# Interview Question: Merge two sorted singly linked lists without creating new nodes

This is a programming question asked during a written test for an interview. "You have two singly linked lists that are already sorted, you have to merge them and return a the head of the new list without creating any new extra nodes. The returned list should be sorted as well"

The method signature is: Node MergeLists(Node list1, Node list2);

Node class is below:

``````class Node{
int data;
Node next;
}
``````

Here is the accompanying blog entry http://techieme.in/merging-two-sorted-singly-linked-list/

• is the last element from list1 smaller than first element from list2? – Pier-Alexandre Bouchard May 22 '12 at 17:57
• Please note: I also found a solution on stackoverflow.com/questions/2348374/merging-two-sorted-lists but this when run sticks into an infinite loop. – dharam May 22 '12 at 17:58
• @Pier: It can be anything. The two lists are individually sorted and the code must produce a third list which is sorted. – dharam May 22 '12 at 17:59
• It's because if the last element of list1 is smaller than the first element of list2, you could just change the last next node to the first list2 head node. – Pier-Alexandre Bouchard May 22 '12 at 18:01
• @Pier-alexandreBouchard That is extremely optimistic thinking about what kind of input you will get. – Hunter McMillen May 22 '12 at 18:03

``````Node MergeLists(Node list1, Node list2) {
if (list1 == null) return list2;
if (list2 == null) return list1;

if (list1.data < list2.data) {
list1.next = MergeLists(list1.next, list2);
return list1;
} else {
list2.next = MergeLists(list2.next, list1);
return list2;
}
}
``````
• Recursion on arbitrarily long lists is a recipe for a stack overflow. But I guess this is Stack Overflow. Oh, the irony! ;-) – Adrian McCarthy May 22 '12 at 20:34
• Not just for interview questions! I'm under a deadline and needed this for production code. Thanks! – Paul Chernoch Mar 5 '13 at 19:46
• Cool crisp solutions! I adapted this code to Java using generics. Code hosted here with explanation git.io/-DkBuA Test cases included in the same repository. – Amit Sharma Nov 19 '13 at 20:46
• @StefanHaustein What is the return type for this function was void? How should I modify it? – hyperfkcb Oct 31 '15 at 6:05
• @Denise I am not sure I understand the question... If you want a void function, you'll probably want keep the start node of list 1 as the start node of the result and always merge list 2 into list 1. In that case, you can swap the data field if list2.data is bigger. Then list2.data is always bigger than list1.data and you can recurse with list1.next and list2 – Stefan Haustein Oct 31 '15 at 10:54

Recursion should not be needed to avoid allocating a new node:

``````Node MergeLists(Node list1, Node list2) {
if (list1 == null) return list2;
if (list2 == null) return list1;

if (list1.data < list2.data) {
} else {
list2 = list1;
}
while(list1.next != null) {
if (list1.next.data > list2.data) {
Node tmp = list1.next;
list1.next = list2;
list2 = tmp;
}
list1 = list1.next;
}
list1.next = list2;
}
``````
• +1 - The iterative approach is almost always preferable to recursion, where permissable. – cheeken May 22 '12 at 20:52
• In an interview, you usually want to start with the cleanest / shortest / most elegant solution that meets the criteria and then improve -- in particular, if there is a risk that you may run out of time otherwise. – Stefan Haustein May 22 '12 at 23:48
• @SonDo It's the OPs prerogative to chose the accepted answer. And there isn't a thing wrong with the answer that has been chosen. If you feel this should be the the accepted answer you can vote for it. – nikhil May 26 '12 at 10:44
• what is the need of doing head = list2; list2 = list1; list1 = head; can't we just assign head = list2; – Vikram Saini Jul 26 '17 at 19:00
• I think `if (list1.next == null) list1.next = list2;` can just be `list1.next = list2;`. Since the `while (list1.next != null)` loop has just terminated we can be sure that `list1.next == null`. – John B Sep 24 '17 at 7:39
``````Node MergeLists(Node node1, Node node2)
{
if(node1 == null)
return node2;
else (node2 == null)
return node1;

if(node1.data < node2.data)
{
node1 = node1.next;
else
{
node2 = node2.next;
}

while((node1 != null) ||( node2 != null))
{
if (node1 == null) {
current.next = node2;
}
else if (node2 == null) {
current.next = node1;
}

if (node1.data < node2.data)
{
current.next = node1;
current = current.next;

node1 = node1.next;
}
else
{
current.next = node2;
current = current.next;

node2 = node2.next;
}
}
current.next = NULL // needed to complete the tail of the merged list

}
``````
• while loop should be execute on "or" condition – Shahjahan Khan Sep 2 '15 at 12:57

