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I have the next classes:

public class EntityBase<T>
    public T Id { get; set; }


And it's implementers:

public class ClassA : EntityBase<Int32>

public class ClassB : EntityBase<Int64>

And in the code, which dont know about classes - ClassA and ClassB it knows only about existance of the EntityBase<...>, I do something like this:

     // Here for sure I get the list of `ClassA`
     object obj = GetSomeHowListOfClassA();
     List<EntityBase<Int32>> listOfEntityBases = (List<EntityBase<Int32>>)obj;

And I get the error:

Unable to cast object of type 'System.Collections.Generic.List`1[...ClassA]' to type 'System.Collections.Generic.List`1[...EntityBase`1[System.Int32]]'.

I fix it like this:

var listOfEntityBases = new List<EntityBase<Int32>>(obj);

But I dont like this way, because I'm creating new List<>. Is there way to cast it? Thx for any advance.

share|improve this question
Problem is not in understanding of covariance and contravariance. But the problem is that List<> doesnt support contravariance. That's why I'm asking any workaround from this issue.. – Maris Apr 4 '13 at 10:20
can you redesign it to use MyClass<T> : EntityBase<T> instead of ClassA and ClassB? – Lanorkin Apr 4 '13 at 10:22
I dont think that it will fix the issue. – Maris Apr 4 '13 at 10:24
It may allow you to create generics methods - but it really depends on your design and usage. So you don't want new list creation (like this one List<EntityBase<Int32>> listOfEntityBases = obj.Cast<EntityBase<Int32>>().ToList();) - you are looking for pure cast? – Lanorkin Apr 4 '13 at 10:29
up vote 0 down vote accepted

You can't do cast this way, because:

  • covariance in C# isn't working for classes;
  • interfaces IList<T> and ICollection<T> aren't covariant.

The only option you can do here (except making a copy of a list) is a casting to IEnumerabe<T>:

var listOfEntityBases = (IEnumerable<EntityBase<Int32>>)obj;
share|improve this answer
I personally prefer IEnumerable<EntityBase<Int32>> listOfEntityBases = obj. The compiler will be forced to do an implicit (safe) cast, as opposed to an explicit (potentially unsafe) cast. Heuristically it is safe of course, but if we ever change ClassA then it could break at runtime. – Aron Apr 4 '13 at 10:58
@Aron: IEnumerable<EntityBase<Int32>> listOfEntityBases = obj- what? This even won't compile. – Dennis Apr 4 '13 at 11:13
Agree with Dennis – Maris Apr 4 '13 at 11:15
I mean var obj = new List<ClassA>(); IEnumerable<EntityBase<Int32>> listOfEntityBases = obj; for casting... – Aron Apr 4 '13 at 11:16
Ghm... As I wrote in my question - And in the code, which dont know about classes - ClassA and ClassB it knows only about existance of the EntityBase<...>, I do something like this: – Maris Apr 4 '13 at 11:17

You can not do it for clear reason. Let's assume this line of code will work:

 List<EntityBase<Int32>> listOfEntityBases = (List<EntityBase<Int32>>)obj;

This means that after that line you can do say following

listOfEntityBases.Add(new EntityBase<Int32>());

but actually this line in the same time will add EntityBase<Int32> object to your obj of type List<ClassA> - which is definitely InvalidCast.

So, you just cannot declare the same variable as List<ClassA> and List<EntityBase<Int32>> in the same time.

Though, it is easily allowed for IEnumerable<T> as you can not add new values for such collection.

And that's why they have in and out in generics declaration.

share|improve this answer
What Lanorkin is trying to describe is the difference between Covariance and Contravariance. An interface can't be both Covariant and Contravariant without being the same interface. – Aron Apr 4 '13 at 11:00
What I'm trying to describe is why it can not be casted. Differences clearely described in links I adviced to @Maris, while they still want to just cast. – Lanorkin Apr 4 '13 at 11:17

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