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Given two unsorted single linked list of size M and N. The task is to create a single sorted linked list. No new nodes should be created. I have thought of two approaches.

Approach 1:

Sort each list individually in MlogM and NlogN. Then merge two sorted lists.
Time complexity: O( MlogM + NlogN )

Approach 2:

Attach the second list to the end of first list. Then sort the list.
Time Complexity: O( (M + N) log(M + N) )

Which approach is better?
Is there still any better approach?

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up vote 4 down vote accepted

Asymptotically speaking - it is the same.

if n<m then:

O(nlogn+ mlogm) = O(mlogm)
O(n+m)log(n+m)) = O(nlog(n+m) + mlog(n+m)) = O(nlog(m) + mlog(m)) = O(mlogm)

Symetrically, if m<n both are O(nlogn)

In fact, for n=m, approach 1 is the first step of merge sort

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Yet in terms of implementation the second approach is better. It requires one call to a sort function, while the first approach would require both a sort and a merge subroutine. – Dmitri Chubarov Sep 5 '12 at 17:21
@DmitriChubarov: I agree, but note that ff you are going for mergesort - you are going to have implementing merge() anyway... – amit Sep 5 '12 at 17:25
In terms of multicore processing, the first method is easier to parallelize (trivially, you can sort() the two lists in parallel) – CAFxX Sep 5 '12 at 18:57

In any case, approch 1 is the good. See this calculations, if

  • n=2 and m=3 nlogn = 0.60, mlogm = 1.43, nlogn + mlogm = 2.03 while (n+m)log(n+m) = 3.49

  • n=2 and m=30 nlogn = 0.60, mlogm = 44.31, nlogn + mlogm = 44.91 while (n+m)log(n+m) = 48.16

  • n=2 and m=300 nlogn = 0.60, mlogm = 743.14, nlogn + mlogm = 743.74
    while (n+m)log(n+m) = 748.96

  • n=2 and m=3000 nlogn = 0.60, mlogm = 10,431.36, nlogn + mlogm =
    10,431.96 while (n+m)log(n+m) = 10,439.18

  • n=2 and m=30000 nlogn = 0.60, mlogm = 134,313.64, nlogn + mlogm =
    134,314.24 while (n+m)log(n+m) = 134,323.46

  • n=2 and m=300000 nlogn = 0.60 ,mlogm = 1,643,136.38, nlogn + mlogm = 1,643,136.98 while (n+m)log(n+m) = 1,643,148.19

Because, clear reason behind this is:in any case,

(n+m) > n & (n+m) > m
log (n+m) >= log n
log (n+m) >= log m

While in the case of n=m,

nlogn + mlogm = 2m logm
              = log m (power of 2m)
(n+m) log(n+m) = 2m log (2m)
               = log 2m (power of 2m)
and m(power of 2m) < 2m(power of 2m)

The only simple reason to choose first approch is, it is less time consuming to sort a small array of data compare to big large array.

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