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Prevent a particular hierarchy of types being used for a generic parameter

开发者 https://www.devze.com 2023-03-06 22:27 出处:网络
I started this question with a load of background of the types in question; the interfaces and rationale behind the architecture.

I started this question with a load of background of the types in question; the interfaces and rationale behind the architecture.

Then I realised - 'This is SO - keep it simple and get to the point'.

So here goes.

I have a class like this:

public class AGenericType<T> : AGenericTypeBase
{
  T Value { get; set; }
}

.Net then, of course, allows me to do this:

AGenericType<AGenericType<int>> v;

However, in the context of AGenericType<T>'s usage, it is a nonsense to do this in the same way that it's a nonsense to do this:

Nullable<Nullable<double>> v;

What I want to be able to do is restrict this generic type so that it becomes impossible to create such an instance or even declare a reference to the type when it's T is derived from AGenericTypeBase - preferably at compile-time.

Now an interesting thing here is that the Nullable<T> example I give here does indeed generate a compiler error. But I can't see how Nullable<T> restricts the T to non-Nullable<T> types - since Nullable<T> is a struct, and the only generic constraint I can find (even in the IL, which often yields compiler secrets, like those with delegates) is where T:struct. So I'm thinking that one must be a compiler hack (EDIT: See @Daniel Hilgarth's answer + comments below for a bit of an exploration of this). A compiler hack I can't repeat of course!

For my own scenario, IL and C# don't allow a negative-assert con开发者_如何学Cstraint like this:

public class AGenericType<T> : where !T:AGenericTypeBase

(note the '!' in the constraint)

But what alternative can I use?

I've thought of two:

1) Runtime exception generated in the constructor of an AGenericType<T>:

public AGenericType(){
  if(typeof(AGenericBase).IsAssignableFrom(typeof(T)))
    throw new InvalidOperationException();
}

That doesn't really reflect the nature of the error, though - because the problem is the generic parameter and therefore the whole type; not just that instance.

2) So, instead, the same runtime exception, but generated in a static initializer for AGenericType<T>:

static AGenericType(){
  if(typeof(AGenericBase).IsAssignableFrom(typeof(T)))
    throw new InvalidOperationException();
}

But then I'm faced with the problem that this exception will be wrapped inside a TypeInitializationException and could potentially cause confusion (in my experience developers that actually read a whole exception hierarchy are thin on the ground).

To me, this is a clear case for 'negative assertion' generic constraints in IL and C# - but since that's unlikely to happen, what would you do?


About Nullable<T>: The constraint T : struct is the reason for the compiler error, because a variable of a struct can never be null, whereas a variable of type Nullable<T> can be null.
So, it is a compiler hack but only in that way, that Nullable<T> is treated like a nullable value type instead of a non-nullable value type.

public struct Nullable2<T> where T: struct
{
}

// Both lines will generate the same error
Nullable2<Nullable<int>> v;
Nullable<Nullable<int>> v2;

What I want to say is the following:
Nullable<T> doesn't do a "'negative assertion' generic constraints".


I hope I clearly understood your problem, and I believe you need a marker interface.

How can you ensure that some generic paremeter T doesn't inherit from some class? Well, since you can't do that, you can create a marker interface called "IWhatever" (change 'Whatever' with your own name that fits your needs) and use it to differentiate kinds of A:

public class B<T> 
   where T : A, IWhatever

T inherits A, but A must implement IWhatever.

You'd implement as many marker interfaces as you need in order to have different T kinds.

Update:

Has this something to do with how to constraint T mustn't inherit A?

Absolutely. If I need that, I use marker interfaces: IIsNotA and you can have this constraint: T : IIsNotA.

It's just an example. In a real-world scenario, IIsNotA would be called with a proper identifier related to some class hierarchy.


In the end I have gone with an exception in the static initialiser of the generic type as it demonstrates more clearly that there is something wrong with the caller's use of the type as opposed to a runtime argument passed to a constructor. The error is easily fixed by the caller, so I think its the best compromise.

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