Create class IntegerSet for which each object can hold integers in the range 0 through 100. A set is represented internally as an array of ones and zeros. Array element a[ i ] is 1 if integer i is in the set. Array element a[ j ] is 0 if integer j is not in the set. The default constructor initializes a set to the socalled "empty set," i.e., a set whose array representation contains all zeros.
Provide member functions for the common set operations. For example, provide a unionOfSets member function that creates a third set that is the settheoretic union of two existing sets (i.e., an element of the third set's array is set to 1 if that element is 1 in either or both of the existing sets, and an element of the third set's array is set to 0 if that element is 0 in each of the existing sets).
Provide an intersectionOfSets member function which creates a third set which is the settheoretic intersection of two existing sets (i.e., an element of the third set's array is set to 0 if that element is 0 in either or both of the existing sets, and an element of the third set's array is set to 1 if that element is 1 in each of the existing sets).
Provide an insertElement member function that inserts a new integer k into a set (by setting a[ k ] to 1). Provide a deleteElement member function that deletes integer m (by setting a[ m ] to 0).
Provide a printSet member function that prints a set as a list of numbers separated by spaces. Print only those elements that are present in the set (i.e., their position in the array has a value of 1). Print  for an empty set.
Provide an isEqualTo member function that determines whether two sets are equal.
Provide an additional constructor that receives an array of integers and the size of that array and uses the array to initialize a set object.
Now write a driver program to test your IntegerSet class. Instantiate several IntegerSet objects. Test that all your member functions work properly.
