20145308刘昊阳 《Java程序设计》实验二 Java面向对象程序设计 实验报告

实验名称

• Java面向对象程序设计

实验内容

• 初步掌握单元测试和TDD
• 理解并掌握面相对象三要素：封装、继承、多态
• 初步掌握UML建模
• 掌握S.O.L.I.D原则
• 了解设计模式

统计的PSP(Personal Software Process)时间

步骤	耗时(min)	百分比
需求分析	20~30	12.5%
设计	20~30	12.5%
代码实现	50~60	25%
测试	50~60	25%
分析总结	50~60	25%

实验步骤

（一）单元测试

• 用实验示例代码进行试验
  • 写完了第一代代码，建立MyUtilTest类，并书写Test代码，通过编译
    
    

• 输入负分检测，出现bug
  
  

• 修改程序，使之能够处理负分情况
  
  

• 测试边界情况，出现bug
  
  

• 修改程序，使之能处理边界情况
  
  

• 使用TDD的方式设计实现复数类Complex

  • 首先建立test类，建立java文件，并将java文件go to到建立的test中
  • 根据所想功能书写test

import org.junit.Test;

public class ComplexNumberTest {

        @Test

        public void ComplexNumber(){

            //ComplexNumber()方法

            ComplexNumber num1 = new ComplexNumber();

            assert num1.m_dRealPart == 0 : "fault1:ComplexNumber()函数有错误";

            assert num1.m_dImaginPart == 0 : "fault2:ComplexNumber()函数有错误";

            //ComplexNumber(double r,double I)方法

            ComplexNumber num2 = new ComplexNumber(0, 0);

            assert num2.m_dRealPart == 0 : "fault3:ComplexNumber(double r,double I)函数有错误";

            assert num2.m_dImaginPart == 0 : "fault4:ComplexNumber(double r,double I)函数有错误";

            //GetRealPart()方法

            assert num2.m_dRealPart == 0 : "fault5:GetRealPart()函数有错误";

            //GetImaginaryPart()方法

            assert num2.m_dImaginPart == 0 : "fault6:GetImaginaryPart()函数有错误";

            //SetRealPart(double d)方法

            ComplexNumber num3 = new ComplexNumber();

            num3.SetRealPart(0);

            assert num3.m_dRealPart == 0 : "fault7:SetRealPart(double d)函数有错误";

            //SetImaginaryPart(double d)方法

            num3.SetImaginaryPart(0);

            assert num3.m_dRealPart == 0 : "fault8:SetImaginaryPart(double d)函数有错误";

            //ComplexAdd(ComplexNumber c)方法

            ComplexNumber num4 = new ComplexNumber();

            ComplexNumber num5 = new ComplexNumber(-1, -1);

            ComplexNumber num6 = new ComplexNumber();

            num4 = num1.ComplexAdd(num1);//自身相加，结果为0

            assert num4.m_dRealPart == 0 : "fault9:ComplexAdd(ComplexNumber c)函数有错误";

            assert num4.m_dImaginPart == 0 : "fault10:ComplexAdd(ComplexNumber c)函数有错误";

            num6 = num1.ComplexAdd(num5);//结果为负数

            assert num6.m_dRealPart == -1 : "fault11:ComplexAdd(ComplexNumber c)函数有错误";

            assert num6.m_dImaginPart == -1 : "fault12:ComplexAdd(ComplexNumber c)函数有错误";

            //ComplexMinus(ComplexNumber c)方法

            ComplexNumber num7 = new ComplexNumber();

            ComplexNumber num8 = new ComplexNumber(1, 1);

            ComplexNumber num9 = new ComplexNumber();

            num7 = num1.ComplexMinus(num1);//自身相减，结果为0

            assert num7.m_dRealPart == 0 : "fault13:ComplexMinus(ComplexNumber c)函数有错误";

            assert num7.m_dImaginPart == 0 : "fault14:ComplexMinus(ComplexNumber c)函数有错误";

            num9 = num1.ComplexMinus(num8);//结果为负数

            assert num9.m_dRealPart == -1 : "fault13:ComplexMinus(ComplexNumber c)函数有错误";

            assert num9.m_dImaginPart == -1 : "fault14:ComplexMinus(ComplexNumber c)函数有错误";

            //ComplexMulti(ComplexNumber c)方法

            ComplexNumber num10 = new ComplexNumber();

            ComplexNumber num11 = new ComplexNumber(-1, -1);

            ComplexNumber num12 = new ComplexNumber();

            ComplexNumber num13 = new ComplexNumber();

            ComplexNumber num14 = new ComplexNumber(1, 1);

            num10 = num1.ComplexMulti(num1);//自身相乘，结果为0

            assert num10.m_dRealPart == 0 : "fault15:ComplexMulti(ComplexNumber c)函数有错误";

            assert num10.m_dImaginPart == 0 : "fault16:ComplexMulti(ComplexNumber c)函数有错误";

            num12 = num1.ComplexMulti(num11);//0与复数相乘，结果为0

            assert num12.m_dRealPart == 0 : "fault17:ComplexMulti(ComplexNumber c)函数有错误";

            assert num12.m_dImaginPart == 0 : "fault18:ComplexMulti(ComplexNumber c)函数有错误";

            num13 = num11.ComplexMulti(num14);//正数与复数相乘，结果为负数

            assert num13.m_dRealPart == -1 : "fault19:ComplexMulti(ComplexNumber c)函数有错误";

            assert num13.m_dImaginPart == -1 : "fault20:ComplexMulti(ComplexNumber c)函数有错误";

