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README.md

Student, Instructor, Classroom

Part 1.1 - Create Person Class

  • Create a Person class.
    • Person constructor should have a parameter of type String which sets the name instance-variable to the respective value.
    • Person should have a getName() method which returns the Person object's name variable.
    • Person should have a setName() method which sets the Person object's name variable.

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Part 1.0 - Test Person

  • Create a TestPerson class.
    • Create a testSetName method which ensures that a Person object's name variable is being set by invoking the .setName method.
    • Create a testConstructor method which ensures that a Person object's name variable is being set by invoking the Person constructor.

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Part 2.0 - Create Learner Interface

  • Create a Learner interface.
    • Learner should declare one method signature:
      • Method name: learn
      • Method parameters: double numberOfHours
      • Method return-type: void

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Part 3.1 - Create Student Class

  • Create a Student class such that:
    • Student is a subclass of Person
    • Student implements the Learner interface
    • Student should have an instance variable totalStudyTime of type double
    • Student should have a concrete implementation of the learn method which increments the totalStudyTime variable by the specified numberOfHours argument.
    • Student should have a getTotalStudyTime() method which returns the totalStudyTime instance variable.

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Part 3.0 - Test Student

  • Create a TestStudent class.
    • Create a testImplementation method that asserts that a Student is an instanceof a Learner.
    • Create a testInheritance method that asserts that a Student is an instanceof a Person.
    • Create a testLearn method that ensures a Student's totalStudyTime instance variable is incremented by the specified numberOfHours by invoking the .learn method.

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Part 4.0 - Create Teacher Interface

  • Create a Teacher interface.

    • Teacher should declare a teach method signature:

      • Method name: teach
      • Method parameters:
        • Student student
        • double numberOfHours
      • Method return-type: void
    • Teacher should declare a lecture method signature:

      • Method name: lecture
      • Method parameters:
        • Student[] student
        • double numberOfHours
      • Method return-type: void

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Part 5.1 - Create Instructor Class

  • Create an Instructor class such that:
    • Instructor is a subclass of Person
    • Instructor implements the Teacher interface
    • Instructor should have a concrete implementation of the teach method which invokes the learn method on the specified Student object.
    • Instructor should have a concrete implementation of the lecture method which invokes the learn method on each of the elements in the specified array of Student objects.
      • numberOfHours should be evenly split amongst the students.
        • double numberOfHoursPerStudent = numberOfHours / students.length;

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Part 5.0 - Test Instructor

  • Create a TestInstructor class.
    • Create a testImplementation method that asserts that an Instructor is an instanceof a Teacher.
    • Create a testInheritance method that asserts that a Instructor is an instanceof a Person.
    • Create a testTeach method that ensures when an Instructor invokes the .teach method, a respective student's totalStudyTime instance variable is incremented.
    • Create a testLecture method that ensures when an Instructor invokes the .teach method, a respective student's totalStudyTime instance variable is incremented by the specified numberOfHours.

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Part 6.1 - Create Cohort class

  • Create a Cohort class.
    • The class should instantiate an ArrayList field of Student objects named studentList.
    • The class should define a method named addStudent which adds a Student to the studentList.
    • The class should define a method named getStudents which returns an array representation of the studentList.
    • The class should define a named removeStudents which clears our studentList.

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Part 6.0 - Test Cohort

  • Create a TestCohort class.
    • Create a testAddStudent method which ensures that our studentList in our Cohort class populated with respective Student objects following invokation of the addStudent method.
    • Create a testRemoveStudents method which ensures that our studentList in our Cohort class is depopulated with respective Student objects following invokation of the removeStudent method.

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Part 7.0 - Test MyCohort singleton

  • Create a TestMyCohort class.
    • Create a test method which ensures that each of the students in your current cohort are in your MyCohort singleton.

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Part 7.1 - Create MyCohort singleton

  • Create a MyCohort class using the singleton design pattern.
    • The class should populate a composite private Cohort field with Student object-representations of each of your classmates.
    • The composite Cohort field should be exposed to the client via a getCohort method.

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Part 8.0 - Create ZipCodeWilmington Class

  • Create a ZipCodeWilmington class.
    • Statically instantiate a private ArrayList of Instructor objects named instructorList.
    • Create a public static method named hire which adds an Instructor to the instructorList and returns void.
    • Create a public static method named getInstructors which returns the instructorList.
    • Create a public static method named fireStaff which clears our instructorList.
    • Copy and paste this static initialization block immediately below your instructorList declaration.
static { // static initializer
	String[] instructorNames = { "Leon", "Tariq", "Froilan", "David", "Zach", "Iyasu" };
	for (String instructorName : instructorNames) {
		Instructor instructor = new Instructor(instructorName);
		hire(instructor);
	}
}

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Part 6.0 - Test ZipCodeWilmington

  • Create a TestZipCodeWilmington class.

    • Create a method named setup which is annotated with @Before, takes has no parameters, and returns void.

      • Ensure this method invokes the .fireStaff method on ZipCodeWilmington
    • Create a testFireStaff method which ensures that our instructorList in our ZipCodeWilmington class isEmpty upon invokation.

    • Create a testHireStaff method which ensures that our instructorList is populated with respective Instructor objects.

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Part 7.1 - Create Classroom Class

  • Create a TechConnect class.
    • The class should instantiate an ArrayList field of Student objects named studentList.
    • Create a public static method named recruitStudent which adds a Student to the studentList and returns void.
    • Create a public static method named getStudents which returns the studentList.
    • Create a public static method named removeStudents which clears our studentList.
    • Copy and paste this static initialization block immediately below your studentList declaration.
static { // static initializer
	String[] studentNames = { "Karen", "Liel", "Quinn", "Destiny", "Blesson", "Danielle B.", "Andre", "Jeff",
			"Carlo", "Julia D.", "Natalie", "Julia E.", "Shylee", "Genevieve", "Margo", "Whitney", "Rachel",
			"Bridget", "Seung", "Jessica", "Harry", "Kesler", "Darin", "Jade", "Dominika", "Nashae", "Brianna",
			"Laurent", "Rina", "Emily", "Elisha", "Caitlin", "Kierra", "Dana", "Alyssa", "Humaira", "Prajwal",
			"Cristine",  "Brendan" };
	for (String studentName : studentNames) {
		Student student = new Student(studentName);
		studentList.add(student);
	}
}

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Part 7.0 - Test TechConnect

  • Create a TestTechConnect class.

    • Create a method named setup which is annotated with @Before, takes has no parameters, and returns void.

      • Ensure this method invokes the .removeStudents method on TechConnect
    • Create a testRemoveStudents method which ensures that our studentList in our TechConnect class isEmpty upon invokation.

    • Create a testRecruitStudent method which ensures that our studentList is populated with respective Student objects.

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Part 8.1 - Create ClassRoom Class

  • Create a ClassRoom class.
    • Create a method named getRoster which returns a HashMapping of String to Person objects such that our ZipCodeWilmington instructors and TechConnect students' names map to their respective Person object.
    • Getting started hint below!
      • instantiate an ArrayList of Student objects named students by invoking the getStudents method on the TechConnect class.
      • instantiate an ArrayList of Instructor objects named instructors by invoking the getInstructor method on the ZipCodeWilmington class.

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Part 8.0 - Test ClassRoom

  • Create a TestClassRoom class.
    • Assert that the HashMapping returned by getRoster, returns a valueSet containing each of the Person objects in ZipCodeWilmington's instructorList and TechConnect's studentList.