I have List<IGrouping<string,string>>.

Is is somehow possible to add new item to this list? Or actually, is it possible to create some IGrouping object?

  • 2
    The answers below show you how you could do this, but you probably want to considering implementing a Dictionary, Lookup or other structure more suited to your purpose. .NET has plenty of great classes to help with structuring your data and I'm confident that something already exists that will meet your needs. – Kirk Broadhurst Feb 22 '11 at 3:32
  • As this caused a lot of questions why I do this, here it is: I queried to get result and stored it, and I knew that source has changed and I believed that it was less costly to add new element manually than to query again. – Ivan Ičin Feb 22 '11 at 14:28

If you really wanted to create your own IGrouping<TKey, TElement>, it is a simple interface to implement:

public class MyGrouping<TKey, TElement> : List<TElement>, IGrouping<TKey, TElement>
    public TKey Key

This class inherits from List<T> and implements the IGrouping interface. Aside of the requirement of being an IEnumerable and IEnumerable<TElement> (which List<T> satisfies) the only property to implement is Key.

From here you could create all the MyGrouping<string, string>s you want and add them to your List<IGrouping<string,string>>.

  • 1
    So when I instantiate this, I can obviosly set the key, but how do I set the items? – Neil N Sep 17 '12 at 16:42
  • 1
    Since MyGrouping<TKey, TElement> inherits from List<T>, it has all the properties and methods of that class. See it's documentation here: msdn.microsoft.com/en-us/library/6sh2ey19.aspx – Nathan Anderson Sep 18 '12 at 16:29
  • Sorry I meant to post a follow up comment. I used AddRange() to dump in an existing list. – Neil N Sep 18 '12 at 17:21
  • 5
    Probably the easiest approach would be something like: var newGrouping = new List<MyType>().GroupBy(t => t.MyKey); – aBetterGamer Sep 18 '14 at 19:03
  • Enhanced version: ' public class Grouping<TKey, TSource> : List<TSource>, IGrouping<TKey, TSource> { public Grouping(TKey key) : base() => Key = key; public Grouping(int capacity, TKey key) : base(capacity) => Key = key; public Grouping(IEnumerable<TSource> collection, TKey key) : base(collection) => Key = key; public TKey Key { get; private set; } }' – Cosmin Sontu Aug 27 at 16:21

As of .NET 4.0, there do not appear to be any public types in the BCL that implement the IGrouping<TKey, TElement> interface, so you won't be able to 'new one up' with any ease.

Of course, there's nothing stopping you from:

  1. Creating a concrete type yourself that implements the interface, as @Nathan Anderson points out.
  2. Getting an instance / instances of IGrouping<TKey, TElement> from a LINQ query such as ToLookup and GroupBy and adding it / them to your list.
  3. Calling ToList() on an existing sequence of groups (from ToLookup / GroupBy).


IEnumerable<Foo> foos = ..
var barsByFoo = foos.ToLookup(foo => foo.GetBar());

var listOfGroups = new List<IGrouping<Foo, Bar>>();

listOfGroups.Add(barsByFoo.First()); // a single group
listOfGroups.AddRange(barsByFoo.Take(3)); // multiple groups

It's not clear why you would want to do this, though.


You can also hack the grouping by not grouping on something within the list:

var listOfGroups = new[] { "a1", "a2", "b1" }
                       .GroupBy(x => x.Substring(0, 1))

// baz is not anything to do with foo or bar yet we group on it
var newGroup = new[] { "foo", "bar" }.GroupBy(x => "baz").Single();


listOfGroups then contains:

    a1, a2
    foo, bar

IDEOne example

IGrouping<TKey, TElement> CreateGroup<TKey, TElement>(IEnumerable<TElement> theSeqenceToGroup, TKey valueForKey)
    return theSeqenceToGroup.GroupBy(stg => valueForKey).FirstOrDefault();
  • Excelent and simple solution – Ivan Oct 10 '17 at 9:30
var headers = from header in new[] {
  new { Name = "One", List = new[] { "One 1", "One 2", "One 2" } },
  new { Name = "Two", List = new[] { "Two 1", "Two 2", "Two 2" } }
} from value in header.List group value by header.Name;

Based on dovid's answer, I created the following extension method, that creates an instance of IGrouping<TKey, TElement> from an IEnumerable<TElement> and a key of type TKey:

public static IGrouping<TKey, TElement> ToGroup<TKey, TElement>(
    this IEnumerable<TElement> elements,
    TKey keyValue)
    return elements.GroupBy(_ => keyValue).FirstOrDefault();

It can be called like this:

var fruits = new [] { "Apples", "Bananas" };
var myFruitsGroup = fruits.ToGroup("fruitsKey");

Beware that ToGroup() can return null.

I also created an additional GroupBy extension method:

public static IEnumerable<IGrouping<TKey, TElement>> GroupBy<TSource, TKey, TElement>(
    this IEnumerable<TSource> source,
    Func<TSource, TKey> keySelector,
    Func<TSource, IEnumerable<TElement>> elementsSelector)
    return source
        .Select(s => elementsSelector(s)
        .Where(g => g != default(IGrouping<TKey, TElement>));

It can be used like this:

var foodItems = new []
    new { Category = "Fruits", Items = new [] { "Apples", "Bananas" } },
    new { Category = "Vegetables", Items = new [] { "Tomatoes", "Broccoli" } },
var categoryGroups = foodItems.GroupBy(i => i.Category, i => i.Items);

The IGrouping interface is for the GroupBy() operator in LINQ. You would normally get an IGrouping object from a LINQ query with a group by clause. It doesn't make much sense to have a list of groupings, though.

  • 14
    Well, given that the return type of GroupBy is IEnumerable<IGrouping<TKey, TElement>> is actually makes a lot of sense to have a list of groupings, considering that List is just one of the many ways to have an IEnumerable. – Anthony Nov 7 '12 at 22:00

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