My question as title above. For example

IEnumerable<T> items = new T[]{new T("msg")};
items.ToList().Add(new T("msg2"));

but after all it only has 1 item inside. Can we have a method like items.Add(item) like the List<T>?

  • 6
    IEnumerable<T> is meant for querying collections only. It is the backbone for the LINQ framework. It is always an abstraction of some other collection such as Collection<T>, List<T>, or Array. The interface only provides a GetEnumerator method that returns an instance of IEnumerator<T> that enables the walking of the extending collection one item at a time. The LINQ extension methods are limited by this interface. IEnumerable<T> is designed to be read only because it may represent an aggregation of parts of multiple collections.
    – Jordan
    Jan 27, 2016 at 16:04
  • 3
    For this example, just declare IList<T> instead of IEnumerable<T>: IList<T> items = new T[]{new T("msg")}; items.Add(new T("msg2")); May 7, 2017 at 15:56

17 Answers 17


You cannot, because IEnumerable<T> does not necessarily represent a collection to which items can be added. In fact, it does not necessarily represent a collection at all! For example:

IEnumerable<string> ReadLines()
     string s;
          s = Console.ReadLine();
          yield return s;
     } while (!string.IsNullOrEmpty(s));

IEnumerable<string> lines = ReadLines();
lines.Add("foo") // so what is this supposed to do??

What you can do, however, is create a new IEnumerable object (of unspecified type), which, when enumerated, will provide all items of the old one, plus some of your own. You use Enumerable.Concat for that:

 items = items.Concat(new[] { "foo" });

This will not change the array object (you cannot insert items into to arrays, anyway). But it will create a new object that will list all items in the array, and then "Foo". Furthermore, that new object will keep track of changes in the array (i.e. whenever you enumerate it, you'll see the current values of items).

  • 3
    Creating an array to add a single value is a bit high on the overhead. It's a bit more re-usable to define an extension method for a single value Concat.
    – JaredPar
    Jul 31, 2009 at 2:08
  • 4
    It depends - it may be worth it, but I'm tempted to call it premature optimization unless Concat is called in a loop repeatedly; and if it is, you have bigger problems anyway, because every time you Concat, you get one more layer of enumerator - so by the end of it the single call to MoveNext will result in a chain of calls equal in length to the number of iterations. Jul 31, 2009 at 2:13
  • 2
    @Pavel, heh. Usually it's not the memory overhead of creating the array that bothers me. It's the extra typing that I find annoying :).
    – JaredPar
    Jul 31, 2009 at 2:15
  • 2
    So I understand a bit more what IEnumerable does. It should be view only not intend to be modifed. Thank you guys
    – ldsenow
    Jul 31, 2009 at 2:19
  • 7
    I had a Connect feature request for syntactic sugar for IEnumerable<T> in C#, including overloading operator+ as Concat (by the way, do you know that in VB, you can index IEnumerable as if it was an array - it uses ElementAt under the hood): connect.microsoft.com/VisualStudio/feedback/…. If we also get two more overloads of Concat to take a single item both on the left and on the right, this would cut down the typing to xs +=x - so go poke Mads (Torgersen) to prioritize this in C# 5.0 :) Jul 31, 2009 at 2:20

The type IEnumerable<T> does not support such operations. The purpose of the IEnumerable<T> interface is to allow a consumer to view the contents of a collection. Not to modify the values.

When you do operations like .ToList().Add() you are creating a new List<T> and adding a value to that list. It has no connection to the original list.

What you can do is use the Add extension method to create a new IEnumerable<T> with the added value.

items = items.Add("msg2");

Even in this case it won't modify the original IEnumerable<T> object. This can be verified by holding a reference to it. For example

var items = new string[]{"foo"};
var temp = items;
items = items.Add("bar");

After this set of operations the variable temp will still only reference an enumerable with a single element "foo" in the set of values while items will reference a different enumerable with values "foo" and "bar".


I contstantly forget that Add is not a typical extension method on IEnumerable<T> because it's one of the first ones that I end up defining. Here it is

public static IEnumerable<T> Add<T>(this IEnumerable<T> e, T value) {
  foreach ( var cur in e) {
    yield return cur;
  yield return value;
  • 3
    @Pavel, thanks for pointing that out. Even Concat won't work though because it takes another IEnumerable<T>. I pasted the typical extension method I define in my projects.
    – JaredPar
    Jul 31, 2009 at 2:06
  • 18
    I wouldn't call that Add though, because Add on virtually any other .NET type (not just collections) mutates the collection in-place. Maybe With? Or it could even be just another overload of Concat. Jul 31, 2009 at 2:15
  • 5
    I agree Concat overload would probably be a better choice as Add usually implies mutability. Jul 27, 2011 at 16:50
  • 16
    What about modifying the body to return e.Concat(Enumerable.Repeat(value,1));?
    – Roy Tinker
    Oct 4, 2011 at 1:06
  • 2
    The problem with naming it Add is that List.Add doesn't return a List, while mutating the original list, whereas your extension method IEnumerable.Add returns an IEnumerable, but doesn't mutate the original. That's enough of a behavior difference that I think Add is an inadvisable name.
    – ErikE
    Nov 12, 2015 at 21:01

Have you considered using ICollection<T> or IList<T> interfaces instead, they exist for the very reason that you want to have an Add method on an IEnumerable<T>.

