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I seem to be having some trouble wrapping my head around the idea of a Generic List of Generic Lists in C#. I think the problem stems form the use of the <T> argument, which I have no prior experience playing with. Could someone provide a short example of declaring a class which is a List, that therein contains another List, but where the type of the object contained therein is not immediately known?

I've been reading through the MS documentation on Generics, and I am not immediately sure if I can declare a List<List<T>>, nor how exactly to pass the <T> parameter to the inside list.

Edit: Adding information

Would declaring a List<List<T>> be considered legal here? In case you are wondering, I am building a class to that allows me to use a ulong as the indexer, and (hopefully) steps around the nasty 2GB limit of .Net by maintaining a List of Lists.

public class DynamicList64<T>
        private List<List<T>> data = new List<List<T>>();

        private ulong capacity = 0;
        private const int maxnumberofitemsperlist = Int32.MaxValue;

        public DynamicList64()
            data = new List<List<T>>();
share|improve this question

A quick example:

List<List<string>> myList = new List<List<string>>();
myList.Add(new List<string> { "a", "b" });
myList.Add(new List<string> { "c", "d", "e" });
myList.Add(new List<string> { "qwerty", "asdf", "zxcv" });
myList.Add(new List<string> { "a", "b" });

// To iterate over it.
foreach (List<string> subList in myList)
    foreach (string item in subList)

Is that what you were looking for? Or are you trying to create a new class that extends List<T> that has a member that is a `List'?

share|improve this answer
Reread the question :) – latr0dectus Sep 27 '12 at 19:19

or this example, just to make it more visible:

public class CustomerListList : List<CustomerList> { }  

public class CustomerList : List<Customer> { }

public class Customer
   public int ID { get; set; }
   public string SomethingWithText { get; set; }

and you can keep it going. to the infinity and beyond !

share|improve this answer
+1. Good idea. You can even add customer specific stuff to it like an Add method taking a customer name as parameter, that creates and adds a customer automatically. (You need a where T : new() constraint for this). – Olivier Jacot-Descombes Sep 27 '12 at 19:10
You could just use alias' instead, since the body of the classes are all empty – Servy Sep 27 '12 at 19:18
@Servy, one up, I changed the post to make it as clear as possible to whoever sees it, tks – The Poet Sep 27 '12 at 19:21
public class ListOfLists<T> : List<List<T>>

var myList = new ListOfLists<string>();
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you should not use Nested List in List.


is not legal, even if T were a defined type.

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I have been toying with this idea too, but I was trying to achieve a slightly different behavior. My idea was to make a list which inherits itself, thus creating a data structure that by nature allows you to embed lists within lists within lists within lists...infinitely!


//InfiniteList<T> is a list of itself...
public class InfiniteList<T> : List<InfiniteList<T>>
    //This is necessary to allow your lists to store values (of type T).
    public T Value { set; get; }

T is a generic type parameter. It is there to ensure type safety in your class. When you create an instance of InfiniteList, you replace T with the type you want your list to be populated with, or in this instance, the type of the Value property.


//The InfiniteList.Value property will be of type string
InfiniteList<string> list = new InfiniteList<string>();

A "working" example of this, where T is in itself, a List of type string!

//Create an instance of InfiniteList where T is List<string>
InfiniteList<List<string>> list = new InfiniteList<List<string>>();

//Add a new instance of InfiniteList<List<string>> to "list" instance.
list.Add(new InfiniteList<List<string>>());

//access the first element of "list". Access the Value property, and add a new string to it.
list[0].Value.Add("Hello World");
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