singleton design pattern vs static class

공용 데이터를 저장하여 사용하고자 할 때, singleton design pattern이나 inner static class를 사용한다.

싱글톤 패턴 (Singleton design pattern) -싱글톤 패턴이란 single instance object(해당 클래스의 인스턴스 하나)가 만들어지고, 어디서든지 그 싱글톤에 접근할 수 있도록 하기 위한 패턴

public final class SiteStructureSingletonPattern {
    private Object[] data = new Object[10];

    private static SiteStructureSingletonPattern instance = new SiteStructureSingletonPattern(); // private static member인 instance
    public static SiteStructureSingletonPattern getInstance() { // getInstance() 메소드를 사용하여 instance 객체 사용
        return instance;
    }
    private SiteStructureSingletonPattern() {
        System.out.println("SiteStructureSingletonPattern constructor");
        for(int i=0; i<10; i++) {
            data[i] = i+1;
        }
    }
    public void print() {
        System.out.print("SiteStructureSingletonPattern data=");
        for(int i=0; i<10; i++) {
            System.out.print(" " + data[i]);
        }
        System.out.println();
    }
}
public class SiteStructureStaticClass {
    private Object[] data = new Object[10];

    private static class SiteStructureStatic { // inner static class
        private static final SiteStructureStaticClass instance = new SiteStructureStaticClass();
    }
    public static SiteStructureStaticClass getInstance() {
        return SiteStructureStatic.instance;
    }
    private SiteStructureStaticClass() {
        System.out.println("SiteStructureStaticClass constructor");
        for(int i=0; i<10; i++) {
            data[i] = i+1;
        }
    }

    public void print() {
        System.out.print("SiteStructureStaticClass data=");
        for(int i=0; i<10; i++) {
            System.out.print(" " + data[i]);
        }
        System.out.println();
    }
}
public class StaticClassSingletonPatternTest {

    public static void main(String[] args) {
        SiteStructureSingletonPattern instance = SiteStructureSingletonPattern.getInstance();
        instance.print();
        instance = SiteStructureSingletonPattern.getInstance();
        instance.print();

        SiteStructureStaticClass instance2 = SiteStructureStaticClass.getInstance();
        instance2.print();
        instance2 = SiteStructureStaticClass.getInstance();
        instance2.print();
    }
}

Constructor usage guideline

// private constructor는 정적 메소드와 필드 (static method & field)만 있는 경우 사용함.

class Counter {
    private Counter() { }
    public static int currentCount;
    public static int IncrementCount() { return ++currentCount; }
}

class TestCounter {
    public static void main(String[] args) {
        // If you uncomment the following statement, it will generate
        // an error because the constructor is inaccessible:
        //Counter aCounter = new Counter(); // Error
        Counter.currentCount = 100;
        Counter.IncrementCount();
        System.out.println("count=" + Counter.currentCount); // count=101
    }
}

 

// protected constructor는 추상클래스 (abstract class)에서 사용을 권고함. 추상 클래스를 상속받는 파생클래스에서 파생 클래스 생성자가 부모 클래스 즉, 추상 클래스를 초기화 하기 위해 추상 클래스 생성자를 호출 할 수 있도록 지원함.

public abstract class Shape {
    protected Shape(String name) { 
        this.name = name;
    }
    private String name;
    public void print() { System.out.print(this.name); }
}

public class Rectangle extends Shape {
    private double width, height;
    public Rectangle(String name) { 
        super(name); 
        this.width = 2; 
        this.height = 3; 
    }
    @Override
    public void print() {
        super.print();
        System.out.printf(" 가로: %f 세로: %f\n", this.width, this.height);
    }
}

public class Triangle extends Shape {
    private double bottom, height;
    public Triangle(String name) { 
        super(name); 
        this.bottom = 1; 
        this.height = 1; 
    }
    @Override
    public void print() {
        super.print();
        System.out.printf(" 밑변: %f 높이: %f\n", this.bottom, this.height);
    }
}

class ShapeTest {
    public static void main(String[] args) {
        //Shape s1 = new Shape("도형"); // Error; Shape is abstract; cannot be instantiated
        Shape s = new Triangle("삼각형");
        s.print(); // 삼각형 밑변: 1 높이: 1
        s = new Rectangle("직사각형");
        s.print(); // 직사각형 가로: 2 세로: 3
    }
}

