I need a two column list like:

List<int,string> mylist= new List<int,string>();

it says

using the generic type System.collection.generic.List<T> requires 1 type arguments.

  • 16
    Use a List<custom class> instead. Oct 7, 2013 at 17:57
  • anyone aware why it does not allow where as with Tuple we can achieve this? Aug 15, 2022 at 18:22

9 Answers 9


Depending on your needs, you have a few options here.

If you don't need to do key/value lookups and want to stick with a List<>, you can make use of Tuple<int, string>:

List<Tuple<int, string>> mylist = new List<Tuple<int, string>>();

// add an item
mylist.Add(new Tuple<int, string>(someInt, someString));

If you do want key/value lookups, you could move towards a Dictionary<int, string>:

Dictionary<int, string> mydict = new Dictionary<int, string>();

// add an item
mydict.Add(someInt, someString);
  • 2
    With the Tuple<,>, it is a bit easier to write mylist.Add(Tuple.Create(someInt, someString));. Oct 7, 2013 at 18:43
  • @JeppeStigNielsen That's a personal preference; Tuple.Create(t1, t2) is functionally equivelant to new Tuple<t1, t2>(t1, t2) and I, personally, prefer writing and reading the latter as it's more explicit. I don't argue that it's more work - but I like seeing exactly what's required =P Oct 7, 2013 at 18:46
  • There is also SortedDictionary<int, string> or SortedList<int, string>, but it depends on his use. Oct 7, 2013 at 18:47

You could use an immutable struct

public struct Data
    public Data(int intValue, string strValue)
        IntegerData = intValue;
        StringData = strValue;

    public int IntegerData { get; private set; }
    public string StringData { get; private set; }

var list = new List<Data>();

Or a KeyValuePair<int, string>

using Data = System.Collections.Generic.KeyValuePair<int, string>
var list = new List<Data>();
list.Add(new Data(12345, "56789"));
  • @weston I would be interested in hearing your justification on that because according to the docs it seems more than acceptable - The struct type is suitable for representing lightweight objects such as Point, Rectangle, and Color. Although it is possible to represent a point as a class, a struct is more efficient in some scenarios. For example, if you declare an array of 1000 Point objects, you will allocate additional memory for referencing each object. In this case, the struct is less expensive.
    – James
    Oct 7, 2013 at 18:24
  • 1
    @weston not only that, it's more efficient than a class in the scenario where there is potentially going to be lots of them e.g. a List<T>/T[]. So in my opinion, this is a better suggestion than a class.
    – James
    Oct 7, 2013 at 18:26
  • 1
    +0: custom object is good idea, but suggesting to use struct without making sure person have good understanding of differences is dangerous. (Also seeing person trying to compile something like list[0].StringData = "test" is rare treat). Oct 7, 2013 at 18:29
  • When you pass a struct around, it's passing by value, so if you want to consider efficiency, consider that. That is also the main problem with mutable structs. It is hard to see that they are structs, so if you modify a value, that altered value only has a local lifespan if you like, as per Alexei's example.
    – weston
    Oct 7, 2013 at 18:32
  • There are times to be concerned about memory sure, but the bugs you can see are a hell of a price to pay for those few bytes saved.
    – weston
    Oct 7, 2013 at 18:36

With the new ValueTuple from C# 7 (VS 2017 and above), there is a new solution:

List<(int,string)> mylist= new List<(int,string)>();

Which creates a list of ValueTuple type. If you're targeting .NET Framework 4.7+ or .NET/.NET Core, it's native, otherwise you have to get the ValueTuple package from nuget.

It's a struct opposing to Tuple, which is a class. It also has the advantage over the Tuple class that you could create a named tuple, like this:

var mylist = new List<(int myInt, string myString)>();

That way you can access like mylist[0].myInt and mylist[0].myString

  • This is the way. Field Names for your Tuple Members is nice and makes your code easier to understand. Granted we should have Classes and Structs to define such pairings, but for one-off odds and ends (and rapid prototyping), this does the job well. Note: I've read that if you add the Package and then later upgrade to 4.7, you may run into issues until you uninstall it.
    – MikeTeeVee
    Dec 8, 2020 at 9:56

Since your example uses a generic List, I assume you don't need an index or unique constraint on your data. A List may contain duplicate values. If you want to insure a unique key, consider using a Dictionary<TKey, TValue>().

var list = new List<Tuple<int,string>>();

list.Add(Tuple.Create(1, "Andy"));
list.Add(Tuple.Create(1, "John"));
list.Add(Tuple.Create(3, "Sally"));

foreach (var item in list)

Use C# Dictionary datastructure it good for you...

Dictionary<string, int> dict = new Dictionary<string, int>();
dict.Add("one", 1);
dict.Add("two", 2);

You can retrieve data from Ditionary in a simple way..

foreach (KeyValuePair<string, int> pair in dict)
    MessageBox.Show(pair.Key.ToString ()+ "  -  "  + pair.Value.ToString () );

For more example using C# Dictionary... C# Dictionary



Not sure about your specific scenario, but you have three options:

1.) use Dictionary<..,..>
2.) create a wrapper class around your values and then you can use List
3.) use Tuple

List<Tuple<string, DateTime, string>> mylist = new List<Tuple<string, DateTime,string>>();
mylist.Add(new Tuple<string, DateTime, string>(Datei_Info.Dateiname, Datei_Info.Datum, Datei_Info.Größe));
for (int i = 0; i < mylist.Count; i++)
  • You should at least try to make your answer match the question. The OP doesn't want <string, DateTime, string> - they want <int, string>. Although the approach is the same, there's no point in confusing the issue. Apr 8, 2014 at 6:30

For that, you could use a Dictionary where the int is the key.

new Dictionary<int, string>();

If you really want to use a list, it could be a List<Tuple<int,string>>() but, Tuple class is readonly, so you have to recreate the instance to modifie it.


The Usual way of implementing such thing is by using Model Class and creating properties inside Model Class Example:

public class YourClassName
 //your properties
 public Type Name { get; set; }
 public Type Name { get; set; }
 //and so on

and the use this class model for creating a list of this model:

public List<YourClassName> ListName { get; set; }

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