TranposeGraph import java.io.*; import java.util.*; // This class represents a directed graph using adjacency list // representation class ALGraph{ private int vertices; // No. of vertices // Array of lists for Adjacency List Representation private LinkedList adj[]; // Constructor ALGraph(int vertices) { this.vertices = vertices; adj = new LinkedList[this.vertices]; for (int i=0; i getAdjacentList(int v) { return adj[v]; } //Function to add an edge into the graph void addEdge(int v, int w) { adj[v].add(w); // Add w to v's list. } // TODO Transpose graph // If the graph includes zero vertices, return null // Create a new ALGraph // For every vertex, retrieve its adjacent list, make a pass over the list and rewrite each edge (u, v) to be (v, u) and add the u into the adjacent list of v public ALGraph transpose(){ } public void displayGraph() { for (int count = 0; count < this.vertices; count++) { System.out.print(count + ": "); int i = 0; for (Integer adjVertice: this.getAdjacentList(count)) { System.out.print(adjVertice.intValue() + (i < this.getAdjacentList(count).size() - 1 ? ", " : " ")); i++; } System.out.println(); } } } public class Main { public static void main(String args[]) { ALGraph g = new ALGraph(7); g.addEdge(0, 1); g.addEdge(0, 2); g.addEdge(0, 5); g.addEdge(1, 2); g.addEdge(1, 3); g.addEdge(3, 0); g.addEdge(3, 2); g.addEdge(4, 2); g.addEdge(4, 6); g.addEdge(5, 0); g.addEdge(5, 2); g.addEdge(6, 3); g.addEdge(6, 4); System.out.println("Before the transposing, we have a graph: "); g.displayGraph(); System.out.println("After the transposing, we have a graph: "); g.transpose().displayGraph(); }

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2) Implement the transpose() method. You could find the Main.java in the TransposeGraph folder of your downloaded and unzipped package login https://repl.it/ and the three dots button in the file panel. Click the upload button upload the incomplete Main.java to https://repl.it/ - fill missing codes in the method, transpose() - run and test

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Transpose of a directed graph G is another directed graph on the same collection of vertices with all of the edges reversed compared to the directions of the corresponding edges in G. That is, if G contains an edge (u, v) then the converse/transpose/reverse of G contains an edge (v, u) and vice versa. Given a graph , we need to find another graph which is the transpose of the given graph. Let us use the follow graphs as an example: M-M i) ii) ----Transpose---> 4 Input: Figure i is the input graph Output: Figure ii is the transpose graph of the input graph. Let us assume that the original graph is represented as in an adjacent list. Adjacency List of the input graph (i): 0: 1, 2, 5 1: 2, 3 2:- 3: 0, 2 4: 2,6 5: 0, 2