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James Gregory edited this page Apr 3, 2012 · 16 revisions

Fluent NHibernate in a Nutshell

Fluent NHibernate offers an alternative to NHibernate's standard XML mapping files. Rather than writing XML documents (.hbm.xml files), Fluent NHibernate lets you write mappings in strongly typed C# code. This allows for easy refactoring, improved readability and more concise code.

Fluent NHibernate also has several other tools, including:

Fluent NHibernate is external to the NHibernate Core, but is fully compatible with NHibernate version 2.1, and is experimentally compatible with NHibernate trunk.

Background

NHibernate is an Object Relational Mapping framework, which (as ORM states) maps between relational data and objects. It defines its mappings in an XML format called HBM, each class has a corresponding HBM XML file that maps it to a particular structure in the database. It's these mapping files that Fluent NHibernate provides a replacement for.

Why replace HBM.XML? While the separation of code and XML is nice, it can lead to several undesirable situations.

  • Due to XML not being evaluated by the compiler, you can rename properties in your classes that aren't updated in your mappings; in this situation, you wouldn't find out about the breakage until the mappings are parsed at runtime.
  • XML is verbose; NHibernate has gradually reduced the mandatory XML elements, but you still can't escape the verbosity of XML.
  • Repetitive mappings - NHibernate HBM mappings can become quite verbose if you find yourself specifying the same rules over again. For example if you need to ensure all string properties mustn't be nullable and should have a length of 1000, and all ints must have a default value of -1.

How does Fluent NHibernate counter these issues? It does so by moving your mappings into actual code, so they're compiled along with the rest of your application; rename refactorings will alter your mappings just like they should, and the compiler will fail on any typos. As for the repetition, Fluent NHibernate has a conventional configuration system, where you can specify patterns for overriding naming conventions and many other things; you set how things should be named once, then Fluent NHibernate does the rest.

Simple example

Here's a simple example so you know what you're getting into.

Traditional HBM XML mapping

<?xml version="1.0" encoding="utf-8" ?>  
<hibernate-mapping xmlns="urn:nhibernate-mapping-2.2"  
  namespace="QuickStart" assembly="QuickStart">  
  
  <class name="Cat" table="Cat">  
    <id name="Id">  
      <generator class="identity" />  
    </id>  
  
    <property name="Name">  
      <column name="Name" length="16" not-null="true" />  
    </property>  
    <property name="Sex" />  
    <many-to-one name="Mate" />  
    <bag name="Kittens">  
      <key column="mother_id" />  
      <one-to-many class="Cat" />  
    </bag>  
  </class>  
</hibernate-mapping> 

Fluent NHibernate equivalent

public class CatMap : ClassMap<Cat>
{
  public CatMap()
  {
    Id(x => x.Id);
    Map(x => x.Name)
      .Length(16)
      .Not.Nullable();
    Map(x => x.Sex);
    References(x => x.Mate);
    HasMany(x => x.Kittens);
  }
}

Installation

Binaries

We produce binaries of our source-tree and compiled assemblies every time anyone commits. These are recommended if you're unable to use Git or Subversion

Git and Subversion repository information and downloads list is available on the main downloads page, and will be updated whenever new releases are available.

Getting the source

Our source-control is Git using Github, and you have two options available. If you plan on modifying Fluent NHibernate and contributing back to us, then you're best forking our repository and sending us a pull request. You can find out more about that on the github guides site: forking and pull requests. The other option is a direct clone of our repository, but that will leave you in an awkward state if you ever do plan to contribute (but it's fine if you don't).

Our repository is located at: http://github.com/jagregory/fluent-nhibernate

Again, we recommend forking our repository; if you don't want to do that, you can do a direct clone:

git clone git://github.com/jagregory/fluent-nhibernate.git

Once you've got a copy on your local machine, there are two ways you can do a build.

  • If you have Ruby installed: The first time you build, you should run InstallGems.bat from the Fluent NHibernate root directory; this makes sure your machine has all the gems required to build successfully. Once that's completed, and for all subsequent builds, you need to run Build.bat; this batch file runs our Rake script which builds the standard NHibernate 2.0 version and outputs it in the build directory. For more options for building, see the details of our rake script.
  • Without Ruby: Open up the src\FluentNHibernate.sln solution in Visual Studio and do a build, you can optionally run the tests too.

