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Why would someone want to use a linked-list over an array?

Coding a linked-list is, no doubt, a bit more work than using an array and one may wonder what would justify the additional effort.

I think insertion of new elements is trivial in a linked-list but it's a major chore in an array. Are there other advantages to using a linked list to store a set of data versus storing it in an array?

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@David Nehme, as far as I know this isn't this other person's homework and it sure isn't mine. :-) I'm not in school--hadn't been for a long time. On the other hand it may be someone's homework so I'll leave the tag. :-) –  Onorio Catenacci Oct 3 '08 at 14:22
    
Related - When to use LinkedList<> over ArrayList<>? - it's Java, but arrays (ArrayList) and linked-lists presumably have the same performance in any language. –  Dukeling May 22 at 13:23

27 Answers 27

up vote 83 down vote accepted
  • It's easier to store data of different sizes in a linked list. An array assumes every element is exactly the same size.
  • As you mentioned, it's easier for a linked list to grow organically. An array's size needs to be known ahead of time, or re-created when it needs to grow.
  • Shuffling a linked list is just a matter of changing what points to what. Shuffling an array is more complicated and/or takes more memory.
  • As long as your iterations all happen in a "foreach" context, you don't lose any performance in iteration.
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11  
How are items of different sizes treated any differently? A linked list either uses a fixed struct with a next field (requires fixed size), or stores a pointer to the data in the car (variable size OK). Both approaches are just as easy with a vector. The same for shuffling. –  Brian Oct 3 '08 at 15:17
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I would say shuffling an array is less complicated. –  Hugh Allen Oct 3 '08 at 17:57
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This answer is incorrect and misleading. (except for needing to know an array's size when you declare it) –  Robert Paulson Oct 27 '08 at 7:45
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Wouldn't iterating a linked list be slower because of data locality? –  Firas Assaad Oct 27 '08 at 7:53
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@Rick, vectors typically overallocate the space they require so that they don't need to allocate new space everytime the size increases. The result is that vectors are typically much less memory intensive, not more then linked lists. –  Winston Ewert Sep 5 '11 at 17:27

Another good reason is that linked lists lend themselves nicely to efficient multi-threaded implementations. The reason for this is that changes tend to be local - affecting only a pointer or two for insert and remove at a localized part of the data structure. So, you can have many threads working on the same linked list. Even more, it's possible to create lock-free versions using CAS-type operations and avoid heavy-weight locks altogether.

With a linked list, iterators can also traverse the list while modifications are occurring. In the optimistic case where modifications don't collide, iterators can continue without contention.

With an array, any change that modifies the size of the array is likely to require locking a large portion of the array and in fact, it's rare that this is done without a global lock across the whole array so modifications become stop the world affairs.

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Alex--that's an interesting consideration that would never have occurred to me. Very good answer. I'd upvote you twice if I could. :-) –  Onorio Catenacci Oct 3 '08 at 14:58
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Take a look at skip lists (in particular ConcurrentSkipListMap in Java 6) for a good idea of where you can go with this. CSLM is a sorted, concurrent map with excellent performance. Far, far better than a synchronized TreeMap. tech.puredanger.com/2007/10/03/skip-lists –  Alex Miller Oct 3 '08 at 16:02

Wikipedia has very good section about the differences.

Linked lists have several advantages over arrays. Elements can be inserted into linked lists indefinitely, while an array will eventually either fill up or need to be resized, an expensive operation that may not even be possible if memory is fragmented. Similarly, an array from which many elements are removed may become wastefully empty or need to be made smaller.

On the other hand, arrays allow random access, while linked lists allow only sequential access to elements. Singly-linked lists, in fact, can only be traversed in one direction. This makes linked lists unsuitable for applications where it's useful to look up an element by its index quickly, such as heapsort. Sequential access on arrays is also faster than on linked lists on many machines due to locality of reference and data caches. Linked lists receive almost no benefit from the cache.

Another disadvantage of linked lists is the extra storage needed for references, which often makes them impractical for lists of small data items such as characters or boolean values. It can also be slow, and with a naïve allocator, wasteful, to allocate memory separately for each new element, a problem generally solved using memory pools.

http://en.wikipedia.org/wiki/Linked_list

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This is the perfect answer. Succinctly describes the advantages and disadvantages of both. –  Rick Jun 4 '11 at 2:18
    
thank you)) dead simple but I haven't seen it in wiki) –  Timur Fayzrakhmanov Nov 8 at 10:14

I'll add one other - lists can act as purely functional data structures.

For instance, you can have completely different lists sharing the same end section

a = (1 2 3 4, ....)
b = (4 3 2 1 1 2 3 4 ...)
c = (3 4 ...)

ie:

b = 4 -> 3 -> 2 -> 1 -> a
c = a.next.next

without having to copy the data being pointed to by a into b and c.

