Recently we had a good discussion on an internal alias about the use of Me, MyClass and MyBase in VB. Me, MyBase and MyClass are all ways to access instance member data in a VB class or structure. There was a little bit of confusion on the actual workings and meanings of the keywords in various contexts and I want to use this post to shed light on the different meanings.
The Basics
The keywords are used to alter the way in which instance members of a class/structure are accessed. In particular they affect the way Overridable/MustOverride/Overrides functions are evaluated. Methods defined with Overridable/Overrides/MustOverride are defined as virtual by the CLR. For the purpose of this post all of these definitions are mostly equal. This discussion will be useless without and example so here’s the code to discuss.
Class GrandParent
Public Overridable Sub Sub1()
Console.WriteLine("GrandParent.Sub1")
End Sub
End Class
Class Parent
Inherits GrandParent
Public Overrides Sub Sub1()
Console.WriteLine("Parent.Sub1")
End Sub
End Class
Class Child
Inherits Parent
Public Overrides Sub Sub1()
Console.WriteLine("Child.Sub1")
End Sub
End Class
In this case Sub1 is a virtual method and there are three instances of it (one per class). By default virtual methods are called based on the runtime type of the object. The CLR will essentially walk the hierarchy from current type to object looking for the first class which defines a particular method and call that version. It doesn’t matter what the variable type is declared as, just what type it actually is.
Dim v1 As GrandParent = New Parent
v1.Sub1() ' Calls Parent.Sub1
Dim v2 As GrandParent = New GrandParent
v2.Sub1() ' Calls GrandParent.Sub1
Changing the call
If the CLR will always call a virtual Sub/Function based on the runtime type of an object how can I access the parent function? This is where MyBase comes in. MyBase allows you to call the version of the virtual method defined in the parent class. Essentially it tells the CLR call this method/property as if my runtime type was my base type.
Class Child2
Inherits Parent
Public Overrides Sub Sub1()
MyBase.Sub1() ' Calls Parent.Sub1
Console.WriteLine("Child2.Sub1")
End Sub
End Class
MyClass is similar to MyBase. Instead of telling the CLR the current type is the base type, it tells the CLR the runtime type is the type where MyClass is used. This allows developers to call their type’s version of a virtual method no matter who derives from them. In the following example it doesn’t matter how many, or who derives from Child3, Sub2 will always call the version of Sub1 defined in Child3.
Class Child3
Inherits Parent
Public Overrides Sub Sub1()
Console.WriteLine("Child3.Sub1")
End Sub
Public Sub Sub2()
MyClass.Sub1()
End Sub
End Class
So, why not MyChild?
The short answer is, it’s not verifiable. When writing MyBase we can verify that indeed there is a sub/function/property matching the call site in the base class. If no such method exists it will result in an error. MyClass is similarly easy to verify. With MyChild however there would be no useful way of guaranteeing a particular sub/function/property was defined on the child class.
One way you can verify a child class contains a particular property/sub/function is to make it MustOverride. However in this case there is no actual definition in the original type. In fact, if you try and access a MustOverride method with MyClass it will generate a compile time error. Therefore every call must at least occur in the child class or lower rendering MyChild superfluous.
What about non-virtual methods and properties?
The primary intent of MyBase/MyClass is to call virtual methods in a non- virtual way. However they can also be used to call non-virtual methods. From the perspective of the user calling a non-virtual method with MyBase/MyClass/Me has no discernable difference. If you crack open the generated IL you can see a small difference in the op code but the short story is it won’t affect your program.