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An array Arr ( size n ) can represent doubly linked list. [ Say the cells have struct { int val, next, prev; } ]

I have two lists A and B stored in the array. A has m nodes and B has n - m nodes.

These nodes being scattered, I want to rearrange them such that all nodes of A are from Arr[0] .. Arr[m-1] and rest are filled by nodes of B, in O(m) time.

The solution that occurs to me is to :

  • Iterate A till a node occurs which is placed beyond Arr[m-1]
  • then, iterate B till a node occurs which is placed before Arr[m]
  • swap the two ( including the manipulation of the next prev links of them and their neighbours).

However in this case the total number of iterations is O(n + m). Hence there should be a better answer.

P.S: This question occurs in Introduction to Algorithms, 2nd edition. Problem 10.3-5

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I do not grok, how you come to a complexity of O(n+m). Iterate A is only O(n-m) as A has only n-m elements and iterate B has O(m) as B has only m elements. So in sum your complexity is just O(n-m+m) = O(n). Btw. for m<n (which yields here) O(n+m) = O(2n) = O(n). –  flolo Aug 4 '11 at 8:48

2 Answers 2

How about iterating through list A and placing each element in Arr[0] ... Arr[m-1], obviously swapping its position with whatever was there before and updating the prev/next links as well. There will be a lot of swapping but nevertheless it will be O(m) since once you finish iterating through A (m iterations), all of its elements will be located (in order, incidentally) in the first m slots of Arr, and thus B must be located entirely in the rest of Arr.

To add some pseudocode

a := index of head of A 
for i in 0 ... m-1
    swap Arr[i], Arr[a]
    a := index of next element in A
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i think "jw013" is right but the idea needs some improvements :

by swapping your are changing the address of elements in the Arr array . so you need to be careful about that !

e.g. lets say we have Arr like :

indices: 0 1 2 3 4

        | 2 | empty | 3 | empty | 1 |   (assume the link list is like  1 -> 2 -> 3)

so Arr[4].next is 0 and Arr[0].next is 2 .

but when you swap Arr[4] and Arr[0] then Arr[0].next is 0 . which is not what we want to happen so we should consider adjusting pointers when swapping.

so the code for it is like :

 public static void compactify(int List_head , int Free , node [] array){
        int List_lenght ;
        List_lenght = find_listlenght(List_head , array);
        if(List_lenght != 0){ // if the list is not empty
            int a = List_head;
            for (int i = 0; i < List_lenght ; i++) {

                swap( array , a , i );
                a = array[i].next;

now when calling swap:

private static void swap(node[] array, int a, int i) {
        // adjust the next and prev of both array[a] and array[i]
        int next_a = array[a].next;
        int next_i = array[i].next;
        int prev_a = array[a].prev;
        int prev_i = array[i].prev;
        // if array[a] has a next adjust the array[next_a].prev to i
        if(next_a != -1)   
            array[next_a].prev = i;

        // if array[i] has a next adjust the array[next_i].prev to a
        if(next_i != -1)  
            array[next_i].prev = a;

        // like before adjust the pointers of array[prev_a] and array[prev_i] 

        if(prev_a != -1)
            array[prev_a].next = i;

        if(prev_i != -1)
            array[prev_i].next = a;
        node temp = array[a];
        array[a] = array[i];
        array[i] = temp;

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