IGet.GetAll
1.0.5
dotnet add package IGet.GetAll --version 1.0.5
NuGet\Install-Package IGet.GetAll -Version 1.0.5
<PackageReference Include="IGet.GetAll" Version="1.0.5" />
paket add IGet.GetAll --version 1.0.5
#r "nuget: IGet.GetAll, 1.0.5"
// Install IGet.GetAll as a Cake Addin #addin nuget:?package=IGet.GetAll&version=1.0.5 // Install IGet.GetAll as a Cake Tool #tool nuget:?package=IGet.GetAll&version=1.0.5
IGet
Instantiate classes that are NOT in your service collection via i.Get<MyClass>()
. Dependencies from your service collection are automatically injected. Get an IEnumerable of class instances (with their dependencies injected) via i.GetAll<IMyInterface>()
or i.GetAll<MyBaseClass>()
.
Package | i |
---|---|
IGet | i.Get<Class>() or i.Get<IInterface>(reflectedClassType) |
IGet.GetAll | i.GetAll<IInterface>() or i.GetAll<BaseClass>() |
Release notes can be found on NuGet.
Table of Contents
- Setup of IGet
- Setup with GetAll
- Declaring a handler
- Using a handler
- More complex scenarios
- Shared behaviour
- Using GetAll
Setup of IGet
- Install via Visual Studio's NuGet Package Manager:
<img src="https://user-images.githubusercontent.com/128420391/228517777-5e125fab-08ea-4466-92cc-06f4b016b884.png" width="300" />
- Add
IGet
to your service collection viaserviceCollection.AddIGet()
- in a .NET Core app, this can be done in Program.cs:
builder.Services.AddIGet();
Setup with GetAll
- If you've also installed IGet.GetAll, then add the following using statement (or add it as a global using):
using IGetAll;
- and add to the service collection:
serviceCollection.AddIGet();
serviceCollection.AddIGetAll(new [] { typeof(Startup).Assembly, ... });
An impression (C# 12 and up)
public class IndexModel(IGet i) : PageModel
{
public void OnGet()
{
var data = i.Get<DataRequestHandler>().Handle();
...
}
...
}
or
public class IndexModel : PageModel
{
public void OnPost([FromServices] IGet i, FormPost request)
{
var result = i.Get<FormPostHandler>().Handle(request);
...
}
...
}
An impression (before C# 12)
public class IndexModel : PageModel
{
private readonly IGet i;
public IndexModel(IGet iget) => i = iget;
public void OnGet()
{
var data = i.Get<DataRequestHandler>().Handle();
...
}
...
}
Declaring a handler
Example 1
A method signature that may fit many contexts is Task<TResult> HandleAsync(TRequest request, CancellationToken cancellationToken)
. This example uses a classic constructor instead of the primary constructor feature of C# 12 and up:
public class MyHandler
{
private IConnectionFactory _connectionFactory;
public MyHandler(IConnectionFactory connectionFactory)
{
_connectionFactory = connectionFactory;
}
public async Task<MyResult> HandleAsync(MyRequest request, CancellationToken cancellationToken)
{
...
}
}
Example 2
A method with a value type parameter:
public class MyHandler(IConnectionFactory connectionFactory)
{
public async Task<MyResult> ChooseASignature(int id)
{
...
}
}
Example 3
Synchronous code:
public class MyHandler(ILogger<MyHandler> logger)
{
public void Handle()
{
// do something
}
}
Using a handler
Example 1
var result = i.Get<MyHandler>().YourSignature(1);
Example 2
var handler = i.Get<MyHandler>();
handler.Handle();
Example 3
var result = await i.Get<MyHandler>().HandleAsync(new MyRequest
{
Id = 2
});
Example 4
var result = i.Get<MyHandler>().Handle(request);
Because you get the handler via generics, your code is type-checked by the compiler - therefore you know that each request has a handler immediately. Also, you can place your cursor on the class's method and press F12
to quickly navigate to the method declaration.
More complex scenarios
Example 1
Handlers may get other handlers to do stuff for them.
Declare:
public class SubscribeRequestHandler(
IConnectionFactory connectionFactory,
IGet i)
{
public async Task<Result> HandleAsync(SubscribeRequest request)
{
var validationResult = await i.Get<SubscribeRequestValidator>().ValidateAsync(request);
if (validationResult.IsFail)
{
return validationResult;
}
using var connection = await connectionFactory.GetConnectionAsync();
await connection.InsertAsync(new WorkshopParticipant
{
Name = request.Name.Trim(),
WorkshopId = request.WorkshopId,
});
return Result.Success();
}
}
Use:
public async Task<IActionResult> OnPost(SubscribeRequest request)
{
var result = await i.Get<SubscribeRequestHandler>().HandleAsync(request);
...
