[SOLVED] CS data structure Java algorithm CS1027 ASSIGNMENT 2 Computer Science Fundamentals II

$25

File Name: CS_data_structure_Java_algorithm_CS1027_ASSIGNMENT_2_Computer_Science_Fundamentals_II.zip
File Size: 800.7 KB

5/5 - (1 vote)

CS1027 ASSIGNMENT 2 Computer Science Fundamentals II
This assignment is due on Thursday, March 4th, 2021 by 11:55pm. See the bottom of this document for submission details.
Learning Outcomes
To gain experience with
Solving problems with the stack data type
The design of algorithms in pseudocode and their implementations in Java
Handling exceptions
Introduction
Valentines Day is fast approaching, and the hero of our story, Cupid, is trying his best to spread some platonic love and friendship in these gloomy times. If you didnt know, Cupid is an archer, and archers often prefer staying still and spending their time taking good shots with their bow. Cupid is no different in this regard, but hes heard youve been learning about stacks and algorithm design and was wondering if you could help him simulate some scenarios so that hes in tip-top shape (He hasnt been getting out much with the pandemic). He also understands that your assignment isnt due until the 4th of March, but hes happy to have it for future years anyways.
You are given a map that describes Cupid and the targets for his arrows, which is divided into rectangular cells to simplify the task of computing the required path. There are different types of map cells:
The starting point that Cupid wants to use
Map cells where the target is located,
Map cells indicating roadblocks or other barriers
Map cells containing pathways. There are 3 types of pathways:
o Cross paths. A cross path located in cell L can be used to interconnect all the neighbouring map cells of L. A cell L has at most 4 neighbouring cells that we denote as the north, south, east, and west neighbours. The cross path can be used to interconnect all neighbours of L;
o Verticalpaths.Averticalpathcanbeusedtoconnectthenorthandsouth neighbours of a map cell; and
o Horizontalpaths.Ahorizontalpathcanbeusedtoconnecttheeastandwest neighbours of a map cell.

CS1027 ASSIGNMENT 2 Computer Science Fundamentals II
Figure 1 shows an example of a map divided into cells.
Each map cell has up to 4 neighbouring cells indexed from 0 to 3.
Given a cell, the north neighbouring cell has index 0 and the remaining neighbouring cells are indexed in clockwise order. For example, in Figure 1 the neighbouring cells of cell 8 are indexed from 0 to 3 as follows: neighbour with index 0 is cell 1, neighbour with index 1 is cell 9, neighbour with index 2 is cell 13, and neighbour with index 3 is cell 7.
Some cells have fewer than 4 neighbours and the indices of these neighbours might not be consecutive numbers; for example, cell 4 in Figure 1 has 2 neighbours indexed 1 and 2 (no 0 or 3 neighbours).
A path from Cupid (cell number 12 in the figure) to a target (cell number 0) is the following:
12, 7, 2, 1, 0. A path from Cupid to another target (cell number 4) is the following: 12, 7, 2, 3, 4. Note that in some other maps, cells will be inaccessible because they are walls, or because the path is horizontal and the only way is vertical, or vice versa.
Valid Paths
When looking for a path the program must satisfy the following conditions:
The path can go from Cupid, a cross path cell, or a target cell to the following
neighbouring cells:
o Atargetcell,
o Acrosspathcell,
o The north cell or the south cell, if such a cell is a vertical path, or o The east cell or the west cell, if such a cell is a horizontal path.
The path can go from a vertical path cell to the following neighbouring cells:
o The north cell or the south cell, if such a cell is either Cupid, a cross path cell, a
target cell, or a vertical path cell.
The path can go from a horizontal path cell to the following neighbouring cells:
o The east cell or the west cell, if such a cell is either Cupid, a cross path cell, a target cell, or a horizontal path cell.

CS1027 ASSIGNMENT 2 Computer Science Fundamentals II
Figure 1. A sample of one of Cupids maps represented as a grid of cells
Limitation:
If while looking for a path the program finds that from the current cell there are several choices as to which adjacent cell to use to continue the path, your program must select the next cell for the path in the following manner:

