# When should I use a List vs a LinkedList

When is it better to use a `List(Of T)` vs a `LinkedList(Of T)`?

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A dude just asked me this in an interview question, I should have just looked it up here. –  rball May 4 '11 at 18:29

I know this answer is late but I found interesting results

``````// temp class to show example
class Temp
{
public decimal A, B, C, D;

public Temp(decimal a, decimal b, decimal c, decimal d)
{
A = a;            B = b;            C = c;            D = d;
}
}
``````

``````        LinkedList<Temp> list = new LinkedList<Temp>();

for (var i = 0; i < 12345678; i++)
{
var a = new Temp(i, i, i, i);
}

decimal sum = 0;
foreach (var item in list)
sum += item.A;
``````

## List (2.4 seconds)

``````        List<Temp> list = new List<Temp>(); // 2.4 seconds

for (var i = 0; i < 12345678; i++)
{
var a = new Temp(i, i, i, i);
}

decimal sum = 0;
foreach (var item in list)
sum += item.A;
``````

Even if you only access data essentially it is much slower!! I say never use a linkedList.

Here is another comparison performing a lot of inserts (we plan on inserting an item at the middle of the list)

``````        LinkedList<Temp> list = new LinkedList<Temp>();

for (var i = 0; i < 123456; i++)
{
var a = new Temp(i, i, i, i);

var curNode = list.First;

for (var k = 0; k < i/2; k++) // in order to insert a node at the middle of the list we need to find it
curNode = curNode.Next;

list.AddAfter(curNode, a); // insert it after
}

decimal sum = 0;
foreach (var item in list)
sum += item.A;
``````

## List (7.26 seconds)

``````        List<Temp> list = new List<Temp>();

for (var i = 0; i < 123456; i++)
{
var a = new Temp(i, i, i, i);

list.Insert(i / 2, a);
}

decimal sum = 0;
foreach (var item in list)
sum += item.A;
``````

## Linked List having reference of location where to insert (.04 seconds)

``````        list.AddLast(new Temp(1,1,1,1));
var referenceNode = list.First;

for (var i = 0; i < 123456; i++)
{
var a = new Temp(i, i, i, i);

}

decimal sum = 0;
foreach (var item in list)
sum += item.A;
``````

So only if you plan on inserting several items and you also somewhere have the reference of where you plan to insert the item then use a linked list. Just because you have to insert a lot of items it does not make it faster because searching the location where you will like to insert it takes time.

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There is one benefit to LinkedList over List (this is .net specific): since the List is backed by an internal array, it is allocated in one contiguous block. If that allocated block exceeds 85000 bytes in size, it will be allocated on the Large Object Heap, a non-compactable generation. Depending on the size, this can lead to heap fragmentation, a mild form of memory leak. –  JerKimball Sep 20 '12 at 6:32
Note that if you're prepending a lot (as you're essentially doing in the last example) or deleting the first entry, a linked list will nearly always be significantly faster, as there is no searching or moving/copying to do. A List would require moving everything up a spot to accommodate the new item, making prepending an O(N) operation. –  cHao Sep 20 '12 at 19:32
Note: This sounds completely typical of ANY linked list implementation, not just .Net's. –  Earlz Nov 11 '12 at 8:26
I think it's notable that a List is implemented using an array. Which means that this array needs to be expanded once the list exceeds it's initial size. Which is again an O(n) operation. In contrast to a linkedlist, there is no storagemove needed so we never have that costly operation O(n). Alinked list is mostly handy when appending a lot of data in the beginning of the list. Correct me if I'm wrong. –  Christophe De Troyer Apr 24 '13 at 19:36
Why the in-loop `list.AddLast(a);` in the last two LinkedList examples? I get doing it once before the loop, as with `list.AddLast(new Temp(1,1,1,1));` in the next to last LinkedList, but it looks (to me) like you're adding twice as many Temp objects in the loops themselves. (And when I double-check myself with a test app, sure enough, twice as many in the LinkedList.) –  ruffin Apr 27 '13 at 16:54

In most cases, `List<T>` is more useful. `LinkedList<T>` will have less cost when adding/removing items in the middle of the list, whereas `List<T>` can only cheaply add/remove at the end of the list.

