Starting from:

$39.99

JAC444 Workshops 8 & 9 Solution


Description:
This assignment lets you practice functional programming as the new paradigm of programming added to Java 8. It includes concepts such as Generics, Functional Interfaces, Lambda Expressions, Method References, Streams, and Collections.

Functional Programming allows you to write programs more concise, and in many cases (like working with collections), faster and with fewer bugs. Mostly, in Functional Programming, you specify what you want to do (not how you want it to be done, as it’s the case in non-functional programming paradigms.) Therefore, in this assignment, you should do all the tasks without using the traditional control statements (for, while, do/while, if/else, switch/case and even recursion) and just by using Functional Programming facilities provided in Java 8.
(the only exception is inside the equals, constructor, and setter methods of class Student
(discussed below); which you could use the if/else control structure!)

Two basic elements of Functional Programming are Lambda Expressions (which are anonymous methods) and Method References, that have had them in the course (Week 9). Java 8 also introduces Streams (hint: don’t mix them up with IO Streams! They are new beasts!) Lambda Expressions and Streams let you do variety of tasks on the elements of a collection with great ease.

In this assignment, you should first define a class Student which has four fields in this order:
firstName as a String, lastName as a String, grade as a double, and department as a
String. Provide one constructor for the class (which takes all the fields), setter and getter methods for all fields, a getName method which returns the full name of the student (ex. “John White”), toString, and equals methods.
We assume that there has been a contest among students of different departments and the results have been gathered as grades. Therefore, in a second class, StudentProcess, you are supposed to use functional programming to do various tasks on a collection of Students.
You might want to have a look at the following classes/interfaces, as you will need them while doing the assignment:
• java.util.Arrays;
• java.util.Comparator;
• java.util.List;
• java.util.Map;
• java.util.TreeMap;
• java.util.function.Consumer;
• java.util.function.BiConsumer;
• java.util.function.Function;
• java.util.function.Predicate;
• java.util.stream.Stream;
• java.util.stream.Collectors;
• java.util.Optional;

Task 1: Create an array of Students in the beginning of your implementations, populate it with some Students, make a list out of your array, and print all its elements. You could create your own Student objects, hard-coded into your program and I will test your code run, against my input (use arbitrary values for first names, last names, grades – between 0.0 and 100.0 – and departments.) There is no need to read data from the file in this assignment (hint: have a look at List<E> class and don’t forget to use method references to do this task and this assignment.)

Task 2: Display Students with grades in the range 50.0-100.0, sorted into ascending order by grade. (hint: you need to return a Stream<Student> out of your List<Student> first, and then use Stream and Comparator classes’ methods classes’ methods.)
Task 3: Display the first student in the collection with grade in the range 50.0-100.0 (hint: you need to return a Stream<Student> out of your List<Student> first, and then use Stream and Optional classes’ methods.)
Task 4: Sort the Students (a)by their last names, and then their first names in ascending and (b)by their last names, and then their first names in descending orders and display the students after each of these two processes. (hint: you need to return a Stream<Student> out of your List<Student> first, and then use Stream and Comparator classes’ methods.)
Task 5: Display unique Student last names, sorted. (hint: you need to return a Stream<Student> out of your List<Student> first, and map it to a Stream<String>, and use its methods.)
Task 6: Display Student full names, sorted in order by last name then first name. (hint: you need to return a Stream<Student> out of your List<Student> first, use Stream class’s methods, and map it to a Stream<String> somewhere along the way.)
Task 7: Display Students, grouped by their departments. (hint: you need to have an object of Map<String, List<Student>> and first populate it using Stream class’s methods, and second, display the desired output using Map class’s methods. You should also use Collectors for this task.)
Task 8: Count and display the number of Students in each department. (hint: you need to have an object of Map<String, Long> and first populate it using Stream class’s methods, and second, display the desired output using Map class’s methods. You should also use Collectors for this task.)
Task 9: Calculate and display the sum of all Students’ grades. (hint: you need to return a Stream<Student> out of your List<Student> first, and then use Stream class’s methods to map it to a DoubleStream, and then, use DoubleStream methods to do the task.)

Task 10: Calculate and display the average of all Students’ grades. (hint: you need to return a Stream<Student> out of your List<Student> first, and then use Stream class’s methods to map it to a DoubleStream, and then, use DoubleStream methods to do the task.)

Typical Output:
For a typical input such as:
Student[] students = {
Student
Student
Student
Student
Student
Student
Student
new ("Jack", "Smith", 50.0, "IT"), new ("Aaron", "Johnson", 76.0, "IT"), new ("Maaria", "White", 35.8, "Business"), new ("John", "White", 47.0, "Media"), new ("Laney", "White", 62.0, "IT"), new ("Jack", "Jones", 32.9, "Business"), new ("Wesley", "Jones", 42.89, "Media")};

The output could be:

Task 1:

Complete Student list:
Jack Smith 50.00 IT
Aaron Johnson 76.00 IT
Maaria White 35.80 Business
John White 47.00 Media
Laney White 62.00 IT
Jack Jones 32.90 Business
Wesley Jones 42.89 Media


Task 2:

Students who got 50.0-100.0 sorted by grade:
Jack Smith 50.00 IT
Laney White 62.00 IT
Aaron Johnson 76.00 IT


Task 3:

First Student who got 50.0-100.0:
Jack Smith 50.00 IT


Task 4:

Students in ascending order by last name then first:
Aaron Johnson 76.00 IT
Jack Jones 32.90 Business
Wesley Jones 42.89 Media Jack Smith 50.00 IT
John White 47.00 Media
Laney White 62.00 IT
Maaria White 35.80 Business

Students in descending order by last name then first:
Maaria White 35.80 Business
Laney White 62.00 IT
John White 47.00 Media Jack Smith 50.00 IT
Wesley Jones 42.89 Media
Jack Jones 32.90 Business
Aaron Johnson 76.00 IT

Task 5:

Unique Student last names:
Johnson
Jones
Smith
White

Task 6:

Student names in order by last name then first name:
Aaron Johnson
Jack Jones
Wesley Jones
Jack Smith
John White
Laney White
Maaria White

Task 7:

Students by department:
Media
John White 47.00 Media
Wesley Jones 42.89 Media
IT
Jack Smith 50.00 IT
Aaron Johnson 76.00 IT
Laney White 62.00 IT
Business
Maaria White 35.80 Business
Jack Jones 32.90 Business

Task 8:

Count of Students by department:
Business has 2 Student(s)
IT has 3 Student(s)
Media has 2 Student(s)

Task 9:

Sum of Students' grades: 346.59

Task 10:
Average of Students' grades: 49.51


Marking Criteria and Tasks:
Please note that you should:
a- have appropriate indentation.
b- have proper file structures and modularization. c- follow Java naming conventions. d- document all the classes properly. e- not have debug/useless code and/or file(s) left in assignment.
f- have good intra and/or inter class designs.
in your code!

• Tasks: Developing and running the desired solution; you should submit your source code - just individual .java files, and screenshots which demonstrate the way your code runs.

• Each of the tasks 1-10: 1 mark.

Deliverables and Important Notes:

• Please note that you would be allowed to submit just once, so please be super careful and double check before you hit submit.

• There would be a 20% penalty for each day (or part of it,) in case you submit late!


More products