Q1: List<T> is "better" then ICollection<T>, more powerful. Why then in Code first tutorials they use ICollection<T>? Doesn't make any sense. List<T> can do everything that ICollection<T> and much more. Yes, I understand, its an interface and List is a class. But id doesn't answer the question. Why not use IList and not ICollection? And that is related to the following questions as well...

Q2: List<T> is defined as:

public class List<T> : IList<T>, ICollection<T>, IEnumerable<T>, IEnumerable, IList, ICollection, IReadOnlyList<T>, IReadOnlyCollection<T>

where IReadOnlyCollection<T> (for example) is defined as

public interface IReadOnlyCollection<out T> : IEnumerable<T>, IEnumerable

So, it already has IEnumerable<T>, IEnumerable.

Why then use AGAIN IEnumerable<T>, IEnumerable in List<T> definition?

Doesnt make any sense.

Q3: IList<T> is defined like this:

public interface IList<T> : ICollection<T>, IEnumerable<T>, IEnumerable

I dont understand, if List<T> implements IList<T>, when why use ICollection<T>, IEnumerable<T>, IEnumerable in List<T> definition again?

Wouldn't it be shorter to define List as:

public class List<T> : IList<T>

where IList<T> already implements all the interfaces?

Why repeat all these interfaces again and again?


  • It's not about what's better, it's all about the functionality you need. Try not to look at it that way. – Jeff Mercado Oct 18 '15 at 19:09
  • please elaborate... IList has all the functionality of ICollection. Why ICollection? It is not clear to me at all. – monstro Oct 18 '15 at 19:10
  • If you use List you will lose all performace buffs entityframework gives you – bto.rdz Oct 18 '15 at 19:11
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    List<T> defined as: public class List<T> : IList<T>, System.Collections.IList, IReadOnlyList<T> – PetSerAl Oct 18 '15 at 19:23
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    These are all contracts... you usually don't expose a greater functionality than required, so that polymorphic behavior is easier to implement. Which is why we have ICollection<T> as well as IList<T>, and also the IEnumerable<T>... – code4life Oct 18 '15 at 19:28


A List<T> might be more 'powerfull' than an ICollection<T>, but it is less abstract. If ICollection<T> exposes everything you need, then why would you specify that he has to use a List<T> and thereby limit the user of your interface / method / whatever and constrain him that he has to use a List<T>?

The user of your class / interface might not use a List<T> but a HashedSet<T> for instance, which is also an ICollection<T>, but not a List<T>.
If he wants to pass his HashedSet to your method, that would mean he has to convert his set to a list, if you define that your method should accept a List instead of an ICollection<T>.

An ICollection is less specific than a List, which means that as soon as a type implements ICollection, that type can be consumed by your method. Offcourse you can only do this when an ICollection specifies all the functionality that you need in your method.
If you need to be able to access a certain element in the collection by using an indexer, an ICollection<T> would not be a good choice as an argument type for your interface, since ICollection<T> does not define such an indexer.

Q2 & Q3:

It's all about abstraction and the Liskov substitution principle.

When you have a method which accepts an IEnumerable for instance, you can assign an IReadonlyCollection to it, because it implements IEnumerable next to IEnumerable<T>. If it would only implement IEnumerable<T>, then you would not be able to use assign an IReadOnlyCollection<T> as an argument to a method which accepts an argument of type IEnumerable.

  • Sorry I dont get it. Can you post a sample code where I can use ICollection<T> and CANNOT use List<T>? – monstro Oct 18 '15 at 19:14
  • @monstro Any container type that doesn't support index-access will be an ICollection but not an IList - examples are linked lists, hashmaps, etc. – tzaman Oct 18 '15 at 19:23
  • @monstro That's the point, if you have code that can function with an IEnumerable, it can also function with an IList, so there's going to be no such example. – jdphenix Oct 18 '15 at 19:24
  • Q2 and Q3 aren't about LSP, it's just that the framework explicitly lists ALL interfaces that are being implemented. Not listing them wouldn't change behavior at all. See here for example. – tzaman Oct 18 '15 at 19:24

Making your code less specific makes it more powerful. Let's say you have a method like this:

void MyMethod(IList<int> items, int count, int start)
    while(items.Count < count)

The method asks for an IList<int>, does some List-y things, and then returns. However, the method does not do anything you couldn't also do with an ICollection<int>:

void MyMethod(ICollection<int> items, int count, int start)
    while(items.Count < count)

Which of these two methods is more powerful?

It may surprise you, but the answer is the second one. IList<int> implements ICollection<int>, and therefore you can still pass any IList<int> to the second method. However, you can't pass any ICollection<int> to the first method. Having the interfaces depend on each other in this way allows us to write methods that are just as specific as needed, and in this way make our code more powerful by allowing it to work with more types of object.

The only time you run into a situation where you want the more-specific type when you only need the less-specific operations is when working with a library written by a team that hasn't understood this yet.

