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
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
Can you add them without reversing the linked lists 


Pseudocode: 


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 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) 


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:
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.



1.First traverse the two lists and find the lengths of the two lists(Let m,n be the lengths). 2.Traverse nm 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:
4.Now you need to add the remaining nm 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. 


Here is a pseudo code.






Final version (no list reversal, no recursion):



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






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 :



We can add them by using recursion. Assume the question is defined as follows: we have lists



/* spoiler: just plain recursion will do */


