Is it possible to achive such behavior without passing container itself?
Yes, it's certainly possible. The trick is extract this logic out of your Form component into its own component. In other words, you create an Aggregate Service. For instance:
public class TempForm : Form
{
private readonly IGoogleAuth _googleAuth;
private readonly IExcelExporter _exporter;
public TempForm(IGoogleAuth googleAuth, IExcelExporter exporter)
{
_googleAuth = googleAuth;
_exporter = exporter;
InitializeComponent();
}
private void ButtonClick(object sender, EventArgs e)
{
_exporter.Export(...);
}
private void InitializeComponent()
{
//Initialize form components
}
}
Here we extract all the code related to generating the excel document out of the Form, into its own component.
Such implementation might look as follows:
public class ExcelExporter : IExcelExporter
{
private readonly IComAssistant _comAssistant;
public ExcelExporter(IComAssistant comAssistant)
{
_comAssistant = comAssistant;
}
private void Export(...)
{
//NEED NEW INSTANCE OF EXCEL_APP PER THREAD
using (IExcelApp excel = new ExcelApp(_comAssistant))
{
//Do stuff with excel.
excel.CreateWorkBook();
//...
}
}
}
Notice how this component itself has no notion of threading. Threading is a concern that this component should not be responsible of. Leaving this out of this class makes the class simpler to understand and easier to test.
That does mean however that we will have to implement this threading logic somewhere. We however want to leave this out of the Form and out of the ExcelExporter
. And when doing this, we need a reference to the Container
.
Every piece of code that requires access to the Container
should be centralized in the application's start-up code, a.k.a. the Composition Root.
An effective approach to add this threading behavior to our new ExcelExporter
component is by making use of a proxy around IExcelExporter
:
public class BackgroundExcelExporterProxy : IExcelExporter
{
private readonly Container _container;
private readonly Func<IExcelExporter> _excelExporterFactory;
public ExcelExporter(
Container container, Func<IExcelExporter> excelExporterFactory)
{
_container = container;;
_excelExporterFactory = excelExporterFactory;
}
private void Export(...)
{
var excelThread = new Thread(() =>
{
using (ThreadScopedLifestyle.BeginScope(container))
{
var exporter = _excelExporterFactory();
exporter.Export(...);
}
});
excelThread.SetApartmentState(ApartmentState.STA);
excelThread.Start();
}
}
This class takes a dependency on Container
. When Export
is called, it will start a new Thread
and within that thread it will start a new Thread Scope. Within that thread scope it will resolve a new IExporter
with its dependencies.
When this class is registered in Simple Injector using the RegisterDecorator
method (as far as Simple Injector is concerned, this is a decorator), Simple Injector will natively understand the Func<IExcelExporter>
dependency and will understand that this delegate should resolve an instance of the decorated instance (ExcelExporter
in your case).
We can register this as follows:
container.Register<IExcelExporter, ExcelExporter>();
container.RegisterDecorator<IExcelExporter, BackgroundExcelExporterProxy>(
Lifestyle.Singleton);
This will result in the following object graph:
new TempForm(
MyGoogleAuth(...),
new BackgroundExcelExporterProxy(
container,
() => new ExcelExporter(new MyComAssistant(...))));
We need to make it as singleton, or put them in own ServiceLocator implementation?
You might think that the BackgroundExcelExporterProxy
has a Service Locator, but as long as this class resides inside the Composition Root, it's not a Service Locator, as explained here.