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MyClass[] array;
List<MyClass> list;

What are the scenarios when one is preferable over the other? And why?

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Arrays are rather obsolete, as seen in a popular discussion here. Also pointed out here, and by our host in the blog. –  gimel Jan 12 '09 at 8:14
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If I'm not mistaken the List<> has an array as internal structure. Whenever the internal array is filled it simply copy the content to an array that is double the size (or some other constant times the current size). en.wikipedia.org/wiki/Dynamic_array –  Ykok Sep 12 '13 at 12:15
    
Ykok: What you say seems about right, I found the source code of List<> here. –  K_Rol Nov 22 at 6:20

10 Answers 10

up vote 223 down vote accepted

It is rare, in reality, that you would want to use an array. Definitely use a List<T> any time you want to add/remove data, since resizing arrays is expensive. If you know the data is fixed length, and you want to micro-optimise for some very specific reason (after benchmarking), then an array may be useful.

List<T> offers a lot more functionality than an array (although LINQ evens it up a bit), and is almost always the right choice. Except for params arguments, of course ;-p

As a counter - List<T> is one-dimensional; where-as you have have rectangular (etc) arrays like int[,] or string[,,] - but there are other ways of modelling such data (if you need) in an object model.

See also:

That said, I make a lot of use of arrays in my protobuf-net project; entirely for performance:

  • it does a lot of bit-shifting, so a byte[] is pretty much essential for encoding
  • I use a local rolling byte[] buffer which I fill before sending down to the underlying stream (and v.v.); quicker than BufferedStream etc
  • it internally uses an array-based model of objects (Foo[] rather than List<Foo>), since the size is fixed once built, and needs to be very fast

But this is definitely an exception; for general line-of-business processing, a List<T> wins every time.

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The argument about resizing is totally valid. However people prefer Lists even when no resizing is needed. For this latter case, is there a solid, logical argument or is it nothing more than "arrays are out of fashion"? –  Frederick The Fool Jan 12 '09 at 8:25
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"Definitely use a List<T> any time you want to add/remove data, since resizing arrays is expensive." List<T> uses an array internally. Were you thinking of LinkedList<T>? –  dan-gph Mar 9 '10 at 6:49
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More features == more complex == not good, unless you need those features. This answer basically lists reasons why array's are better, yet draws the opposite conclusion. –  Eamon Nerbonne Jun 20 at 9:35
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@EamonNerbonne if you're not using those features, I can pretty much guarantee that they aren't going to hurt you... but: the number of collections that never need mutation is much smaller, in my experience, than those that are mutated –  Marc Gravell Jul 18 at 11:52
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@MarcGravell: that depends on your coding style. In my experience virtually no collections are ever mutated. That is; collections are retrieved from the database or constructed from some source, but further processing is always done by recreating a new collection (e.g. map/filter etc). Even where conceptual mutation is necessary, it tends to be simplest to just generate a new collection. I only ever mutate a collection as a performance optimization, and such optimizations tend to be highly local and not expose the mutation to API consumers. –  Eamon Nerbonne Jul 18 at 12:38

Another situation not yet mentioned is when one will have a large number of items, each of which consists of a fixed bunch of related-but-independent variables stuck together (e.g. the coordinates of a point, or the vertices of a 3d triangle). An array of exposed-field structures will allow the its elements to be efficiently modified "in place"--something which is not possible with any other collection type. Because an array of structures holds its elements consecutively in RAM, sequential accesses to array elements can be very fast. In situations where code will need to make many sequential passes through an array, an array of structures may outperform an array or other collection of class object references by a factor of 2:1; further, the ability to update elements in place may allow an array of structures to outperform any other kind of collection of structures.

Although arrays are not resizable, it is not difficult to have code store an array reference along with the number of elements that are in use, and replace the array with a larger one as required. Alternatively, one could easily write code for a type which behaved much like a List<T> but exposed its backing store, thus allowing one to say either MyPoints.Add(nextPoint); or MyPoints.Items[23].X += 5;. Note that the latter would not necessarily throw an exception if code tried to access beyond the end of the list, but usage would otherwise be conceptually quite similar to List<T>.

