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Polymorphism, Inheritance Pt. 1 COMP 401, Fall 2014 Lecture 7 9/9/2014.

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Presentation on theme: "Polymorphism, Inheritance Pt. 1 COMP 401, Fall 2014 Lecture 7 9/9/2014."— Presentation transcript:

1 Polymorphism, Inheritance Pt. 1 COMP 401, Fall 2014 Lecture 7 9/9/2014

2 Polymorphism Poly = many, morph = forms General principle of providing access to an abstraction or method in many forms – Idea is that different forms “fit” different contexts – Goal of the underlying functionality is the same. In OO programming, principle is evident in a number of different places. – Constructor overloading – Method overloading

3 Constructors What happens when you don’t define a constructor. – Default constructor with no arguments. Creates new object with all fields set to default value – Numeric fields set to 0 – Boolean fields set to false – String, Array, and any other sort of reference value field set to null. lec7.ex1

4 An aside on putting more than one class in a file. A Java file can only have one “public” class. – A class marked public can be imported into other code. – Must match file name One or more “non-public” classes in a Java file can also be defined – Only available to code in the same package. – Does not have to match file name – Often used to define classes that are related to a public class in that file.

5 Constructor Overloading Can define multiple versions of the constructor. – Distinguished from each other by type and number of parameters Must be some difference otherwise the compiler won’t be able to tell them apart. – When you use the constructor, the right one will be chosen based on the parameters provided. – Note that once you define a constructor that takes parameters, the implicit, default no-argument constructor is no longer automatically available. lec7.ex2

6 Constructor Chaining Common pattern is to “chain” one constructor off of another. – To do this, the first line of code in the constructor must be the this keyword used as a function with parameters. – The matching constructor is called first and allowed to execute. – Then any subsequent code is executed. – Can chain multiple constructors one on to another lec7.ex3

7 Method Overloading Regular methods can also be overloaded – Same method name defined more than once. Return type may or may not be the same. – But usually is. Method type must be the same. – Instance method or static class method – Access modifier Parameter list must somehow be different – Again, this is how the compiler knows which one is meant. – Either different in number or type (or both) One version can call another – No restrictions on when – No special syntax lec7.ex4, lec7.ex5

8 Why Overload? Provides access to constructor / method in a more context specific way. Limitations of overloading – Does not handle the case when you have two different situations that aren’t distinguished by the number or type of parameters being passed.

9 Recap of Interfaces A “contract” for behavior. – Defined by a set of method signatures. – Acts as a data type. – No implementation. Specific classes implement the interface

10 Song and Video as Media public interface Media { int getLengthInSeconds(); double getLengthInMinutes(); int getRating(); void setRating(int new_rating); String getName(); } public class Song implements Media {.... public class Video implements Media {.... We expect Song and Video to have methods matching those specified in Media.

11 Is-A and casting A class that implements an interface creates an “is-a” relationship between class data type and the interface data type. – A implements B => A “is a” B Song is a Media Video is a Media Casting allowed across an is-a relationship. 11 Song s = new Song(); Media m; m = (Media) s; Video v = new Video(); Media m; m = (Media) v; Video v = new Video(); Song s; s = (Song) v;

12 Inheritance What is inheritance in real life? – Characteristics / resources that you receive from your parents Get these automatically. Part of who you are. Similar idea in object-oriented programming. – In Java, concept of inheritance applied to both interfaces and classes. Both signaled by the keyword “extends” Similar in concept, but details are distinctly different. – Class inheritance more complex.

13 Extending Interfaces Adds methods to the contract. – Original: parent interface, super interface – New: subinterface, child interface, extended interface Created by using the “extends” keyword. public interface CompressedMedia extends Media { int getCompressedSize(); int getUncompressedSize(); Media uncompress(); }

14 Extension Creates Hierarchy Is-A relationship is transitive up the hierarchy. Media Compressed Media extends public class Song implements CompressedMedia {... Methods for both must be provided. Song s = new Song(); CompressedMedia cm = (CompressedMedia) s; Media m = (Media) s; Song s2 = (Song) m; OK because s “is a” Compressed Media OK because s is a Media by virtue of extension. Casting from interface back to specific object type is allowed, but at runtime, if the object’s type does not actually match, a runtime exception will be thrown.

15 Extension vs. Composition Interface extension appropriate when additional methods make no sense without methods of the parent interface. Alternatively, can compose multiple interfaces together as facets of an object.

16 Extension vs. Composition public interface Compressed { int getCompressedSize(); int getUncompressedSize(); Media uncompress(); } public interface Media { int getLengthInSeconds(); double getLengthInMinutes(); int getRating(); void setRating(int new_rating); String getName(); } public class Song implements Compressed, Media {... Instead of extending Media, Compressed is a separate interface and Song implements both. Song s = new Song(); Media m = (Media) s; Compressed c = (Compressed) s; Song “is a” Media AND Song “is a” Compressed.

17 Subinterface Multiple Inheritance Multiple inheritance for interfaces is allowed. – A subinterface can extend more than one existing interface. – In this case, just a union of all methods declared in all of the parent interfaces. Plus, of course, any additional ones added by the subinterface. lec7.ex6

18 Motivating Enumerations Often need to model part of an object as one value from a set of finite choices – Examples: Suite of a playing card Day of week Directions of a compass One approach is to use named constants – lec7.ex7 Drawbacks of this approach – No type safety – No value safety

19 Simple Java Enumerations General syntax: access_type enum EnumName {symbol, symbol,...}; Example: – public enum Genre {POP, RAP, JAZZ, INDIE, CLASSICAL} Enumeration name acts as the data type for the enumerated values. – Enumerated values available as EnumName.symbol as in: Genre.POP Outside of the class – Fully qualified name required as in: Song.Genre.POP Symbol names don’t have to all caps, but that is traditional lec7.ex8

20 Enumerations in Interfaces Enumerations can be defined within an interface. – Useful when enumeration is related to the interface as an abstraction and will be needed within any specific implementation.

21 Not so simple enumerations Java enumerations are actually much more powerful than this. Check out this tutorial for more: http://javarevisited.blogspot.com/2011/08/en um-in-java-example-tutorial.html http://javarevisited.blogspot.com/2011/08/en um-in-java-example-tutorial.html – Also posted on course resources page in Piazza.

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