Maze Program plan: Maze.java Create a class named “Maze”. Inside the class, Declare the required variables Define the “Maze ()” method. Initialize the values. Define the “pathsFrom ()” method. Create an array list. Use necessary conditions to validate the rows and columns. Return the path required after validation. Loop that iterates for the path Call the method “extend()” Define the “extend ()” method. Assign the value Loop that iterates for validating the path and position whether there is a straight path or a turn required. Else make the visit to the next rows and column to explore the path Define the “isExit ()” method. Return the position. Define the “isDeadEnd ()” method. Return true if the position is dead end Define the “isValid ()” method. Return true is the position is valid Define the “countNeighbors ()” method. Condition to validate the neighbors are with the maze and not with the walls. Return the count MazeSolver.java Create a class named “MazeSolver”. Inside the class, Define the method “solve ()” Create a new stack Set for the visited intersection is defined. Add the required rows and columns. Loop that iterates for the path Move to the path Loop that iterates for the size of the stack. Assign the required path. Assign the required row and columns Use necessary condition to validate the maze rows and columns and display the appropriate messages. MazeSolverDemo.java Create a class named “MazeSolverDemo”. Inside the class, Define the method “main ()” Define the maze. Call the method to solve the maze. Path.java Create a class named “Path”. Inside the class, Define the required variables. Define the method “path ()” Initialize the required variables. Define the method “move ()” Assign the row and columns. Define the method “turn ()” Assign the direction Calculate the ending direction. Define the method “getEndingRow ()” Return the end row. Define the method “getEndingColumn ()” Return the end columns. Define the method “getNextRow ()” Return the next row. Define the method “getNextColumn ()” Return the next columns Define the method “isOpposite ()” Return true if direction are opposite Define the method “isOpposite ()” Return true if direction are opposite Define the method “toString ()” Assign the result. Condition to validate the rows and columns Return the result.

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Chapter 15, Problem 21PE

Program Plan Intro

Maze

Program plan:

Maze.java

Create a class named “Maze”. Inside the class,

Declare the required variables

Define the “Maze ()” method.

Initialize the values.

Define the “pathsFrom ()” method.

Create an array list.

Use necessary conditions to validate the rows and columns.

Return the path required after validation.

Loop that iterates for the path

Call the method “extend()”

Define the “extend ()” method.

Assign the value

Loop that iterates for validating the path and position whether there is a straight path or a turn required.

Else make the visit to the next rows and column to explore the path

Define the “isExit ()” method.

Return the position.

Define the “isDeadEnd ()” method.

Return true if the position is dead end

Define the “isValid ()” method.

Return true is the position is valid

Define the “countNeighbors ()” method.

Condition to validate the neighbors are with the maze and not with the walls.

Return the count

MazeSolver.java

Create a class named “MazeSolver”. Inside the class,

Define the method “solve ()”

Create a new stack

Set for the visited intersection is defined.

Add the required rows and columns.

Loop that iterates for the path

Move to the path

Loop that iterates for the size of the stack.

Assign the required path.

Assign the required row and columns

Use necessary condition to validate the maze rows and columns and display the appropriate messages.

MazeSolverDemo.java

Create a class named “MazeSolverDemo”. Inside the class,

Define the method “main ()”

Define the maze.

Call the method to solve the maze.

Path.java

Create a class named “Path”. Inside the class,

Define the required variables.

Define the method “path ()”

Initialize the required variables.

Define the method “move ()”

Assign the row and columns.

Define the method “turn ()”

Assign the direction

Calculate the ending direction.

Define the method “getEndingRow ()”

Return the end row.

Define the method “getEndingColumn ()”

Return the end columns.

Define the method “getNextRow ()”

Return the next row.

Define the method “getNextColumn ()”

Return the next columns

Define the method “isOpposite ()”

Return true if direction are opposite

Define the method “isOpposite ()”

Return true if direction are opposite

Define the method “toString ()”

Assign the result.

Condition to validate the rows and columns

Return the result.

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