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I've seen them used in a lot of the same ways, and I am worried I'm about to go down a path in design that is irreversible if I don't understand this better. Also, I am using .NET.

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12 Answers 12

up vote 36 down vote accepted

Collection<T> is a customizable wrapper around IList<T>. While IList<T> is not sealed, it doesn't provide any customization points. Collection<T>'s methods are by default delegated to the standard IList<T> methods, but can be easily overridden to do what you want. It is also possible to wireup events inside a Collection<T> that I don't believe could be done with an IList.

In short, it's much easier to extend it after the fact, which could potentially mean a lot less refactoring.

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Well, around IList<T> (List<T> is just the default), but good answer other than that. – Marc Gravell Dec 29 '08 at 23:23
Good point. Corrected. – Adam Lassek Dec 30 '08 at 16:43
@Marc Gravell, @Adam Lassek: Can't we do the same thing with a List by hiding the InsertItem(...) method with a public void new InsertItem(...) and then calling the base.InsertItem(...) from within ? It would still not break the contract. (the name is 'Insert' in List, but nonetheless). So what is the big deal in sticking to Collections<T> ? – DeeStackOverflow Mar 11 '11 at 16:25
@DeeStackOverflow - because method hiding won't be used by any code that uses a different API - i.e. Anything that looks for IList, IList<T>, List<T> etc. In short, you have no idea whether it will be called. Polymorphism fixes this. – Marc Gravell Mar 11 '11 at 18:29
@AdamLassek: You might want to add in your answer about ObservableCollection<T> as an example where methods are overriden to notify about changes. – Kiran Challa Nov 15 '15 at 13:45

List<T> is intended for internal use within the application code. You should avoid writing public APIs that accept or return List<T> (consider using a superclass or a collection interface instead).

Collection<T> serves a base class for custom collections (although it can be used directly).

Consider using Collection<T> in your code unless there are specific features of List<T> that you need.

The above are just recommendations.

[Adapted from: Framework Design Guidelines, Second Edition]

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Where did these guidelines come from? – Tad Donaghe Dec 29 '08 at 22:40
Sorry, I should've mentioned this. Framework Design Guidelines, Second Release – Arnold Zokas Dec 29 '08 at 22:45
It looks like Collection<T> has been removed from System.Collections.Generic as of .NET 3.5, so there might be migration issues if you used Collection<T> instead of List<T>? – Tad Donaghe Dec 29 '08 at 23:06
I believe that Collection<T> is defined in the System.Collections.ObjectModel namespace [assembly:mscorlib] – Arnold Zokas Dec 29 '08 at 23:09
Ahh! Thanks ArnieZ! – Tad Donaghe Dec 29 '08 at 23:11

List<T> is a very commonly seen container, because it is so very versatile (with lots of handy methods like Sort, Find, etc) - but has no extension points if you want to override any of the behaviour (check items on insert, for example).

Collection<T> is a wrapper around any IList<T> (defaulting to List<T>) - it has the extension points (virtual methods), but not as many support methods like Find. Because of the indirection, it is slightly slower than List<T>, but not by much.

With LINQ, the extra methods in List<T> become less important, since LINQ-to-Objects tends to provide them anyway... for example First(pred), OrderBy(...), etc.

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Collection<T> lacks method foreach, even in Linq-to-Objects. – tuinstoel Dec 29 '08 at 23:32
@tuinstoel - but it is trivial to add. – Marc Gravell Dec 30 '08 at 15:01

In C#, there are three concepts for representing a bag of objects. In order of increasing features, they are:

  • Enumerable - unordered, unmodifiable
  • Collection - can add/remove items
  • List - allows items to have an order (accessing and removing by index)

Enumerable has no order. You cannot add or remove items from the set. You cannot even get a count of items in the set. It strictly lets you access each item in the set, one after the other.

Collection is a modifiable set. You can add and remove objects from the set, you can also get the count of items in the set. But there still is no order, and because there is no order: no way to access an item by index, nor is there any way to sort.

List is an ordered set of objects. You can sort the list, access items by index, remove items by index.

In fact, when looking at the interfaces for these, they build on one another:

  • interface IEnumerable<T>

    • GetEnumeration<T>
  • interface ICollection<T> : IEnumerable<T>

    • Add
    • Remove
    • Clear
    • Count
  • interface IList<T> = ICollection<T>

    • Insert
    • IndexOf
    • RemoveAt

When declaring variables, or method parameters, you should choose to use

  • IEnumerable
  • ICollection
  • IList

based on conceptually you need to do with the set of objects.