IEnumerable<T> is used to 'mark' a type as being...well, enumerable or just a sequence of items without necessarily making any guarantees of whether the real underlying object supports adding/removing of items. Also remember that these interfaces implement IEnumerable<T> so you get all the extensions methods that you get with IEnumerable<T> as well.


In .net Core, there is a method Enumerable.Append that does exactly that.

The source code of the method is available on GitHub..... The implementation (more sophisticated than the suggestions in other answers) is worth a look :).

  • 7
    This is not only in core, also the framework 4.7.1 and newer: learn.microsoft.com/en-us/dotnet/api/…
    – sschoof
    May 21, 2019 at 14:23
  • 3
    Note that Prepend also exists: learn.microsoft.com/en-us/dotnet/api/…
    – aloisdg
    Jan 8, 2020 at 9:56
  • Nice, exactly what I was looking for. Lots of answers miss this but you can simply return a new enumerable that first consumes the existing items, once there are no more, yield your extra item. I assume this is what Append does.
    – Yarek T
    Dec 8, 2021 at 20:35
  • 6
    Just FYI - This method does not modify the elements of the collection. Instead, it creates a copy of the collection with the new element. - learn.microsoft.com/en-us/dotnet/api/…
    – spacebread
    May 26, 2022 at 20:04
  • @sschoof Append/Prepend are also available in .NET Standard 1.6+ Mar 29, 2023 at 19:39

A couple short, sweet extension methods on IEnumerable and IEnumerable<T> do it for me:

public static IEnumerable Append(this IEnumerable first, params object[] second)
    return first.OfType<object>().Concat(second);
public static IEnumerable<T> Append<T>(this IEnumerable<T> first, params T[] second)
    return first.Concat(second);
public static IEnumerable Prepend(this IEnumerable first, params object[] second)
    return second.Concat(first.OfType<object>());
public static IEnumerable<T> Prepend<T>(this IEnumerable<T> first, params T[] second)
    return second.Concat(first);

Elegant (well, except for the non-generic versions). Too bad these methods are not in the BCL.

  • The first Prepend method is giving me an error. "'object[]' does not contain a definition for 'Concat' and the best extension method overload 'System.Linq.Enumerable.Concat<TSource>(System.Collections.Generic.IEnumerable<TSource>, System.Collections.Generic.IEnumerable<TSource>)' has some invalid arguments"
    – Tim Newton
    Jul 23, 2013 at 14:11
  • @TimNewton you're doing it wrong. Who knows why, as nobody can tell from that snippet of error code. Protip: always catch the exception and do a ToString() on it, as that captures more error details. I'd guess you didn't include System.Linq; at the top of your file, but who knows? Try figuring it out on your own, create a minimum prototype that exhibits the same error if you can't and then ask for help in a question.
    – user1228
    Jul 23, 2013 at 14:45
  • I just copied and pasted the code above. All of them work ok except the Prepend which is giving the error I mentioned. Its not a runtime exception its a compile time exception.
    – Tim Newton
    Jul 23, 2013 at 16:32
  • @TimNewton: I don't know what you're talking about it works perfectly you obviously are mistaken ignore the changes in the edit now I must be on my way, good day, sir.
    – user1228
    Jul 23, 2013 at 16:40
  • maybe its something different about our environment. I'm using VS2012 and .NET 4.5. Dont waste anymore time on this I just thought I would point out that there is a problem with the above code, albeit a small one. I've upvoted this answer anyhow as its useful. thanks.
    – Tim Newton
    Jul 23, 2013 at 16:49

No, the IEnumerable doesn't support adding items to it. The alternative solution is

var myList = new List(items);
  • 4
    Your suggestion is not the only alternative. For example, ICollection and IList are both reasonable options here.
    – jason
    Jul 31, 2009 at 2:07
  • 7
    But you can't instantiate either. Jul 31, 2009 at 2:42

To add second message you need to -

IEnumerable<T> items = new T[]{new T("msg")};
items = items.Concat(new[] {new T("msg2")})
  • 1
    But you also need to assign the result of Concat method to items object. Feb 9, 2017 at 15:33
  • 1
    Yes, Tomasz you are right. I have modified the last expression to assign concatenated values to items.
    – Aamol
    Feb 17, 2017 at 3:06

I just come here to say that, aside from Enumerable.Concat extension method, there seems to be another method named Enumerable.Append in .NET Core 1.1.1. The latter allows you to concatenate a single item to an existing sequence. So Aamol's answer can also be written as

IEnumerable<T> items = new T[]{new T("msg")};
items = items.Append(new T("msg2"));

Still, please note that this function will not change the input sequence, it just return a wrapper that put the given sequence and the appended item together.


