See the definition of System.Array class

public abstract class Array : IList, ...

Theoretically, I should be able to write this bit and be happy

int[] list = new int[] {};
IList iList = (IList)list;

I also should be able to call any method from the iList

 ilist.Add(1); //exception here

My question is not why I get an exception, but rather why Array implements IList?

  • 24
    Good question. I never liked the idea of fat interfaces (that’s the technical term for this kind of design). May 11 '11 at 18:19
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  • 2
    Does anybody actually care about LSP? It seems quite academic to me.
    – Gabe
    May 11 '11 at 18:30
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    @Gabe, then you need to work with larger codebases. Implementing a behavior (inheriting from an interface) and then simply ignoring the things you don't like/can't support leads to smelly, obfuscated, casting and finally: buggy code.
    – Marius
    Oct 17 '12 at 8:35
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    @Gabe its the collection which implies mutability not its contained entities. You can make your class member of a type that implements both IRWList<> and IReadList<>, use if as IRWList<> internally in your class and expose it as IReadList. Yes, you have to put complexity somewhere, but I just don't see how that applies to disregarding LSP as a very good design principle (did not know about the IsReadOnly property though which makes IList more complex from a consumers standpoint)
    – Marius
    Oct 19 '12 at 10:22

Because an array allows fast access by index, and IList/IList<T> are the only collection interfaces that support this. So perhaps your real question is "Why is there no interface for constant collections with indexers?" And to that I have no answer.

There are no readonly interfaces for collections either. And I'm missing those even more than a constant sized with indexers interface.

IMO there should be several more (generic) collection interfaces depending on the features of a collection. And the names should have been different too, List for something with an indexer is really stupid IMO.

  • Just Enumeration IEnumerable<T>
  • Readonly but no indexer (.Count, .Contains,...)
  • Resizable but no indexer, i.e. set like (Add, Remove,...) current ICollection<T>
  • Readonly with indexer (indexer, indexof,...)
  • Constant size with indexer (indexer with a setter)
  • Variable size with indexer (Insert,...) current IList<T>

I think the current collection interfaces are bad design. But since they have properties telling you which methods are valid (and this is part of the contract of these methods), it doesn't break the substitution principle.

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    thanks for the answer. But I rather leave the question as is. The reason is simple. Interface is a public contract. If one implements it, one must fully implement all the members, otherwise it breaks LSP and generally smells bad, is it not?
    – oleksii
    May 11 '11 at 18:32
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    It does break LSP. If it didn't list.Add(item) should add item to the list regardless of the concrete type. Except for exceptionel cases. In the array implementation in throws an exception in a non-exceptionel case, which in it self is bad practice
    – Rune FS
    May 13 '11 at 15:58
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    @smelch I'm sorry but you got LSP wrong then. An array does not implement add and thus can't be substituted for something that does when that ability is required.
    – Rune FS
    Aug 12 '14 at 6:55
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    I concede that it technically does not violate LSP only because the documentation states you should check the IsFixedSize and IsReadOnly properties, it definitely violates the Tell, Don't Ask principle and Principle of least surprise. Why implement an interface when you're just going to throw exceptions for 4 out of the 9 methods?
    – Matthew
    Sep 5 '14 at 19:07
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    Some time has passed since the original question. But now with .Net 4.5, there are additional interfaces IReadOnlyList and IReadOnlyCollection.
    – Tobias
    Apr 8 '15 at 12:16

The remarks section of the documentation for IList says:

IList is a descendant of the ICollection interface and is the base interface of all non-generic lists. IList implementations fall into three categories: read-only, fixed-size, and variable-size. A read-only IList cannot be modified. A fixed-size IList does not allow the addition or removal of elements, but it allows the modification of existing elements. A variable-size IList allows the addition, removal, and modification of elements.

Obviously, arrays fall into the fixed-size category, so by the definition of the interface it makes sense.

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    I guess they would have ended up with a lot of interfaces. IListFixedSize, IListReadOnly...
    – Magnus
    May 11 '11 at 18:26
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    that'a actually a good answer from the documentation's point of view. But to me it rather looks like a hack. Interfaces must be thin and simple in order for a class to implement all the members.
    – oleksii
    May 11 '11 at 18:38
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    @oleksii: I agree. Interfaces and runtime exceptions are not the most elegant combination. In defense of Array it does implement the Add method explicitly, which reduces the risk of calling it by accident. May 11 '11 at 18:41
  • Until we create an implementation of IList that disallows both modification and addition/removal. Then the documentations is no longer correct. :P
    – Timo
    Oct 24 '16 at 15:42
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    @Magnus - In .Net 4.5, there are additional interfaces IReadOnlyList and IReadOnlyCollection.
    – RBT
    Apr 24 '17 at 3:03

Because not all ILists are mutable (see IList.IsFixedSize and IList.IsReadOnly), and arrays certainly behave like fixed-size lists.

If your question is really "why does it implement a non-generic interface", then the answer is that these were around before generics came along.

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    @oleksii: No, it doesn't break LSP, because the interface IList itself tells you that it may not be mutable. If it was in fact guaranteed to be mutable and the array told you otherwise, then it would break the rule.
    – user541686
    May 11 '11 at 18:34
  • Actually, Array does break LSP in case of generic IList<T> and doesn't break it in case of non-generic IList: enterprisecraftsmanship.com/2014/11/22/…
    – Vladimir
    Nov 22 '14 at 15:04
  • @joe: I don't believe there is a way, though you can always try to cast to IList and check that. You should ask this in a separate question though...
    – user541686
    Mar 15 at 4:51

It's a legacy that we have from the times when it wasn't clear how to deal with read only collections and whether or not Array is read only. There are IsFixedSize and IsReadOnly flags in the IList interface. IsReadOnly flag means that collection can't be changed at all and IsFixedSize means that collection does allow modification, but not adding or removal of items.

At the time of .Net 4.5 it was clear that some "intermediate" interfaces are required to work with read only collections, so IReadOnlyCollection<T> and IReadOnlyList<T> were introduced.

Here is a great blog post describing the details: Read only collections in .NET


Definition of IList interface is "Represents a non-generic collection of objects that can be individually accessed by index.". Array completely satisfies this definition, so must implement the interface. Exception when calling Add() method is "System.NotSupportedException: Collection was of a fixed size" and occurred because array can not increase its capacity dynamically. Its capacity is defined during creation of array object.


Having an array implement IList (and transitively, ICollection) simplified the Linq2Objects engine, since casting the IEnumerable to IList/ICollection would also work for arrays.

For example, a Count() ends up calling the Array.Length under-the-hood, since it's casted to ICollection and the array's implementation returns Length.

Without this, the Linq2Objects engine would not have special treatment for arrays and perform horribly, or they'd need to double the code adding special-case treatment for arrays (like they do for IList). They must've opted to make array implement IList instead.

That's my take on "Why".


Also implementation details LINQ Last checks for IList , if it did not implement list they would need either 2 checks slowing down all Last calls or have Last on an Array taking O(N)

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