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Do Not copy from previous chegg questiosn Read the full assignment: Students will apply concepts of advanced Backtracking. Your solution for each test case must

Do Not copy from previous chegg questiosn
Read the full assignment:
Students will apply concepts of advanced Backtracking.
Your solution for each test case must run within 0.31 seconds.
Kenny is with his friends at the county fair. They got tickets to enter
in the magical corn maze. The maze consists of teleportation pads, that allow you jump through
various spots in the maze. Kenny is really scared to go in, but his friends promise they will
always be together in the corn maze. Unfortunately, they got separated and now Kenny is alone
in the corn maze. Kenny is freaking out until he gets a text from his friend that they are waiting
for him to get to the end. They promise to guide Kenny to the end. However, his phone has a low
battery, so he must hurry (or else he is trap there). Kenny's friends remind him that there are
some magical teleportation pads within the maze that will help him get out fast before his phone
battery dies. However, there are some that can send Kenny to dead ends. Your goal is to get
Kenny out of the magical maze before his phone dies (hence the running time constraint
restriction).
The Maze Files and Understanding the Maze Itself:
You are provided a total of 5 text files. Inside each text file is a maze. Here is a sample below.
The number of rows and columns are all different in each text file, please do not assume
they are the same. However, I can assure you that the time limit will remain the same for
the grading. Meaning, the biggest maze provided will be the same size for when the
graders test your code.
The '*' represents a valid space that Kenny can walk on.
The '@' represents an invalid space that Kenny cannot walk on. Think of it as an
obstacle.
The 'x' represents the exit square. This is basically the destination that Kenny needs to
get to be out of the magical maze.
Kenny can only walk in 4 directions. Up, down, left, and right. Diagonal moves are not
allowed.
The digits such as '1,''2,'3', etc... represent magical squares. These squares will
teleport you to other matching digit in the maze. For example, the ''1' in the above figure,
if walked on, will transport you to the other '1'. It will NOT transport you to the different
digit spots.
Kenny will always start at the bottom left corner of the maze. That is the entry point
technically
Implementation Details:
You are going to create a Class called MagicMaze.
The MagicMaze Class must have the following attributes:
a.2D primitive char array that will store the entire input maze from the provided
text file.
b. A String object that stores the maze number (maze1, maze2, etc...)
c.2 primitive integers that each hold the number of rows and columns in the 2D
maze
d. You are welcome to add additional attributes that feel may be necessary.
The MagicMaze Class has one overloaded constructor with three parameters.
a. A String Object that represents the name of the maze text file
b. A primitive int that represents the number of rows.
c. A primitive int that represents the number of columns.
The MagicMaze Class must have some method that will perform scanning the maze from
the provided text file into the respective class attribute.
The MagicMaze Class has a non-static method called solveMagicMaze, which will be the
actual problem solving (getting Kenny out of the maze) that you will need to implement.
The method returns a Boolean value. If the value is true, then the maze was solved
successfully, otherwise the maze was not solved successfully. You must use
Backtracking to solve this maze. I would recommend creating a recursive method like
the N-Queens problem we did in class.
You are given 5 test mazes inside the provided text files. All text files are in the same
directory as the driver and solution file you are going to implement. DO NOT CREATE
SUBFOLDERS!
You must use Backtracking in your implementation.
Do NOT use any Graph Algorithms.
You are welcome to create helper methods in your solution class, but please do not
modify the driver class in any way. This will result in your code not working properly
when grading, which will result in points being deducted that are not going to be given
back.
A driver file (MagicMazeDriver.java) has been provided for you
to show you how the methods are called along with a test case based on maintaining the given
maze. you will notice the main method uses the args parameter. In order to
test your file when running your code you will need to type some extra things into the terminal.
Besides typing java and the name of the class you want to run, you will need to include text file
to be read, the number of rows, and the number of columns. For example, java
MagicMazeDriver maze4.txt 1520 will run the driver class along with sending the
respective text file to be solved, the number of rows in that particular maze, and number of
columns as well.
this is the driver file:
image text in transcribed

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