Not only can you not add items like you state, but if you add an item to a List<T> (or pretty much any other non-read only collection) that you have an existing enumerator for, the enumerator is invalidated (throws InvalidOperationException from then on).

If you are aggregating results from some type of data query, you can use the Concat extension method:

Edit: I originally used the Union extension in the example, which is not really correct. My application uses it extensively to make sure overlapping queries don't duplicate results.

IEnumerable<T> itemsA = ...;
IEnumerable<T> itemsB = ...;
IEnumerable<T> itemsC = ...;
return itemsA.Concat(itemsB).Concat(itemsC);

Others have already given great explanations regarding why you can not (and should not!) be able to add items to an IEnumerable. I will only add that if you are looking to continue coding to an interface that represents a collection and want an add method, you should code to ICollection or IList. As an added bonanza, these interfaces implement IEnumerable.


you can do this.

//Create IEnumerable    
IEnumerable<T> items = new T[]{new T("msg")};

//Convert to list.
List<T> list = items.ToList();

//Add new item to list.
list.add(new T("msg2"));

//Cast list to IEnumerable
items = (IEnumerable<T>)items;
  • 9
    This question was answered in a more complete fashion 5 years ago. Look at the accepted answer as an example of a good answer to a question.
    – pquest
    Nov 28, 2014 at 18:38
  • 1
    The last line was:items = (IEnumerable<T>)list; Aug 2, 2018 at 12:18

Instances implementing IEnumerable and IEnumerator (returned from IEnumerable) don't have any APIs that allow altering collection, the interface give read-only APIs.

The 2 ways to actually alter the collection:

  1. If the instance happens to be some collection with write API (e.g. List) you can try casting to this type:

IList<string> list = enumerableInstance as IList<string>;

  1. Create a list from IEnumerable (e.g. via LINQ extension method toList():

var list = enumerableInstance.toList();


Easyest way to do that is simply

IEnumerable<T> items = new T[]{new T("msg")};
List<string> itemsList = new List<string>();
itemsList.AddRange(items.Select(y => y.ToString()));

Then you can return list as IEnumerable also because it implements IEnumerable interface


IEnumerable items = Enumerable.Empty(T);

List somevalues = new List();

items.ToList().Add(someValues); items.ToList().AddRange(someValues);

  • 1
    It is best to include commentary explaning your answer, especially seeing that there are many relevant answers, so as to explain why yours is different. Also consider formatting your code in code blocks. Aug 16, 2022 at 18:49

Sorry for reviving really old question but as it is listed among first google search results I assume that some people keep landing here.

Among a lot of answers, some of them really valuable and well explained, I would like to add a different point of vue as, to me, the problem has not be well identified.

You are declaring a variable which stores data, you need it to be able to change by adding items to it ? So you shouldn't use declare it as IEnumerable.

As proposed by @NightOwl888

For this example, just declare IList instead of IEnumerable: IList items = new T[]{new T("msg")}; items.Add(new T("msg2"));

Trying to bypass the declared interface limitations only shows that you made the wrong choice. Beyond this, all methods that are proposed to implement things that already exists in other implementations should be deconsidered. Classes and interfaces that let you add items already exists. Why always recreate things that are already done elsewhere ?

This kind of consideration is a goal of abstracting variables capabilities within interfaces.

TL;DR : IMO these are cleanest ways to do what you need :

// 1st choice : Changing declaration
IList<T> variable = new T[] { };
variable.Add(new T());

// 2nd choice : Changing instantiation, letting the framework taking care of declaration
var variable = new List<T> { };
variable.Add(new T());

When you'll need to use variable as an IEnumerable, you'll be able to. When you'll need to use it as an array, you'll be able to call 'ToArray()', it really always should be that simple. No extension method needed, casts only when really needed, ability to use LinQ on your variable, etc ...

Stop doing weird and/or complex things because you only made a mistake when declaring/instantiating.

  • Downvoted since there are many real-world cases where you don't have control over the type of a variable that you are working with... e.g. an IEnumerable<T> is a common return type for many data access library functions. This doesn't answer the question nor does it satisfactorily make the case that the question is rendered moot.
    – topsail
    Dec 4, 2020 at 19:01

Maybe I'm too late but I hope it helps anyone in the future.

You can use the insert function to add an item at a specific index. list.insert(0, item);


Sure, you can (I am leaving your T-business aside):

public IEnumerable<string> tryAdd(IEnumerable<string> items)
    List<string> list = items.ToList();
    string obj = "";

    return list.Select(i => i);
  • I don't know why this answer has 8 downvotes, I find this solution working and not a bad idea. Jun 8, 2021 at 16:10
  • There is a better answer using the concat method instead of converting it to a list and then back to IEnumerable again. This solution works but is not performant.
    – Hulk
    Jun 16, 2022 at 17:54

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