Is there any reason to expose an internal collection as a ReadOnlyCollection rather than an IEnumerable if the calling code only iterates over the collection?

class Bar
    private ICollection<Foo> foos;
    // Which one is to be preferred?
    public IEnumerable<Foo> Foos { ... }
    public ReadOnlyCollection<Foo> Foos { ... }

// Calling code:

foreach (var f in bar.Foos)

As I see it IEnumerable is a subset of the interface of ReadOnlyCollection and it does not allow the user to modify the collection. So if the IEnumberable interface is enough then that is the one to use. Is that a proper way of reasoning about it or am I missing something?

  • 7
    If you're using .NET 4.5, you may want to try the new read-only collection interfaces. You'll still want to wrap the returned collection in a ReadOnlyCollection if you're paranoid, but now you're not tied to a specific implementation. Commented Nov 12, 2012 at 22:09

5 Answers 5


More modern solution

Unless you need the internal collection to be mutable, you could use the System.Collections.Immutable package, change your field type to be an immutable collection, and then expose that directly - assuming Foo itself is immutable, of course.

Updated answer to address the question more directly

Is there any reason to expose an internal collection as a ReadOnlyCollection rather than an IEnumerable if the calling code only iterates over the collection?

It depends on how much you trust the calling code. If you're in complete control over everything that will ever call this member and you guarantee that no code will ever use:

ICollection<Foo> evil = (ICollection<Foo>) bar.Foos;

then sure, no harm will be done if you just return the collection directly. I generally try to be a bit more paranoid than that though.

Likewise, as you say: if you only need IEnumerable<T>, then why tie yourself to anything stronger?

Original answer

If you're using .NET 3.5, you can avoid making a copy and avoid the simple cast by using a simple call to Skip:

public IEnumerable<Foo> Foos {
    get { return foos.Skip(0); }

(There are plenty of other options for wrapping trivially - the nice thing about Skip over Select/Where is that there's no delegate to execute pointlessly for each iteration.)

If you're not using .NET 3.5 you can write a very simple wrapper to do the same thing:

public static IEnumerable<T> Wrapper<T>(IEnumerable<T> source)
    foreach (T element in source)
        yield return element;
  • 16
    Note that there is a performance penalty for this: AFAIK the Enumerable.Count method is optimized for Collections casted into IEnumerables, but not for a ranges produced by Skip(0)
    – shojtsy
    Commented Feb 1, 2010 at 23:45
  • 7
    -1 Is it just me or is this an answer to a different question? It's useful to know this "solution", but the op has asked for a comparison between returning a ReadOnlyCollection and IEnumerable. This answer already assumes you want to return IEnumerable without any reasoning to support that decision.
    – Zaid Masud
    Commented Aug 8, 2012 at 15:35
  • 1
    The answer shows casting a ReadOnlyCollection to an ICollection and then running Add successfully. As far as I know, that should not be possible. The evil.Add(...) should throw an error. dotnetfiddle.net/GII2jW Commented Oct 26, 2015 at 16:42
  • 2
    @ShaunLuttin: Yes, exactly - that throws. But in my answer, I don't cast a ReadOnlyCollection - I cast an IEnumerable<T> which isn't actually read-only... it's instead of exposing a ReadOnlyCollection
    – Jon Skeet
    Commented Oct 26, 2015 at 16:45
  • 1
    Aha. Your paranoia would lead you to use a ReadOnlyCollection instead of an IEnumerable, in order to protect against the evil casting. Commented Oct 26, 2015 at 16:48

If you only need to iterate through the collection:

foreach (Foo f in bar.Foos)

then returning IEnumerable is enough.

If you need random access to items:

Foo f = bar.Foos[17];

then wrap it in ReadOnlyCollection.

  • 2
    @w0051977 It depends on your intent. Using System.Collections.Immutable as Jon Skeet recommends is perfectly valid when you're exposing something that is never going to change after you get a reference to it. On the other hand, if you're exposing a read-only view of a mutable collection, then this advice is still valid, although I would probably expose it as IReadOnlyCollection (which didn't exist when I wrote this). Commented Apr 16, 2018 at 14:41
  • IReadOnlyList<T> has the [index]er Commented May 13, 2022 at 14:53

If you do this then there's nothing stopping your callers casting the IEnumerable back to ICollection and then modifying it. ReadOnlyCollection removes this possibility, although it's still possible to access the underlying writable collection via reflection. If the collection is small then a safe and easy way to get around this problem is to return a copy instead.

  • 17
    That's the kind of "paranoid design" I heartily disagree with. I think it's bad practice to choose inadequate semantics in order to enforce a policy. Commented Jan 29, 2009 at 12:37
  • 27
    You disagreeing doesn't make it wrong. If I'm designing a library for external distribution I'd much rather have a paranoid interface than deal with bugs raised by users who try to misuse the API. See the C# design guidelines at msdn.microsoft.com/en-us/library/k2604h5s(VS.71).aspx Commented Jan 29, 2009 at 12:44
  • 5
    Yes, in the specific case of designing a library for external distribution, it makes sense to have a paranoid interface for whatever you're exposing. Even so, if the semantics of Foos property is sequential access, use ReadOnlyCollection and then return IEnumerable. No need to use wrong semantics ;) Commented Jan 29, 2009 at 12:58
  • 10
    You don't need to do either. You can return a read-only iterator without copying...
    – Jon Skeet
    Commented Jan 29, 2009 at 13:33
  • 1
    @shojtsy Your line of code doesn't seem to work. as generates a null. A cast throws an exception. Commented May 31, 2011 at 5:27

I avoid using ReadOnlyCollection as much as possible, it is actually considerably slower than just using a normal List. See this example:

List<int> intList = new List<int>();
        //Use a ReadOnlyCollection around the List
        System.Collections.ObjectModel.ReadOnlyCollection<int> mValue = new System.Collections.ObjectModel.ReadOnlyCollection<int>(intList);

        for (int i = 0; i < 100000000; i++)
        long result = 0;

        //Use normal foreach on the ReadOnlyCollection
        TimeSpan lStart = new TimeSpan(System.DateTime.Now.Ticks);
        foreach (int i in mValue)
            result += i;
        TimeSpan lEnd = new TimeSpan(System.DateTime.Now.Ticks);
        MessageBox.Show("Speed(ms): " + (lEnd.TotalMilliseconds - lStart.TotalMilliseconds).ToString());
        MessageBox.Show("Result: " + result.ToString());

        //use <list>.ForEach
        lStart = new TimeSpan(System.DateTime.Now.Ticks);
        result = 0;
        intList.ForEach(delegate(int i) { result += i; });
        lEnd = new TimeSpan(System.DateTime.Now.Ticks);
        MessageBox.Show("Speed(ms): " + (lEnd.TotalMilliseconds - lStart.TotalMilliseconds).ToString());
        MessageBox.Show("Result: " + result.ToString());
  • 18
    Premature optimization. By my measurements, iterating over a ReadOnlyCollection takes roughly 36% longer than a regular list, assuming you do nothing inside the for loop. Chances are, you'll never notice this difference, but if this is a hot-spot in your code and requires every last bit of performance you can squeeze out of it, why not use an Array instead? That would be faster still. Commented Nov 12, 2012 at 22:06
  • Your benchmark contains flaws, you are completely ignoring branch prediction. Commented Feb 15, 2019 at 15:42

Sometimes you may want to use an interface, perhaps because you want to mock the collection during unit testing. Please see my blog entry for adding your own interface to ReadonlyCollection by using an adapter.

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