CS1027 ASSIGNMENT 2 Computer Science Fundamentals II
An object in motion in motion will stay in motion unless acted on by an unbalanced force. The arrows will continue in the same direction they were heading if the path is available.
The program prefers a target cell over the other cells.
If there is no target cell adjacent to the current cell, then the program must prefer the
cross path cell over the other cells; and
If there is no cross-path cell, then the program chooses the smallest indexed cell that
satisfies the conditions described above.
While Cupids arrows are magic, they are only so magical. The arrows Cupid uses can
backtrack up to 3 times before they are unable to do so again.
Cupids arrows can only turn so much as well. Keep track of the inertia of the arrow by
tracking how many times it has traveled in the same direction. After it has taken 3 steps in the same direction, it can no longer turn. For simplicity, it may take 2 steps and turn as many times as needed for the pathfinding. Note: The initial step required to pick a direction does not count for inertia.
Importantly, Cupid will only shoot an arrow down the same path once.
Cupids arrows should stop when they hit a target, and the stack should be popped until
empty.
The distance Cupid can shoot an arrow is configurable and provided as an argument to
the program.
Lastly, Cupid fires arrows one at a time.
Provided files
The following is a list of files provided to you for this assignment. You do not need alter these files in any way and should assume we will mark them with unmodified ones. Studying these will help improve your understanding of Java.
Map.java This class represents the map of the neighbourhood, including Cupids starting location and the target houses. The public methods from this class you might use include:
o Map(StringinputFile)throwsInvalidMapException,FileNotFoundException, IOException. This method reads the input file and displays the map on the screen. An InvalidMapException is thrown if the inputFile has the wrong format.
o MapCell getStart(). Returns a MapCell object for the cell that Cupid starts in. o IntquiverSize().ReturnsthenumberoftargetsthatcanfitinCupidsquiver. o Note: Lines 45-47 set the delay times for showing the path. You may wish to
enable line 47 when testing many maps to have it go quicker.

CS1027 ASSIGNMENT 2 Computer Science Fundamentals II
MapCell.java This class represents the cells of the map. Objects of this class are created inside the class Map when its constructor reads the map file. The methods that you might use from this class are:
o MapCellneighbourCell(inti)throwsInvalidNeighbourIndexException.As explained in Section 1, each cell of the map has up to four neighbouring cells, indexed from 0 to 3. This method returns either a MapCell object representing the i-th neighbour of the current cell or null if such a neighbour does not exist. Remember that if a cell has fewer than 4 neighbouring cells, these neighbours do not necessarily need to appear at consecutive index values. So, it might be, for example, that this.getNeighbour(2) is null, but this.getNeighbour(i) for all other values of i are not null. An InvalidNeighbourIndexException exception is thrown if the value of the parameter i is negative or larger than 3.
o boolean methods: isBlocked(), isCrossPath(), isVerticalPath(), isHorizontalPath(), isCupid(), isTarget(), return true if this MapCell object represents a cell corresponding to a blocked path, a cross path, a vertical path, a horizontal path, Cupid, or a target respectively.
o boolean isMarked() returns true if this MapCell object represents a cell that has been marked as inStack or outOfStack.
o void markInStack() marks this MapCell object as inStack.
o void markOutStack() marks this MapCell object as outOfStack.
Other classes provided:
o ArrayStackADT.java,CellColors.java,CellComponent.java,
InvalidNeighbourIndexException.java, CellLayout.java, InvalidMapException.java, IllegalArgumentException.java.
Classes to implement
A description of the classes that you are required to implement for full marks in this assignment are given below. You may implement more classes if you want; you must submit the code for these with your assignment.

CS1027 ASSIGNMENT 2 Computer Science Fundamentals II
In all these classes, you may implement more private (helper) methods as desired, but you may not implement more public methods. You may not add static methods or instance variables. Penalties will be applied if you implement these.
For this assignment, you may not use Javas Stack class, although reading and understanding the code there may help you better understand stacks. You also may not use any other pre- made Java collections libraries. The data structure required for this assignment is an array, described below:
ArrayStack.java
This class implements a stack using an array. The header for this class must be this:
public class ArrayStack implements ArrayStackADT
This class will have the following private instance variables: T[] stack.
o Thisarraystoresthedataitemsofthestack.
int top.
o This variable stores the position of the last data item in the stack. In the
constructor this variable must be initialized to -1, this means the stack is empty. o Note that this is different from the way in which the variable top is used in the
lecture notes.
This class will have the following public static variable: public static String sequence;
o Usedfortrackingthearrowpath.
This class needs to provide the following public methods:
ArrayStack()
o Createsanemptystack.
o The default initial capacity of the array used to store the items of the stack is 14 (for Valentines day)
ArrayStack(int initialCapacity).
o Createsanemptystackusinganarrayoflengthequaltothevalueofthe
parameter.
void push(T dataItem)

