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I have a interface that inherits from IList:

public interface IBase {}
public class Derived : IBase {}
public interface IMyList : IList<IBase> {}

I want to cast a variable of type IMyList to type IList<Derived> or List<Derived>, whichever is easier or makes the most sense. What's the best way to do this?

Note that I'm using .NET 3.5

share|improve this question
As others have mentioned, that conversion is never legal, and for good reasons. To help you find a workaround, it would be helpful to know what you are going to do with the IList<Derived> when you have it. For example, is it going to be read-only when you get it, or are you going to try to add items to it, or what? If you are just reading it, are you using "random" access, or always iterating the whole thing from start to finish with "foreach"? Are you using LINQ queries on it? And so on. – Eric Lippert Jul 7 '11 at 15:12
up vote 10 down vote accepted

A direct cast isn't going to be suitable since there are numerous problems that could occur (IMyList may contain types other than Derived, etc.)

As long as you're not modifying the list (in which case, IEnumerable<Derived> would work) you could simply:

var validItems = myList.Cast<Derived>();

And then iterate over the result.


Based on the OP's comment below, there are two other things to mention:

1) If you need an IList<Derived>, you could simply add to the above and call myList.Cast<Derived>().ToList();

2) If those are truly the requirements, then your code doesn't make any sense. If IMyList should only ever contain Derived objects then IMyList should derive from IList<Derived>. Remember that while you know that there is only one type implementing the IBase interface, the compiler doesn't so be specific.

Using interfaces everywhere just for the sake of using interfaces doesn't help anybody!

share|improve this answer
This won't work. The end result absolutely has to be at least an IList<> because I am passing the casted result into a function that takes an IList<Derived>. I can also guarantee that the IMyList list will never have anything other than Derived in it because it's the only class that inherits from IBase – void.pointer Jul 7 '11 at 14:48
@Robert Dailey - If those are the requirements, then your code doesn't make sense. If IMyList should only contain Derived objects, it should inherit from IList<Derived> rather than IList<IBase>. – Justin Niessner Jul 7 '11 at 14:49
@Robert: You can't expect the compiler (or runtime) to know that. The compiler reasonably assumes that you are using interfaces for their intended purpose, namely to have two or more unrelated classes implement the same functionality. A "list of interface" can reasonably be expected to contain objects of multiple unrelated types, and therefore cannot ever be treated as "list of one specific type". – Eric Lippert Jul 7 '11 at 15:07
@Michael: The problem with that approach is that (1) it is expensive if the list is large and (2) if the callee is making edits to the list -- and if they're not, then why are they demanding an IList instead of an IEnumerable? -- then how are the edits going to be copied back to the original list? An alternate technique is to create a proxy object that fixes up accesses to the original list to be of the right element type. – Eric Lippert Jul 7 '11 at 18:20
@Robert: Then you should not be using any technique that involves making a copy of the list -- like doing a Cast<> followed by a ToList(). You're probably going to have to make a proxy that puts casts on top of every interface method call. – Eric Lippert Jul 7 '11 at 18:59

I am passing the casted result into a function that takes an IList<Derived>.

Then you are in a world of pain of your own devising. My advice would be first to find some other way to solve your circular dependency problem. Making everything into interfaces that have only one possible implementation is a painful way to solve that problem, as you have discovered. I don't recommend it.

If you can't do that then I would try to fix the offending function so that it either takes an IList<IBase>, an IEnumerable<IBase> or an IEnumerable<Derived>. Preferably one of the IEnumerable solutions; most methods that take lists in fact only need sequences. If you could explain why you need a list here, that would be helpful in trying to find a workaround.

If you can make it take an IList<IBase> or IEnumerable<IBase> then you're done; you already have something in hand that is implicitly convertible to the desired type.

If you can make it take an IEnumerable<Derived> then you can say myListOfIBase.Cast<Derived>() (if you really know that all of them are Derived) or myListOfIBase.OfType<Derived>() (if you suspect that some of them might not be of type Derived and want to skip them) and get an IEnumerable<Derived> that efficiently uses the underlying list.

If you cannot change the offending function then you can make your own class that efficiently uses the underlying list:

sealed class MyProxyList : IList<Derived>
    IList<IBase> underlyingList;
    public MyProxyList(IList<IBase> underlyingList)
        this.underlyingList = underlyingList;
    ... now implement every member of IList<Derived> as 
    ... a call to underlyingList with a cast where necessary 

And then pass a new MyProxyList to the method.

share|improve this answer

.Net 3.5 does not have generic covariance. To demonstrate:

class Class1
    public void test()
        var list = new List<SuperClass>();
        list.Add(new SuperClass());

        var castedList = ((List<BaseClass>)list);

public class BaseClass
    public string a { get; set; }

public class SuperClass : BaseClass
    public string b { get; set; }

Will not compile successfully.

In Justin Niessner's response, the work around

var validItems = myList.Cast<Derived>();  

was posted. This will work but will result in an enumeration of the entire list (although this enumeration is deferred) and also return an enumerable. To convert the list and end up with an IList you can use the following

public void CanConvertListToBaseClass()
    var list = new List<SuperClass>();
    list.Add(new SuperClass());

    var castedList = list.Cast<BaseClass>().ToList();
    Assert.That(castedList, Is.InstanceOf<IList<BaseClass>>());

This is a pretty brute-force approach however. This will result in a new and separate IList and will force an enumeration of the entire list.

share|improve this answer
I took quite a bit of time before posting this to understand the covariance/contravariance issues in .NET 3.5. This is why I posted the question because I am uncertain of the proper solution for this. Thanks for the heads up, though! – void.pointer Jul 7 '11 at 14:51
Robert Dailey: I know that this anwser is common (and seemingly hated) but you may want to rethink your approach. I don't think there IS a proper solution. I can think of some really terrible workarounds but nothing that seems any decent. – Nicholas Jul 7 '11 at 15:06
Unfortunately this is a design I can't fix, which is why I'm trying to solve the problem this way. This is company code and is already "established", so changing the design isn't an option unfortunately. – void.pointer Jul 7 '11 at 15:47

Since IList<T> allows read and write operations of type T, the interface is neither co- nor contravariant. Thus, what you want cannot be done. Imagine the following code:

var myList = new MyListImlementation();
myList.Add(new BaseImplementation());
var castList = (IList<Derived>)myList; // this is what you want

// this would break, because myList contains elements of type BaseImplementation.
Derived d = castList[0];               
share|improve this answer
I did not state this originally, but Derived is the only class that inherits/implements IBase, so this is a non-issue. There is no possible way to cause a runtime error with my current hierarchy. – void.pointer Jul 7 '11 at 14:54
@Robert: if Derived is the only class that implements IBase then why do you need IBase in the first place? Simply replace every instance of "IBase" in your program with "Derived", done, problem solved. – Eric Lippert Jul 7 '11 at 14:57
@Eric See my comments on the highest rated answer. It explains the reasoning behind this. – void.pointer Jul 7 '11 at 15:04

If you can be absolutely certain going forward that all instances will be of type Derived, then you can use Cast<>(), with the performance issues noted earlier. If there is a chance that something besides Derived will ever be in the list, then you'll want to use OfType<Derived>() instead. Non-Derived items would be excluded instead of throwing.

share|improve this answer

You can't do this in .Net 3.5, but you can in .Net 4.0.

share|improve this answer
You can't even in 4.0. IList<T> does not support it. – Anthony Pegram Jul 7 '11 at 14:38
-1: This answer isn't helpful at all and doesn't even answer my original question. – void.pointer Jul 7 '11 at 14:52

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