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I am sure I am missing something simple, however I am trying to convert a strongly typed list of objects that all implement an interface in to a list of that interface type.

Below is a sample to demonstrate the error:

public void ExampleCode(){
    List<Cube> cubes = new List<Cube>();
    List<Shape> allShapes;
    allShapes = cubes;//Syntax Error
    allShapes = (List<Shape>)cubes;//Syntax Error  
}

public class Cube : Shape
{
    public int ID { get; set; }
    public int Sides { get; set; }
}

public interface Shape
{
  int ID { get; set; }
  int Sides { get; set; }
}
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NB: The code in the question is phrased as a cast (i.e. different view of the same object). The different work arounds given below copy the list - a new list is created and each Shape element added to the new list - giving a different object, not a different view on the same object. –  Binary Worrier Feb 16 '10 at 11:39

7 Answers 7

up vote 11 down vote accepted

Instead of casting like that, try:

allShapes = cubes.Cast<Shape>().ToList();

You need .NET 3.5 for this. I believe the Cast extension method can be found in System.Linq.

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1  
You beat me to it. –  Steven Feb 16 '10 at 11:32
2  
Note, this copies the list (albeit if it contains references the references and not the objects will be copied). This is not the same as casting the list object itself. –  Richard Feb 16 '10 at 11:35
1  
@Richard: Great point. –  Dave Markle Feb 16 '10 at 12:47
1  
This is as close as you can get in .NET 3.5. There's no way to cast the list object as asked. –  Lasse V. Karlsen Feb 17 '10 at 8:58

You can't. Because List<T> and ILIst<T> to only support invariant type parameters. This is down to T being both use for input and output parameters (e.g. return values). Otherwise you can break the type safety.

Other interfaces (e.g. IEntumerable<T>) do allow some variance.

See Eric Lippert's blog "Fabulous Adventures In Coding" for discussion of contra- and co-variance. Specifically the "Covariance and Contravariance" tag.

Edit, just added to the "C# Frequently Asked Questions" blog: Covariance and Contravariance FAQ

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What you are referring to is called generic covariance and is not supported by c# 3. It is, however, supported by c# 4 (.NET 4 / VS 2010) and you can read more about it here:

Variance in Generic Interfaces

Having said that, IList<T> is not covariant (because it both accepts and exposes T). IEnumerable<T>, on the other hand, is covariant (because it doesn't accept T).

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You cannot do this since by casting this way you can potentially lose all type safety. For instnce, casting List<Shape> to List<object> will result in that objects of any type can be added to the list, which will be downright inconsistent.

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You can also do:

allShapes = cubes.ConvertAll(x => (Shape)x);

Or if you are doing this in .NET 2.0:

allShapes = cubes.ConvertAll<Shape>(delegate(Cube c){
    return (Shape)c;
});
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You can't cast between lists of types, even if the types themselves are convertible. You will need to create a new list and populate it, either by iterating the original list or by using ConvertAll. See http://www.dev102.com/2008/05/15/how-to-convert-listt1-to-listt2/ for sample code.

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This works if you define allShapes as IEnumerable

In C# 4.0 you may simply assign allshapes=cubes

For C# 3.5 you could use allShapes = cubes.Select(c=>((Shape)c));

But in any case you need to use IEnumerable instead of List

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