So apparently you cannot use the virtual
modifier with the override
modifier.
virtual
- a method that can be overridden
override
- a method that is overriding a method of the same name in its parent's class
This leads me to believe that if I override a method in a child class, if that child has a child you can't override that method again.
And it is safe to say that if you put override
and virtual
in a method declaration you will get a compile error in C#.
However I can't understand why the code I made below works the way in which it does
using System;
public class DrawingObject
{
public virtual void Draw()
{
Console.WriteLine("Drawing Object");
}
}
public class DrawDemo
{
public static int Main()
{
DrawingObject[] dObj = new DrawingObject[3];
dObj[0] = new DrawingObject();
dObj[1] = new Line();
dObj[2] = new LittleLine();
foreach (DrawingObject drawObj in dObj)
{
drawObj.Draw();
}
Console.Read();
return 0;
}
}
public class Line : DrawingObject
{
public override void Draw()
{// the method above me is in fact virtual because LittleLine overid it?
Console.WriteLine("I'm a Line.");
}
}
public class LittleLine : Line
{
public override void Draw()
{
Console.WriteLine("I'm a Little Line.");
}
}
Here's the output:
Drawing Object
I'm a Line.
I'm a Little Line.
So the draw method in Line
looks as though it was overridden by LittleLine
. Is this code not actually overriding it, or is the compiler doing some other trick? Or am I not understanding the context of virtual
and override
?
override
method is automatically overridable (virtual
) again.sealed override
disallows the method to be further overridden in derived classes. Another interesting tidbit:abstract override
forces the derived classes to override the method. Your class may not provide an overriding implementation of the virtual method of your base class. But, you can force the classes that derive from you to override it.