This is why they are so popular in functional languages, which use immutable variables - preprend and tail operations can occur freely without having to copy the original data - very important features when you're treating data as immutable.

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Yet another very interesting consideration that I would never have come up with. Thank you. –  Onorio Catenacci Oct 3 '08 at 15:45

Merging two linked lists (especially two doubly linked lists) is much faster than merging two arrays (assuming the merge is destructive). The former takes O(1), the latter takes O(n).

EDIT: To clarify, I meant "merging" here in the unordered sense, not as in merge sort. Perhaps "concatenating" would have been a better word.

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Only if you're simply appending one list to the other. If you're actually merging two sorted lists then it will take a log more than O(1). –  Herms Oct 3 '08 at 13:50
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@Herms, but you can merge two sorted linked lists without allocating any extra memory, just traversing both lists and setting the pointers appropriately. Merging two arrays would normally take at least one extra array. –  Paul Tomblin Oct 3 '08 at 14:11
    
Yes, merging lists is more memory efficient, but that wasn't really what I was commenting on. Saying merging linked lists is O(1) is very misleading without clarification of the case. –  Herms Oct 3 '08 at 14:18
    
Thanks for the tips, @Paul, @Herms. –  rampion Oct 3 '08 at 14:43
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Alexei Averchenko: Concatenating two lists, or even merge-sorting two sorted lists, can be done in place, with O(1) memory. Concatenating two arrays takes O(n) memory necessarily, unless the arrays are already adjacent in memory. I think the point you're aiming at is that where a list of n elements and an array of n elements both take O(n) memory, but the coefficient is higher for linked lists. –  rampion Sep 21 '13 at 17:47

Besides inserting into the middle of the list being easier - it's also much easier to delete from the middle of a linked list than an array.

But frankly, I've never used a linked list. Whenever I needed fast insertion and deletion, I also needed fast lookup, so I went to a HashSet or a Dictionary.

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Very true, insertion and deletion comes after searching most of the time, so need to consider the sum of time complexities as well. –  M A Hossain Tonu Oct 11 '12 at 17:20

First of all, in C++ linked-lists shouldn't be much more trouble to work with than an array. You can use the std::list or the boost pointer list for linked lists. The key issues with linked lists vs arrays are extra space required for pointers and terrible random access. You should use a linked list if you

  • you don't need random access to the data
  • you will be adding/deleting elements, especially in the middle of the list
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A widely unappreciated argument for ArrayList and against LinkedList is that LinkedLists are uncomfortable while debugging. The time spent by maintenance developers to understand the program, e.g. to find bugs, increases and IMHO does sometimes not justify the nanoseconds in performance improvements or bytes in memory consumption in enterprise applicatons. Sometimes (well, of course it depends on the type of applications), it's better to waste a few bytes but have an application which is more maintainable or easier to understand.

For example, in a Java environment and using the Eclipse debugger, debugging an ArrayList will reveal a very easy to understand structure:

arrayList   ArrayList<String>
  elementData	Object[]
	[0]	Object	"Foo"
	[1]	Object	"Foo"
	[2]	Object	"Foo"
	[3]	Object	"Foo"
	[4]	Object	"Foo"
    ...

On the other hand, watching the contents of a LinkedList and finding specific objects becomes a Expand-The-Tree clicking nightmare, not to mention the cognitive overhead needed to filter out the LinkedList internals:

linkedList	LinkedList<String>
	header	LinkedList$Entry<E>
		element	E
		next	LinkedList$Entry<E>
			element	E	"Foo"
			next	LinkedList$Entry<E>
				element	E	"Foo"
				next	LinkedList$Entry<E>
					element	E	"Foo"
					next	LinkedList$Entry<E>
					previous	LinkedList$Entry<E>
					...
				previous	LinkedList$Entry<E>
			previous	LinkedList$Entry<E>
		previous	LinkedList$Entry<E>
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Eric Lippert recently had a post on one of the reasons arrays should be used conservatively.

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Admittedly a good post, but not relevant in a linked list versus array's discussion. –  Robert Paulson Oct 27 '08 at 7:32
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I'd suggest that much of Eric's article is relevant, as it discusses both the disadvantages of arrays and the advantages of Lists, reguardless of the list implementation. –  Bevan Oct 27 '08 at 7:51

Two things:

Coding a linked list is, no doubt, a bit more work than using an array and he wondered what would justify the additional effort.

Never code a linked list when using C++. Just use the STL. How hard it is to implement should never be a reason to choose one data structure over another because most are already implemented out there.

As for the actual differences between an array and a linked list, the big thing for me is how you plan on using the structure. I'll use the term vector since that's the term for a resizable array in C++.

