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How can I convert a List<MyObject> to an IEnumerable<MyObject> and then back again?

I want to do this in order to run a series of LINQ statements on the List, e. g. Sort()

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This is the covered in this question stackoverflow.com/questions/31708/… –  John Mar 4 '10 at 15:59

5 Answers 5

up vote 108 down vote accepted
List<string> myList = new List<string>();
IEnumerable<string> myEnumerable = myList;
List<string> listAgain = myEnumerable.ToList();
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Beware however that myEnumarable is the same object instance as myList, but listAgain is not the same object instance as myEnumerable. Depending on what you want to do and what myEnumerable is, "List<string> listAgain = myEnumerable as List<string>;" might be better. –  ChrisW Jan 23 '09 at 12:12
Chrisw: Oh yes, you're right of course, but the IEnumerable<T> interface is immutable so it will not cause problems in that direction and casting back just feels dirty when you have a function that will take care of type safety. –  Tamas Czinege Jan 23 '09 at 12:17
You also could just use the original myList object. (I guess I don't really get the question) –  sth Jan 23 '09 at 12:27
It's just that if he edits myList then he would be editing myEnumrable, but if he edits listAgain then he wouldn't be editing myEnumerable. –  ChrisW Jan 23 '09 at 12:28
Don't forget using System.Linq; or you won't be able to ToList() –  Blankasaurus Apr 19 '12 at 4:25

To prevent duplication in memory, resharper is suggesting this:

List<string> myList = new List<string>();
IEnumerable<string> myEnumerable = myList;
List<string> listAgain = myList as List<string>() ?? myEnumerable.ToList();

.ToList() returns a new immutable list. So changes to listAgain does not effect myList in @Tamas Czinege answer. This is correct in most instances for least two reasons: This helps prevent changes in one area effecting the other area (loose coupling), and it is very readable, since we shouldn't be designing code with compiler concerns.

But there are certain instances, like being in a tight loop or working on an embedded or low memory system, where compiler considerations should be taken into consideration.

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A List<T> is already an IEnumerable<T>, so you can run LINQ statements directly on your List<T> variable.

If you don't see the LINQ extension methods like OrderBy() I'm guessing it's because you don't have a using System.Linq directive in your source file.

You do need to convert the LINQ expression result back to a List<T> explicitly, though:

List<Customer> list = ...
list = list.OrderBy(customer => customer.Name).ToList()
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"If you don't see the LINQ extension methods like OrderBy()" That was my problem, thank you. –  RyPope Mar 6 '14 at 22:13

A List<T> is an IEnumerable<T>, so actually, there's no need to 'convert' a List<T> to an IEnumerable<T>. Since a List<T> is an IEnumerable<T>, you can simply assign a List<T> to a variable of type IEnumerable<T>.

The other way around, not every IEnumerable<T> is a List<T> offcourse, so then you'll have to call the ToList() member method of the IEnumerable<T>.

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Technically, ToList is a member method of System.Linq.Enumerable –  David B Jan 23 '09 at 16:45
I think you can just cast IEnumerable on List as David say it is it. –  abatishchev Jun 14 '09 at 19:23

Aside: Note that the standard LINQ operators (as per the earlier example) don't change the existing list - list.OrderBy(...).ToList() will create a new list based on the re-ordered sequence. It is pretty easy, however, to create an extension method that allows you to use lambdas with List<T>.Sort:

static void Sort<TSource, TValue>(this List<TSource> list,
    Func<TSource, TValue> selector)
    var comparer = Comparer<TValue>.Default;
    list.Sort((x,y) => comparer.Compare(selector(x), selector(y)));

static void SortDescending<TSource, TValue>(this List<TSource> list,
    Func<TSource, TValue> selector)
    var comparer = Comparer<TValue>.Default;
    list.Sort((x,y) => comparer.Compare(selector(y), selector(x)));

Then you can use:

list.Sort(x=>x.SomeProp); // etc

This updates the existing list in the same way that List<T>.Sort usually does.

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A slight correction to this statement: the standard LINQ operators don't change the existing list; instead, they create a new IEnumerable that contains the logic necessary for doing their work. However, this logic isn't actually executed until the IEnumerator is requested. –  Vojislav Stojkovic Jan 23 '09 at 13:11
@Vojislav - I was meaning in the context of the earlier example ending with ToList - I will clarify, though. –  Marc Gravell Jan 23 '09 at 13:12

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