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I understand that, if S is a child class of T, then a List<S> is not a child of List<T>. Fine. But interfaces have a different paradigm: if Foo implements IFoo, then why is a List<Foo> not (an example of) a List<IFoo>?

As there can be no actual class IFoo, does this mean that I would always have to cast each element of the list when exposing a List<IFoo>? Or is this simply bad design and I have to define my own collection class ListOfIFoos to be able to work with them? Neither seem reasonable to me...

What would be the best way of exposing such a list, given that I am trying to program to interfaces? I am currently tending towards actually storing my List<Foo> internally as a List<IFoo>.

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marked as duplicate by nawfal, Code Lღver, Daniel Kelley, Oliver Matthews, Gergo Erdosi Jun 19 '14 at 13:21

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

To address the underlying issues of this question regarding the generalized problem of Type conversion in .NET, please see my answer to a related question at How Can I Convert Types at Runtime? – Mark Jones Oct 29 '11 at 23:43
up vote 14 down vote accepted

Your List<Foo> is not a subclass if List<IFoo> because you cannot store an MyOwnFoo object in it, which also happens to be an IFoo implementation. (Liskov substitution principle)

The idea of storing a List<IFoo> instead of a dedicated List<Foo> is OK. If you need casting the list's contents to it's implementation type, this probably means your interface is not appropriate.

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Here's an example of why you can't do it:

// Suppose we could do this...
public List<IDisposable> GetDisposables()
    return new List<MemoryStream>();

// Then we could do this
List<IDisposable> disposables = GetDisposables();
disposables.Add(new Form());

At that point a list which was created to hold MemoryStreams now has a Form in it. Bad!

So basically, this restriction is present to maintain type safety. In C# 4 and .NET 4.0 there will be limited support for this (it's called variance) but it still won't support this particular scenario, for exactly the reasons given above.

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I really don't understand this. The list was created to hold IDisposables, not MemoryStreams. You could do the same kind of thing with a List<Stream>, and the compiler let you. What's different about interfaces? – Robert Rossney Nov 25 '08 at 22:42
"the compiler lets you." – Robert Rossney Nov 25 '08 at 22:43
No, you couldn't do this with List<Stream>. Try returning a List<MemoryStream> as a List<Stream> - you'll see it fail. – Jon Skeet Nov 25 '08 at 22:49
I sure wish I'd saved the code I'd written this afternoon, because you're right, it doesn't compile, and it shouldn't. I wonder what I was thinking. – Robert Rossney Nov 26 '08 at 7:59

In your returning function, you have to make the list a list of interfaces, and when you create the object, make it as an object that implements it. Like this:

function List<IFoo> getList()
  List<IFoo> r = new List<IFoo>();
  for(int i=0;i<100;i++)
  	r.Add(new Foo(i+15));

  return r;
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MASSIVE EDIT You'll be able to do it with C# 4.0, but [thanks Jon]

You can get around it using ConvertAll:

public List<IFoo> IFoos()
    var x = new List<Foo>(); //Foo implements IFoo
    /* .. */
    return x.ConvertAll<IFoo>(f => f); //thanks Marc
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Unless I've misunderstood it, no you won't. A list can be neither co- nor contra- variant, since it allows both "in" and "out" usage. – Marc Gravell Nov 25 '08 at 13:43
+1 for Marc's comment. – Jon Skeet Nov 25 '08 at 13:45
You'd also need to qualify the destination type: return x.ConvertAll<IFoo>(f=>f); – Marc Gravell Nov 25 '08 at 13:46
There is an extension method in System.Linq so you can do return x.Cast<IFoo>(); instead of return x.ConvertAll<IFoo>(f => f); – Anthony Nov 25 '08 at 14:37

The simple answer is that List<Foo> is a different type to List<IFoo>, in the same way that DateTime is different to IPAddress, for example.

However, the fact that you have IFoo implies that collections of IFoo are expected to contain at least two implementations of IFoo (FooA, FooB, etc...) because if you expect there to only ever be one implementation of IFoo, Foo, then the IFoo type is redundant.

So, if there is only ever going to be one derived type of an interface, forget the interface and save on the overhead. If there are two or more derived types of an interface then always use the interface type in collections/generic parameters.

If you find yourself writing thunking code then there's probably a design flaw somewhere.

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There are other reasons for using interfaces than just if I am intending for there to be different implementations. – Joel in Gö May 20 '09 at 12:33

If, at the time that IList<T> was invented, Microsft had been aware that future versions of .net would support interface covariance and contravariance, it would have been possible and useful to split the interface into IReadableList<out T>, IAppendable<in T>, and IList<T> which would inherit both of the above. Doing so would have imposed a small amount of additional work on implementers (they would have to define both read-only and read-write versions of the indexed property, since for some reason .net doesn't allow a read-write property to do serve as a read-only property) but would mean that methods which simply need to read items from a list could receive an IReadableList<T> in covariant fashion, and methods which simply need a collection they can append to could receive an IAppendable<T> in contravariant fashion.

Unfortunately, the only way such a thing could be implemented today would be if Microsoft provided a means for new interfaces be substitutable for older ones, with implementations of the old interfaces automatically using default methods supplied by the new ones. I would think such a feature (interface substitutability) would be extremely helpful, but I wouldn't hold my breath waiting for Microsoft to implement it.

Given that there's no way to back-fit IReadableList<T> into IList<T>, an alternative approach would be to define one's own list-related interface. The one difficulty with doing so is that all instances of System.Collections.Generic.List<T> would have to be replaced with some other type, though the difficulty of doing that could be minimized if one were to define a List<T> struct in a different namespace which contained a single System.Collections.Generic.List<T> field and defined widening conversions to and from the system type (using a struct rather than a class would mean that code would avoid the need to create new heap objects when casting in any scenario where the struct wouldn't have to be boxed).

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I would be very wary of redefining something as basic as List<T>; the chances of someone getting confused are around 100%, I suspect. – Joel in Gö Jul 3 '12 at 15:30

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