I would like to create a list in C# that after its creation I won't be able to add or remove items from it. For example, I will create the list;

List<int> lst = a;

(a is an existing list), but after I won't be able to write the code (it will mark it as an error):

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    readonly List<int> lst = new List<int> { 1, 2, 3 }; Commented Nov 24, 2015 at 9:16
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    @TimSchmelter: That doesn't fulfil the requirements - it only makes the variable itself readonly.
    – Jon Skeet
    Commented Nov 24, 2015 at 9:17
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    Possible duplicate of readonly list or unmodifiable list in .NET 4.0
    – Chawin
    Commented Nov 24, 2015 at 9:28
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    @CHawin: that question is from 2009. Unsurprisingly, the solutions explored there are outdated and not very duplicative of those explored here, although there is some overlap. Commented Nov 24, 2015 at 10:20
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    @EamonNerbonne apologies, when I flagged the question the ReadonlyCollection answer was the most voted result, I didn't realise that there were more up to date solutions.
    – Chawin
    Commented Nov 24, 2015 at 10:35

10 Answers 10


.NET supports truly immutable collections, read-only views of mutable collections, and read-only interfaces implemented by mutable collections.

One such immutable collection is ImmutableArray<> which you can create as a.ToImmutableArray() in your example. Make sure to take a look at the other options MSDN lists because you may be better served by a different immutable collection. If you want to make copies of the original sequence with slight modifications, ImmutableList<> might be faster, for instance (the array is cheaper to create and access, though). Note that a.Add(...); is valid, but returns a new collection rather than changing a. If you have resharper, that will warn you if you ignore the return value of a pure method like Add (and there may be a roslyn extension to do something similar I'm unaware of). If you're going this route - consider skipping List<> entirely and going straight to immutable collections.

Read-only views of mutable collections are a little less safe but supported on older versions of .NET. The wrapping type is called ReadOnlyCollection<>, which in your example you might construct as a.AsReadOnly(). This collection does not guarantee immutability; it only guarrantees you can't change it. Some other bit of code that shares a reference to the underlying List<> can still change it. Also, ReadOnlyCollection also imposes some additional overhead; so you may not be winning much by avoiding immutable collections for performance reasons (TODO: benchmark this claim). You can use a read-only wrapper such as this even in a public API safely - there's no (non-reflection) way of getting the underlying list. However, since it's often no faster than immutable collections, and it's also not entirely safe, I recommend to avoid ReadOnlyCollection<> - I never use this anymore, personally.

Read-only interfaces implemented by mutable collections are even further down the scale of safety, but fast. You can simply cast List<> as IReadOnlyList<>, which you might do in your example as IReadOnlyList<int> lst = a. This is my preferences for internal code - you still get static type safety, you're simply not protected from malicious code or code that uses type-checks and casts unwisely (but those are avoidable via code-reviews in my experience). I've never been bitten by this choice, but it is less safe than the above two options. On the upside, it incurs no allocations and is faster. If you commonly do this, you may want to define an extension method to do the upcast for you (casts can be unsafe in C# because they not only do safe upcasts, but possibly failing downcasts, and user-defined conversions - so it's a good idea to avoid explicit casts wherever you can).

Note that in all cases, only the sequence itself is read-only. Underlying objects aren't affected (e.g. an int or string are immutable, but more complicated objects may or may not be).


  • For safety: Use a.ToImmutableArray() to create an immutable copy in an ImmutableArray<int>.
  • For performance: Use IReadOnlyList<int> to help prevent accidental mutation in internal code with minimal performance overhead. Be aware that somebody can cast it back to List<> (don't do that), making this less "safe" for a public api.
  • Avoid a.AsReadOnly() which creates a ReadOnlyCollection<int> unless you're working on a legacy code base that doesn't support the newer alternatives, or if you really know what you're doing and have special needs (e.g. really do want to mutate the list elsewhere and have a read-only view).
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    That is the first time that I see ReadOnlyCollection<T> being described as "quite slow". What is the issue? Is it the overhead of an additional heap object + the forwarding method call to IList<T> methods? What kind of speed difference are we talking about? Do you have any benchmarks? Commented Nov 24, 2015 at 13:01
  • The overhead to access an item is two indirect accesses and one interface-indirect access and two heap allocations over the underlying array - the array is a primitive object; the list wraps that; the usage of an interface to access the list makes accesses slower, and the readonlycollection wraps that. I did once benchmark these overheads, but the results are really out of date, so please don't take these results all that seriously anymore: eamon.nerbonne.org/2009/02/… Commented Nov 25, 2015 at 9:40
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    @JeanHominal I'm going to edit the answer to de-emphasize performance, since I think it's a little misleading, especially without a much deeper discussion of what does and does not make code slow in these cases. AFAIK, it's not specifically ReadOnlyCollection that is slow, even though thats what the text suggested... Commented Nov 25, 2015 at 9:41
  • Thank you for the benchmark, it does show some interesting things - for example, there is only a relatively small difference between "wrapping in ReadOnlyCollection<T>" and "indirecting via IList<T>", which is what I would expect. That could mean that the performance advantage of "using IReadOnlyList<T>" over "using ReadOnlyCollection<T>" would be relatively small. It also shows that access to an array using IList<T> is expensive. Commented Nov 25, 2015 at 10:40
  • It could be interesting to compare, on a recent version of .NET (and the new JIT), between T[], List<T>, ImmutableArray<T>, ImmutableList<T>, ReadOnlyCollection<T> (wrapping T[]) and ReadOnlyCollection<T> (wrapping List<T>), when they are used directly vs when they are casted to IReadOnlyList<T>, and when using an indexed for loop vs when using a foreach loop. Commented Nov 25, 2015 at 10:49

You can use ImmutableList<T> / ImmutableArray<T> from System.Collections.Immutable NuGet:

var immutable = ImmutableList<int>.Create(1, 2, 3);

Or using the ToImmutableList extension method:

var immutable = mutableList.ToImmutableList();

In-case Add is invoked, *a new copy * is returned and doesn't modify the original list. This won't cause a compile time error though.