As for why the documentation shows all of the different interface implementations, you'd have to ask the language designers, but I could guess that they just wanted to be explicit about this, and make it easier for those of us who need to read the documentation and verify that IList does indeed implement ICollection.


First of all, you should define the meaning of better. IList<T> has more functionalities than ICollection<T>. But having more features is not always a better choice. Most of the time, it is better to use a type with least functionalities.

In this case having minimum functionality to satisfy the requirement is better. For example you may mention a collection type like ConcurrentList as a better option. Although it has more functionalities (great for concurrent manipulations), but it has also some performance pitfalls.

Q2 & Q3: For the repetitive interface declarations I think they're not necessary and they write them just for clarity.

  • I defined my "better" above as more powerful. So? Whats not good about it in my specific question? I want proof, not just words. Words I can find in MSDN. Also, what aboyt repetitive interface declarations? – monstro Oct 18 '15 at 19:15
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    @monstro In some situations it's better to pick a less powerful one. – mehrandvd Oct 18 '15 at 19:17
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    @monstro About the repetitive interfaces, I think they're just for more clarity in the code – mehrandvd Oct 18 '15 at 19:28
  • You defined your better as most powerful type? Then go dynamic... the most powerfull type! @monstro – M.kazem Akhgary Oct 18 '15 at 19:42
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    @mehrandvd: agree with your points. especially if I'm using my own custom classes. Why would I want to implement a full IList<T> when I'm only planning to use the minimal interfaces declared in ICollection<T>? It wouldn't make sense. So youre totally right. – code4life Oct 18 '15 at 20:34

This is just a quick extension of Frederik's answer. Why one should always use the most generalized interface

public void Generalized(ICollection<string> collection)

public void Specialized(List<string> collection)

public void SomeOtherMethod()
    ICollection<string> coll = new List<string> { "a", "b" };
    List<string> list = new List<string> { "a", "b" };


    Specialized(coll); //doesn't compile

And about the interface definition, they are there to make it more clear to an user what all they have with a List<T>.


To make it complete, it needs to be noted here, while returning and object from a method, it's always wise to return the most specialized one.

It all boils down to assignment compatibility and re-usability. As input, take the most generalized one so that everything else can be accepted. While returning, return the most specialized one so that it works for most of the calling methods.

public ICollection<string> ReturnGeneralized()
    return new List<string>();

public List<string> ReturnSpecialized()
    return new List<string>();

static void SomeOtherMethod()
    ICollection<string> coll1 = ReturnGeneralized();
    List<string> list1 = ReturnGeneralized(); //doesn't compile

    ICollection<string> coll2 = ReturnSpecialized();
    List<string> list2 = ReturnSpecialized();

So, the ideal method here, should look like

public List<string> MostUsable(IEnumerable<string> collection)
    return new List<string>();
  • Thank you, got it. – monstro Oct 18 '15 at 22:13
  • @monstro the edit might be helpful :) – Arghya C Oct 19 '15 at 4:15

List<T> can do everything that ICollection<T> and much more.

Not really. The main difference between ICollection<T> and IList<T> is that the former is unordered, or let say it differently, the order of the elements is not defined by the interface. While the later provides additional functionality (indexed access), it at the same time it puts constraints on the containers that implement it (due to required list contract invariants). What does that mean - Add/Remove operations for list are highly inefficient (except at the end of the list and especially at the beginning of the list). From the other side, ICollection<T> does not have such constraints, so the containers have a freedom to implement the operations in a most efficient way. For instance, another popular class Dictionary<TKey, TValue> implements ICollection<KeyValuePair<TKey, TValue>> but not IList<KeyValuePair<TKey, TValue>>. Is it less powerfull than List<T>? The answer is no. So far there is no single container that can perform all the operations effectively. Another example: searching IList<T> (Contains, IndexOf) is highly inefficient. Compare to HashSet<T> class implementation of ICollection<T> where Contains, Add and Remove are super fast. If it would have been forced to implement IList<T>' (to make it more powerful by your logic) then the last 2 operations would suffer like inList`.

Why then in Code first tutorials they use ICollection<T>?

I guess you have in mind Entity Framework. Let think. The main purpose of the entities is to support effectively the 4 main db operations called CRUD (create, read, update, delete). As you may see, there is no indexed access (and in general, db tables are not like lists), so putting IList<T> constraint for the implementors of these operations does not make sense. From all standard interfaces ICollection<T> is closer to the minimum functionality needed by both clients and implementors. Note that nothing prevents you to assign List<T> to these EF navigation properties when you are populating the entity, but still allowing EF to use diferent container when they are populating the data from database for you.

To conclude, IList<T> is not suitable for all scenarios, that's why other interfaces that better suit for a specific scenario exist. List<T> is a good class, but definitely not the best - simply because such thing doesn't exist.

P.S. All the above applies of course to your Q1. What about Q2 and Q3 - it's just a matter of taste. Same as some people use optional features like explicit private for class fields, internal for class, this. when accessing class members etc., while other don't. The result is one and the same.

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