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I'm learning about data structures formally for the first time. To me, some of the benefits traditionally described of linked lists (easier memory allocation and faster input and deletion to the body of the list) seem moot in js given the way arrays work (like objects with numbered keys).

Can anyone give an example of why I'd want to use a linked list in javascript?

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    When you need a constant time insert/delete. – zerkms Jun 20 '15 at 3:36
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    NodeList is an example of a doubly linked list (with some array-like capabilities to boot). – BoltClock Jun 20 '15 at 3:36
  • I would implement (or use) a Linked List if and only if there was a specific algorithm that benefited from such - and the JavaScript overhead of the implementation was still insignificant to the gains. (But this is the same for using a Linked-List vs a 'normal' Array-List in just about any language.) The standard Array type with an optimized native implementation is "quite fast", even for middle-of-Array operations. YMMV as it will vary by implementation but often 1) It Just Doesn't Matter and/or 2) an Array-backed List is Just As Good Or better. – user2864740 Jun 20 '15 at 3:45
  • @zerkms but since the memory doesn't actually need to be shifted from insertion, do you really count the reference swapping? – noob-in-need Jun 20 '15 at 3:49
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    There are reasons to use linked lists other than efficiency – say, if you want to insert elements in the middle of a list and keep references to other elements without having to keep track of their indexes. – Ry- Jun 20 '15 at 3:55
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+25

As the comments note, you'd do this if you need constant time insertion/deletion from the list.

There are two ways Array could be reasonably implemented that allow for populating non-contiguous indices:

  1. As an actual C-like contiguous block of memory large enough to contain all the indices used; unpopulated indices would contain a reference to a dummy value so they wouldn't be treated as populated entries (and excess capacity beyond the max index could be left as garbage, since the length says it's not important)
  2. As a hash table keyed by integers (based on a C-like array)

In either case, the cost to insert at the end is going to be amortized O(1), but with spikes of O(n) work done whenever the capacity of the underlying C-like array is exhausted (or the hash load threshold exceeded) and a reallocation is necessary.

If you insert at the beginning or in the middle (and the index in question is in use), you have the same possible work spikes as before, and new problems. No, the data for the existing indices doesn't change. But all the keys above the entry you're forcing in have to be incremented (actually or logically). If it's a plain C-like array implementation, that's mostly just a memmove (modulo the needs of garbage collections and the like). If it's a hash table implementation, you need to essentially read every element (from the highest index to the lowest, which means either sorting the keys or looking up every index below the current length, even if it's a sparse Array), pop it out, and reinsert it with a key value that is one higher. For a big Array, the cost could be enormous. It's possible the implementation in some browsers might do some clever nonsense by using an "offset" that would internally use negative "keys" relative to the offset to avoid the rehash while still inserting before index 0, but it would make all operations more expensive in exchange for making shift/unshift cheaper.

Point is, a linked list written in JavaScript would incur overhead for being JS (which usually runs more slowly than built-ins for similar magnitude work). But (ignoring the possibility of the memory manager itself introducing work spikes), it's predictable:

  • If you want to insert or delete from the beginning or the end, it's fixed work (one allocation or deallocation, and reference fixups)
  • If you are iterating and inserting/deleting as you go, aside from the cost of iteration, it's the same fixed work
  • If it turns out that offsets aren't used to implement shift/unshift in your browser's implementation (with them, shift would usually be cheap, and unshift cheap until you've unshift-ed more than you've shift-ed), then you'd definitely want to use a linked list when working with a FIFO queue of potentially unbounded size

It's wholly possible all browsers use offsets to optimize (avoiding memmove or re-keying under certain conditions, though it can't avoid occasional realloc and memmove or rehashing without wasting memory). I don't know one way or the other what the major browsers do, but if you're trying to write portable code with consistent performance, you probably don't want to assume that they sacrificed general performance to make the shift/unshift case faster with huge Arrays, they might have preferred to make all other operations faster and assumed shift/unshift would only be used with small Arrays where the cost is trivial.

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    Can you give a concrete real world example where the advantages of a Linked List outweigh the disadvantages in JavaScript? – Adam Zerner Nov 5 '15 at 22:28
  • It's barely different in JS from any other language.The ability to use sparse Arrays and delete from the middle of an Array really doesn't change the majority of use cases; most loops will assume all indices are filled so you can't pass the sparse Array to library functions. You still can't reliably ensure you can add to the middle of an Array in the general case without a massive amount of copying. The "advantages" of JS Array so rarely come up in practice that it's usually best to just treat them like a vector/ArrayList. – ShadowRanger Nov 5 '15 at 23:33
  • Really, the only difference is that the point at which you'd consider switching comes later in JS; in many other languages, the array-based list and linked list types are both implemented with equal efficiency. In JS, your handrolled linked list will cost more to write, and run even slower, so it takes larger algorithmic gains to justify it. Similar concerns arise in other high level scripting languages like Perl and Python which lack native linked list types. Basically, if the number of items is small (profile to define "small"), it doesn't matter. – ShadowRanger Nov 5 '15 at 23:36
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    @AdamZerner: JS does introduce one complicating factor: It's single threaded, executing JS code blocks the browser UI, but it's usually user event driven. So on the one hand, if the code runs in 1 microsecond or 10 milliseconds rarely matters; from the user's perspective, they were both instant. But if the overhead from Array's "spikes" makes work sometimes go from 1 microsecond to 500 milliseconds, the page freezes while the code is running; switching to a linked list might make every usage take 500 microseconds, but a consistent 500 microseconds beats intermittent user visible UI freezes. – ShadowRanger Nov 5 '15 at 23:43
  • Thank you for explaining the inner workings in such detail. That is part of what I and the OP are asking. The other part is "what are some examples of real world use cases where it'd be worth implementing one". – Adam Zerner Nov 12 '15 at 22:59
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I think there are some legit cases / reasons to prefer linked lists:

