# Sorting a Generic List

I was reading a tutorial on sorting a list, and I ran into this line of code

myGenericList.Sort((x, y) => String.Compare(x.name, y.name));

Ive tried looking into this but I just dont understand this line. Can anyone explain to me exactly what is happening in this line?

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I think you have a typo. Shouldn't it be: myGenericList.Sort((x, y) => String.Compare(x.name, y.name));? –  Chris Shain Aug 6 '12 at 17:30

You're creating an anonymous function here.

The function Sort takes an Action delegate in which two arguments x and y are supplied. The implementation of the function follows the => which is read as "goes to". Then, String.Compare(x.name, y.name) is executed using the arguments provided. The return value of String.Compare is the result of the function, which is also what is used in determining the sort order for the List

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I think this should be noted as well: The result of the String.Compare is the return value of the function. That result is what's used to sort the list. –  Tim S. Aug 6 '12 at 17:43
True, I should have added this, I will update the answer. –  Gabe Aug 6 '12 at 17:44
More precisely, Sort takes one argument, and that's a delegate. The delegate in question has the signature (T x, T y) (where T is the T from List<T>) and return type int. Se my answer for details. –  Jeppe Stig Nielsen Aug 6 '12 at 17:45
Exactly, x and y are basically left and right side comparisons. So x is an item in your List, as well as y. –  Gabe Aug 6 '12 at 17:59
@ios85 I guess you can say that, yes. The type of x and y is the same as the type of the items in the List<>. It looks like that type (class or struct) has a member called name of type string. The QuickSort algorithm will try a lot of xs and ys from your list to see if x is greater (return int is positive) or less (return negative) than y. After a number of tests, it can conclude that the list is then sorted according to your Comparison<> (lambda arrow =>). –  Jeppe Stig Nielsen Aug 6 '12 at 18:08

There's an overload of Sort that takes a Comparison<> delegate. A lammbda expression is convertible to a matching delegate type, and that's why it works.

See the MSDN documentation for Comparison<> for details.

In the upcoming .NET4.5 (Visual Studio 2012) it will be possible to create an IComparer<> very easily from a Comparison<>. This is through a new static "factory" method Comparer<>.Create.

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Wow, didn't know about that comparer factory. I wish they would back port that to previous versions of the framework (as well as all the other should-have-been-available-from-the-beginning features throughout). –  Jeff Mercado Aug 6 '12 at 17:48
@JeffMercado Better late then never. It will be nice when you can make an IComparer<Person> just by saying: var comp = Comparer<Person>.Create((p1, p2) => p1.Age.CompareTo(p2.Age)). Until .NET4.0 you have to declare an entire new class. Se the MSDN doc (but I guess you already found the doc yourself). –  Jeppe Stig Nielsen Aug 6 '12 at 17:57

It basically says: To sort 2 elements (x & y) in myGenericList, use String.Compare on property "name" of x & y.

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