Explanation of Solution
a.
Method heading for each method:
- • Method heading for access method of each attribute:
- ○ Access method for person first name is “public String getPersonFirstName()”.
- ○ Access method for person last name is “public String getPersonLastName()”.
- ○ Access method for person email address name is “public String getPersonEmailAddress()”...
Explanation of Solution
b.
Preconditions and postconditions of each method:
- • Precondition and postcondition of access method for each attribute.
- ○ For method “getPersonFirstName()”:
- ■ Precondition: None
- ■ Postcondition: Returns the first name of given person.
- ○ For method “getPersonLastName()”:
- ■ Precondition: None
- ■ Postcondition: Returns the last name of given person.
- ○ For method “getPersonEmailAddress()”:
- ■ Precondition: None
- ■ Postcondition: Returns the email address of given person.
- ○ For method “getPersonTelephoneNumber()”:
- ■ Precondition: None
- ■ Postcondition: Returns the telephone number of given person.
- ○ For method “getPersonFirstName()”:
- • Precondition and postcondition of “changeEmailAddress(String nEmail)” method...
Explanation of Solution
c.
Test class for some Java statement:
//Create object "p1" for "PersonAddress" class
PersonAddress p1 = new PersonAddress();
//Create object "p2" for "PersonAddress" class
PersonAddress p2 = new PersonAddress();
//Create object "p3" for "PersonAddress" class
PersonAddress p3 = new PersonAddress();
//Set values for "p1" by calling method "setPersonAddress"
p1.setPersonAddress("John", "Merry", "john123@aaa.com", "123-4567");
//Set values for "p2" by calling method "setPersonAddress"
p2.setPersonAddress("John", "Merry", "jr@ccc.com", "123-7654");
//Set values for "p3" by calling method "setPersonAddress"
p3.setPersonAddress("Jansi", "Rose", "htr@aaa.com", "333-4444");
//Display the statement
System.out.println("Values of attributes for person 1.");
//Display person "p1" first name by calling method "getPersonFirstName"
System.out.println("First Name: " + p1.getPersonFirstName());
//Display person "p1" last name by calling method "getPersonLastName"
System.out.println("Last Name: " + p1.getPersonLastName());
//Display person "p1" email address by calling method "getPersonEmailAddress"
System.out.println("Email Address: " + p1.getPersonEmailAddress());
//Display person "p1" telephone number by calling method "getPersonTelephoneNumber"
System.out.println("Telephone Number: " + p1.getPersonTelephoneNumber());
System.out.println();
//Display the given statement
System...
Explanation of Solution
d.
Implementation of class:
PersonAddress.java:
//Import package
import java.util.Scanner;
//Define class "PersonAddress"
public class PersonAddress
{
//Declare required variables in "private" access specifier
private String first_Name;
private String last_Name;
private String email_addr;
private String telephone_number;
//Set value for "PersonAddress" class
public void setPersonAddress(String f, String l, String e, String p)
{
//Assign value to given instance variables
first_Name = f;
last_Name = l;
email_addr = e;
telephone_number = p;
}
//Access method for person first name
public String getPersonFirstName()
{
//Returns person first name
return first_Name;
}
//Access method for person last name
public String getPersonLastName()
{
//Returns person last name
return last_Name;
}
//Access method for person email address
public String getPersonEmailAddress()
{
//Returns person email address
return email_addr;
}
//Access method for person telephone number
public String getPersonTelephoneNumber()
{
//Returns person telephone number
return telephone_number;
}
//Method for change person Email Address
public void changeEmailAddress(String nEmail)
{
//Assign "email_addr" to "nEmail"
email_addr = nEmail;
}
//Method for change person PhoneNumber
public void changePhoneNumber(String nPhone)
{
//Assign "telephone_number" to "nPhone"
telephone_number = nPhone;
}
//Method for check two persons are equal
public boolean equalMethod(PersonAddress otherPerson)
{
//Returns true if persons are equal
return last_Name.equals(otherPerson.last_Name) && first_Name.equals(otherPerson.first_Name);
}
//Define main function
public static void main(String[] args)
{
//Create object "p1" for "PersonAddress" class
PersonAddress p1 = new PersonAddress();
//Create object "p2" for "PersonAddress" class
PersonAddress p2 = new PersonAddress();
//Create object "p3" for "PersonAddress" class
PersonAddress p3 = new PersonAddress();
//Set values for "p1" by calling method "setPersonAddress"
p1.setPersonAddress("John", "Merry", "john123@aaa.com", "123-4567");
//Set values for "p2" by calling method "setPersonAddress"
p2.setPersonAddress("John", "Merry", "jr@ccc.com", "123-7654");
//Set values for "p3" by calling method "setPersonAddress"
p3.setPersonAddress("Jansi", "Rose", "htr@aaa.com", "333-4444");
//Display the statement
System.out.println("Values of attributes for person 1.");
//Display person "p1" first name by calling method "getPersonFirstName"
System.out.println("First Name: " + p1.getPersonFirstName());
//Display person "p1" last name by calling method "getPersonLastName"
System.out.println("Last Name: " + p1.getPersonLastName());
//Display person "p1" email addressby calling method "getPersonEmailAddress"
System...