Now that you've got Fluent NHibernate built, you just need to reference the FluentNHibernate.dll assembly in your project.

Your first project

All the source can be found in the main Fluent NHibernate solution, in the Example.FirstProject project.

You need to have Fluent NHibernate already downloaded and compiled to follow this guide, if you haven't done that yet then please refer to the installation section above.

For this example we're going to be mapping a simple domain for a retail company. The company has a couple of stores, each with products in (some products are in both stores, some are exclusive), and each with employees. In database terms, that's a Store, Employee, and Product table, with a many-to-many table between Store and Product.

File:FirstProjectSchema.png

First, create a console application and reference the FluentNHibernate.dll you built earlier, and whichever version of NHibernate.dll you built against (if you're unsure, just use the one that's output with FluentNHibernate.dll); also, because for this example we're going to be using a SQLite database, you'll need the System.Data.SQLite library which is distributed with Fluent NHibernate.

File:FirstProjectLayout.png

You can see the project structure that I used to the left. The Entities folder is for your actual domain objects, while the Mappings folder is where we're going to put your fluent mapping classes.

For the rest of this guide I'm going to assume you've used the same structure.

Entities

Now that we've got our project setup, let's start by creating our entities. We've got three tables we need to map (we're ignoring the many-to-many join table right now), so that's one entity per table. Create the following classes in your Entities folder.

public class Employee
{
  public virtual int Id { get; private set; }
  public virtual string FirstName { get; set; }
  public virtual string LastName { get; set; }
  public virtual Store Store { get; set; }
}

Our Employee entity has an Id, the person's name (split over FirstName and LastName), and finally a reference to the Store that they work in.

There's two things that may stand out to you if you're unfamiliar with NHibernate. Firstly, the Id property has a private setter, this is because it's only NHibernate that should be setting the value of that Id. Secondly, all the properties are marked virtual; this is because NHibernate creates "proxies" of your entities at run time to allow for lazy loading, and for it to do that it needs to be able to override the properties.

public class Product
{
  public virtual int Id { get; private set; }
  public virtual string Name { get; set; }
  public virtual double Price { get; set; }
  public virtual IList<Store> StoresStockedIn { get; private set; }

  public Product()
  {
    StoresStockedIn = new List<Store>();
  }
}

Product has an Id, it's Name, Price, and a collection of Stores that stock it.

public class Store
{
  public virtual int Id { get; private set; }
  public virtual string Name { get; set; }
  public virtual IList<Product> Products { get; set; }
  public virtual IList<Employee> Staff { get; set; }

  public Store()
  {
    Products = new List<Product>();
    Staff = new List<Employee>();
  }

  public virtual void AddProduct(Product product)
  {
    product.StoresStockedIn.Add(this);
    Products.Add(product);
  }

  public virtual void AddEmployee(Employee employee)
  {
    employee.Store = this;
    Staff.Add(employee);
  }
}

Finally, we've got our Store entity. This has an Id and a Name, along with a collection of Products that are stocked in it, as well as a collection of Employees (in the Staff list) that work there. This entity has a little bit of logic in it to make our code simpler, that's the AddProduct and AddEmployee methods; these methods are used to add items into the collections, and setup the other side of the relationships.

If you're an NHibernate veteran then you'll recognise this; however, if it's all new to you then let me explain: in a relationship where both sides are mapped, NHibernate needs you to set both sides before it will save correctly. So as to not have this extra code everywhere, it's been reduced to these extra methods in Store.

Mappings

Now that we've got our entities created, it's time to map them using Fluent NHibernate. We'll start with the simplest class, which is Employee. All the following mappings should be created inside the Mappings folder.

To map an entity, you have to create a dedicated mapping class (typically this follows the naming convention of \EntityNameMap), so we'll create an EmployeeMap class; these mapping classes have to derive from ClassMap where T is your entity.

public class EmployeeMap : ClassMap<Employee>
{
  
}

The mappings themselves are done inside the constructor for EmployeeMap, so we need to add a constructor and write the mappings.

public class EmployeeMap : ClassMap<Employee>
{
  public EmployeeMap()
  {
    Id(x => x.Id);
  }
}

To start with we've mapped the Id column, and told Fluent NHibernate that it's actually an identifier. The x in this example is an instance of Employee that Fluent NHibernate uses to retrieve the property details from, so all you're really doing here is telling it which property you want your Id to be. Fluent NHibernate will see that your Id property has a type of int, and it'll automatically decide that it should be mapped as an auto-incrementing identity in the database - handy!

