$30
1. Create a file HockeyTeam.java which will implement a class of objects that will store some information about a hockey team. In your file, implement the following variables and methods.
a. private instance variables that will store the team’s name (a String), and the number of wins, losses, and overtime losses (three int values).
b. a constructor that will accept those four data values, in the order listed above. A new HockeyTeam object will always be created by using an expression such as
new HockeyTeam("Winnipeg",22,14,8)
c. three public methods void won(), void lost(), and void lostOvertime(), each of which will add one to the corresponding integer value.
d. a public method int points() which will calculate and return the number of points that the team has. A team receives 2 points for each win, 0 points for each loss, and 1 point for each overtime loss.
e. a public method String toString() which will return a String giving all of the information stored about a team, and the number of points that the team has, in the format "Winnipeg(22,14,8=52)" where 52 is the number of points (22*2+8). This method should call the points() method.
2. Run the supplied file TestLab1Bronze.java to test your HockeyTeam class. Look at the contents of that file to see how it is creating, updating, and printing team data. If your class is working correctly the output should be:
Initial teams:
Winnipeg(22,14,8=52) Chicago(28,13,2=58)
Colorado(18,17,8=44)
St. Louis(27,13,3=57) Dallas(19,16,7=45)
Minnesota(18,19,5=41)
Nashville(29,9,4=62)
Final teams:
Winnipeg(28,14,8=64) Chicago(28,15,2=58)
Colorado(19,17,9=47)
St. Louis(28,13,4=60) Dallas(19,18,7=45) Minnesota(18,20,5=41)
Nashville(29,9,5=63)
1. Modify your HockeyTeam class by adding the following class (static) variables and methods:
a. A few private class variables to keep a list of all of the HockeyTeam objects that have been created, as a partially-full array with a maximum capacity of 64 teams. You will need an array of HockeyTeam objects, an int to keep track of the current number of teams, and a constant for the maximum capacity (64). (A separate HockeyTeamList class would be another way to do this – don’t do that this time. If you know how to use an ArrayList, go ahead and use one of those instead of an array if you want to.)
b. Modify the constructor, so that every time a new HockeyTeam object is created it will be added to the list of HockeyTeam objects.
c. Add a public class method void listTeams() which will print all of the teams in the list, one per line. You can simply use System.out.println to print a
HockeyTeam, and the toString method you wrote in the Bronze exercise should take care of the rest automatically.
2. Modify the supplied file TestLab1Silver.java to test your new HockeyTeam class. In two places, marked with ****ADD ONE LINE HERE****, add a line that will call your listTeams class method.
3. Run the TestLab1Silver.java file to test your modified class. The output should be identical to the Bronze exercise output, except that now it is your listTeams method that is doing the printing, not the main method.
When the list of teams is printed, it should be sorted into descending order according to the number of points each team has, as standings always are.
The built-in method Arrays.sort(a, 0, n) will sort elements a[0] to a[n-1] of any array of objects a, provided that a compareTo method has been supplied that will compare those objects. You will need the import statement import java.util.Arrays; to access this method.
Modify your HockeyTeam class to use this method to sort the teams.
1. Add a public instance method int compareTo(Object other) which will compare a HockeyTeam object to some other object. The type Object is a generic type that can refer to any object. Use the ordinary cast (HockeyTeam)other to convert it into a HockeyTeam object before using it. This method should return a negative number if the other team is “larger” and should appear later in the list, a positive number if the other team is “smaller” and should appear earlier in the list, and a zero if the two teams are equal and can appear in either order.
2. Add the words implements Comparable to your class header, just before the {. This means “I hereby promise to implement a compareTo method.” and allows Arrays.sort to be used.
3. Write a public class method void sortTeams() which uses the Arrays.sort method to sort the teams in your list of teams into the proper order.
4. Modify the supplied file TestLab1Gold.java to test your new HockeyTeam class. In the places marked with ****ADD ONE LINE HERE****, add lines that will first call your sortTeams class method, and then call your listTeams class method.
5. Run the TestLab1Gold.java file to test your modified class. The output should be identical to the Bronze exercise output, except that now the teams should be listed in descending order according to points.