  • i m not down voter, but i am wondering OP want to not modify list, =but ImmutableList provide Add method..
    – A.T.
    Commented Nov 24, 2015 at 9:22
  • @A.T. which returns new list, not modifying the old one.
    – AgentFire
    Commented Nov 24, 2015 at 9:22
  • so it's just deep copy of the list?
    – A.T.
    Commented Nov 24, 2015 at 9:23
  • @A.T. A shallow copy, not a deep one. Commented Nov 24, 2015 at 9:26
  • plus 1, oh then it is no use for me :) thanks @YuvalItzchakov
    – A.T.
    Commented Nov 24, 2015 at 9:27

You need a ReadonlyCollection. You can create one from a list by calling List.AsReadOnly()

Reference: https://msdn.microsoft.com/en-us/library/ms132474.aspx

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    The reason for the downvote is that eg var list = new List<int> { 1, 2, 3 }; var readonlyList = list.AsReadOnly(); list[1] = 1; results in readonlyList being modified. ReadonlyCollection isn't an immutable data collection.
    – David Arno
    Commented Nov 24, 2015 at 9:27
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    Yes this is true, except in the asker's case he wants add/remove/etc operations to not be valid. An immutable list will allow it and return a new immutable list each time. Whether or not you can modify the items in the list itself is not a stated requirement. Commented Nov 24, 2015 at 9:31
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    That doesn't really matter, the immutable Add etc. are not IList.Add etc. Just because the method has the same doesn't mean that it's the same operation :)
    – Luaan
    Commented Nov 24, 2015 at 9:34
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    @DavidArno I certainly don't recommend ReadonlyCollection, I avoid it as much as possible. If you see my answer, the question is, IMO best resolved by using an ImmutableList<T> through the IReadonlyList<T> interface. I meant accidental misuse by the way. Commented Nov 24, 2015 at 9:54
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    @AluanHaddad: If you have resharper, it'll warn you if you fail to use the return value of a pure method. I've got that particular warning configured to be an error ;-). Commented Nov 24, 2015 at 10:23

Why not just use an IEnumerable?

IEnumerable<string> myList = new List<string> { "value1", "value2" };
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    Damn yes. Just don't complicate simple things.
    – ujeenator
    Commented Dec 15, 2015 at 16:23

I recommend using a System.Collections.Immutable.ImmutableList<T> instance but referenced by a variable or property of type System.Collections.Generic.IReadOnlyList<T>. If you just use a naked immutable list, you won't get errors for adding to it, as you desire.

System.Collections.Generic.IReadOnlyList<int> list = a.ToImmutableList();

As an alternative to the already posted answers, you can wrap a readonly regular List<T> into an object that exposes it as IReadOnlyList.

class ROList<T>
    public ROList(IEnumerable<T> argEnumerable)
        m_list = new List<T>(argEnumerable);

    private readonly List<T> m_list;
    public IReadOnlyList<T> List { get { return m_list; } }

void Main()
    var list = new  List<int> {1, 2, 3};
    var rolist = new ROList<int>(list);

    foreach(var i in rolist.List)

    //rolist.List.Add(4); // Uncomment this and it won't compile: Add() is not allowed
  • @A.T. That's a question you should be asking the OP. In any case, there's plenty of good use cases for immutable lists (where you'd usually use the new immutable collections, of course), or even just readonly wrappers for mutable lists.
    – Luaan
    Commented Nov 24, 2015 at 9:32

Your best bet here is to use an IReadOnlyList<int>.

The advantage of using IReadOnlyList<int> compared to List.AsReadOnly() is that a ReadOnlyCollection<T> can be assigned to an IList<T>, which can then be accessed via a writable indexer.

Example to clarify:

var original = new List<int> { 1, 2, 3 };
IReadOnlyList<int> readOnlyList = original;

Console.WriteLine(readOnlyList[0]); // Compiles.

readOnlyList[0] = 0; // Does not compile.

var readOnlyCollection = original.AsReadOnly();

readOnlyCollection[0] = 1; // Does not compile.

IList<int> collection = readOnlyCollection; // Compiles.

collection[0] = 1; // Compiles, but throws runtime exception. 

Using an IReadOnlyList<int> avoids the possibility of accidentally passing the read-only list to a method which accepts an IList<> and which then tries to change an element - which would result in a runtime exception.


It could be IReadOnlyList<int>, e.g.

  IReadOnlyList<int> lst = a;

So the initial list (a) is mutable while lst is not. Often we use IReadOnlyList<T> for public properties and IList<T> for private ones, e.g.

  public class MyClass {
    // class itself can modify m_MyList 
    private IList<int> m_MyList = new List{1, 2, 3};

    // ... while code outside can't  
    public IReadOnlyList<int> MyList {
      get {
        return m_MyList; 

Why not just:

readonly IEnumerable<int> lst = new List<int>() { a }
public readonly List<string> constList = new(){"value1", "value",...};

By adding readonly create a const equivalent list.

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