BankAccount Instance Static

BankAccount-InstanceStatic – instance vs static member field & method
BankAccount-InstanceStatic

import java.util.*;
public class BankAccount {
    private int balance;
    private static int interestRate; // (%)

    public BankAccount() { 
        balance = 0; 
        interestRate = 5; 
    }

    public void deposit(int amount) { 
        balance += amount;
    }
   
    public void withdrawl(int amount) { 
        balance -= amount; 
    }

    public void print() { 
        System.out.println("final balance=" + 
	        (balance + balance * interestRate * 0.01) +
		" balance=" +
		balance +
		" interest=" +
		(balance * interestRate * 0.01));
		printInterestRate(); 
    }

    public static void setInterestRate(int interestRate) { 
        BankAccount.interestRate = interestRate; 
    }

    public static void printInterestRate() { 
        System.out.println("interestRate=" +
        interestRate); 
    }

    public int getUserInputInt() {
        Scanner input = new Scanner(System.in);
        System.out.print("Please enter Integer value: ");
        int value = input.nextInt();
        return value;
    }

    public static void main(String[] args) {
        BankAccount b = new BankAccount();
        b.deposit(2000);
        b.withdrawl(1000);
        b.print();
        BankAccount.printInterestRate();

        int amount = b.getUserInputInt();
        b.deposit(amount);
        b.print();
    }
}

ValueClass Instance Static

ValueClass-InstanceStatic

Instance member field: int value

Static member field: static int count

public class ValueClass {
    private int value = 0; // instance field
    private static int count = 0; // static field
    static Scanner input = new Scanner(System.in); // static field

    public ValueClass() { 
	this(0); 
    }

    public ValueClass(int value) { 
        this.value = value;
        count++;
    }

    public void setValue(int value) { // instance method
        this.value = value; 
    }

    public int getValue() { // instance method
        return this.value; 
    }

    public void print() { // instance method
        System.out.println("value=" + this.value + " # of value=" + count);
    }

    public static int getCount() { // static method
        return count;
    }

    public static void printString(String str) { // static method
        System.out.print(str);
    }

    public static int getUserInputInt() { // static method
        int value = input.nextInt();
        return value;
    }

    public static void main(String[] args) {
        ValueClass v = new ValueClass();
        v.print();
        v.setValue(2000);
        int value = v.getValue();
        v.print();

        ValueClass.printString("Please enter the integer value: ");		
        int val = ValueClass.getUserInputInt();
        v.setValue(val);
        v.print();

        ValueClass v2 = new ValueClass(300);
        v2.print();

        ValueClass[] vArray = new ValueClass[3];
        for (int i=0; i<3; i++) {
            ValueClass v3 = new ValueClass();
            ValueClass.printString("Please enter the integer value: ");
            v3.setValue(ValueClass.getUserInputInt());
            vArray[i] = v3;
        }
    }
}

instance vs static member field and method in class

PersonTest-InstanceStatic

PersonTest-InstanceStatic – instance member field & method vs static member field & method

public class Person {
    String name; // instance member field
    int age; // instance member field
    
    public Person() { // default constructor
        this("JAVA17", 2017); // call Person(String n, int a);
    }

    public Person(String name, int age) { // constructor
        this.name = name;
        this.age = age;
    }

    public void setName(String name) { // instance method
        this.name = name;
    }

    public void setAge(int age) { // instance method
        this.age = age;
    }

    public String getName() { // instance method
        return name;
    }

    public int getAge() { // instance method
        return age;
    }

    public void print() { // instance method
        System.out.println("Person Name=" + name + " Age=" + age);
    }

    @Override
    public String toString() { // instance method
        return "Person Name=" + name + " Age=" + age;
    }
}

public class Person2 {
    static String name; // static member field
    static int age; // static member field

    public Person2() { // default constructor
        this("JAVA17", 2017); // call Person2(String n, int a);
    }

    public Person2(String n, int a) { // constructor
        name = n;
        age = a;
    }

    public static void setName(String n) { // static method
        name = n;
    }

    public static void setAge(int a) { // static method
        age = a;
    }

    public static String getName() { // static method
        return name;
    }

    public static int getAge() { // static method
        return age;
    }

    public static void print() { // static method에서는 this 사용 불가
        System.out.println("Person Name=" + name + " Age=" + age);
    }

