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I noticed that List<T> defines its enumerator as a struct, while ArrayList defines its enumerator as a class. What's the difference? If I am to write an enumerator for my class, which one would be preferable?

EDIT: My requirements cannot be fulfilled using yield, so I'm implementing an enumerator of my own. That said, I wonder whether it would be better to follow the lines of List<T> and implement it as a struct.

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I would be extremely interested to know where you hit a problem using yield return. – Daniel Earwicker Dec 21 '08 at 14:55
1) I very much hate "compiler magic" for which I'm not sure what the output would be. (Although I would utilize it for simple situations.) – Hosam Aly Dec 21 '08 at 15:23
2) I want to support a list that can be modified during iteration. Normal iterator semantics forbid that. (And I don't know how the compiler would know that my list was modified!) – Hosam Aly Dec 21 '08 at 15:25
A few harmless questions then: Wouldn't it be better to learn what the compiler magic does, so you can benefit from it? When say your implementation was faster and cost less memory, did you measure that in a realistic test? And how often do you use Reset? – Daniel Earwicker Dec 21 '08 at 16:52
For the List<T> part, catch Eric Lippert's explanation in this question: why-bcl-collections-use-struct-enumerators-not-classes? – nawfal Dec 1 '13 at 3:40
up vote 7 down vote accepted

Like this others, I would choose a class. Mutable structs are nasty. (And as Jared suggests, I'd use an iterator block. Hand-coding an enumerator is fiddly to get right.)

See this thread for an example of the list enumerator being a mutable struct causing problems...

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Well, that example proved I should make it a class. :) But why is List implemented that way? Why was it not corrected? – Hosam Aly Dec 21 '08 at 15:07
It's certainly too late to change it now - but I don't know why it was designed that way in the first place. Presumably in the name of efficiency - but a bad call, IMO. – Jon Skeet Dec 21 '08 at 15:15
I presumed it was so the current state of an enumerator could be 'saved' just by copying the enumerator to another variable - I've recently used this 'feature' myself to do linked list slices (as LinkedList<T>.Enumerator is also a struct) – thecoop Nov 13 '09 at 10:24
The link to the example is dead, and the Way Back Machine doesn't help either. – Cristi Diaconescu Jan 29 '13 at 14:07
@JonSkeet: I would guess that if languages had been designed so that they would look for a method called something like DuckTypeGetEnumerator before checking for a method called GetEnumerator, then List<T>.DuckTypeGetEnumerator would have returned a struct and List<T>.GetEnumerator would have returned a class. There are only upsides to having foreach use a struct internally, and only downsides to having IEnumerator<T>.GetEnumerator return one; having the explicitly-implemented interface return a class while the class method returns a struct would have been odd, though. – supercat Jan 18 '14 at 16:25

The easiest way to write an enumerator in C# is with the "yield return" pattern. For example.

public IEnumerator<int> Example() {
  yield return 1;
  yield return 2;

This pattern will generate all of the enumerator code under the hood. This takes the decision out of your hands.

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Write it using yield return.

As to why you might otherwise choose between class or struct, if you make it a struct then it gets boxed as soon as it is returned as an interface, so making it a struct just causes additional copying to take place. Can't see the point of that!

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Which mandates the question: why does List<T> use a struct enumerator? – Hosam Aly Dec 21 '08 at 14:44
Until someone comes up with a reason why it's advantageous, we'll have to assume the Microserf responsible for it went temporarily insane. – Daniel Earwicker Dec 21 '08 at 14:53

An enumerator is inherently a changing structure, since it needs to update internal state to move on to the next value in the original collection.

In my opinion, structs should be immutable, so I would use a class.

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Reason List uses a struct enumerator is to prevent garbage generation in foreach statements. This is pretty good reason especially if you are programming for Compact Framework, because CF doesn't have generational GC and CF is usually used on low performance hardware where it can quickly lead to performance issues.

Also, I don't think mutable structs are source of problems in examples some posted, but programmers that don't have good understanding of how value types work.

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I can't see how a struct enumerator would prevent garbage generation. Wouldn't you be even more likely to end up with several copies of the same enumerator, as opposed to a single enumerator object if it were a class? Or do value types not need to be garbage-collected? – stakx Oct 30 '11 at 8:48
Value types are not garbage-collected in the same way as reference types. Reference types live on the heap, while value types live on the stack. So while reference types are deallocated by compacting the GC heap (can be slow if you have large, complex heap); value types are deallocated by popping the stack (very fast). – zigzag Jul 18 '13 at 8:22
Usually you don't need to worry about garbage generation because GC will be fast enough and it will not be performance bottleneck. But in special cases like high frequency code, a lot of allocation on the heap can cause performance problems by causing GC to run more frequently than usual. (for example allocating a lot of new objects each frame in a game) – zigzag Jul 18 '13 at 8:33

Any implementation of IEnumerable<T> should return a class. It may be useful for performance reasons to have a GetEnumerator method which returns a struct which provides the methods necessary for enumeration but does not implement IEnumerator<T>; this method should be different from IEnumerable<T>.GetEnumerator, which should then be implemented explicitly.

Using this approach will allow for enhanced performance when the class is enumerated using a foreach or "For Each" loop in C# or or any context where the code which is doing the enumeration will know that the enumerator is a struct, but avoid the pitfalls that would otherwise occur when the enumerator gets boxed and passed by value.

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It's worth noting that this level of performance gain is rarely important in most everyday applications. Devs should use a profiler to discover the real trouble spots before diving into a struct enumerator. Still, it's a valid technique, and I've used it a couple of times to good effect. – Jeff Sharp Jan 18 '14 at 15:16

There's a couple of blog posts that cover exactly this issue. Basically, enumerator structs are a really really bad idea...

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There would be nothing but upside to having the thing used by foreach be a struct, if there were a clean way of having it not be the same type as is returned by IEnumerable<T>.GetEnumerator. Interestingly, were it not for variable-type inference, it wouldn't matter much whether GetEnumerator returned a struct or class, since assigning the return value to IEnumerator<T> effectively turns it into a class object (albeit one with a somewhat-broken Equals method). The problem is with var myEnumerator=thing.GetEnumerator();. – supercat Jan 18 '14 at 16:30

To expand on @Earwicker: you're usually better off not writing an enumerator type, and instead using yield return to have the compiler write it for you. This is because there are a number of important subtleties that you might miss if you do it yourself.

See SO question "What is the yield keyword used for in C#?" for some more details on how to use it.

Also Raymond Chen has a series of blog posts ("The implementation of iterators in C# and its consequences": parts 1, 2, 3, and 4) that show you how to implement an iterator properly without yield return, which shows just how complex it is, and why you should just use yield return.

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