2018-2019-20175334实验二《Java面向对象程序设计》实验报告
一、实验内容及步骤
实验二面向对象程序设计-1
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参考http://www.cnblogs.com/rocedu/p/6736847.html
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提交最后三个测试用例都通过的截图,截图上要有画图加水印,输入自己的学号。
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正常情况:
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错误情况:
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边界情况:
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最终结果:
实验一面向对象程序设计-2
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参考 积极主动敲代码,使用JUnit学习Java (http://www.cnblogs.com/rocedu/p/4837092.html)
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参考http://www.cnblogs.com/rocedu/p/6736847.html
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以 TDD的方式研究学习StringBuffer,提交你的单元测试用例和测试通过的截图,截图要加上学号水印。
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安装JUnitGenerator V2.0
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产品代码:
public class StringBufferDemo {
public StringBuffer setBuffer() {
StringBuffer buffer = new StringBuffer();
buffer.append('S');
buffer.append("tringBuffer");
System.out.println(buffer.charAt(1));
System.out.println(buffer.length());
System.out.println(buffer.capacity());
System.out.println(buffer.indexOf("tring"));
System.out.println(buffer.toString());
return buffer;
}
}
- 测试代码:
import junit.framework.TestCase;
import org.junit.Test;
public class StringBufferDemoTest extends TestCase {
StringBuffer buffer1 = new StringBuffer("StringBuffer");
StringBuffer buffer2 = new StringBuffer("StringBufferStringBuffer");
StringBuffer buffer3 = new StringBuffer("StringBufferStringBufferStringBuffer");
@Test
public void testcharAt() {
assertEquals('S',buffer1.charAt(0));
assertEquals('r',buffer1.charAt(11));
}
@Test
public void testlength(){
assertEquals(12,buffer1.length());
assertEquals(24,buffer2.length());
assertEquals(36,buffer3.length());
}
@Test
public void testcapacity(){
assertEquals(28,buffer1.capacity());
assertEquals(40,buffer2.capacity());
assertEquals(52,buffer3.capacity());
}
@Test
public void testToString(){
assertEquals("StringBuffer",buffer1.toString());
assertEquals("StringBufferStringBuffer",buffer2.toString());
}
@Test
public void testIndexOf(){
assertEquals(0,buffer1.indexOf("Str"));
assertEquals(5,buffer1.indexOf("gBu"));
}
}
- 测试结果:
实验二 面向对象程序设计-3
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参考http://www.cnblogs.com/rocedu/p/6736847.html
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对设计模式示例进行扩充,体会OCP原则和DIP原则的应用,初步理解设计模式
用自己的学号%6进行取余运算,根据结果进行代码扩充:
0: 让系统支持Byte类,并在MyDoc类中添加测试代码表明添加正确,提交测试代码和运行结的截图,加上学号水印
1: 让系统支持Short类,并在MyDoc类中添加测试代码表明添加正确,提交测试代码和运行结的截图,加上学号水印
2: 让系统支持Boolean类,并在MyDoc类中添加测试代码表明添加正确,提交测试代码和运行结的截图,加上学号水印
3: 让系统支持Long类,并在MyDoc类中添加测试代码表明添加正确,提交测试代码和运行结的截图,加上学号水印
4: 让系统支持Float类,并在MyDoc类中添加测试代码表明添加正确,提交测试代码和运行结的截图,加上学号水印
5: 让系统支持Double类,并在MyDoc类中添加测试代码表明添加正确,提交测试代码和运行结的截图,加上学号水印 -
产品代码::
// Server Classes
abstract class Data {
abstract public void DisplayValue();
}
class Integer extends Data {
int value;
Integer() {
value=300;
}
public void DisplayValue(){
System.out.println (value);
}
}
class Float extends Data {
float value;
Float() {
value=2.688F;
}
public void DisplayValue(){
System.out.println (value);
}
}
// Pattern Classes
abstract class Factory {
abstract public Data CreateDataObject();
}
class IntFactory extends Factory {
public Data CreateDataObject(){
return new Integer();
}
}
class FloatFactory extends Factory {
public Data CreateDataObject(){
return new Float();
}
}
class Document { //Client classes
Data pd;
Document(Factory pf){
pd = pf.CreateDataObject();
}
