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Today I was surprised to find that in C# I can do:

List<int> a = new List<int> { 1, 2, 3 };

Why can I do this? What constructor is called? How can I do this with my own classes? I know that this is the way to initialize arrays but arrays are language items and Lists are simple objects ...

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This question may be of help:… – Bob Kaufman Jan 13 '12 at 16:38
Pretty awesome huh? You can do very similar code to initialize dictionaries as well: { { "key1", "value1"}, { "key2", "value2"} } – danludwig Jan 13 '12 at 16:40

5 Answers 5

up vote 167 down vote accepted

This is part of the collection initializer syntax in .NET. You can use this syntax on any collection you create as long as:

  • It implements IEnumerable (preferably IEnumerable<T>)

  • It has a method named Add(...)

What happens is the default constructor is called, and then Add(...) is called for each member of the initializer.

Thus, these two blocks are roughly identical:

List<int> a = new List<int> { 1, 2, 3 };


List<int> temp = new List<int>();
List<int> a = temp;

You can call an alternate constructor if you want, for example to prevent over-sizing the List<T> during growing, etc:

// Notice, calls the List constructor that takes an int arg
// for initial capacity, then Add()'s three items.
List<int> a = new List<int>(3) { 1, 2, 3, }

Note that the Add() method need not take a single item, for example the Add() method for Dictionary<TKey, TValue> takes two items:

var grades = new Dictionary<string, int>
        { "Suzy", 100 },
        { "David", 98 },
        { "Karen", 73 }

Is roughly identical to:

var temp = new Dictionary<string, int>();
temp.Add("Suzy", 100);
temp.Add("David", 98);
temp.Add("Karen", 73);
var grades = temp;

So, to add this to your own class, all you need do, as mentioned, is implement IEnumerable (again, preferably IEnumerable<T>) and create one or more Add() methods:

public class SomeCollection<T> : IEnumerable<T>
    // implement Add() methods appropriate for your collection
    public void Add(T item)
        // your add logic    

    // implement your enumerators for IEnumerable<T> (and IEnumerable)
    public IEnumerator<T> GetEnumerator()
        // your implementation

    IEnumerator IEnumerable.GetEnumerator()
        return GetEnumerator();

Then you can use it just like the BCL collections do:

public class MyProgram
    private SomeCollection<int> _myCollection = new SomeCollection<int> { 13, 5, 7 };    

    // ...

(For more information, see the MSDN)

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Good answer, though I note that it is not quite accurate to say "exactly identical" in your first example. It is exactly identical to List<int> temp = new List<int>(); temp.Add(1); ... List<int> a = temp; That is, the a variable is not initialized until after all the adds are called. Otherwise it would be legal to do something like List<int> a = new List<int>() { a.Count, a.Count, a.Count }; which is a crazy thing to do. – Eric Lippert Jan 13 '12 at 17:50
@user606723: There isn't any real difference between List<int> a; a = new List<int>() { a.Count }; and List<int> a = new List<int>() { a.Count }; – Joren Jan 13 '12 at 18:51
@Joren: You are correct; in fact the C# specification states that T x = y; is the same as T x; x = y;, This fact can lead to some odd situations. For instance, int x = M(out x) + x; is perfectly legal because int x; x = M(out x) + x; is legal. – Eric Lippert Jan 13 '12 at 19:03
@JamesMichaelHare it's not necessary to implement IEnumerable<T>; the non-generic IEnumerable is enough to allow the use of collection initializer syntax. – phoog Jan 13 '12 at 19:05
Eric's point is important if you're using some kind of collection that implements IDisposable. using (var x = new Something{ 1, 2 }) won't dispose the object if one of the Add calls fails. – Porges Jan 17 '12 at 20:16

It is so called syntactic sugar.

List<T> is the "simple" class, but compiler gives a special treatment to it in order to make your life easier.

This one is so called collection initializer. You need to implement IEnumerable<T> and Add method.

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According to the C# Version 3.0 Specification "The collection object to which a collection initializer is applied must be of a type that implements System.Collections.Generic.ICollection for exactly one T."

However, this information appears to be inaccurate as of this writing; see Eric Lippert's clarification in the comments below.

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That page is not accurate. Thanks for bringing this to my attention. That must be some preliminary pre-release documentation that somehow never got deleted. The original design was to require ICollection, but that is not the final design we settled on. – Eric Lippert Jan 13 '12 at 17:52
Thank you for the clarification. – Olivier Jacot-Descombes Jan 13 '12 at 17:55

It works thanks to collection initializers which basically require the collection to implement an Add method and that will do the work for you.

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Another cool thing about collection initializers is that you can have multiple overloads of Add method and you can call them all in the same initializer! For example this works:

public class MyCollection<T> : IEnumerable<T>
    public void Add(T item, int number)

    public void Add(T item, string text) 

    public bool Add(T item) //return type could be anything


var myCollection = new MyCollection<bool> 
    { false, 0 },
    { true, "" },

It calls the correct overloads. Also, it looks for just the method with name Add, the return type could be anything.

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