For NHibernate users, that means it automatically creates the generator element as identity.

Let's map the rest of Employee.

public class EmployeeMap : ClassMap<Employee>
{
  public EmployeeMap()
  {
    Id(x => x.Id);
    Map(x => x.FirstName);
    Map(x => x.LastName);
    References(x => x.Store);
  }
}

There are a couple of new methods we've used there, Map and References; Map creates a mapping for a simple property, while References creates a many-to-one relationship between two entities. In this case we've mapped FirstName and LastName as simple properties, and created a many-to-one to Store (many Employees to one Store) through the Store property.

NHibernate users: Map is equivalent to the property element and References to many-to-one.

Let's carry on by mapping the Store.

public class StoreMap : ClassMap<Store>
{
  public StoreMap()
  {
    Id(x => x.Id);
    Map(x => x.Name);
    HasMany(x => x.Staff)
      .Inverse()
      .Cascade.All();
    HasManyToMany(x => x.Products)
     .Cascade.All()
     .Table("StoreProduct");
  }
}

Again, there's a couple of new calls here. If you remember back to Employee, we created a many-to-one relationship with Store, well now that we're mapping Store we can create the other side of that relationship. So HasMany is creating a one-to-many relationship with Employee (one Store to many Employees), which is the other side of the Employee.Store relationship. The other new method is HasManyToMany, which creates a many-to-many relationship with Product.

You've also just got your first taste of the fluent interface Fluent NHibernate provides. The HasMany method has a second call directly from it's return type (Inverse()), and HasManyToMany has Cascade.All() and Table; this is called method chaining, and it's used to create a more natural language in your configuration.

  • Inverse on HasMany is an NHibernate term, and it means that the other end of the relationship is responsible for saving.
  • Cascade.All on HasManyToMany tells NHibernate to cascade events down to the entities in the collection (so when you save the Store, all the Products are saved too).
  • Table sets the many-to-many join table name.

The Table call is currently only required if you're doing a bidirectional many-to-many, because Fluent NHibernate currently can't guess what the name should be; for all other associations it isn't required.

For NHibernaters: HasMany maps to a bag by default, and has a one-to-many element inside; HasManyToMany is the same, but with a many-to-many element.

Finally, let's map the Product.

public class ProductMap : ClassMap<Product>
{
  public ProductMap()
  {
    Id(x => x.Id);
    Map(x => x.Name);
    Map(x => x.Price);
    HasManyToMany(x => x.StoresStockedIn)
      .Cascade.All()
      .Inverse()
      .Table("StoreProduct");
  }
}

That's the Product mapped; in this case we've used only methods that we've already encountered. The HasManyToMany is setting up the other side of the bidirectional many-to-many relationship with Store.

Application

In this section we'll initialise some data and output it to the console.

static void Main()
{
  var sessionFactory = CreateSessionFactory();

  using (var session = sessionFactory.OpenSession())
  {
    using (var transaction = session.BeginTransaction())
    {
      // create a couple of Stores each with some Products and Employees
      var barginBasin = new Store { Name = "Bargin Basin" };
      var superMart = new Store { Name = "SuperMart" };

      var potatoes = new Product { Name = "Potatoes", Price = 3.60 };
      var fish = new Product { Name = "Fish", Price = 4.49 };
      var milk = new Product { Name = "Milk", Price = 0.79 };
      var bread = new Product { Name = "Bread", Price = 1.29 };
      var cheese = new Product { Name = "Cheese", Price = 2.10 };
      var waffles = new Product { Name = "Waffles", Price = 2.41 };

      var daisy = new Employee { FirstName = "Daisy", LastName = "Harrison" };
      var jack = new Employee { FirstName = "Jack", LastName = "Torrance" };
      var sue = new Employee { FirstName = "Sue", LastName = "Walkters" };
      var bill = new Employee { FirstName = "Bill", LastName = "Taft" };
      var joan = new Employee { FirstName = "Joan", LastName = "Pope" };

      // add products to the stores, there's some crossover in the products in each
      // store, because the store-product relationship is many-to-many
      AddProductsToStore(barginBasin, potatoes, fish, milk, bread, cheese);
      AddProductsToStore(superMart, bread, cheese, waffles);

