# Why are linked lists faster than arrays?

I am very puzzled about this. Everywhere there is written "linked lists are faster than arrays" but no one makes the effort to say WHY. Using plain logic I can't understand how a linked list can be faster. In an array all cells are next to each other so as long as you know the size of each cell it's easy to reach one cell instantly. For example if there is a list of 10 integers and I want to get the value in the fourth cell then I just go directly to the start of the array+24 bytes and read 8 bytes from there.

In the other hand when you have a linked list and you want to get the element in the fourth place then you have to start from the beginning or end of the list(depending on if it's a single or double list) and go from one node to the other until you find what you're looking for.

So how the heck can going step by step be faster than going directly to an element?

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It depends on what you're trying to accomplish. If you want to search or access a specific element, arrays are faster, but if you want to insert or delete an element, a linked list is faster. –  Nathan Fellman Mar 26 '11 at 20:38
I would very much like to see a link to somewhere that makes this claim. –  Joe Mar 26 '11 at 20:48
-1 For not making the effort of researching the topic before asking. According to Google (google.de/…), exactly 8 pages mention "linked lists are faster than arrays". Now thats not everywhere. –  x3ro Mar 26 '11 at 21:48
@x3ro As some answered, fast is relevant. So in some places it's written that arrays are faster than linked lists and in some places it is written that linked lists are faster than arrays. I googled and didn't find any results on that and that's the reason I posted the question here as I was puzzled. Now with my question topped anyone else who wonders about the same will get their mind straight. –  Pithikos Mar 28 '11 at 17:12
@Pithikos: What about en.wikipedia.org/wiki/… ? –  x3ro Mar 28 '11 at 18:07

It asserts that linked lists are faster than arrays without limiting the scope well. There are a number of times when arrays can be significantly faster and there are a number of times when a linked list can be significantly faster: the particular case of linked lists "being faster" does not appear to be supported.

There are two things to consider:

1. The theoretical bounds of linked-lists vs. arrays in a particular operation; and
2. the real-world implementation and usage pattern including cache-locality and allocations.

As far as the access of an indexed element: The operation is `O(1)` in an array and as pointed out, is very fast (just an offset). The operation is `O(k)` in a linked list (where `k` is the index and may always be `<< n`, depending) but if the linked list is already being traversed then this is `O(1)` per step which is "the same" as an array. If an array traversal (`for(i=0;i<len;i++`) is faster (or slower) depends upon particular implementation/language/run-time.

However, if there is a specific case where the array is not faster for either of the above operations (seek or traversal), it would be interesting to see to be dissected in more detail. (I am sure it is possible to find a language with a very degenerate implementation of arrays over lists cough Haskell cough)

Happy coding.

My simple usage summary: Arrays are good for indexed access and operations which involve swapping elements. The non-amortized re-size operation and extra slack (if required), however, may be rather costly. Linked lists amortize the re-sizing (and trade slack for a "pointer" per-cell) and can often excel at operations like "chopping out or inserting a bunch of elements". In the end they are different data-structures and should be treated as such.

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Like most problems in programming, context is everything. You need to think about the expected access patterns of your data, and then design your storage system appropriately. If you insert something once, and then access it 1,000,000 times, then who cares what the insert cost is? On the other hand, if you insert/delete as often as you read, then those costs drive the decision.

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Depends on which operation you are referring to. Adding or removing elements is a lot faster in a linked list than in an array.

Iterating sequentially over the list one by one is more or less the same speed in a linked list and an array.

Getting one specific element in the middle is a lot faster in an array.

And the array might waste space, because very often when expanding the array, more elements are allocated than needed at that point in time (think ArrayList in Java).

So you need to choose your data structure depending on what you want to do:

many insertions and iterating sequentially --> use a LinkedList

random access and ideally a predefined size --> use an array

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because no memory is moved when insertion is made in the middle of the array. For the case you presented, its true - arrays are faster, you need arithmetic only to go from one element to another. Linked list require indirection and fragments memory. The key is to know what structure to use and when.

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Worth noting that INSERTION is faster (as is deletion), but not indexed access, which was Pithikos' source of confusion. –  Jollymorphic Mar 26 '11 at 20:39
So you mean in the case where there is a full array and you want to add a new element? Then sure you have to resize the whole array. But what if the array is empty? –  Pithikos Mar 26 '11 at 20:43
for simple access nothing beats arrays. The question is "Why are linked lists faster than arrays?" and the answer address this question. In real-life application you are making many operations on array (consider sorting case), and this is the reason why are used more often than arrays; –  cprogrammer Mar 26 '11 at 20:46
@Pithikos inserting one element in a single linked list -> just one alocation . inserting one element in a std:vector (array) may realloc memory and move all elements -> Time is not constant. May be smaller or bigger. –  cprogrammer Mar 26 '11 at 20:50