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I have an integer linked list of which both first half and second half are sorted independently.Now i need to merge two parts to create one single sorted linked list.

Sample input:

Input List 1: 1->2->3->4->5->1->2
Output : 1->1->2->2->3->4->5

Input List 2: 1->5->7->9->11->2->4->6
Output 2: 1->2->4->5->6->7->9->11

Expected output:


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The expected final output is 1,2,3? Why is that? – jogojapan Nov 7 '12 at 7:46
Naively this is the same as sorting an initially unsorted list, for which there are a number of common solutions. – Chris Nov 7 '12 at 7:47
sorry i edited it – Raaj Mayukh Nov 7 '12 at 7:49
Does your linked-list implementation provide an iterator interface and begin() and end() style functions? In that case you can use the std::merge algorithm: – jogojapan Nov 7 '12 at 7:50
@billz The expected output is still not really clear. I assumed it's 1,1,1,2,2,2,3,4,4,5,5,6,7,9,11. But perhaps it is 1,2,4,5, in which case we need an intersection algorithm. – jogojapan Nov 7 '12 at 7:53

4 Answers 4

up vote 2 down vote accepted

This is merge sort.

I will maintain two pointers:

ptr1 points to the first half's first element

and ptr2 points to the second half's first element.

you will need an extra array to store the final list, of course you can choose not to use this extra array, but that discussion is far away from the topic.

1, Compare *ptr1 and *ptr2, if *ptr1's value is smaller than *ptr2, then copy that value(i.e. *ptr1) to the final array, and let ptr1 move forward.

if ptr2's value is the smaller one, just copy *ptr2 and let ptr2 move forward

2, Stop when the pointer points after the last element, say if you have 5 elements in the first half a[0] a[1] a[2] a[3] a[4], then you should stop when the pointer points to a[5]

3, If the first half is empty, then copy the rest of the second half, vice versa.

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The particular step is called merge which joins two already sorted lists/arrays in O(n). He would probably not need a new list. Instead of copying elements you can always swap pointers – fayyazkl Nov 7 '12 at 7:58
Oh yeap, he said he has one big list which first half and second half is sorted, I'm saying the steps for two separated lists. – shengy Nov 7 '12 at 8:10
That's the point. If both of them are actual link lists (and not arrays) it doesn't matter. – fayyazkl Nov 7 '12 at 8:14

This is called merge sort.

Look here and here for implemetation details.

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Look for natural merge sort for optimal solution:

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I have done that countless time when using functional languages, so I guess I can give you a short explanation.

It's easier to grasp the idea if you think of it as a recursive process, but I'll give you the imperative one. You start off with both your partial lists, and an empty sorted list.

Then you start your loop, your partial lists can be seen as:

  • both empty, in which case your processing is done,
  • one of them empty, you append the other to your sorted list,
  • a couple of head elements and the tails of the lists, where you will compare both heads, add the smallest to your sorted list, leave the other one in its original place, then loop with your remaining lists.

Once out of the loop you just return the sorted list.

There's one caveat though: if you are using simple linked lists, you'll get better running time by adding the elements in front of the sorted list, and reverse it at the end before returning it.

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damn, typing that on a smartphone sucks. :) – didierc Nov 7 '12 at 8:08
That's because you can't just recursively type the first character and then the rest; you need an algorithm with explicit backtracking. :) – abarnert Nov 7 '12 at 8:10

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