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Inheritance

Inheritance. Chapter 7. Outline. Inheritance Basics Programming with Inheritance Dynamic Binding and Polymorphism. Inheritance Basics: Outline. Introduction to Inheritance Derived Classes Overriding Method Definitions Overriding vs. Overloading The final Modifier.

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Inheritance

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  1. Inheritance Chapter 7

  2. Outline • Inheritance Basics • Programming with Inheritance • Dynamic Binding and Polymorphism

  3. Inheritance Basics: Outline • Introduction to Inheritance • Derived Classes • Overriding Method Definitions • Overriding vs. Overloading • The final Modifier

  4. Introduction to Inheritance • Inheritance allows us to define a general class and then more specialized classes simply by adding new details to the more general class definition. • A more specialized class inherits the properties of the more general class, so that only new features need to be programmed.

  5. Introduction to Inheritance, cont. • example • General class Vehicle might have instance variables for weight and maximum occupancy. • More specialized class Automobile might add instance variables for wheels, engine size, and license plate number. • General class Vehicle might also be used define more specialized classes Boat and Airplane.

  6. Programming Example: A Base Class

  7. Derived Classes • Consider a college record-keeping system with records about students, faculty and (nonteaching) staff.

  8. Derived Classes, cont. • Even though your program may not need any Person or Employee objects, these classes can be useful for consolidating and representing features common to all subclasses. • For example, all students, faculty, and staff have names, and these names may need to be initialized, changed, retrieved, or printed.

  9. Derived Classes, cont. • class Student is a derivedclass of class Person and class Person is called the base class.

  10. Derived Classes, cont. • syntax public class Derived_Class_Name extends Base_Class_Name { Declarations_of_Added_Instance _Variables Definitions_of_Added_and_Overridden_Methods }

  11. Derived Classes, cont. • When you define a derived class, you declare only the added instance variables and you define only the added and overridden methods. • The variables and methods of the parent class which are not declared private are inherited automatically.

  12. Derived Classes, cont.

  13. Overriding Method Definitions • Notice that class Student has a method writeOutput with no parameters, and class Person also has a method writeOutput with no parameters, that class Student inherits. • When a derived class defines a method with the same name and the same number and types of parameters as a method in the base class, the method in the derived class overrides the method in the base class.

  14. Overriding Method Definitions, cont. • When overriding a method, you can change the method definition to anything you wish, but you cannot change the method’s heading or the method’s return type.

  15. Overriding vs. Overloading • When you override a method, the new method definition in the derived class has the same name and the same number of types of parameters as the method definition in the base class. • When the name is the same, but the number or types of the parameters differs, whether in the base class or in the derived class, the method is overloaded in the derived class.

  16. Overriding vs. Overloading, cont. • example: public String getName(String title) in class Student and public String getName() in class Person overload method getName since the two methods have different parameter lists. • Both methods are available in class Student.

  17. The final Modifier • You can prevent a method definition from being overridden by adding the word final to the method heading. • example public final void someMethod() { … • This is used rarely, but it produces more efficient code.

  18. The final Modifier, cont. • An entire class can be declared final, in which case it cannot be used as a base class to derive another class.

  19. Private Instance Variables in the Base Class • Private instance variables inherited from a base class cannot be accessed directly. • Instead, they must be accessed using a method that is not declared private. • While this may seem inconvenient, it provides an important mechanism for controlling access and changes to instance variables in the base class.

  20. Private Methods in the Base Class • Like private instance variables, private method inherited from a base class cannot be accessed directly. • Instead, they, too, must be accessed using a method that is not declared private. • This, too, provides an important mechanism for controlling access to methods in the base class. • Since private methods typically serve as helping methods, their use always is limited to the class in which they are defined.

  21. Programming with Inheritance: Outline • Constructors in Derived Classes • (optional) The this Method • Calling an Overridden Method • (optional) A Subtle Point About Overloding and Overriding • The class Object • Abstract Classes • Interfaces

  22. Constructors in Derived Classes • A base class has its own constructors. • Their purpose typically is to initialize the instance variables declared in the base class. • A derived class has its own constructors. • Their purpose typically is to call a constructor in the base class, and then to initialize the instance variables declared in the derived class.

  23. Constructors in Derived Classes, cont. • To call a constructor in the base class, use super(Values_for_Instance_Variables _Declared_in_the_Base_Class); • example super(initialName); not Person(initialName); //ILLEGAL

  24. Using super • The call to the constructor in the base class (using super) must be the first action taken in the constructor of a derived class. • When no call to the constructor in the base class is included, Java automatically includes a call to the default constructor in the base class.

  25. Using super, cont. • equivalent definitions: public Student() { super(); studentNumber= 0; } and public Student() { studentNumber= 0; }

  26. (optional) The this Method • Within the definition of one constructor, it can be appropriate to call another constructor in the same class. • The keyword this is used to call another constructor in the same class. • example this(initialName, 0)

  27. (optional) The this Method, cont. • Any use of this must be the first action in the constructor definition. • Thus, a constructor definition cannot contain a call using super and a call using this. • To use both super and this, include a call using this in one constructor and a call using super in the constructor called using this.

