I want to take this merge_sort I wrote and put it into a class. Because their is some coupling of the variables, particularly - left, right_begin, right...I want to make these class members. The variables that are local to each function I will leave as local function variables.

Also this function will be used for another class I have called dynamic_array which is a bit more efficient than vector. However I want to make it available to the STL vector as well.

How do I do this. Do I use inheritance? Do I make the class a composite class of my dynamic_array...If I do this it will not be available to vector though.

The Question: How do I make my merge_sort class interface with the STL container Vector and to my own container dynamic_array.

This is for an interview preparation.

Thank you. Dynamic Array code below(remove old merge_sort cold)

Merge Sort Code - to be converted to a class

```
#include <iostream>
using namespace std;
const int size=8;
int scratch[size],array[size]={6,5,3,1,8,7,2,4};
void print_array(int arr[]){ for (int i = 0; i < size; i++) cout << arr[i] << endl;}
void flip_if_unordered(int &x, int &y)
{
if(array[x]>array[y])
{
int tmp = array[x];
array[x] = array[y];
array[y] = tmp;
}
}
void merge_algo(int &left, int &right_begin, int &right)
{
int iter,iter_left=left,iter_right=right_begin;
for(iter=left;iter<=right;++iter)
{
if( (iter_right>right) || ((iter_left < right_begin) && (array[iter_left]<=array[iter_right])))
{
scratch[iter]=array[iter_left];
++iter_left;
}
else
{
scratch[iter]=array[iter_right];
++iter_right;
}
}
for(iter=left;iter<=right;++iter){array[iter]=scratch[iter];}
}
void merge_recurse(int left,int right)
{
int left_end=(left+((right-left)/2));
int right_begin=left_end+1;
if(((left+1)==right)){flip_if_unordered(left,right);return;}
else if ((left==right)){return;}
else
{
merge_recurse(left,left_end);
merge_recurse(right_begin,right);
merge_algo(left,right_begin,right);
}
}
int main()
{
merge_recurse(0,(size-1));
print_array(array);
return 0;
}
```

Dynamic Array

```
#include "c_arclib.cpp"
using namespace std;
template <class T> class dynamic_array
{
private:
T* array;
T* scratch;
void merge_recurse(int left, int right)
{
if(right == left + 1)
{
return;
}
else
{
int i = 0;
int length = right-left;
int midpoint_distance = length/2;
int l = left, r = left + midpoint_distance;
merge_recurse(left, left + midpoint_distance);
merge_recurse(left + midpoint_distance, right);
for(i = 0; i < length; i++)
{
if((l < (left + midpoint_distance)) && (r == right || array[l] > array[r]))
{
scratch[i] = array[l];
l++;
}
else
{
scratch[i] = array[r];
r++;
}
}
for(i = left; i < right; i++)
{
array[i] = scratch[i - left];
}
}
}
void quick_recurse(int left, int right)
{
int l = left, r = right, tmp;
int pivot = array[(left + right) / 2];
while (l <= r)
{
while (array[l] < pivot)l++;
while (array[r] > pivot)r--;
if (l <= r)
{
tmp = array[l];
array[l] = array[r];
array[r] = tmp;
l++;
r--;
}
}
if (left < r)quick_recurse(left, r);
if (l < right)quick_recurse(l, right);
}
public:
int size;
void rorder();
void order();
void randorder();
dynamic_array(int sizein)
{
size=sizein;
array=new T[size]();
}
void print_operator(std::ostream &os = cout) const
{
for (int i = 0; i < size; i++) os << array[i] << endl;
}
int merge_sort()
{
scratch = new T[size]();
if(scratch != NULL)
{
merge_recurse(0, size);return 1;
}
else{return 0;}
}
void quick_sort()
{
quick_recurse(0,size);
}
};
template <class T> void dynamic_array<T>::randorder()
{
srand(time(NULL));
int *ap;
for(ap=array;ap!=array+size;++ap){*ap=rand();}
}
template <class T> void dynamic_array<T>::order()
{
int *ap,i=0;
for(ap=array;ap!=array+size;++ap)
{
*ap=i;
++i;
}
}
template <class T> void dynamic_array<T>::rorder()
{
int *ap,i=size;
for(ap=array;ap!=array+size;++ap)
{
*ap=i;
--i;
}
}
template<class T> ostream& operator<<(ostream& stream, dynamic_array<T> const& data)
{
data.print_operator(stream);
return stream;
}
int main()
{
dynamic_array<int> d1(10);
d1.order();
cout << d1;
/*
clock_t time_start=clock();
d1.merge_sort();
clock_t time_end=clock();
double result = (double)(time_end - time_start) / CLOCKS_PER_SEC;
cout << result;
cout << d1;
*/
}
```