I'm having a problem with a template ARRAY class. I have another Rational class that i added to this ARRAY class. what i need it to do is take in rational numbers as fractions (exp 1/2) and sort them. i believe i need to overload the relational operators but thats where im stuck. do i over load them in the ARRAY class or the Rational Class. below is my code

```
//generic.cpp
using namespace std;
template<class T>
void Quicksort (T& a, int first, int last);
template<class T>
int split (T& a, int first, int last);
template<class T>
void change (T& e1, T& e2);
template<class T>
void Mergesort(T& a, int first, int last);
template<class T>
void Merge(T& a, int first, int last);
int main()
{
int num;
Rational r1;
cout << "\nHow many rationals? ";
cin >> num;
Array<Rational> r2(num);
cout << "Enter the " << num << " rationals below:\n";
for (int i=0; i<num ; i++)
cin >> r2[i];
cout << "\nThank you!!\n";
cout << "Initially, the rationals are\n"
<< " r2 = " << r2 << "\n";
// Copy the original array and sort it using Quicksort
Array<Rational> r3(r2);
Quicksort(r3, 0, num-1);
cout << "\nElements sorted using quicksort:\n";
for (int i=0; i<num ; i++)
cout << r3[i]<< " ";
cout << "\n";
// Print original list of elements.
cout << "\nOriginal elements:\n";
for (int i=0; i<num ; i++)
cout << r2[i]<< " ";
cout << "\n";
// Copy original array and sort it using MergeSort
Array<Rational> r4(r2);
Mergesort(cm, 0, num-1);
cout << "\nElements sorted using mergesort:\n";
for (int i=0; i<num ; i++)
cout << r4[i]<< " ";
cout << "\n";
return 0;
}
template<class T>
int split (T& a, int first, int last)
{
T::value_type pivot = a[first];
int left = first;
int right = last;
while (left<right)
{
while (pivot < a[right]) //search from right for <=pivot
right--;
while (left<right &&(a[left]<pivot || a[left]==pivot))
left++;
if (left<right)
change(a[left],a[right]);
}
int pivotPosition = right;
a[first] = a[pivotPosition];
a[pivotPosition] = pivot;
return pivotPosition;
}
template<class T>
void Quicksort (T& a, int first, int last)
{
int pos;
if (first < last)
{
pos=split(a,first,last);
Quicksort(a,first,pos); //sort lsft sublist
Quicksort(a,pos+1,last); //sort right sublist
}
}
template<class T>
void change (T& e1, T& e2)
{
T tmp = e1;
e1 = e2;
e2 = tmp;
}
template<class T>
void Mergesort(T& a, int first, int last)
{
if (first < last)
{
int mid = (first + last) / 2;
Mergesort(a, first, mid);
Mergesort(a, mid+1, last);
Merge(a, first, last);
}
}
template<class T>
void Merge(T& a, int first, int last)
{
int mid = (first + last) / 2;
int one = 0, two = first, three = mid + 1;
Array<T::value_type> temp(a.get_size());
while (two <= mid && three <= last) // Neither sublist is done
if (a[two] < a[three]) // Value in first half is smaller
temp[one++] = a[two++];
else // Value in second half is smaller
temp[one++] = a[three++];
while (two <= mid) // Finish copying first half
temp[one++] = a[two++];
while (three <= last) // Finish copying second half
temp[one++] = a[three++];
for (one = 0, two = first; two <= last; a[two++] = temp[one++]);
}
```

.

```
//ARRAY.h
using namespace std;
template<class T> class Array
{
public:
typedef T value_type;
Array(int s);
Array(int l, int h);
Array(const Array& other);
~Array();
T& operator[](int index);
const T& operator[](int index) const;
int get_size() const {return arraySize;}
private:
int low;
int high;
int arraySize; //size of array
int offset; //to adjust back to an index of zero
T *array_;
void Copy(const Array&);
};
```

.

```
//rational.cpp
using namespace std;
Rational::Rational()
{
num = 0;
den = 1;
}
Rational::Rational(int n, int d)
{
if (d==0){
cout << "Error: division by zero." << endl;
exit(1);
}
num = n;
den = d;
simplify();
}
Rational& Rational::operator+=(const Rational& r)
{
num = (num * r.den) + (den * r.num);
den = den * r.den;
simplify();
return *this;
}
Rational& Rational::operator-=(const Rational& r)
{
num = (num * r.den) - (den * r.num);
den = den * r.den;
simplify();
return *this;
}
Rational& Rational::operator*=(const Rational& r)
{
num *= r.num;
den *= r.den;
simplify();
return *this;
}
Rational& Rational::operator/=(const Rational& r)
{
if (r.num == 0) {
cout << "Error: division by zero." << endl;
exit(1);
}
num *= r.den;
den *= r.num;
simplify();
return *this;
}
const Rational& Rational::operator= (const Rational& rightObj)
{
if (this != &rightObj)
{
num = rightObj.num;
den = rightObj.den;
}
return *this;
}
const Rational Rational::operator-() const
{
Rational answer(-num, den);
return answer;
}
const Rational operator+(const Rational& q, const Rational& r)
{
Rational answer = q ;
answer += r ;
return answer;
}
const Rational operator-(const Rational& q, const Rational& r)
{
Rational answer = q ;
answer -= r ;
return answer;
}
const Rational operator*(const Rational& q, const Rational& r)
{
Rational answer = q ;
answer *= r ;
return answer;
}
const Rational operator/(const Rational& q, const Rational& r)
{
Rational answer = q ;
answer /= r ;
return answer;
}
istream& operator>>(istream& in, Rational& r)
{
char ch;
in >> r.num >> ch >> r.den;
r.simplify();
return in;
}
ostream& operator<<(ostream& out, const Rational& r)
{
if (r.den == 1)
{
out << r.num;
}else
{
out << r.num << "/" << r.den;
}
return out;
}
```

.

```
//rational.h
using namespace std;
class Rational
{
friend ostream& operator<< (ostream&, const Rational&);
friend istream& operator>> (istream&, Rational&);
public:
Rational();
Rational(int, int);
double value() const;
Rational reciprocal() const;
Rational& operator+=(const Rational&);
Rational& operator-=(const Rational&);
Rational& operator*=(const Rational&);
Rational& operator/=(const Rational&);
const Rational& operator= (const Rational&);
const Rational operator-() const;
private:
int num;
int den;
void simplify();
};
const Rational operator+(const Rational&, const Rational&);
const Rational operator-(const Rational&, const Rational&);
const Rational operator*(const Rational&, const Rational&);
const Rational operator/(const Rational&, const Rational&);
```