The parameters between the
> 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(1); // uh-oh, this isn't going to turn out well...
string string1 = (string)myStrings;
string string2 = (string)myStrings;
string string3 = (string)myStrings; // this will compile fine but fail at
// runtime since myStrings 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
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(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
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.