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Please help me to find the O(), θ() and Ω() time complexities of the following code.

if(x<A) Func1(n);
else if(x<A+1000) Func2(n);
else if(x<A+5000) Func3(n);
else Func4(n);

Given:

Func1(n)=θ(n)
Func2(n)=θ(2^n)
Func3(n)=θ(logn)
Func4(n)=O(n)
Func4(n)=Ω(logn)
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If something is in θ(foo), it's also in O(foo) and Ω(foo) (in fact something is in θ(foo) iff it is in O(foo) and Ω(foo)), so you only need to find out the θ. –  sepp2k Apr 29 '13 at 21:51
    
Is anything given about x ? Is any relation given between x and n ? –  jwpat7 Apr 29 '13 at 22:26
    
no there is no relation between x and n. x is just arbitrary variable. –  Venera Adanova Apr 30 '13 at 7:21

1 Answer 1

up vote 1 down vote accepted

Let f be the function defined by the displayed code, and let f₁...f₄ denote Func1...4. If no information is given about the values of x and A, the most that one can conclude about f is that f(n) is bounded below by the least lower bound that applies to any of f₁...f₄, and bounded above by the greatest upper bound that applies to any of f₁...f₄. The least lower bound of these is Ω(n), and the greatest upper bound is O(2ⁿ), so the complexity of f(n) is Ω(n) and O(2ⁿ).

The complexity of f₄(n) in the question (as originally stated) was not well-defined because a function that is bounded below by a multiple of n log n cannot be bounded above by a multiple of n. However, neither of the given f₄ bounds, O(n) and Ω(nlogn), is outside the range of Ω(n) and O(2ⁿ).

Edit: With the question as revised, f₃ is θ(logn), while f₄ is Ω(log n) and O(n). The least lower bound over f₁...f₄ now is Ω(log n), whence complexity of f(n) is Ω(log n) and O(2ⁿ). Absent information about x and A, there is no function g(n) such that constants C₁ and C₂ exist giving C₁·g(n) < f(n) < C₂·g(n) asymptotically, so no θ() bound can be stated for f().

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Func4(n)=Ω(logn). But what about θ()? Should it be the greatest upper bound, i.e. O(2ⁿ)? –  Venera Adanova Apr 30 '13 at 7:19
    
The corrections are made for O, θ and Ω for functions. –  Venera Adanova Apr 30 '13 at 7:27
    
@VeneraAdanova, see edit –  jwpat7 Apr 30 '13 at 14:53

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