Here is the algorithm on how to merge two sorted linked lists A and B:

``````while A not empty or B not empty:
if first element of A < first element of B:
remove first element from A
insert element into C
end if
else:
remove first element from B
insert element into C
end while
``````

Here C will be the output list.

• THis is only possible if you are creating a new node. The question restricts the creation of new nodes. – dharam May 23 '12 at 6:22
• you need to check null as it could be that A or B will be empty. Another way to do it is to to loop until A not empty and B not empty – Dejell Dec 31 '13 at 16:31

Look ma, no recursion!

``````struct llist * llist_merge(struct llist *one, struct llist *two, int (*cmp)(struct llist *l, struct llist *r) )
{
struct llist *result, **tail;

for (result=NULL, tail = &result; one && two; tail = &(*tail)->next ) {
if (cmp(one,two) <=0) { *tail = one; one=one->next; }
else { *tail = two; two=two->next; }
}
*tail = one ? one: two;
return result;
}
``````

Iteration can be done as below. Complexity = O(n)

``````public static LLNode mergeSortedListIteration(LLNode nodeA, LLNode nodeB) {
LLNode mergedNode ;
LLNode tempNode ;

if (nodeA == null) {
return nodeB;
}
if (nodeB == null) {
return nodeA;
}

if ( nodeA.getData() < nodeB.getData())
{
mergedNode = nodeA;
nodeA = nodeA.getNext();
}
else
{
mergedNode = nodeB;
nodeB = nodeB.getNext();
}

tempNode = mergedNode;

while (nodeA != null && nodeB != null)
{

if ( nodeA.getData() < nodeB.getData())
{
mergedNode.setNext(nodeA);
nodeA = nodeA.getNext();
}
else
{
mergedNode.setNext(nodeB);
nodeB = nodeB.getNext();
}
mergedNode = mergedNode.getNext();
}

if (nodeA != null)
{
mergedNode.setNext(nodeA);
}

if (nodeB != null)
{
mergedNode.setNext(nodeB);
}
return tempNode;
}
``````
``````Node mergeList(Node h1, Node h2) {
if (h1 == null) return h2;
if (h2 == null) return h1;
if (h1.data < h2.data) {
} else {
h2 = h1;
}

while (h1.next != null && h2 != null) {
if (h1.next.data < h2.data) {
h1 = h1.next;
} else {
Node afterh2 = h2.next;
Node afterh1 = h1.next;
h1.next = h2;
h2.next = afterh1;

if (h2.next != null) {
h2 = afterh2;
}
}
}
}
``````

This could be done without creating the extra node, with just an another Node reference passing to the parameters (Node temp).

``````private static Node mergeTwoLists(Node nodeList1, Node nodeList2, Node temp) {
if(nodeList1 == null) return nodeList2;
if(nodeList2 == null) return nodeList1;

if(nodeList1.data <= nodeList2.data){
temp = nodeList1;
temp.next = mergeTwoLists(nodeList1.next, nodeList2, temp);
}
else{
temp = nodeList2;
temp.next = mergeTwoLists(nodeList1, nodeList2.next, temp);
}
return temp;
}
``````

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;
}
``````

}

A simple iterative solution.