If you just need to be able to do something to every object in a list, then you only need IEnumerable:

void SaveEveryUser(IEnumerable<User> users)
    for User u in users

You don't care if the Users are kept in a List<T>, Collection<T>, Array<T> or anything else. You only need the IEnumerable<T> interface.

If you need to be able to add, remove, or count the items in a set, then use a Collection:

ICollection<User> users = new Collection<User>();
users.Add(new User());

If you care about a sort order, and need the order to be correct, then use a List:

IList<User> users = FetchUsers(db);

In chart form:

| Feature                | IEnumerable<T> | ICollection<T> | IList<T> |
| Enumerating items      | X              | X              | X        |
|                        |                |                |          |
| Adding items           |                | X              | X        |
| Removing items         |                | X              | X        |
| Count of items         |                | X              | X        |
|                        |                |                |          |
| Accessing by index     |                |                | X        |
| Removing by indexx     |                |                | X        |
| Getting index of item  |                |                | X        |

The List<T> and Collection<T> in System.Collections.Generic are two classes that implement these interfaces; but they aren't the only classes:

  • ConcurrentBag<T> is an ordered bag of objects (IEnumerable<T>)
  • LinkedList<T> is a bag where you are not allowed to access items by index (ICollection); but you can arbitrarily add and remove items from the collection
  • SynchronizedCollection<T> in an ordered collection, where you can add/remove items by index

So you can easily change:

IEnumerable<User> users = new SynchronizedCollection<User>();



  • Enumerable - access items, unordered, unmodifiable
  • Collection - can be modified (add,delete,count)
  • List - can access by index

Choose the concept you need, then use the matching class.

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This should be an MSDN page, it finally clicked after reading this. – amnesia Jun 11 '15 at 14:06
The OP asked about the concrete types, and you've compared the Interfaces. The concrete type Collection<T> implements IList<T> and has accessing by index capabilities. – JJS Sep 23 '15 at 21:07
The answer is good but deviated from the question.Can't fit your answer for Collection<T> and List<T> classes, I mean from question prospective if I try to validated your point they just don't justify. For a general purpose answer you may be right that collection is not ordered so no indexing, but list is ordered so insertion is possible at a certain index. – Kylo Ren Mar 26 at 5:33

List represents a collection where the order of items is important. It also supports methods s.a. Sort and search. Collection is a more general data-structure which makes less assumptions about the data and also supports less methods to manipulate it. If you want to expose a custom data structure, you should probably extend the collection. If you need to manipulate data w/o exposing the data-structure, a list is probably the more convenient way to go.

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List is faster.

Do for example

private void button1_Click(object sender, EventArgs e)
  Collection<long> c = new Collection<long>();
  Stopwatch s = new Stopwatch();
  for (long i = 0; i <= 10000000; i++)
  MessageBox.Show("collect " + s.ElapsedMilliseconds.ToString());

  List<long> l = new List<long>();
  Stopwatch s2 = new Stopwatch();
  for (long i = 0; i <= 10000000; i++)
  MessageBox.Show("lis " + s2.ElapsedMilliseconds.ToString());


on my machine List<> is almost twice as fast.


I can't understand why people are downvoting this. Both on my work machine and my home machine the List<> code is 80% faster.

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How is it faster? Lookup? Insertion? Removal? Search? Why is it faster? – Doug T. Dec 29 '08 at 22:33
List is fewer letters to type than Collection :) – RedFilter Dec 29 '08 at 22:39
Collection has fewer methods. Therefore it's faster. QED. (joking, I'm not trolling) – Ray Dec 29 '08 at 22:41
Tried it on my machine and list is about 20% faster. Would be interested in some discussion on why this might be. Maybe the list is better with allocating memory. – Ray Dec 29 '08 at 23:55
List's methods aren't inheritable so there aren't checks to see if they have been inherited; Collection's methods are inheritable. The advantage is that you can use Collection as a base class to inherit from and create a custom Collection. – Richard Gadsden Mar 9 '10 at 11:13

This is one of those grad school questions. A Collection of T is sort of abstract; there may be a default implementation (I'm not a .net/c# guy) but a collection will have basic operations like add, remove, iterate, and so on.

