# how would i find the time and space complexity of this code?

I am having difficulty finding space and time complexity for this code that i wrote to find number of palindromes in a string.

/**
This program finds palindromes in a string.
*/

#include <stdio.h>
#include <string.h>
#include <stdlib.h>

int checkPalin(char *str, int len)
{
int result = 0, loop;

for ( loop = 0; loop < len/2; loop++)
{

if ( *(str+loop) == *(str+((len - 1) - loop)) )
result = 1;
else {
result = 0;
break;
}
}

return result;
}

int main()
{
char *string = "baaab4";
char *a, *palin;

int len = strlen(string), index = 0, fwd=0, count=0, LEN;
LEN = len;

while(fwd < (LEN-1))
{
a = string+fwd;
palin = (char*)malloc((len+1)*sizeof(char));

while(index<len)
{
sprintf(palin+index, "%c",*a);
index++;
a++;

if ( index > 1 ) {
*(palin+index) = '\0';
count+=checkPalin(palin, index);
}
}

free(palin);
index = 0;
fwd++;
len--;
}

printf("Palindromes: %d\n", count);
return 0;
}

I gave it a shot and this what i think:
in main we have two while loops. The outer one runs over the entire length-1 of the string. Now here is the confusion, the inner while loop runs over the entire length first, then n-1, then n-2 etc for each iteration of the outer while loop. so does that mean our time complexity will be O(n(n-1)) = O(n^2-n) = O(n^2)? And for the space complexity initially i assign space for string length+1, then (length+1)-1, (length+1)-2 etc. so how can we find space complexity from this? For the checkPalin function its O(n/2).
i am preparing for interviews and would like to understand this concept.
Thank you

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Don't forget that each call to checkPalin (which you do each time through the inner loop of main) executes a loop index / 2 times inside checkPalin. Your computation of the time complexity of the algorithm is correct except for this. Since index gets as large as n, this adds another factor of n to the time complexity, giving O(n3).

As for space compexity, you allocate each time through the outer loop, but then free it. So the space complexity is O(n). (Note that O(n) == O(n/2). It's just the exponent and the form of the function that's important.)

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ah, i missed that. Correct me if i am wrong, so time complexity should've been written like this: O(n(n-1(n/2))) = O(1/2(n^3-n^2)) = O(n^3). Thats pretty bad!!! –  infinitloop May 2 '11 at 16:32
@rashid - I think that your revised analysis is correct. Whether it's pretty bad or not, I don't know. This is a tough problem to do efficiently. You might be able to reduce the space complexity to O(1) without slowing the algorithm down; I don't see why you can't (with a little more bookkeeping) just check in place, without copying the substring to a scratch area. –  Ted Hopp May 2 '11 at 16:45

For time complexity, your analysis is correct. It's O(n^2) because of the n+(n-1)+(n-2)+...+1 steps. For space complexity, you generally only count space needed at any given time. In your case, the most additional memory you ever need is O(n) the first time through the loop, so the space complexity is linear.

That said, this isn't especially good code for checking a palindrome. You could do it in O(n) time and O(1) space and actually have cleaner and clearer code to boot.

Gah: didn't read closely enough. The correct answer is given elsewhere.

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this code checks for multiple palindromes in a string, not just one. so we could have n palindromes in a string. In essence i make sub strings from a given string and then check in O(n/2)(done by checkPalin function) if that is a palindrome. –  infinitloop May 2 '11 at 16:25
I don't see how this can be done in O(n) time. A string of n identical symbols has O(n^2) palindromes (each symbol by itself; every consecutive pair; every consecutive string of 3; etc). I don't know how (in general) you could count them all in time faster than the number of them. –  Ted Hopp May 2 '11 at 16:31
Ted is right, basically we have to make pairs (well at least thats how i thought of it) and we need at least two chars in a strings to check for a palindrome. :) –  infinitloop May 2 '11 at 16:36
Sorry. I glanced through the code and didn't notice the checks for sub-palindromes. My bad. –  deong May 2 '11 at 16:38