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I've got the extremely unlikely and original situation of wanting to return a readonly array from my property. So far I'm only aware of one way of doing it - through the System.Collections.ObjectModel.ReadOnlyCollection<T>. But that seems somehow awkward to me, not to mention that this class loses the ability to access array elements by their index (added: whoops, I missed the indexer). Is there no better way? Something that could make the array itself immutable?

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ReadOnlyCollection has an indexer, it supports indexing. You can't make an array immutable. – Hans Passant Jan 25 '10 at 16:17
Actually, ReadOnlyCollection<T> does have an indexer property... – BFree Jan 25 '10 at 16:18
@nobugz - sure you can: new string[0] - plenty immutable ;-p – Marc Gravell Jan 25 '10 at 16:29
Two points: (1) we are considering immutable arrays for a future version of C#, but it is quite tricky; how do you initialize the array if its contents cannot be changed? We're working on it, but no promises, this is just at the idea stage. And (2) don't forget that a read only collection is only an immutable facade over a mutable object; if someone else mutates the underlying object, the facade will expose the mutation. – Eric Lippert Jan 25 '10 at 17:02
@JasonH. Declaring something final in Java works the same as readonly in C#. You are only declaring the reference to the array as final and not the contents. – RichardOD Jan 25 '10 at 18:49
up vote 25 down vote accepted

Use ReadOnlyCollection<T>. It is read-only and, contrary to what you believe, it has an indexer.

Arrays are not immutable and there is no way of making them so without using a wrapper like ReadOnlyCollection<T>.

Other answers have suggested just casting collections to the newer IReadOnlyList<T>, which extends IReadOnlyCollection<T> to add an indexer. Unfortunately, this doesn't actually give you control over the mutability of the collection since it could be cast back to the original collection type and mutated.

Instead, you should still use the ReadOnlyCollection<T> (the List<T> method AsReadOnly() helps to wrap lists accordingly) to create an immutable access to the collection and then expose that, either directly or as any one of the interfaces it supports, including IReadOnlyList<T>.

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ReadOnlyCollection is not usable as an immutable collection. It is a little less than an Array, but with more code around it. It's only 'feature' is not to allow its users to modify the collection, but it does not even guarantee that to the users... Bottom line: useless! – gatopeich Mar 7 '12 at 15:59
@gatopeich: Useless is an unfounded statement. Please provide your sources as to its lack of use. Nice rant, though. – Jeff Yates Mar 7 '12 at 16:19
I wish there was IReadOnlyList interface that this class would implement. – Kugel Dec 26 '12 at 17:09
@gatopeich: Why do you say that it is useless, it is an implementation of IList<T> that fails if you try and use the modification calls while using an IList<T> as its backend. Sure it doesn't make 100% certain the data is immutable, but it is the best you can do without copying the data (which seems silly, since it is almost always used by a class that otherwise ensures the backing collection is not changed) – Guvante Sep 26 '13 at 20:55
see also @Warty's answer for IReadOnlyList<T> in .NET 4.5. – TooTone Jul 18 '14 at 14:23

.NET Framework 4.5 introduced IReadOnlyList<T> which extends from IReadOnlyCollection<T> adding T this[int index] { /*..*/ get; }.

You can cast from T[] to IReadOnlyList<T>. One advantage of this is that (IReadOnlyList<T>)array understandably equals array; no boxing is involved.

Of course, as a wrapper is not being used, (T[])GetReadOnlyList() would be mutable.

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The issue with just casting to the interface is that it can be cast back again, as you point out. This means you have no control over the mutability of the data. You should still use the ReadOnlyCollection<T> to wrap first and then use the IReadOnlyList<T> from that so that you have control over how your data is used. – Jeff Yates Aug 5 '15 at 15:09
I'd argue this boils down to contracts: If I return you an object, then I've given you permission to use whatever methods are exposed by that object. If you decide to, for example, use reflection to peek and manipulate the innards of that object, then all guarantees are lost. Likewise, if I return you an IEnumerable<T>, then I've given you the right to enumerate results. If you decide to directly cast the IEnumerable to a List<T> and clear it (read: (List<T>)result over result.ToList()), then you're working with behavior that I have not defined. – Warty Aug 19 '15 at 8:01

From .NET Framework 2.0 and up there is Array.AsReadOnly which automatically creates a ReadOnlyCollection wrapper for you.

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If you really want an array returned, but are afraid that the consumer of the array will mess with the internal data, just return a copy of the Array. Personally I still think ReadOnlyCollection<T> is the way to go, but if you REALLY want an array.....

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Seems like a good idea, until you realise what class.MyArray[i] will do in a loop. Do that 1000 times and you have 1000 copies of the array! – RichardOD Jan 25 '10 at 16:33
@RichardOD True, but you don't do that. If you're accessing it by index on the main class, then you just return the elements. If you're returning the array then give the user a function that will return a copy of the array, and iterate over that. – Patrick M Apr 9 '13 at 17:59

IEnumerable comes to mind.

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Do you mean to cast my array to an IEnumerable and return that? That would then be even worse than the ReadOnlyCollection. First of all, anyone could easily cast it back to the array and modify it. Secondly it provides an even smaller subset of the functionality that arrays offer. – Vilx- Jan 25 '10 at 16:18
You can make this work just fine with an iterator (yield return statement). – Hans Passant Jan 25 '10 at 18:07

You might want to implement the IEnumerable interface and overload the this[int] operator to deny access to it's setter

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Say what? In what way is it better than ReadOnlyCollection mentioned above? – Vilx- Jan 25 '10 at 16:39
translation: "you may want to implement an interface but not implement it" -1 – Andrew Bullock May 15 '12 at 9:36

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