Is the BigO for the following code O(n) or O(log n)?
for (int i = 1; i < n; i*=2)
sum++;
It looks like O(n) or am I missing this completely?

It is Simple example: Assume
It is easy to see that an iteration will be added when P.S. (EDIT): mathematically speaking, the algorithm is indeed 


The complexity is O(logn) because the loops runs (log_{2}n  1) times. 


O(log(n)), as you only loop ~log2(n) times 


No the complexity is not linear. Try to play through a few scenarios: how many iterations does this cycle do for n = 2, n=4, n=16, n=1024? How about for n = 1024 * 1024? Maybe this will help you get the correct answer. 


For loop check runs lg(n) +1 times. The inner loop runs lg(n) times. So, the complexity is is O(lg n), not O(log n). If n==8, the following is how the code will run:



It is O(log(n)). Look at the code num++; It loops O(log(n)) times. 

