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I'm not totally convinced this is possible, but here goes. I have a method returning an object, although the actual type is Collection. Now, I can easily cast the object into the collection using

var myCollection = myObject as Collection<MyClassA>;

However the problem I have is that Collection<MyClassA> could alternatively be Collection<MyClassB> or Collection<MyClassC>. All of these MyClassX's are inherited from MyBaseClass, so ideally I would like to be able to do something like

var myCollection = myObject as Collection<MyBaseClass>;

However this throws an exception when casting. Is it possible to do this in anyway? I understand that it may be within .Net 4?

Thanks for the help.

EDIT: OK - The answers so far are very useful, however they only solve the second part of the solution - converting/casting collections.

I am still unsure as to how I should initially cast the object to a collection (without the use of a huge if statement for each of the possible types)

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It's a C# 4.0 feature, and has nothing to do with .NET 4.0. –  John Saunders Feb 17 '11 at 15:10
    
@John: You wouldn't be able to cast as Collection<MyBaseClass>, regardless of whether it's a feature of .NET4 or C#4. –  LukeH Feb 17 '11 at 15:12
    
possible duplicate of Casting List<T> - covariance/contravariance problem. Please read Jon Skeet's answer, it will perfectly match to your case. –  Doc Brown Feb 17 '11 at 15:13
    
@LukeH: I'm aware that covariance and contravariance only work for interfaces and delegates. When I said "It's" a C# 4.0 feature, I was presuming that the OP was thinking about covariance and contravariance features of C# 4.0, which are not .NET features. –  John Saunders Feb 17 '11 at 15:19
    
@John: I assumed that you would be aware of it. My comment was really just for the OP's benefit, in case they misinterpreted your comment as saying that a cast to Collection<MyBaseClass> would be possible in C#4. But (and here's a genuine nitpick) since C#4 shipped as part of .NET4, it is, imo, legitimate to say that variance in C#4 is part of the .NET4 feature-set. –  LukeH Feb 17 '11 at 15:26

4 Answers 4

up vote 1 down vote accepted

This is only supported with IEnumerable<T> in .NET 4. Check out the difference in the signatures:

IEnumerable<T>:

public interface IEnumerable<out T> : IEnumerable

Collection<T>:

public class Collection<T> : IList<T>, 
ICollection<T>, IEnumerable<T>, IList, ICollection, IEnumerable

That out keyword in the type parameter is what tells .NET to support variance.

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I think using .OfType<>() and a common interface will work as well, for pre-.NET 4.0 users. –  code4life Feb 17 '11 at 15:20
    
@code4life of course! –  Rex M Feb 17 '11 at 15:23
    
Thanks for this part of the answer. The problem I still have is that at the start I have a basic object which is an unknown generic type - I would still need to convert the object to either a Collection or IEnumerable first? Ideally I need to straight convert the object to the IEnumerable<IMyClass> from the offset. –  StrictlySocial Feb 17 '11 at 15:26
    
@code4life, Cast<T>() would be the preferred route for MyClass to IMyClass conversions. It's more obvious your intent. Use OfType<T>() when you actually need to filter before converting, as in the case of a mixed source. –  Anthony Pegram Feb 17 '11 at 15:27
    
Good point, thanks Anthony. –  code4life Feb 18 '11 at 3:29

Before I had access to .NET 4 I wrote an extension method that achieved this:

public static IEnumerable<U> CastCollection<T, U>(this IList<T> items) where U : class
{
   var collection = new List<U>();
   foreach (var item in items)
   {
      if (item is U)
      {
           var newItem = item as U;
           collection.Add(newItem);
      }
  }
  return collection;
}

You would use it like this:

var myCollection = myObject.CastCollection<MyClassA, MyBaseClass>();

myCollection will be an IEnumerable<MyBaseClass> in this case.

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2  
In this method, you're silently discarding items that cannot be cast, which is non-intuitive given the name. What you wrote is essentially reinventing OfType<T>, which will filter an existing sequence to return and convert items that match a given type. What your name implies is a reinvention of Cast<T>, which will throw an exception if something cannot be converted. –  Anthony Pegram Feb 17 '11 at 15:25
    
The method certainly has its faults, but it met the requirements of the project. I was not aware of the uses for OfType<T>, otherwise I would have used that. I'm glad you pointed out its pitfalls though, thank you. –  Nathan Anderson Feb 17 '11 at 15:30
1  
I've reinvented quite a few wheels, myself. I always feel proud of myself right up until someone points me to the original. –  Anthony Pegram Feb 17 '11 at 15:35
    
@Anthony like building a full-featured, pluggable JSON serializer-deserializer? I was a rockstar for 2 days. Oops. ;) –  Rex M Feb 17 '11 at 15:41

Alternate solution: you could use interfaces and generics to get what you want.

public interface IMyClass
{
}

public class MyClassA : IMyClass
{
}

public class MyClassB : IMyClass
{
}

public class MyClassC : IMyClass
{
}

static void Main(string[] args)
{
    var listA = new List<IMyClass>{new MyClassA{}, new MyClassA{}};
    var listB = new List<IMyClass> { new MyClassB { }, new MyClassB { } };
    var listC = new List<IMyClass> { new MyClassC { }, new MyClassC { } };

    List<IMyClass> genericList = listA.Cast<IMyClass>().ToList();
}

Something like this will compile properly and also allow you to assign different lists of any types that implement the common interface, to the same variable (in this case genericList.

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This cannot be done by casting the collection as a whole. However, you can cast the individual elements to a new collection. Look at LINQ's Cast<> extension method.

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