I keep getting a core dump after I added my fraction reducing function gcd. It will work fine until it gets to outputting the subtraction part in my main file then it just gives me a core dump. It will work perfectly fine for numbers like 2000/3000 which it will reduce to 2/3 like it should but when I put in 10/20 for a fraction it will reduce it to 1/2 like it should until it gets to outputting the subtraction part as I said before it will just give me a core dump. What is wrong??

```
//Rational.h file
#include <iostream>
using namespace std;
class Rational
{
public:
// constructors
Rational();
Rational(int num, int den);
// accessors
int get_numer()const;
int get_denom()const;
// mutators
void set_numer(int n);
void set_denom(int d);
// friend functions
friend Rational operator +(const Rational& r1, const Rational& r2);
friend Rational operator -(const Rational& r1, const Rational& r2);
friend Rational operator *(const Rational& r1, const Rational& r2);
friend Rational operator /(const Rational& r1, const Rational& r2);
friend bool operator == (const Rational& r1, const Rational& r2);
friend ostream& operator <<(ostream& file_out, const Rational& r);
friend istream& operator >>(istream& file_in, Rational& r);
private:
int numerator;
int denominator;
void normalize();
void gcd();
};
// nonmember functions
bool operator <(const Rational& r1, const Rational& r2);
bool operator !=(const Rational& r1, const Rational& r2);
//Rational.cc file
#include <iostream>
#include <cstdlib>
#include "Rational.h"
using namespace std;
Rational::Rational()
{
numerator = 0;
denominator = 1;
}
Rational::Rational(int num, int den)
{
numerator = num;
denominator = den;
if(den == 0)
{
cout << "Error denominator is 0\n";
exit(1);
}
gcd();
normalize();
}
void Rational::set_numer(int n)
{
numerator = n;
gcd();
normalize();
}
void Rational::set_denom(int d)
{
denominator = d;
if(denominator == 0)
{
cout << "Error denominator is 0\n";
exit(1);
}
gcd();
normalize();
}
int Rational::get_numer() const
{
return(numerator);
}
int Rational::get_denom() const
{
return(denominator);
}
void Rational::normalize()
{
if(denominator < 0)
{
numerator *= -1;
denominator = abs(denominator);
}
else if(numerator < 0 && denominator < 0)
{
numerator = abs(numerator);
denominator = abs(denominator);
}
}
void Rational::gcd()
{
int big;
int small;
int remainder;
int great;
if(numerator > denominator)
{
big = numerator;
small = denominator;
}else{
big = denominator;
small = numerator;
}
do{
remainder = big % small;
if(remainder == 0)
great = small;
else
{
big = small;
small = remainder;
}
}while(remainder != 0);
numerator /= great;
denominator /= great;
}
Rational operator +(const Rational& r1, const Rational& r2)
{
Rational temp;
temp.numerator = r1.numerator * r2.denominator + r1.denominator * r2.numerator;
temp.denominator = r1.denominator * r2.denominator;
temp.gcd();
temp.normalize();
return(temp);
}
Rational operator -(const Rational& r1, const Rational& r2)
{
Rational temp;
temp.numerator = r1.numerator * r2.denominator - r1.denominator * r2.numerator;
temp.denominator = r1.denominator * r2.denominator;
temp.gcd();
temp.normalize();
return(temp);
}
Rational operator *(const Rational& r1, const Rational& r2)
{
Rational temp;
temp.numerator = r1.numerator * r2.numerator;
temp.denominator = r1.denominator * r2.denominator;
temp.gcd();
temp.normalize();
return(temp);
}
Rational operator /(const Rational& r1, const Rational& r2)
{
Rational temp;
temp.numerator = r1.numerator * r2.denominator;
temp.denominator = r1.denominator * r2.numerator;
temp.gcd();
temp.normalize();
return(temp);
}
bool operator == (const Rational& r1, const Rational& r2)
{
return((r1.numerator * r2.denominator) == (r1.denominator * r2.numerator));
}
ostream& operator <<(ostream& file_out, const Rational& r)
{
file_out << r.numerator << '/' << r.denominator;
return(file_out);
}
istream& operator >>(istream& file_in, Rational& r)
{
char ch;
file_in >> r.numerator >> ch >> r.denominator;
if(r.denominator == 0)
{
cout << "Error denominator is 0\n";
exit(1);
}
r.gcd();
r.normalize();
return(file_in);
}
bool operator <(const Rational& r1, const Rational& r2)
{
return((r1.get_numer() * r2.get_denom()) < (r1.get_denom() * r2.get_numer()));
}
bool operator !=(const Rational& r1, const Rational& r2)
{
return((r1.get_numer() * r2.get_denom()) != (r1.get_denom() * r2.get_numer()));
}
```

```
//main.cc file
#include <iostream>
#include "Rational.h"
using namespace std;
int main()
{
Rational r1(1,2), r2, r3;
// test the constructors
cout << "Testing the constructors \n\n";
cout << "Testing the constructor with 2 arguments " << r1 << endl << endl;
// test the overloaded >> operator
cout << "Testing the overloaded >> operator \n";
cout << "Enter a rational number in the form 3/4 ";
cin >> r2;
cout << r1 << " + " << r2 << " = " << (r1 + r2) << endl;
// test the set functions
r3.set_numer(23);
r3.set_denom(-13);
cout <<"\nTesting the set functions "<< r3 << endl << endl;
// Testing the overloaded << operator and the +
cout << r1 << " + " << r2 << " = " << r1 + r2;
cout << endl << endl;
//testing the overloaded - operator
r3 = r1 - r2;
cout << r1 << " - " << r2 << " = " << r3;
cout << endl << endl;
//testing the * and / function
r3 = r1 * r2;
cout << r1 << " * " << r2 << " = " << r3;
cout << endl << endl;
r3 = r1 / r2;
cout << r1 << " / " << r2 << " = " << r3;
cout << endl << endl;
//testing the < and == function
if(r1 < r2)
cout << r2 << " is bigger than " << r1 << endl;
else if(r2 < r1)
cout << r1 << " is bigger than " << r2 << endl;
else if(r1 == r2)
cout << r1 << " and " << r2 << " are equal pairs\n";
//testing the != function
if(r1 != r2)
cout << r1 << " and " << r2 << " are not equal pairs\n";
return 0;
}
```