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I don't understand the following class declaration:

public abstract class Class1 <TDomainServiceContract, TDomainService>
                              Where TDomainServiceContract : DomainContext
                              where TDomainService: DomainContext
{
   ...
}

My question is not about the specific TDomainServiceContract and TDomainService elements, but what is the meaning of the part starting at (Less than symbol) ?

Thanks for any feedback!

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closed as not a real question by verdesmarald, pero, Daniel Fischer, 0x7fffffff, AVD Sep 22 '12 at 3:42

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

2  
They are generic type parameters. –  verdesmarald Sep 20 '12 at 15:55
    
thanks, but why did you ask to close this question, like some other users, saying that it is not a real question? I see that in my "message" there is a question mark, maybe it is not rendered in your browser? I need to understand how this site works... –  user1540107 Sep 23 '12 at 20:05

4 Answers 4

up vote 10 down vote accepted

The parameters between the < and > are generic type parameters. Generics, at a very high level, allow you to design a class that is agnostic about the particular type of one or more of its parameters, properties, or methods. It's a little difficult to explain with words, but the most common use of generics is in collections.

Before generics, most developers used things like ArrayList to keep track of collections of objects. The downside to this was safety; because you could put any object in an ArrayList, that meant that you had to cast your object back to the expected type (making code less clean), and you had nothing stopping you from adding something that wasn't that type of object (i.e. I could have an ArrayList that I might be expecting to contain only string objects, but I might--accidentally--put in an int or a DbConnection, etc.), and you'd never find out until runtime when your cast failed.

ArrayList myStrings = new ArrayList();

myStrings.Add("foo");
myStrings.Add("bar");
myStrings.Add(1); // uh-oh, this isn't going to turn out well...

string string1 = (string)myStrings[0];
string string2 = (string)myStrings[1];
string string3 = (string)myStrings[2]; // this will compile fine but fail at 
                                       // runtime since myStrings[2] is an int, 
                                       // not a string

After generics were introduced, we got the List<T> class. This is a single class that takes a single generic type argument--namely, the type of objects that you're expecting the list to contain. That way, I can have a List<string> or a List<int> that will a) not require casting, since the indexers return string and int, respectively, and b) be safe at compile time, as I know that nothing other than a string or an int (again, respectively) can be put into those lists.

List<string> myStrings = new List<string>();

myStrings.Add("foo");
myStrings.Add("bar");
myStrings.Add(1); // this will not compile, as an int is not a string

The point of generics is to say that you don't care about what the actual type is of the object that you're working with, but the consumer of your class might. In other words, the mechanics of how a list might store a string, an int, a DbConnection, etc. are idential, but generics make it so that this type information coming from the consumer of your class isn't lost in your abstraction.

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+1 I'm just starting to learn C# and this was exactly what I needed. Cheers! –  AlienWebguy Mar 12 '13 at 5:44

These are generic type parameters.

They mean the class is a generic class, in your example with constraints on the types - both need to be DomainContext or classes that derive from it.

See Introduction to Generics (C# Programming Guide) on MSDN for details.

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It's indicating that when using the class you can provide any type for the TDomainServiceContract that implements DomainContext. So let's assume a class like this:

public class MyDomainContext : DomainContext
{
    ...
}

I can use that class when creating a new Class1 like this:

var o = new Class1<MyDomainContext, MyDomainService>();

because it implements DomainContext. The same goes for the TDomainService.

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Another way to look at it is in a simpler example. For instance:

List<String> myStrings = new List<String>();
myStrings.Add("One");
//Etc.

In this example, you are simply identifying which data type you will be using with the class. Similar situation in your example.

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