Indexing into a linked list is slow because you have to traverse the list to get to the given index, while a vector is contiguous in memory and you can get there using pointer math.

Appending onto the end or the beginning of a linked list is easy, since you only have to update one link, where in a vector you may have to resize and copy the contents over.

Removing an item from a list is easy, since you just have to break a pair of links and then attach them back together. Removing an item from a vector can be either faster or slower, depending if you care about order. Swapping in the last item over top the item you want to remove is faster, while shifting everything after it down is slower but retains ordering.

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As I told someone above, I was just trying to relate the question the way it was put to me. I wouldn't ever use an array (or a roll-my-own linked list) in C++ anyway--I'd use the STL versions of both of those. –  Onorio Catenacci Oct 3 '08 at 15:46

Other than adding and remove from the middle of the list, I like linked lists more because they can grow and shrink dynamically.

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Vectors (= basically arrays) can do that too and the amortized cost for them is usually smaller than that for lists because of locality-of-reference issues. –  Konrad Rudolph Oct 3 '08 at 14:07

For me it is like this,

Linked Lists allow only sequential access to elements. Thus the algorithmic complexities is order of O(n) 1. Arrays allow random access to its elements and thus the complexity is order of O(1) 2. Linked lists require an extra storage for references. This makes them impractical for lists of small data items such as characters or boolean values. 2. Arrays do not need an extra storage to point to next data item. Each element can be accessed via indexes. 3. The size of Linked lists are dynamic by nature. 3. The size of array is restricted to declaration. 4. Elements can be inserted and deleted in linked lists indefinitely. 4. Insertion/Deletion of values in arrays are very expensive. It requires memory reallocation.

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Arrays make sense where the exact number of items will be known, and where searching by index makes sense. For example, if I wanted to store the exact state of my video output at a given moment without compression I would probably use an array of size [1024][768]. This will provide me with exactly what I need, and a list would be much, much slower to get the value of a given pixel. In places where an array does not make sense there are generally better data types than a list to deal with data effectively.

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Here's a quick one: Removal of items is quicker.

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No one ever codes their own linked list anymore. That'd be silly. The premise that using a linked list takes more code is just wrong.

These days, building a linked list is just an exercise for students so they can understand the concept. Instead, everyone uses a pre-built list. In C++, that'd probably mean an stl vector (#include <vector> ).

Therefore, choosing a linked list vs an array is entirely about weighing the different characteristics of each structure relative to the needs of your app. Overcoming the additional programming burden should have zero impact on the decision.

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Er..umm.. The std::vector is an array, not a linked-list. The standard linked-list is, well, std::list. –  James Curran Oct 3 '08 at 14:04
    
yeah, but I think vector is a closer to what the op is asking for- a dynamic array replacement. –  Joel Coehoorn Oct 3 '08 at 14:54
    
@Joel, I was just trying to relate the question as it was put to me by this fellow who's trying to learn C++. I wouldn't bother with coding my own linked list either but that's how he asked me. :-) –  Onorio Catenacci Oct 3 '08 at 15:00

Fast insertion and removal are indeed the best arguments for linked lists. If your structure grows dynamically and constant-time access to any element isn't required (such as dynamic stacks and queues), linked lists are a good choice.

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Linked-list are especially useful when the collection is constantly growing & shrinking. For example, it's hard to imagine trying to implement a Queue (add to the end, remove from the front) using an array -- you'd be spending all your time shifting things down. On the other hand, it's trivial with a linked-list.

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You could have an array-based queue without too much work that was still fast/efficient. You'd just have to keep track of which index was the "head" and which was the "tail". This works fairly well if you need a fixed-size queue (for instance, keyboard buffer in a kernel). –  Herms Oct 3 '08 at 13:59
    
And is called a "circular buffer", if you want to look it up in your favourite algorithm reference. –  Steve Jessop Oct 3 '08 at 15:58

It's really a matter of efficiency, the overhead to insert, remove or move (where you are not simply swapping) elements inside a linked list is minimal, i.e. the operation itself is O(1), verses O(n) for an array. This can make a significant difference if you are operating heavily on a list of data. You chose your data-types based on how you will be operating on them and choose the most efficient for the algorithm you are using.

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as arrays are static in nature, therefore all operations like memory allocation occur at the time of compilation only. So processor has to put less effort at its runtime .

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Only reason to use linked list is that insert the element is easy (removing also).

Disadvatige could be that pointers take a lot of space.

And about that coding is harder: Usually you don't need code linked list (or only once) they are included in STL and it is not so complicated if you still have to do it.

