The largest integer which can perfectly divide two integers is known as GCD or HCF of those two numbers.
For example, the GCD of 4 and 10 is 2 since it is the largest integer that can divide both 4 and 10.
Example: 1. Find HCF/GCD using for loop
#include <iostream>
using namespace std;
int main() {
int n1, n2, hcf;
cout << "Enter two numbers: ";
cin >> n1 >> n2;
// swapping variables n1 and n2 if n2 is greater than n1.
if ( n2 > n1) {
int temp = n2;
n2 = n1;
n1 = temp;
}
for (int i = 1; i <= n2; ++i) {
if (n1 % i == 0 && n2 % i ==0) {
hcf = i;
}
}
cout << "HCF = " << hcf;
return 0;
}
The logic of this program is simple.
In this program, the smaller integer between n1 and n2 is stored in n2. Then the loop is iterated from i = 1 to i <= n2 and in each iteration, the value of i is increased by 1.
If both numbers are divisible by i then, that number is stored in variable hcf.
This process is repeated in each iteration. When the iteration is finished, HCF will be stored in variable hcf.
Example 2: Find GCD/HCF using while loop
#include <iostream>
using namespace std;
int main() {
int n1, n2;
cout << "Enter two numbers: ";
cin >> n1 >> n2;
while(n1 != n2) {
if(n1 > n2)
n1 -= n2;
else
n2 -= n1;
}
cout << "HCF = " << n1;
return 0;
}
Output
Enter two numbers: 16 76 HCF = 4
In the above program, the smaller number is subtracted from the larger number and that number is stored in place of the larger number.
Here, n1 -= n2 is the same as n1 = n1 - n2. Similarly, n2 -= n1 is the same as n2 = n2 - n1.
This process is continued until the two numbers become equal which will be HCF.
Let us look at how this program works when n1 = 16 and n2 = 76.
| n1 | n2 | n1 > n2 | n1 -= n2 | n2 -= n1 | n1 != n2 |
|---|---|---|---|---|---|
| 16 | 76 | false |
- | 60 | true |
| 16 | 60 | false |
- | 44 | true |
| 16 | 44 | false |
- | 28 | true |
| 16 | 28 | false |
- | 12 | true |
| 16 | 12 | true |
4 | - | true |
| 4 | 12 | false |
- | 8 | true |
| 4 | 8 | false |
- | 4 | false |
Here, the loop terminates when n1 != n2 becomes false.
After the final iteration of the loop, n1 = n2 = 4. This is the value of the GCD/HCF since this is the greatest number that can divide both 16 and 76.
We can also find the GCD of two numbers using function recursion.