I have a List of Map[Int, Int], that all have the same keys (from 1 to 20) and I'd like to merge their contents into a single Map[Int, Int].

I've read another post on stack overflow about merging maps that uses `|+|`

from the scalaz library.

I've come up with the following solution, but it seems clunky to me.

```
val defaultMap = (2 to ceiling).map((_,0)).toMap
val factors: Map[Int, Int] = (2 to ceiling). map(primeFactors(_)).
foldRight(defaultMap)(mergeMaps(_, _))
def mergeMaps(xm: Map[Int, Int], ym: Map[Int, Int]): Map[Int,Int] = {
def iter(acc: Map[Int,Int], other: Map[Int,Int], i: Int): Map[Int,Int] = {
if (other.isEmpty) acc
else iter(acc - i + (i -> math.max(acc(i), other(i))), other - i, i + 1)
}
iter(xm, ym, 2)
}
def primeFactors(number: Int): Map[Int, Int] = {
def iter(factors: Map[Int,Int], rem: Int, i: Int): Map[Int,Int] = {
if (i > number) factors
else if (rem % i == 0) iter(factors - i + (i -> (factors(i)+1)), rem / i, i)
else iter(factors, rem, i + 1)
}
iter((2 to ceiling).map((_,0)).toMap, number, 2)
}
```

Explanation: `val factors`

creates a list of maps that each represent the prime factors for the numbers from 2-20; then these 18 maps are folded into a single map containing the greatest value for each key.

## UPDATE

Using the suggestion of @folone, I end up with the following code (a definite improvement over my original version, and I don't have to change the Maps to HashMaps):

```
import scalaz._
import Scalaz._
import Tags._
/**
* Smallest Multiple
*
* 2520 is the smallest number that can be divided by each of the numbers
* from 1 to 10 without any remainder. What is the smallest positive number
* that is evenly divisible by all of the numbers from 1 to 20?
*
* User: Alexandros Bantis
* Date: 1/29/13
* Time: 8:07 PM
*/
object Problem005 {
def findSmallestMultiple(ceiling: Int): Int = {
val factors = (2 to ceiling).map(primeFactors(_).mapValues(MaxVal)).reduce(_ |+| _)
(1 /: factors.map(m => intPow(m._1, m._2)))(_ * _)
}
private def primeFactors(number: Int): Map[Int, Int] = {
def iter(factors: Map[Int,Int], rem: Int, i: Int): Map[Int,Int] = {
if (i > number) factors.filter(_._2 > 0).mapValues(MaxVal)
else if (rem % i == 0) iter(factors - i + (i -> (factors(i)+1)), rem / i, i)
else iter(factors, rem, i + 1)
}
iter((2 to number).map((_,0)).toMap, number, 2)
}
private def intPow(x: Int, y: Int): Int = {
def iter(acc: Int, rem: Int): Int = {
if (rem == 0) acc
else iter(acc * x, rem -1)
}
if (y == 0) 1 else iter(1, y)
}
}
```