Could you please explain how I can get the worst-case Big O of this algorithm. I was reading my textbook and I came across a similar algorithm like this one but still don't understand the logic behind it.

int t=0;
for(int x=0;x<num.length;x++){
    for(int y=0;y<num.length;y++){
        for(int p=0;p<num.length;p++){
            for(int w=0;w<num.length;w++){

The logic is pretty simple. Let's start with the most inner loop:

This loop runs num.length times. Its worst case runtime complexity in big-O notation is O(n) assuming n = num.length.

for(int w=0;w<num.length;w++){

Now when you put another for-loop around it of length p, it will run the above for-loop p times. So it is O(pn). In your case, p = num.length = n so it should be O(n*n) = O(n^2).

There are 4 nested loops in your example so the answer is O(n^4).

Why did I ignore the content of the most inner loop? Because there are a constant number of operations done, let that number be c. Asymptotic analysis used by the big-O notation says the following: O(c) is equivalent to O(1). That comes from the definition of big-O.

  • What about if I have a program and not just a particular algorithm that does "something" in specific". Let's say I have a program that operates(executes) different tasks;for example, let's say I have a program that generates random numbers within a matrix (2d array) and then it sorts them in ascending order. The user is asked to enter any number that will make the program to print out a message specifying of whether the number chosen is in the array or not. Do I have to evaluate each statement individually? – Plrr Sep 28 '14 at 20:12
  • How having different algorithms with its respective Big O notations get to the conclusion of the worst-case running time (Big O) when each algorithm is different. Like when a program has algorithms: O(n^2), O(1), O(n).... Which one is the one that represents the entire program? – Plrr Sep 28 '14 at 20:17
  • @Plrr When you have multiple Big O. Then that represent: The best-case scenario, average-case scenario and worst-case scenario. In programming we aim for the Average-case scenario. However, depending on the data input that you have. You might get the best-scenario or even the worst-case scenario. In all the one that "Happen most" is the average-case. You deal with this a lot. – Juniar Sep 28 '14 at 20:29
  • @Plrr Do you mean that a program consists of multiple independent algorithms with differing worst case complexities? If that's the case, then the worst one is the one you pick. E.g. for O(n^2), O(1), O(n), the overall worst case is O(n^2) because in the worst case, there is a quadratic growth. – mostruash Sep 28 '14 at 21:58
  • @mostruash Ohhh now I understand! Thanks! – Plrr Sep 28 '14 at 22:02

If you are comparing an element for; == or < or > against a list or an array of size n, Then its worst case is O(n).

Therefore the cost of one for loop is: O(n), but you have 4 for loops each with a worst case O(n).

Total cost is: n*n*n*n = Worst Case O(n^4).

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