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Suppose you have 2 big numbers represented as linked lists, how do you add them and store the result in a separate linked list. eg

a = 2 -> 1 -> 7 
b = 3 -> 4
result = 2 -> 5 -> 1

Can you add them without reversing the linked lists

share|improve this question
10  
Yes, store them in the little-endian order in the first place. –  n.m. Sep 3 '11 at 15:43
3  
Using a recursive method/stack is considered reversing the linked list I assume? –  dcn Sep 3 '11 at 15:45
    
is requested the algo to have a linear running time? –  Simone Sep 3 '11 at 15:58
    
@usercccd please give us more information on the problem. What kind of linked list is it? Do we have the size? What is the requested efficiency? –  Chad La Guardia Sep 3 '11 at 15:59
1  
Suppose you had the two numbers represented as doubly-linked lists. Then there would be no need to reverse them. –  David Grayson Sep 3 '11 at 16:27

12 Answers 12

Pseudocode:
Step 1. Traverse the linked lists and push the elements in two different stacks
Step 2. Pop the top elements from both the stacks
Step 3. Add the elements (+ any carry from previous additions) and store the carry in a temp variable
Step 4. Create a node with the sum and insert it into beginning of the result list

share|improve this answer

I think this's something beyond context but can be very performance incentive for the person who originally posted this question.

So here's a recommendation:

instead of using every node as a single digit of the number, use each node to store a large number(close to the size of integer) and if the highest possible number you chose to store in each node be x(your case 9) then you can view your number as a representation in base x+1. where each digit is a number between 0 and x.

This would give you significant performance gain as the algorithm would run in O(log n) time and require the same number of nodes as against O(n) in your case , n being the number of decimal digits of the larger of two addends.

Typically for the ease of your algorithm, you can choose a power of 10 as the base which fits in the range of your integer.

For example if your number be 1234567890987654321 and you want to store it in linked list choosing the base to be 10^8 then your representation should look like:

87654321-> 4567890 -> 123(little endian)

share|improve this answer

Here's my hacky attempt in Java that runs in about O(max(len(a),len(b))). I've provided a complete sample with a very simple singly linked list implementation. It's quite late here so the code is not as nice as I'd like - sorry!

This code assumes:

  • That the length of the lists is known
  • Singly linked list
  • Dealing with integer data

It uses recursion to propagate the sums and carry for each digit, and sums left to right. The lists are never reversed - sums are performed left to right, and carry propagates up the recursive stack. It could be unrolled in an iterative solution, but I won't worry about that.

public class LinkedListSum {
    static class LLNode {
        int value;
        LLNode next;
        public LLNode(int value){
            this.value = value;
        }
        public int length(){
            LLNode node = this;
            int count = 0;
            do {
                count++;
            } while((node = node.next) != null);
            return count;
        }
        public List<Integer> toList(){
            List<Integer> res = new ArrayList<Integer>();
            LLNode node = this;
            while(node != null){
                res.add(node.value);
                node = node.next;
            }
            return res;
        }
    }

    public static void main(String[] argc){
        LLNode list_a = fromArray(new int[]{4,7,4,7});
        LLNode list_b = fromArray(new int[]{5,3,7,4,7,4});
        System.out.println("Sum: " + sum(list_a, list_b).toList());
    }

    private static LLNode fromArray(int[] arr){
        LLNode res = new LLNode(0);
        LLNode current = res;
        for(int i = 0; i < arr.length; i++){
            LLNode node = new LLNode(arr[i]);
            current.next = node;
            current = node;
        }
        return res.next;
    }

    private static LLNode sum(LLNode list_1, LLNode list_2){
        LLNode longer;
        LLNode shorter;
        if(list_1.length() >= list_2.length()){
            longer = list_1;
            shorter = list_2;
        } else {
            longer = list_2;
            shorter = list_1;
        }

        // Pad short to same length as long
        int diff = longer.length() - shorter.length();
        for(int i = 0; i < diff; i++){
            LLNode temp = new LLNode(0);
            temp.next = shorter;
            shorter = temp;
        }

