The answers to questions like this: List<T> or IList<T> always seem to agree that returning an interface is better than returning a concrete implementation of a collection. But I'm struggling with this. Instantiating an interface is impossible, so if your method is returning an interface, it's actually still returning a specific implementation. I was experimenting a bit with this by writing 2 small methods:

public static IList<int> ExposeArrayIList()
    return new[] { 1, 2, 3 };

public static IList<int> ExposeListIList()
    return new List<int> { 1, 2, 3 };

And use them in my test program:

static void Main(string[] args)
    IList<int> arrayIList = ExposeArrayIList();
    IList<int> listIList = ExposeListIList();

    //Will give a runtime error
    //Runs perfectly

In both cases when I try to add a new value, my compiler gives me no errors, but obviously the method which exposes my array as an IList<T> gives a runtime error when I try to add something to it. So people who don't know what's happening in my method, and have to add values to it, are forced to first copy my IList to a List to be able to add values without risking errors. Of course they can do a typecheck to see if they're dealing with a List or an Array, but if they don't do that, and they want to add items to the collection they have no other choice to copy the IList to a List, even if it already is a List. Should an array never be exposed as IList?

Another concern of mine is based upon the accepted answer of the linked question (emphasis mine):

If you are exposing your class through a library that others will use, you generally want to expose it via interfaces rather than concrete implementations. This will help if you decide to change the implementation of your class later to use a different concrete class. In that case the users of your library won't need to update their code since the interface doesn't change.

If you are just using it internally, you may not care so much, and using List may be ok.

Imagine someone actually used my IList<T> they got from my ExposeListIlist() method just like that to add/remove values. Everything works fine. But now like the answer suggests, because returning an interface is more flexible I return an array instead of a List (no problem on my side!), then they're in for a treat...


1) Exposing an interface causes unnecessary casts? Does that not matter?

2) Sometimes if users of the library don't use a cast, their code can break when you change your method, even though the method remains perfectly fine.

I am probably overthinking this, but I don't get the general consensus that returning an interface is to be preferred over returning an implementation.

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    Then return IEnumerable<T> and you have compile time safety. You can still use all LINQ extension methods which normally try to optimize performance by casting it to a specific type(Like ICollection<T> to use the Count property instead of enumerating it). – Tim Schmelter Dec 17 '15 at 12:16
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    Arrays implement IList<T> by a "hack". If you want to expose a method returning it, return a type actually implementing it. – CodeCaster Dec 17 '15 at 12:19
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    Just don't make promises you cannot keep. The client programmer is pretty likely to be disappointed when he reads your "I'll return a list" contract. It is not so just don't do that. – Hans Passant Dec 17 '15 at 12:21
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    From MSDN: 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. – Hamid Pourjam Dec 17 '15 at 12:22
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    @AlexanderDerck: if you want that the consumer can add items to your list, don't make it IEnumerable<T> in the first place. Then it's fine to return IList<T> or List<T>. – Tim Schmelter Dec 17 '15 at 12:22

Maybe this is not directly answering your question, but in .NET 4.5+, I prefer to follow these rules when designing public or protected APIs:

  • do return IEnumerable<T>, if only enumeration is available;
  • do return IReadOnlyCollection<T> if both enumeration and items count are available;
  • do return IReadOnlyList<T>, if enumeration, items count and indexed access are available;
  • do return ICollection<T> if enumeration, items count and modification are available;
  • do return IList<T>, if enumeration, items count, indexed access and modification are available.

Last two options assume, that method must not return array as IList<T> implementation.

