Bindicate

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'A blend of "Bind" and "Indicate"'.

Features 🌟

• Automatic registration of services using custom attributes.
• Automatic registration and configuration of options via IOptions<T>.
• Provides clear visibility and reduces boilerplate code.
• Simple integration with the built-in .NET IoC container.
• Supports Keyed Services

Supported types

Installation 📦

Via NuGet

Install-Package Bindicate

or

dotnet add package Bindicate

Usage

You can check out the example project too!

Autowire dependencies

Register Services

Add this line in a project to register all decorated services. You can repeat this line and pass any assembly. To also configure options, use .WithOptions(). You can also use the ServiceCollectionExtension pattern and use IConfiguration as a parameters for your extension method if they have options to register.

Example in host project

// Register all decorated services in the current project
builder.Services
    .AddAutowiringForAssembly(Assembly.GetExecutingAssembly())
    .Register();

// Also register Keyed Services (.NET 8)
builder.Services
    .AddAutowiringForAssembly(Assembly.GetExecutingAssembly())
    .ForKeyedServices()
    .Register();

// Also register Options as IOptions<T>
builder.Services
    .AddAutowiringForAssembly(Assembly.GetExecutingAssembly())
    .ForKeyedServices()
    .WithOptions(Configuration)  //Pass builder.Configuration here
    .Register();

Decorate your services:

Basic usage

For class-only registrations:

Simple decorate your class with the attribute to register. You can use an attribute for a specific lifetime.

[AddTransient]
public class SimpleTaskRunner
{
    public void RunTask()
    {
        // ...
    }
}

[TryAddSingleton]
public class SimpleService
{
    public void DoThing()
    {
        // ...
    }
}

When using interfaces:

Decorate your class with the attribute and provide the interface

[AddScoped(typeof(IMyTaskRunner))]
public class TaskRunner : IMyTaskRunner
{
    public void Run()
    {
        // ...
    }
}

public interface IMyTaskRunner
{
    void Run();
}

When using keyed services:

Decorate your class with the attribute and provide the key

[AddKeyedScoped("myKey")]
public class KeyedService
{
	public void Run()
	{
		// ...
	}
}

[AddKeyedScoped("key", typeof(IKeyedService))]
public class KeyedService : IKeyedService
{
	public void Run()
	{
		// ...
	}
}

[AddKeyedScoped("anotherKey", typeof(IKeyedService))]
public class AnotherKeyedService : IKeyedService
{
	public void Run()
	{
		// ...
	}
}

Options Registration

Decorate your class containing the options with [RegisterOptions] and specify the corresponding section in appsettings.json.

[RegisterOptions("testOptions")]
public class TestOptions
{
    public string Test { get; set; } = "";
}

//appsettings.json:
{
  "testOptions": {
    "test": "test"
  }
}

Now you can use this value when injecting IOptions<TestOptions> in your service

Generics

Define a generic interface:

Decorate the generic interface with the [RegisterGenericInterface] attribute.

[RegisterGenericInterface]
public interface IRepository<T> where T : BaseEntity
{
    void add(T entity);
}

Create the implementation:

[AddTransient(typeof(IRepository<>))]
public class Repository<T> : IRepository<T> where T : BaseEntity
{
    public Repository()
    {
    }

    public void add(T entity)
    {
        // Implementation here
    }
}

How to use

You can now resolve instances of this type from IServiceProvider

var customerRepo = serviceProvider.GetService<IRepository<Customer>>();
var productRepo = serviceProvider.GetService<IRepository<Product>>();

Both customerRepo and productRepo will be instances of Repository<T> but will operate on Customer and Product types, respectively.

License

This project is licensed under the MIT license.