PLEASE WRITE THE C++ CODE AS FOLLOWS:

1) Design and program necessary C++ Classes with data members and member functions for above functions.

2) For each Class designed, provide default constructor, copy constructor, and constructor with arguments.

3) A Driver application to test the graph and demonstrate its functions.

4) Apply atleast three of the following techniques (any 3): inheritance; polymorphism; operator overloading; template; exception handling.

PLEASE COMMENT ON YOUR CODE FOR EVERY LINE YOU WRITE TO THUMB UP YOU :)

A directed graph is graph, i.e., a set of objects (called vertices or nodes) that are connected together, where all the edges are directed from one vertex to another. In contrast, a graph where the edges are bidirectional is called an undirected graph. A graph can be formally define as G=(N,E) consisting of the set N of nodes and the set E of edges, which are ordered pairs of elements of N. It is further assumed in this project specification that any graph is finite with no directed or undirected cycles. An example is given below for directed graph. V = {1,2,3,4,5,6} E = {(1,2), (1,4),(2,3), (2,4),(2,5),(3,4),(5,3), (6,3), (6,5)} 1 6 4 5 A graph has many useful applications in the real world, such as scheduling of tasks; network topology; family tree; data compression; literature citation, social connections and so on. This project requires you to develop an object oriented application of a graph. Example applications can be social connection network, equipment connections, course sequences, family trees and so on. The graph application should achieve the following base function: 1. A graph can be empty with no vertex or edge. 2. A graph can be either a directed graph or an undirected graph. 3. A graph can be added in vertices and edges. 4. A vertex of a graph can contain values in theory, the values can be of any type. 5. A graph can be displayed by listing all the possible paths, each linking vertices. 6. A graph can be queried by given a starting vertex, listing the path this vertex leads. 7. A graph can be queried by given an edge, if this edge exists in the graph 8. A graph can be queried if a value is contained by any of its vertex. A directed graph is graph, i.e., a set of objects (called vertices or nodes) that are connected together, where all the edges are directed from one vertex to another. In contrast, a graph where the edges are bidirectional is called an undirected graph. A graph can be formally define as G=(N,E) consisting of the set N of nodes and the set E of edges, which are ordered pairs of elements of N. It is further assumed in this project specification that any graph is finite with no directed or undirected cycles. An example is given below for directed graph. V = {1,2,3,4,5,6} E = {(1,2), (1,4),(2,3), (2,4),(2,5),(3,4),(5,3), (6,3), (6,5)} 1 6 4 5 A graph has many useful applications in the real world, such as scheduling of tasks; network topology; family tree; data compression; literature citation, social connections and so on. This project requires you to develop an object oriented application of a graph. Example applications can be social connection network, equipment connections, course sequences, family trees and so on. The graph application should achieve the following base function: 1. A graph can be empty with no vertex or edge. 2. A graph can be either a directed graph or an undirected graph. 3. A graph can be added in vertices and edges. 4. A vertex of a graph can contain values in theory, the values can be of any type. 5. A graph can be displayed by listing all the possible paths, each linking vertices. 6. A graph can be queried by given a starting vertex, listing the path this vertex leads. 7. A graph can be queried by given an edge, if this edge exists in the graph 8. A graph can be queried if a value is contained by any of its vertex