`LinkedList<T>` is only at it's most efficient if you are accessing sequential data (either forwards or backwards) - random access is relatively expensive since it must walk the chain each time (hence why it doesn't have an indexer). However, because a `List<T>` is essentially just an array (with a wrapper) random access is fine.

`List<T>` also offers a lot of support methods - `Find`, `ToArray`, etc; however, these are also available for `LinkedList<T>` with .NET 3.5/C# 3.0 via extension methods - so that is less of a factor.

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I was wondering this and could not find anything definitive. Yours answers on SO always educate me and stick for some reason. You also don't over complicate your answers by trying to make something more complicated than it needs to be. Thanks Mark –  kcbeard Apr 17 '12 at 19:05

Thinking of a linked list as a list can be a bit misleading. It's more like a chain. In fact, in .NET, `LinkedList<T>` does not even implement `IList<T>`. There is no real concept of index in a linked list, even though it may seem there is. Certainly none of the methods provided on the class accept indexes.

Linked lists may be singly linked, or doubly linked. This refers to whether each element in the chain has a link only to the next one (singly linked) or to both the prior/next elements (doubly linked). `LinkedList<T>` is doubly linked.

Internally, `List<T>` is backed by an array. This provides a very compact representation in memory. Conversely, `LinkedList<T>` involves additional memory to store the bidirectional links between successive elements. So the memory footprint of a `LinkedList<T>` will generally be larger than for `List<T>` (with the caveat that `List<T>` can have unused internal array elements to improve performance during append operations.)

They have different performance characteristics too:

### Append

• `LinkedList<T>.AddLast(item)` constant time
• `List<T>.Add(item)` amortized constant time, linear worst case

### Prepend

• `LinkedList<T>.AddFirst(item)` constant time
• `List<T>.Insert(0, item)` linear time

### Insertion

• `LinkedList<T>.AddBefore(node, item)` constant time
• `LinkedList<T>.AddAfter(node, item)` constant time
• `List<T>.Insert(index, item)` linear time

### Removal

• `LinkedList<T>.Remove(item)` linear time
• `LinkedList<T>.Remove(node)` constant time
• `List<T>.Remove(item)` linear time
• `List<T>.RemoveAt(index)` linear time

### Count

• `LinkedList<T>.Count` constant time
• `List<T>.Count` constant time

### Contains

• `LinkedList<T>.Contains(item)` linear time
• `List<T>.Contains(item)` linear time

As you can see, they're mostly equivalent. In practice, the API of `LinkedList<T>` is more cumbersome to use, and details of its internal needs spill out into your code.

However, if you need to do many insertions/removals from within a list, it offers constant time. `List<T>` offers linear time, as extra items in the list must be shuffled around after the insertion/removal.

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Good summary!!!! –  Peter Oct 27 '11 at 9:47
Is count linkedlist constant? I thought that would be linear? –  Iain Ballard Nov 4 '11 at 10:05
@Iain, the count is cached in both list classes. –  Drew Noakes Nov 4 '11 at 18:13
You wrote that "List<T>.Add(item) logarithmic time", however it is in fact "Constant" if the list capacity can store the new item, and "Linear" if the list doesn't have enough space and new to be reallocated. –  aStranger Sep 16 '12 at 13:32
@aStranger, of course you're right. Not sure what I was thinking in the above -- perhaps that the amortized normal case time is logarithmic, which it isn't. In fact the amortized time is constant. I didn't get into best/worst case of the operations, aiming for a simple comparison. I think the add operation is significant enough to provide this detail however. Will edit the answer. Thanks. –  Drew Noakes Sep 16 '12 at 16:14

The primary advantage of linked lists over arrays is that the links provide us with the capability to rearrange the items efficiently. Sedgewick, p. 91