Example 2
Use a try-catch structure for multiple noninterdependent handlers of the same event:
await i.Get<MyEventPublisher>().PublishAsync(myEvent);
public class MyEventPublisher(IGet iget)
{
public async Task PublishAsync(MyEvent myEvent)
{
try
{
await i.Get<FirstHandler>().HandleAsync(myEvent);
}
catch { }
try
{
await i.Get<SecondHandler>().HandleAsync(myEvent);
}
catch { }
try
{
i.Get<ThirdHandler>().Handle(myEvent);
}
catch { }
}
}
Notes:
- Exceptions should be logged in the
catch
blocks. - Creating a generic event publisher for each of your event types can be done with IGet.GetAll - see the examples further down this readme.
Shared behaviour
You may want multiple handlers to have certian behaviour, for example logging their execution time. You can do this via inheritance or via decorators.
Example 1
You could create a base class for (a subset of) your handlers if you want to do performance logging:
public abstract class BaseHandler<TRequest, TResponse>
where TRequest : notnull
{
protected readonly ILogger _logger;
protected readonly IDbConnectionFactory _connectionFactory;
protected readonly IHostEnvironment _hostEnvironment;
public BaseHandler(IBaseHandlerServices baseHandlerServices)
{
_logger = baseHandlerServices.LoggerFactory.CreateLogger(GetType().FullName!);
_connectionFactory = baseHandlerServices.ConnectionFactory;
_hostEnvironment = baseHandlerServices.HostEnvironment;
}
public async Task<TResponse> HandleAsync(TRequest request, CancellationToken cancellationToken = default)
{
if (!_hostEnvironment.IsProduction())
{
_logger.LogInformation("Start handling request {RequestMembers}.", request.ToKeyValuePairsString());
}
var stopWatch = new Stopwatch();
TResponse result;
try
{
stopWatch.Start();
result = await HandleCoreAsync(request, cancellationToken);
}
finally
{
stopWatch.Stop();
if (!_hostEnvironment.IsProduction() || stopWatch.ElapsedMilliseconds > 500)
{
_logger.LogInformation("Finished in {TotalMilliseconds}ms.", stopWatch.ElapsedMilliseconds);
}
}
return result;
}
protected abstract Task<TResponse> HandleCoreAsync(
TRequest request,
CancellationToken cancellationToken);
}
Inherit:
public class ProductOverviewQueryHandler(IBaseHandlerServices baseHandlerServices)
: BaseHandler<Query, Result>(baseHandlerServices)
{
protected override async Task<Result> HandleCoreAsync(
Query query,
CancellationToken cancellationToken)
{
await using var connection = await _connectionFactory.GetOpenConnectionAsync(cancellationToken);
...
return new Result
{
// set properties
};
}
}
Use:
var result = await i.Get<ProductOverviewQueryHandler>().HandleAsync(query);
Example 2
You can also use decorators to add behaviour to handlers. Using a decorator may look like:
var decoratedHandler = i.Get<MyHandler>().DecorateWithPerformanceProfiler();
var result = await decoratedHandler.HandleAsync(request);
or
var result = await i.Get<MyHandler>()
.DecorateWithPerformanceProfiler()
.HandleAsync(request);
For this to work, you need something like:
public interface IRequestHandler<TRequest, TResponse>
{
public Task<TResponse> HandleAsync(TRequest request);
}
public static class __DecorateWithPerformanceProfiler
{
public static IRequestHandler<TRequest, TResponse> DecorateWithPerformanceProfiler<TRequest, TResponse>(
this IRequestHandler<TRequest, TResponse> decorated)
{
return new PerformanceProfilerDecoratedHandler<TRequest, TResponse>(decorated);
}
public class PerformanceProfilerDecoratedHandler<TRequest, TResponse>(IRequestHandler<TRequest, TResponse> decorated)
: IRequestHandler<TRequest, TResponse>
{
public async Task<TResponse> HandleAsync(TRequest request)
{
using (PerformanceProfiler.Current.Step($"[Handler] {request.GetType().Name}"))
{
return await decorated.HandleAsync(request);
}
}
}
}
Example 3
If a decorator depends on services, you could create an extension method with the additional argument IGet i
. Using the extension method then looks like this:
var decoratedHandler = i.Get<MyHandler>().WithPerformanceLogging(i);
var result = await decoratedHandler.HandleAsync(request);
To make this work, create something like this:
public static class __WithPerformanceLogging
{
public static IRequestHandler<TRequest, TResponse> WithPerformanceLogging<TRequest, TResponse>(
this IRequestHandler<TRequest, TResponse> toDecorate, IGet i)
{
var decorator = i.Get<PerformanceLoggingDecoratedHandler<TRequest, TResponse>>();
decorator.Decorated = toDecorate;
return decorator;
}
public class PerformanceLoggingDecoratedHandler<TRequest, TResponse>(IPerformanceLogger performanceLogger)
: IRequestHandler<TRequest, TResponse>
{
public IRequestHandler<TRequest, TResponse> Decorated { get; set; } = default!;
public async Task<TResponse> HandleAsync(TRequest request)
{
using (performanceLogger.Measure())
{
return await Decorated.HandleAsync(request);
}
}
}
}
Using GetAll
With i.GetAll<T>()
you can get multiple handlers that implement the same interface or base class. Each time you use i.GetAll<T>()
for a new type T
, the collected Type[]
is stored in a ConcurrentDictionary
. The next time you call i.GetAll<T>()
for the same type T
, no assembly scanning is done.
