# help in find complexity of this algorithm

i try to find the complexity of this algorithm:

m=0;
i=1;
while (i<=n)
{
i=i*2;
for (j=1;j<=(long int)(log10(i)/log10(2));j++)
for (k=1;k<=j;k++)
m++;
}

I think it is O(log(n)*log(log(n))*log(log(n))):

• The 'i' loop runs until i=log(n)
• the 'j' loop runs until log(i) means log(log(n))
• the 'k' loop runs until k=j --> k=log(i) --> k=log(log(n))

therefore O(log(n)*log(log(n))*log(log(n))).

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## 2 Answers

The time complexity is Theta(log(n)^3).

Let T = floor(log_2(n)). Your code can be rewritten as:

int m = 0;
for (int i = 0; i <= T; i++)
for (int j = 1; j <= i+1; j++)
for (int k = 1; k <= j; k++)
m++;

Which is obviously Theta(T^3).

Edit: Here's an intermediate step for rewriting your code. Let a = log_2(i). a is always an integer because i is a power of 2. Then your code is clearly equivalent to:

m=0;
a=0;
while (a<=log_2(n))
{
a+=1;
for (j=1;j<=a;j++)
for (k=1;k<=j;k++)
m++;
}

The other changes I did were naming floor(log_2(n)) as T, a as i, and using a for loop instead of a while.

Hope it's clear now.

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More specifically, I think the value of m as a function of T would be: m(T) = choose(T+2, 3) + (T+1)*(T+2)/2 –  Sheldon L. Cooper Aug 28 '10 at 22:45
Simplifying, it results in: m(T) = (T+1)(T+2)(T+3)/6 –  Sheldon L. Cooper Aug 28 '10 at 23:00
thank you very much, your explination is very clear. m(n) is a logaritm graph, but i didnt understood why m(T) = choose(T+2, 3) + (T+1)*(T+2)/2 – –  moti Aug 29 '10 at 17:39
We want to count the number of triples (i, j, k) obtained by the loop indexes. Let's first count the triples with j less than or equal i (and not equal to i+1), i.e. triples (i, j, k) satisfying 1 <= k <= j <= i <= T. This is exactly choose(T + 3 - 1, 3), the number of combinations with repetition of 3 elements out of T. You can read more about it here: en.wikipedia.org/wiki/…. –  Sheldon L. Cooper Aug 30 '10 at 5:10
Now consider the triples with j equal to i+1, i.e. triples (i, i+1, k). For each i, from 0 to T, there are i+1 values for k. Hence, there are 1 + 2 + ... + (T+1) triples of this kind. This is the T+1 Triangular Number, i.e. (T+1)(T+2)/2. More info here: en.wikipedia.org/wiki/Triangular_number –  Sheldon L. Cooper Aug 30 '10 at 5:12

Is this homework?

Some hints:

I'm not sure if the code is doing what it should be. log10 returns a float value and the cast to (long int) will probably cut of .9999999999. I don't think that this is intended. The line should maybe look like that:

for (j=1;j<=(long int)(log10(i)/log10(2)+0.5);j++)

In that case you can rewrite this as:

m=0;
for (i=1, a=1; i<=n; i=i*2, a++)
for (j=1; j<=a; j++)
for (k=1; k<=j; k++)
m++;

Therefore your complexity assumption for the 'j'- and 'k'-loop is wrong.
(the outer loop runs log n times, but i is increasing until n, not log n)

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but j is until log(i) not i itself –  moti Aug 27 '10 at 17:29
Yes, but the value of i doubles in every loop. So in the last loop i == n (not i == log n). a is log (i+1). –  rudi-moore Aug 30 '10 at 8:12