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Lists are dynamically resizable, arrays are not. The performance will be quite similar. The overhead that is involved when using a List vs an Array is, IMHO when you add items to the list, and when the list has to increase the size of the array that it's using internally, when the capacity of the array is reached. Read more about C# List.

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Most of the times, using a List would suffice. A List uses an internal array to handle its data, and automatically resizes the array when adding more elements to the List than its current capacity, which makes it more easy to use than an array, where you need to know the capacity beforehand.

See http://msdn.microsoft.com/en-us/library/ms379570(v=vs.80).aspx#datastructures20_1_topic5 for more information about Lists in C# or just decompile System.Collections.Generic.List<T>.

If you need multidimensional data (for example using a matrix or in graphics programming), you would probably go with an array instead.

As always, if memory or performance is an issue, measure it! Otherwise you could be making false assumptions about the code.

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Hi, could you explain why "A list's lookup time would be O(n)" is true? As far as I know List<T> uses array behind the scenes. –  dragonfly Aug 7 '12 at 6:54
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@dragonfly you're totally right. Source. At the time, I assumed that the implementation used pointers, but I've since learned otherwise. From the link above: 'Retrieving the value of this property is an O(1) operation; setting the property is also an O(1) operation.' –  Sune Rievers Aug 7 '12 at 8:30
    
Great, thanks for answer. –  dragonfly Aug 7 '12 at 8:31

Use an array when you are dealing with data that is:

  • fixed in size, or unlikely to grow much
  • suitably large (more than 10, 50, 100 elements, depending on the algorithm)
  • you will be doing lots of indexing into it, i.e. you know you will often want the third element, or the fifth, or whatever.

Use a list for:

  • variable length data lists
  • that are mostly used as a stack or a queue or need to be iterated in its entirety
  • when you do not want to write an expression to derive the ultimate array size for the declaration and you do not want to wastefully pick a large number

Use a hashmap for:

  • variable length data lists
  • that need to be indexed like an array would

In reality, you'll want a list or hashmap almost all of the time. Next time you pick a data structure, think about what it must do well for you (or your code, anyway). Then pick something based on that. When in doubt, pick something as general as possible, i.e. an interface you can replace the implementation of quite easily. Some good links in the other answers as well.

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If I know exactly how many elements I'm going to need, say I need 5 elements and only ever 5 elements then I use an array. Otherwise I just use a List<T>.

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Really just answering to add a link which I'm surprised hasn't been mentioned yet: Eric's Lippert's blog entry on "Arrays considered somewhat harmful."

You can judge from the title that it's suggesting using collections wherever practical - but as Marc rightly points out, there are plenty of places where an array really is the only practical solution.

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Finally got around to reading this over 3 years later haha. Good article then, good article now. :) –  Spencer Ruport Apr 20 '12 at 19:36

Notwithstanding the other answers recommending List<T>, you'll want to use arrays when handling:

  • image bitmap data
  • other low-level data-structures (i.e. network protocols)
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Why for network protocols? Wouldn't you rather use custom structures here and give them an special serializer or an explicit memory layout? Furthermore, what speaks against using a List<T> here rather than a byte array? –  Konrad Rudolph Jan 12 '09 at 8:28
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@Konrad - well, for starters, Stream.Read and Stream.Write work with byte[], as does Encoding etc... –  Marc Gravell Jan 12 '09 at 8:37

It completely depends on the contexts in which the data structure is needed. For example, if you are creating items to be used by other functions or services using List is the perfect way to accomplish it.

Now if you have a list of items and you just want to display them, say on a web page array is the container you need to use.

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If you have a list of items and you just want to display them, then what is wrong with just using the list you already have? What would an array offer here? –  Marc Gravell Jan 12 '09 at 8:18
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And for "creating items to be used by other functions or services", actually, I'd prefer an iterator block with IEnumerable<T> - then I can stream objects rather than buffer them. –  Marc Gravell Jan 12 '09 at 8:47

Unless you are really concerned with performance, and by that I mean, "Why are you using .Net instead of C++?" you should stick with List<>. It's easier to maintain and does all the dirty work of resizing an array behind the scenes for you. (If necessary, List<> is pretty smart about choosing array sizes so it doesn't need to usually.)

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"Why are you using .Net instead of C++?" XNA –  Bengt Jun 12 '11 at 4:54

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