# The functional way to do “max” (with recursion / without mutable vars)

Finding a max in an unsorted array with imperative code is quite straight forward

e.g. in Java (I'm sure it can be written better, only used for illustration purposes)

``````public class Main {
public static void main(String[] args) {
int[] array = {1,3,5,4,2};
int max = findMax(array);
System.out.println(max);
}

public static int findMax(int[] array){
int max = Integer.MIN_VALUE; //or array[0], but it requires a null check and I want to keep it simple :)
for (int i = 0, size = array.length; i < size ; i++) {
int current = array[i];
if(current > max) max = current;
}
return max;
}
}
``````

What is the functional way of doing it? e.g.

• without mutable variables (e.g. make max be a `val` in Scala / `final` in Java)
• without looping (e.g. use recursion, tail preferred)

In Scala's sources I saw it was done using recudeLeft, which seems quite clever

``````  def max[B >: A](implicit cmp: Ordering[B]): A = {
if (isEmpty)
throw new UnsupportedOperationException("empty.max")

reduceLeft((x, y) => if (cmp.gteq(x, y)) x else y)
}
``````

But let's say I don't have (for some reason) reduce / reduceLeft available / implemented (And I don't want / can't implement it for some reason, i.e. I'm working with plain Java)

What is the "idiomatic" functional way to do a max without relying on other functional methods (e.g. how would I implement it in bare bones Java for example, but with the functional paradigm in mind)

Answers can be with any language (Java / Scala preferred though)

-

This is a tail call recursion implementation with accumulator for the max value.

``````public class Main {

public static void main(String[] args) {
System.out.println(max(new int[]{6, 3, 9, 4}));
}

public static int max(int[] ints) {
return max(ints, Integer.MIN_VALUE);
}

public static int max(int[] ints, int max) {
if (ints.length == 0) {
return max;
} else {
return max(Arrays.copyOfRange(ints, 1, ints.length), ints[0] > max ? ints[0] : max);
}
}

}
``````
-
I would make the max of an empty list to be an error instead of `Integer.MIN_VALUE`, like in the Scala version with reduce. –  ataylor Apr 22 '13 at 22:08
@ataylor I agree but this code snippet was more of an illustration than a production ready deliverable. –  maba Apr 22 '13 at 22:14
Thanks! my eyes has been closed so far :) p.s. amazing how this is so much smaller in Scala (based on your answer): `def max(list: List[Int]) = { maxAcc(list, Int.MinValue) } def maxAcc(list: List[Int], curMax:Int):Int = { list match { case Nil => curMax case head :: tail => maxAcc(tail, if (head > curMax ) head else curMax ) } }` –  Eran Medan Apr 22 '13 at 22:15
@Eran Don't forget to annotate with @tailrec in scala. –  maba Apr 22 '13 at 22:21
Thanks, posted it as an answer if you don't mind in case someone will be interested –  Eran Medan Apr 22 '13 at 22:26

You can do it with a plain recursion but maba's tail recursion version should have a better performance.

``````import java.util.Arrays;
public class TestMax {
public static int findMax(int[] array) {
if(array.length == 1)
return array[0];
int[] newArray = Arrays.copyOfRange(array, 1, array.length);
if(array[0] > findMax(newArray))
return array[0];
else
return findMax(newArray);
}
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
int[] array = {1,3,5,4,2, 9};
int max = findMax(array);
System.out.println(max);
}
}
``````
-

Based on maba's excellent answer here is the Scala version if anyone was interested

``````  def max(list: List[Int]) = {
maxAcc(list, Int.MinValue)
}

def maxAcc(list: List[Int], curMax:Int):Int = {
list match {
case Nil => curMax
case head :: tail => maxAcc(tail, if (head > curMax ) head else curMax )
}
}
``````

Edit: thanks to maba's comment on @tailrec - here is the modified version

`````` def max(list: List[Int]) = {
@tailrec def maxAcc(list: List[Int], curMax: Int): Int = {
list match {
case Nil => curMax
case head :: tail => maxAcc(tail, if (head > curMax) head else curMax)
}
}
maxAcc(list, Int.MinValue)
}
``````
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