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    Not an answer indeed, but good rule of thumb and very helpful to me :) I've been struggling a lot with choosing what to return lately. Cheers! – Alexander Derck Dec 17 '15 at 12:40
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    This is indeed the right principle +1. Just for completeness I would add IReadOnlyCollection<T> and ICollection<T> which have their usage for non indexable containers (for instance the later is de facto a standard for EF entity sub collection navigation properties) – Ivan Stoev Dec 17 '15 at 13:00
  • @IvanStoev Can you edit the answer please with those added? It would be nice if I finally get a list of where to use what interface – Alexander Derck Dec 17 '15 at 13:47
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    It has to be noted that IReadOnlyCollection<T> and IReadOnlyList<T> have the same flaw as the C++'s const does. There are two possibilities: either the collection is immutable, or it is only your way of access to the collection that forbids you from modifying it. And you cannot tell one from another. – ach Dec 18 '15 at 10:40
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    @Panzercrisis: I would choose the second option, of course - IEnumerable<T>. As an API developer you have full knowledge about allowed use-cases. If method results are intended to be enumerated only, then there's no reason to expose IList<T>. The less allowed to do with result, the more flexible is the method implementation. E.g., exposing IEnumerable<T> allows you to change implementation to yield returns, IList<T> doesn't allow this. – Dennis Dec 1 '16 at 7:31

No, because the consumer should know what exactly IList is:

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.

You can check for IList.IsFixedSize and IList.IsReadOnly and do what you want with it.

I think IList is an example of a fat interface and it should have been split into multiple smaller interfaces and it also violates Liskov substitution principle when you return an array as an IList.

Read more if you want to make decision about returning interface


Digging more and I found that IList<T> does not implement IList and IsReadOnly is accessible through base interface ICollection<T> but there is no IsFixedSize for IList<T>. Read more about why generic IList<> does not inherit non-generic IList?

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    Those properties are good, but it still defeats the purpose of an interface in my opinion. For me, interface is a contract, which shouldn't depend on any checks or whatever – Alexander Derck Dec 17 '15 at 12:28
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    It really would have been kinder to the developer if they'd provided an additional interface that has (non-fixed size/non-read-only) List<T> semantics, but there's probably sound reasoning as to why this wasn't included.... but, yes, I think your idea of several interfaces covering the various features would be a much sounder choice; – spender Dec 17 '15 at 12:28
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    IList<T> is a fat interface but it's the most you can get from array and list. So if it would have broken into multiple interfaces you might not be able to use some methods with lists and arrays but only with one of them, even if all methods you want to use are supported(like IList.Count or the indexer). So in my opinion it was a good decision. If it causes a NotSupportedException in very few cases where one wants to use Add on an array, well, that's the deal. – Tim Schmelter Dec 17 '15 at 12:35
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    @dotctor What a coincidence, I was reading about Liskov substitution principle yesterday and that got me thinking actually :) thanks for the answer – Alexander Derck Dec 17 '15 at 12:43
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    Well this answer combined with Dennis rules can certainly improve understanding of how to deal with this dilemma. Needless to say that Liskov substitution principle is violated here and there in .NET framework and it's not something particular to be worried about. – Fabjan Dec 17 '15 at 12:46

As with all "interface versus implementation" question, you'll have to realise what exposing a public member means: it defines the public API of this class.

If you expose a List<T> as a member (field, property, method, ...), you tell the consumer of that member: the type obtained by accessing this method is a List<T>, or something derived of that.

Now if you expose an interface, you hide the "implementation detail" of your class using a concrete type. Of course you can't instantiate IList<T>, but you can use an Collection<T>, List<T>, derivations thereof or your own type implementing IList<T>.

The actual question is "Why does Array implement IList<T>", or "Why has the IList<T> interface so many members".

It also depends on what you want the consumers of that member to do. If you actually return an internal member through your Expose... member, you'll want to return a new List<T>(internalMember) anyway, as otherwise the consumer can try and cast them to IList<T> and modify your internal member through that.

If you just expect consumers to iterate the results, expose IEnumerable<T> or IReadOnlyCollection<T> instead.