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Pointers take a lot of space? Not really. If you're storing a linked list of booleans, then sure, percentage wise the pointers take a lot of space. But if you're storing complex objects (which is generally the case) then the pointers would probably be negligible. –  Herms Oct 3 '08 at 14:21
    
forgot smile :) But did say 'could' not 'is'. –  user15453 Oct 3 '08 at 19:03

i also think that link list is more better than arrays. because we do traversing in link list but not in arrays

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Suppose you have an ordered set, which you also want to modify by adding and removing elements. Further, you need ability to retain a reference to an element in such a way that later you can get a previous or next element. For example, a to-do list or set of paragraphs in a book.

First we should note that if you want to retain references to objects outside of the set itself, you will likely end up storing pointers in the array, rather than storing objects themselves. Otherwise you will not be able to insert into array - if objects are embedded into the array they will move during insertions and any pointers to them will become invalid. Same is true for array indexes.

Your first problem, as you have noted yourself, is insertion - linked list allows inserting in O(1), but an array would generally require O(n). This problem can be partially overcome - it is possible to create a data structure that gives array-like by-ordinal access interface where both reading and writing are, at worst, logarithmic.

Your second, and more severe problem is that given an element finding next element is O(n). If the set was not modified you could retain the index of the element as the reference instead of the pointer thus making find-next an O(1) operation, but as it is all you have is a pointer to the object itself and no way to determine its current index in the array other than by scanning the entire "array". This is an insurmountable problem for arrays - even if you can optimized insertions, there is nothing you can do to optimize find-next type operation.

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In an array you have the privilege of accessing any element in O(1) time. So its suitable for operations like Binary search Quick sort, etc. Linked list on the other hand is suitable for insertion deletion as its in O(1) time. Both has advantages as well as disadvantages and to prefer one over the other boils down to what you want to implement.

-- Bigger question is can we have a hybrid of both. Something like what python and perl implement as lists.

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Linked List

Its more preferable when it comes about insertion! Basically what is does is that it deals with the pointer

1 -> 3 -> 4

Insert (2)

1........3......4
.....2

Finally

1 -> 2 -> 3 -> 4

One arrow from the 2 points at 3 and the arrow of 1 points at 2

Simple!

But from Array

| 1 | 3 | 4 |

Insert (2) | 1 | 3 | | 4 | | 1 | | 3 | 4 | | 1 | 2 | 3 | 4 |

Well anyone can visualize the difference! Just for 4 index we are performing 3 steps

What if the array length is one million then? Is array efficient? The answer is NO! :)

The same thing goes for deletion! In Linked List we can simply use the pointer and nullify the element and next in the object class! But for array, we need to perform shiftLeft()

Hope that helps! :)

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People using linklist must read. People will fall in love with array again. It talks about Out Of Order exeuction,hardware prefetch, memory latency etc.

http://www.futurechips.org/thoughts-for-researchers/quick-post-linked-lists.html

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This presumes that there is a one-size fits all answer indicating that one is always better than the other, and that's simply not the case. The analysis of each case and the skill of the developer are vital components in selecting the proper tool for a given job. –  David W May 2 '12 at 18:46
    
Sorry for a late reply, but I am the authod of the referenced article. Absolutely agreed with David. there are no black and white answer, but my point in this article was to show things wrong with linked list that aren't usually considered. –  Aater Suleman Feb 12 '13 at 0:19

Depending on your language, some of these disadvantages and advantages could be considered:

C Programming Language: When using a linked list (through struct pointers typically), special consideration must be made sure that you are not leaking memory. As was mentioned earlier, linked lists are easy to shuffle, because all were doing is changing pointers, but are we going to remember to free everything?

Java: Java has an automatic garbage collect, so leaking memory won't be an issue, but hidden from the high level programmer is the implementation details of what a linked list is. Methods such as removing a node from the middle of the list is more complicated of a procedure than some users of the language would expect it to be.

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Arrays Vs Linked List:

  1. Array memory allocation will fail sometimes because of fragmented memory.
  2. Caching is better in Arrays as all elements are allocated contiguous memory space.
  3. Coding is more complex than Arrays.
  4. No size constraint on Linked List, unlike Arrays
  5. Insertion/Deletion is faster in Linked List and access is faster in Arrays.
  6. Linked List better from multi-threading point of view.
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-1: All of these need to be substantiated, not just enumerated. –  John Saunders Dec 26 '12 at 22:44
    
Each point has already been explained in above answers. Being a latecomer I had no other option than enumerating. BTW, Which one would you like to be explained? –  AKS Dec 26 '12 at 22:46
    
If they've already been explained, then why are you answering? –  John Saunders Dec 26 '12 at 22:47
    
So that it will give you a summarized view of the discussion. And I like such types of answers so that I don't have to read same explanation again and again. And I did it for those people who have same style of thinking as mine. Different ppl have different styles. Nothing new. –  AKS Dec 26 '12 at 22:52

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