I need the code from start to end with no errors and the explanation for the code Objectives Java refresher (including file I/O) Use recursion Description For this project, you get to write a maze solver. A maze is a two dimensional array of chars. Walls are represented as '#'s and ' ' are empty squares. The maze entrance is always in the first row, second column (and will always be an empty square). There will be zero or more exits along the outside perimeter. To be considered an exit, it must be reachable from the entrance. The entrance is not an exit. Here are some example mazes: mazeA 7 9 # # ##### # # # # # # # ### # # # # ##### # # # ######### Requirements Write a MazeSolver class in Java. This program needs to prompt the user for a maze filename and then explore the maze. Display how many exits were found and the positions (not indices) of the valid exits. Your program can display the valid exits found in any order. See the examples below for exact output requirements. Also, record a 5-8 minute video explaining the major portions of your code, including how you designed the recursion to explore the entire maze. Identify the base case. Include in the recording your program running. Also include any shortcomings or future work. Submit either the video or a link to the video (youtube.com, Google Drive, etc.) Furthermore, create a file named rubric-mazeSolver.txt that is a completed rubric (including the number of hours spent on the assignment). Examples Note, user input is in bold face blue and underlined text is required for test cases. mazeA Please enter the maze filename: project1-testA.txt You entered project1-testA.txt Found 1 exit at the following positions: 1,4
I need the code from start to end with no errors and the explanation for the code
Objectives
Java refresher (including file I/O)
Use recursion
Description
For this project, you get to write a maze solver. A maze is a two dimensional array of chars. Walls are represented as '#'s and ' ' are empty squares. The maze entrance is always in the first row, second column (and will always be an empty square). There will be zero or more exits along the outside perimeter. To be considered an exit, it must be reachable from the entrance. The entrance is not an exit.
Here are some example mazes:
mazeA
7 9
# # #####
# # # #
# # # ###
# # #
# ##### #
# #
#########
Requirements
Write a MazeSolver class in Java. This program needs to prompt the user for a maze filename and then explore the maze. Display how many exits were found and the positions (not indices) of the valid exits. Your program can display the valid exits found in any order. See the examples below for exact output requirements. Also, record a 5-8 minute video explaining the major portions of your code, including how you designed the recursion to explore the entire maze. Identify the base case. Include in the recording your program running. Also include any shortcomings or future work. Submit either the video or a link to the video (youtube.com, Google Drive, etc.) Furthermore, create a file named rubric-mazeSolver.txt that is a completed rubric (including the number of hours spent on the assignment).
Examples
Note, user input is in bold face blue and underlined text is required for test cases.
mazeA
Please enter the maze filename: project1-testA.txt
You entered project1-testA.txt
Found 1 exit at the following positions:
1,4
Introduction
Java class: Class is a blueprint or template used to create objects in Java. It defines the state and behavior of objects that belong to it. It defines the properties, methods, and other members that the objects of a class will possess.
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