``````Node* MergeLists(Node* A, Node* B)
{
//handling the corner cases

//if both lists are empty
if(!A && !B)
{
cout << "List is empty" << endl;
return 0;
}
//either of list is empty
else if(!A) return B;
else if(!B) return A;
else
{
Node* previous = NULL;//this will act as the

/* In this algorithm we will keep the
previous pointer that will point to the last node of the output list.
And, as given we have A & B as pointer to the given lists.

The algorithm will keep on going untill either one of the list become empty.
Inside of the while loop, it will divide the algorithm in two parts:
- First, if the head of the output list is not obtained yet
- Second, if head is already there then we will just compare the values and keep appending to the 'previous' pointer.
When one of the list become empty we will append the other 'left over' list to the output list.
*/
while(A && B)
{
{
if(A->data <= B->data)
{
previous = A; //initializing previous
A = A->next;
}
else
{
previous = B;//initializing previous
B = B->next;
}
}
{
if(A->data <= B->data)
{
if(previous->next != A)
previous->next = A;
A = A->next;//Moved A forward but keeping B at the same position
}
else
{
if(previous->next != B)
previous->next = B;
B = B->next; //Moved B forward but keeping A at the same position
}
previous = previous->next;//Moving the Output list pointer forward
}
}
//at the end either one of the list would finish
//and we have to append the other list to the output list
if(!A)
previous->next = B;

if(!B)
previous->next = A;

}
}
``````

I show below an iterative solution. A recursive solution would be more compact, but since we don't know the length of the lists, recursion runs the risk of stack overflow.

The basic idea is similar to the merge step in merge sort; we keep a pointer corresponding to each input list; at each iteration, we advance the pointer corresponding to the smaller element. However, there's one crucial difference where most people get tripped. In merge sort, since we use a result array, the next position to insert is always the index of the result array. For a linked list, we need to keep a pointer to the last element of the sorted list. The pointer may jump around from one input list to another depending on which one has the smaller element for the current iteration.

With that, the following code should be self-explanatory.

``````public ListNode mergeTwoLists(ListNode l1, ListNode l2) {
if (l1 == null) {
return l2;
}
if (l2 == null) {
return l1;
}
ListNode first = l1;
ListNode second = l2;
ListNode last = null;

while (first != null && second != null) {
if (first.val < second.val) {
if (last != null) {
last.next = first;
}
last = first;
first = first.next;
} else {
if (last != null) {
last.next = second;
}
last = second;
second = second.next;
}
}
}

if (first == null) {
last.next = second;
}
if (second == null) {
last.next = first;
}

}
``````

First of all understand the mean of "without creating any new extra nodes", As I understand it does not mean that I can not have pointer(s) which points to an existing node(s).

You can not achieve it without talking pointers to existing nodes, even if you use recursion to achieve the same, system will create pointers for you as call stacks. It is just like telling system to add pointers which you have avoided in your code.

Simple function to achieve the same with taking extra pointers:

``````typedef struct _LLNode{
int             value;
struct _LLNode* next;
}LLNode;

LLNode* CombineSortedLists(LLNode* a,LLNode* b){
if(NULL == a){
return b;
}
if(NULL == b){
return a;
}
LLNode* root  = NULL;
if(a->value < b->value){
root = a;
a = a->next;
}
else{
root = b;
b    = b->next;
}
LLNode* curr  = root;
while(1){
if(a->value < b->value){
curr->next = a;
curr = a;
a=a->next;
if(NULL == a){
curr->next = b;
break;
}
}
else{
curr->next = b;
curr = b;
b=b->next;
if(NULL == b){
curr->next = a;
break;
}
}
}
return root;
}
``````
``````Node * merge_sort(Node *a, Node *b){
Node *result = NULL;
if(a ==  NULL)
return b;
else if(b == NULL)
return a;

