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I have been reading up on the changes that .NET4.5 will bring, and on this blog post I stumbled upon something I neither knew nor understood.

When talking about the implementation of readonly collections, Immo Landwerth says:

Unfortunately, our type system doesn’t allow making types of T covariant unless it has no methods that take T as an input. Therefore, we can’t add an IndexOf method to IReadOnlyList. We believe this is a small sacrifice compared to not having support for covariance.

From my obviously limited understanding, it seems like he is saying that in order to enable us to call a method that requires an IReadOnlyList<Shape> by passing in a IReadOnlyList<Circle>, we can't have a IReadOnlyList<T>.IndexOf(T someShape) method.

I don't see how the type system would prevent that. Can someone explain?

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3 Answers 3

up vote 9 down vote accepted

Suppose Circle implements IEquatable<Circle>. That would naturally be used by IReadOnlyList<Circle>.IndexOf if it were available. Now if you could write this:

IReadOnlyList<Circle> circles = ...;
IReadOnlyList<Shape> shapes = circles;
int index = shapes.IndexOf(new Square(10));

that would end up trying to pass a Square to Circle.Equals(Circle) which would clearly be a bad idea.

The rules which enforce the "no values of T in input positions" are in section 13.1.3 of the C# 4 spec. You should also read Eric Lippert's blog series on generic variance for a lot more details.

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Fair enough. I would have thought IndexOf would just return -1 if it received an incorrect type. Dunno why I thought that, that would imply needing some kind of type checking in each method. I'll get right into eric's blog posts. Boy but that man can explain something in a way I can understand! –  Jason Ridge Jun 18 '12 at 12:21
What a covariant IReadOnlyList<T> could implement would be IndexOf<TT>(TT it), where the parameter type of the method was independent from that of the collection. A class List<TItem> could implement its IndexOf could then use a lazily-generated (cached) delegate for each type TT, so that if TItem implements IEquatable<TT>.Equals it would create a delegate to a static method that would call that, and otherwise it would create a delegate to a static method that used some other comparison or, for some type combinations TT and T, simply returned -1. –  supercat Jul 14 '14 at 19:44

Since IReadOnlyList<T> is covariant, you can cast it to any aupertype of T and all methods should still work according to the contract. The most super supertype of T is Object, so if IndexOf were part of the interface, it should have accepted Object.

As Jon Skeet states, in a list of Circle objects, you can then ask: what is the index of a particular Square in this list? The only correct response would be "it is not here," and IndexOf should return -1 and not throw an exception.

So, I don't agree with Jon Skeet. Given the limitations of covariant generic parameters, and similar to ArrayList.indexOf in Java, the BCL team should have included a method IndexOf with the following signature:

int IndexOf(object item);

Exactly the same argument applies to Contains in IReadOnlyCollection: when you pass in an object of an incompatible type, the collection obviously doesn't contain it and the method should just return false.

The only downside would be boxing of value types, but actual implementation can still hide the IReadOnlyList.IndexOf method and provide their own generic overload, making this argument moot.

So, you are correct in expecting IndexOf to return -1 when passed an incompatible object, if it were on the interface.

I implemented this principle in my M42.Collections library to show how this would work in practice. You can download it here:

M42 Collections - Portable .NET library for working with collections properly.

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The parameter to Equals is funny, in that from a performance standpoint it could benefit from being generic, but from a semantic standpoint it's both covariant and contravariant (meaning not really generic). It's perfectly reasonable to regard List<Cat> as a "thing that can be asked if it contains a given SiameseCat", or "thing...given Animal", or even "thing...given Dog". The answer in the latter case would be "no", but that doesn't mean the question couldn't be asked. –  supercat Jul 14 '14 at 19:49

Note that it would be correct, in theory (not sure if that is implemented in .NET yet), to define IndexOf for all subtypes of T:

class ReadOnlyList<+T> = { ...
  Int IndexOf<U>(U elem) where T : U { ... }

It is interesting to see why IndexOf(T elem) would not obviously be covariant, while this one is: if you have T2 : T1, a method IndexOf(T1 elem) may not be compatible with the signature IndexOf(T2 elem). On the contrary, if you have IndexOf<U>(U elem) where T1 : U, you know that T2 : T1 and T1 : U, so you also have T2 : U for all such U: this type is a subtyping of IndexOf<U>(U elem) with T2 : U.

This remark is made, for example, in the 2006 article Variance and Generalized Constraints for C# Generics by Emir, Kennedy, Russo and Yu: they present a type system that would accept this definition.

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I don't think the parameter of the generic IndexOf should be constrained. It's perfectly reasonable to ask a List<Cat> whether it contains a given instance of Animal, or SiameseCat, or even Dog. –  supercat Jul 14 '14 at 19:51
All those examples would be allowed with the signature I gave, using subtyping either on the argument or on the list itself. SiameseCat is a supertype of Cat so you can directly use List<Cat>.indexOf<SiameseCat>. A List<Cat> is also a List<Animal> so you can use List<Animal>.indexOf<Animal> or List<Animal>.indexOf<Dog>. The comparison will be performed at the most precise common superclass of the two objects. –  gasche Jul 15 '14 at 16:52
My point is that there's nothing wrong with ReadableList<Cat>.IndexOf<Animal>. If method foo in a class with unrelated generic type parameters T and U receives a ReadableList<T> list and an U item, and wants to know if list contains item, that query would be meaningful if T is a subclass or superclass of U, and would have well-defined semantics even when the types are unrelated. The query should not require foo to determine any class relationship between T and U, especially since the actual types of the list and item may allow the IndexOf method... –  supercat Jul 15 '14 at 17:16
...to early exit even if the types T and U are such that some instances of U would fit in some instances of ReadableList<T>. Depending upon the types of T and U, it may be possible to skip the test either because all U will fit in all ReadableList<T>, or because no U will fit in any ReadableList<T>, but in general the decision would be best made within the IndexOf method. –  supercat Jul 15 '14 at 17:19
If T and U are unrelated, I don't think it makes much sense to test whether a U is in a List<T> -- I would rather have the compiler reject it than return false -- because I think comparison should only compare two values of the same type. It seems that you have a different opinion on the typing of comparison, but I'm not quite sure what the benefit would be. If we know statically that it will always return false, then we may as well not test it -- and it is probably a mistake of the programmer. –  gasche Jul 16 '14 at 7:15

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