        System.out.println("Longer: " + longer.toList());
        System.out.println("Shorter: " + shorter.toList());

        return sum_same_length(new LLNode(0), null, longer, shorter);
    }

    private static LLNode sum_same_length(LLNode current, LLNode previous, LLNode longerList, LLNode shorterList){
        LLNode result = current;
        if(longerList == null){
            previous.next = null;
            return result;
        }

        int sum = longerList.value + shorterList.value;
        int first_value = sum % 10;
        int first_carry = sum / 10;
        current.value = first_value;

        // Propagate the carry backwards - increase next multiple of 10 if necessary
        LLNode root = propagateCarry(current,previous,first_carry);

        current.next = new LLNode(0);
        sum_same_length(current.next, current, longerList.next, shorterList.next);

        // Propagate the carry backwards - increase next multiple of 10 if necessary:
        // The current value could have been increased during the recursive call
        int second_value = current.value % 10;
        int second_carry = current.value / 10;
        current.value = second_value;

        root = propagateCarry(current,previous,second_carry);
        if(root != null) result = root;

        return result;
    }

    // Returns the new root of the linked list if one had to be added (due to carry)
    private static LLNode propagateCarry(LLNode current, LLNode previous, int carry){
        LLNode result = null;
        if(carry != 0){
            if(previous != null){
                previous.value += carry;
            } else {
                LLNode first = new LLNode(carry);
                first.next = current;
                result = first;
            }
        }
        return result;
    }
}
share|improve this answer
    
i don't think it's legal to use recursion –  Simone Sep 3 '11 at 19:14
    
What's wrong with using recursion? It could be unrolled to use loops instead and have the same behaviour. I'm not using recursion to simulate list reversal (i.e. add from right to left). The question never mentions recursion is disallowed. –  filip-fku Sep 4 '11 at 3:48
    
ok but you're still "memorizing" in the call stack all the carrys so is like you're using an additional data structure and the question doesn't forbidden it explicitly but doesn't mention this possibility. The problem is that the OP didn't give us no additional detail –  Simone Sep 4 '11 at 9:46

1.First traverse the two lists and find the lengths of the two lists(Let m,n be the lengths).

2.Traverse n-m nodes in the longer list and set 'prt1' to the current node and 'ptr2' to beginning of the other list.

3.Now call the following recursive function with flag set to zero:

void add(node* ptr1,node* ptr2){
    if(ptr1==NULL)
        return;

    add(ptr1->next,ptr2->next);
    insertAtBegin(ptr1->data+ptr2->data+flag);
    flag=(ptr1->data+ptr2->data)%10;
}

4.Now you need to add the remaining n-m nodes at the beginning of your target list, you can do it directly using a loop. Please note that for the last element in the loop you need to add the flag returned by the add() function as there might be a carry.

If your question is without using recursion:

1.Repeat the first two steps, then create your target list initalising every elements with '0'(make sure that the length of the list is accurate).

2.Traverse the two lists along with your target list(a step behind).If you find sum of two nodes greater than 10, make the value in the target list as '1'.

3.With the above step you took care of the carry. Now in one more pass just add the two nodes modulo 10 and add this value in the corresponding node of the target list.

share|improve this answer

Here is a pseudo code.

list *add (list *l1, list *l2)
{
  node *l3, l3_old;

  while (l1 != NULL)
  {
    stack1.push (l1);
    l1 = l1->next;
  }
  while (l2 != NULL)
  {
    stack2.push (l2);
    l2 = l2->next;
  }

  l3_old = NULL;
  while (!stack1.isempty () && !stack2.isempty ()) // at least one stack is not empty
  {
    l3 = get_new_node ();
    l1 = stack1.pop ();
    l2 = stack2.pop ();
    l3->val = l1->val + l2->val;
    if (l3_old != NULL)
    {
      l3->val = l3->val + (int)l3_old/10;
      l3_old->val %= 10;
    }
    l3->next = l3_old;
    l3_old = l3;
  }
  while (!stack1.isempty ())
  {
    l1 = stack1.pop ();
    l3 = get_new_node ();
    l3->val = l1->val + (int)l3_old->val/10;
    l3_old->val %= 10;
    l3->next = l3_old;
    l3_old = l3;
  }
  while (!stack2.isempty ())
  {
    l2 = stack2.pop ();
    l3 = get_new_node ();
    l3->val = l2->val + (int)l3_old->val/10;
    l3_old->val %= 10;
    l3->next = l3_old;
    l3_old = l3;
  }
  return l3;
}
share|improve this answer
    
