2

Why an Enumerator does not keep track of the item in the same function but not if the MoveNext operation happens in other function ?

Example:

    public static void Test()
    {
        var array = new List<Int32>(new Int32[] { 1, 2, 3, 4, 5 });
        var e = array.GetEnumerator();
        e.MoveNext();
        e.MoveNext();
        Console.WriteLine(e.Current); // 2
        Incremenet(e);
        Console.WriteLine(e.Current); //2
    }

    static void Incremenet(IEnumerator<Int32> e)
    {
        Console.WriteLine("Inside " + e.Current); //2
        e.MoveNext();
        Console.WriteLine("Inside " + e.Current); // 3
        e.MoveNext();
        Console.WriteLine("Inside " + e.Current); //4
    }

I was expecting to get 5 in the last CW, but I get 2, like it was never incremented. Why the MoveNext inside the Increment function are forgotten when the function returns?

Cheers.

2 Answers 2

6

List<T>'s enumerator type List<T>.Enumerator is not a class, but a struct. Since GetEnumerator exposes that the return type is List<T>.Enumerator, when you use var, e's type is List<T>.Enumerator, so when you pass it to Incremenet, it is automatically boxed to be an IEnumerator<Int32> object. This is the cause of the strange behavior you're seeing.

If you type e as an IEnumerator<Int32>, the boxing happens as soon as you get the object, so this strange behavior does not happen: it works the same whether you run the other code in Test or in Increment (I fixed the spelling on that method, by the way, it's not "Incremenet").

public static void Test()
{
    var array = new List<Int32> { 1, 2, 3, 4, 5 };
    IEnumerator<Int32> e = array.GetEnumerator(); // boxed here
    e.MoveNext();
    e.MoveNext();
    Console.WriteLine(e.Current); // 2
    Increment(e);
    Console.WriteLine(e.Current); // now it's 4
}

static void Increment(IEnumerator<Int32> e)
{
    Console.WriteLine("Inside " + e.Current); // 2
    e.MoveNext();
    Console.WriteLine("Inside " + e.Current); // 3
    e.MoveNext();
    Console.WriteLine("Inside " + e.Current); // 4
}

It is exposed as its type instead of IEnumerator<T> for performance reasons. foreach is smart enough to call MoveNext and Current without boxing or virtual dispatch in such a case, and handles value type semantics without a problem. It does cause confusion, as you've seen, when you don't take great care of how you handle it though, since mutable structs are evil.

5
  • 1
    They had to expose it externally though. If they didn't expose it externally then it would always be boxed, and if it's always boxed, it may as well have just been a class to begin with. The intent was that it would virtually always be used by a foreach, which would work correctly with value type semantics. If the struct wasn't exposed publicly then the foreach couldn't pull out the enumerator without boxing it. (At least without special compiler support, such as was done for arrays.)
    – Servy
    Oct 30, 2013 at 16:49
  • @Servy Good point, good info, I've changed my answer in that portion.
    – Tim S.
    Oct 30, 2013 at 17:02
  • @Servy I'm still not clear why it was made a struct instead of a class with sealed/non-virtual stuff in it. That would let you generate near-identical IL, that I think would have similar performance.
    – Tim S.
    Oct 30, 2013 at 17:05
  • I know Eric Lippert stated that extensive testing was done and the struct performed significantly better in "standard" usages, and by enough to warrant making the change.
    – Servy
    Oct 30, 2013 at 17:07
  • I noticed you edited the exact post I was thinking of when I wrote my first comment. Now I'm not so concerned that I wasn't able to find it quickly and so didn't post a link.
    – Servy
    Oct 30, 2013 at 17:16
1

For the same reason test is 1 after increment in the following test case. This is normal behavior for a value type.

    static void Main(string[] args)
    {
        int test = 1;
        Increment(test);
        Console.WriteLine("After increment: " + test);
    }

    static void Increment(int test)//add ref and the original variable will also update
    {
        test += 1;
        Console.WriteLine(test);
    }

As Servy pointed out technically, the example does differ in that the local variable test is immutable. In reality the behavior we see is because the variable is copied to the Increment method. However, my point is that this type of behavior is consistent across value types (both properties and local variables). For further evidence of this fact:

struct MutableStruct
{
    public int EvilInt { get; set; }    
}

class Program
{        
    static void Main(string[] args)
    {
        var testStruct = new MutableStruct();
        testStruct.EvilInt = 1;

        int test = 1;
        Increment(test, testStruct);
        Console.WriteLine("After increment: " + test + " and..." + testStruct.EvilInt);//both 1
    }

    static void Increment(int test, MutableStruct test2)
    {
        test2.EvilInt += 1;
        test += 1;
        Console.WriteLine(test + " and..." + test2.EvilInt);//both 2
    }
}

As we can see here this behavior is normal across value types. In both the case of local immutable value types and mutable structs the behavior remains consistent.

4
  • That's not true: your test fails because you're assigning a new value to test, which was passed by value. That's not what he's doing with his enumerator.
    – dcastro
    Oct 30, 2013 at 16:45
  • @dcastro The details of why structs do what they do are an exercise better left to someone studying the C# spec. The scope and evil mutability of a value type is what I consider to be relevant here. Oct 30, 2013 at 16:49
  • But that's just it. Your example is demonstrating the semantics of an immutable value type. The list enumerator is a mutable value type. This answer doesn't even mention that.
    – Servy
    Oct 30, 2013 at 16:51
  • @Servy - Fair enough. I clarified the answer. Oct 30, 2013 at 16:57

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