I have a solution using Ada, which may give you some help.
I have created a function named Is_Prime that returns a TRUE when the parameter passed to it is a prime number and FALSE when it is not.
Following is the package specification containing the declaration of Is_Prime. Consider the package specification to be similar to a C header file.
package Primality is
function Is_Prime(Num : Positive) return Boolean;
end Primality;
The implementation of the function is in the package body, corresponding roughly to a C .c file.
-----------------------------------------------------------------------
-- Primality Body --
-----------------------------------------------------------------------
with Ada.Numerics.Generic_Elementary_Functions;
package body Primality is
function Is_Prime (Num : Positive) return Boolean is
package Flt_Funcs is new Ada.Numerics.Generic_Elementary_Functions
(Float);
use Flt_Funcs;
T : Integer := 2;
Limit : constant Integer := Integer (Sqrt (Float (Num)));
Result : Boolean := True;
begin
if Num = 2 then
Result := True;
else
while T <= Limit loop
if Num mod T = 0 then
Result := False;
exit;
end if;
T := T + (if T > 2 then 2 else 1);
end loop;
end if;
return Result;
end Is_Prime;
end Primality;
Ada allows the programmer to name the "main" file anything he or she wants. Following is the "main" file to allow the user to specify the number of primes to be output.
with primality; use primality;
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Integer_Text_IO; use Ada.Integer_Text_IO;
procedure List_Primes is
count : Natural;
Num : Positive := 2;
begin
Put("Enter the number of primes you want to print: ");
Get(count);
while count > 0 loop
if Is_Prime(Num) then
Put_Line(Num'Image);
count := count - 1;
end if;
Num := Num + (if Num = 2 then 1 else 2);
end loop;
end List_Primes;
The output of a sample run is:
Enter the number of primes you want to print: 20
2
3
5
7
11
13
17
19
23
29
31
37
41
43
47
53
59
61
67
71