List of T implies some specifics about these operations: add should take constant time, remove should take time proportional to the number of elements, getfirst should be consant time. In general, a List is a kind of Collection, but a Collection isn't necessarily a kind of List.

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Hanselman Speaks: "Collection<T> looks like a list, and it even has a List<T> internally. EVERY single method delegates to the internal List<T>. It includes a protected property that exposes the List<T>."

EDIT: Collection<T> doesn't exist in System.Generic.Collections .NET 3.5. If you migrate from .NET 2.0 to 3.5 you'll need to change some code if you're using a lot of Collection<T> objects, unless I'm missing something obvious...

EDIT 2: Collection<T> is now in the System.Collections.ObjectModel namespace in .NET 3.5. The help file says this:

"The System.Collections.ObjectModel namespace contains classes that can be used as collections in the object model of a reusable library. Use these classes when properties or methods return collections."

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Both implement the same interfaces, so they'll behave the same way. Perhaps they are implemented differently internally, but this would have to be tested.

The only real differences I see are the namespaces and the fact that Collection<T> is marked with ComVisibleAttribute(false), so COM code can't use it.

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They implement different interfaces - List<T> implements IList<T>, where Collection<T> does not. – Bevan Dec 29 '08 at 23:20
@Bevan try it in c#, they both implement same set of interfaces – Kylo Ren Mar 26 at 5:36
That's an interesting change @KyloRen - they do now both implement the same set of interfaces; this wasn't the case back in '08. – Bevan Mar 27 at 2:53
@Bevan interesting. Not sure what was the reason of two different classes, one with just some extra methods. – Kylo Ren Mar 28 at 4:49

All of these interfaces inherit from IEnumerable, which you should make sure you understand. That interface basically lets you use the class in a foreach statement (in C#).

  • ICollection is the most basic of the interfaces you listed. It's an enumerable interface that supports a Count and that's about it.
  • IList is everything that ICollection is, but it also supports adding and removing items, retrieving items by index, etc. It's the most commonly-used interface for "lists of objects", which is vague I know.
  • IQueryable is an enumerable interface that supports LINQ. You can always create an IQueryable from an IList and use LINQ to Objects, but you also find IQueryable used for deferred execution of SQL statements in LINQ to SQL and LINQ to Entities.
  • IDictionary is a different animal in the sense that it is a mapping of unique keys to values. It is also enumerable in that you can enumerate the key/value pairs, but otherwise it serves a different purpose than the others you listed
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ICollection supports adding/removing/clearing:… – amnesia Jun 11 '15 at 14:09

According to MSDN, List(Of T).Add is "an O(n) operation" (when "Capacity" is exceeded) while Collection(Of T).Add is always "an O(1) operation". That would understandable if List is implemented using an Array and Collection a Linked List. However, if that were the case, one would expect Collection(Of T).Item to be "an O(n) operation". But - it's - not!?! Collection(Of T).Item is "an O(1) operation" just like List(Of T).Item.

On top of that, "tuinstoel"'s "Dec 29 '08 at 22:31" post above claims speed tests show List(Of T).Add to be faster than Collection(Of T).Add which I've reproduced with Long's and String's. Although I only got ~33% faster vs. his claimed 80%, according MSDN, it should've been the opposite and by "n" times!?!

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In addition to other asnwers, I've compiled quick overview of generic list and collection capabilities. Collection is limited subset of the List:

* = present
o = partially present

Property/Method   Collection<T>   List<T>
Add()                *              *
AddRange()                          *
AsReadOnly()                        *
BinarySearch()                      *
Capacity                            *
Clear()              *              *
Contains()           *              *
ConvertAll()                        *
CopyTo()             o              *
Count                *              *
Equals()             *              *
Exists()                            *
Find()                              *
FindAll()                           *
FindIndex()                         *
FindLast()                          *
FindLastIndex()                     *
ForEach()                           *
GetEnumerator()      *              *
GetHashCode()        *              *
GetRange()                          *
GetType()            *              *
IndexOf()            o              *
Insert()             *              *
InsertRange()                       *
Item()               *              *
LastIndexOf()                       *
New()                o              *
ReferenceEquals()    *              *
Remove()             *              *
RemoveAll()                         *
RemoveAt()           *              *
RemoveRange()                       *
Reverse()                           *
Sort()                              *
ToArray()                           *
ToString()           *              *
TrimExcess()                        *
TrueForAll()                        *
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