I understand the principles of asymptotic notation, and I get what it means when something is O(1) or O(n^{2}) for example. But what does O(log n) mean? or O(n log n) for example?

Check: en.wikipedia.org/wiki/Big_O_notation Remeber that log increases slowly than a an exponential function. So, if you have an algorithm that is n^2 and other, that doing the same, has a logarithmic function, the last would be more efficient (in general term, not always!). To evaluate the complexity of a function (or algorithm) you must take in consideration the execution in time and space, mainly. You can evaluate a function or algorithm with other parameters, but, initially, those two would be OK. EDIT: http://en.wikibooks.org/wiki/Data_Structures/Asymptotic_Notation Also, check the sorting algorithms. Will give great insight about complexity. 


Log is short for "logarithm": http://en.wikipedia.org/wiki/Logarithm Logarithms tell us for example how many digits are needed to represent a number, or how many levels a balanced tree has when you add N elements to it. 


log is a mathematical function. It is the inverse of exponentiation  log (base 2) of 2^n is n. In practice, it is better than n^c for any positive c (including fractional c such as 1/2 (which is square root)). Check wikipedia for more info. 

