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Does it internally get treated as an Array or does it get treated as a totally different type by the CLR?

I am trying to implement integer values to the list.

List<int> lst = new List<int>();


I create an Array of integers

int[] arr = new int[2];
arr[0] = 3;
arr[1] = 4;

Array returns better time span results. So why do people prefer List<>.

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You could try ILSpy and take a look by yourself. The reason to have a dynamically growable/shrinkable list is that it is not fixed size like Array is. – Uwe Keim Aug 4 '12 at 9:47

2 Answers 2

up vote 5 down vote accepted

List<> is an implementation of a data structure, which takes care of allocating memory on a on-demand basis; it allows for insertion and deletion at any index etc. Therefore it is much more convenient than a simple array.

Under the hood, the current List<> implementation uses an array for storage, and the overhead when doing array-like operations is minimal. The added convenience is usually worth the little (if at all relevant) performance difference. Adding items is typically faster because the list allocates chunks of memory and doesn't require a new allocation and copy on every add (compared to the pure array, where the Length is always bound to the size in memory).

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So, what you are saying is, although negligible, List<> will provide a slower response, in terms of Speed, than an Array? – Sunny R Gupta Aug 4 '12 at 10:04
Of course. List<T> is an abstraction over array, and abstractions cost extra CPU cycles. Howevrr, I agree with Lucero, under normal conditions, List is more than fast enough. – Steven Aug 4 '12 at 10:09
The "response time" is typically irrelevant, the request gets passed through to the underlying array after a (fast and cheap) bounds check. This is probably even inlined by the runtime, so that it doesn't even need an additional call. – Lucero Aug 4 '12 at 10:29

A normal random access list typically has an internal array. The .NET List<T> implementation does this. Other implementations such as LinkedList<T> uses chains of elements with references instead of arrays. More exotic lists may use trees internally for ordering.

The internal array in List<T> is initialised with a short length (4 I believe), and if you try to add outside the max bounds of the array, it is expanded. Since this can be time consuming (the array needs to be copied), the array is doubled in size, i.e. when you add the 5th element the internal array is resized to length 8 and so on.

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I remember reading, that List<> Data Structure is optimized for Speed, whereas Array DS is optimized for Memory. You seem to be contradicting the fact that List<> is optimized for Speed. (when we say that it gets re-sized and reallocated, when moving out of bounds) – Sunny R Gupta Aug 4 '12 at 10:01
I don't agree with that distinction. A List<T> HAS an array internally, so is essentially no different from an array storage-wise. You pay a tiny performance penalty with the list, and for that cost you get a dynamic/resizable collection. So in conclusion the largest difference between list and array, is that you can always ADD things to a list. – Anders Forsgren Aug 4 '12 at 10:05
@bugbuster, if you want to add an item to an array (so that Length increases, that is, not just change an existing item), you have to re-allocate the array too. The list will grow in bigger chunks and keep track of the number of used elements of the array, thereby it is faster for sequential adds. – Lucero Aug 4 '12 at 10:27

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