# Find prime numbers between 1 and ~2^128

I want to implement an algorithm to get a list of prime numbers between 1 and a very large number. I was going to use erasthosthenes sieve. But to implement the sieve, shouldn't we first create a boolean array containing that many numbers. Isn't that very memory consuming? Is there an alternative to do this?

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No, you don't have to waste memory. You can use xrange in python2 and range in python3. Further more, I suggest using the Atkin's sieve. It's much better – sshashank124 Apr 27 '14 at 13:27
On Linux, you could use `primes` (often installed as `/usr/games/primes` from `bsdgames` package on Debian) – Basile Starynkevitch Apr 27 '14 at 13:29
yes, implement generator and calculate next prime number on demand – Grijesh Chauhan Apr 27 '14 at 13:29

Though you may never be able to store 2^128 , I made a program in c++ using erasthosthenes sieve where I consider only 10^5 elements at a time thus eliminating storage constraint.

Usage ./a.out left1 right1 left2 right2 ... You can do the same in python

``````#include<iostream>
#include<stdlib.h>
using namespace std;

int main(int argc,char ** argv){

int prime[100001];
long long l,r;
if((argc-1)%2!=0) cout<<"Invalid arguments: One limit missing"<<endl;

for(long i=0;i<=100001;++i)
prime[i]=1;
prime[0]=prime[1]=0;
for(long i=2;i*i<=100000;++i){
if(prime[i]==1){
for(long j=i+i;j<=100000;j=j+i)
prime[j]=false;
}
}

int cnt=1;
while(cnt<argc){
l=atol(argv[cnt]);
r=atol(argv[cnt+1]);
cnt=cnt+2;

int f=1;
if(r<=100000){

for(long i=l;i<=r;++i){
if(prime[i]){
cout<<i<<endl;
}
}
cout<<endl;
f=0;
}
if(!f) continue;
bool ans[100000]={true};
long long temp=r;

while(temp>l){
r=min(temp,l+100000);
for(long long i=0;i<100000;++i) ans[i]=true;
for(long long i=2;i*i<=r;++i){
if(prime[i]){
long k=l/i;
k=k*i;
if(k<l) k+=i;
if(k==i) k+=i;
for(;k<=r;k=k+i){
ans[k-l]=false;

}
}

}
for(long i=0;i<r-l+1;++i)
if(ans[i]) cout<<l+i<<endl;

cout<<endl;
l=l+100001;

}
}
}
``````
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