I have to follow the sieve of Eratosthenes algorithm, which is to:

Initialize the array is_prime so that all the values of the elements will be true. Then, set the value of is_prime[1] to be false (since 1 is NOT prime.) For I=2 until sqrt(N) set all the multiples of I to false, starting with I*I until N. Finally, print all the indexes of is_prime that hold the value true.

The problem is it compiles, but it does not print anything. You do not give an input, it is supposed to display all prime numbers between 1-300.

Here is the code I have developed so far:

```
#include <stdio.h> //Library functions
#include <math.h>
#include "simpio.h"
#define N 300 //defining constant
void displayPrime(bool checkPrime); //Function prototypes
bool checkPrime (int I);
bool is_prime[N+1]; //Array decleration
main()
{
displayPrime(is_prime);
getchar();
}
void displayPrime (bool check) //Function definitions
{
int I;
for(I=1; I<N; I++)
{
checkPrime(I);
if(is_prime[I]==false)
{
printf("");
}
else if(is_prime[I]==true)
{
printf("%d\n", I);
}
}
}
bool checkPrime (void)
{
int number1, x;
double number;
is_prime[1]=false;
number=sqrt(N);
for(number1=2; number1<=number; number1++)
{
for(x=number1; x<=N; x=x+number1)
{
is_prime[x]=false;
return(is_prime[x]);
}
is_prime[number1]=true;
return(is_prime[number1]);
}
}
```

Thank you :D

`checkPrime()`

every time. I suggest to check wikipedia for theoretical and this link for visual understanding – Fallen Jul 18 '13 at 12:31Programming with Prime Numbersat my blog, including C code. – user448810 Jul 18 '13 at 12:32`I=false;`

??? – BLUEPIXY Jul 18 '13 at 13:07