Videos
(Modify weight in the nine tails problem) In the text, we assign the number of the flips as the weight for each move. Assuming the weight is three times of the number of flips, revise the
Program Plan:
- Create a package “main”.
- Add a java class named “Edge” to the package which is used to get the edges from the graph.
- Add a java class named “Graph” to the package which is used to add and remove vertices, edges.
- Add a java class named “UnweightedGraph” to the package which is used to store vertices and neighbors.
- Add a java class named “WeightedGraph” to the package which is used to get the weighted edges and print the edges.
- Add a java class named “WeightedEdge” to the package which is used to compare edges.
- Add a java class named “NineTailModel” to the package which is used to compare edges.
- Add a java class named “Test” to the package.
- Import the required packages.
- Declare the main class.
- Give the “main ()” method.
- Allocate the memory for the “Test” class.
- Define “Test”.
- Get the initial nine coins from the user.
- Create an object for the “ModifiedWeightedNineTailModel” class.
- Create an array list.
- Display the steps to flip the coin.
- Display the number of flips.
- Define “ModifiedWeightedNineTailModel” class.
- Create an edges and graph.
- Obtain a BSF tree rooted at the target node.
- Define “getEdges” method.
- Create an array list.
- Create all the edges for the graph by calling “getFlippedNode” and “getNumberOfFlips” methods.
- Add edge for a legal move from the node u to v.
- Return the edge.
- Define “getNumberOfFlips” method.
- Declare the required variables.
- Check if the “node1” is not equal to “node2” means increment the “count”.
- Return the value.
- Define “getNumberOfFlips” method.
- Return the total number of flips.
- Give the “main ()” method.
The given program is used to modify weight in the nine tails problem is as follows:
Explanation of Solution
Program:
Edge.java: Refer book from chapter 28 – Listing 28.1.
Graph.java: Refer book from chapter 28 – Listing 28.3.
UnweightedGraph.java: Refer book from chapter 28 – Listing 28.4.
WeightedGraph.java: Refer book from chapter 29 – Listing 29.2.
WeightedEdge.java: Refer book from chapter 29 – Listing 29.1.
NineTailModel.java: Refer book from chapter – Listing 28.13.
Test.java:
//import the required statement
import java.util.ArrayList;
import java.util.List;
import java.util.Scanner;
//definition of "Test" class
public class Test
{
//main method
public static void main(String[] args)
{
//memory allocation
new Test();
}
//definition of "Test"
public Test()
{
// get the input from the user
System.out.print("Enter an initial nine coin H’s and T's: ");
Scanner input = new Scanner(System.in);
String s = input.nextLine();
//declare the variable
char[] initialNode = s.toCharArray();
//create an object
ModifiedWeightedNineTailModel model = new ModifiedWeightedNineTailModel();
//create an ArrayList
java.util.List<Integer> path =
model.getShortestPath (NineTailModel.getIndex(initialNode));
//display the steps to flip the coin
System.out.println("The steps to flip the coins are ");
for (int i = 0; i < path.size(); i++)
NineTailModel.printNode(
NineTailModel.getNode (path.get(i).intValue()));
//display the number of flips
System.out.println("The number of flips is " +
model.getNumberOfFlips (NineTailModel.getIndex(initialNode)));
}
//definition of "ModifiedWeightedNineTailModel"
public static class ModifiedWeightedNineTailModel extends NineTailModel
{
//constructor
public ModifiedWeightedNineTailModel()
{
// create edges
List<WeightedEdge> edges = getEdges();
// create a graph
WeightedGraph<Integer> graph = new WeightedGraph<Integer>(
edges, NUMBER_OF_NODES);
/* obtain a BSF tree rooted at the target node*/
tree = graph.getShortestPath(511);
}
//definition of "getEdge" method
private List<WeightedEdge> getEdges()
{
// create an ArrayList
List<WeightedEdge> edges = new ArrayList<WeightedEdge>();
//check the condition
for (int u = 0; u < NUMBER_OF_NODES; u++)
{
//check the condition
for (int k = 0; k < 9; k++)
{
// get the node for vertex u
char[] node = getNode(u);
//check the condition
if (node[k] == 'H')
{
/*call the "getFlippedNode" method*/
int v = getFlippedNode(node, k);
int numberOfFlips = getNumberOfFlips(u, v);
/* add edge for a legal move from node u to node v*/
edges.add(new WeightedEdge(v, u, numberOfFlips));
}
}
}
//return statement
return edges;
}
//definition of "getNumberOfFlips" method
private static int getNumberOfFlips(int u, int v)
{
//declare the variables
char[] node1 = getNode(u);
char[] node2 = getNode(v);
int count = 0;
//check the condition
for (int i = 0; i < node1.length; i++)
//check the condition
if (node1[i] != node2[i]) count++;
//return statement
return 3 * count;
}
//definition of "getNumberOfFlips" method
public int getNumberOfFlips(int u)
{
//return statement
return (int)((WeightedGraph<Integer>.ShortestPathTree)tree).getCost(u);
}
}
}
Enter an initial nine coin H’s and T's: HHHTTTHHH
The steps to flip the coins are
HHH
TTT
HHH
HHH
THT
TTT
TTT
TTT
TTT
The number of flips is 24
Want to see more full solutions like this?
