of virtual fuction tables; the Bar::Do() mapping hides the mapping of Foo:Do(). – Paul Sonier Apr 16 '09 at 16:32
  • Hi Lucero, If compiler looks at type metadata, is type metadata available during compilation? Then Who generates metadata in first place from code? Are there different passes of compilation? McWafflesstix, If you have time, can you pls elaborate this further? Thanks in advance. – isntn Apr 16 '09 at 16:42
  • The metadata is generated by the compiler, and yes, I assume that internally the compiler does at least 2 passes (since the order of declarations does not matter). My guess is: lexical analysis, tokenizing, metadata/structure creation (all 3 can be in one pass), code compilation (second pass) – Lucero Apr 16 '09 at 16:49

Try this:

        new public static void Do()
            ((Foo)new Bar()).Do(); 

you should be able to call it by doing calling base.Do() rather than Bar().Do()


In your final code sample, the new keyword on the declaration of Bar.Do() means that you intended to hide Foo.Do().


Out of curiosity, why do you want to do this? It seems like you are probably going about your solution the wrong way.

The above code appears to work as it should, and the compiler messages tell you what the problems are.

  • Hi Josh, I do not "want" to do it. It is just that I come across this, and want to understand this behavior chosen by C# designers. "new Bar().Do()" tells obviously that it is instance method being called. So, why C# is designed to make this even more explicit? bit of educative question. – isntn Apr 16 '09 at 16:50
  • I see. Well, in that case, you have to realize that in Bar, there is no instance method named Do(), just a static method. By giving it the same name, you have blocked inheritance. So no, it is not obvious that the instance method is being called, to me or the compiler =p – JoshJordan Apr 16 '09 at 16:59
  • I think, there is instance method in Bar which is derived from Foo. – isntn Apr 16 '09 at 17:17
  • That's my point - this isn't true. Say you had them both non-static. Then, Bar.Do() would hide Foo.Do(). That is, Foo.Do() is not inherited. It doesn't matter that it is static, or an instance method, Foo.Do() is not derived into Bar if Bar.Do() exists. – JoshJordan Apr 16 '09 at 18:23
  • :)I understand u,now. Thanks. In same terms, I am looking for logical reason why it doesn't matter. Was it optional for C# (or CLR) designers to differentiate between static and instance method and they chose not to? If no, why? If yes, why they chose not to? (Though I agree that it is no big deal) – isntn Apr 16 '09 at 20:01

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