CS1027 ASSIGNMENT 2 Computer Science Fundamentals II
o AddsdataItemtothetopofthestack.Ifthearraystoringthedataitemsisfull, you will increase its capacity as follows:
If the capacity of the array is smaller than 50, then the capacity of the array will be increased by 10.
Otherwise, the capacity of the array will increase by doubling the initial size. So, if, for example, the size of the array is 225 and the array is full, when a new item is added the size of the array will increase to 450.
At the end of this method, add the following. This is used in TestSearch to make sure you are following a correct path:
if (dataItem instanceof MapCell) {
sequence += push + ((MapCell)dataItem).getIdentifier();
}
else {
sequence += push + dataItem.toString(); }
T pop() throws EmptyStackException
o Removes and returns the data item at the top of the stack. An
EmptyStackException is thrown if the stack is empty.
o Ifafterremovingadataitemfromthestackthenumberofdataitemsremaining
is smaller than one fourth of the length of the array you need to shrink the size of
the array by one half, to a minimum of 14;
o To do this create a new array of size equal to half of the size (to a minimum of
14) of the original array and copy the data items there.
o For example, if the stack is stored in an array of size 100 and it contains 25 data
items, after performing a pop operation the stack will contain only 24 data items. Since 24 < 100/4 then the size of the array will be reduced to 50. When creating an EmptyStackException an appropriate String message must be passed as parameter.At the end of pop(), add the following lines: if (result instanceof MapCell) {sequence += “pop” + ((MapCell)result).getIdentifier(); } CS1027 ASSIGNMENT 2 Computer Science Fundamentals II else {sequence += “pop” + result.toString(); }T peek() throws EmptyStackException.o Returnsthedataitematthetopofthestackwithoutremovingit.AnEmptyStackException is thrown if the stack is empty. boolean isEmpty().o Returns true if the stack is empty and returns false otherwise. int size()o Returns the number of data items in the stack. int length()o Returns the capacity of the array stack.String toString()o Returns a String representation of the stack of the form:Stack: elem1, elem2, …” where element i is a String representation of the i-thelement of the stack.o If, for example, the stack is stored in an array called s, then element 1 iss[0].toString(), element 2 is s[1].toString(), and so on.You can implement other methods in this class, if you want to, but they must be declared as private.StartSearch.javaThis class will have the following private instance variableo Map targetMap;o This variable will reference the object representing the map where Cupid and thetargets are located. This variable must be initialized in the constructor for theclass, as described below.o int numArrows, for how many arrows Cupid has fired so far. Compare this to thequiverSize from the Map.o int inertia, which is used for tracking how many times an arrow has travelled inthe same direction. It should start at 0 and increase everytime an arrow moves inthe same direction.o int direction, which is used for tracking the direction of the arrow. 0 is north, 1 iseast, 2 is south, 3 is west. (Or Up, Right, Down, Left, respectively)CS1027 ASSIGNMENT 2 Computer Science Fundamentals IIIt should import: import java.io.FileNotFoundException; & import java.io.IOException; You must implement the following methods in this class: StartSearch(String filename)o This is the constructor for the class. It receives as input the name of the filecontaining the description of the map. In this method you must create an object of the class Map (described in the provided files) passing as parameter the given input file; this will display the map on the screen.o Read them if you want to know the format of the input files. static void main(String[] args).o This method will first create an object of the class StartSearch using the constuctor StartSearch(args[0]).o Args[0] will be the name of a map file, args[1] will be the number of cells that the arrow can travel before it falls to the ground.o If and only if a size argument is provided, your algorithm should count how many targets can be found in a path that is at most args[1] long with the number of arrows determined by the map.o When you run the program, you will pass as command line arguments the name of the input file (see following section after Java classes), and the number of cells that Cupid can hit from his starting point to find target along with the number of arrows.o Your main method then will try to find a path from Cupid to the targets according to the restrictions specified above.o The algorithm that looks for a path from the initial cell to the destinations must use a stack and it cannot be recursive.o Suggestions on how to look for this path are given in the next section. The code provided to you will show the path selected by the algorithm as it tries to reach the target cells, so you can visually verify if your program works.o The main method should exit by printing out the number of targets found given the restrictions above (maximum arrow length, maximum number of arrows, Cupid wont shoot down the same path twice. MapCell nextCell(MapCell cell).o Theparameteristhecurrentcell.o This method returns the best cell to continue the path from the current one, asspecified early in the limitations.o Refertothoseprioritieswhencodingthissection. CS1027 ASSIGNMENT 2 Computer Science Fundamentals IIo If several unmarked cells are adjacent to the current one and can be selected as part of the path (remember the arrow will stay on the same path first), then this method must return one of them in the following order: A target cell A cross path cell. If there are several possible cross path cells, then the one with thesmallest index is returned. A vertical path cell or a horizontal path cell with smallest index Read the description of the class MapCell below to learn how to get theindex of a neighbouring cell. If there are no unmarked cells adjacent to the current one that can beused to continue the path, this method returns null.o