So I've notice that this code works:

class Program
    public static void Main()
        Int32[ ]numbers = {1,2,3,4,5};

        using (var enumerator = Data().GetEnumerator())


    public static IEnumerable<String> Data()
        yield return "Something";

In particular, I'm curious about the using block, since:

Int32[] numbers = { 1, 2, 3, 4, 5, 6 };

using (var enumerator = numbers.GetEnumerator())


fails with a compiler error. Obviously, the class that yield return returns is IDisposable while a regular array enumerator is not. So now I'm curious: what exactly does yield return create?

up vote 11 down vote accepted

IEnumerator<T> implements IDisposable, as you can see in the Object Browser or in MSDN.

The non-generic IEnumerator does not.

The base Array class implements IEnumerable but not IEnumerable<T>. (since Array is not generic)
Concrete array types do implement IEnumerable<T>, but they implement GetEnumerator() explicitly (I'm not sure why).
Therefore, the GetEnumerator() visible on any array type returns IEnumerator.

The generic IEnumerable<T> implementation returns a System.SZArrayHelper.SZGenericArrayEnumerator<T>.

The source code for this class (in Array.cs) has the following comment which partially explains this (remember, all support for generic arrays dates back to a time when IEnumerable<T> was not contraviant)

// The methods on this class must be written VERY carefully to avoid introducing security holes. 
// That's because they are invoked with special "this"! The "this" object
// for all of these methods are not SZArrayHelper objects. Rather, they are of type U[]
// where U[] is castable to T[]. No actual SZArrayHelper object is ever instantiated. Thus, you will
// see a lot of expressions that cast "this" "T[]". 
// This class is needed to allow an SZ array of type T[] to expose IList<T>, 
// IList<T.BaseType>, etc., etc. all the way up to IList<Object>. When the following call is 
// made:
//   ((IList<T>) (new U[n])).SomeIListMethod()
// the interface stub dispatcher treats this as a special case, loads up SZArrayHelper,
// finds the corresponding generic method (matched simply by method name), instantiates 
// it for type <T> and executes it.
// The "T" will reflect the interface used to invoke the method. The actual runtime "this" will be 
// array that is castable to "T[]" (i.e. for primitivs and valuetypes, it will be exactly
// "T[]" - for orefs, it may be a "U[]" where U derives from T.) 
  • While we are at it, I haven't seen any code that uses a using block as shown by OP. Is this necessary, considering that it is mere looping on the items than using an OS resource such as connection, file, bitmap etc. – shahkalpesh Mar 11 '13 at 15:21
  • 1
    @shahkalpesh: foreach will call Dispose() in a finally block if the enumerator implements IDisposable. If you call GetEnumerator() yourself, it's your responsibility to dispose it. IDisposable is not only for unmanaged resources; it's for anything that needs deterministic cleanup. Also, what about Directory.EnumerateFiles()? – SLaks Mar 11 '13 at 15:24
  • The reason that array types implement IEnumerable implicitly and IEnumerable<T> explicitly is backwards compatibility. There was a non-generic GetEnumerator instance method, and they couldn't take it away without it being a (more significant) breaking change. The majority of the other collections used were all added in or after .NET 2.0, so IEnumerable<T> existed when they were first created, and that could be the implicitly implemented interface. Any collection existing before then most likely doesn't implement IEnumerable<T> implicitly (then again, most can't at all...) – Servy Mar 11 '13 at 15:26
  • @Servy: Are you sure that changing GetEnumerator() to return a type that implements its previous return type is a breaking change? I suspect that this is mostly due to the variance issue. (arrays implement more than one IEnumerable<T>) – SLaks Mar 11 '13 at 15:30
  • @SLaks: Thanks for your reply. I think you'll agree that Dispose is needed to do cleanup of OS resource used (which needs deterministic cleanup than to wait for GC to do it). In that sense, foreach is a better way to deal with Directory.EnumerateFiles than using for(;;) or GetNumerator. Is that fair to assume? – shahkalpesh Mar 11 '13 at 15:36

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