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This is a practice problem on spoj.com http://www.spoj.com/problems/PRIME1/ ..

my submission gives "time limit exceeded"

constraints are : 1 <= m <= n <= 1000000000, n-m<=100000 time limit for maximum 10 test cases : 6 s

I wrote the following code based on the sieve of eratosthenes ,

void sieve(int m,int n)
       bool prime[1000005]; 
        bool prime2[1000005];
  int i;
    int k;


   int mi=sqrt(n);

   for (int i=2; i<=mi; i++)
      if (prime[i]==0)
         for ( k=i*i; k<=n; k+=i)




    int u=min(n,(int)1000000);

    if(prime2[i]==0 && i+m>=2 && i+m<=n)


here 'm' and'n' are the range of numbers between which we have to generate prime numbers.

The problem i'm facing is when I take input as 100000000 100100000 it takes 1.04 s to run (ideone.com C++ 4.3.2) and for 10000000 10100000 it takes 0.07 s

1) why the huge difference between the times , what is contributing to this ?

2) Is there an even faster way to approach this problem ?

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marked as duplicate by Dukeling, Elliott Frisch, David Eisenstat, Paul Hankin, Frank van Puffelen May 22 '14 at 16:41

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Don't recompute the sieve every time, compute it once and then just iterate over it for each input. Also the code is kind of a mess, first you declare i, then you shadow it in a for loop, the u check doesn't make much sense, etc. -EDIT- WAIT! Are you seriously iterating from 0 to max every time and checking whether that index is inside the range? –  Xarn May 22 '14 at 13:43
Do you really indent your code like this? You didn't feel any shame when you posted it here? You didn't think "hmm, I'm posting this in public and asking people to look at it for free, so maybe I should make it look less like Satan's posterior and more like happy C++ code?" –  Lightness Races in Orbit May 22 '14 at 13:51
@user2657257: you have a lot to learn about programming - just because something appears to work does not mean that it is bug free. Surely you can see that these arrays are never initialised and therefore you have undefined behaviour ? –  Paul R May 22 '14 at 13:51
@Dukeling Well, Erastothenes sieve has complexity of O(n log log n) and you have 6 seconds for the task. Lazy evaluation of it is very, very inefficient so by process of elimination you are left with computing full sieve (and enjoying pretty good cache behaviour of said algorithm) and then just iterating over it. –  Xarn May 22 '14 at 13:54
@user2657257 In debug mode, it can be. In release, definitely not. –  Xarn May 22 '14 at 14:16

1 Answer 1

up vote 2 down vote accepted

1) why the huge difference between the times , what is contributing to this ?

The difference in time is coming because the time needed to build the sieve is different for both the ranges. It will be higher for bigger numbers.

2) Is there an even faster way to approach this problem ?

As stated in the comments, you are computing the sieve for every test case. You need to build the sieve only once and only up to sqrt(1000000000) = 100000.

My solution (long ago) was as follows:

#include <iostream>
#include <algorithm>
#include <vector>
#include <cmath>
#include <iterator>

bool is_prime (const int& n, std::vector<int>& v);

int main() {
  int t;
  std::cin >> t;
  std::vector<int> prime_array;

  // build the sieve
  for (int i=2; i<=100000; i++)
    if ( is_prime( i, prime_array ) ) 
        prime_array.push_back( i );

  while (t--) {
    long long m;
    long long n;

    std::cin >> m;
    std::cin >> n;

    if (m<2) m = 2;

    //check for the prime numbers in the range.
    for (int i=m; i<=n; i++)
      if ( is_prime( i, prime_array ) ) 
        std::cout << i << std::endl;
    std::cout << std::endl;

  return 0;

// we need to check for prime factors up to sqrt(n)
bool is_prime (const int& n, std::vector<int>& v) {
  double root = sqrt (n);
  std::vector<int>::iterator it = v.begin();
  while ( it != v.end() && *it <= root ) {
    if (!( n % *it)) return 0;
  return 1;
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modified my code, as you somewhat suggested, got accepted. a little slow, but it'll do for now –  guitar_geek May 22 '14 at 16:59

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