Task-1: In Cartesian coordinate system, a linear equation represents a line passing through two discrete points, such as, (1, 1) and (4, 2), respectively. Hence, one can easily describe the "point" object with a C++ class as given below. class Point { public: Point(); Point(.); //default constructor //parameterized constructor //copy constructor //destructor Point(.); Point (); - set_x(..); . set_y(.); .- get_x(..); - get_y(.); . print(); private: int x, У; //some member functions //prints the point object using some format, e.g., [1,2] //data members }; On the other hand, in order to create a "line" object, one can think of executing data composition technique where the line object is composed of two discrete point objects. Hence, one can write the following: class Line { public: Line(); Line(..); Line(.); //default constructor //parameterized constructor //copy constructor -Line(); //destructor . set_point1(..); . set_point2(..); .- get_slope(); .- print(); //some member functions //calculates the slope value //prints the line object using some format //e.g., A line passing through [2,2] and [4,4] with slope = 1.0 private: Point p1, p2; //data composition! }; а. Write definitions of the member functions listed above. b. Rewrite the program by separating the implementation file from the interface using a header file.

Transcribed Image Text:

Task-1: In Cartesian coordinate system, a linear equation represents a line passing through two discrete points, such as, (1, 1) and (4, 2), respectively. Hence, one can easily describe the “point" object with a C++ class as given below. class Point { public: Point (); Point(.); //default constructor //parameterized constructor Point(..) ; -Point (); . set_x(..); set_y(..); //copy constructor //destructor //some member functions .. get_x(..); - get_y(...); print(); //prints the point object using some format, e.g., [1,2] private: int x, у; //data members }; On the other hand, in order to create a "line" object, one can think of executing data composition technique where the line object is composed of two discrete point objects. Hence, one can write the following: class Line { public: Line(); //default constructor Line(..); Line(..); -Line(); //parameterized constructor //copy constructor //destructor .- set_point1(...); . set_point2(...); .- get_slope(); print(); //some member functions //calculates the slope value //prints the line object using some format //e.g., A line passing through [2,2] and [4,4] with slope = 1.0 private: Point p1, p2; //data composition! }; а. Write definitions of the member functions listed above. b. Rewrite the program by separating the implementation file from the interface using a header file.