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Add a model to an ASP.NET Core MVC app rick-anderson Add a model to a simple ASP.NET Core app. riande 02/25/2019 tutorials/first-mvc-app/adding-model

Add a model to an ASP.NET Core MVC app

By Rick Anderson and Tom Dykstra

In this section, you add classes for managing movies in a database. These classes will be the "Model" part of the MVC app.

You use these classes with Entity Framework Core (EF Core) to work with a database. EF Core is an object-relational mapping (ORM) framework that simplifies the data access code that you have to write.

The model classes you create are known as POCO classes (from Plain Old CLR Objects) because they don't have any dependency on EF Core. They just define the properties of the data that will be stored in the database.

In this tutorial, you write the model classes first, and EF Core creates the database. An alternate approach not covered here is to generate model classes from an existing database. For information about that approach, see ASP.NET Core - Existing Database.

Add a data model class

Visual Studio

Right-click the Models folder > Add > Class. Name the class Movie.

[!INCLUDE model 1b]

Visual Studio Code / Visual Studio for Mac

  • Add a class to the Models folder named Movie.cs.

[!INCLUDE model 1b] [!INCLUDE model 2]

Scaffold the movie model

In this section, the movie model is scaffolded. That is, the scaffolding tool produces pages for Create, Read, Update, and Delete (CRUD) operations for the movie model.

Visual Studio

In Solution Explorer, right-click the Controllers folder > Add > New Scaffolded Item.

view of above step

In the Add Scaffold dialog, select MVC Controller with views, using Entity Framework > Add.

Add Scaffold dialog

Complete the Add Controller dialog:

  • Model class: Movie (MvcMovie.Models)
  • Data context class: Select the + icon and add the default MvcMovie.Models.MvcMovieContext

Add Data context

  • Views: Keep the default of each option checked
  • Controller name: Keep the default MoviesController
  • Select Add

Add Controller dialog

Visual Studio creates:

  • An Entity Framework Core database context class (Data/MvcMovieContext.cs)
  • A movies controller (Controllers/MoviesController.cs)
  • Razor view files for Create, Delete, Details, Edit, and Index pages (Views/Movies/*.cshtml)

The automatic creation of the database context and CRUD (create, read, update, and delete) action methods and views is known as scaffolding.

Visual Studio Code

  • Open a command window in the project directory (The directory that contains the Program.cs, Startup.cs, and .csproj files).

  • Install the scaffolding tool:

     dotnet tool install --global dotnet-aspnet-codegenerator

  • Run the following command:

       dotnet aspnet-codegenerator controller -name MoviesController -m Movie -dc MvcMovieContext --relativeFolderPath Controllers --useDefaultLayout --referenceScriptLibraries

[!INCLUDE explains scaffold generated params]

Visual Studio for Mac

  • Open a command window in the project directory (The directory that contains the Program.cs, Startup.cs, and .csproj files).

  • Install the scaffolding tool:

     dotnet tool install --global dotnet-aspnet-codegenerator

  • Run the following command:

       dotnet aspnet-codegenerator controller -name MoviesController -m Movie -dc MvcMovieContext --relativeFolderPath Controllers --useDefaultLayout --referenceScriptLibraries

[!INCLUDE explains scaffold gen params]

If you run the app and click on the Mvc Movie link, you get an error similar to the following:

An unhandled exception occurred while processing the request.

SqlException: Cannot open database "MvcMovieContext-<GUID removed>" requested by the login. The login failed.
Login failed for user 'Rick'.

System.Data.SqlClient.SqlInternalConnectionTds..ctor(DbConnectionPoolIdentity identity, SqlConnectionString

You need to create the database, and you use the EF Core Migrations feature to do that. Migrations lets you create a database that matches your data model and update the database schema when your data model changes.

Initial migration

In this section, the following tasks are completed:

  • Add an initial migration.
  • Update the database with the initial migration.

Visual Studio

  1. From the Tools menu, select NuGet Package Manager > Package Manager Console (PMC).

    PMC menu

  2. In the PMC, enter the following commands:

    Add-Migration Initial
Update-Database

    The Add-Migration command generates code to create the initial database schema.

    The database schema is based on the model specified in the MvcMovieContext class (in the Data/MvcMovieContext.cs file). The Initial argument is the migration name. Any name can be used, but by convention, a name that describes the migration is used. For more information, see xref:data/ef-mvc/migrations.

    The Update-Database command runs the Up method in the Migrations/{time-stamp}_InitialCreate.cs file, which creates the database.

Visual Studio Code / Visual Studio for Mac

[!INCLUDE initial migration]

The ef migrations add InitialCreate command generates code to create the initial database schema.

The database schema is based on the model specified in the MvcMovieContext class (in the Data/MvcMovieContext.cs file). The InitialCreate argument is the migration name. Any name can be used, but by convention, a name is selected that describes the migration.