Reason 1: As others already described, insertion and deletion operations perform fixed in O(1) time for linked lists. This might be a significant advantage depending on your problem.

Reason 2: You can do things with linked lists that you can't do with arrays. This is due to the nature of a linked list -> every list entry has got references to it's follower (and prececessor if it's a double linked list).

Example1:

So if you have a linked list of items cou could store a reference to a "currentItem" in a variable. If you need to access the item's neighbors you could just write:

curItem.getNext();

or

curItem.getPrev();

Now you could argue that you could do the same with arrays while curItem is just the current Index. Basically this is true (and in most cases I would use that), but remember that in javascript it is possible to skip indices. So if your array looks like this, the index-method would not work as easily as thought:

myArray = [];
myArray[10] = 'a';
myArray[20] = 'b';

If you find yourself in that kind of situation, maybe a linked ist is the better choice.

However, if you need random access to the data (which is more seldom than it seems in most cases) you would go with arrays almost every time.

Example2:

If you want to "split" your list into 2 separate lists, this would also be possible O(1) time. With arrays you'd need to use slice, which is more imperformant. However, this is only an issue if you work with large datasets and perform this operation often. 20 repetitions of slicing of an array of 10 million strings took about 4 seconds on my machine, whereas the separation of one list into 2 took <1 second (providing you already have a reference to the list element where you want to start the separation of course!).

Conclusion:

In some cases you would benefit from a list's nature and it's performance. In some cases, you would suffer from it's imperformance (inability to randomly access multiple data). I've never used a list in javascript, but similar structures like trees or graphs are used for data representation (in both backend and frontend javascript). So analyzing/learning list implementations in javascript is a good idea for more complex structures.

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  • 1
    Can you give a few examples of concrete cases where a linked list would be preferable? – Adam Zerner Nov 12 '15 at 22:55
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    Hmm: suppose you have an array of customer names. For some reasons you might want the array to always be sorted. If you add a new customer name to your array you'd have to find the place where it would be inserted and then copy all elements after that index to their index+1 in order to get the free slot where you would put your new customer. If you do the same with lists you would just have to correctly set the two next-references of both the new customer and it's predecessor in the sorted list. User would only see differences when using large datasets and/or a huge number of insertions though – Stefan Woehrer Nov 13 '15 at 19:04
  • Couldn't you just do array[array.length] = newCustomer and not have to shift everything over? – Adam Zerner Nov 13 '15 at 19:10
  • array[array.length] = newCustomer would append the newCustomer at the end of the array. In the given example you want to insert the newCustomer somewhere inside the array, cause it's about maintenance of a sorted array. For example: array: ['Adam','Barbara','Carl'] and newCustomer would be 'Alex'. To maintain the sort order you'd need to insert Alex between Adam and Barbara. That's what the example was about. (Obviously you don't need sorted arrays/lists everytime :) It's just an example ) – Stefan Woehrer Nov 18 '15 at 9:34
  • I'm not sure if #2 is a valid reason. It can be easily solved (e.g. with forEach() or for ... in) and arrays with holes are often considered bad practice. – wortwart May 9 '19 at 7:50
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@noob-in-need I recommend you watch this video about the JavaScript garbage collector: https://www.youtube.com/watch?v=RWmzxyMf2cE

In it he explains why using a linked list can give you finer-grain control over your code's speed (as ShadowRanger discusses in depth) and also prevent unexpected garbage collection slowdowns. Plus it was filmed on talk-like-a-pirate day. :)

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2

This boils down to the very basic differences of array vs linkedlist.

  1. Inserting a new element in an array of elements is expensive, because room has to be created for the new elements and to create room, the existing elements need to be shifted. But for a linked list it's just change of references.
  2. But reading and random access is easier in array than in linkedlist. Random access is not allowed. We have to access elements sequentially starting from the first node. So we cannot do binary search with linked lists.
  3. Extra memory space for a pointer which is used to store reference for the next is required with each element of the list.
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1

Below you can find a simple comparison between Linked List and Array
Ref: https://en.wikipedia.org/wiki/Linked_list#Disadvantages

enter image description here

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