/* For the first node, we would set the result to either a or b */
if(a->data <= b->data){
result = a;
/* Result's next will point to smaller one in lists
starting at a->next  and b */
result->next = merge_sort(a->next,b);
}
else {
result = b;
/*Result's next will point to smaller one in lists
starting at a and b->next */
result->next = merge_sort(a,b->next);
}
return result;
}
``````

``````Node MergeLists(Node list1, Node list2) {
//if list is null return other list
if(list1 == null)
{
return list2;
}
else if(list2 == null)
{
return list1;
}
else
{
//Take head pointer to the node which has smaller first data node
if(list1.data < list2.data)
{
list1 = list1.next;
}
else
{
list2 = list2.next;
}
//loop till both list are not pointing to null
while(list1 != null || list2 != null)
{
//if list1 is null, point rest of list2 by current pointer
if(list1 == null){
current.next = list2;
}
//if list2 is null, point rest of list1 by current pointer
else if(list2 == null){
current.next = list1;
}
//compare if list1 node data is smaller than list2 node data, list1 node will be
//pointed by current pointer
else if(list1.data < list2.data)
{
current.next = list1;
current = current.next;
list1 = list1.next;
}
else
{
current.next = list2;
current = current.next;
list2 = list2.next;
}
}
}
}
``````

Here is a complete working example that uses the linked list implemented java.util. You can just copy paste the code below inside a main() method.

``````        LinkedList<Integer> dList1 = new LinkedList<Integer>();

int i = 0;
int y = 0;
int dList1Size = dList1.size();
int dList2Size = dList2.size();
int list1Item = dList1.get(i);
int list2Item = dList2.get(y);
while (i < dList1Size || y < dList2Size) {

if (i < dList1Size) {

if (list1Item <= list2Item || y >= dList2Size) {
i++;
if (i < dList1Size) {
list1Item = dList1.get(i);
}
}
}

if (y < dList2Size) {

if (list2Item <= list1Item || i >= dList1Size) {
y++;
if (y < dList2Size) {
list2Item = dList2.get(y);
}
}
}

}

for(int x:dListMerged)
{
System.out.println(x);
}
``````

`````` MergeList(Node nodeA, Node nodeB ){
if(nodeA==null){return nodeB};
if(nodeB==null){return nodeA};

if(nodeB.data<nodeA.data){
Node returnNode = MergeNode(nodeA,nodeB.next);
nodeB.next = returnNode;
retturn nodeB;
}else{
Node returnNode = MergeNode(nodeA.next,nodeB);
nodeA.next=returnNode;
return nodeA;
}
``````

Consider below linked list to visualize this

`2>4` list A `1>3` list B

Almost same answer(non recursive) as Stefan but with little more comments/meaningful variable name. Also covered double linked list in comments if someone is interested

Consider the example

`5->10->15>21 // List1`

`2->3->6->20 //List2`

``````Node MergeLists(List list1, List list2) {
if (list1 == null) return list2;
if (list2 == null) return list1;

listB =list2; // loop over this list as its head is smaller
listA =list1;
} else {
listA =list2; // loop over this list
listB =list1;
}

while(listB.currentNode!=null){

if(listB.currentNode.data<listA.currentNode.data){
Node insertFromNode = listB.currentNode.prev;
Node startingNode = listA.currentNode;
Node temp = inserFromNode.next;
inserFromNode.next = startingNode;
startingNode.next=temp;

startingNode.next.prev= startingNode; // for doubly linked list
startingNode.prev=inserFromNode;  // for doubly linked list

listB.currentNode= listB.currentNode.next;
listA.currentNode= listA.currentNode.next;

}
else
{
listB.currentNode= listB.currentNode.next;

}

}
``````

My take on the question is as below:

Pseudocode:

``````Compare the two heads A and B.
If A <= B, then add A and move the head of A to the next node.
Similarly, if B < A, then add B and move the head of B to the next node B.
If both A and B are NULL then stop and return.
If either of them is NULL, then traverse the non null head till it becomes NULL.
``````

Code:

