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The code I have is...

public interface IEntityA : IGenericEntity { ... }
public interface IEntityB : IGenericEntity { ... }
public interface IEntityZ : IGenericEntity { ... }

public class EntityComparer<T> : IEqualityComparer<T> where T : IGenericEntity

public class ZComparer : EntityComparer<IEntityZ>
... some overrides



This works ! So when you then ask for instances like so...

var aComparer = Kernel.Get<IEqualityComparer<IEntityA>>(); 
// gives you an instance of EntityComparer<IEntityA>>
var bComparer = Kernel.Get<IEqualityComparer<IEntityB>>(); 
// gives you an instance of EntityComparer<IEntityB>>
var zComparer = Kernel.Get<IEqualityComparer<IEntityZ>>(); 
// gives you an instance of ZComparer

However I want to assure these bindings only affect entities. If I change the bindings to...

 .When(r => typeof(IGenericEntity).IsAssignableFrom(r.Service.GetGenericArguments()[0]));

There is a problem with bindings for specific entities...

var zComparer = Kernel.Get<IEqualityComparer<IEntityZ>>(); 
// gives you an instance of EntityComparer<IEntityZ>>  - undesired !

What's the best way to do this?

share|improve this question
What do you mean on "However I want to assure these bindings only affect entities."? Because of the where T : IGenericEntity on the EntityComparer<T>` you cannot have a EntityComparer<INotEntity> where INotEntity is not an IGenericEntity. So this Get call will fail and throw an exceptio: Kernel.Get<IEqualityComparer<INotEntity>>(); – nemesv Aug 12 '14 at 7:06
Good point ! So if you bind IEqualityComparer for some other type you're saying NInject is smart enough not to try and use the EntityComparer and to use the other binding instead. I'd still like to understand why the ".When" constraint on the second set of bindings has the effect it does. As you've pointed out it should be superfluous, however it causes NInject to instantiate the wrong class for IEntityZ – Mick Aug 12 '14 at 7:20
In general it is superfluous because in both cases Ninject will throw an exception although a different one: in the first case you get an argument exception and in the second case you get a binding is not found exception.About the When: it changes the order of the registration of the bindings so your Bind<IEqualityComparer<IEntityZ>>().To<ZComparer>(); does not overrides the generic one.One way to fix this (although I'm not sure that this is the proper one so I'm not adding this as an answer) to add an empty when:Kernel.Bind<IEqualityComparer<IEntityZ>>().To<ZComparer>().When(r => true) – nemesv Aug 12 '14 at 7:30
YAGNI. Don't do things just because you might need it later. If you would, it might be better to define an IEntityComparer<TEntity> : IEqualityComparer<TEntity> where TEntity : IEntity interface anyways. But this will only be known when you'll need it. – BatteryBackupUnit Aug 12 '14 at 15:53
That's one way of looking at it. In a large project sometimes sweeping code like Bind(typeof(IEqualityComparer<>)).To(typeof(EntityComparer<>)), that takes a generic interface and binds it to a far less generic class, can end up getting someone else in trouble. Creating an IEntityComparer interface is a good alternative. – Mick Aug 13 '14 at 0:33

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