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As in the title, does anyone know why the ICollection interface does not contain an Add method? It seems very odd that the generic version, ICollection<T>, has an Add but ICollection does not. Anyone with deeper knowledge on this would be really helpful.

As to why I care- unfortunately the developers who build SharePoint have never learned about generics, so every single collection in the API is a a non-generic collection based off of ICollection. I'd like to attach several extension methods to ICollection that involve adding to the collection, among other things, but this seems to be impossible (at least not possible without reflection).

EDIT:

Quite a few people are speculating the reason is because ICollection.Add would require an Object, and thus wouldn't be typesafe. This isn't the case. IList has an Add method that takes an Object. You simply need to do a typecheck and a cast in a method that takes Object.

The argument that an array implements ICollection and therefore it can't have an Add also doesn't hold water. If ICollection had an Add method, it would just need to be explicitly implemented on arrays and throw an Exception (as many of the methods arrays implement currently do).

I was really hoping someone had a reference to an explanation by one of the designers.

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  • @MicahArmantrout, he says ICollection<T> does, but ICollection does not.
    – Moo-Juice
    Jul 27, 2012 at 14:48
  • 1
    @MicahArmantrout You linked to the generic version. He already said the generic version has it. He is asking why the non-generic one doesn't.
    – vcsjones
    Jul 27, 2012 at 14:48
  • Perhaps it's because an Add in ICollection would have to take object, but it doesn't make sense to define Add(object) in, e.g. List<int>. (you can't add any object to a List<int>) However, IList has Add(object), so this argument doesn't hold up too well. The reasons are probably historical: that's the way it was first made, and it was never considered worth making that breaking change.
    – Tim S.
    Jul 27, 2012 at 14:52
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    The answer is simple ... the designers were incompetent. It makes no logical sense for Add and Remove to be on IList but not on ICollection, and the comments attempting to rationalize it are ridiculous (though not as ridiculous as the rude and offensive anti-intellectualism of PR). It's fortunate that they wised up a little with the generic classes, but the botched ICollection means that you can't write generalized code that operates on non-lists, like HashSet<T> and Dictionary<T>.
    – Jim Balter
    Apr 7, 2016 at 11:32

8 Answers 8

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To me it seems the naming of the interfaces is confusing the expectations. ICollection and ICollection<T> aren't even in the same inheritance chain - most collections just simply implement both.

The documentation states what the interface does, so taking this alone, one wouldn't expect Add to exist:

Defines size, enumerators, and synchronization methods for all nongeneric collections.

What do I think? Personally I think it's either a straight naming gaff or the second time around (when introducing the generic interfaces) the designers chose to put Add in ICollection<T> because this time it was more common to need it.

The IList has Add and inherits ICollection whereas the IList<T> doesn't have Add and inherits ICollection<T>, which as Add.

Chalk it up to evolution / maturing of the type hierarchy design.


As for the extension methods, you can do something like:

public static void AnotherMethod<T>(this ICollection<T> collection, T item) { }

And use it thus:

ICollection<string> s;
s.AnotherMethod("");
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  • ICollection<sting> ... I like it, perhaps we can have more decent musical references ;)
    – Moo-Juice
    Jul 27, 2012 at 15:00
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When ICollection was created there was no generic interfaces. This meant that if there were an Add method on ICollection it would have to have the signature Add(object). ICollection is meant to declare a consistent interface across collections of any type--which would force each collection to act, partially, like an collection of objects.

This has been fixed in ICollection<T> which has a method Add(T).

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ICollection can be anything. It could be something that is nothing but enumerable. There is no reason there should be an Add method, or indeed a Remove. If you look at the interface more closely, it's pretty much read-only. You can see how many elements there are, and you can enumerate them. That's it. This makes perfect sense, in an abstract kind of way.

When we get to ICollection<T>, we are now being very specific. We know exactly what kind of object it holds and therefore we can:

  • Add new elements of <T>.
  • Search for them using an IEquitable kind of interface.
  • Remove them, using the same methodology.

In essence, the difference is that ICollection<T> is somewhat concrete.

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    I can sort of agree with your take, but I think the underlying reason is more to do with the evolution of the design. IList takes add even though you don't know what type is in the list, all non-generic lists have this problem. The second time around with all the new interfaces for generics, the designers can a chance to better unify the base interfaces. Either that or it is just a straight naming gaff. Jul 27, 2012 at 15:02
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According to Albahari Brothers

The generic and non-generic versions differ in ways over and above what you might expect,particularly in the case of ICollection.

The reasons for this are mostly historical:because generics came later,the generic interfaces were developed with the benefit of hindsight.

For this reason,

ICollection<T>does not extend ICollection,

IList<T> does not extend IList,

and IDictionary<TKey, TValue> does not extend IDictionary.

To summarize ICollection<T> has evolved by not making the mistakes which were made in ICollection.This is why ICollection<T> has an Add method and ICollection not..

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From MSDN

You do not need to add collection types to known types when used polymorphically in place of other collections or collection interfaces. For example, if you declare a data member of type IEnumerable and use it to send an instance of ArrayList, you do not need to add ArrayList to known types.

When you use collections polymorphically in place of non-collection types, they must be added to known types. For example, if you declare a data member of type Object and use it to send an instance of ArrayList, add ArrayList to known types.

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Based on Msdn definition, it's

Defines size, enumerators, and synchronization methods for all nongeneric collections

That means the ICollection rapresents a stream or a sequence of data that you gonna read. Thow I would say that probabbly the decision that stands behind the SharePoint API is provide generic stream of data you read from the server.

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One guess is that if ICollection did have the Add method, what would it take? Object of course. This was a big problem with none generic array, that prior to C# 2.0 had.

The issue would be that you can add different type to the same collection

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  • This wouldn't really be an issue. You would just have to do a type check in the ICollection.Add(object) method that throws if it's the wrong type.
    – MgSam
    Jul 27, 2012 at 14:53
  • @MgSam right, but still feels wrong to have a method that take an object, and then throws an exception.
    – MBen
    Jul 27, 2012 at 14:56
  • MgSam: But how do you define what the right type is if its not generic? And runtime exceptions for things like this don't sound fun to me. Then again, trying to second guess developers sounds like not fun too...
    – Chris
    Jul 27, 2012 at 14:56
  • @MBen ArrayList takes object so this argument alone isn't enough to discount why ICollection doesn't have it, there was once a world before generics. Jul 27, 2012 at 14:59
  • @AdamHouldsworth ah ok good point. I just checked ICollection was before the world of generics.
    – MBen
    Jul 27, 2012 at 15:01
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Wild guess - the ICollection interface is a base interface for other interfaces that extend it, such as IList and IDictionary. Those interfaces have different implementations of the add method. IList takes one param, IDictionary needs two obviously. With generics the derived interface method signatures aren't really different because they takes one param - a type.

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  • ICollection<T> does not extend ICollection!
    – Anirudha
    Jul 27, 2012 at 15:50
  • I never said it does. I was speaking about the System.Collections.ICollection interface, which was created prior to generics. Jul 27, 2012 at 17:17

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