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I am learning Nhibernate 3.0. In one of the sample code, it creates an abstract base entity class.

public abstract class Entity<T> where T : Entity<T>

then, make the Customer entity inherit from the Entity base class.

public class Customer : Entity<Customer>

I understand its an abstract generic class, and its using where keyword to make sure the type T is Entity<T>, this is where I get confused.

customer inherits from "Entity<Customer>", this "Entity<Customer>" takes "Customer" as T, but this customer is not "Entity<T>".

Please help me to understand this, I am really confused by this generic class.

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4 Answers

up vote 8 down vote accepted

You said

customer inherits from "Entity", this "Entity" takes "Customer" as T, but this customer is not "Entity"

That doesn't make any sense because that's what inheritance means. It establishes an "is a" relationship. So in fact a Customer is an Entity

Sorry that was based on the code with the generics stripped out because it wasn't in a code block.

The same principle is still valid though. It's just a little confusing because it looks like it's a recursive definition, but it's not.

Think of it as Customer inherits from Entity There just happens to be methods or fields that depend on the generic parameter being itself e.g. Customer. I'm not familiar with NHibernate so I don't know what the rest of Entity<T> looks like, but I imagine it has some methods that use it's own type as a generic parameter.

Say for instance it has a method called

public IEnumerable<T> GetEntities() 

that returned a list of it's own instances. It needs that method to return the concrete type rather than the base type. So in the Customer class, that method would be

public IEnumerable<Customer> GetEntities<Customer>() 

If it didn't have the generic parameter, it could only return IEnumerable<Entity>

That's just an example of how it could be used, I don't know how it's actually used.

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Sorry, it didn't make any sense, cuz, I am really confused, and try to understand how it works. Can you please correct what I said to make more sense? –  feelexit Dec 6 '11 at 2:46
@feelexit you said "Customer is not Entity<T>" but it is. The class was declared as public class Customer : Entity<Customer> which means that a Customer is an Entity<Customer>. –  Davy8 Dec 6 '11 at 2:51
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It will make more sense when you consider what operations the base 'Entity' class tries to perform. I'm also not familiar with nhibernate, but I would imagine one of the methods might be something akin to a Save() method. So any class you create that inherits from the Entity class would inherit a Save() method, keeping you from having to rewrite it for every business object you make. However, the Base entity class has to know what type of object you are trying to save. It could use reflection, but here it uses generics to allow you to tell it what kind of class it is that is inheriting Entity.

The thing is that when 20 different classes inherit from a base class, that base class doesn't really have any knowledge of who is using its functionality. This is a way to let the base class know "Customer" is using its methods so that it can cater specifically to "Customer"'s needs.

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The where clause specifies a condition that the type to be substituted for T must obey. So, if the type is Customer, as in Entity<Customer> in that second line of code, then the condition is Customer : Entity<Customer> ... i.e., Customer must be a subclass of Entity<Customer>, else there's a compile error. And indeed it is so declared, again in that second line of code.

Applying this to what you wrote:

this "Entity<Customer>" takes "Customer" as T

Here's how I would put it: Entity<Customer> is an instantiation of Entity<T> with Customer substituted for T. T is just a placeholder for some type; it's a type parameter.

but this customer is not "Entity<T>"

We could just as well write the abstract method declaration with SomeType instead of T. The condition is that, in order to instantiate Entity<SomeType>, SomeType must be a subclass of Entity<SomeType>. Substituting Customer for SomeType, that says that Customer must be a subclass of Entity<Customer>, and it is.

If you understand that T is just a parameter, and that Customer is substituted for it in the case of Entity<Customer>, then I don't understand why you say that 'this customer is not "Entity<T>"', since Customer : Entity<Customer> declares it to be just that (with Customer substituted for T in every occurrence in the definition of Entity<T>).

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Sample showing how one can use such inheritance:

class Creatable<T> where T:Creatable<T>, new()
 pulibc static T Create()
   T t = new T(); // we know to call new due new() constraint
   t.FinishCreation(); // we know that T implements this method due Creatable<T> constraint
   return t;
 public void SomeOtherUsefulsOperation(){};
 protected virtual void FinishCreation(){};

class Child:Creatable<Child>
 public Child(){};
 protected override void FinishCreation(){/*do something special for this type */};}

// somewhere else
void DoSomething<T>() where T:Creatable<T>
 T item = Creatable<T>.Create();
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