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Ive just seen a piece of code that uses a generic list class to instantiate itself in the following manner:

var foo = new List<string>(){"hello", "goodbye"};

The curly braces after the contructor are especially confusing. It reminds me somewhat of

var bar = new string[]{"hi","bye"};

but in the past i've wouldve always used:

var foo = new List<string>(new []{"hello", "goodbye"});

Has anybody got a link explaining the syntax in the first line of code? I wouldnt even know where to begin with googling it.

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35  
The fact that the "confusing" syntax immediately reminded you of the identical feature for arrays is potentially an indication that it really wasn't that confusing at all, no? We chose that syntax very carefully so that it would lead you to have precisely the intuition that you did have. –  Eric Lippert Feb 24 '12 at 18:59
    
@maxp "In the past", you were initializing a List<string> by invoking a constructor that takes IEnumerable<T> and using array initializer syntax to create an anonymous collection, creating two references to the same collection. TBH I don't know why the compiler doesn't optimize the syntax in line 1 to line 3 - surely it knows that that the object generated by 'new[]' that gets passed into the List<string> constructor can't be referred to independantly in any other way, and is therefore not necessary to keep alive. –  Val Akkapeddi Feb 24 '12 at 19:01
7  
@ValAkkapeddi: How should the compiler team know what the person who wrote List<T> is going to do with that object? The compiler has no special knowledge that any particular List<T> constructor does or does not do anything special with the array passed to it. –  Eric Lippert Feb 24 '12 at 19:06
    
@ValAkkapeddi the array initializer syntax does not create two references to the same collection; rather, it creates an array and then passes that to the List<T> constructor. The elements of the array are then, if I recall correctly, copied into the list's own internal array; the first array is then eligible for garbage colelction. –  phoog Feb 24 '12 at 19:06
1  
Please don't use " (c#)" in your titles. That's what the tags are for. –  John Saunders Feb 24 '12 at 19:37
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5 Answers

up vote 27 down vote accepted

here you go. The keyword is "Array Initializers".

http://msdn.microsoft.com/en-us/library/aa664573(v=vs.71).aspx

or rather "Collection Initializers"

http://msdn.microsoft.com/en-us/library/bb384062.aspx

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Thanks. I see that these collection initializers are standard on any class that implements iEnumerable. –  maxp Feb 24 '12 at 18:53
    
the community content on the second link discusses that a little... cannot confirm yet... wait, yes, there is says it in the docs. –  ämbi Feb 24 '12 at 18:55
3  
@maxp that's not true. The compiler converts a collection initializers to calls to the type's Add method (see my answer for more details). A type could implement IEnumerable without having an Add method; collection initializers could not be used with that type. For example, System.String implements IEnumerable, but has no Add method. –  phoog Feb 24 '12 at 18:56
    
then this is a confusing sentence in the docs: Collection initializers let you specify one or more element intializers when you initialize a collection class that implements IEnumerable. –  ämbi Feb 24 '12 at 18:57
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@mindandmedia: There are two requirements: the type must implement IEnumerable and there must be an Add method. –  Eric Lippert Feb 24 '12 at 19:08
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As others have pointed out, that is a collection initializer. Some other features you might not be aware of that were added to C# 3:

  • A collection initializer constructor may omit the parentheses if the argument list is empty. So new List<int> { 10, 20, 30 } is fine.
  • An array initialized with an array initializer may in some cases omit the type. For example, var myInts = new[] { 10, 20, 30}; infers that myInts is int[].
  • Objects may be initialized using a similar object initializer syntax. var c = new Customer() { Name = "Fred" }; is the same as var temp = new Customer(); temp.Name = "Fred"; var c = temp;

The point of these features is to (1) make more things that used to require statements into things that require only expressions; LINQ likes things to be expressions, and (2) to enable richer type inference, particularly for anonymous types.

Finally: there has been some confusion in some of the answers and comments regarding what is required for a collection initializer. To be used with a collection initializer the type must (1) implement IEnumerable (so that we know it is a collection) and (2) have an Add method (so that we can add stuff to it.)

See

http://blogs.msdn.com/b/madst/archive/2006/10/10/what-is-a-collection_3f00_.aspx

for additional thoughts on the design of the feature.

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This is a collection initializer: http://msdn.microsoft.com/en-us/library/bb384062.aspx

The type so initialized must implement IEnumerable and have an Add method. The items in the curly-brace list are passed to the add method; different items in the list could be passed to different Add methods. If there's an Add overload with more than one argument, you put the multiple arguments in a comma-separated list enclosed in curly braces.

For example:

class MyWeirdCollection : IEnumerable
{
    public void Add(int i) { /*...*/ }
    public void Add(string s) { /*...*/ }
    public void Add(int i, string s) { /*...*/ }

    //IEnumerable implementation omitted for brevity
}

This class could be initialized thus:

var weird = new MyWeirdCollection { 1, "Something", {5, "Something else"} };

This compiles to something like this:

var temp = new MyWeirdCollection();
temp.Add(1);
temp.Add("Something");
temp.Add(5, "Something else");
var weird = temp;

In his blog post (link posted by Eric Lippert in the comments), Mads Torgersen expresses this concisely:

The list you provide is not a “list of elements to add”, but a “list of sets of arguments to Add methods”. ...[W]e do separate overload resolution against Add methods for each entry in the list.

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+1 This is a great example! –  dasblinkenlight Feb 24 '12 at 18:57
    
This code wont compile. Cannot initialize type 'MyWeirdCollection' with a collection initializer because it does not implement 'System.Collections.IEnumerable –  maxp Feb 24 '12 at 19:00
    
what version of c# is this? –  ämbi Feb 24 '12 at 19:07
2  
@maxp: You are correct; in order to be used with a collection initializer a type must have an Add method and implement IEnumerable. The reason is: we discovered that almost every mutable collection has and Add method and implements IEnumerable. Types that implement Add but are not IEnumerable tend to be arithmetic classes, not collection classes. –  Eric Lippert Feb 24 '12 at 19:10
    
@mindandmedia Collection and object initializers were added in C#3.0 –  phoog Feb 24 '12 at 19:12
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In the third line of code you provided you are making a new string array, and then passing that string array to the list. The list will then add each of those items to the list. This involves the extra overhead of allocating the array, populating it, and then discarding it.

There is a mechanism for a class to define how to use Collection Initializers to populate itself. (See the other answers) I have never found the need to utilize this for my own classes, but existing data structures such as List, Dictionary, often define them, and they are useful to use.

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This is a collection initializer. You can use it on collections with an Add method.

The pair of parentheses before the curly braces is optional.

This is very convenient, because you can use it on collections other than lists, for example on dictionaries:

var x = new Dictionary<int,string> {{1, "hello"}, {2, "world"}};

This lets you avoid a lengthier initialization sequence:

var x = new Dictionary<int,string>();
x.Add(1, "hello");
x.Add(2, "world");
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