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I have two c# classes A,B.

And the code is something like this

Class A
     B object1;
     bool x;

Class B       
    A object2;        
    bool y;

Is this even possible? If it is what does this mean? A has object of B which has object of A.... it can go on..

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Basically class is a user defined type. So you can use like this. –  Karthik AMR Mar 18 '14 at 11:32
Why do you think this would be a problem? It can go on and on - but equally, object1 or object2 can be null. –  Dan Puzey Mar 18 '14 at 11:39
@DanPuzey your comment states that you have forgot C++ a little bit. in C++, it requires additional effort to solve that. in C#, it's not strange to ask if the compiler can resolve that without further statements. –  mnemonic Mar 18 '14 at 11:42
@grv avoid circular dependencies as much as possible. try it (with your ide) if a build suceedeed will be reached without further c# statements. (in c++, it would require further work) –  mnemonic Mar 18 '14 at 11:44
@mnemonic: Not sure what you mean; C++ is irrelevant to this question (it's a C# question) and there's absolutely no issue with this code in C#. If the OP were saying "I'd expect this to be a problem because in C++ it's a problem," that's a different content. –  Dan Puzey Mar 18 '14 at 12:31

5 Answers 5

This is indeed possible and in many cases desirable, in such structures such as parent/child relationships, etc. You can even have a member of a class which is of the same class (like in a hierarchical tree).

But what you cannot have is:

class A : B
    //Implementation of A

class B : A
    //Implementation of B

That may be the source of confusion, as the compiler won't be able to tell which is the base class and which is the derived one.

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Is this even possible?

Sure, it is possible - you can confirm it by compiling.

If it is what does this mean? A has object of B which has object of A.... it can go on..

To understand this, you need to understand difference between value types (struct) and reference types (class).

You can think of struct like single plain piece of memory. All fields in struct are just placed one by one. If some of these fields are also structs, then all fields of that 'child' struct should be placed inside that plain memory piece of 'parent' struct, and so on. So when you declare value-type variable, you are knowing for sure, exactly, how each and every fields of such struct will be aligned in one memory piece. And with struct it is not possible to have cases like you mentioned, when A has field of B which has field of A etc.

Reference types (classes) are different type of thing. When you operate with value of reference type, you operate with actually reference to some memory piece. You can think of reference (while it is not exactly true, but really simplifies things) as just integer number. So whenever you use reference type variable, regardless it's type, you just use it's reference, some int value. Class members itself created in separate memory pieces. So all you have with references in your case - it's something like this:

A => B
B => A

Or, something like this

A <=> B

Nothing wrong with such definition, you have two objects which reference each other, like parent knowing its child, and child knowing its parent.

It is possible because class A should not keep all fields of class B - it just have a reference (integer number) to some other object.

CLR and compiler helps you with identifying types of that references, but basically case of classes referencing each other is the same as classes references just some other classes.

One more significant difference between struct and class - when you declare value type variable, you are actually creating it, reserving memory for it etc; when you declare reference type variable, you are actually creating reference, which will be initialized as null reference, thus referencing nowhere. So it's easy to create instances of class A and class B - theres fields just reference nowhere; but it's impossible to create such structs A and B, as you would have to create everything at once, which is impossible with limited time and memory.

And small experiment to prove it all. Consider two cases. First like the one in question:

    public class Class_A { public Class_B b; }
    public class Class_B { public Class_A a; }

It compiles without issues.

And second similar to first, but with structs:

    public struct Struct_A { public Struct_B b; }
    public struct Struct_B { public Struct_A a; }

First one compiles without issues, second one fails with error:

CS0523: Struct member 'Struct_A.b' of type 'Struct_B' causes a cycle in the struct layout

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What would happen if we had initializers that instantiated a new instance of each member? I am guessing it would compile fine, but we would get a stackoverflow exception at runtime, right? –  Boluc Papuccuoglu Mar 18 '14 at 18:54
If you mean constructor, then sure, it's recursion like A:.ctor() -> B:.ctor() -> A:.ctor -> ... etc, which is pure SO. As any recursion it will be compiled OK, as it's up to developer to stop it when required. Basically it is what I'm trying to describe - when you need to 'plain out' whole chain at once, then it is not possible; if you can create objects first, and then create relations for them (like for graph with cycles, first create vertexes of graph, then assign edge relations between them) - then it is absolutely 'legal' and possible. –  Lanorkin Mar 18 '14 at 19:56

You will have cyclic/Circular dependency.

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Can you elaborate more on that. –  grv Mar 18 '14 at 11:33
What do you mean by that? I don't see how it's the case at all. –  Dan Puzey Mar 18 '14 at 11:33

It is possible, however the keyword for class definition in c# is class and not Class.

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If the two classes are in separate dlls you will get into a lot of dll circular reference related problems (avoid).

You have also created a circular reference issue if you serialise (Circular Reference when using XML Serialization?)

Otherwise it is a valid and useful definition in most cases.

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