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Why do I get a compile error in the following code (see line with comment)?

    public void Test()
        HashSet<HashSet<Animal>> setWithSets = new HashSet<HashSet<Animal>>();
        HashSet<Cat> cats = new HashSet<Cat>();
        setWithSets.Add(cats); // Compile error

    private class Animal { }

    private class Cat : Animal { }

VS2012 gives me two errors, the first one the important one:

  • Error 2 Argument 1: cannot convert from 'System.Collections.Generic.HashSet<Expenses.Tests.TestDb.SetTest.Cat>' to 'System.Collections.Generic.HashSet<Expenses.Tests.TestDb.SetTest.Animal>'
  • Error 1 The best overloaded method match for 'System.Collections.Generic.HashSet<System.Collections.Generic.HashSet<Expenses.Tests.TestDb.SetTest.Animal>>.Add(System.Collections.Generic.HashSet)' has some invalid arguments

My question is: Why can I not add "cats" to the "setWithSets"?

share|improve this question
You're looking at Generic Covariance, and you might wanna check out this question: stackoverflow.com/questions/245607/… or this article (it's using the same objects as you actually) -> blogs.msdn.com/b/charlie/archive/2008/10/28/… – Dimitar Dimitrov May 31 '13 at 12:39
Thanks, will check them out. I also found another post that might make this post duplicate: stackoverflow.com/questions/6314006/… – Yngvar Kristiansen May 31 '13 at 12:43
up vote 9 down vote accepted

To better understand why this is not allowed, consider the following program.

The line setOfSets.First().Add(new Dog()); is acceptable to the compiler, because a collection of animals can surely hold an instance of Dog. The problem is that the first collection of animals in the collection is a collection of Cat instances, and Dog does not extend Cat.

class Animal { }
class Cat : Animal { }
class Dog : Animal { }

class Program {
    static void Main(string[] args) {

        // This is a collection of collections of animals.
        HashSet<HashSet<Animal>> setOfSets = new HashSet<HashSet<Animal>>();

        // Here, we add a collection of cats to that collection.
        HashSet<Cat> cats = new HashSet<Cat>();

        // And here, we add a dog to the collection of cats. Sorry, kitty!
        setOfSets.First().Add(new Dog());
share|improve this answer
I was about to do the same thing with apples and bananas :) – uriDium May 31 '13 at 12:50
Funny thing languages like Java support covariance in arrays, which causes some runtime checks to prevent these type of thing, impacting the performance – Ricardo Rodrigues May 31 '13 at 12:58
Marking this as 'answer', as it simple and clearly illustrates the problem with my thinking. However, I really appreciacte the other follow-ups, as they give me deeper insight in the subject. – Yngvar Kristiansen May 31 '13 at 13:00
@RicardoRodrigues .NET also has this "crazy" covariance of array types, leading to type checks at all writes, and same performance hit. It's been like that ever since .NET 1 (that is before generics). – Jeppe Stig Nielsen May 31 '13 at 13:06

You get a compiler error, because the type constructor of HashSet is invariant.

For an explanation of the term invariant, have a look at Covariance and contravariance

share|improve this answer
I wouldn't say the constructor was invariant; I would say the class (or type) is invariant (in T). – Jeppe Stig Nielsen May 31 '13 at 12:52
@JeppeStigNielsen I fixed the wording to match the wiki article. – nvoigt May 31 '13 at 12:53
This would be the correct answer if you changed the phrasing a little, it's not the constructor of HashSet that is invariant, it's HashSet itself in T. Just to add some more info, in order for this to be possible, HashSet<T> would have to be covariant in its type parameter T, like IEnumerable<T> is since .NET 4.0 – Ricardo Rodrigues May 31 '13 at 12:54

Even if Cat derives from Animal, it is not true that HashSet<Cat> derives from HashSet<Animal>. (The only base class of HashSet<Anything> is the object class.)

To get the behavior you want, the HashSet<T> generic type would need to be covariant in its type parameter T. But it is not, for two reasons:

  1. In C#, only generic interfaces and generic delegate types can be co- or contravariant. HashSet<> is a class.
  2. You can not only read from a HashSet<>, you can also add to it (and do other things). Therefore covariance is logically impossible. Or else one would be able to regard a HashSet<Cat> as a HashSet<Animal> and then add a Dog to it. But a set of cats does not allow dogs.

If you changed HashSet<T> into for example IReadOnlyCollection<T> (see .NET 4.5 documentation: IReadOnlyCollection<out T> Interface), things would work because the latter type (1) is an interface, (2) allows only reads, and (3) has therefore premitted a marking "I'm covariant in T" which the authors of the type decided to apply.

share|improve this answer
+1 for the IReadOnlyCollection<> tip. Useful. – Gayot Fow May 31 '13 at 19:13

Because HashSet<Cat> does not derive from HashSet<Animal>, which is required for what you want to do.

What you can do is add a Cat to a HashSet<Animal>, because Cat derives from Animal What you cannot do is add a HashSet<Cat> to a HashSet<HashSet<Animal>>

You probably thought you could use covariance, which allows you to do this:

IEnumerable<Cat> cats = new List<Cat>();
IEnumerable<Animal> animals = cats;

This works because this is the interface declaration for IEnumerable:

public interface IEnumerable<out T> : IEnumerable
    IEnumerator<T> GetEnumerator();

Notice the 'out T'? That's covariance. It basically allows you to have inheritance-like behavior on generically-typed classes. Note that you can only declare covariance on interfaces. Now let's look at ISet, the interface that HashSet implements:

public interface ISet<T> : ICollection<T>, IEnumerable<T>, IEnumerable

As you can see, no 'out' keyword. That means you can't do this:

ISet<Cat> cats = new HashSet<Cat>();
ISet<Animal> animals = cats;
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