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IEnumerable<T> implements IEnumerable.
But ICollection<T> does not implement ICollection.

What was the rationale for this and/or was it just an oversight?

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marked as duplicate by BlueRaja - Danny Pflughoeft, kristian, Michel Keijzers, Bill the Lizard Jul 16 '13 at 15:50

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.

I don't think questions about design decisions people who most probably aren't SO users made are really appropriate. That is, you can't get the actual reason here, rather than a bunch of guesses. –  millimoose Jun 4 '13 at 1:33
@PaulBellora The language is irrelevant here. This is a question about design of the class libraries. –  millimoose Jun 4 '13 at 1:34
ICollection<T> is not the "generic equivalent" to ICollection, they only share two members that are the "same". –  CodeNaked Jun 4 '13 at 1:37
@CodeNaked If ICollection(T) is not the "generic equivalent" to ICollection then it should not have been named as though it is the generic equivalent. That's my part of my point in asking my question. –  Bart Sipes Jun 4 '13 at 1:39
@PaulBellora It's the syntax used in the left nav-menu in the MSDN documentation, which for some reason is neither C# (ICollection<T>) or (ICollection(Of T)). It's as good a "language-agnostic" choice as any. –  millimoose Jun 4 '13 at 1:40

4 Answers 4

As Nick said, ICollection is pretty much useless.

These interfaces are similar only by their name, CopyTo and Count are the only properties in common. Add, Remove, Clear, Contains and IsReadOnly have been added while IsSychronized and SyncRoot have been removed.

In essence, ICollection<T> is mutable, ICollection is not.

Krzysztof Cwalina has more on this topic

ICollection<T> seems like ICollection, but it’s actually a very different abstraction. We found that ICollection was not very useful. At the same time, we did not have an abstraction that represented an read/write non-indexed collection. ICollection<T> is such abstraction and you could say that ICollection does not have an exact corresponding peer in the generic world; IEnumerable<T> is the closest.

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The mutability argument doesn't hold because ICollection<T> (mutable) implements IEnumerable<T> (not mutable). ICollection<T> generally adds to the interface members of ICollection, indicating it could be derived from it. The properties of ICollection which are not present in ICollection<T> could be trivially implemented by any collection, as is the case for all generic collections in the Framework except HashSet<T>. –  Sam Harwell Mar 1 '10 at 3:46
ICollection is essentially IEnumerable plus Count(). If ICollection<T> inherited ICollection, a routine that was expecting an IEnumerable<Animal> but was given an IList<Cat> could easily determine the number of items therein by trying to cast to ICollection. Note that a cast to IList<Animal> would fail, and the routine would have to use awkward and ugly Reflection to discover that a cast to IList<Animal> would be possible. –  supercat Mar 19 '12 at 22:14
@supercat You should be using IReadOnlyCollection<T> instead of casting IEnumerable<T> to ICollection. –  binki Mar 12 at 15:24
@binki: Types which implemented IList<Cat> prior to .NET 4.0 may implement ICollection and IEnumerable<Animal>, but won't implement IReadOnlyList<Animal> [which should, IMHO, have been named IReadableList<Animal>; IMHO, the contract for an IReadOnlyFoo interface should specify that instances may safely be exposed to outside code which should not be allowed to modify them--a condition which IReadOnlyList<T> does not impose on its implementations]. Having ICollection<T>` inherit from ICollection would have ensured, since .NET 2.0, that code receiving... –  supercat Mar 12 at 15:36
...any kind of IList<T> could ascertain the number of items in it without having to know T. If an implementation of IList<T> was created after .NET 4.0, it implements IReadOnlyList<T>, and is being queried by code written for .NET 4.0, using that type may be more elegant than using ICollection, but ICollection can be implemented in old or new code and queried by old or new code. –  supercat Mar 12 at 15:39

ICollection<T> and ICollection are actually very different interfaces that unfortunately share a name and not much else.


ICollection<T> seems like ICollection, but it’s actually a very different abstraction. We found that ICollection was not very useful. At the same time, we did not have an abstraction that represented an read/write non-indexed collection. ICollection<T> is such abstraction and you could say that ICollection does not have an exact corresponding peer in the generic world; IEnumerable<T> is the closest.

