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I'm reading C# 4.0 in a Nutshell by the Albahari brothers and I came across this:

Stacks are implemented internally with an array that's resized as required, as with Queue and List. (pg 288, paragraph 4)

I can't help but wonder why. LinkedList provides O(1) head and tail inserts and deletes (which should work well for a stack or queue). A resizable array has O(1) amortized insert (if I remember right), but O(n) worst case (I'm not sure about delete). And it probably uses more space than the linked list (for large stacks/queues).

Is there more to it than that? What is the downside to a doubly linked list implementation?

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Another point is that the underlying array is used in a circular fashion, so array elements are recycled as the head and tail move (if the bounds are not exceeded). – Tim Lloyd Jun 8 '10 at 19:24
3 words: memory management overhead. – Mehrdad Feb 22 '14 at 9:41
@SebastianNegraszus thanks. how did you find that? I searched a lot and didn't find anything. – KooKoo Feb 22 '14 at 10:56
@KooKoo It is one of the top links under "Related" on this page. I cannot say if I would have found it by searching. – Sebastian Negraszus Feb 22 '14 at 11:01
up vote 21 down vote accepted

but O(n) worst case

The amortized worst case is still O(1). Long and short insertion times average out – that’s the whole point of amortised analysis (and the same for deletion).

An array also uses less space than a linked list (which after all has to store an additional pointer for each element).

Furthermore, the overhead is just much less than with a linked list. All in all, an array-based implementation is just (much) more efficient for almost all use-cases, even though once in a while an access will take a little longer (in fact, a queue can be implemented slightly more efficiently by taking advantage of pages that are themselves managed in a linked list – see C++’ std::deque implementation).

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@Femaref: No – it’s really called deque, not dequeue. – Konrad Rudolph Jun 8 '10 at 19:12
Also, using an array will give you the benefit of locality. – Brian Rasmussen Jun 8 '10 at 19:18
Oh, sorry. Spelling "queue" is quite a common error, so I thought you had fallen for it, no offense. – Femaref Jun 8 '10 at 21:08

Here's a rough guestimation of the memory resources used for a stack of 100 System.Int32s:

An array implementation would require the following:

type designator                          4 bytes
object lock                              4
pointer to the array                     4 (or 8)
array type designator                    4
array lock                               4
int array                              400
stack head index                         4
Total                                  424 bytes  (in 2 managed heap objects)

A linked list implementation would require the following:

type designator                          4 bytes
object lock                              4
pointer to the last node                 4 (or 8)
node type designator         4 * 100 = 400
node lock                    4 * 100 = 400
int value                    4 * 100 = 400
pointer to next node  4 (or 8) * 100 = 400 (or 800)
Total                                1,612 bytes  (in 101 managed heap objects)

The main down-side of the array implementation would be the act of copying the array when it needs to be expanded. Ignoring all other factors, this would be a O(n) operation where n is the number of items in the stack. This seems like a pretty bad thing except for two factors: it hardly ever happens, since the expansion is doubled at each increment, and the array copy operation is highly optimized and is amazing fast. Thus the expansion is, in practice, easily swamped by other stack operations.

Similarly for the queue.

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Your assumption is correct only for value types. if T is a reference type, it will require almost the same resources for both implementations. Since array entry will be the reference to heap element for each item. – Michael Barabash Apr 9 '14 at 14:13
@MichaelBarabash - That depends on what you mean by "almost the same." If you convert the example that I gave from an Int32 to a reference type, then everything is the same except you would add the storage of the reference type values to both, which would be exactly the same. If you're using 64-bit, then you would also double the size of the stored value to accommodate the larger references, but either way the total size is increased by exactly the same amount in the two methods. Thus the additional storage used by the linked list would still be additional. (continued...) – Jeffrey L Whitledge Apr 16 '14 at 21:48
However, the sense in which you are correct is that the linked list overhead would constitute a smaller proportion of the total. – Jeffrey L Whitledge Apr 16 '14 at 21:49
Hi Jeffrey, totally agree. – Michael Barabash Apr 25 '14 at 7:26

This is because .NET was designed to run on modern processors. Which are much, much faster than the memory bus. The processor runs at around 2 gigahertz. The RAM in your machine is clocked at typically a couple of hundred megahertz. Reading a byte from RAM takes well over a hundred clock cycles.

Which makes the CPU caches very important on modern processors, a large amount of chip real-estate is burned on making the caches as big as possible. Typical today is 64 KB for the L1 cache, the fastest memory and physically located very close to the processor core, 256 KB for the L2 cache, slower and further away from the core, around 8 MB for the L3 cache, slower yet and furthest away, shared by all the cores on the chip.

To make the caches effective, it is very important to access memory sequentially. Reading the first byte can be very expensive if an L3 or RAM memory access is necessary, the next 63 bytes are very cheap. The size of the "cache line", the unit of data transfer for the memory bus.

This makes an array by far the most effective data structure, its elements are stored sequentially in memory. And a linked list by far the worst possible data structure, its elements are naturally scattered through memory, potentially incurring the very expensive cache miss for each element.

Accordingly, all .NET collections, except LinkedList<> are implemented as arrays internally. Do note that a Stack<> is already naturally implemented as an array since you only can push and pop an element from the end of the array. An O(1) operation. Resizing the array is amortized O(logN).

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