Since you want to use this construct in a multi-threaded application and want to reuse the same instance across threads (as you imply in your comment), you will not be able to solve this problem by configuring your DI container.
You simply can't configure the object to be renewed after disposal, because of race conditions. Imagine the following scenario:
- Thread 1 requests an instance from the container.
- This is the first request and the container will create a fresh instance.
- Thread 2 requests an instance from the container
- The container returns the instance created in step 2.
- Thread 1 is done with the instance and calls
- Thread 2 starts using the instance, but the instance is disposed, and throws an exception.
The problem is that the application will get a reference to an instance that can be disposed.
Try to prevent doing this by redesigning your application if you can. It's a bad practice to expose service types that implement
IDisposable is a leaky abstraction. My personal preference is even to prevent any implementations of these services to implement
IDisposable. In most scenarios a redesign can prevent you from having to do this.
If you need to use
IDisposable objects, the usual way to do this is to create and inject factories that create these
IDisposable objects. This way the consumer can safely dispose such an object, without any problem.
The general problem here is that it is hard to create objects that implement
IDisposable, that are actually thread-safe.
If you really want this, you can try creating a decorator that does reference counting. Look for instance at the decorator below. It wraps an
IService and implements
IDisposable. The decorator takes a
Func<IService> delegate that allows creation of instances. Creation and disposal of objects is protected by a
lock statement and the and the decorator counts the references to it by callers. It will dispose the object and create a new one, after the last consumer disposed the decorator.
public class ScopedServiceDecorator : IService
private readonly object locker = new object();
private Func<IService> factory;
private IService currentInstance;
private int referenceCount;
public ScopedServiceDecorator(Func<IService> factory)
this.factory = factory;
public void SomeOperation()
instance = this.GetInstance();
public void Dispose()
IService instance = null;
if (this.referenceCount == 0)
instance = this.wrappedService;
this.wrappedService = null;
// Dispose the object outside the lock for performance.
if (instance != null)
private IService GetInstance()
if (this.wrappedService == null)
this.wrappedService = this.factory();
Please note that this implementation is still flawed, because of the following reasons:
Dispose multiple times breaks the decorator.
- When consumers call the
SomeOperation multiple times (or the
IService has multiple methods) the implementation will break.
It is pretty hard to create a decorator that functions as expected. One simple way of doing this is by serializing access to the object, but when you do this, you probably want to use a single instance per thread. That would be much easier.
I hope this helps.