public void DisplayData(){
pd.DisplayValue();
}
}
//Test class
public class MyDoc {
static Document d,f;
public static void main(String[] args) {
d = new Document(new IntFactory());
d.DisplayData();
f = new Document(new FloatFactory());
f.DisplayData();
}
}
- 测试结果:
实验二 面向对象程序设计-4
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提交:单元测试代码和运行成功截图及码云上代码链接,截图要加上学号水印
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参考http://www.cnblogs.com/rocedu/p/6736847.html
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任务:以TDD的方式开发一个复数类Complex,要求如下:
// 定义属性并生成getter,setter
double RealPart;
double ImagePart;
// 定义构造函数
public Complex()
public Complex(double R,double I)//Override Object
public boolean equals(Object obj)
public String toString()// 定义公有方法:加减乘除
Complex ComplexAdd(Complex a)
Complex ComplexSub(Complex a)
Complex ComplexMulti(Complex a)
Complex ComplexDiv(Complex a) -
产品代码:
public class Complex {
//定义属性并生成getter,setter
double RealPart;
double ImagePart;
public double getterRealPart() {
return RealPart;
}
public double getterImagePart() {
return ImagePart;
}
public void setter(double r, double i) {
RealPart = r;
ImagePart = i;
}
//定义构造函数
public Complex(){
}
public Complex(double r, double i) {
RealPart = r;
ImagePart = i;
}
//Override Object
public boolean equals(Object obj){
if(this == obj){
return true;
}
else
{
return false;
}
}
public String toString() {
String result = new String();
if (ImagePart > 0)
result = RealPart+"+"+ImagePart+"i";
if (ImagePart == 0)
result = RealPart+"";
if (ImagePart < 0)
result = RealPart+"-"+ImagePart*(-1)+"i";
return result;
}
//定义公有方法:加减乘除
public Complex ComplexAdd(Complex obj) {
return new Complex ((getterRealPart()+obj.getterRealPart()),(getterImagePart()+obj.getterImagePart()));
}
public Complex ComplexSub(Complex obj) {
return new Complex ((getterRealPart()-obj.getterRealPart()),(getterImagePart()-obj.getterImagePart()));
}
public Complex ComplexMulti(Complex obj) {
return new Complex ((getterRealPart()*obj.getterRealPart()-getterImagePart()*obj.getterImagePart()),(getterRealPart()*obj.getterImagePart()+getterImagePart()*obj.getterRealPart()));
}
public Complex ComplexDiv(Complex obj){
double div = Math.sqrt(obj.RealPart*obj.RealPart)+Math.sqrt(obj.ImagePart*obj.ImagePart);
return new Complex(((RealPart*obj.RealPart+ImagePart*obj.ImagePart)/div),((ImagePart*obj.RealPart-RealPart*obj.ImagePart)/div));
}
}
- 测试代码:
import junit.framework.TestCase;
import org.junit.Test;
public class ComplexTest extends TestCase {
Complex c1 = new Complex(2,4);
Complex c2 = new Complex(-1,1);
@Test
public void testComplexAdd(){
assertEquals("1.0+5.0i",c1.ComplexAdd(c2)+"");
}
@Test
public void testComplexSub(){
assertEquals("3.0+3.0i",c1.ComplexSub(c2)+"");
}
@Test
public void testComplexMulti(){
assertEquals("-6.0-2.0i",c1.ComplexMulti(c2)+"");
}
@Test
public void testComplexDiv(){
assertEquals("1.0-3.0i",c1.ComplexDiv(c2)+"");
}
}
- 测试结果:
实验二 面向对象程序设计-5
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使用WhiteStarUML对实验二中的代码进行建模,发类图的截图,加上学号水印。
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参考http://www.cnblogs.com/rocedu/p/6736847.html
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类图中只少两个类。
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类图:
二、实验过程中遇到的问题以及解决方法
- 问题1:
junit使用org.junit不存在,junit部分显示红色 - 问题1解决方案:点击
File——Project Struct……——Libraies——点击加号——Java——找到 IDEA 安装路径下的junit-4.12——点击OK
代码托管
三、实验心得体会
- 本次实验主要针对的是测试,单元测试可以更好地帮助我们测试边界及异常情况,在平时代码运行找不到错误的时候,可以通过单元测试寻找代码Bug,并对代码进行补充及修改,这能帮助我们更好地完成更健全的代码。
| 步骤 | 耗时 | 百分比 |
|---|---|---|
| 需求分析 | 20min | 10% |
| 设计 | 40min | 20% |
| 代码实现 | 70min | 35% |
| 测试 | 30min | 15% |
| 分析总结 | 40min | 20% |