@downvoter: can you explain please ? –  phoxis Sep 19 '12 at 10:04
/* this baby does not reverse the list
** , it does use recursion, and it uses a scratch array */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>

struct list {
    struct list *next;
    unsigned value;
    };

unsigned recurse( char target[], struct list *lp);
struct list * grab ( char buff[], size_t len);

unsigned recurse( char target[], struct list *lp)
{
    unsigned pos;
    if (!lp) return 0;
    pos = recurse (target, lp->next);
    /* We should do a bounds check target[] here */
    target[pos] += lp->value;
    if (target[pos] >= 10) {
        target[pos+1] += target[pos] / 10;
        target[pos] %= 10;
        }
    return 1+pos;
}

struct list * grab ( char *buff, size_t len)
{
size_t idx;
struct list *ret, **hnd;

    /* Skip prefix of all zeros. */
    for (idx=len; idx--; ) {
        if (buff [idx] ) break;
        }
    if (idx >= len) return NULL;

    /* Build the result chain. Buffer has it's LSB at index=0,
    ** but we just found the MSB at index=idx.
    */
    ret = NULL; hnd = &ret;
    do {
        *hnd = malloc (sizeof **hnd);
        (*hnd)->value = buff[idx];
        (*hnd)->next = NULL;
        hnd = &(*hnd)->next;
        } while (idx--);

return ret;
}

int main (void)
{
    char array[10];
    struct list a[] = { {NULL, 2} , {NULL, 1} , {NULL, 7} };
    struct list b[] =             { {NULL, 3} , {NULL, 4} };
    struct list *result;

    a[0].next = &a[1]; a[1].next = &a[2];
    b[0].next = &b[1];

    memset(array, 0 , sizeof array );
    (void) recurse ( array, a);
    (void) recurse ( array, b);
    result = grab ( array, sizeof array );

    for ( ; result; result = result->next ) {
        printf( "-> %u" , result->value );
        }
    printf( "\n" );

return 0;
}
share|improve this answer

Final version (no list reversal, no recursion):

#include <stdio.h>
#include <stdlib.h>

struct list {
        struct list *nxt;
        unsigned val;
        };

struct list *sumlist(struct list *l, struct list *r);
int difflen(struct list *l, struct list *r);

struct list *sumlist(struct list *l, struct list *r)
{
int carry,diff;
struct list *result= NULL, **pp = &result;

        /* If the lists have different lengths,
        ** the sum will start with the prefix of the longest list
        */
for (diff = difflen(l, r); diff; diff += (diff > 0) ? -1 : 1) {
        *pp = malloc (sizeof **pp) ;
        (*pp)->nxt = NULL;
        if (diff > 0) { (*pp)->val = l->val; l= l->nxt; }
        else { (*pp)->val = r->val; r= r->nxt; }
        pp = &(*pp)->nxt ;
        }

        /* Do the summing.
        ** whenever the sum is ten or larger we increment a carry counter
        */
for (carry=0; l && r; l=l->nxt, r=r->nxt) {
        *pp = malloc (sizeof **pp) ;
        (*pp)->nxt = NULL;
        (*pp)->val = l->val + r->val;
        if ((*pp)->val > 9) carry++;
        pp = &(*pp)->nxt ;
        }

        /* While there are any carries, we will need to propagate them.
        ** Because we cannot reverse the list (or walk it backward),
        ** this has to be done iteratively.
        ** Special case: if the first digit needs a carry,
        ** we have to insert a node in front of it
        */
for (diff =0    ;carry; carry = diff) {
        struct list *tmp;
        if (result && result->val > 9) {
                tmp = malloc(sizeof *tmp);
                tmp->nxt = result;
                tmp->val = 0;
                result = tmp;
                }
        diff=0;
        for (tmp=result; tmp ; tmp= tmp->nxt) {
                if (tmp->nxt && tmp->nxt->val > 9) {
                   tmp->val += tmp->nxt->val/10;
                   tmp->nxt->val %= 10; }
                if (tmp->val > 9) diff++;
                }
        }
return result;
}

int difflen(struct list *l, struct list *r)
{
int diff;

