I have this code:

using (container.BeginLifetimeScope())
    RenderWord instruction = new RenderWord();
    var instances = container.GetAllInstances<IInstructionHandler<RenderWord>>();
    var firstInstance = result.First();

instances is of type IEnumerable<IInstructionHandler<RenderWord>>

firstInstance is of type IInstructionHandler<RenderWord> that in reality is an instance of a decorator that decorates another decorator that decorates another decorator ...

At runtime the actual class instances is of type ContainerControlledCollection<IInstructionHandler<RenderWord>> and this ContainerControlledCollection class holds a very useful piece of information - the underlying ImplementationType.

Is there any way for me to get to the ContainerControlledCollection or the producers[0].Value.ImplementationType at runtime because I’d really like to be able to discover the base implementation type underneath the chain of decorators.

  • Why do you need this?
    – Steven
    Nov 7, 2013 at 6:33
  • 1
    @Steven I'm trying out a POC where all sorts of Handlers can be plugged in at runtime and can be controlled/co-ordinated with database configuration - so just because a Handler can be applied does not mean that it always will be applied. With all the benefits of the standard in-built decorators (tracing etc).
    – qujck
    Nov 7, 2013 at 8:16

2 Answers 2


I think @atomaras might have a good point about your abstraction, although I think it would be fine when you only use this information inside your Composition Root, since your Composition Root is already aware of every implementation in the system.

I think there are a few ways to get to this information:

  1. Use the DecoratorPredicateContext information that is supplied to the RegisterDecorator extension method:

    var typeMapping = new Dictionary<Type, Type>();
    container.RegisterDecorator(typeof(IInstructionHandler<>), typeof(FakeDecorator<>), c =>
        typeMapping[c.ServiceType]  = c.ImplementationType;
        // or perhaps even use c.AppliedDecorators property to see which decorators 
        // are applied.
        // return false to prevent the decorator from being applied.
        return false;

    You can make a fake registration that Simple Injector will call for every IInstructionHandler<T> in the system, but you prevent it from being applied by supplying a predicate that will always return false. You can use the info supplied by Simple Injector in the DecoratorPredicateContext to find out what the actual ImplementationType is.

Alternatively, you can inject an DecoratorContext instance (v2.6 and up) into the top most decorator (as explained here). The DecoratorContext contains the same information as the DecoratorPredicateContext does, but this object will automatically be injected by Simple Injector into a decorator that depends on. It allows you to make the decision inside a decorator, which might be very convenient in your case.

  1. Add an an IDecorator abstraction to the system to allow traversing the decorator chain.

    By letting each decorator implement a IDecorator interface that allows access to the decoratee (just as done here) you can traverse the decorator chain and find the actual implementation type:

    public interface IDecorator
        object Decoratee { get; }
    public static class DecoratorHelpers
        public static IEnumerable<object> GetDecoratorChain(IDecorator decorator)
            while (decorator != null)
                yield return decorator;
                decorator = decorator.Decoratee as IDecorator;

    You can implement your decorators with this interface as follows:

    public class SomeDecorator<T> : IInstructionHandler<T>, IDecorator
        private readonly IInstructionHandler<T> decoratee;
        public SomeDecorator(IInstructionHandler<T> decoratee)
            this.decoratee = decoratee;
        object IDecorator.Decoratee { get { return this.decoratee; } }

    When you implemented this interface on all your decorators, you will be able to do this:

     var implementationTypes =
         from handler in container.GetAllInstances<IInstructionHandler<RenderWord>>()
         let mostInnerDecorator =
             DecoratorHelpers.GetDecoratorChain(handler as IDecorator).LastOrDefault()
         let implementation = mostInnerDecorator != null ? mostInnerDecorator.Decoratee : handler
         select implementation.GetType()
  2. Register a list of Registration instances in one of the RegisterAll overloads, since the Registration object knows about the actual implemenation type.

  3. But instead of point 3, you might as well use the list of implemenation types that you used to create those registrations:

    typeMapping[serviceType] = implementationTypes;
    container.RegisterAll(serviceType, implementationTypes);

    Simple Injector will resolve the registered implementations always in the same order as they are registered (this is guaranteed). So when you resolve a collection of things, you will already have the list of implementations that is layed out in the same order.

  • Option 1 is the feature that I am looking for. I only need this information in one place (the composition root) and this was the driver for finding a solution that did not require an almost redundant interface & property on the IHandler decorators.
    – qujck
    Nov 7, 2013 at 9:44
  • Simple Injector always applies decorators in the sequence last in first out. Are the collections that get registered using RegisterAll returned in the sequence first in first out?
    – qujck
    Nov 7, 2013 at 9:47
  • 1
    @qujck: if you do container.RegisterAll<T>(t1, t2, t3, t4), a call to container.GetAllInstances<T>() will always return the list in the order t1, t2, t3, t4. That's by design and this order will never change.
    – Steven
    Nov 7, 2013 at 11:59

Why dont you just check the type of the firstInstance? Wouldn't that give you the actual implementation type? I have to say though that the fact that you need to know the implementation type is a good indication of problems with your abstraction.

  • The type of all the instances will be same decorator e.g. ExceptionDecorator wrapping TransactionDecorator wrapping TraceDecorator. On the surface I may be violating some of the numerous best practices but for this particular solution I need a combination of plug-ins and runtime configurability.
    – qujck
    Nov 7, 2013 at 8:22
  • Although i still don't see the need for doing so, you could enhance your Handler interface to expose the wrapped/decorated Handler as a property and create a very specialized method that drills down the chain in a while loop to find the innermost handler type.
    – atomaras
    Nov 7, 2013 at 9:00
  • You're absolutely correct and that was my plan until I noticed that the implementation type I needed is so nearly available already. I can, for example, define an IHandlerDecorator to expose the underlying implementation detail through a property.
    – qujck
    Nov 7, 2013 at 9:02

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