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void mystery2 (int n)
 int i;
 for (i = 1; i <= n; i++) {
    double x = i;
    double delta = 1 / (double)i;
    while ( x > 0 )
      x -= delta;
return 0;

How to determine the time complexity of this program using tracking tables like here and not by guessing?

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2 Answers 2

up vote 3 down vote accepted

For each iteration, initially you have x=i, then x is decremented by 1/i each time. So this will be repeated i/(1/i)==i^2 times.

So, for each iteration of for(i=1;i<n;++i), the inner part has a complexity of O(i^2). As i grows from 1 to n it's just like adding (1^2+2^2+3^2+...+n^2), which is roughly n^3/6. Thus it's O(n^3).

    Outer loop(for)          Inner Loop
    I=1                      1
    I=2                      4
    I=3                      9
    ...                      ..
    I=N                      N^2
 TOTAL_                      ~N^3/6
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Sum[n^2,{n,1,N}] should be (n+1)(2n+1)n/6 –  phoeagon Feb 28 '13 at 15:55
oh 10x you even made a table for me! :P but is there any "mathematic" way to get i/(1/i)==i^2 how you got this? because it steel feels like it's kind of "guessing". –  user1980750 Feb 28 '13 at 16:05
@user1980750 initial value of x is i right? in the while loop, x is decremented by 1/ieach time right? So for x to be 0, theoretically you need i/(1/i)=i^2 which is mathematical. Due to precision loss from floating number arithmetic, you might need to do it a bit more or a bit fewer time. But that should not change the O(n^2) bound for this inner loop. –  phoeagon Feb 28 '13 at 16:11
mmm ok I understand! –  user1980750 Feb 28 '13 at 16:19

This is relatively straightforward: you need to determine how many times each of the two nested loops executes, and considering the complexities together.

The outer loop is a trivial for loop; it executes n times.

The inner loop requires a little more attention: it keeps subtracting 1/i from i until it gets to zero or goes negative. It is easy to see that it takes i iterations of the while loop to subtract 1 from x. Since x is initially set to i, the total time taken by the inner loop is i^2.

The total is, therefore, a sum of x squared, for x between 1 and n.

Wolfram Alpha tells us that the answer to this is n*(n+1)*(2n+1)/6

This expands to n^3/3 + n^2/2 +n/6 polynomial, which has the complexity of O(n^3).

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Although you don't have to look up the formula. It's most natural to guess that it is at O(n^3). –  phoeagon Feb 28 '13 at 15:57
@phoeagon I agree, a guess would be correct here. However, the OP asked not to guess, so I asked the alpha to do the calculations for me. –  dasblinkenlight Feb 28 '13 at 16:00
thank you, I think i'm understanding the thought behind the second loop analyze.. but is there any mathematic way to get this answer? because we learnt in class to use a k variable.. and then get k==i^2 –  user1980750 Feb 28 '13 at 16:08

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