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  • Assuming

    class A { }

    class B : A { }

covariance is not supported for generic class.

Meaning - we cant do something like this :

MyConverter<B> x1= new MyConverter<B>();
MyConverter<A> x2= x1;  

Thats fine and understood.

From my reading - i understand that Covariance will be available:

"If you use a backing Generic Interface Being implemented on a Generic Class - so that access to the T type object instance will be available through those interfaces ".

I have just one problem.

Ive seen many examples of the "converter" class as a form of Stack .

But never understood " what if I want to use only 1 instance of B from a reference of A ? "

so Ive tried some code :

Create B object + values ---> use Generic Converter for B ---> use the covariance flow to get its A reference ---> now you can use it either as A or as B.

enter image description here

enter image description here

My question :

Is That the correct way of doing this ( for using covariance for 1 object only ) ?

p.s. The code is working and compiled ok. http://i.stack.imgur.com/PJ6QO.png

Ive been asking /reading a lot about this topic lately - I dive into things in order to understand them the best I can.

share|improve this question
up vote 15 down vote accepted

Your code compiles and works, so is it "correct"? I guess it is!

However it is not very interesting having a stack that only contains a single element; that's not really a stack. Let's think about how you might make a truly covariant and contravariant stack.

interface IPush<in T> { void Push(T item); }
interface IPop<out T> { T Pop(); }
class Stack<T> : IPush<T>, IPop<T>
    private class Link
        public T Item { get; private set; }
        public Link Next { get; private set; }
        public Link(T item, Link next) { this.Item = item; this.Next = next; }

    private Link head;
    public Stack() { this.head = null; }

    public void Push(T item)
        this.head = new Link(item, this.head);

    public T Pop()
        if (this.head == null) throw new InvalidOperationException();
        T value = this.head.Item;
        this.head = this.head.Next;
        return value;

And now you can use the stack covariantly for popping, and contravariantly for pushing:

Stack<Mammal> mammals = new Stack<Mammal>();
IPop<Animal> animals = mammals;
IPush<Giraffe> giraffes = mammals;
IPush<Tiger> tigers = mammals;
giraffes.Push(new Giraffe());
tigers.Push(new Tiger());
System.Console.WriteLine(animals.Pop()); // Tiger
System.Console.WriteLine(animals.Pop()); // Giraffe

What if I want to use only one instance of B from a reference of A?

Your question is "what if I want to use a Tiger but I have a reference an Animal?" The answer is "you can't" because the Animal might not be a Tiger! If you want to test whether the reference to Animal is really a tiger then say:

Tiger tiger = myAnimal as Tiger;
if (tiger != null) ...


if (myAnimal is Tiger) ...

What about if you want to convert class C<B> to C<A>?

That's not possible. There is no reference conversion there. The only covariant and contravariant reference conversions in C# 4 are on generic interfaces and generic delegates that are constructed with reference types as the type arguments. Generic classes and structs may not be used covariantly or contravariantly. The best thing you can do is make the class implement a variant interface.

share|improve this answer
Hi :) Thats exactly the problem that all of the examples out there ( most) are of stack. Tahts why Ive wrote what if I want to use only 1 instance of B from a reference of A ? Can you please refer to this situation ? Not in all situations I need stack... somwtimes i need just a single conversion of only 1 element ...?.....(p.s. thats why I Called the class Myconverter and Not MySingleStack) – Royi Namir Feb 10 '12 at 16:25
I don't think a generic conversion class is the right approach to handle casting. Want to convert B to A? Use B as A or (A) B. – Brian Feb 10 '12 at 16:38
@RoyiNamir: OK, let's think about a bucket. A bucket of what? A bucket that can only hold apples cannot be used as a bucket of fruit, because you can put an orange into a bucket of fruit but not into a bucket of apples. A bucket of fruit cannot be used as a bucket that can only hold apples, because there might be an orange in that bucket of fruit. – Eric Lippert Feb 10 '12 at 21:03
@RoyiNamir: Your wish is easily achieved. Carefully study the design and implementation of a language and its compiler for eight hours a day, five days a week, 48 weeks a year, for five to ten years and you too can have a decent knowledge of any programming language you choose. That's all it takes. – Eric Lippert Feb 11 '12 at 8:53
@Royi Namir: norvig.com/21-days.html – jason Feb 11 '12 at 19:37

It looks like you're using the converter simply to get a reference of type A pointing to an object of type B. There's a much easier way to do that, called casting:

B b = new B();
A a = (A)b;

In fact, since A is a superclass of B, the conversion is implicit:

B b = new B();
A a = b;

Your program could be:

class Program
    static void Main(string[] args)
        B b = new B { b1 = 22222 };
        A a = b;
share|improve this answer
yeah but the whole sample was to show how can we solve / overcome the problem with type saftey with generic classes via generic interfaces... – Royi Namir Feb 13 '12 at 19:50
But using covariance is no more nor less type safe than this. Covariance says that if B is a subtype of A, then X<B> is a subtype of X<A>. To get from A to B you need to downcast; to get from X<A> to X<B> you need to downcast. – phoog Feb 13 '12 at 20:45
Ok but you can do it with generic lists ! you cant make list<animals> a =... list<bears>; without generic interfaces with in or out. you have to make a middle class which will implements those generic interfaces... – Royi Namir Feb 13 '12 at 21:14
Ok, I think I see what you are getting at now. – phoog Feb 13 '12 at 21:19
IPushable<B> x1 = new MyConverter<B>();
// I believe this is valid.
IPoppable<A> final = x2;

You can find some great examples and descriptions of it on this blog.

share|improve this answer
The code is valid and compiled. pelase see the results after the Console.WriteLine... i.stack.imgur.com/PJ6QO.png – Royi Namir Feb 10 '12 at 15:01
Hmm. I don't quite understand that, but I'll edit my answer accordingly. – Zenexer Feb 10 '12 at 15:05
I'm not quite sure what the question is, then? "problematically correct" isn't really meaningful. – Zenexer Feb 10 '12 at 15:06
I Rephrased my question – Royi Namir Feb 10 '12 at 15:42
@zenxer. this is not contravariance . its Covariance . covariance is : assumly B inherits A, so Type X is covariance if X<B> allow reference to X<A> – Royi Namir Feb 10 '12 at 15:46

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