I want to implement dependency injection (DI) in ASP.NET Core. So after adding this code to ConfigureServices
method, both ways work.<
After looking for an answer for this question I found a brilliant explanation with an example that I would like to share with you.
You can watch a video that demonstrate the differences HERE
In this example we have this given code:
public interface IEmployeeRepository
{
IEnumerable<Employee> GetAllEmployees();
Employee Add(Employee employee);
}
public class Employee
{
public int Id { get; set; }
public string Name { get; set; }
}
public class MockEmployeeRepository : IEmployeeRepository
{
private List<Employee> _employeeList;
public MockEmployeeRepository()
{
_employeeList = new List<Employee>()
{
new Employee() { Id = 1, Name = "Mary" },
new Employee() { Id = 2, Name = "John" },
new Employee() { Id = 3, Name = "Sam" },
};
}
public Employee Add(Employee employee)
{
employee.Id = _employeeList.Max(e => e.Id) + 1;
_employeeList.Add(employee);
return employee;
}
public IEnumerable<Employee> GetAllEmployees()
{
return _employeeList;
}
}
HomeController
public class HomeController : Controller
{
private IEmployeeRepository _employeeRepository;
public HomeController(IEmployeeRepository employeeRepository)
{
_employeeRepository = employeeRepository;
}
[HttpGet]
public ViewResult Create()
{
return View();
}
[HttpPost]
public IActionResult Create(Employee employee)
{
if (ModelState.IsValid)
{
Employee newEmployee = _employeeRepository.Add(employee);
}
return View();
}
}
Create View
@model Employee
@inject IEmployeeRepository empRepository
<form asp-controller="home" asp-action="create" method="post">
<div>
<label asp-for="Name"></label>
<div>
<input asp-for="Name">
</div>
</div>
<div>
<button type="submit">Create</button>
</div>
<div>
Total Employees Count = @empRepository.GetAllEmployees().Count().ToString()
</div>
</form>
Startup.cs
public void ConfigureServices(IServiceCollection services)
{
services.AddMvc();
services.AddSingleton<IEmployeeRepository, MockEmployeeRepository>();
}
Copy-paste this code and press on the create button in the view and switch between
AddSingleton
, AddScoped
and AddTransient
you will get each time a different result that will might help you understand this.
AddSingleton() - As the name implies, AddSingleton() method creates a Singleton service. A Singleton service is created when it is first requested. This same instance is then used by all the subsequent requests. So in general, a Singleton service is created only one time per application and that single instance is used throughout the application life time.
AddTransient() - This method creates a Transient service. A new instance of a Transient service is created each time it is requested.
AddScoped() - This method creates a Scoped service. A new instance of a Scoped service is created once per request within the scope. For example, in a web application it creates 1 instance per each http request but uses the same instance in the other calls within that same web request.
TL;DR
Transient objects are always different; a new instance is provided to every controller and every service.
Scoped objects are the same within a request, but different across different requests.
Singleton objects are the same for every object and every request.
For more clarification, this example from .NET documentation shows the difference:
To demonstrate the difference between these lifetime and registration options, consider a simple interface that represents one or more tasks as an operation with a unique identifier, OperationId
. Depending on how we configure the lifetime for this service, the container will provide either the same or different instances of the service to the requesting class. To make it clear which lifetime is being requested, we will create one type per lifetime option:
using System;
namespace DependencyInjectionSample.Interfaces
{
public interface IOperation
{
Guid OperationId { get; }
}
public interface IOperationTransient : IOperation
{
}
public interface IOperationScoped : IOperation
{
}
public interface IOperationSingleton : IOperation
{
}
public interface IOperationSingletonInstance : IOperation
{
}
}
We implement these interfaces using a single class, Operation
, that accepts a GUID in its constructor, or uses a new GUID if none is provided:
using System;
using DependencyInjectionSample.Interfaces;
namespace DependencyInjectionSample.Classes
{
public class Operation : IOperationTransient, IOperationScoped, IOperationSingleton, IOperationSingletonInstance
{
Guid _guid;
public Operation() : this(Guid.NewGuid())
{
}
public Operation(Guid guid)
{
_guid = guid;
}
public Guid OperationId => _guid;
}
}
Next, in ConfigureServices
, each type is added to the container according to its named lifetime:
services.AddTransient<IOperationTransient, Operation>();
services.AddScoped<IOperationScoped, Operation>();
services.AddSingleton<IOperationSingleton, Operation>();
services.AddSingleton<IOperationSingletonInstance>(new Operation(Guid.Empty));
services.AddTransient<OperationService, OperationService>();
Note that the IOperationSingletonInstance
service is using a specific instance with a known ID of Guid.Empty
, so it will be clear when this type is in use. We have also registered an OperationService
that depends on each of the other Operation
types, so that it will be clear within a request whether this service is getting the same instance as the controller, or a new one, for each operation type. All this service does is expose its dependencies as properties, so they can be displayed in the view.
