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I have an application with an query/handler based architecture. I have the following interface:

public interface IQueryHandler<TQuery, TResult> where TQuery : IQuery<TResult>
{
    TResult Handle(TQuery query);
}

There are many non-generic implementations of this interface. Those implementations are wrapped by generic decorators for logging, profiling, authorization, etc. Sometimes however I want to apply a generic decorator conditionally based on the generic type constraints of the decorator. Take for instance this caching decorator that can only be applied to queries that return a ReadOnlyCollection<T> (simply because caching any collection that is mutable doesn't make much sense):

public class CachingQueryHandlerDecorator<TQuery, TResult> 
    : IQueryHandler<TQuery, ReadOnlyCollection<TResult>>
    where TQuery : IQuery<ReadOnlyCollection<TResult>>
{
    private readonly IQueryHandler<TQuery, ReadOnlyCollection<TResult>> decoratee;
    private readonly IQueryCache cache;

    public CachingQueryHandlerDecorator(
        IQueryHandler<TQuery, ReadOnlyCollection<TResult>> decoratee,
        IQueryCache cache)
    {
        this.decoratee = decoratee;
        this.cache = cache;
    }

    public ReadOnlyCollection<TResult> Handle(TQuery query)
    {
        ReadOnlyCollection<TResult> result;

        if (!this.cache.TryGetResult(query, out result))
        {
            this.cache.Store(query, result = this.decoratee.Handle(query));
        }

        return result;
    }
}

What might make it more tricky is that those conditional decorators could be anywhere in the decorator chain. More than often they are one of the decorators in the middle. For instance, this CachingQueryHandlerDecorator wraps a non-conditional ProfilingQueryHandlerDecorator and should get wrapped by a conditional SecurityQueryHandlerDecorator.

I found this answer that refers to applying non-generic decorators conditionally; not about applying generic decorators conditionally based on generic type constraints. How can we achieve this with generic decorators in Autofac?

share|improve this question
    
    
@JimBolla: That is not a duplicate IMO. Although both are about handling generic decorator conditionally, this question is explicitly about generic type constraints which very likely need a different way to handle them. –  Steven May 8 '14 at 21:07
    
The answer would be exactly the same... implement an IRegistrationSource similar to the one recommended in the original question. The only difference will be in the if statement. Heck, you could make the implementation for this question and the other share a common abstract base class. –  Jim Bolla May 8 '14 at 21:23
    
@JimBolla: Let's wait what Nick has to sat about this. He promised me to give an answer to these questions this weekend. –  Steven May 9 '14 at 4:38

1 Answer 1

up vote -1 down vote accepted

If I inherited a codebase that had decorator chains, this is what I would hope to see:

// Think of this as the "master decorator" - all calling code comes through here.
class QueryHandler<TQuery, TResult> where TQuery : IQuery<TResult>
{
    private readonly IComponentContext context;

    public QueryHandler(IComponentContext context)
    {
        this.context = context;
    }

    public TResult Handle(TQuery query)
    {
        var handler = context.Resolve<IQueryHandler<TQuery, TResult>>();

        if (typeof(TResult).IsClosedTypeOf(typeof(ReadOnlyCollection<>)))
        {
            // manual decoration:
            handler = new CachingQueryHandlerDecorator<TQuery, TResult>(handler);

            // or, container-assisted decoration:
            var decoratorFactory = context.Resolve<Func<IQueryHandler<TQuery, TResult>, CachingQueryHandlerDecorator<TQuery, TResult>>>();
            handler = decoratorFactory(handler);
        }

        if (NeedsAuthorization(query)) { ... }

        return handler.Handle(query);
    }
}

Since the order of decoration is important, I want to be able to see it and easily change it and step through it if needed. Even if I'm new to DI, I can probably maintain this code.

However, if you have a jumble of keys and callbacks and container-driven magic, it will be much harder for me to maintain. Just because you can use the container for something doesn't mean you should.

Finally, notice that my QueryHandler class does not implement IQueryHandler - this is on purpose. I've come to think of the Decorator pattern as "mostly harmful" in that a lot of times it subverts the Liskov substitution principle. For example, if you use IQueryHandler everywhere then a misconfigured DI container could omit an Authorization decorator - the type system won't complain, but your app is definitely broken. For this reason, I like to separate the "call-site abstraction" from the "implementation-site abstraction" (see Event Handler vs Event Raiser on another of my answers) and make anything in-between as explicit as possible.

share|improve this answer
    
Thanks for taking the time of answering my question. I do disagree with your "decorator pattern is harmful" statement (although any pattern can be easily abused, that's for sure). Problem however with your current approach is that it doesn't compile. This is caused by the generic type constraints. This is solvable, but will become quite ugly. And as you already said, we would like to have a code base that is maintainable. But perhaps the problem is that I'm spoiled with Simple Injector :-(. –  Steven May 18 '14 at 20:20

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