Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I tried implementing the segmented sieve algorithm for this [question]: as follows :

#include <iostream>
#include <string>
#include <set>
#define MAX 32000 // sqrt of the upper range
using namespace std;
int base[MAX];  // 0 indicates prime

vector<int> pv;   // vector of primes

int mod (int a, int b)
   if(b < 0)
     return mod(-a, -b);   
   int ret = a % b;
   if(ret < 0)
   return ret;
void sieve(){

     for(int i = 2 ; i * i < MAX ; i++ )
           for(int j = i * i ; j <  MAX ; j += i )
                 base[j] = 1;

     for(int i = 2 ; i < MAX ; i++ )
         if(!base[i]) pv.push_back(i);

int fd_p(int p ,int a ,int b){  // find the first number in the range [a,b] which is divisible by prime p

/*  while(1){

        if(a % p == 0 && a !=p) break;
    return a;

    if(a != p){
        return (a + mod(-a,p)) ;

     return (a + p);

void seg_sieve(int a , int b){

    if(b < 2 ){ 
        cout << "" ;
    if(a < 2){
      a = 2; 
    int i,j;
    int seg_size  = b - a + 1;
    int*is_prime = new int[seg_size];

    vector<int> :: iterator p ;

    for(p = pv.begin(); p!=pv.end(); p++){
       int x = fd_p(*p,a,b);  

       for(i = x; i <= b; i += *p )
           is_prime[i - a] = 1;

for(i=0; i < b - a + 1; i++)
        printf("%u\n", i + a);

 delete []is_prime ;

int main()
     int a,b,T;

//     cout<<endl;
//     system("PAUSE");
     return 0;

I am getting TLE nevertheless .. I don't understand what other optimization would be required . Plz help ..

Edit 1 :just tried to implement fd_p() in constant time ... [failure] .. plz if u could help me with this bug..

Edit 2:Issue Resolved.

share|improve this question

closed as off-topic by Andrew Medico, David Eisenstat, mrueg, Robotic Cat, fabian Aug 3 '14 at 1:05

This question appears to be off-topic. The users who voted to close gave this specific reason:

  • "Questions seeking debugging help ("why isn't this code working?") must include the desired behavior, a specific problem or error and the shortest code necessary to reproduce it in the question itself. Questions without a clear problem statement are not useful to other readers. See: How to create a Minimal, Complete, and Verifiable example." – Andrew Medico, mrueg, Robotic Cat, fabian
If this question can be reworded to fit the rules in the help center, please edit the question.

See <a href="…;. –  user448810 Aug 17 '12 at 12:45

4 Answers 4

up vote 1 down vote accepted

You can get the first number in the interval [a,b] that is divisible by p in constant time. Try to do that and I think you should be good to go.

share|improve this answer
plz see the edited code: [concept] let n = a + x be the desired number .. so we want n % p = 0 or (a + x) % p = 0 so [ans = (-a % p ) + a] –  spd Aug 17 '12 at 15:05
finally got it working .. Thanks.. –  spd Aug 19 '12 at 13:38

I have solved this problem many years ago. Assume, that n-m <= 100000 All you need to calculate all Primes between 1 and sqrt(1000000000) < 40000. Than manually test each number between n and m. This will be ehough

 program prime1;
   prime:array of longint;
 for i:=3 to 40000
  do begin
   j:=0; bool:=true;
   while (prime[j]*prime[j]<= i ) do begin
     if (i mod prime[j] = 0) then begin
   if (bool) then begin
 for k:=1 to t do begin
  for i:=m to n do begin
   if (i=1) then continue;
   j:=0; bool:=true;
   while (prime[j]*prime[j]<= i ) do begin
     if (i mod prime[j] = 0) then begin
   if (bool) then
share|improve this answer

You've left one last step of improvement to make. Work with the odds only.

We know that 2 is prime, and we know that no even (other than 2) is ever a prime. So there's no need to check them.

The sieve of Eratosthenes for odd primes is P = {3,5, ...} \ U {{p2, p2 + 2p, ...} | p in P}. Implementing that will be enough to get you through:

  • Treat 2 specially, as a separate case. Work with arrays half the normal size, where the array entry at offset i represents an odd value ao + 2*i where ao = a|1 is the least odd number not below a. That means that increment value of 2p corresponds to the increment of p in the offset in the array.
  • The starting odd multiple of a prime p in the offset sieve array, equal to or above p*p, is m = p*p >= ao ? p*p : ((ao+p-1)/p)*p; m = m&1 ? m : m+p;, provided that p <= sqrt_b. The corresponding offset in the sieve array is (m-ao)/2.

As a side note, your naming is confusing: is_prime is actually is_composite.

share|improve this answer
hey thanks , but I got the code accepted by just making fd_p function run in constant time .. :) .. no need to treat 2 as a separate case.. but i will try to implement ur method as well . –  spd Aug 19 '12 at 13:37
ohh I see .. :) –  spd Aug 19 '12 at 16:47

What's wrong is that your fd_p function is far too slow, incrementing a till you find a good value to start your sieve will definitely time out since a can be in the range of 1 billion.

You have the right idea though.

See this blog post for an easier to understand explanation with working code as well:

share|improve this answer

Not the answer you're looking for? Browse other questions tagged or ask your own question.