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I have an interface and two types that derive from it.

However, I cannot do the following:

B objectB = (B) objectA

Where B derives from Interface1 (I am making up the name of classes but the point still stands), and likewise for objectA (which is of type A). I get the following error message:

Cannot cast expression of type A to B.

Both types are deriving from the interface, what am I missing?

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8 Answers 8

up vote 17 down vote accepted
  1. Types do not derive from an interface. They implement an interface.
  2. The fact that both an Elephant and a Spider are Animals doesn't mean that you can convert one to the other.
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I really like the brevity of this answer - gets all the necessary info across simply, clearly and cleanly –  Marc Gravell Jan 13 '12 at 22:33
The latter is a particularly important point; Spider-Pigs were dangerous enough already. –  Dan Bryant Jul 10 '13 at 13:27

You cannot cast or convert from A to B if all they share is a common interface unless you actually define your own conversion operator, assuming you control the source for one of the types, or use another provided user-defined conversion supplied by someone who does control the source. (However, such user-defined conversions would not preserve the original object. One object goes into the conversion, a different object comes out.)

You can convert from A to Interface1, and B to Interface1. But two types simply sharing a common parent does not make those two types convertible to one another.

A a = new A(); 
B b = new B();
Interface1 obj1 = a; // legal
Interface1 obj2 = b; // legal
B obj3 = (B)a; // not legal, a is simply not a B

tobias86 put in well in a comment below, you have a cat and a dog. Both derive from Animal. But a cat just isn't a dog.

As an expansion, you might be struggling with how and why you would use an interface. You do not use an interface to substitute an A for a B, or a B for an A. You use it to substitute either A or B for Interface1. It's the interface you expect, and the A or B you might supply. Given:

public void DoSomething(Interface1 obj) { } // expects 
DoSomething(new A()); // you can supply A


public Interface1 GetSomething() // callers expect to get 
    return new B(); // you can supply a B

It's the interface you are programming towards, The A and B are merely implementations. You might be thinking you can pass a B to something that expects A. The expectation possibly needs to change.

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+1. Dog == Animal && Cat == Animal, but Dog != Cat. :) –  tobias86 Jan 13 '12 at 22:31
Excellent analogy, tobias. –  Anthony Pegram Jan 13 '12 at 22:32
Not fair... not only his name is similar to mine but so are his ideas (see my answer) >.< –  Nuffin Jan 13 '12 at 22:41
nice answer however OP is talking about casting which does not working in his case. Converting could however work (the syntax is the same the semantics different) –  Rune FS Jan 13 '12 at 22:46
@RuneFS, see this article for how I'm using it. It's a representation-preserving conversion in this case. The OP is simply trying to cast or convert from one type to another when all they share is a common interface. Most answers here simply point out that error. None have gone so far as to show how to make that conversion legal, which could certainly be done through user-defined conversion operators, but those would be representation-changing, the objects would not be the same. –  Anthony Pegram Jan 14 '12 at 2:09

The fact that both types implement the same interface (or have the same base-type, for that matter) does not make them interchangeable; an A is always an A, and a B is always a B. In an inheritance chain, an object can be cast as itself or any parent type. You have:

A : ISomeInterface
B : ISomeInterface

which lets you cast an A as A or ISomeInterface, and a B as B or ISomeInterface

or (depending on your meaning of "derived from")

 > A
 > B

which lets you cast an A as A or SomeBaseType, and a B as B or SomeBaseType

(plus object, in each case)

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When casting from A to B B must be a super type for A or the runtime type of the object must be B

that is if you have

class A : B{}

you can cast an object of compile time type A to B. You can also cast a type of B to A if the runtime type of the object is A

in your case the two types does not share super-subtype relationship. They only share a common super type but that's not sufficient.

As an example of why this can't work (generically) how would you have the compiler cast from Point[] to a Dictionary<string,HashSet<byte>>? (both implement IEnumerable)

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As you note, a cast from A to B is legal and guaranteed to succeed if B is a supertype of A; it is legal, but may fail at runtime, if B is a subtype. An interesting note, though, is that casting is forbidden between generic types which have no identifiable subtype/supertype arrangement, even when such casts might succeed. Given generic type T:Control, one cannot cast an instance of T to Button, nor an instance of Button to T, though one could cast an instance of either to Control and then cast the result of that cast to the other type. –  supercat Jan 13 '12 at 22:46
supercat the same rule applies in the generic case. There's no super-subtype relationship between Button and T. That T is instantiated to Control is irrelevant. Howver a constraint on T to Control will change that –  Rune FS Jan 13 '12 at 22:48
@RuneFS: I suppose supercat was talking about generic constraints. But even so you can't make sure that now and for ever there will never be an instance of that type/method created/invoked with another type parameter than T2:Button, so even then it will generate a compiler error. –  Nuffin Jan 13 '12 at 22:59
@Tobias: If x is a variable of type T, derived from Control, which happens to hold an instance of type DerivedButton (implying that T is DerivedButton or a supertype thereof). If T is Control, a cast of x to button is an upcast which may or may not succeed; if T is DerivedButton, then a cast of x to button is a downcast which will always succeed. I find it interesting that the compiler can't regard the cast from T to Button as being one that may or may not succeed and should throw an exception if it fails. –  supercat Jan 13 '12 at 23:04
That might be true, but what will happen to that code if I call it (from an external library, which wasn't present when that particular hypothetical library we are talking about was built) with T = Window? Generics are designed to be type safe at compile time which wouldn't be the case if that was allowed. –  Nuffin Jan 13 '12 at 23:10

What you want to do doesn't make sense. objectA is not a B.

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You can only cast them to the interface type. A is not B but they are both I. this means you can take A and cast to I or B and cast to I but not B and cast to A

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You need to cast as the interface.

interface IBase { }
class A : IBase { }
class B : IBase { }

With this, the only thing the two types have in common is the interface members. B might have items that A does not.

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

IBase aBase = a;
IBase bBase = b;

You can then call anything on the IBase Interface.

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Imagine the following setup:

public interface Human
    bool Male { get; }

public class Man : Human
    public bool HasABeard { get { return true; } }

    public bool IsMale { get { return true; } }

public class Woman : Human
    public bool IsMale { get { return false; } }

    public List<Pair<Shoe>> Shoes { get; set; }

What would you expect the compiler to produce from the following code? What will the output be?

Man a;
Woman b = new Woman();
a = (Man)b;

Console.WriteLine(a.HasABeard ? "Beard ON" : "Beard OFF");
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