I'm organizing a library project and I have a central manager class named Scenegraph and a whole bunch of other classes that live in the Scenegraph namespace.

What I'd really like is for the scenegraph to be MyLib.Scenegraph and the other classes to be MyLib.Scenegraph.*, but it seems the only way to do that would be to make all the other classes inner classes of Scenegraph in the Scenegraph.cs file and that's just too unwieldy.

Instead, I've organized it as Mylib.Scenegraph.Scenegraph and MyLib.Scenegraph.*, which sort of works but I find Visual Studio gets confused under some conditions as to whether I am referring to the class or the namespace.

Is there a good way to organize this package so it's convenient for users without glomming all my code together in an unmaintainable mess?


I don't recommend you to name a class like its namespace, see this.

The Framework Design Guidelines say in section 3.4 “do not use the same name for a namespace and a type in that namespace”. That is:

namespace MyContainers.List 
    public class List { … } 

Why is this badness? Oh, let me count the ways.

You can get yourself into situations where you think you are referring to one thing but in fact are referring to something else. Suppose you end up in this unfortunate situation: you are writing Blah.DLL and importing Foo.DLL and Bar.DLL, which, unfortunately, both have a type called Foo:

// Foo.DLL: 
namespace Foo { public class Foo { } }

// Bar.DLL: 
namespace Bar { public class Foo { } }

// Blah.DLL: 
namespace Blah  
using Foo;   
using Bar;   
class C { Foo foo; } 

The compiler gives an error. “Foo” is ambiguous between Foo.Foo and Bar.Foo. Bummer. I guess I’ll fix that by fully qualifying the name:

   class C { Foo.Foo foo; } 

This now gives the ambiguity error “Foo in Foo.Foo is ambiguous between Foo.Foo and Bar.Foo”. We still don’t know what the first Foo refers to, and until we can figure that out, we don’t even bother to try to figure out what the second one refers to.

  • 6
    Its an interesting point. Im stil lcogitating on it. Thanks. I have to be honest arguments that start with "The style guide says" don't impress me. I've seen an awful lot of unjustified crap in style guides. But you make a good practical argument above. Worth thinking about, anyway. – user430788 Sep 15 '13 at 21:24
  • Thanks for explaining this...I was about to be pissed at .NET until you explained a perfectly good reason it works this way. – levininja Nov 12 '14 at 15:52
  • 3
    The response says "what not to do". While some of stack users looks for "what to do". Would anyone recommend Ant_222 answer? – fantastory Nov 20 '14 at 14:18
  • 3
    If you're really stuck, you can still create a type alias outside your namespace. External aliases are only needed when you have two completely identical full identifiers (namespace + class name). – Geoffrey Nov 25 '15 at 15:07
  • 1
    I don't get it. Why Foo.Foo is ambiguous? You directly say to compiler that you want to use class Foo from the namespace Foo in this specific case. No? – GuardianX Jun 29 '16 at 22:23

Giving the same name to the namespace and the class can confuse the compiler as others have said.

How to name it then?

If the namespace has multiple classes then find a name that defines all those classes.

If the namespace has just one class (and hence the temptation to give it the same name) name the namespace ClassNameNS. This is how Microsoft names their namespaces at least.

  • Do you have an example of such a namespace from Microsoft? – sunefred Dec 7 '18 at 20:11
  • I have to search it and come back to you. – GoTo Dec 10 '18 at 14:46
  • @sunefred I searched it, but I could not find it. But I definitely remember to have seen it in the documentation. I guess there are not many cases when you want to have a single class in a namespace. – GoTo Dec 18 '18 at 21:26

I would suggest that you follow the advice I got on microsoft.public.dotnet.languages.csharp to use MyLib.ScenegraphUtil.Scenegraph and MyLib.ScenegraphUtil.*.


CA1724: Type Names Should Not Match Namespaces ...

Basically, if you follow Code Analysis for proper coding this rule says to not do what you are trying to do. Code Analysis is very useful in helping you find potential issues.


Just Adding my 2 cents:

I had the following class:

namespace Foo {
    public struct Bar {
    public class Foo {
        //no method or member named "Bar"

The client was written like this:

using Foo;

public class Blah {
    public void GetFoo( out Foo.Bar[] barArray ) {

Forgiving the error GetFoo not returning the output instead of using the out parameter, the compiler could not resolve the data type Foo.Bar[] . It was returning the error: could not find type or namespace Foo.Bar .

It appears that when it tries to compile it resolved Foo as the class and did not find an embedded class Bar in the class Foo. It also could not find a namespace called Foo.Bar . It failed to look for a class Bar in the namespace Foo. The dots in a name space are NOT syntactic. The whole string is a token, not the words delimited by the dots.

This behaviour was exhibited by VS 2015 running .Net 4.6


Old post, but here I go with another idea that may help someone:

"...but it seems the only way to do that would be to make all the other classes inner classes of Scenegraph in the Scenegraph.cs file and that's just too unwieldy."

This is really the better implementation for a bunch of scenarios. But, I do agree that having all that code on the same .cs file is annoying (to say the least).

You could solve it by making the base class a "partial class" and then, go on creating the inner classes on their own files (just remember that they'll have to declare the base class complement and then go on with the specific inner class for that file).

Something like...


namespace MyLib
    public partial class Scenegraph
        //Scenegraph specific implementations


namespace MyLib
    public partial class Scenegraph
        public class DependentClass
            //DependentClass specific implementations

I do think that this is the closer that you can get to having the clean implementation of inner classes while not having to clutter everything inside one huge and messy file.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.