I am little confused on the time it takes to insert or remove an element from a skip list.
Lets say there is a skip list with height H and each level contains n/2^i entries.
n = total number of key value pairs
i = level of the skip list i<= H
Now, as per the theory an insertion operation will perform following actions
1. Find a key <= the key being inserted.
2. insert this key
3. randomly create this entry in the levels above the base level.
Lets assume the Skip list is based on a linked list.
Step 1: Should take O(n).
Step 2: Should be O(1).
Step 3: Should be O(log n) time. I am still confused in this logic and it will be part of the question below
Based on the above facts shouldn't the time of insertion be O(n) + O(1) + O(log n)? ignoring the lower order terms its should go by O(n) + O(log n)?
Step 3 again should take O(n) time to search a key <= key being inserted and then o(1) to insert. Resulting in a much complex insertion running time?
Books say that insertion in a skip list takes O(log n) time. I must be missing some important piece of information, could you please help me get a good understanding of this concept.