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Not a duplicate of- optimal algorithm for finding unique divisors

I came across this problem. I am not able to find an optimal algorithm.

The problem is :

Given a list L of natural numbers(number can be really large) and a number N, what's the optimal algorithm to determine the number of divisors of N which doesn't not divide any of the numbers present in the list L. Numbers in the list can be repetitive ie, one number can occur more than once.


Divisors of some divisor d of N are also divisors of N.

MY approach was :

  1. Find the divisors of N.
  2. Sort L in reverse order(largest element being 1st element).
  3. foreach divisor d of N, I check whether it divides any element in the list or not.(stop when you come to check for an element less than d in the list, as the list is sorted)
  4. If d divides some number in the list L, then I don't check for any divisor of d, that is, I skip this checking.
  5. Ultimately, left divisors which were neither divided any number in the list nor skipped are counted. This count is the final answer.

But this algorithm is not optimal for this problem.

Any ideas for a better algorithm?

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possible duplicate of optimal algorithm for finding unique divisors –  amit Apr 13 '12 at 18:45
@amit No it is not. Please don't say it on my every question. I ask question after searching a lot. Read the question statements clearly first. –  user1320006 Apr 13 '12 at 18:46
I am sorry if I am mistaken, I'm only a human, but if I am - you should link to your previous question [as related], and mention what have you done since, and especially emphasize the differences between this question and the last. –  amit Apr 13 '12 at 18:47
@amit If you read the question, you will get the differences in 1 go. This happens because I can't create new tags, so my old tags match the tags for this problem. So everyone gets this as 1st option in related problems column. –  user1320006 Apr 13 '12 at 18:50
@I have edited it the way you said. –  user1320006 Apr 14 '12 at 13:56

3 Answers 3

What you need to look into is : co-primes (or relatively primes)

In number theory, a branch of mathematics, two integers a and b are said to be coprime (also spelled co-prime) or relatively prime if the only positive integer that evenly divides both of them is 1.

So to "transcode" your problem :

You basically want to find the Number of coprimes of N from the L list.

When a and b are co-primes?

enter image description here

If two numbers are relatively prime then their greatest common divisor (GCD) is 1

Example code (for GCD) in PHP :

$gcd = gmp_gcd("12", "21");
echo gmp_strval($gcd) . "\n";

Simply put :

  • $count = 0
  • Foreach element e in list L : calculate the GCD(e,N)
  • Is their GCD=1? If yes, they are coprime (so N and e have no common divisors). Count it up. $count++

And that's all there is to it.

share|improve this answer
That sounds new but I am not able to think that what do I do after finding coprimes of N from list L? Please state some more detail. –  user1320006 Apr 13 '12 at 18:54
I understood the meaning of coprimes and I have read them before also. But, what I am not getting is how is finding the coprimes exactly going to help. Please explain in some more detailed words. –  user1320006 Apr 13 '12 at 18:57
@user1320006 I've just updated my answer. Please have a look. –  Dr.Kameleon Apr 13 '12 at 18:58
Actually, you got the problem wrong. I want the number of divisors of N which doesn't divide any of the numbers present in the list. –  user1320006 Apr 13 '12 at 19:01
@user1320006 well, first of all 12 and 21 are NOT coprime. Let me think about it... –  Dr.Kameleon Apr 13 '12 at 19:04

First, factorize n and represent it in the following way: p1:k1, p2:k2,..., pm:km such that p1,p2,... are all primes and n=p1^k1 * p2^k2 ....

Now, iterate over r1, r2, r3,..., rm such that r1<=k1, r2<=k2, ..., rm<=km and check if p1^r1*p2^r2...*pm^rm divides any number in L. If not increment count by 1.

Optimization: Pick a value for r1. See if p1^r1 divides any number in L. If yes, then pick a number for r2 and so on. If p1^r1 does not divide any number in L, then increment count by (k2+1)(k3+1)..*(km+1).

Example N=72, L=[4, 5, 9, 12, 15, 20]: Writing N as a primal product: 2:3, 3:2 (2^3*3*2 = 72).

p1=2, p2=3, k1=3, k2=2
        Divides 4
        Divides 9
        Divides 9
        Divides 4
        Divides 12
        L not divisible by 18. Count+=1 = 1
        Divides 4
        Divides 12
        L not divisible by 36. Count+=1 = 2
        L not divisible by 8. Count+=(k2+1) +=(2+1) = 5
share|improve this answer
Could you please present a working example? Its hard to understand in this way. –  user1320006 Apr 13 '12 at 19:05
Thanks a lot for your time. By the way, I think this is a good problem, so why has it been rated -2? I am beginner sO I don't have chatting privileges.That's why I am asking here. –  user1320006 Apr 13 '12 at 19:29
@user1320006 Not sure since I was not the one downvoted. Probably because the same exact question was asked earlier (see the link posted by amit) –  ElKamina Apr 13 '12 at 20:38
I am sorry to say, but even after your this hard effort, it is unable to understand your algorithm this way. You also have some mistakes in writing which become confusion. And one thing, have you mistakenly written r1 as rb1? if not, what does rb1 signify? and how is it different from r1? –  user1320006 Apr 14 '12 at 9:20
Please clear my confusion –  user1320006 Apr 16 '12 at 8:22

class Divisors {
  public $factor = array();

  public function __construct($num) {
    $this->num = $num;

  // count number of divisors of a number
  public function countDivisors() {
    if ($this->num == 1) return 1;


    $array_primes = array_count_values($this->factor);
    $divisors = 1;
    foreach($array_primes as $power) {
      $divisors *= ++$power;
    return $divisors;

  // prime factors decomposer
  private function _primefactors() {
    $this->factor = array();
    $run = true;
    while($run && @$this->factor[0] != $this->num) {
      $run = $this->_getFactors();

  // get all factors of the number
  private function _getFactors() {
    if($this->num == 1) {
      return ;
    $root = ceil(sqrt($this->num)) + 1;
    $i = 2;
    while($i <= $root) {
      if($this->num % $i == 0) {
        $this->factor[] = $i;
        $this->num = $this->num / $i;
        return true;
    $this->factor[] = $this->num;
    return false;
} // our class ends here

    $example = new Divisors(4567893421);
    print $example->countDivisors();
share|improve this answer
does it count the exact number of divisors for a given number? Or it counts what I asked for? –  user1320006 Apr 22 '12 at 16:32

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