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Use `LinkedList<>` when

1) You don't know how many objects are coming thru the flood gate. eg:`Token Stream`
2) When you ONLY wanted to delete\insert at the ends.

for everything else it is better to use `List<>`

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I don't see why point 2 makes sense. Linked lists are great when you're doing many insertions/deletions throughout the entire list. –  Drew Noakes Dec 25 '12 at 20:23
Because of the fact that LinkedLists are not Index based, you really have to scan the entire list for insertion or deletion that incurs a O(n) penalty. List<> on the other hand suffers from Array resizing, but still,IMO, is a better option when compared to LinkedLists. –  Antony Thomas Dec 26 '12 at 22:45
You don't have to scan the list for insertions/deletions if you keep track of the `LinkedListNode<T>` objects in your code. If you can do that, then it's much better than using `List<T>`, especially for very long lists where inserts/removals are frequent. –  Drew Noakes Dec 26 '12 at 23:02
You mean thru a hashtable? If that is the case, that would be the typical space\time tradeoff that every computer programmer should make a choice based on the problem domain :) But yes, that would make it faster. –  Antony Thomas Dec 27 '12 at 4:23

The difference between List and LinkedList lies in their underlying implementation. List is array based collection (ArrayList). LinkedList is node-pointer based collection (LinkedListNode). On the API level usage, both of them are pretty much the same since both implement same set of interfaces such as ICollection, IEnumerable, etc.

The key difference comes when performance matter. For example, if you are implementing the list that has heavy "INSERT" operation, LinkedList outperforms List. Since LinkedList can do it in O(1) time, but List may need to expand the size of underlying array. For more information/detail you might want to read up on the algorithmic difference between LinkedList and array data structures. http://en.wikipedia.org/wiki/Linked_list and Array

Hope this help,

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List<T> is array (T[]) based, not ArrayList based. Re insert: the array resize isn't the issue (the doubling algorithm means that most of the time it doesn't have to do this): the issue is that it must block-copy all the existing data first, which takes a little time. –  Marc Gravell Oct 4 '08 at 8:38
@Marc, the 'doubling algorithm" only makes it O(logN), but it is still worse than O(1) –  Ilya Ryzhenkov Oct 4 '08 at 10:02
My point was that that it isn't the resize that causes the pain - it is the blit. So worst case, if we are adding the first (zeroth) element each time, then the blit has to move everything each time. –  Marc Gravell Oct 4 '08 at 10:23

Linked lists provide very fast insertion or deletion of a list member. Each member in a linked list contains a pointer to the next member in the list so to insert a member at position i:

• update the pointer in member i-1 to point to the new member
• set the pointer in the new member to point to member i

The disadvantage to a linked list is that random access is not possible. Accessing a member requires traversing the list until the desired member is found.

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I would add that linked lists have an overhead per item stored implied above via LinkedListNode which references the previous and next node. The payoff of that is a contiguous block of memory isn't required to store the list, unlike an array based list. –  paulecoyote Jul 22 '09 at 16:26
Isn't a contiguous block of memory usually perferred? –  Jonathan Allen Feb 5 '10 at 19:52
Yes, a contiguous block is preferred for random access performance and memory consumption but for collections that need to change size regularly a structure such as an Array generally need to be copied to a new location whereas a linked list only needs to manage the memory for the newly inserted/deleted nodes. –  jpierson Mar 17 '10 at 13:37
If you have ever had to work with very large arrays or lists (a list just wraps an array) you will start to run into memory issues even though there appears to be plenty of memory available on your machine. The list uses a doubling strategy when it allocates new space in it's underlying array. So a 1000000 elemnt array that is full will be copied into a new array with 2000000 elements. This new array needs to be created in a contiguous memory space that is large enough to hold it. –  Andrew May 4 '11 at 8:57
I had a specific case where all i did was adding and removing, and looping one by one... here the linked list was far superior to the normal list.. –  Peter Oct 27 '11 at 9:35
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When you need built-in indexed access, sorting (and after this binary searching), and "ToArray()" method, you should use List.

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