1、实现一个名为Person的类和它的子类Employee,Employee有两个子类Faculty和Staff。具体要求如下:
(1)Person类中的属性有:姓名name(String类型),地址address(String类型),电话号码telphone(String类型)和电子邮件地址email(String类型);
(2)Employee类中的属性有:办公室office(String类型),工资wage(double类型),受雇日期hiredate(String类型);
(3)Faculty类中的属性有:学位degree(String类型),级别level(String类型);
(4)Staff类中的属性有:职务称号duty(String类型)。
public class Person { private String name; private String address; private String telphone; private String email; public String getName() { return name; } public void setName(String name) { this.name = name; } public String getAddress() { return address; } public void setAddress(String address) { this.address = address; } public String getTelphone() { return telphone; } public void setTelphone(String telphone) { this.telphone = telphone; } public String getEmail() { return email; } public void setEmail(String email) { this.email = email; } }
public class Employee extends Person { private String office; private double wage; private String hiredate; public String getOffice() { return office; } public void setOffice(String office) { this.office = office; } public double getWage() { return wage; } public void setWage(double wage) { this.wage = wage; } public String getHiredate() { return hiredate; } public void setHiredate(String hiredate) { this.hiredate = hiredate; } }
public class Faculty extends Employee{ private String degree; private String level; public String getDegree() { return degree; } public void setDegree(String degree) { this.degree = degree; } public String getLevel() { return level; } public void setLevel(String level) { this.level = level; } }
public class Staff extends Employee { private String duty; public String getDuty() { return duty; } public void setDuty(String duty) { this.duty = duty; } }
测试:
public class F { public static void main(String[] args) { Faculty a=new Faculty(); a.setName("张三"); a.setTelphone("123456788"); a.setDegree("本科"); a.setLevel("一级"); a.setEmail("12345877@qq.com"); System.out.println("员工姓名:"+a.getName()+" 电话"+a.getTelphone()+ " 学位"+a.getDegree()+" 级别"+a.getLevel()+" 邮箱"+a.getEmail()); Employee b=new Employee(); b.setName("张三"); b.setTelphone("123456788"); b.setEmail("12345877@qq.com"); b.setOffice("A座407"); b.setWage(20000); System.out.println("员工姓名:"+b.getName()+" 电话"+b.getTelphone()+ " 邮箱"+a.getEmail()+" 办公室"+b.getOffice()+" 工资"+b.getWage()); }}
2、编写一个Car类,具有String类型的属性品牌,具有功能drive;定义其子类Aodi和Benchi,具有属性:价格、型号;具有功能:变速;定义主类E,在其main方法中分别创建Aodi和Benchi的对象并测试对象的特性。
public class Car { private String pinpa; //品牌属性 private double sudu; public String getPinpa() { return pinpa; } public void setPinpa(String pinpa) { this.pinpa = pinpa; } public double getSudu() { return sudu; } public void setSudu(double sudu) { this.sudu = sudu; } public String drive(){ return "汽车已启动!"; } }
public class Aodi extends Car{ private double jiage; private String xinghao; public double getJiage() { return jiage; } public void setJiage(double jiage) { this.jiage = jiage; } public String getXinghao() { return xinghao; } public void setXinghao(String xinghao) { this.xinghao = xinghao; } public double biansu(){ double sudu=super.getSudu()+10; return sudu; }}
public class Benchi extends Aodi{ public double biansu(){ double sudu=super.getSudu()+20; return sudu; }}
测试:
public class E { public static void main(String[] args){ Aodi aodi=new Aodi(); aodi.setJiage(500000); aodi.setXinghao("奥迪A6"); System.out.println("奥迪车的型号是:"+aodi.getXinghao()+" 价格是:"+aodi.getJiage()); System.out.println(aodi.drive()); System.out.println("启动后的速度为:"+aodi.biansu()); Benchi benchi=new Benchi(); benchi.setJiage(800000); benchi.setXinghao("奔驰2000"); System.out.println("奔驰车的型号是:"+benchi.getXinghao()+" 价格是:"+benchi.getJiage()); System.out.println(benchi.drive()); System.out.println("启动后的速度为:"+benchi.biansu()); }}
3、按要求编写一个Java应用程序:
(1)编写一个矩形类Rect,包含:
两个属性:矩形的宽width;矩形的高height。
两个构造方法:
1.一个带有两个参数的构造方法,用于将width和height属性初化;
2.一个不带参数的构造方法,将矩形初始化为宽和高都为10。
两个方法:
求矩形面积的方法area()
求矩形周长的方法perimeter()
(2)通过继承Rect类编写一个具有确定位置的矩形类PlainRect,其确定位置用
矩形的左上角坐标来标识,包含:
添加两个属性:矩形左上角坐标startX和startY。
两个构造方法:
带4个参数的构造方法,用于对startX、startY、width和height属性初始化;
不带参数的构造方法,将矩形初始化为左上角坐标、长和宽都为0的矩形;
添加一个方法:
判断某个点是否在矩形内部的方法isInside(double x,double y)。如在矩形内,返回true, 否则,返回false。
提示:点在矩形类是指满足条件:x>=startX&&x<=(startX+width)&&y<startY&&y>=(startY-height)
(3)编写PlainRect类的测试程序创建一个左上角坐标为(10,10),长为20,宽为10的矩形对象;计算并打印输出矩形的面积和周长;判断点(25.5,13)是否在矩形内,并打印输出相关信息。
public class Rect { //声明属性 private double width; private double height; //带参数构造方法 public Rect(double width,double height){ this.width=width; this.height=height; } //无参的构造方法 public Rect(){ this.width=10; this.height=10; } //成员方法 周长 public double perimeter(){ double perimeter; perimeter=(width+height)*2; return perimeter; } //成员方法 面积 public double area(){ double area; area=width*height; return area; } //getter/setter方法 public double getWidth() { return width; } public void setWidth(double width) { this.width = width; } public double getHeight() { return height; } public void setHeight(double height) { this.height = height; }}public class PlainRect extends Rect { //声明属性
private int startX; private int startY; //含参构造方法 public PlainRect(int startX,int startY,double width,double height){ super(width,height); //调用父类构造方法 this.startX=startX; this.startY=//不含参构造方法 public PlainRect(){ super(0,0); this.startX=0; this.startY=0; } //成员方法 判断点与矩形位置 public boolean isInside(double x,double y){ return x>=startX&&x<=(startX+getWidth())&&y=(startY-getHeight()); }}
public class TestPlainRect { public static void main(String[] args) { //创建矩形 PlainRect rect =new PlainRect(10,10,20,10); //打印输出 System.out.println("长为20,宽为10的矩形的面积是:"+rect.area()); System.out.println("长为20,宽为10的矩形的周长是:"+rect.perimeter()); if(rect.isInside(25.5, 13)==true){ System.out.println("点(25.5,13)在矩形内"); } else{ System.out.println("点(25.5,13)不在矩形内"); } }}