Chapter 29 Solutions
Introduction to Java Programming and Data Structures, Comprehensive Version, Student Value Edition (11th Edition)
Additional Engineering Textbook Solutions
Starting Out with Programming Logic and Design (5th Edition) (What's New in Computer Science)
Computer Science: An Overview (13th Edition) (What's New in Computer Science)
Mechanics of Materials (10th Edition)
Starting Out with Java: From Control Structures through Objects (7th Edition) (What's New in Computer Science)
Modern Database Management
Java How to Program, Early Objects (11th Edition) (Deitel: How to Program)
- Can I get help with this case please, thank youarrow_forwardI need help to solve the following, thank youarrow_forwardreminder it an exercice not a grading work GETTING STARTED Open the file SC_EX19_EOM2-1_FirstLastNamexlsx, available for download from the SAM website. Save the file as SC_EX19_EOM2-1_FirstLastNamexlsx by changing the “1” to a “2”. If you do not see the .xlsx file extension in the Save As dialog box, do not type it. The program will add the file extension for you automatically. With the file SC_EX19_EOM2-1_FirstLastNamexlsx still open, ensure that your first and last name is displayed in cell B6 of the Documentation sheet. If cell B6 does not display your name, delete the file and download a new copy from the SAM website. Brad Kauffman is the senior director of projects for Rivera Engineering in Miami, Florida. The company performs engineering projects for public utilities and energy companies. Brad has started to create an Excel workbook to track estimated and actual hours and billing amounts for each project. He asks you to format the workbook to make the…arrow_forward
- Need help with coding in this in python!arrow_forwardIn the diagram, there is a green arrow pointing from Input C (complete data) to Transformer Encoder S_B, which I don’t understand. The teacher model is trained on full data, but S_B should instead receive missing data—this arrow should not point there. Please verify and recreate the diagram to fix this issue. Additionally, the newly created diagram should meet the same clarity standards as the second diagram (Proposed MSCATN). Finally provide the output image of the diagram in image format .arrow_forwardPlease provide me with the output image of both of them . below are the diagrams code make sure to update the code and mentionned clearly each section also the digram should be clearly describe like in the attached image. please do not provide the same answer like in other question . I repost this question because it does not satisfy the requirment I need in terms of clarifty the output of both code are not very well details I have two diagram : first diagram code graph LR subgraph Teacher Model (Pretrained) Input_Teacher[Input C (Complete Data)] --> Teacher_Encoder[Transformer Encoder T] Teacher_Encoder --> Teacher_Prediction[Teacher Prediction y_T] Teacher_Encoder --> Teacher_Features[Internal Features F_T] end subgraph Student_A_Model[Student Model A (Handles Missing Values)] Input_Student_A[Input M (Data with Missing Values)] --> Student_A_Encoder[Transformer Encoder E_A] Student_A_Encoder --> Student_A_Prediction[Student A Prediction y_A] Student_A_Encoder…arrow_forward
C++ for Engineers and ScientistsComputer ScienceISBN:9781133187844Author:Bronson, Gary J.Publisher:Course Technology Ptr
C++ Programming: From Problem Analysis to Program...Computer ScienceISBN:9781337102087Author:D. S. MalikPublisher:Cengage Learning
Microsoft Visual C#Computer ScienceISBN:9781337102100Author:Joyce, Farrell.Publisher:Cengage Learning,