CSCI 235 Lab 12 Connecting to a VNC display solution

$29.99

Original Work ?
Category: You will Instantly receive a download link for .ZIP solution file upon Payment

Description

5/5 - (2 votes)

You will use a lab account for a VNC display. The lab account already started a VNC session, so you don’t need to
do Step 3 or 4 of Lab 7’s Task #1. Two steps that you need to do are:
1. Create a tunnel from your machine to a VNC display (Step 5 of Lab 7’s Task #1).
a. A cslab machine number and a display number will be provided to you.
b. For example, if the given machine is cslab10, and the display number is 12, the command for
creating a tunnel to the display will be:
• Mac Terminal:
ssh –L 5901:localhost:5912 your_loginID@cslab10.wheaton.edu
• Windows PuTTY:
Host Name: cslab10.wheaton.edu
For Connection, SSH, Tunnels: 5901 for the “Source port” and localhost:5912 for
the “Destination”.
c. The CS system will prompt for your (ID and) password as usual.
2. Start a VNC viewer on your machine (Step 6 of Lab 7’s Task #1).
a. The given display’s VNC password will be provided. You need to use this password to connect to
the display.
Tips:
• If you don’t see the menu bar at the top of the CS desktop window, right-click the desktop screen to get
Applications menu.
• When you are done with the desktop, close the desktop and connection by doing:
o For TightVNC, use the X button at the top corner of the window.
o For Mac, in Screen Sharing menu at the top, select Connection, and select Close.
===
Documentation and styling of your code will be part of your grade.
Create a new directory and cd to it. Then copy starting files from the course directory to your current directory.
$ cp /cslab/class/csci235/labs/lab12/* .
You should have two files, FifteenPuzzle.java and PuzzlePiece.java.
Fifteen Puzzle
A Fifteen Puzzle consists in a grid of square, same-sized tiles, with all but one of the grid positions filled. The
object of the game is to rearrange the tiles by sliding the tiles one at a time until a certain configuration is reached.
You will write a program that simulates a fifteen puzzle.
Open FifteenPuzzle.java, and inspect the code. Before moving to the next paragraph, answer to the
following questions (Your answers will not be collected, but DO NOT skip the questions!):
1. How many buttons will be generated from the first nested for loop?
2. What is the action listener class? What is the type of pieces?
3. What arguments are passed to the action listener’s constructor? How does the variable counter work?
4. How many listener objects are generated?
2
5. What class has the method addNeighbor? What is the argument to the method? What is its type?
6. See the second nested for loop, and answer to the following questions:
a. When i is 0, and j is 0, what pieces are linked to pieces[0][0]?
b. When i is 1, and j is 0, what pieces are linked to pieces[1][0]?
c. When i is 2, and j is 2, what pieces are linked to pieces[2][2]?
d. What is the maximum number of neighbors? What is the minimum number of neighbors? Why
does this difference exist on the grid?
e. See the below figure, which is the window generated by the complete FifteenPuzzle program.
i. What does this second nested loop do?
ii. The provided starting file needs to be edited for this complete window.
Each button stands for a tile or block in the puzzle. Fifteen of them will have numbers, and the 16th (numbered 0)
will be blank. We won’t actually move the buttons around; instead, we will change the numbers on the buttons to
give the appearance of moving tiles. When a button is clicked, the following should happen:
• If it is blank, nothing should happen.
• If it is not blank and none of its neighbors is blank (neighbors meaning immediately above, below, left, or
right; diagonals do not count), nothing should happen.
• If one of its neighbors is the blank one, then the blank neighbor should change to have the clicked button’s
number, and the clicked button should turn blank.
Task #1: Each button needs to have an action listener to perform one of the above behaviors. We are using an
action listener class called PuzzlePiece, and your task is to complete this class.
• Open the file, and see the four instance variables. Why does each PuzzlePiece object need these four
instance variables? Document each variable based on your understanding on the code.
Task #2: Complete the following methods next:
• PuzzlePiece(JButton, int): This constructor tells the action listener what button it is attached to and
the number in the order the buttons were made (1 to 15, with the last one numbered 0). It also takes care of
setting the text on the corresponding button. You’ll need to fix its body so that the button for 0 shows as
blank. In addition, create or initialize the instance variables.
o After completing the constructor, run the program. You should see the empty button instead of the
button with 0.
The code basically adds sixteen buttons to the window, numbered
from 1 through 15 and then 0. Compile and run FifteenPuzzle, and
see that the buttons are put right on top of each other: thus, you see
only one of them. Update the code so that you can see all of the
16 buttons arranged in a square as seen in the figure.
• Hint: Resize the window, and use a layout manager.
• You will not see the empty button when running the
current version of FifteenPuzzle. Instead, you will see a
button with 0. The work for presenting the empty button
should be done by the action listener class.
3
• addNeighbor(PuzzlePiece): When a button is clicked, it affects its neighbors. The action listener is
not going to have direct access to the neighboring buttons, but it should have references to the action
listeners attached to those buttons (You can perform some actions on the neighboring buttons through
those references). How can we store this information for later reuse? Write the method body.
o Hint: Find the code of FifteenPuzzle that calls addNeighbor. Whenever this method is called, the
reference delivered through the formal parameter, neighbor should be stored in the array,
neighbors. In addition, the instance variable, numOfNeighbors should be updated accordingly.
• actionPerformed(ActionEvent): This method should implement the actions described above.
o Hint: Determine if one of the neighbors is blank, and then make any necessary changes. Recall that
the information about the neighbors has been stored in the array. Each element of the array (a
neighbor) is in the type of PuzzePiece, so your code can directly access to the neighbor’s instance
variables (the four variables).
o Important: When a PuzzlePiece’s instance variable, number is updated, the corresponding text on
the button should be also updated, and vice versa.
o If you want, you can add a few extra helper methods that can be used by this method.
Run the FifteenPuzzle program, and see if it works. Make sure to understand how all the programming
components are related and work together in the program.
Important: After you email your files to the TA, delete your lab folder for the next
team. Your display will be available during the scheduled lab hours only.
What to submit
• Email FifteenPuzzle.java and PuzzlePiece.java to your TA:
o 8:30 am session: to Drew at drew.smith@my.wheaton.edu
o 1:15 pm session: to Brian at brian.drown@my.wheaton.edu
o In the subject line, put “CSCI 235 Lab 12 (the first initial of your first name and your last name;
the first initial of the partner’s first name and the last name)”
§ For example, CSCI 235 Lab 12 (HKim; JSmith)