I'm designing a class library for discrete mathematics, and I can't think of a way to implement an infinite set.

What I have so far is: I have an abstract base class, Set, which implements the interface ISet. For finite sets, I derive a class FiniteSet, which implements each set method. I can then use it like this:

```
FiniteSet<int> set1 = new FiniteSet<int>(1, 2, 3);
FiniteSet<int> set2 = new FiniteSet<int>(3, 4, 5);
Console.WriteLine(set1); //{1, 2, 3}
Console.WriteLine(set2); //{3, 4, 5}
set1.UnionWith(set2);
Console.WriteLine(set1); //{1, 2, 3, 4, 5}
```

Now I want to represent an infinite set. I had the idea of deriving another abstract class from set, InfiniteSet, and then developers using the library would have to derive from InfiniteSet to implement their own classes. I'd supply commonly used sets, such as N, Z, Q, and R.

But I have no idea how I'd implement methods like Subset and GetEnumerator - I'm even starting to think it's impossible. How do you enumerate an infinite set in a practical way, so that you can intersect/union it with another infinite set? How can you check, in code, that N is a subset of R? And as for the issue of cardinality.. Well, that's probably a separate question.

All this leads me to the conclusion that my idea for implementing an infinite set is probably the wrong way to go. I'd very much appreciate your input :).

Edit: Just to be clear, I'd also like to represent uncountably infinite sets.

Edit2: I think it's important to remember that the ultimate goal is to implement ISet, meaning that any solution has to provide (as it should) ways to implement all of ISet's methods, the most problematic of which are the enumeration methods and the IsSubsetOf method.

`yield return`

msdn.microsoft.com/en-us/library/9k7k7cf0.aspx – asawyer Jul 25 '12 at 22:35countablyinfinite set is easy with`yield return`

. – Michael Graczyk Jul 25 '12 at 22:42