So I just found what appears to be strange behavior (at least to me) of the C# compiler.

Take a look at the following demo code:

public class Program
{
    public static void Main(string[] args)
    {
        ChildClass c = new ChildClass();
        c.parentInstance = new ChildClass();
        c.ChildPublicMethod();
        Console.ReadKey();
    }
}

public class ParentClass
{
    public ParentClass parentInstance = null;

    protected void ProtectedMethod(string arg)
    {
        Console.WriteLine("Arg=\"{0}\"", arg);
    }

    public void ParentPublicMethod()
    {
        ProtectedMethod("Parent's public method.");
    }
}

public class ChildClass : ParentClass
{
    public void ChildPublicMethod()
    {
        ParentPublicMethod();
        ProtectedMethod("Child's protected method");

        ((ChildClass)parentInstance).ProtectedMethod(
                "A different child's protected method.");
        //parentInstance.ProtectedMethod(
        //      "A different child's protected method."); //Compile time error.
    }

}

In the ChildClass.ChildPublicMethod() function, I expected that I could access the protected member by the commented out code. After all, shouldn't the compiler have all of the necessary information to be able to tell that it is a safe access? It knows parentInstance is of type ParentClass, it knows parentInstance is accessed from a descendant of ParentClass, so why is the compiler complaining anyways?

Apparently, performing a cast seems to fix everything. So what exactly is the difference between these two calls:?

((ChildClass)parentInstance).ProtectedMethod(
        "A different child's protected method.");
//parentInstance.ProtectedMethod(
//      "A different child's protected method."); //Compile time

Afterthought: The only possible explanation that I can come up with is that the C# compiler needs to be 100% certain that the parentInstance is indeed descendant of ChildClass. If there was a class, say ChildClass2 : ParentClass, it would be incorrect to be able to access it's protected members from within ChildClass because ChildClass does not derive from ChildClass2. Casting to ChildClass tells the compiler that you expect the parentInstance to be a ChildClass instance, and not some other descendant of ParentClass.

However, there is another issue I see. Suppose I set the variable such that:

c.ParentInstance = new ParentClass();

In this case, ChildClass cannot access the protected method (not even with a cast, since it cannot be casted to anything else containing the protected method). Why is this so? If the instance is clearly a ParentClass and nothing more, why shouldn't the ChildClass be able to access its protected method? Or is it possible?


EDIT:

Apparently, there seems to be a misunderstanding of what I'm asking. Yes I realize that cannot access the ParentClass instance. However, I am concerned what is the reasoning behind this so that I can understand why.

Is my above afterthought correct? Am I understanding this properly?

Thanks.

marked as duplicate by Medinoc, nvoigt c# Apr 1 '15 at 11:36

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • 1
    what about base.ProtectedMethod( "A different child's protected method."); //Compile time error. ? – Anant Dabhi Mar 31 '15 at 13:27
  • This question Why can't I access C# protected members except like this? covers your issue and may shed some insight into the issue you're having. – CalebB Mar 31 '15 at 13:34
  • I've edited to post to try and clarify what I am asking. Perhaps the reasoning isn't publicly available, but I don't know. – Nick Miller Mar 31 '15 at 13:44
  • 1
    As @Nuffin stated in his' answer, it's a security measure to prevent loop holes in your security from occurring. You can set the access modifiers as protected internal which should allow you to access the member within that assembly or other assemblies derived from the parent class but the security threat remains. Reading this should shed some light on what we're talking about. – CalebB Mar 31 '15 at 13:49
up vote 1 down vote accepted

It's exactly as you said. parentInstance could be an instance of ChildClass2, so exposing that object's protected members to your ChildClass would create a possible security threat.

Imagine the following scenario:
You have an extensible class A, which exposes some protected members to its derived classes (which might, for example, mutate protected state or call other, possibly virtual members) and a derived class B, which uses the base functionality to do some security critical stuff, while exposing only a safe API with all kinds of error and permission checking.

Now, would you really want anyone to be able to easily bypass those checks by simply deriving a class C from A which then could directly call the protected methods on an object of type B?

"A protected member of a base class is accessible in a derived class only if the access occurs through the derived class type."

"The type or member can only be accessed by code in the same class or struct, or in a derived class."

In your line of code:

parentInstance.ProtectedMethod("A different child's protected method.");

'parentInstance' is not derived from 'ParentClass', it is a 'ParentClass'.

In your other line of code:

((ChildClass)parentInstance).ProtectedMethod("A different child's protected method.");

You have simply told the compiler that the ParentClass object should be treated as a ChildClass - and a ChildClass can access the protected members of the class it inherits from.

But, ultimately, the code will fail at run time, as a ParentClass cannot be cast to a ChildClass.

It's a little hard to explain, so if this doesn't make complete sense I'll try again. :)

(I see you've changed your question, so this is probably not what you wanted. Ho hum.)

  • Yes, this is the behavior I noticed, and it is consistent with the specs. I think that Nuffin's answer gives the answer I'm looking for as it explains the reasoning behind it. Apologies, I tend to ask many related things in the same post in hopes that I might get a thorough answer addressing the topic. – Nick Miller Mar 31 '15 at 14:06
  • 1
    No problem. :) Maybe my answer will help someone else. – Ulric Mar 31 '15 at 14:24

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