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Thanks, that seems to corroborate what @millimoose thought in his comments on the question, which is that ICollection was poorly named. –  Bart Sipes Jun 4 '13 at 1:53
@BartSipes, agreed –  Samuel Neff Jun 4 '13 at 1:53

First, IList<T> does not implement IList either, probably for the same reasons. IList<T> implements: ICollection<T>, IEnumerable<T>, IEnumerable

Some parts of ICollection just aren't necessary, but changing an interface after it's out in the wild is breaking at best.

Look at ICollection:

public interface ICollection : IEnumerable
    void CopyTo(Array array, int index);

    int Count { get; }
    bool IsSynchronized { get; }
    object SyncRoot { get; }

It's just not properties you need in most cases, when I want a Collection I've never once needed this, nor would want to implement it. It got old would be the reasoning I suppose, but you'd have to ask the .Net team for the affirmative answer.

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This question refers to the original .NET 2 design - before the generic interfaces were ever released (so breakage isn't an issue). Almost all collection types that implement ICollection<T> also implement ICollection (with the unfortunate exception of HashSet<T>), and just use explicit implementation of the "awkward" members of ICollection. –  Sam Harwell Mar 1 '10 at 1:16
@280Z28 - If they were to change ICollection to not require those properties, it'd be breaking is what I meant...they simply chose ICollection<T> to not require them, simpler and non-breaking. –  Nick Craver Mar 1 '10 at 1:19

Both ICollection and ICollection<T> contain at least one method that returns the collection type (GetEnumerator) and another that takes it as an argument (CopyTo).

ICollection<T>.GetEnumerator is covariant with ICollection.GetEnumerator, because T is a more specific type than System.Object. This part is OK. This is why IEnumerable<T> is able to subclass (and thus be substitutable) for IEnumerable.

But if we want ICollection<T> to be substitutable for ICollection, we also need ICollection<T>.CopyTo to be contravariant with ICollection.CopyTo, which it is not. The ICollection<T>.CopyTo method cannot accept a parameter of a less-specific type than T (the generics grammar constrains it to be T or smaller). And if ICollection<T>.CopyTo method is not contravariant in its argument, then that means the ICollection<T> interface as a whole is not substitutable for ICollection.

That might be a little hard to make sense of; it's more complicated because it deals with arrays. It's blindingly obvious in IList<T>, where implementing both interfaces could potentially break the type safety that's supposed to be guaranteed by generics (by simply invoking the non-generic IList.Add method). But that's actually just another way of saying that the IList<T>.Add method is not contravariant in its arguments with IList.Add - the generic method cannot accept the less-specific type System.Object as an argument.

Long story short: ICollection<T> simply can't be made substitutable for ICollection under all circumstances, and therefore cannot inherit from it.

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The argument about variance doesn't hold up because ICollection is not a strongly-typed container. You could use it to say that ICollection can't derive from ICollection<T>, but you can always put a weak wrapper around a strongly typed collection, where the underlying implementation is expected to throw an ArgumentException when improperly used. A collection implementing ICollection<T> does have a Count property, and it can be copied element by element to an array of type object[] (boxing as necessary), which means it could safely implement ICollection. –  Sam Harwell Mar 1 '10 at 3:41
@280Z28: Your "weak wrapper around a strongly typed collection" isn't relevant here because generics are about compile-time type safety, whereas the weak wrapper has to rely on runtime type checking. In order for ICollection<T> to derive from ICollection, it has to be usable any place that ICollection is, but without contravariance, this would be invalid at compile time. Try it yourself; declare an ICollection<T> and use its CopyTo method on an object[] argument - it won't compile. –  Aaronaught Mar 1 '10 at 14:16
The semantics of ICollection.CopyTo() are that it will accept any type of array, and throw an exception if any item in the collection is not of a type suitable for the particular array passed in. The concepts of covariance, contravariance, and invariance are only meaningful in the context of some particular type parameter. Since ICollection.CopyTo has none, there should be no particular problem. –  supercat Mar 19 '12 at 22:27
@Aaronaught: In what way is ICollection<Cat>.CopyTo() really more type-safe than ICollection.CopyTo()? Both methods would accept at compile time a parameter of type SiameseCat[], but would fail at run-time unless all the items to be put in the array happen to be instances of SiameseCat or a subtype thereof (a condition which should not generally be relied upon in an ICollection<Cat>)? –  supercat Jun 7 '13 at 21:05

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