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Chapter 11 – Interfaces and Polymorphism. Chapter Goals Learn about interfaces Learn about interfaces Convert between class and interface references Convert.

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Presentation on theme: "Chapter 11 – Interfaces and Polymorphism. Chapter Goals Learn about interfaces Learn about interfaces Convert between class and interface references Convert."— Presentation transcript:

1 Chapter 11 – Interfaces and Polymorphism

2 Chapter Goals Learn about interfaces Learn about interfaces Convert between class and interface references Convert between class and interface references Understand the concept of polymorphism Understand the concept of polymorphism Understand the purpose of interfaces to decouple classes Understand the purpose of interfaces to decouple classes

3 Interfaces and Polymorphism Interfaces are important for developing reusable software components Interfaces are important for developing reusable software components Polymorphism is the principal at the heart of this process – a key component of object oriented programming Polymorphism is the principal at the heart of this process – a key component of object oriented programming

4 Concept #1: Interfaces If you think of a class as a sphere – the interface is the surface If you think of a class as a sphere – the interface is the surface How will code behave (what methods will it define) How will code behave (what methods will it define) Ex. Javadocs are an interface to the underlying class – defines how the class behaves Ex. Javadocs are an interface to the underlying class – defines how the class behaves

5 Interfaces Java uses interfaces to define a common set of behaviors that varying objects can share Java uses interfaces to define a common set of behaviors that varying objects can share Define an interface that only specifies methods that must be used (not how to use them) Define an interface that only specifies methods that must be used (not how to use them) Create a class that implements this interface – it is signing a contract that it will define all of the methods the interface specifies Create a class that implements this interface – it is signing a contract that it will define all of the methods the interface specifies This contract insures that we can make assumptions about what methods are available (without looking at a Javadoc) This contract insures that we can make assumptions about what methods are available (without looking at a Javadoc)

6 Interfaces An interface is much like a class in terms of how it is defined except An interface is much like a class in terms of how it is defined except Not instantiable Not instantiable No fields (except constants) No fields (except constants) No body to the methods, only signatures No body to the methods, only signatures Methods are automatically public Methods are automatically public

7 Example public interface KeyListener { public void keyHit(char c); } Anything that implements this interface must define a method keyHit( ) to handle keyboard entry Anything that implements this interface must define a method keyHit( ) to handle keyboard entry Interfaces only define the minimum methods, you can have as many others as you want Interfaces only define the minimum methods, you can have as many others as you want

8 Static constant fields Interfaces can have class constant fields Interfaces can have class constant fields Omit public static final – automatically makes fields this way Omit public static final – automatically makes fields this way public interface SwingConstants { int NORTH = 1; int NORTHEAST = 2; int EAST = 3; …}

9 11.1 Using Interfaces for Code Reuse Use interface types to make code more general Use interface types to make code more general Identify common/essential operations Identify common/essential operations Let’s say there is a class DataSet that keeps track of a running total of real numbers Let’s say there is a class DataSet that keeps track of a running total of real numbers

10 public class DataSet{ private double sum, maximum; private int count; public void add(double x){ sum = sum + x; if (count == 0 || maximum < x) maximum = x; count++;} public double getMaximum(){ return maximum; } public int getCount(){ return count; }}

11 Problem: Only works for numbers Problem: Only works for numbers What if we wanted to keep track of BankAccounts? What if we wanted to keep track of BankAccounts?

12 public class DataSet{ private double sum; private BankAccount maximum; private int count; public void add(BankAccount x) { sum = sum + x.getBalance(); if (count == 0 || maximum.getBalance() < x.getBalance()) || maximum.getBalance() < x.getBalance()) maximum = x; count++;} public BankAccount getMaximum(){ return maximum; } public int getCount(){ return count; }}

13 What if we want to do the same for Coins? What if we want to do the same for Coins?

14 public class DataSet{ private double sum; private Coin maximum; private int count; public void add(Coin x) { sum = sum + x.getValue(); if (count == 0 || maximum.Value() < x.getValue()) || maximum.Value() < x.getValue()) maximum = x; count++;} public Coin getMaximum(){ return maximum; } public int getCount(){ return count; }}

15 The mechanics of analyzing the data is the same in all cases; details of measurement differ The mechanics of analyzing the data is the same in all cases; details of measurement differ We have three classes doing three very similar tasks, but they all contain redundant code We have three classes doing three very similar tasks, but they all contain redundant code Classes could agree on a method getMeasure( ) that obtains the measure to be used in the analysis Classes could agree on a method getMeasure( ) that obtains the measure to be used in the analysis

16 We can then implement a single reusable DataSet class whose add method looks like this: We can then implement a single reusable DataSet class whose add method looks like this: sum = sum + x.getMeasure(); if (count == 0 || maximum.getMeasure() < x.getMeasure()) { maximum = x; count++; }

17 Interfaces What type is x? What type is x? We want x to be an type of object that has a getMeasure( ) method We want x to be an type of object that has a getMeasure( ) method Interfaces allow us to ensure that this is the case Interfaces allow us to ensure that this is the case