using DependencyInjectionSample.Interfaces;
namespace DependencyInjectionSample.Services
{
public class OperationService
{
public IOperationTransient TransientOperation { get; }
public IOperationScoped ScopedOperation { get; }
public IOperationSingleton SingletonOperation { get; }
public IOperationSingletonInstance SingletonInstanceOperation { get; }
public OperationService(IOperationTransient transientOperation,
IOperationScoped scopedOperation,
IOperationSingleton singletonOperation,
IOperationSingletonInstance instanceOperation)
{
TransientOperation = transientOperation;
ScopedOperation = scopedOperation;
SingletonOperation = singletonOperation;
SingletonInstanceOperation = instanceOperation;
}
}
}
To demonstrate the object lifetimes within and between separate individual requests to the application, the sample includes an OperationsController
that requests each kind of IOperation
type as well as an OperationService
. The Index
action then displays all of the controller’s and service’s OperationId
values.
using DependencyInjectionSample.Interfaces;
using DependencyInjectionSample.Services;
using Microsoft.AspNetCore.Mvc;
namespace DependencyInjectionSample.Controllers
{
public class OperationsController : Controller
{
private readonly OperationService _operationService;
private readonly IOperationTransient _transientOperation;
private readonly IOperationScoped _scopedOperation;
private readonly IOperationSingleton _singletonOperation;
private readonly IOperationSingletonInstance _singletonInstanceOperation;
public OperationsController(OperationService operationService,
IOperationTransient transientOperation,
IOperationScoped scopedOperation,
IOperationSingleton singletonOperation,
IOperationSingletonInstance singletonInstanceOperation)
{
_operationService = operationService;
_transientOperation = transientOperation;
_scopedOperation = scopedOperation;
_singletonOperation = singletonOperation;
_singletonInstanceOperation = singletonInstanceOperation;
}
public IActionResult Index()
{
// ViewBag contains controller-requested services
ViewBag.Transient = _transientOperation;
ViewBag.Scoped = _scopedOperation;
ViewBag.Singleton = _singletonOperation;
ViewBag.SingletonInstance = _singletonInstanceOperation;
// Operation service has its own requested services
ViewBag.Service = _operationService;
return View();
}
}
}
Now two separate requests are made to this controller action:
Observe which of the OperationId
values varies within a request, and between requests.
Transient objects are always different; a new instance is provided to every controller and every service.
Scoped objects are the same within a request, but different across different requests
Singleton objects are the same for every object and every request (regardless of whether an instance is provided in ConfigureServices
)
This image illustrates this concept well. Unfortunately, I could not find the original source of this image, but someone made it, he has shown this concept very well in the form of an image.
In .NET's dependency injection there are three major lifetimes:
Singleton which creates a single instance throughout the application. It creates the instance for the first time and reuses the same object in the all calls.
Scoped lifetime services are created once per request within the scope. It is equivalent to a singleton in the current scope. For example, in MVC it creates one instance for each HTTP request, but it uses the same instance in the other calls within the same web request.
Transient lifetime services are created each time they are requested. This lifetime works best for lightweight, stateless services.
Here you can find and examples to see the difference:
ASP.NET 5 MVC6 Dependency Injection in 6 Steps (web archive link due to dead link)
Your Dependency Injection ready ASP.NET : ASP.NET 5
And this is the link to the official documentation:
Dependency injection in ASP.NET Core
Transient, scoped and singleton define object creation process in ASP.NET MVC core DI when multiple objects of the same type have to be injected. In case you are new to dependency injection you can see this DI IoC video.
You can see the below controller code in which I have requested two instances of "IDal" in the constructor. Transient, Scoped and Singleton define if the same instance will be injected in "_dal" and "_dal1" or different.
public class CustomerController : Controller
{
IDal dal = null;
public CustomerController(IDal _dal,
IDal _dal1)
{
dal = _dal;
// DI of MVC core
// inversion of control
}
}
Transient: In transient, new object instances will be injected in a single request and response. Below is a snapshot image where I displayed GUID values.
Scoped: In scoped, the same object instance will be injected in a single request and response.
Singleton: In singleton, the same object will be injected across all requests and responses. In this case one global instance of the object will be created.
Below is a simple diagram which explains the above fundamental visually.
The above image was drawn by the SBSS team when I was taking ASP.NET MVC training in Mumbai. A big thanks goes to the SBSS team for creating the above image.
Transient
Scoped
Singleton
Use Singletons where you need to maintain application wide state. Application configuration or parameters, Logging Service, caching of data is some of the examples where you can use singletons.