# C++ sieve of Eratosthenes with array [closed]

I'd like to code the famous Sieve of Eratosthenes in C++ using just array as it would be a set where I can delete some elements on the way to find out primes numbers. I don't want to use STL (vector, set)... Just array! How can I realize it?

I try to explain why I don't want to use STL set operator: I'm learning C++ from the very beginning and I think STL is of course useful for programmers but built on standard library, so I'd like to use former operators and commands. I know that everything could be easier with STL.

-

## closed as off-topic by Borgleader, Tadeusz Kopec, SingerOfTheFall, EvilTeach, nijansenSep 6 '13 at 8:09

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

• "Questions asking for code must demonstrate a minimal understanding of the problem being solved. Include attempted solutions, why they didn't work, and the expected results. See also: Stack Overflow question checklist" – Borgleader, Tadeusz Kopec, SingerOfTheFall, nijansen
If this question can be reworded to fit the rules in the help center, please edit the question.

Possible? Yes. Good idea? Not so much. –  Jerry Coffin Aug 18 '13 at 17:46

The key to the sieve of Eratosthenes's efficiency is that it does not, repeat not, delete ⁄ remove ⁄ throw away ⁄ etc. the composites as it enumerates them, but instead just marks them as such.

Keeping all the numbers preserves our ability to use a number's value as its address in this array and thus directly address it: `array[n]`. This is what makes the sieve's enumeration and marking off of each prime's multiples efficient, when implemented on modern random-access memory computers (just as with the integer sorting algorithms).

To make that array simulate a set, we give each entry two possible values, flags: `on` and `off`, `prime` or `composite`, `1` or `0`. Yes, we actually only need one bit, not byte, to represent each number in the sieve array, provided we do not remove any of them while working on it.

And btw, `vector<bool>` is automatically packed, representing `bool`s by bits. Very convenient.

-
``````#include<iostream>
#include<cmath>
#include<cstring>

using namespace std;

void runEratosthenesSieve(int upperBound) {

int upperBoundSquareRoot = (int)sqrt((double)upperBound);
bool *isComposite = new bool[upperBound + 1];
memset(isComposite, 0, sizeof(bool) * (upperBound + 1));

for (int m = 2; m <= upperBoundSquareRoot; m++) {
if (!isComposite[m]) {
cout << m << " ";
for (int k = m * m; k <= upperBound; k += m)
isComposite[k] = true;
}
}
for (int m = upperBoundSquareRoot; m <= upperBound; m++)
if (!isComposite[m])
cout << m << " ";

delete [] isComposite;
}

int main()
{
runEratosthenesSieve(1000);
}
``````

You don't want to use STL, but that's not a good idea

STL makes life much simpler.

Still consider this implementation using `std::map`

``````int  max = 100;
S sieve;

for(int it=2;it < max;++it)
sieve.insert(it);

for(S::iterator it = sieve.begin();it != sieve.end();++it)
{
int  prime   = *it;
S::iterator x = it;
++x;
while(x != sieve.end())
if (((*x) % prime) == 0)
sieve.erase(x++);
else
++x;
}

for(S::iterator it = sieve.begin();it != sieve.end();++it)
std::cout<<*it<<std::endl;
``````
-