I just read in Cormen's algorithm book that big-O and big-omega do not follow the trichotomy property. That means for two functions, `f(n)`

and `g(n)`

, it may be the case that neither `f(n) = O(g(n))`

nor `f(n) = Omega(g(n))`

holds. In example they argue that if function is `n^(1+sin n)`

than it is possible.

While it is correct is it possible in a real world algorithm to have a run time of something like `sin n`

. Since it would sometimes decrease, with the increase of input size. Does anybody knows any such algorithm or can give a small code snippet which does this.

Thanks for the answers, so in that case is it correct to assume that Given a problem P with size n, if it can not be solved in O(f(n)) time by any known algorithm, then the lower bound of P is Omega(f(n)).

`sin(x)`

is not a real algorithmic function, sure you use it sometimes in your code, and it's good to see implementation behind it. – Saeed Amiri Sep 18 '11 at 8:11