package Maths; /** * This is Euclid's algorithm which is used to find the greatest common denominator Overide function * name gcd * * @author Oskar Enmalm 3/10/17 */ public class GCD { /** * get greatest common divisor * * @param num1 the first number * @param num2 the second number * @return gcd */ public static int gcd(int num1, int num2) { if (num1 < 0 || num2 < 0) { throw new ArithmeticException(); } if (num1 == 0 || num2 == 0) { return Math.abs(num1 - num2); } while (num1 % num2 != 0) { int remainder = num1 % num2; num1 = num2; num2 = remainder; } return num2; } /** * get greatest common divisor in array * * @param number contains number * @return gcd */ public static int gcd(int[] number) { int result = number[0]; for (int i = 1; i < number.length; i++) // call gcd function (input two value) result = gcd(result, number[i]); return result; } public static void main(String[] args) { int[] myIntArray = {4, 16, 32}; // call gcd function (input array) System.out.println(gcd(myIntArray)); // => 4 System.out.printf("gcd(40,24)=%d gcd(24,40)=%d%n", gcd(40, 24), gcd(24, 40)); // => 8 } }