for (diff=0; l || r; l = (l)?l->nxt:l, r = (r)?r->nxt:r ) {
        if (l && r) continue;
        if (l) diff++; else diff--;
        }
return diff;
}

int main (void)
{
        struct list one[] = { {one+1, 2} , {one+2, 6} , {NULL, 7} };
        struct list two[] = { {two+1, 7} , {two+2, 3} , {NULL, 4} };
        struct list *result;

        result = sumlist(one, two);

        for ( ; result; result = result->nxt ) {
                printf( "-> %u" , result->val );
                }
        printf( ";\n" );

return 0;
}
share|improve this answer

Here is my attempt, using the two linked lists and returning the sum as a new list using recursion.

public class SumList {

int[] a1= {7,3,2,8};
int[] a2= {4,6,8,4};
LinkedList l1= new LinkedList(a1);
LinkedList l2= new LinkedList(a2);
Node num1= l1.createList();
Node num2= l2.createList();
Node result;

public static void main(String[] args) {
    SumList sl= new SumList();
    int c= sl.sum(sl.num1, sl.num2);
    if(c>0) {
        Node temp= new Node(c);
        temp.next= sl.result;
        sl.result= temp;
    }

    while(sl.result != null){
        System.out.print(sl.result.data);
        sl.result= sl.result.next;
    }
}

int sum(Node n1, Node n2) {
    if(n1==null || n2==null)
        return 0;
    int a1= this.getSize(n1);
    int a2= this.getSize(n2);
    int carry, s= 0;
    if(a1>a2) {
        carry= sum(n1.next, n2);
        s= n1.data+carry;
    }
    else if(a2>a1) {
        carry= sum(n1, n2.next);
        s= n2.data+carry;
    }
    else {
        carry= sum(n1.next, n2.next);
        s= n1.data+n2.data+carry;
    }
    carry= s/10;
    s=s%10;

    Node temp= new Node(s);
    temp.next= result;
    result= temp;

    return carry;
}

int getSize(Node n) {
    int count =0;
    while(n!=null) {
        n=n.next;
        count++;
    }
    return count;
}
}
share|improve this answer
// A recursive program to add two linked lists

#include <stdio.h>
#include <stdlib.h>

// A linked List Node
struct node
{
int data;
struct node* next;
};

typedef struct node node;

/* A utility function to insert a node at the beginning of linked list */
void push(struct node** head_ref, int new_data)
{
/* allocate node */
struct node* new_node = (struct node*) malloc(sizeof(struct node));

/* put in the data  */
new_node->data  = new_data;

/* link the old list off the new node */
new_node->next = (*head_ref);

/* move the head to point to the new node */
(*head_ref)    = new_node;
}

/* A utility function to print linked list */
void printList(struct node *node)
{
while (node != NULL)
{
    printf("%d  ", node->data);
    node = node->next;
}
printf("\n");
}

// A utility function to swap two pointers
void swapPointer( node** a, node** b )
{
node* t = *a;
*a = *b;
*b = t;
}

/* A utility function to get size of linked list */
int getSize(struct node *node)
{
int size = 0;
while (node != NULL)
{
    node = node->next;
    size++;
}
return size;
}

// Adds two linked lists of same size represented by head1 and head2 and returns
// head of the resultant linked list. Carry is propagated while returning from
// the recursion
node* addSameSize(node* head1, node* head2, int* carry)
{
// Since the function assumes linked lists are of same size,
// check any of the two head pointers
if (head1 == NULL)
    return NULL;

int sum;

// Allocate memory for sum node of current two nodes
node* result = (node *)malloc(sizeof(node));

// Recursively add remaining nodes and get the carry
result->next = addSameSize(head1->next, head2->next, carry);

// add digits of current nodes and propagated carry
sum = head1->data + head2->data + *carry;
*carry = sum / 10;
sum = sum % 10;

// Assigne the sum to current node of resultant list
result->data = sum;

return result;
}

// This function is called after the smaller list is added to the bigger
// lists's sublist of same size.  Once the right sublist is added, the carry
// must be added toe left side of larger list to get the final result.
void addCarryToRemaining(node* head1, node* cur, int* carry, node** result)
{
int sum;

