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Pretend I have an algorithm that pops every element from a stack and inserts them into an AVL tree.

If pop () is a O (1) method and insert () is an O(log n) method,  
my algorithm is O(log n), O (n) or O(n log n)?


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up vote 2 down vote accepted

Your algorithm is O(nlogn), or Theta(nlogn) to be exact, assuming insert is Theta(logn).

The i step cost c1 + c2*log(i) (c1 the constant of pop(), c2 is the constant guaranteed for AVL insertion), so you get:

c1 + c2*log(1) + c1 + c2*log(2) + .... + c1 + c2*log(n) = 
= c1*n + c2*log(1*2*...*n) = c1*n + c2*log(n!) <= (for large enough n) (c2+1)*log(n!)

If we "ignore" the constants its much more readable (less accurate of course, and must be done carefully, but it's good for intuition):

log(1) + log(2) + ... + log(n) = log(1*2*...*n) = log(n!)
and log(n!) is in O(nlogn)

It is known that log(n!) is in Theta(nlogn) - and thus this is your total complexity.

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