``````public Node mergeLists(Node headA, Node headB) {
Node merge = null;
// If we have reached the end, then stop.
// if B is null then keep appending A, else check if value of A is lesser or equal than B
// Add the new node, handle addition separately in a new method.
// Since A is <= B, Move head of A to next node
// if A is null then keep appending B, else check if value of B is lesser than A
// Add the new node, handle addition separately in a new method.
// Since B is < A, Move head of B to next node
}
}
return merge;
}

Node end = new Node(data);
return end;
}

while (curr.next != null) {
curr = curr.next;
}

curr.next = end;
}
``````
``````        /* Simple/Elegant Iterative approach in Java*/
if (list1.size == 0)
return list2;
if (list2.size == 0)
return list1;
mergeList.insert(data);
} else {
mergeList.insert(data);
}
}
mergeList.insert(data);
}
mergeList.insert(data);
}
return mergeList;
}

/* Build-In singly LinkedList class in Java*/
Node start;
int size = 0;

void insert(int data) {
if (start == null)
start = new Node(data);
else {
Node temp = start;
while (temp.getNext() != null) {
temp = temp.getNext();
}
temp.setNext(new Node(data));
}
size++;
}

@Override
public String toString() {

String str = "";
Node temp=start;
while (temp != null) {
str += temp.getData() + "-->";
temp = temp.getNext();
}
return str;
}

}
``````
``````LLNode *mergeSorted(LLNode *h1, LLNode *h2)
{
LLNode *h3=NULL;
LLNode *h3l;
if(h1==NULL && h2==NULL)
return NULL;
if(h1==NULL)
return h2;
if(h2==NULL)
return h1;
if(h1->data<h2->data)
{
h3=h1;
h1=h1->next;
}
else
{
h3=h2;
h2=h2->next;
}
LLNode *oh=h3;
while(h1!=NULL && h2!=NULL)
{
if(h1->data<h2->data)
{
h3->next=h1;
h3=h3->next;
h1=h1->next;
}
else
{
h3->next=h2;
h3=h3->next;
h2=h2->next;
}
}
if(h1==NULL)
h3->next=h2;
if(h2==NULL)
h3->next=h1;
return oh;
}
``````
``````// Common code for insert at the end
private void insertEnd(int data) {
Node newNode = new Node(data);
return;
}
Node tempNode = tail;
tempNode.next = newNode;
tail = newNode;
}

private void mergerTwoSortedListInAscOrder(Node tempNode1, Node tempNode2) {

if (tempNode1 == null && tempNode2 == null)
return;
if (tempNode1 == null) {
return;
}
if (tempNode2 == null) {
return;
}

while (tempNode1 != null && tempNode2 != null) {

if (tempNode1.mData < tempNode2.mData) {
tempNode1 = tempNode1.next;
} else if (tempNode1.mData > tempNode2.mData) {
tempNode2 = tempNode2.next;
} else {
tempNode1 = tempNode1.next;
tempNode2 = tempNode2.next;
}

}
if (tempNode1 != null) {
while (tempNode1 != null) {
tempNode1 = tempNode1.next;
}
}
if (tempNode2 != null) {
while (tempNode2 != null) {
tempNode2 = tempNode2.next;
}
}
}
``````

:)GlbMP

``````public static Node merge(Node h1, Node h2) {

Node h3 = new Node(0);
Node current = h3;

boolean isH1Left = false;
boolean isH2Left = false;

while (h1 != null || h2 != null) {
if (h1.data <= h2.data) {
current.next = h1;
h1 = h1.next;
} else {
current.next = h2;
h2 = h2.next;
}
current = current.next;

if (h2 == null && h1 != null) {
isH1Left = true;
break;
}

if (h1 == null && h2 != null) {
isH2Left = true;
break;
}
}

if (isH1Left) {
while (h1 != null) {
current.next = h1;
current = current.next;
h1 = h1.next;
}
}

if (isH2Left) {
while (h2 != null) {
current.next = h2;
current = current.next;
h2 = h2.next;
}
}

h3 = h3.next;

return h3;
}
``````
• no recursion and no extra objects created. Just a few extra references. – Cong Wang Oct 28 '12 at 4:04

I created only one dummy node at the beginning to save myself many 'if' conditions.

