What is a IRepository? Why is it used, brief and simple examples won't hurt.
MVC promotes separation of concerns, but that doesn't stop at the M V C level.
Data Access is a concern in itself. It should be done in the M bit of MVC, ie the model. How you structure your model is up to you, but people usually follow tried and tested patterns (why reinvent the wheel?). The Repository Pattern is the current standard. Don't expect a simple formula, however, because the variations are as many as there are developers, almost.
IRepository is just an interface that you create (it is not part of MVC or ASP.NET or .NET). It allows you to "decouple" your repositories from real implementations. Decoupling is good because it means your code...:
So, having sold you decoupling, the answer to your question is that IRepository is an interface that you create and that you make your Repositories inherit from. It gives you a reliable class hierarchy to work with.
I generally use a generic IRepository. Ie:
Where Tentity is, well, an entity. The code I use is:
A concrete implementation of this interface would be:
This allows me to write:
Where db is a DataContext instance injected into, say, a Service.
With UserCoursesRepository I can now write methods in my Service class like:
And now in my controllers, I can just write:
Ie, the development of your app becomes more of an assembly line that leads up to a VERY simple controller. Every piece of the assembly line can be tested independently of everything else, so bugs are nipped in the bud.
If this is a long, unwieldly answer it is because the real answer is:
Buy Steven Sanderson's book Pro ASP.NET MVC 2 Framework and learn to think in MVC.
Developers using the Repository Pattern widely recommend the use of an interface for the implementation. For example, in the application I am developing right now, I have 5 repositories. 4 specific and 1 generic. Each one inherits from an
As far as code examples, I'll try:
Implemented as a generic repository:
Implemented as a specialized repository:
Keep in mind that
I hope this helps you a little.
It is also common for this to be done so it can be taken advantage of with IoC ( http://en.wikipedia.org/wiki/Inversion_of_control ).
A repository is an abstraction which represents any underlying and arbitrary data store as if it were an in memory collection of objects.
This definition is morphed into a more practical form due to common practices and system limitations as a collection of objects in memory which represent some underlying and arbitrary data store, possibly a disconnected one. Under the hood the repository may be linked to a database, a flat file, an in-memory collection of objects, or whatever else you may imagine. The user of a repository doesn't care.
But I prefer to use a different interface for a few reasons.
First, you typically wont be using a repository by itself, you will probably be using it with a unit of work pattern, so the repository shouldn't have a Save() method. It might have an
Second, most repositories should be able to handle disconnected environments. If your solution does not have this requirement, you can still create an interface that handles disconnected scenarios and simply leave it unimplemented. Now you are ready for the future.
At last, our contract makes more sense to the true nature of a repository - a collection of objects in memory which represent some arbitrary data store, possibly a disconnected one.
If you define a base class for all of your entities, let's call it
If you don't like the optional parameter
The reason you need to do this is because in most cases, syncing disconnected objects for deletion is incompatible with syncing disconnected objects for addition or modification. (Try it. You will see for yourself the requirements for deletion against a store vary wildly from that of addition or modification). Hence, the interface should define a contract so the implementation can discern between the two.
You can implement this interface against ANY repository of ANY underlying data store, connected or disconnected, including other abstractions to underlying data stores such as Entity Framework.