# Calculating prime factors for Project Euler

I need to find the greatest prime factor of a large number: up to 12 places (xxx,xxx,xxx,xxx). I have solved the problem, and the code works for small numbers (up to 6 places); however, the code won't run fast enough to not trigger a timeout on my server for something in the 100 billions.

I found a solution, thanks to all.

Code:

``````<?php
set_time_limit(300);

function is_prime(\$number) {
\$sqrtn = intval(sqrt(\$number));
//won't work for 0-2
for(\$i=3; \$i<=\$sqrtn; \$i+=2) {
if(\$number%\$i == 0) {
return false;
}
}
return true;
}

\$initial = 600851475143;
\$prime_factors = array();

for(\$i=3; \$i<=9999; \$i++) {
\$remainder = fmod(\$initial, \$i);
if(\$remainder == 0) {
if(is_prime(\$i)) {
\$prime_factors[] = \$i;
}
}
}

//print_r(\$prime_factors);
echo "\n\n";
?>
``````

The test number in this case is 600851475143.

-
If you need greatest - you probably traverse from `\$sqrti` to 2, not the opposite –  zerkms Feb 21 '12 at 1:21
sure `for(\$i=\$sqrti; \$i>=2; \$i--) {` –  zerkms Feb 21 '12 at 1:28
This looks like project euler, the spirit is not to look for a solution until you solve it yourself. Or at least let people know it is from PE. –  piotrm Feb 21 '12 at 1:30
@zerkms You don't need to loop over billions of items. Worst case for OP's way with the suggestions in my answer is `number_of_divisors * sqrt(n)`, which is a few million steps. If you do it right and get the prime factorisation, it's O(sqrt(n)) worst case. Sieving the primes to the square root and using only those takes more time than naive trial division (not to mention the space). –  Daniel Fischer Feb 21 '12 at 2:12
Minor optimization detail: swap `is_prime()` and `is_factor()` in the line `if ((is_prime(\$factor)) && (is_factor(\$number, \$factor))) {` (do the cheap call first in the hope of avoiding the expensive call) –  tom Feb 21 '12 at 13:24

Your code will not find any prime factors larger than `sqrt(n)`. To correct that, you have to test the quotient `\$number / \$i` also, for each factor (not only prime factors) found.

Your `is_factor` function

``````function is_factor(\$number, \$factor) {
\$half = \$number/2;
for(\$y=1; \$y<=\$half; \$y++) {
if(fmod(\$number, \$factor) == 0) {
return true;
}
}
}
``````

doesn't make sense. What's `\$y` and the loop for? If `\$factor` is not a divisor of `\$number`, that will perform `\$number/2` utterly pointless divisions. With that fixed, reordering the tests in `is_prime_factor` will give a good speedup because the costly primality test needs only be performed for the few divisors of `\$number`.

-
thanks for the answer...although it wasn't exactly what I used, it helped me troubleshoot. :) –  php_newb_88 Feb 22 '12 at 6:30

Here is a really simple and fast solution.

``````LPF(n)
{
for (i = 2; i <= sqrt(n); i++)
{
while (n > i && n % i == 0) n /= i;
}

return n;
}
``````
-