``````    public ListNode mergeTwoLists(ListNode l1, ListNode l2) {

ListNode list1Cursor = l1;
ListNode list2Cursor = l2;

ListNode currentNode = new ListNode(-1); // Dummy node

while (list1Cursor != null && list2Cursor != null)
{
if (list1Cursor.val < list2Cursor.val) {
currentNode.next = list1Cursor;
list1Cursor = list1Cursor.next;
currentNode = currentNode.next;
} else {
currentNode.next = list2Cursor;
list2Cursor = list2Cursor.next;
currentNode = currentNode.next;
}
}

// Complete the rest
while (list1Cursor != null) {
currentNode.next = list1Cursor;
currentNode = currentNode.next;
list1Cursor = list1Cursor.next;
}
while (list2Cursor != null) {
currentNode.next = list2Cursor;
currentNode = currentNode.next;
list2Cursor = list2Cursor.next;
}

}

``````
``````private static Node mergeLists(Node L1, Node L2) {

Node P1 = L1.val < L2.val ? L1 : L2;
Node P2 = L1.val < L2.val ? L2 : L1;
Node tempNode = null;

while (P1 != null && P2 != null) {
if (P1.next != null && P1.next.val >P2.val) {
tempNode = P1.next;
P1.next = P2;
P1 = P2;
P2 = tempNode;
} else if(P1.next != null)
P1 = P1.next;
else {
P1.next = P2;
break;
}
}

}
``````
``````void printLL(){
if(cur.getNext() == null){
System.out.println("LL is emplty");
}else{
//System.out.println("printing Node");
while(cur.getNext() != null){
cur = cur.getNext();
System.out.print(cur.getData()+ " ");

}
}
System.out.println();
}

void mergeSortedList(NodeLL node1, NodeLL node2){
NodeLL cur1 = node1.getNext();
NodeLL cur2 = node2.getNext();

if(cur1 == null){
cur = node2;
}

if(cur2 == null){
cur = node1;
}
while(cur1 != null && cur2 != null){

if(cur1.getData() <= cur2.getData()){
cur.setNext(cur1);
cur1 = cur1.getNext();
}
else{
cur.setNext(cur2);
cur2 = cur2.getNext();
}
cur = cur.getNext();
}
while(cur1 != null){
cur.setNext(cur1);
cur1 = cur1.getNext();
cur = cur.getNext();
}
while(cur2 != null){
cur.setNext(cur2);
cur2 = cur2.getNext();
cur = cur.getNext();
}
printLL();
}
``````
• Above code will merge two singly sorted linked list. – sanjay Mar 21 '16 at 18:54

``````Node* MergeLists1(Node *headA, Node* headB)
{
Node *result = NULL;
Node *pp = NULL;
Node *qq = NULL;
int value1 = 0;
int value2 = 0;
{
return NULL;
}
{
}
{
}
else
{
while((p != NULL) || (q != NULL))
{
if((p != NULL) && (q != NULL))
{
int value1 = p->data;
int value2 = q->data;
if(value1 <= value2)
{
pp = p->next;
p->next = NULL;
if(result == NULL)
{
}
else
{
result->next = p;
result = p;
}
p = pp;
}
else
{
qq = q->next;
q->next = NULL;
if(result == NULL)
{
}
else
{
result->next = q;
result = q;
}
q = qq;
}
}
else
{
if(p != NULL)
{
pp = p->next;
p->next = NULL;
result->next = p;
result = p;
p = pp;
}
if(q != NULL)
{
qq = q->next;
q->next = NULL;
result->next = q;
result = q;
q = qq;
}
}
}
}