  28. Calling an Overridden Method • super can be used to call a method in the base class that has been overridden in the derived class. • example super.writeOutput(); • However, you cannot repeat the use of super to invoke a method in some ancestor class other than the immediate base (parent) class.

  29. Programming Example: Multilevel Derived Classes • Class Undergraduate can be derived from class Student which is derived from class Person. • Class Undergraduate will have all the instance variables and methods of class Student which has all the instance variables and methods of class Person.

  30. Programming Example: Multilevel Derived Classes, cont.

  31. Programming Example: Multilevel Derived Classes, cont.

  32. Terminology • A base class often is called a parent class. • A derived class then is called a child class. • A class that is a parent of a parent of…a parent of (with one or more “parent of”s) another class often is called an ancestor class. • A class than is a child of a child of…a child of (with one or more “child of”s) often is called a descendant.

  33. (optional) A Subtle Point About Overloading and Overriding • Even when two methods have the same number of parameters, a difference in parameter type is sufficient to qualify for overloading. • But, a reference to an ancestor class type can refer to a descendant type. • Hence an overridden method in an ancestor class sometimes needs to be invoked explicitly using super.

  34. An Object Can Have More than One Type • If class Undergraduate is derived from class Student and class Student is derived from class Person, then every object of class Undergraduate is also an object of class Student and an object of class Person. • A reference to an object of class Undergraduate can be substituted for a reference to an object of class Student or a reference to an object of class Person.

  35. An Object Can Have More than One Type, cont. • Given public static void compareNumbers (Student s1, Student s2) then either SomeClass.compareNumbers (studentObject, undergradObject); or SomeClass.compareNumbers (undergradObject, studentObject); could be used.

  36. An Object Can Have More than One Type, cont. • However, a reference to an object of class person cannot be substituted for a reference to an object of class Student or an object of class Undergraduate. • A reference to an object of an ancestor cannot be substituted for a reference to an object of a derived class.

  37. An Object Can Have More than One Type, cont. • Hence, given public static void compareNumbers (Student s1, Student s2) neither SomeClass.compareNumbers (studentObject, personObject); nor SomeClass.compareNumbers (personObject, studentObject); could be used.

  38. “Is a” and “Has a” Relationships • A derived class is a more specialized class than its base class or any of its ancestor classes. • For example, a student is a person. • A more complex object has as one or more of its instance variables one or more references to objects of a simple class, exhibiting a has a relationship. • For example, a person has a name.

  39. The Class Object • In Java, every class descends from (and inherits features from) the Object class. • Therefore, every object of every class is of type Object. • Unless a class is declared explicitly to be a descendant of some other class, it is an immediate descendant of the class Object.

  40. The Class Object, cont. • An object of any class can substituted when a parameter of type Object is expected. • Every class inherits some methods from the class Object: • equals() • toString() but usually these methods are overridden by the derived class or by an intermediate ancestor class.

  41. Method toString • Inherited method toString takes no arguments. • Typically, method toString is coded to produce and return a string which contains everything of interest about the object.

  42. Method toString, cont. • example public String toString(); { return (“Name: “ + getName()+ \n + “Number: “ + getNumber()); } • Whenever a new class is created, a suitabletoStringmethod should be defined.

  43. Method toString, cont. • Method toString can be called my the conventional means, Object_Name.toString, or by using only Object_Name. • example System.out.println(s.toString()); or System.out.println(s);

  44. Method clone • Method clone also is inherited from the class Object. • Method clone takes no arguments and returns a copy of the calling object. • Even though the data is identical, the objects are distinct. • Typically, method clone needs to be overridden to function properly. • See Appendix 8 for more details.

  45. Abstract Classes • An abstractclass is not intended to be used to create objects. • Class Figure is an example of a class used as a base class to derive other classes including class Box and class Triangle. • Nevertheless, as written, objects of class Figure could be instantiated and its methods used, even though that was not our intention.

  46. Abstract Classes, cont. • By declaring one or more methods to be abstract and by omitting the method body, only objects of derived classes which override the method(s) can be instantiated. • example public abstract void drawHere(); • A class that has at least one abstract method must be declared abstract.

  47. Abstract Classes, cont. • example public abstract class Figure { …

  48. Abstract Classes, cont. • An abstract class serves as a placeholder. • An abstract class makes it simpler to define derived classes. • An abstract class assures that all its derived classes implement its abstract method(s), or they too will be abstract.

  49. Interfaces • An interface specifies the headings for methods that must be defined for any class that implements the interface.

  50. Interfaces, cont. • To implement an interface, a class must • include the phrase implements Interface_Name at the start of the class definition • example implements MyInterface, YourInterface • implement all the method headings listed in the definition of the interface.

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