6

Interface behaves differently in Vb.Net. Below is a sample code snippet where IStudent interface has a method SayHello which is implemented by a class Student. The Access modifier for SayHello should be Public by default. By changing Access modifier to Private is not breaking the existing code and still i can access this private method using below code

Dim stdnt As IStudent = New Student
stdnt.SayHello()

Access modifier determines the scope of the members in a class, more over private members are accessible only from the class which exists. But here the theory of Access Modifier, Encapsulation are broken.

  • Why .net has designed in this way?
  • Is the concept of Access modifier and encapsulation are really broken?
  • How .net framework internally handle this situation?

Thanks in advance

Module Module1

   Sub Main()
        Dim stdnt As IStudent = New Student
        stdnt.Name = "vimal"
        stdnt.SayHello()
   End Sub

End Module

Public Interface IStudent

   Property Name As String

   Sub SayHello()

End Interface

Public Class Student
   Implements IStudent

   Private Property Name As String Implements IStudent.Name

   Private Sub SayHello() Implements IStudent.SayHello
       Console.WriteLine("Say Hello!")
   End Sub

End Class

5 Answers 5

4

The original poster submitted this question to me via TheBugGuys@Coverity.com; my answer is here:

https://communities.coverity.com/blogs/development-testing-blog/2013/10/09/oct-9-posting-interface-behaves-differently-in-visual-basic

To briefly summarize:

Why was .NET designed in this way?

That question is impossibly vague.

Is encapsulation broken by explicit implementation in C# and VB?

No. The privacy of the method restricts the accessibility domain of the methods name, not who can call the method. If the author of the class chooses to make a private method callable by some mechanism other than looking it up by name, that is their choice. A third party cannot make the choice for them except via techniques such as private reflection, which do break encapsulation.

How is this feature implemented in .NET?

There is a special metadata table for explicit interface implementations. The CLR consults it first when attempting to figure out which class (or struct) method is associated with which interface method.

0
4

From MSDN:

You can use a private member to implement an interface member. When a private member implements a member of an interface, that member becomes available by way of the interface even though it is not available directly on object variables for the class.

In C#, this behaviour is achieved by implementing the interface explicitly, like this:

public interface IStudent {
    string Name { get; set; }
    void SayHello();
}

public class Student : IStudent {
    string IStudent.Name { get; set; }

    void IStudent.SayHello() {
        Console.WriteLine("Say Hello!");
    }
}

So, if you were to omit the IStudent. in front of the method names, it would break. I see that in the VB syntax the interface name is included. I don't know whether this has any implications altough. But interface members aren't private, since the interface isn't. They're kinda public...

5
  • Then why C# behaves different?
    – Vimal CK
    Sep 18, 2013 at 18:04
  • I updated my answer to provide a C# alternative, although I'm not entierly sure whether it behaves this way.
    – JLe
    Sep 18, 2013 at 18:11
  • No, it doesn't. The code I posted works perfectly. However, you can't put private in front of the methods. But you don't have to specify public either, so it's somewhere in between public and private...
    – JLe
    Sep 18, 2013 at 18:24
  • All the members in a class implemented by an Interface should be public by default. Here the question is, Why the members are still accessible when the modifier gets changed to Private? Could you please try c# snippet without explicit implementation? It should not compile.
    – Vimal CK
    Sep 18, 2013 at 18:51
  • @VimalCK The point is that the VB syntax you showed is the equivalent to explicit implementation in C#. The two snippets from each language are comparable. If you change the C# code to not be an explicit implementation then you'd need to change the VB code as well for the examples to be comparable.
    – Servy
    Sep 18, 2013 at 19:12
3

There is no fundamental difference between C# and VB.NET, they just chose different ways to solve ambiguity. Best demonstrated with a C# snippet:

interface ICowboy {
    void Draw();
}
interface IPainter {
    void Draw();
}

class CowboyPainter : ICowboy, IPainter {
    void ICowboy.Draw() { useGun(); }
    void IPainter.Draw() { useBrush(); }
    // etc...
}

VB.NET just chose consistent interface implementation syntax so the programmer doesn't have to weigh the differences between implicit and explicit implementation syntax. Simply always explicit in VB.NET.

Only the accessibility of the interface method matters. Always public.

5
  • Except that in VB, the access modifier only is relevant when not called via an object of the interface type. What VB is doing is really creating 2 methods - one callable via the interface (where the access modifier is irrelevant), and one callable otherwise (where the access modifier is relevant). Sep 18, 2013 at 19:32
  • @DaveDoknjas: If Foo implements IFoo, with method void Bar(), then a definition public void Foo() is equivalent to Public Sub Foo() Implements IFoo.Foo, and void IFoo.Foo() is equivalent to Private Sub xyzzy24601_IFoo_Foo_() Implements IFoo.Foo. Those are the only two patterns via which C# allows a method to implement an interface. VB.NET allows other patterns as well, like protected void ProtFoo() Implements IFoo.Foo, whereas equivalent functionality in C# would require actually using two methods: `protected void ProtFoo() {...} void IFoo.Foo { ProtFoo(); }
    – supercat
    Sep 19, 2013 at 17:20
  • @supercat: The 'private' example requires the same logic as your 'protected' example - you need to allow 'this' to access the method within the class without going through the interface to reproduce the VB 'Private' case. Sep 19, 2013 at 18:34
  • @DaveDoknjas: In VB.NET, if one declares the method Private one may use that member within the class using whatever name was specified. In C#, the compiler doesn't let the programmer specify the name but instead arbitrarily invents one which may vary between compiles. A method that explicitly implements an interface will generate an identifier in private scope, but without knowing what that name will be, the programmer can't refer to it except by examining the generated code and/or using Reflection.
    – supercat
    Sep 19, 2013 at 19:19
  • @supercat: All I'm trying to show is that "void IFoo.Foo()" alone is not enough to provide an equivalent to "Private Sub Foo() Implements IFoo.Foo". You also need "private void Foo()" to access within the class without an interface instance. Sep 19, 2013 at 19:46
2

When your variable stdnt is declared as IStudent, the interface methods and properties are then made Public, so the derived class' (Student) implementation is executed. If, on the other hand, if stdnt was declared as Student, the private members (Name and SayHello) would not be implemented, and an error would be thrown.

I'm guessing that the Interface members stubs (Name & SayHello) are by default Public, and the access modifier definitions of the derived class' implementation are ignored.

IMHO.

1

The exact equivalent in C# is the following - the method available to objects of the interface type and the private method available otherwise:

   void IStudent.SayHello()
   {
       this.SayHello();
   }
   private void SayHello()
   {
       Console.WriteLine("Say Hello!");
   }
2
  • Look at the code I posted - that is the equivalent to the VB case where the access modifier is 'Private' - the method is still callable via an interface instance, but only within the class otherwise. Sep 18, 2013 at 18:59
  • 2
    In other words, in both C# and VB, the method is always available via an interface instance. In VB, the access modifier only applies to cases where the method is not called via an interface instance - you could call this bad language design on VB's part. Sep 18, 2013 at 19:01

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