I would like to share how i thought the solution... i saw the solution that involves recursion and they are pretty amazing, is the outcome of well functional and modular thinking. I really appreciate the sharing.

I would like to add that recursion won't work for big lits, the stack calls will overflow; so i decided to try the iterative approach... and this is what i get.

The code is pretty self explanatory, i added some inline comments to try to assure this.

If you don't get it, please notify me and i will improve the readability (perhaps i am having a misleading interpretation of my own code).

```
import java.util.Random;
public class Solution {
public static class Node<T extends Comparable<? super T>> implements Comparable<Node<T>> {
T data;
Node next;
@Override
public int compareTo(Node<T> otherNode) {
return data.compareTo(otherNode.data);
}
@Override
public String toString() {
return ((data != null) ? data.toString() + ((next != null) ? "," + next.toString() : "") : "null");
}
}
public static Node merge(Node firstLeft, Node firstRight) {
combine(firstLeft, firstRight);
return Comparision.perform(firstLeft, firstRight).min;
}
private static void combine(Node leftNode, Node rightNode) {
while (leftNode != null && rightNode != null) {
// get comparision data about "current pair of nodes being analized".
Comparision comparision = Comparision.perform(leftNode, rightNode);
// stores references to the next nodes
Node nextLeft = leftNode.next;
Node nextRight = rightNode.next;
// set the "next node" of the "minor node" between the "current pair of nodes being analized"...
// ...to be equals the minor node between the "major node" and "the next one of the minor node" of the former comparision.
comparision.min.next = Comparision.perform(comparision.max, comparision.min.next).min;
if (comparision.min == leftNode) {
leftNode = nextLeft;
} else {
rightNode = nextRight;
}
}
}
/** Stores references to two nodes viewed as one minimum and one maximum. The static factory method populates properly the instance being build */
private static class Comparision {
private final Node min;
private final Node max;
private Comparision(Node min, Node max) {
this.min = min;
this.max = max;
}
private static Comparision perform(Node a, Node b) {
Node min, max;
if (a != null && b != null) {
int comparision = a.compareTo(b);
if (comparision <= 0) {
min = a;
max = b;
} else {
min = b;
max = a;
}
} else {
max = null;
min = (a != null) ? a : b;
}
return new Comparision(min, max);
}
}
// Test example....
public static void main(String args[]) {
Node firstLeft = buildList(20);
Node firstRight = buildList(40);
Node firstBoth = merge(firstLeft, firstRight);
System.out.println(firstBoth);
}
// someone need to write something like this i guess...
public static Node buildList(int size) {
Random r = new Random();
Node<Integer> first = new Node<>();
first.data = 0;
first.next = null;
Node<Integer> current = first;
Integer last = first.data;
for (int i = 1; i < size; i++) {
Node<Integer> node = new Node<>();
node.data = last + r.nextInt(5);
last = node.data;
node.next = null;
current.next = node;
current = node;
}
return first;
}
```

}