Example 1
This example shows how you can create a generic event publisher that collects the handlers for you.
Declare an interface you like:
public interface IEventHandler<TEvent>
{
Task HandleAsync(TEvent e, CancellationToken cancellationToken);
}
Implement the interface:
public class EventA { }
public class HandlerA1(ILogger<HandlerA1> logger) : IEventHandler<EventA>
{
public async Task HandleAsync(EventA e, CancellationToken cancellationToken)
{
...
}
}
public class HandlerA2(IConnectionFactory connectionFactory) : IEventHandler<EventA>
{
public async Task HandleAsync(EventA e, CancellationToken cancellationToken)
{
...
}
}
public class EventB { }
public class HandlerB1(ILogger<HandlerB1> logger) : IEventHandler<EventB>
{
public async Task HandleAsync(EventB e, CancellationToken cancellationToken)
{
...
}
}
Create a generic event publisher for all your event types:
public class EventPublisher<TEvent>(IGet i, ILogger logger) where TEvent : notnull
{
public async Task Publish(TEvent e, CancellationToken cancellationToken = default)
{
foreach (var handler in i.GetAll<IEventHandler<TEvent>>())
{
try
{
await handler.HandleAsync(e, cancellationToken);
}
catch (Exception ex)
{
logger.LogError(ex, "Error in {handlerType} for {eventKeyValuePairs}.", handler.GetType().FullName, e.ToKeyValuePairsString());
}
}
}
}
Publish events:
// invokes HandlerA1 and HandlerA2:
await i.Get<EventPublisher<EventA>>().Publish(eventA);
// invokes HandlerB1:
await i.Get<EventPublisher<EventB>>().Publish(eventB);
Example 2
Note that because the EventPublisher<TEvent>
of the previous example is in your own repository, you can easily tweak it. Do you want some handlers to have priority? Add a second interface IPrio
to some handlers and execute those first. Do you want to fire them all first and then call Task.WhenAll
? You are in control - without reading any docs:
public async Task Publish(TEvent e, CancellationToken cancellationToken = default)
{
var handlers = i.GetAll<IEventHandler<TEvent>>();
var prioTasks = handlers.Where(handler => handler is IPrio).Select(handler => GetSafeTask(handler));
await Task.WhenAll(prioTasks);
foreach (var handler in handlers.Where(handler => handler is not IPrio))
{
await GetSafeTask(handler);
}
async Task GetSafeTask(IEventHandler<TEvent> handler)
{
try
{
await handler.HandleAsync(e, cancellationToken);
}
catch (Exception ex)
{
logger.LogError(ex, "Error in {handlerType} for {eventKeyValuePairs}.", handler.GetType().FullName, e.ToKeyValuePairsString());
}
}
}
Example 3
Just to make sure it's clear: i.GetAll<T>()
can be used for any type of interface or base class. Do you need to get a set of validator classes for a certain request? Get them:
i.GetAll<AbstractValidator<UpdateUserCommand>>()
Try it out
The examples above give an idea of how you can be creative with IGet. Share your own examples online to spread the word about IGet.
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 was computed. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
.NET Core | netcoreapp2.0 was computed. netcoreapp2.1 was computed. netcoreapp2.2 was computed. netcoreapp3.0 was computed. netcoreapp3.1 was computed. |
.NET Standard | netstandard2.0 is compatible. netstandard2.1 was computed. |
.NET Framework | net461 was computed. net462 was computed. net463 was computed. net47 was computed. net471 was computed. net472 was computed. net48 was computed. net481 was computed. |
MonoAndroid | monoandroid was computed. |
MonoMac | monomac was computed. |
MonoTouch | monotouch was computed. |
Tizen | tizen40 was computed. tizen60 was computed. |
Xamarin.iOS | xamarinios was computed. |
Xamarin.Mac | xamarinmac was computed. |
Xamarin.TVOS | xamarintvos was computed. |
Xamarin.WatchOS | xamarinwatchos was computed. |
-
.NETStandard 2.0
- IGet (>= 1.1.8)
NuGet packages
This package is not used by any NuGet packages.
GitHub repositories
This package is not used by any popular GitHub repositories.
v1.0.*: updates of the readme.