150 likes | 353 Views
Chapter 8 Abstract Class. Abstract Class. Sometimes, it does NOT make sense to create objects from specific classes In such case, these classes should be created as abstract An abstract class can only be used to derive other classes; you cannot create objects from an abstract class
E N D
University Of Ha’il Chapter 8 Abstract Class
Abstract Class • Sometimes, it does NOT make sense to create objects from specific classes • In such case, these classes should be created as abstract • An abstract class can only be used to derive other classes; you cannot create objects from an abstract class • An abstract class must have at least one abstract method
Abstract Method • An abstract method has a complete method heading, to which has been added the modifier abstract • It has no method body, and ends with a semicolon in place of its body public abstractlong getSerNumber(); • An abstract method cannot be private • An abstract class can have any number of abstract and/or fully defined methods
Abstract Classes (Cont’d) • Attempting to instantiate an object of an abstract class is a compilation error. • Example: abstract class Shape { … } Shape sh = new Shape();
Abstract Classes (Cont’d) • Failure to implement a superclass’s abstract methods in a subclass is a compilation error unless the subclass is also declared abstract. • Example: abstract class Shape { public abstract void drawHere(); } class Rectangle extends Shape {// The method drawHere() is NOT implemented! }
Creating Abstract Superclass: Employee class • abstract superclass Employee • earnings is declared abstract • No implementation can be given for earnings in the Employeeabstract class • An array of Employee variables will store references to subclass objects • earnings method calls from these variables will call the appropriate version of the earnings method
Abstract Class Employee: Outline // Employee abstract superclass. public abstract class Employee { private String firstName; private String lastName; private String socialSecurityNumber; // three-argument constructor public Employee(String first, String last, String ssn ) { firstName = first; lastName = last; socialSecurityNumber = ssn; } // end three-argument Employee constructor
Abstract Class Employee: Outline (Cont’d) public void setFirstName(String first) { firstName = first; } public String getFirstName() { return firstName; } public void setLastName( String last ) { lastName = last; } public String getLastName() { return lastName; } public void setSocialSecurityNumber( String ssn ) { socialSecurityNumber = ssn; } public String getSocialSecurityNumber() { return socialSecurityNumber; } public abstract double earnings(); // no implementation here } // end abstract class Employee
Extending Concrete Classes public class SalariedEmployee extends Employee { private double weeklySalary; … // calculate earnings; override abstract method earnings in Employee public double earnings() { return getWeeklySalary(); } // end method earnings … }
Extending Concrete Classes (Cont’d) public class CommissionEmployee extends Employee { private double grossSales; // gross weekly sales private double commissionRate; // commission percentage… // calculate earnings; override abstract method earnings in Employee public double earnings() { return getCommissionRate() * getGrossSales(); } // end method earnings … }
Extending Concrete Classes (Cont’d) public class HourlyEmployee extends Employee { private double wage; // wage per hour private double hours; // hours worked for week // calculate earnings; override abstract method earnings in Employee public double earnings() { if ( getHours() <= 40 ) // no overtime return getWage() * getHours(); else return 40 * getWage() + ( getHours() - 40 ) * getWage() * 1.5; } // end method earnings
Implementing an Abstract Method public abstract class Animal { protected String kind; // Cow, pig, cat, etc. public Animal() { } public String toString() { return "I am a " + kind + " and I go " + speak(); } public abstract String speak(); // Abstract method } • Define the speak() method as abstract in the superclass Animal. • Implement speak() differently in each subclass. public class Cat extends Animal { public Cat() { kind = "cat"; } public String speak() { return "meow"; } } public class Cow extends Animal { public Cow() { kind = "cow"; } public String speak() { return "moo"; } }