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In C#, the LinkedList(T) class does not implement the IList(T) interface. However, the List(T) class does implement IList(T). Why is there this discrepancy? Functionally, they are both lists, so this design choice seems odd. It now becomes difficult to switch implementations from List(T) to LinkedList(T).

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LinkedList<T> offer faster insertion and remove operations compared to List<T>, at the same time it doesnt offer index operations. It is one trade off LinkedList<T> makes to get insertion and remove faster. The same holds for List<T> in the opposite direction. –  nawfal Jun 2 at 16:46
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9 Answers 9

up vote 21 down vote accepted

IList<T> interface contains an indexer, the indexer is not a functionality you expect on a LinkedList.

List<T> can assure access to items in O(1), LinkedList by definition of it's it structure can't provide access to items in O(1).

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Thank you, everyone, for your answers. I overlooked that the definition of an IList is "Represents a collection of objects that can be individually accessed by index." It doesn't match up with my idea of a list, but hey, it's their language, they can choose the definitions. Many people have claimed that linked lists cannot support indexing, however the Java language's linked list does indeed have indexes (their documentation makes no claim on it's time-efficiency). –  Michael Venable Aug 27 '10 at 14:13
I ran into this problem once, and ended up making my own IndexedLinkedList class (yeah, it sounds stupid, but was the best option). It's good to keep track of the differences. –  NickAldwin Aug 27 '10 at 14:35
Note that ensuring the access of an item in the list in O(1) time is a promise that the implementation (List<T>) makes, not a requirement of the contract (IList<T>). Your answer is wrong as providing indexed access can be accomplished by traversing the linked list. Of course, doing this will not be as efficient for the general case, taking O(N) time. –  casperOne Apr 30 '13 at 13:59
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See the definition of a linked list, and you will understand.

Main issue, LinkedLists can contain circular references, and thus does not have an index.

Linked lists are among the simplest and most common data structures; they provide an easy implementation for several important abstract data structures, including stacks, queues, associative arrays, and symbolic expressions.

The principal benefit of a linked list over a conventional array is that the order of the linked items may be different from the order that the data items are stored in memory or on disk. For that reason, linked lists allow insertion and removal of nodes at any point in the list, with a constant number of operations.

On the other hand, linked lists by themselves do not allow random access to the data, or any form of efficient indexing. Thus, many basic operations — such as obtaining the last node of the list, or finding a node that contains a given datum, or locating the place where a new node should be inserted — may require scanning most of the list elements.

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I disagree with the idea that they're the simplest or most common data structures. They're a pain in the ass to implement on your own, and have all kinds of issues you have to account for. And I barely ever see them implemented. Stacks are frequently used and very easy to implement on the other hand. –  Jimmy Hoffa Aug 27 '10 at 13:53
But that doesn't preclude accessing by index. If you define the indexer such that each successive "hop" in the list decrements the index, then you'd have an indexer. A very inefficient indexer, but an indexer. Hence, I think indexers aren't implemented on a linked list to prevent you from shooting yourself in the foot, much like they're not supported directly for IEnumerable<T>. –  Kent Boogaart Aug 27 '10 at 13:54
Well the idea is pretty simple, isn't it? Let each node link to its neightbor, and you have yourself a list :). About most common I agree: I never use LinkedLists! –  Arcturus Aug 27 '10 at 13:56
@Kent: Building your own index that way would also be pretty useless with a circular reference. ;) –  Arcturus Aug 27 '10 at 13:58
The LinkedList class can prevent you from creating circular references. If you don't have access to the list's nodes, then you cannot do anything the LinkedList does not allow. –  Michael Venable Aug 27 '10 at 14:01
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LinkedList is actually a widely-known list data structure which has following operation complexity:

Insertion: O(1)

Removal: O(1)

Indexing: O(N)

Whereas List is a continuos array, which has following algorithm complexity:

Insertion*: O(1)

Removal*: O(N)

Indexing: O(1)

They do not provide the common interface, cause it will misguide users of the interface and make programs efficiency unpredictable. For more information check out books on algorithms and data structures.

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Insertion is O(N) for lists. –  Jason Aug 27 '10 at 14:46
yes, @Jason is right, insertion is O(N) - indeed it's amortised O(N). Appending is amortised O(1). Interestingly enough insertion-at-index is O(N) for a linked list but amortised O(N) for List. –  Jon Hanna Aug 27 '10 at 16:15
I start wondering that "same interface" means same function AND same computation complexity? –  LoveRight Jan 20 '13 at 14:54
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There are three types of guarantee given by an interface, 1 programmatic and 2 conceptual.

The programmatic guarantee is that you can call a method or property that exists. .NET enforces this guarantee.

The first conceptual guarantee is that it will work. This is often broken (NotImplementedException and NotSupportedException exist precisely to break this) but there should be a good reason for doing this. Still, it's more a promise than a guarantee.

The second conceptual guarantee is also more a promise than a guarantee, which is that the method or property will work much like other cases.

People are used to getting on an IList's indexer working in reasonably fast - O(1) or at worse about O(log n) - and breaking that conceptual promise will lead to people using your object badly.

There's no concrete rule here. You certainly can implement IList as a linked list, and suffer the O(n) indexed get. You can also implement a linked list in such a way that it doesn't keep a record of its count (as that supplied by the framework does) and have an O(n) Count property. But then people are more likely to use it badly.

Part of component design is not just making sure things work and work well, but guiding their use. A linked list that implements IList would fail at the latter point, and hence one could make a strong argument that it would not be as good a design as that offered.

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Thanks for your detailed reply. I could talk design all day. I made a comparison to Java earlier and mentioned that Java linked lists support indexes. It seems the key distinction is that the indexer in .NET is a property and properties, in general, are not expected to do long computations. Java doesn't have properties nor does it obey their conventions, so their linked list indexer probably runs in O(n). Too bad...it would be nice to switch my list implementation based on which I thought was more efficient for the job; easier to do if they share the IList interface. –  Michael Venable Aug 27 '10 at 15:10
There's nothing to stop you wrapping a linked-list in something that supports IList, though I would disagree because I agree with the reasoning behind it not supporting it by default. Likewise, if LinkedList really is more efficient for a job, it's likely a job that is best done without use of IList. –  Jon Hanna Aug 27 '10 at 16:12
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The LinkedList is not a List. Lists are singular dimensional collections of objects. A LinkedList is a node collection, more closely aligned with a Dictionary. Its needs are not similar to a regular List but more specialized to allow for the node traversal and organization behaviors.

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A linked list is not a data structure that is designed to be accessed by index, however, IList<T> provides index access capabilities.

So, as you can't access items in a linked list by index, you can't provide methods that try to do that.

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A "List" is data structure terms is not a linked list; it's actually an array -- List item are directly accessible, using the indexer, which is not available (not practical) in a linked list.

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Historical quirk: in .NET 1.1 an ArrayList was the class that acts like a dynamic length array.

In .NET 2+ still, List internally organizes as an array. This means that IList expects Array semantics, really.

In .NET, Lists are like arrays, not lists.... (boing)

True linked lists have constant time insertion, deletion, but slow enumeration and slower random access.

Arrays have quick enumeration and random access, but have costly insertion / deletion (O(n) and reallocation can quicly lead to completely different behaviour)

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Because accessing a linked list by index is not O(1).

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