            //toString(double a,double b)方法

            ComplexNumber num15 = new ComplexNumber(-1, -1);

            ComplexNumber num16 = new ComplexNumber(0, 0);

            assert num15.toString(num15.m_dRealPart, num15.m_dImaginPart).equals( -1-1+"i") : "fault21:toString(double a,double b)函数有错误";//实部虚部全部为复数

            assert num16.toString(num16.m_dRealPart, num16.m_dImaginPart).equals(0) : "fault22e:toString(double a,double b)函数有错误";//实部虚部全部为0

            //成功

            // System.out.println("没有发现程序错误");

        }

    }

• 根据test文件写java文件,开始进行测试，发生错误
  
  

• 发现是test文件把ComplexMulti()错写成ComplexAdd()，修改代码
  
  

• 运行成功，出现fault21
  
  

• 修改fault21
  
  

• 没有解决错误
  
  

• Complex类代码

import java.util.Scanner;

import java.lang.String;

public class ComplexNumber {

    public double m_dRealPart;//实部

    public double m_dImaginPart;//虚部

    public ComplexNumber(){//构造函数，将实部虚部置0

        double m_dRealPart = 0;

        double m_dImaginPart = 0;

    }

    public ComplexNumber(double r,double I){//构造函数，创建复数对象的同时完成负数的实部虚部的初始化

        this.m_dRealPart = r;

        this.m_dImaginPart = I;

    }

    public double GetRealPart(){//获取实部

       return this.m_dRealPart;

   }

    public double GetImaginaryPart(){//获取虚部

        return this.m_dImaginPart;

    }

    public double SetRealPart(double d){//设置实部

        m_dRealPart = d;

        return m_dRealPart;

    }

    public double SetImaginaryPart(double d){//设置虚部

        m_dImaginPart = d;

        return m_dImaginPart;

    }

    ComplexNumber ComplexAdd(ComplexNumber c){//复数相加

        double real = c.GetRealPart();

        double image = c.GetImaginaryPart();

        double newReal = real + m_dRealPart;

        double newImage = image + m_dImaginPart;

        ComplexNumber Result = new ComplexNumber(newReal,newImage);

        return Result;

    }

   /*ComplexNumber ComplexAdd(double c){//复数相加

        double real = c;

        double newReal = real + m_dRealPart;

        ComplexNumber Result = new ComplexNumber(newReal,0);

        return Result;

    }*/

    ComplexNumber ComplexMinus(ComplexNumber c){//复数相减

        double real = c.GetRealPart();

        double image = c.GetImaginaryPart();

        double newReal = m_dRealPart - real ;

        double newImage = m_dImaginPart - image;

        ComplexNumber Result = new ComplexNumber(newReal,newImage);

        return Result;

    }

   /* ComplexNumber ComplexMinus(double c){//复数相减

        double real = c;

        double newReal = real - m_dRealPart;

        ComplexNumber Result = new ComplexNumber(newReal,0);

        return Result;

    }*/

    ComplexNumber ComplexMulti(ComplexNumber c){//复数相乘

        double real = c.GetRealPart();

        double image = c.GetImaginaryPart();

        double newReal = real * m_dRealPart;

        double newImage = image * m_dImaginPart;

        ComplexNumber Result = new ComplexNumber(newReal,newImage);

        return Result;

    }

    /*ComplexNumber ComplexMulti(double c){//复数相乘

        double real = c;

        double newReal = real * m_dRealPart;

        ComplexNumber Result = new ComplexNumber(newReal,0);

        return Result;

    }*/

    public String toString(double a,double b){//把当前复数对象的实部虚部组合成a+bi的字符串形式

        String c;

        if(b == 0) {c =""+a;}//将double型变量转为String类型

        else if(b < 0){c = a+b+"i";}

        else {c = a+"+"+b +"i";}

        return c;

    }

}

• 使用StarUML建模

  • 我的程序没有继承和操作接口，所以用实验示例来做

  • 建立两个类，设定权限和类里面的方法

  • 建立测试类AnimalTest，将测试类依赖这两个类
    
    

  • 建立Animal，并设定为父类，将两个子类设定继承该父类，有继承和操作接口的完整图
    
    

问题及解决过程

• 问题：toString类的test出错，经过查询代码，应该没有错误，感觉是test文件不对
  
  

• 解决过程：修改代码还是运行不出来，有待解决
  
  

• 问题：建模时建立了父类Animal子类无法继承
  
  

• 解决过程：对照示例发现Animal没有变成斜体字，无法继承，就勾选了Properties工具栏中的IsAbstract选项，成功
  
  

实验体会

• 这次实验内容很多，学习了单元测试，还接触了一个全新的软件StarUML,并用软件进行建模，感觉实验时间虽然紧张，但是还是学习到了很多，当然也有很多没解决的问题
• 单元测试真的很方便，在写程序前就可以设计好程序再进行书写，避免有bug，还可以对书写好的类进行全面的测试，体会到了三种代码的区别与用处
• 建模将Java中类的抽象的封装继承关系具体到图形上，让人更直观的感受到了他们之间的关系