// If diff. number of nodes are not traversed, add carry
if (head1 != cur)
{
    addCarryToRemaining(head1->next, cur, carry, result);

    sum = head1->data + *carry;
    *carry = sum/10;
    sum %= 10;

    // add this node to the front of the result
    push(result, sum);
   }
}

// The main function that adds two linked lists represented by head1 and head2.
// The sum of two lists is stored in a list referred by result
void addList(node* head1, node* head2, node** result)
{
 node *cur;

// first list is empty
if (head1 == NULL)
{
    *result = head2;
    return;
}

// second list is empty
else if (head2 == NULL)
{
    *result = head1;
    return;
}

int size1 = getSize(head1);
int size2 = getSize(head2) ;

int carry = 0;

// Add same size lists
if (size1 == size2)
    *result = addSameSize(head1, head2, &carry);

else
{
    int diff = abs(size1 - size2);

    // First list should always be larger than second list.
    // If not, swap pointers
    if (size1 < size2)
        swapPointer(&head1, &head2);

    // move diff. number of nodes in first list
    for (cur = head1; diff--; cur = cur->next);

    // get addition of same size lists
    *result = addSameSize(cur, head2, &carry);

    // get addition of remaining first list and carry
    addCarryToRemaining(head1, cur, &carry, result);
}

// if some carry is still there, add a new node to the fron of
// the result list. e.g. 999 and 87
if (carry)
    push(result, carry);
}

// Driver program to test above functions  
int main()
{
node *head1 = NULL, *head2 = NULL, *result = NULL;

int arr1[] = {9, 9, 9};
int arr2[] = {1, 8};

int size1 = sizeof(arr1) / sizeof(arr1[0]);
int size2 = sizeof(arr2) / sizeof(arr2[0]);

// Create first list as 9->9->9
int i;
for (i = size1-1; i >= 0; --i)
    push(&head1, arr1[i]);

// Create second list as 1->8
for (i = size2-1; i >= 0; --i)
    push(&head2, arr2[i]);

addList(head1, head2, &result);

printList(result);

return 0;
}
share|improve this answer

without using stack ..... simply store the content of link list in array and perform addition and and then again put addition into link list

code :

#include<stdio.h>
#include<malloc.h>
typedef struct node 
{
   int value;
   struct node *next;   
}node;

int main()
{
    printf("\nEnter the number 1 : ");
    int ch;
    node *p=NULL;
    node *k=NULL;
    printf("\nEnter the number of digit  : ");
    scanf("%d",&ch);
    int i=0;
    while(ch!=i)
    {
        i++;
        node *q=NULL;
        int a=0;
        q=(node *)malloc(sizeof(node));
        printf("\nEnter value : ");
        scanf("%d",&a);
        q->value=a;
        if(p==NULL)
        {
            q->next=NULL;
            p=q;
            k=p;
        }
        else
        {
            q->next=NULL;
            p->next=q;
            p=q;    
        }
    }
    printf("\nEnter the number 2 : ");
    int ch1;
    node *p1=NULL;
    node *k1=NULL;
    int i1=0;
    printf("\nEnter the number of digit  : ");
    scanf("%d",&ch1);
    while(ch1!=i1)
    {
        i1++;
        node *q1=NULL;
        int a1=0;
        q1=(node *)malloc(sizeof(node));
        printf("\nEnter value : ");
        scanf("%d",&a1);
        q1->value=a1;
        if(p1==NULL)
        {
            q1->next=NULL;
            p1=q1;
            k1=p1;
        }
        else
        {
            q1->next=NULL;
            p1->next=q1;
            p1=q1;  
        }
    }
    printf("\n\t");
    int arr1[100];
    int arr1_ptr=0;
    while(k != NULL )
    {
        printf("%d\t",k->value);
        arr1[arr1_ptr++]=k->value;
        k=k->next;

    }
    printf("\n\t");
    int arr2[100];
    int arr2_ptr=0;

    while(k1 != NULL )
    {
        printf("%d\t",k1->value);
        arr2[arr2_ptr++]=k1->value;
        k1=k1->next;