Examine the context registered with dependency injection

ASP.NET Core is built with dependency injection (DI). Services (such as the EF Core DB context) are registered with DI during application startup. Components that require these services (such as Razor Pages) are provided these services via constructor parameters. The constructor code that gets a DB context instance is shown later in the tutorial.

Visual Studio

The scaffolding tool automatically created a DB context and registered it with the DI container.

Examine the following Startup.ConfigureServices method. The highlighted line was added by the scaffolder:

[!code-csharp]

The MvcMovieContext coordinates EF Core functionality (Create, Read, Update, Delete, etc.) for the Movie model. The data context (MvcMovieContext) is derived from Microsoft.EntityFrameworkCore.DbContext. The data context specifies which entities are included in the data model:

[!code-csharp]

The preceding code creates a DbSet<Movie> property for the entity set. In Entity Framework terminology, an entity set typically corresponds to a database table. An entity corresponds to a row in the table.

The name of the connection string is passed in to the context by calling a method on a DbContextOptions object. For local development, the ASP.NET Core configuration system reads the connection string from the appsettings.json file.

Visual Studio Code / Visual Studio for Mac

You created a DB context and registered it with the DI container.

Test the app

  • Run the app and append /Movies to the URL in the browser (http://localhost:port/movies).

If you get a database exception similar to the following:

SqlException: Cannot open database "MvcMovieContext-GUID" requested by the login. The login failed.
Login failed for user 'User-name'.

You missed the migrations step.

  • Test the Create link.

    [!NOTE] You may not be able to enter decimal commas in the Price field. To support jQuery validation for non-English locales that use a comma (",") for a decimal point and for non US-English date formats, the app must be globalized. For globalization instructions, see this GitHub issue.

  • Test the Edit, Details, and Delete links.

Examine the Startup class:

[!code-csharp]

The preceding highlighted code shows the movie database context being added to the Dependency Injection container:

  • services.AddDbContext<MvcMovieContext>(options => specifies the database to use and the connection string.
  • => is a lambda operator

Open the Controllers/MoviesController.cs file and examine the constructor:

[!code-csharp]

The constructor uses Dependency Injection to inject the database context (MvcMovieContext ) into the controller. The database context is used in each of the CRUD methods in the controller.

Strongly typed models and the @model keyword

Earlier in this tutorial, you saw how a controller can pass data or objects to a view using the ViewData dictionary. The ViewData dictionary is a dynamic object that provides a convenient late-bound way to pass information to a view.

MVC also provides the ability to pass strongly typed model objects to a view. This strongly typed approach enables better compile time checking of your code. The scaffolding mechanism used this approach (that is, passing a strongly typed model) with the MoviesController class and views when it created the methods and views.

Examine the generated Details method in the Controllers/MoviesController.cs file:

[!code-csharp]

The id parameter is generally passed as route data. For example https://localhost:5001/movies/details/1 sets:

  • The controller to the movies controller (the first URL segment).
  • The action to details (the second URL segment).
  • The id to 1 (the last URL segment).

You can also pass in the id with a query string as follows:

https://localhost:5001/movies/details?id=1

The id parameter is defined as a nullable type (int?) in case an ID value isn't provided.

A lambda expression is passed in to FirstOrDefaultAsync to select movie entities that match the route data or query string value.

var movie = await _context.Movie
    .FirstOrDefaultAsync(m => m.Id == id);

If a movie is found, an instance of the Movie model is passed to the Details view:

return View(movie);

Examine the contents of the Views/Movies/Details.cshtml file:

[!code-html]

By including a @model statement at the top of the view file, you can specify the type of object that the view expects. When you created the movie controller, the following @model statement was automatically included at the top of the Details.cshtml file:

@model MvcMovie.Models.Movie

This @model directive allows you to access the movie that the controller passed to the view by using a Model object that's strongly typed. For example, in the Details.cshtml view, the code passes each movie field to the DisplayNameFor and DisplayFor HTML Helpers with the strongly typed Model object. The Create and Edit methods and views also pass a Movie model object.

Examine the Index.cshtml view and the Index method in the Movies controller. Notice how the code creates a List object when it calls the View method. The code passes this Movies list from the Index action method to the view:

[!code-csharp]

When you created the movies controller, scaffolding automatically included the following @model statement at the top of the Index.cshtml file:

[!code-html]

The @model directive allows you to access the list of movies that the controller passed to the view by using a Model object that's strongly typed. For example, in the Index.cshtml view, the code loops through the movies with a foreach statement over the strongly typed Model object:

[!code-html]

Because the Model object is strongly typed (as an IEnumerable<Movie> object), each item in the loop is typed as Movie. Among other benefits, this means that you get compile time checking of the code:

Additional resources

[!div class="step-by-step"] Previous Adding a View Next Working with SQL