Classes and Objects

Classes and Objects

What is “Design”? • The parts of the software including • what information each part holds • what things each part can do • how the various parts interact

Why do We Care About Design? • As system grows larger • helps us understand the software we are about to build • helps teams develop components that will work together • helps us find where we need to work to • add new features • fix defects

Object Oriented Design • Design of the system is structured around the objects in a system • Objects are the “things” the system manages or uses to accomplish its goals • Object == Instance

Objects • An object is made of two types of things: • What it knows • stored in “instance variables” • What it does • coded as methods

How do we Build Objects? • A “class” is template for objects of a particular type • So a class must contain: • instance variables • variables that are not inside a method • each instance of the class gets its own copy of those instance variables to that it can hold the information it needs • methods • encoding the operations the objects must be able to do

The Over Used Word “Class” • We use the word “class” to mean many things: • the java code that is a template for building objects of a particular type • a non-primitive type that we are defining • the set of objects of the same type

What a Class Looks Like public class Account { private double balance; /** * Deposit a certain amount into the account * @paramdepositAmount the amount to deposit */ public void deposit(doubledepositAmount) { balance = balance + depositAmount; } /** * Get the current balance of the account * @return the current balance */ public double getBalance() { return balance; } } Instance Variables Method to deposit money into the account Method to see how much money is in the account

Creating and Using Objects • Show this in Eclipse: public class Runner { public static void main(String[] args) { Account savings; Account ira; savings = new Account(); savings.deposit(32.13); ira= new Account(); ira.deposit(2324.23); ira.deposit(333.22); System.out.println("Savings balance: " + savings.getBalance()); System.out.println("IRA balance: " + ira.getBalance()); } }

Classes in Our Lab • We want to build the start of a card playing game (up through shuffling the cards) • The objects we need: • 52 card objects • 1 deck object

Card Class • A card needs to know two things: • its face value and its suit • we’ll store both as ints • face value: 0 = Ace, 1 = 2, . . . 9 = 10, 10 = Jack, 11 = Queen, 12 = King • suit: 0 = spades, 1 = hearts, 2 = diamonds, 3 = clubs • A card needs three operations • one to retrieve its face value • one to retrieve its suit • one to build a description of this card • Find these things in the code in Eclipse

Creating a Card • It doesn’t make sense to have a card with no face value or suit • If we don’t initialize them, primitive instance variables default to zero, so every card would start out as the Ace of Spades • We’d like a way to initialize the card when we create it

Constructors • Special methods that are used only for the creation of objects • We know a method is a constructor if • it has no return value AND • its name matches the name of the class

Our Constructor and Its Use /** * Create a new card with a given suit and value * * @paramvthe face value of the card (0 - 12) * @paramsthe suit of the card (0 - 3) */ public Card(intv, ints) { faceValue = v; suit = s; } Card c2; c2 = new Card(12,3); What card will this create?

CardRunner – What’s that main method? • Look at CardRunner class • method with this declaration: • public static void main(String[] args) • This is the method that the Java Virtual Machine runs when you run your program • We’ve seen this method in all of our previous labs – we just didn’t explain what it is!

Types of Classes • We now have two types of classes • Runnable: has a main() method and can be run by the Java Virtual Machine • Instantiable: is a template for creating objects • Has a constructor • if we don’t declare a constructor, the compiler will give us the default (no parameters) constructor that allocates the space, but doesn’t initialize the instance variables • they default to zeros for the primitive types we’ve studies and nulls (no pointer) for reference types)

toString() • We often convert objects to Strings • for example, when we concatenate them into output statements • Java gives every class a method to do this • provides default conversion • <class name> @<heap address> • Card@E0352 • We can make our own to replace the default • must be declared as: • public String toString()

Converting our int to a Suit • We’d like the description of a card to have “Spades” instead of “0” • Make an array that encodes that conversion: SUIT_DESCRIPTION: String String String String “Spades” “Hearts” “Diamonds” “Clubs”

In the Code private static final String[] SUIT_DESCRIPTION = { "Spades", "Hearts", "Diamonds", "Clubs" }; What will this evaluate to if suit has a value of 0? If suit has a value of 3? SUIT_DESCRIPTION[suit]

The Deck Class • Instance of deck need to know: • what cards they have and what order they are in • an array of type Card • Instance of deck need to do: • output the cards in order (toString()) • shuffle

Deck Constructor /** * Create the deck by filling it with the appropriate cards */ public Deck() { cards = new Card[NUMBER_OF_CARDS]; int position = 0; for (int suit = 0; suit < NUMBER_OF_SUITS; suit++) { for (intfaceValue = 0; faceValue < NUMBER_OF_CARDS/NUMBER_OF_SUITS; faceValue++) { cards[position] = new Card(faceValue, suit); position++; } } }

Classes and Objects