    @Override
    public String toString() {
        return "Person Name=" + name + " Age=" + age; // instance method에서는 static member variable 접근 가능
    }
}

public class Person3 {
    static String name; // static member field
    static int age; // static member field

    private Person3() { // private default constructor
    }

    public static void setName(String n) { // static method
        name = n;
    }

    public static void setAge(int a) { // static method
        age = a;
    }

    public static String getName() { // static method
        return name;
    }

    public static int getAge() { // static method
        return age;
    }

    public static void print() { // static method에서는 this 사용 불가
        System.out.println("Person Name=" + name + " Age=" + age);
    }
}

public class PersonTest {
    static Scanner input = new Scanner(System.in);

    public static void main(String[] args) {
        Person[] pArray = new Person[3]; 

        // 만약 Person 객체를 하나만 생성한 후 for문에서 공유해 사용할 경우  
        // 마지막으로 입력된 데이터로 모든 데이터값이 치환됨 
        Person p = new Person(); 
        for (int i = 0; i < 3; i++) {
            System.out.print("\n\nEnter Person name and age : ");
            p.setName(input.next()); // 입력정보
            p.setAge(input.nextInt()); // 입력정보
            p.Print(); 
            pArray[i] = p; //배열에 들어간 모든 원소는 동일한 p
        }
        System.out.println("pArray : " + Arrays.toString(pArray)); 

        Person[] pArray1 = new Person[3]; 
        // 아래와 같이 for문 안에 Person p = new Person()와같이 
        // 새로운 객체를 생성해야 각자 다르게 입력된 정보가 들어가게 됨 
        for (int i = 0; i < 3; i++) {
            Person p1 = new Person(); 
            System.out.print("\n\nEnter Person name and age : ");
            p1.setName(input.next()); // 입력정보
            p1.setAge(input.nextInt()); // 입력정보
            p1.Print();
            pArray1[i] = p1; // p1는 새로운 Person객체이므로 배열에서 각각 다른 원소가 들어간다  
        } 
        System.out.println("pArray1 : " + Arrays.toString(pArray1)); 

        // 만약 Person2 객체의 name과 age는 static이라서,  
        // static은 공유하는 것이므로, 마지막으로 입력된 데이터로 모든 데이터값이 치환됨 
        Person2[] pArray2 = new Person2[3]; 
        for (int i = 0; i < 3; i++) {  
            Person2 p2 = new Person2(); 
            System.out.print("\n\nEnter Person name and age : ");
            p2.setName(input.next()); // Person2.setName(input.next())와 동일
            p2.setAge(input.nextInt()); // Person2.setAge(input.nextInt())와 동일
            pArray2[i] = p2; // p2 객체의 name과 age는 static이므로 모두 공유하기때문에, 배열의 모든 원소는 마지막에 들어간 정보로 셋팅
        }
        System.out.println("pArray2 : " + Arrays.toString(pArray2));
 
        Person3[] pArray3 = new Person3[3]; // Person3 타입의 배열생성 OK 
        for (int i = 0; i < 3; i++) {  
            //Person3 p3 = new Person3(); // error Person3() has private access 
            System.out.print("\n\nEnter Person name and age : ");
            Person3.setName(input.next()); // p3.setName(input.next()) 사용을 못하게 함
            Person3.setAge(input.nextInt()); // p3.setAge(input.nextInt()) 사용을 못하게 함
            //pArray3[i] = p3; // error p3 객체를 생성할 수 없으므로 사용 불가능  
        } 
        Person3.print();

default, public, protected, private

default (package private – access in other classes within the same package)

public (visible everywhere)

protected (only access in its own class, its subclass and other classes within the same package)

private (only access in its own class)

http://docs.oracle.com/javase/tutorial/java/javaOO/accesscontrol.html

Access Levels
Modifier Class Package Subclass World
public Y Y Y Y
protected Y Y Y N
no modifier Y Y N N
private Y N N N

 

Lab4

Lab4 프로젝트 디렉토리 안에 모든 파일(src/*.java & bin/*.class)와 보고서 (2~3장)를 넣고 JAVA20_Lab4_분반_학번_이름.zip 압축한 후 제출

java1-lab4

Lab4 class/OOP

보고서는 출력해서 수업시작 전에 제출한다.