18 An interface type is used to specify required operations for a class An interface type is used to specify required operations for a class public interface Measurable { double getMeasure(); }

19 public class DataSet{ private double sum; private Measurable maximum; private int count; public void add(Measurable x) { sum = sum + x.getMeasure(); if (count == 0 || maximum.getMeasure() < x.getMeasure()) || maximum.getMeasure() < x.getMeasure()) maximum = x; count++;} public Measurable getMaximum(){ return maximum; } public int getCount(){ return count; }}

20 Interfaces Now DataSet can be used for any class that implements the Measurable interface Now DataSet can be used for any class that implements the Measurable interface To implement an interface, use implements reserved word and implement all methods specified in the interface To implement an interface, use implements reserved word and implement all methods specified in the interface

21 Defining interfaces public interface InterfaceName { // method signatures // method signatures}

22 Implements public class ClassName implements Measurable { public double getMeasure() {Implementation } // Additional methods and fields // Additional methods and fields} Note that interface names often end in –able Note that interface names often end in –able Describe an “ability” of the class Describe an “ability” of the class Comparable, Readable, Appendable, Comparable, Readable, Appendable,

23 Implementing interfaces public class ClassName implements InterfaceName, InterfaceName,... { // methods // instance variables } Can implement multiple interfaces Can implement multiple interfaces

24 public class BankAccount implements Measurable { public double getMeasure() { return balance; } // Additional methods and fields // Additional methods and fields}

25 11.2 Converting between classes and interfaces You can convert from a class type to an interface type, provided the class implements the interface You can convert from a class type to an interface type, provided the class implements the interface BankAccount account = new BankAccount(10000); Measurable x = account; // OK Coin dime = new Coin(0.1, "dime"); Measurable x = dime; // Also OK

26 Cannot convert between unrelated types Measurable x = new Rectangle(5, 10, 20, 30); // ERROR Cannot convert between unrelated types Measurable x = new Rectangle(5, 10, 20, 30); // ERROR Because Rectangle doesn't implement Measurable Because Rectangle doesn't implement Measurable

27 We know that since Coin implements Measurable, we can assign a Coin object to a Measurable reference variable We know that since Coin implements Measurable, we can assign a Coin object to a Measurable reference variable But what about the other way? Could we always assign a Measurable object to a Coin reference variable? But what about the other way? Could we always assign a Measurable object to a Coin reference variable?

28 Type casting Add coin objects to DataSet DataSet coinData = new DataSet(); coinData.add(new Coin(0.25, "quarter")); coinData.add(new Coin(0.1, "dime"));... Measurable max = coinData.getMaximum(); Add coin objects to DataSet DataSet coinData = new DataSet(); coinData.add(new Coin(0.25, "quarter")); coinData.add(new Coin(0.1, "dime"));... Measurable max = coinData.getMaximum(); What can you do with it? It's not of type Coin String name = max.getName(); // ERROR What can you do with it? It's not of type Coin String name = max.getName(); // ERROR

29 You need a cast to convert from an interface type to a class type You need a cast to convert from an interface type to a class type You know it's a coin, but the compiler doesn't. Apply a cast: You know it's a coin, but the compiler doesn't. Apply a cast: Coin maxCoin = (Coin) max; String name = maxCoin.getName();

30 If you are wrong and max isn't a coin, the compiler throws an exception If you are wrong and max isn't a coin, the compiler throws an exception Compare to casting numbers: Compare to casting numbers: When casting number types you agree to the information loss When casting number types you agree to the information loss When casting object types you agree to the risk of causing an exception When casting object types you agree to the risk of causing an exception

31 11.3 Polymorphism Interface variable holds reference to object of a class that implements the interface Measurable x; x = new BankAccount(10000); x = new Coin(0.1, "dime"); Interface variable holds reference to object of a class that implements the interface Measurable x; x = new BankAccount(10000); x = new Coin(0.1, "dime"); Note that the object to which x refers doesn't have type Measurable; Note that the object to which x refers doesn't have type Measurable; the type of the object is some class that implements the Measurable interface the type of the object is some class that implements the Measurable interface

32 Purpose of Polymorphism You can call any of the interface methods: double m = x.getMeasure(); You can call any of the interface methods: double m = x.getMeasure(); Which method is called? Which method is called? Depends on the actual object. Depends on the actual object. If x refers to a bank account, calls BankAccount.getMeasure() If x refers to a bank account, calls BankAccount.getMeasure() If x refers to a coin, calls Coin.getMeasure() If x refers to a coin, calls Coin.getMeasure()

33 Polymorphism Polymorphism (many shapes): Behavior can vary depending on the actual type of an object Polymorphism (many shapes): Behavior can vary depending on the actual type of an object The property the we can call x.getMeasure() with multiple contexts is an instance of polymorphism The property the we can call x.getMeasure() with multiple contexts is an instance of polymorphism Called late binding: resolved at runtime Called late binding: resolved at runtime Different from overloading; overloading is resolved by the compiler (early binding) Different from overloading; overloading is resolved by the compiler (early binding)


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