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    "The actual question is "Why does Array implement IList<T>", or "Why has the IList<T> interface so many members". ", that's indeed something I was struggling with. – Alexander Derck Dec 17 '15 at 12:45
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    @Fabjan - IList<T> does have methods to add and remove items, which is why it's bad for arrays to implement. The IsReadOnly property is a hack to gloss over the differences when it should have been split into (at least) two interfaces. – Lee Dec 17 '15 at 13:01
  • @Lee Whoops, you're right, deleting my inaccurate comment – Fabjan Dec 17 '15 at 13:15
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    @AlexanderDerck it's something I've asked previously stackoverflow.com/q/5968708/706456 – oleksii Dec 17 '15 at 16:35
  • @oleksii it's similar indeed, but I wouldn't call it a duplicate – Alexander Derck Dec 17 '15 at 17:55

Be careful with blanket quotes that are taken out of context.

Returning an interface is better than returning a concrete implementation

This quote only makes sense if it's used in the context of the SOLID principles. There are 5 principles but for the purposes of this discussion we'll just talk about the last 3.

Dependency inversion principle

one should “Depend upon Abstractions. Do not depend upon concretions.”

In my opinion, this principle is the most difficult to understand. But if you look at the quote carefully it looks a lot like your original quote.

Depend on interfaces (abstractions). Do no depend on concrete implementations (concretions).

This is still a little confusing but if we start applying the other principles together it starts to make a lot more sense.

Liskov substitution principle

“objects in a program should be replaceable with instances of their subtypes without altering the correctness of that program.”

As you pointed out, returning an Array is clearly different behavior to returning a List<T> even though they both implement IList<T>. This is most certainly a violation of LSP.

The important thing to realize is that interfaces are about the consumer. If you're returning an interface, you've created a contract that any methods or properties on that interface can be used without changing the behavior of the program.

Interface segregation principle

“many client-specific interfaces are better than one general-purpose interface.”

If you're returning an interface, you should return the most client specific interface your implementation supports. In other words, if you're not expecting the client to call the Add method you shouldn't return an interface with an Add method on it.

Unfortunately, the interfaces in the .NET framework (particularly the early versions) are not always ideal client specific interfaces. Although as @Dennis pointed out in his answer, there are a lot more choices in .NET 4.5+.

  • Reading up on Liskov's principle was what got me confused in the first place for IList<T> – Alexander Derck Dec 23 '15 at 7:36
  • In the particular case it's the Array that violates LSP. If you are returning an IList you should never return an array because if this violation. You've already made the contract with the caller that they are getting back a list that can have items added and removed. – craftworkgames Dec 23 '15 at 7:53

Returning an interface is not necessarily better than returning a concrete implementation of a collection. You should always have a good reason to use an interface instead of a concrete type. In your example it seems pointless to do so.

Valid reasons to use an interface could be:

  1. You do not know what the implementation of the methods returning the interface will look like and there may be many, developed over time. It may be other people writing them, from other companies. So you just want to agree on the bare necessities and leave it up to them how to implement the functionality.

  2. You want to expose some common functionality independent from your class hierarchy in a type-safe way. Objects of different base types that should offer the same methods would implement your interface.

One could argue that 1 and 2 are basically the same reason. They are two different scenarios that ultimately lead to the same need.

"It's a contract". If the contract is with yourself and your application is closed in both functionality and time, there is often no point in using an interface.

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    I don't really agree, if it's possible to return an interface i'd return an interface as that's the only thing that's needed. If a method expects an interface, I can pass a class which only implements that interface to it, but also a class which implements the interface + loads of other things. With interface it's easier to extend your application without rewriting existing things – Alexander Derck Dec 17 '15 at 13:01
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    It can be really enlightening to develop all your software (and especially your classes and class libraries) with the mindset of "What if someone else was to use this class (library)?" and "What if I want to add functionality to the concrete type I want to return?". BCL types can be sealed, so you can't extend them. Then you're stuck if you want to return something else, as your API promises to expose that exact type, as opposed to an interface. Returning an interface is almost always better than returning a concrete implementatoin. – CodeCaster Dec 17 '15 at 13:11
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    I agree (really), I should have added a third reason: "limit the functionality of a returned object to its essence to clarify the message to the caller". I too return IReadOnlyXxx interfaces whenever possible rather than the full fledged object utilized to assemble the collection. – Martin Maat Dec 17 '15 at 13:22

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