      // add employees to the stores, this relationship is a one-to-many, so one
      // employee can only work at one store at a time
      AddEmployeesToStore(barginBasin, daisy, jack, sue);
      AddEmployeesToStore(superMart, bill, joan);

      // save both stores, this saves everything else via cascading
      session.SaveOrUpdate(barginBasin);
      session.SaveOrUpdate(superMart);

      transaction.Commit();
    }

    // retreive all stores and display them
    using (session.BeginTransaction())
    {
      var stores = session.CreateCriteria(typeof(Store))
        .List<Store>();

      foreach (var store in stores)
      {
        WriteStorePretty(store);
      }
    }

    Console.ReadKey();
  }
}

public static void AddProductsToStore(Store store, params Product[] products)
{
  foreach (var product in products)
  {
    store.AddProduct(product);
  }
}

public static void AddEmployeesToStore(Store store, params Employee[] employees)
{
  foreach (var employee in employees)
  {
    store.AddEmployee(employee);
  }
}

For brevity, I've left out the definition of WriteStorePretty which simply calls Console.Write for the various relationships on a Store (but you can see it in the full code).

This is the Main method from your Program.cs. It's a bit lengthy, but what we're doing is creating a couple of Store instances, then adds some Employees and Products to them, then saves; finally, it re-queries them from the database and writes them out to the console.

You won't be able to run this yet, because there's one thing left to do. We need to implement the CreateSessionFactory method; that's where our configuration goes to tie NHibernate and Fluent NHibernate together.

Configuration

Let's implement the CreateSessionFactory method.

private static ISessionFactory CreateSessionFactory()
{

}

That's the method signature sorted, you'll note it's returning an NHibernate ISessionFactory. Now we're going to use the Fluent NHibernate Fluently.Configure API to configure our application. You can see more examples on this in the Fluent configuration wiki page.

private static ISessionFactory CreateSessionFactory()
{
  return Fluently.Configure()
    .BuildSessionFactory();
}

That's not quite right yet, we're creating a SessionFactory, but we haven't configured anything yet; so let's configure our database.

private static ISessionFactory CreateSessionFactory()
{
  return Fluently.Configure()
    .Database(
      SQLiteConfiguration.Standard
        .UsingFile("firstProject.db")
    )
    .BuildSessionFactory();
}

There we go, we've specified that we're using a file-based SQLite database. You can learn more about the database configuration API in the Database configuration wiki page.

Just one more thing to go, we need to supply NHibernate with the mappings we've created. To do that, we add a call to Mappings in our configuration.

private static ISessionFactory CreateSessionFactory()
{
  return Fluently.Configure()
    .Database(
      SQLiteConfiguration.Standard
        .UsingFile("firstProject.db")
    )
    .Mappings(m =>
      m.FluentMappings.AddFromAssemblyOf<Program>())
    .BuildSessionFactory();
}

That's it; that's your application configured!

You should now be able to run the application and see the results of your query output to the console window (provided that you've actually created the SQLite database schema; otherwise, see the Schema generation section below).

Bargin Basin
  Products:
    Potatoes
    Fish
    Milk
    Bread
    Cheese
  Staff:
    Daisy Harrison
    Jack Torrance
    Sue Walkters

SuperMart
  Products:
    Bread
    Cheese
    Waffles
  Staff:
    Bill Taft
    Joan Pope

There you go; that's your first Fluent NHibernate project created and running!

Schema generation

If you haven't manually created the schema for this application, then it will fail on the first time you run it. There's something you can do about that, but it needs to be done directly against the NHibernate Configuration object; we can do that using the ExposeConfiguration method. Combine that call with a method to generate the schema, then you're able to create your schema at runtime.

private static ISessionFactory CreateSessionFactory()
{
  return Fluently.Configure()
    .Database(
      SQLiteConfiguration.Standard
        .UsingFile("firstProject.db")
    )
    .Mappings(m =>
      m.FluentMappings.AddFromAssemblyOf<Program>())
    .ExposeConfiguration(BuildSchema)
    .BuildSessionFactory();
}

private static void BuildSchema(Configuration config)
{
  // delete the existing db on each run
  if (File.Exists(DbFile))
    File.Delete(DbFile);

  // this NHibernate tool takes a configuration (with mapping info in)
  // and exports a database schema from it
  new SchemaExport(config)
    .Create(false, true);
}

You can read more about this in the Fluent configuration wiki page.