    }
//addition logic ...    
    int result[100]={0};
    int result_ptr=0;
    int loop_ptr=0;
    int carry=0;
    arr1_ptr--;
    arr2_ptr--;
    if(arr1_ptr>arr2_ptr)
        loop_ptr=arr1_ptr+1;
    else
        loop_ptr=arr2_ptr+1;    
    for(int i = loop_ptr ; i >= 0;i--)
    {
        if(arr1_ptr >= 0 && arr2_ptr >= 0) 
        {

            if( (arr1[arr1_ptr] + arr2[arr2_ptr] + carry ) > 9 ) 
            {
                result[i]=((arr1[arr1_ptr] + arr2[arr2_ptr]+carry) % 10 );
                carry = ((arr1[arr1_ptr--] + arr2[arr2_ptr--]+carry ) / 10 )  ;
            } 
            else 
            {
                result[i]=(arr1[arr1_ptr--] + arr2[arr2_ptr--] + carry  );
                carry = 0  ;
            }
        }
        else if( !(arr1_ptr < 0 ) || !( arr2_ptr < 0 ) )
        {
            if( arr1_ptr < 0)
                result[i]=arr2[arr2_ptr--]+carry;
            else
                result[i]=arr1[arr1_ptr--]+carry;    
        }
        else
           result[i]=carry;
    }
    /*printf("\n");
    for(int i=0;i<loop_ptr+1;i++)
        printf("%d\t",result[i]);
    */  
    node *k2=NULL,*p2=NULL;
    for(int i=0;i<loop_ptr+1;i++)
    {

        node *q2=NULL;
        q2=(node *)malloc(sizeof(node));
        q2->value=result[i];
        if(p2==NULL)
        {
            q2->next=NULL;
            p2=q2;
            k2=p2;
        }
        else
        {
            q2->next=NULL;
            p2->next=q2;
            p2=q2;  
        }   


    }
    printf("\n");
    while(k2 != NULL )
    {
        printf("%d\t",k2->value);
        k2=k2->next;
    }   
    return 0;
}  
share|improve this answer

We can add them by using recursion. Assume the question is defined as follows: we have lists l1 and l2 and we want to add them by storing the result in l1. For simplicity assume that both lists have the same length (the code can be easily modified to work for different lengths). Here is my working Java solution:

private static ListNode add(ListNode l1, ListNode l2){
        if(l1 == null)
            return l2;
        if(l2 == null)
            return l1;
        int[] carry = new int[1];
        add(l1, l2, carry);
        if(carry[0] != 0){
            ListNode newHead = new ListNode(carry[0]);
            newHead.next = l1;
            return newHead;
        }
        return l1;
    }
    private static void add(ListNode l1, ListNode l2, int[] carry) {
        if(l1.next == null && l2.next == null){
            carry[0] = l1.val + l2.val;
            l1.val = carry[0]%10;
            carry[0] /= 10;
            return;
        }
        add(l1.next, l2.next, carry);
        carry[0] += l1.val + l2.val;
        l1.val = carry[0]%10;
        carry[0] /= 10;
    }
share|improve this answer

/* spoiler: just plain recursion will do */

#include <stdio.h>

struct list {
    struct list *next;
    unsigned value;
    };
struct list a[] = { {NULL, 2} , {NULL, 1} , {NULL, 7} };
struct list b[] = { {NULL, 3} , {NULL, 4} };

unsigned recurse( unsigned * target, struct list *lp);
unsigned recurse( unsigned * target, struct list *lp)
{
    unsigned fact;
    if (!lp) return 1;
    fact = recurse (target, lp->next);

    *target += fact * lp->value;
    return 10*fact;
}

int main (void)
{
    unsigned result=0;

    /* set up the links */
    a[0].next = &a[1];
    a[1].next = &a[2];
    b[0].next = &b[1];

    (void) recurse ( &result, a);
    (void) recurse ( &result, b);

    printf( "Result = %u\n" , result );

return 0;
}
share|improve this answer
    
recursion it's equivalent to use a stack and to reverse –  Simone Sep 3 '11 at 16:13
    
i think reversing means, generating an explicit reversed one. –  phoxis Sep 3 '11 at 16:18
    
The result should be another linked list, not just an integer. –  svick Sep 3 '11 at 16:29
    
I missed that one about the result being a linked list. Sorry! For the rest, I think recursion is not explicitly forbidden. –  wildplasser Sep 3 '11 at 17:18

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