Scala Daily Coding Problem #001
Andrew (he/him)
Posted on March 6, 2020
Daily Coding Problem is a website which will send you a programming challenge to your inbox every day. I want to show beginners how to solve some of these problems using Scala, so this will be an ongoing series of my solutions. Feel free to pick them apart in the comments!
Problem
Given a list of numbers and a number
k
, return whether any two numbers from the list add up tok
.For example, given
[10, 15, 3, 7]
andk
of17
, returntrue
since10 + 7
is17
.Bonus: Can you do this in one pass?
Strategy
See my discussion of this problem (and my Java implementation) here!
Code
Rather than using nested loops in an imperative style, as I did in my Java solution, I'd like to stick with a more functional approach for my Scala solution to this problem.
Scala provides a beautiful standard library, including List
s with methods like combinations(n: Int)
(which gives all combinations of n
elements in the List
), and exists(p: List[T] => Boolean)
, which returns true
if there exists at least one element in the list which satisfies the given predicate, p
. Combined with Scala's implicit
parameters and Numeric
type class under the hood (neither of which exist in Java), we can solve this problem in a single line of Scala code (not including the definitions of the list and k
themselves):
val ll: List[Int] = List(10, 15, 3, 7)
val k: Int = 17
ll.combinations(2).exists(_.sum == k) // returns true
That's it!
Discussion
ll.combinations(2)
returns a List[List[Int]]
. That is, a List
which contains List[Int]
(lists of ints). The inner lists are all of the possible distinct pairs of elements of the list ll
.
Calling exists(...)
on a List
checks if any element of the list satisfies the function passed as the argument to exists(...)
. (Note that this requires Scala's support for higher-order functions.) The function I passed, _.sum = k
, checks each inner list (each element of ll
) using the underscore _
as a placeholder for each element in turn. Since each element is itself a List[Int]
, we can call the sum
function on that inner List
, and simply check if the sum is equal to k
.
Removing all this syntactic sugar, you might end up with something like:
// with syntactic sugar
ll.combinations(2).exists(_.sum == k)
// de-sugared
ll.combinations(2).exists(
(innerList: List[Int]) => innerList.sum == k
)
...but the Scala compiler knows that the type of innerList
must be List[Int]
, since ll
is of type List[List[Int]]
, so its elements are List[Int]
s. So we can drop the explicit type annotation:
ll.combinations(2).exists(
(innerList) => innerList.sum == k
)
...and when we declare an anonymous function with only a single argument, as above, we can drop the parentheses around that argument:
ll.combinations(2).exists(
innerList => innerList.sum == k
)
Finally, we can replace any number of anonymous function arguments with underscores _
, and the Scala compiler will replace them, one by one, in the function definition:
ll.combinations(2).exists(_.sum == k)
The end result of all of this syntactic sugar is a compact bit of code that is easy to read and error check. You can see why I like Scala so much, especially compared to the verbosity of my (not purposefully obfuscated) Java solution!
All the code for my Daily Coding Problems solutions is available at github.com/awwsmm/daily.
Suggestions? Let me know in the comments.
If you enjoyed this post, please consider supporting my work by buying me a coffee!
Posted on March 6, 2020
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