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Is there a way to define a field as private but still modifiable within a method using the generic of the containing class?

(Apologies for the length of the question; I am struggling to nail down exactly what I am asking)

Specifically, I currently have three classes A, B, C with the following requirements:

  1. B and C have a field called name, but A does not
  2. A and C have a method Load(), but B does not
  3. Collections of B and C use name in a custom Add() method, but A does not use this method

This is my current solution:

public class BaseClass
{
    public SomeType Load() { ... }
}

public interface IClass {
    string Name {get; set;}
}

public class MyList : SomeCollection<IClass>
{
    // Depends on x.Name, and may modify Name before adding x to the collection
    public new void Add(IClass x) { ... }
}

public class A : BaseClass { ... }

public class B : IClass { ... }

public class C : BaseClass, IClass { ... }

This solution works for me if Name has a public set. But is there some way to properly encapsulate x.Name so that Add can modify x.Name, but x.Name cannot be modified in instances of B and C?

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1  
I think you may have over-abstracted your problem. I've no idea what relevance A, BaseClass and Load have in relation to the rest of the problem. I've no idea what "Add can modify it, but other instances of IClass classes cannot" even means. –  Damien_The_Unbeliever Apr 22 '12 at 9:34
    
A doesn't have a Name property, so I can't subclass it from something with Name in it, which MyList requires. But A and C do need to share the other method. (BTW: You are probably right; am I making this too hard?) –  marshall.ward Apr 22 '12 at 9:44

1 Answer 1

up vote 2 down vote accepted

The short answer is no. You cannot selectively expose members to specific classes, and MyList has no inheritance relationship with IClass. What you can do, however, is create an additional internal interface (or possibly make IClass internal) that exposes the Name property and implement it explicitly. This means that in order to read/write the Name property, you would need to cast an instance to the internal interface, which would be possible only within the assembly it is defined.

internal interface IClassName { string Name { get; set; } }

public class MyList : Collection<IClass>
{
    protected override void InsertItem(int index, IClass item)
    {
        var className = item as IClassName;
        if (className != null)
        {
            // do something with className.Name ...
        }
        base.InsertItem(index, item);
    }
}

public class B : IClassName { string IClassName.Name { get; set; } }

Note I'm not using the new keyword to bypass the base class' Add method since this would override the polymorphism (e.g. if you'd cast an instance of MyList to IList<IClass> the original implementation of Add would be called - and that's bad.) Instead I'm overriding the appropriate method from the Collection<T> class, which is designed for collection inheritance.

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I think this is very close, but I am struggling to implement it. If B is IClassName (rather than IClass), then I can't use InsertItem on it. Is it something like a wrapper to a separate public class B : IClass? –  marshall.ward Apr 22 '12 at 10:37
    
B can implement both IClass and IClassName. –  Eli Arbel Apr 22 '12 at 10:40
    
Thanks, B can now be used in InsertItem, but now b.Name must be public (where b is an instance of B). Is there a way to prohibit b.Name = "new name"? –  marshall.ward Apr 22 '12 at 10:46
    
The Name property should be removed from IClass and because IClassName is implemented explicitly, it is not public. –  Eli Arbel Apr 22 '12 at 10:53
    
I worked out a way to do it which doesn't require changing b.Name, which I probably should have done from the beginning. But I very much appreciate your help. Have some points. –  marshall.ward Apr 22 '12 at 13:01

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