# Convert iterative two sum k to functional

I have this code in Python that finds all pairs of numbers in an array that sum to k:

def two_sum_k(array, k):
seen = set()
out = set()

for v in array:
if k - v in seen:
return out

Can anyone help me convert this to Scala (in a functional style)? Also with linear complexity.

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I'm not sure this is the clearest, but folds usually do the trick:

def two_sum_k(xs: Seq[Int], k: Int) = {
xs.foldLeft((Set[Int](),Set[(Int,Int)]())){ case ((seen,out),v) =>
(seen+v, if (seen contains k-v) out+((v min k-v, v max k-v)) else out)
}._2
}
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Looks a bit complicated, but was the fastest in a short test with 10000 Elements, about 10% not suitable for building a sum. Faster than mine. –  user unknown Jan 29 '12 at 2:29

You could just filter for (k-x <= x) by only using those x as first element, which aren't bigger than k/2:

def two_sum_k (xs: List[Int], k: Int): List [(Int, Int)] =
xs.filter (x => (x <= k/2)).
filter (x => (xs contains k-x) && (xs.indexOf (x) != xs.lastIndexOf (x))).
map (x => (x, k-x)).distinct

My first filter on line 3 was just filter (x => xs contains k-x)., which failed as found in the comment by Someone Else. Now it's more complicated and doesn't find (4, 4).

scala> li
res6: List[Int] = List(2, 3, 3, 4, 5, 5)

scala> two_sum_k (li, 8)
res7: List[(Int, Int)] = List((3,5))
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This is incomplete. Given xs = (2,3,5,6) and k = 4 it returns (2,2), which it should not. –  S0rin Jan 29 '12 at 22:39
You're right. I made an improvement, tested it, tested the code of others. What do you expect for f((2, 3, 3, 4, 5, 5), 8) to be returned? 4 times (3, 5)? I guess you don't. What does the python code do? Since there are sets, I guess every combination only once. Mh. A final distinct solved the problem. –  user unknown Jan 30 '12 at 1:15
That's the trick. Cool. –  S0rin Jan 30 '12 at 9:47

This does the trick:

def two_sum_k(xs: List[Int], k: Int): List[(Int, Int)] ={
xs.map(a=>xs.map(b=>(b,a+b)).filter(_._2 == k).map(b=>(b._1,a))).flatten.collect{case (a,b)=>if(a>b){(b,a)}else{(a,b)}}.distinct
}
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This fails the basic requisite: all numbers in the answer must be contained in xs. –  Daniel C. Sobral Jan 29 '12 at 0:47

Well, a direct translation would be this:

import scala.collection.mutable

def twoSumK[T : Numeric](array: Array[T], k: T) = {
val num = implicitly[Numeric[T]]
import num._

val seen = mutable.HashSet[T]()
val out: mutable.Set[(T, T)]  = mutable.HashSet[(T, T)]()

for (v <- array) {
if (seen contains k - v) out += min(v, k - v) -> max(v, k - v)
seen += v
}

out
}

One clever way of doing it would be this:

def twoSumK[T : Numeric](array: Array[T], k: T) = {
val num = implicitly[Numeric[T]]
import num._

// One can write all the rest as a one-liner
val s1 = array.toSet
val s2 = s1 map (k -)
val s3 = s1 intersect s2

s3 map (v => min(v, k - v) -> max(v, k - v))
}
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I think this is a classic case of when a for-comprehension can provide additional clarity

scala> def algo(xs: IndexedSeq[Int], target: Int) =
| for {
|   i <- 0 until xs.length
|   j <- (i + 1) until xs.length if xs(i) + xs(j) == target
| }
| yield xs(i) -> xs(j)
algo: (xs: IndexedSeq[Int], target: Int)scala.collection.immutable.IndexedSeq[(Int, Int)]

Using it:

scala> algo(1 to 20, 15)
res0: scala.collection.immutable.IndexedSeq[(Int, Int)] = Vector((1,14), (2,13), (3,12), (4,11), (5,10), (6,9), (7,8))

I think it also doesn't suffer from the problems that your algorithm has

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This have a worse big-oh than the python solution, assuming a HashSet. –  Daniel C. Sobral Jan 28 '12 at 14:04
Yes - I'm sure there are more efficient solutions –  oxbow_lakes Jan 28 '12 at 15:19
what do you think of my solution? –  axaluss Jan 28 '12 at 20:28
"user unknown" posted a good solution –  axaluss Jan 29 '12 at 1:17
def twoSumK(xs: List[Int], k: Int): List[(Int, Int)] = {
val tuples = xs.iterator map { x => (x, k-x) }
val potentialValues = tuples map { case (a, b) => (a min b) -> (a max b) }
val values = potentialValues filter { xs contains _._2 }
values.toSet.toList
}
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