Your program must catch any exceptions that are thrown by the provided code. o For each exception caught, an appropriate message must be printed.o The message must explain what caused the exception to be thrown.You can write more methods in this class but they must be declared as private.Algorithm for Computing a PathBelow is a description for an algorithm that will look for a path for Cupid to the targets. It will be helpful to understand the algorithm deeply before attempting to implement it. There are better algorithms for finding targets given a maximum path length, but they may not pass all the tests. Implement the algorithm as described to make sure your code passes the test cases.You must use a stack to keep track of which cells are in the path, and it cannot be recursive. Writing your algorithm in pseudocode will make coding it in Java easier and is helpful to show to the TAs and the instructors if you need help. Initialize the number of found targets to 0. Create a stack based on the command line inputs Get the start cell (Cupid) using the methods of the supplied class Map. Push the starting cell into the stack and mark the cell as inStack. You will use methods of the class MapCell to mark a cell. While the stack is not empty and Cupid has arrows left, and the arrow path length hasnot been reached, perform the following steps:o Peek at the top of the stack to get the current cell.o Find the next unmarked neighbouring cell (use method nextCell from classStartSearch to do this). o If one exists: Push the neighbouring cell into the stack and mark it as inStack. (If max path length given) Increase the path length counter CS1027 ASSIGNMENT 2 Computer Science Fundamentals II If the best neighbouring cell is a target, increase the number of targets hit o Otherwise, since there are no unmarked neighbouring cells that can be added to the path, pop the top cell (and increase the path length counter) from the stack. While the stack is not empty perform the following:o Pop the top cell from the stack.o When popping cells adjacent to Cupid, mark as out of stack.Your program must print a message indicating how many targets were hitNote that your algorithm does not need to find the shortest path from Cupid to all the targets, or even the shortest path with the pathing restraints.Command Line ArgumentsYour program must read the name of the input map file from the command line. You can run the program with the following command:java StartSearch nameOfMapFile (optional)maxPathLengthWhere nameOfMapFile is the name of the file containing the map, and maxPathLength is the longest path that Cupids arrow can take to find targets.You can use the following code to verify that the program was invoked with the correct number of arguments:public class StartSearch {public static void main (String[] args) {if (args.length < 1) {System.out.println(“You must provide the name of the input file”); System.exit(0);}String mapFileName = args[0];int maxPathLength = Integer.parseInt(args[1]); … CS1027 ASSIGNMENT 2 Computer Science Fundamentals IIYou can access run configurations as follows:In the text box for Program arguments, you can type your arguments in. Ex: map3.txt above, or map3.txt 20 for map 3 with a maximum of 20 steps.Image Files and Sample Input Files Provided You are given several image files that are used by the provided Java code to display the map cells on the screen. You are also given several input map files that you can use to test your program. In Eclipse put all these files inside your project file in the same folder where the srcfolder is. Do not put them inside the src folder as Eclipse will not find them there.CS1027 ASSIGNMENT 2 Computer Science Fundamentals II If your program does not display the map correctly on your monitor, you might need to move these files to another folder, depending on how your installation of Eclipse has been configured.Marking notesMarking categories Functional specificationso Does the program behave according to specifications? o Does it produce the correct output and pass all tests? o Are the class implemented properly?o Are you using appropriate data structures?CS1027 ASSIGNMENT 2 Computer Science Fundamentals II Non-functional specificationso Are there Javadocs comments and other comments throughout the code? o Are the variables and methods given appropriate, meaningful names?o Is the code clean and readable with proper indenting and white-space?o Is the code consistent regarding formatting and naming conventions? Penaltieso Lateness:10%perdayo Submissionerror(i.e.missingfiles,toomanyfiles,ZIP,etc.):5% o “package”lineatthetopofafile:5%Remember you must do all the work on your own. Do not copy or even look at the work of another student. All submitted code will be run through cheating-detection software.Submission (due Thursday, March 4th, 2020 at 11:55pm ET)Rules Please only submit the files specified below. Do not attach other files even if they were part of the assignment. Submit the assignment on time. Late submissions will receive a penalty of 10% per day. Forgetting to submit is not a valid excuse for submitting late. Submissions must be done through Gradescope Submitting the files in an incorrect submission page or website will receive a penalty. Assignment files are NOT to be emailed to the instructor(s) or TA(s). They will not be marked if sent by email. You may re-submit code if your previous submission was not complete or correct, however, re-submissions after the regular assignment deadline will receive a penalty.Files to submit ArrayStack.java StartSearch.java Any custom classes used.Grading Criteria Total Marks: [20] Functional Specifications:o [4]ArrayStack.java o [4] StartSearch.java CS1027 ASSIGNMENT 2 Computer Science Fundamentals IIo [8]PassingTests Non-Functional Specifications:o [1] Meaningful variable names, private instance variables o [1] Code readability and indentationo [2]Codecomments

Reviews

There are no reviews yet.

Only logged in customers who have purchased this product may leave a review.

Shopping Cart
[SOLVED] CS data structure Java algorithm CS1027 ASSIGNMENT 2 Computer Science Fundamentals II
$25