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I have written a simple algorithm to re-order the items in a list whenever the user drag and drop them. Also, if an item is deleted or a now one is added the list will be re-ordered. The algorithm contains three separated linear for loops (each one of them is O(n) ) and has two nested loops ( O(n^2) ). Is the total complexity O( n+ n +n + n^2) = O (3n+ n^2)?

How can I calculate the total big O ?

Thank you in advance

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Looks good. If it's correct, you can get better: O(3n+n^2) == O(n^2) –  Jan Dvorak Jan 9 '13 at 12:40
Thank you for the reply –  Zainab JH Jan 9 '13 at 12:48

1 Answer 1

O(3n + n^2) is the same thing as O(n^2).

Big O notation only describes limiting behavior, and both functions have the same limiting behavior -- doubling n quadruples them. (As n goes to infinity, the 3n component becomes smaller and smaller relative to the n^2 component. At the limit, it completely dominates it.)

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thank you for the reply –  Zainab JH Jan 9 '13 at 12:48
Could we say that the term with the largest exponent overrides all other terms as a general rule? –  cbaby Jan 9 '13 at 12:55
@cbaby we could, but only if all terms are some powers of x –  Jan Dvorak Jan 9 '13 at 13:00
@cbaby It's not true that O(2^x+x^2) = O(x^2) –  Jan Dvorak Jan 9 '13 at 13:01
@JanDvorak yes, but you can't explicitly say 2 is greater then x in asymptotic analysis either :) –  cbaby Jan 9 '13 at 13:26

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