Method Overloading vs Overriding

http://www.programmerinterview.com/index.php/java-questions/method-overriding-vs-overloading/

Method Overloading: 동일한 함수명에 매개변수가 다른 함수를 둘 이상 정의하는 것으로, 동일한 함수 기능을 수행하지만 다른 매개변수의 경우를 처리할 때 사용

//compiler error – can’t overload based on the
//type returned (one method returns int, the other returns a float):
//int changeDate(int Year) ;
//float changeDate (int Year);

//compiler error – can’t overload by changing just
//the name of the parameter (from Year to Month):
//int changeDate(int Year);
//int changeDate(int Month) ;

//valid case of overloading,
//since the methods have different number of parameters:
int changeDate(int Year, int Month) ;
int changeDate(int Year);

//also a valid case of overloading,
//since the parameters are of different types:
int changeDate(float Year) ;
int changeDate(int Year);

Method Overriding: 상속받은 파생 클래스에서 동일한 함수명에 동일한 매개변수로 정의하여 함수를 재정의하는 것으로 상속되어진 함수의 기능을 변경해서 재사용하고 싶을 때 사용

public class Parent {
    public int someMethod() {
        return 3;
    }
}

public class Child extends Parent{

    // this is method overriding:
    public int someMethod() {
        return 4;
    }
}

Java swap pass-by-value


// Java uses pass-by-value
static void swap(int p, int q) {
    int t = p;
    p = q;
    q = t;
}

// Java uses pass-by-value
static void swap2(int[] p, int[] q) {
    int t = p[0];
    p[0] = q[0];
    q[0] = t;
}

// Java uses pass-by-value
static void swap(int[] p, int[] q) {
    int[] t = p;
    p = q;
    q = t;
}

// Java uses pass-by-value
static void swap2(int[][] p, int[][] q)  {
    int[] t = p[0];
    p[0] = q[0];
    q[0] = t;
}

// Java uses pass-by-value
static void swap(Point p, Point q) {
    Point t = p;
    p = q;
    q = t;
}

// Java uses pass-by-value
static void swap2(Point p, Point q) {
    double[] t = p.get(); // T t = p
    p.set(q.get());  // p = q
    q.set(t);  // q = t
}

////////////////////////////////////////

public static void main(String[] args) {
    Point p1 = new Point(10.5, 10.7);
    Point p2 = new Point(1.5, 1.7);

    swap(p1, p2);
    System.out.println(“After swap p1=” + p1 + ” p2 ” + p2); // p1=(10.5, 10.7) p2=(1.5, 1.7)
    swap2(p1, p2);
    System.out.println(“After swap2 p1=” + p1 + ” p2 ” + p2); // p1=(1.5, 1.7) p2=(10.5, 10.7)

    int[] arr1 = { 1, 2, 3 };
    int[] arr2 = { 4, 5, 6, 7, 8 };
    swap(arr1, arr2);
    System.out.print(“arr1: “);
    System.out.println(Arrays.toString(arr1)); // arr1: [1, 2, 3]
    System.out.print(“arr2: “);
    System.out.println(Arrays.toString(arr2)); // arr2: [4, 5, 6, 7, 8]

    int[][] array1 = { new int[] { 1, 2, 3 } };
    int[][] array2 = { new int[] { 4, 5, 6, 7, 8 } };
    swap2(array1, array2);
    System.out.print(“array1: “);
    System.out.println(Arrays.toString(array1[0])); // array1: [4, 5, 6, 7, 8]
    System.out.print(“array2: “);
    System.out.println(Arrays.toString(array2[0])); // array2: [1, 2, 3]

    int a = 10;
    int b = 20;
    swap(a, b);
    System.out.println(“a=” + a); // a=10
    System.out.println(“b=” + b); // b=20

    int[] a2 = { 10 };
    int[] b2 = { 20 };
    swap2(a2, b2);
    System.out.println(“a2=” + a2[0]); // a2 = 20
    System.out.println(“b2=” + b2[0]); // b2 = 10
}