# What is wrong with my understanding of Scala Sets?

Full disclosure: I am (was?) taking Coursera's Scala course but was stumped by the second assignment on Sets. I'm not looking for just the answers (which are easily obtainable) and would receive marginal credit anyway. But I would really like to understand what is happening.

Okay, so here is the first question: "Define a function which creates a singleton set from one integer value: the set represents the set of the one given element." So my first attempt was this:

``````def singletonSet(elem: Int): Set = Set(elem)
``````

So this function, `singletonSet`, just returns a newly created Set. It could be invoked thusly:

``````val why = singletonSet(3)
// now why is a singleton set with a single integer, 3
``````

This implementation seemed trivial, so I Googled for the answer, which seems to be this:

``````def singletonSet(elem: Int): Set = (x => x == elem)
``````

Now my understanding is that `(x => x == elem)` is an anonymous function which takes an integer `x` and returns a boolean. But... what? So as a JavaScript developer, I decided to translate it:

``````function singletonSet(elem) {
return function(x) {
return x === elem;
};
};
``````

So then I can write (am I currying?):

``````singletonSet(3)(4)

// singletonSet(3) => returns an anonymous function, function(x) { x === 3; };
// function(4) { return 4 === 3; }
// false
``````

If this is even close to what is happening in Scala, it seems like I am not creating a singleton set. Rather, I am just checking if two numbers are the same.

What am I missing here? I feel like it must be something very basic.

-
Possible duplicate of: stackoverflow.com/questions/13052735/… – Jason Sperske Oct 11 '13 at 2:42

Remember this implementation of a set is a function. In particular its a boolean function, so the function can just be seen as asking the question: "Is this number in the set? - true or false." The function can be called as many times as you want, in effect asking the question multiple times:

"is this number in the set? Is that number in the set?" etc, etc.

As the set is a singleton set, there is only one number in the set. So you use the set by calling the function, asking the question, in effect, "is this number the one and only number that is in the set?" So you are correct this set, the singleton set is just asking are these two numbers the same.

It should be emphasised that this example is from the course Functional Programming Principles in Scala. The course is not meant as an easy introduction to Scala. In fact the course is deliberately making things difficult, in order to enable a deep understanding of functional programming. Normally one would just use the in scope immutable Set class.

If you wanted to work with say the even numbers between -1000 and 1000, you'd probably use an iterator like:

``````(-1000 to 1000).withFilter(_ %2 == 0)
``````

or:

``````(-1000 to 1000 by 2)
``````
-
And for those into theory, defining a set in the manner this exercise does admits the possibility of both intensional and extensional definition, while virtually all library implementations are of sets are extensional. Imagine the "set of all even integers". With the implementation of sets used in this example an extremely compact and efficient implementation is possible. With an ordinary Scala or Java `Set` one would have to add "all" even integers to the set! On the other hand, extensional sets (other than those of small cardinalities) are not efficiently implemented as in this exercise. – Randall Schulz Oct 11 '13 at 3:08
@RandallSchulz : just to clarify, I think you mean "ordinary Scala or Java `Set` standard implementations". From the looks of it, both the Java interface and the Scala trait have relaxed enough specifications to support intensional definitions. – mikołak Oct 11 '13 at 7:20
Yes, that is true, at least in principle. It might be tough to implement all the required functionality of Scala's `Set` type intensionally, though. – Randall Schulz Oct 11 '13 at 13:01
I started over in my reading of Odersky's book on Scala and realized that maybe I missed the big point of the language, which is that it is highly extensible. What I am really doing in this assignment is actually defining a type `Set` from scratch. What I am saying makes sense? – gwg Oct 11 '13 at 13:38
Yes. The assignment was not about using the Set collection type in the Scala standard library; it was about using the language's facilities for abstraction to encode the notion of a set functionally. And in fact if you look at Set1 in the Scala source for immutable sets, you can now understand the 'contains' method implementation. – AmigoNico Oct 12 '13 at 4:13