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Does a List<T> always guarantee that items will be returned in the order they were added when enumerated?

Updated: Thanks for all the answers folks, puts my mind at ease. I had a quick poke around the List<T> class with .NET Reflector (should've probably done that in the first place) and indeed the underlying store is an array of T (T[]).

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Although we've now determined, through both experiment and reverse engineering, that List<T> in its current form does indeed preserve order, it would be nice if Microsoft would make it official and put this guarantee in the documentation. Anybody reading this have some clout there? –  I. J. Kennedy Jun 11 '10 at 17:18
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@I.J.Kennedy effin A! and that goes for a whole bunch more of the MS docs. +1 to you. (+100 if I could). There are thousands maybe millions of MS developers spending time reverse engineering, testing etc, all because of the lack of a few words from MS. Don't they realise this? The years go by and nothing changes. –  Jason S Nov 16 '11 at 21:40

4 Answers 4

up vote 27 down vote accepted

The List is index based and new items will always be added to the end of the list. You can insert items at a certain index so the next items will move one position.

So yes, you can use it safely that way...

The List(T) class is the generic equivalent of the ArrayList class. It implements the IList(T) generic interface using an array whose size is dynamically increased as required.

Elements in this collection can be accessed using an integer index. Indexes in this collection are zero-based.

The List(T) is not guaranteed to be sorted. You must sort the List(T) before performing operations (such as BinarySearch) that require the List(T) to be sorted.

A List(T) can support multiple readers concurrently, as long as the collection is not modified. Enumerating through a collection is intrinsically not a thread-safe procedure. In the rare case where an enumeration contends with one or more write accesses, the only way to ensure thread safety is to lock the collection during the entire enumeration. To allow the collection to be accessed by multiple threads for reading and writing, you must implement your own synchronization.

You can read more about it on MSDN.

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It seems that the doc for List<T> does not state that the order of retrieval is the same as the order of insertion. It does behave that way, for now, but it is not documented to do so. –  Cheeso Jun 25 '09 at 13:51
    
that's indeed correct, it is always good to be conscious about that, and when it's absolutely critical, to not count on it! –  Sander Versluys Jun 26 '09 at 10:12
    
@Cheeso It does guarantee order of retrieval. I've added an answer that includes this detail. –  Alex Angas May 15 at 3:07

Yes according to this MSDN Forum thread

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This is a link only answer... any chance you can please include the context of that link? –  Alex Angas May 15 at 3:06

Yes. But it's not part of the specification.

Ref: List Class

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In that case, depending on this particular implementation detail would be a bug, no? –  Cheeso Jun 25 '09 at 13:49
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I can't find a reference for this, can you cite one? –  annakata Jun 7 '10 at 7:00

Yes, List<T> guarantees both insertion order and retrieval order and this is documented on MSDN (emphasis below is mine).

Insertion

List<T>.Add Method

Adds an object to the end of the List<T>.

Item parameter is:

The object to be added to the end of the List<T>.

List<T>.AddRange Method

Adds the elements of the specified collection to the end of the List<T>.

Collection parameter is:

The collection whose elements should be added to the end of the List<T>.

Retrieval

List<T>.Enumerator Structure

Initially, the enumerator is positioned before the first element in the collection. At this position, Current is undefined. Therefore, you must call MoveNext to advance the enumerator to the first element of the collection before reading the value of Current.

Current returns the same object until MoveNext is called. MoveNext sets Current to the next element.

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Alex, I think you may have jumped to a conclusion which is not warranted. "The first element in the collection" is not necessarily the same as "the first element that was added to the collection." Likewise with the "last element". The doc says nothing about order of retrieval being related to order of insertion. –  Cheeso May 16 at 0:12

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