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I have a generic collection implementation for various things that's inside:

public class ImageDocument

with properties like:


each of which is basically IEnumerable<T>, but I also have separate calls that gives me the count for each of these, something like:


but these are lower level members that I want to wrap as well as implement the above properties (.Objects, .Effects, .Layers) as IEnumerable<T>, also using lower level members like:

GetObject (int index)
GetEffect (int index)
GetLayer (int index)

I have my own IEnumerable<T> like interface that inherits from IEnumerable<T>.

In the end I want these properties to be like this:

ICountableEnumerable Objects
ICountableEnumerable Effects
ICountableEnumerable Layers

so I could both enumerate them, access their counts (using the low level functions) as well as to be able to index them:

myImageDocument.Objects.Count, etc.
foreach ... myImageDocument.Objects ...

Can I implement these directly just like implementing IEnumerable<T> inside ImageDocument like:

   public IEnumerator<Objects> GetEnumerator()
         yield return obj;

or do I need an intermediate type for each of these properties? Something like:


that implements ICountableEnumerable?

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sounds to me you should be exposing IList<T> instead of ICountableEnumerable. ICountableEnumerable doesn't make much sense... every IEnumerable IS countable, either by casting it to its underlaying collection or by looping through its content. – Pauli Østerø Jan 14 '11 at 19:22
That's interesting idea, but for IList do I have to implement all these methods? Also I know IEnumerable is countable but I don't want to enumerate through 1M elements when the count is already know can just be returned in O(1). – Joan Venge Jan 14 '11 at 19:28

3 Answers 3

I would probably do something like:

class ImageDocument
    public ReadOnlyCollection<Effect> Effects { get { ... } }
    public ReadOnlyCollection<Layer> Layers { get { ... } }

That way the user can use all the nice properties of ReadOnlyCollection, like count, etc. The read-only-collection is a wrapper around a mutable collection; you can keep your mutable collection logic working as an implementation detail, and just expose a read-only wrapper on top of it.

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Thanks Eric, so when I do this I will just create a new ReadOnlyCollection? But how I am gonna override the index and Count of it? – Joan Venge Jan 14 '11 at 19:30
Also I don't know if it's important to mention but this is also very performance sensitive, I mean as fast as possible, so if there creating a new ReadOnlyCollection everytime is gonna be accessed, then I have to find something else. I guess I could store it internally right? That's what I do currently. In my ImageDocument, I store the collection and when requested return it where you have access to its count, indexing, etc. – Joan Venge Jan 14 '11 at 19:34
Use ReadOnlyCollection<string> = new ReadOnlyCollection<string>(myList);, where myList is of type IList<string> . The MSDN states that this is an O(1) operation, but you do not need to recreate the ReadOnlyCollection every time the get method is called, since it is a wrapper, as Eric states. You do not need to override Count or Index, as these are built in (and will work the same way as the underlying type's Count and Index. – Brian Jan 14 '11 at 20:36
Thanks Brian. I am unsure about a few things. So I should use IList as the underlying type? Also you said I don't need to override Count or Index but in that case how can the runtime know how to call my functions? It has to explicitly do this: InternalImageDocument.GetEffectCount(), etc. – Joan Venge Jan 14 '11 at 21:50
@Joan: IList is an interface and cannot be an underlying type. Whatever you choose as a type must implement IList (e.g., List), because this is a requirement of ReadOnlyCollection. Note that List has an AsReadOnly method that can also be used to make a ReadOnlyCollection. I am pretty sure ReadOnlyCollection is implemented using basic Composition. When you call Count or other members of ReadOnlyCollection, it knows how to call Count on the type it is wrapping because the IList interface has a Count method. – Brian Jan 16 '11 at 14:14

What if within your class you held the collections as List < T >? Then your IEnumerable < T > .Objects, et al, can return the List which would be enumerable AND optimized for index and count by LINQ.

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Thanks, but how do you do this? How can I override their members for indexing, counting, etc? – Joan Venge Jan 14 '11 at 19:26
You don't have to - if LINQ 'sees' that the IEnumerable it's working on is really a IList it will call IList.Count or IList.Index when you call the LINQ extension methods on the IEnumerable. – n8wrl Jan 14 '11 at 19:27
LINQ does this for anything 'count-ish' - Take, Skip, etc. All check the underlying type for optimizaitons like this. – n8wrl Jan 14 '11 at 19:29
Sorry to add another comment - Jon Skeet has had two dozen blog posts where he re-implements LINQ-to-objects and you can read about these optimizations. Very interesting. – n8wrl Jan 14 '11 at 19:30
So there you go - store them in a List<T> and return the list as IEnumerable and let LINQ do its magic. – n8wrl Jan 14 '11 at 19:38

I would suggest declaring a struct type for each of the different styles of enumeration; the struct should hold an immutable reference to the base collection, and implement IEnumerable<appropriateType> and publicly expose a GetEnumerator method, which would in turn call baseThing.GetLayersEnumerator() or some other similar function. Such an approach would avoid boxing in many common usage scenarios, and--unlike the structs returned by things like List.GetEnumerator--would exhibit reference semantics whether or not it was boxed.

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