Want to see the full answer?
Check out a sample textbook solution
Chapter 5 Solutions
Java: An Introduction to Problem Solving and Programming (7th Edition)
- The following entity-relationship (ER) diagram models a database that helps car deal- ers maintain records of customers and cars in their inventory. Construct a relational database schema from the ER diagram. Your set of schemas should include primary-key and foreign-key constraints and you should ensure there are no redundant schemas. has_model model modelID name vehicle has_vehicle VIN dealer_ID brand name has_available_option has_option has_dealer options options_ID specification dealer dealer ID name customer_ID owned_by customer customer ID namearrow_forwardA relation schema R = (A, B, C, D, E) with a set of functional dependencies F= {D A CAB} is decomposed into R₁ = (A, B, C) and R2 = (C, D, E). (a) Is this a lossless-join decomposition? Why or why not? (b) Is the decomposition dependency preserving? Why or why not?arrow_forwardNo chatgpt pleasearrow_forward
- Please help draw alu diagraarrow_forward1. Level the resources (R) for the following network. Show exactly which activity is being moved at each cycle and how many days it is being moved. Show all cycles required to utilize the free float and the back float. B H 3 3 L 2 0-0-0 A C F G K N P Q T 0 3 2 2 1 2-2-2 7R 8R 4R 6R 4R 2R 5R 4R D 1 2R 2 M 000 4R 2 4R 1 2 3 4 B5 B BE B 5 5 7 D 2003 C NO C MBSCM В H 5 2 F 7 7 8 SH2F80 5 Н Н 6 7 7L3G4+ 6H2G4 J 4 4 14 8 L K 00 36 9 10 11 12 13 14 15 P 2 Z+ N N 4 4 Z t 2334 4 Σ + M M 4 +arrow_forward2. Perform resource allocation for the following project. Resource limits are 6 labors and 2 helpers. Legend: Activity Dur Resources G H 2 3 2L 1H 2L OH A 1 3L 1H + B D F J K 3 4 6 2 4 4L 2H 3L OH 4L 1H 2L 2H 4L 2H C E 2 2 I 1 2L 1H 3L 1H 5L 1Harrow_forward
- Need Java method please. Thank you.arrow_forwardNeed Java method please. Thank you.arrow_forward3. Write two nested loops to generate the following output. (Note: There is one space between each number, and any extra line shown is intentional.) 12 10 8 6 18 15 12 24 20 30 2 3 3 6 48 12 5 10 15 20 6 12 18 24 30arrow_forward
- Write in verilog coding languagearrow_forwardQ4. Consider the following two design alternatives. Walmart Walmart Store locartion 1 * capacity - Associate Name 1 id position Design Alternative "A" Store locartion 1 capacity Associate Name 1 * id position Design Alternative "B" a) Explain the semantic differences between the two designs, if any. b) Explain the differences in how each design alternative may be implemented in Java. c) which design alternative may require more storage requirement in your opinion, and why?arrow_forwardDesign a schematic for a compartmental model that includes compartments, flows, and parameters with their respective units, using Figure 1 as a guide. For each flow, determine whether it is best represented by a first-order transfer, a Michaelis-Menten saturable process, or a different method.arrow_forward
Microsoft Visual C#Computer ScienceISBN:9781337102100Author:Joyce, Farrell.Publisher:Cengage Learning,
Programming Logic & Design ComprehensiveComputer ScienceISBN:9781337669405Author:FARRELLPublisher:Cengage
EBK JAVA PROGRAMMINGComputer ScienceISBN:9781305480537Author:FARRELLPublisher:CENGAGE LEARNING - CONSIGNMENT
EBK JAVA PROGRAMMINGComputer ScienceISBN:9781337671385Author:FARRELLPublisher:CENGAGE LEARNING - CONSIGNMENT
C++ Programming: From Problem Analysis to Program...Computer ScienceISBN:9781337102087Author:D. S. MalikPublisher:Cengage Learning
Programming with Microsoft Visual Basic 2017Computer ScienceISBN:9781337102124Author:Diane ZakPublisher:Cengage Learning