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

`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