In Stanford Scala course I've come across the following assignment:
Exercise 1 – Sets as Functions:
In this exercise we will represent sets as functions from Ints to Booleans:
type Set = Int => Boolean
a) Write a function "set" that takes an Int parameter and returns a Set containing that Int.
b) Write a function "contains" that takes a Set and an Int as parameters and returns true if the Int is in the Set and false otherwise.
c) Write the functions "union", "intersect", and "minus" that take two Sets as parameters and return a Set.
d) Can you write a function "subset" which takes two Sets as parameters and returns true if the first is a subset of the second and false otherwise?
Solutions to the a, b and c are fairly trivial:
def set(i: Int): Set = n => n == i def contains(s: Set, i: Int) = s(i) def union(a: Set, b: Set): Set = i => a(i) || b(i) def intersect(a: Set, b: Set): Set = i => a(i) && b(i) def minus(a: Set, b: Set): Set = i => a(i) && !b(i)
But is there any elegant solution for d? Of course, strictly speaking, the answer to d is "yes", as I can write something like:
def subset(a: Set, b: Set) = Int.MinValue to Int.MaxValue filter(a) forall(b)
but that's probably not the right way.