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When I determine the complexity of a Java code like this , do I have to express that in a Theta or a big O notation?

List<Person> sortedPersons = new ArrayList<Person>();
List<Person> people = new ArrayList<Person>();

    for (int i = 0; i < people.size(); i++) {
        Person toadd = people.get(i);

        int index = 0;
        while(index < sortedPersons.size() && sortedPersons.get(index).compareTo(toadd) < 0)

        sortedPersons.add(index, toadd);


I know the for-loop is O(n) (or is it \Theta(n)?) A get-operation runs in constant time, so O(1). But what about the while loop? sortedPersons.size(): O(1) sortedPersons.get(): O(1) Is the compareTo-operation linear? And I think the add-operation also runs in constant time. What's the total complexity of the code?

share|improve this question
you are using insertion sort algorithm, and it is an O(n^2) algorithm – Amir Pashazadeh Mar 6 '12 at 22:10
Ok thanks, but how do you know? – Johan Mar 6 '12 at 22:14
@ruakh you are correct. I deleted it. – Tony Ennis Mar 7 '12 at 3:50
Although the answer by Nactive is correct, the next time something isn't clear, you should come to class and ask the teaching assistant (i.e. me). – bmesuere Mar 12 '12 at 14:04
up vote 1 down vote accepted

the code is O(n²) If you consider numbers and you sort them from small to large.

  • If your input is reverse sorted (from large to small), the code will be Θ(n).
  • If your input is already sorted, this code will be Θ(n²)

The code is just a variant of Insertion sort, it just uses a list instead of an array.

Consider this example for the complexity:

The numbers are 1 2 3 4 5 and you want to sort from small to big.

  1. After first itteration your list will consist of 1. (this happens in o(1) ) and you won t visit the inner loop.
  2. In the second itteration you have a list of { 1 } since you are inserting 2 you 'll visit the while loop once, after it you 'll insert it.
  3. Third itteration the list is { 1 2 } you visit the while loop twice and insert 3 after it.
  4. ...

In the end you will have something like: 0 1 2 3 4 time's visited the inner loop.

Now you can write 1 2 3 4 5 as (5(5+1))/2).

Now you can write O(n(n+1) / 2 + n) as O(n²).

share|improve this answer
Ok thanks, but how do you know? – Johan Mar 6 '12 at 22:14
You are making n interations, where n is people.size() and multiply it by n because you are iterating to n once more(index), in complexity 1/3 n(2) is still n(2) and you are using worst possible time so n(2) is complexity in this case – user1190541 Mar 6 '12 at 22:20

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