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The code below (for running in LinqPad) is meant to parse the "foo/skip/bar" string into item objects, skipping over the 'skip' bit, yielding Item objects for "foo" and "bar". When run, 2 "bar" items are produced.

In the TryGetChild method, when "skip" is found, the enumerator is moved from "skip" forward to "bar". However, when execution returns into the calling method, the enumerator is back on "skip".

I think this is some yield block weirdness, as if I do the split in Main() and pass the enumerator into Walk() it works properly. Can someone explain how the enumerator goes back? Is a new one being created?

edit: This is a very simplified version of the seemingly odd situation I have found in my code. I am asking this question out of inquisitiveness rather than looking for a workaround, which I have already found.

/* output from program

enumerator moved to foo
enumerator moved to skip
enumerator moved to bar
enumerator moved to bar

Item [] (3 items)  


static void Main()

private static IEnumerable<Item> Walk(string pathString)
    var enumerator = pathString.Split('/').ToList().GetEnumerator();
    var current = new Item() { S = "" };
    while (enumerator.MoveNext())
        Console.WriteLine("enumerator moved to " + enumerator.Current);
        yield return current.TryGetChild(enumerator);
class Item
    public string S { get; set; }

    public Item TryGetChild(IEnumerator<string> enumerator)
        if (enumerator.Current == "skip")
            enumerator.MoveNext(); //iterator moves on to 123
            Console.WriteLine("enumerator moved to " + enumerator.Current);
        return new Item() { S = enumerator.Current };
share|improve this question
Is there a reason your code needs to use this method? It seems like your goals can be achieved in a much simpler manner. – dlev Aug 26 '11 at 16:08
@dlev: see the edit – mcintyre321 Aug 26 '11 at 16:12
up vote 4 down vote accepted

The reason you see this behaviour is that List<T>.GetEnumerator() returns an instance of List<T>.Enumerator, which is a struct. Thus you are passing a value type to the TryGetChild() method, and any mutations on that type (including those done by MoveNext()) will not be reflected in the caller.

share|improve this answer
Damn, I'd just come to that conclusion as well (though not by looking at the IL, just by doing what you suggested in the last sentence. That's quite a good gotcha there... – Chris Aug 26 '11 at 16:26
@Chris it is and it isn't. It's good to know in general, but relying on passing around an enumerator is asking for trouble regardless. – dlev Aug 26 '11 at 16:29
Yes, I did consider adding to my comment "and another reason why I'm never going to use an enumerator" directly. It just seems so safe at a glance... :) – Chris Aug 26 '11 at 16:32
@Chris Yeah, it took me a minute to realize what was happening. "Hmm, the change should be reflected, since he's passing a reference. Wait... is he... Aha!" – dlev Aug 26 '11 at 16:34
doh! a struct! good spot. – mcintyre321 Aug 26 '11 at 16:43

I think yield only works when using an IEnumerable or IEnumerable<T> loop.

share|improve this answer
It works in IEnumerable<T> loops too – mcintyre321 Aug 26 '11 at 16:12
Could you clarify what you mean by "only works"... Surely it would be working fine if he were not trying to advance the iterator in a separate method... – Chris Aug 26 '11 at 16:18
yield is definitely not the issue. See my answer for what's really going on. – dlev Aug 26 '11 at 16:24

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