I have programmed a sieve of Eratosthenes algorithm in C++, and it works fine for smaller numbers that I have tested it with. However, when I use large numbers, i.e. 2 000 000 as the upper limit, the program begins giving wrong answers. Can anyone clarify why?

Your help is appreciated.

```
#include <iostream>
#include <time.h>
using namespace std;
int main() {
clock_t a, b;
a = clock();
int n = 0, k = 2000000; // n = Sum of primes, k = Upper limit
bool r[k - 2]; // r = All numbers below k and above 1 (if true, it has been marked as a non-prime)
for(int i = 0; i < k - 2; i++) // Check all numbers
if(!r[i]) { // If it hasn't been marked as a non-prime yet ...
n += i + 2; // Add the prime to the total sum (+2 because of the shift - index 0 is 2, index 1 is 3, etc.)
for(int j = 2 * i + 2; j < k - 2; j += i + 2) // Go through all multiples of the prime under the limit
r[j] = true; // Mark the multiple as a non-prime
}
b = clock();
cout << "Final Result: " << n << endl;
cout << b - a << "ms runtime achieved." << endl;
return 0;
}
```

EDIT: I just did some debugging and found that it works with the limit at around 400. At 500, however, it is off - it should be 21536, but is 21499

EDIT 2: Ah, I found two errors and those seem to have fixed the problem.

The first was found by others who answered, and is that n is overflowing - upon being made a long long data type, it has begun working.

The second, rather facepalm-worthy mistake, was that the booleans in r had to be initialized. After running loop before checking for primes to make all of them false, the right answer is gotten. Does anyone know why this occured?

`bool r[k-2]`

may have allocation problems. Try converting`k`

to a`#define`

. Try using`std::vector<bool>`

– Thomas Matthews Mar 3 '13 at 18:58`unsigned`

to avoid overflow in the inner loop, example – J.F. Sebastian Mar 3 '13 at 19:09