这是我的 Fraction 类代码,有几种方法,我的要求是将分子和分母保持为 int:
/**
* @author GKsiazek
* Reference: https://github.com/kiprobinson/BigFraction/blob/master/com/github/kiprobinson/util/BigFraction.java
* Reference: https://github.com/kiprobinson/BigFraction/blob/master/com/github/kiprobinson/junit/BigFractionTest.java
*/
package Fraction;
import java.math.*;
public class Fraction {
private int numerator;
private int denominator;
/**
* Constructor with two int parameters
* @param num is numerator
* @param den is denominator
*/
public Fraction()
{}
public Fraction(int num, int den) {
if (den==0){//denominator cannot be zero
System.out.println("Denominator cannot be zero");
return;
}
this.numerator = num;
this.denominator = den;
this.normalize();
}
/**
* Constructor with one int parameter
* @param num is numerator
* @param den is assumed one
*/
public Fraction(int num){
this.numerator = 1;
this.denominator = num ;
}
/**
* Constructor with String parameter
* @param str
* Only String in a following format "numerator/denominator" allowed
* If the String consists of one int it is considered denominator
* Numerator will be considered 1
* Denominator cannot be zero
*/
public Fraction(String str)
{
if(str.isEmpty())
{
System.out.println("The str (String) parameter cannot be empty!");
return;
}
String[] data = str.split("/");
if(data.length==0)
System.out.println("The str (String) parameter cannot be empty");
try
{
this.numerator = Integer.parseInt(data[0]);
}
catch (Exception ex)
{
System.out.println(ex.toString());
}
try
{
this.denominator = Integer.parseInt(data[1]);
if(this.denominator==0) throw new Exception("Denominator can't be 0");
}
catch (Exception ex)
{
System.out.println(ex.toString());
}
this.normalize();
}
/**
* the method is applied within the constructors
* normalize method takes care of fraction normalization
* 1.Converts the numerator and denominator into BigInteger
* 2.Finds the GCD of both
* 3.if the GCD is larger than 1 it divides numerator and denominator by GCD
* @param numerator
* @param denominator
*/
private void normalize()//int numerator, int denominator)
{
BigInteger gcd;
BigInteger num = BigInteger.valueOf(this.numerator);
BigInteger den = BigInteger.valueOf(this.denominator);
gcd = num.gcd(den);
if (gcd.intValue() > 1)
{
this.numerator = numerator / gcd.intValue();
this.denominator = denominator / gcd.intValue();
}
}
public Fraction abs() {
return null;
}
public int getNumerator()
{
return this.numerator;
}
public int getDenominator()
{
return this.denominator;
}
/*
* a/b + c/d is (ad + bc)/bd
*/
public Fraction add(Fraction g)
{
int numerator = this.numerator * g.denominator + this.denominator * g.numerator;
int denominator = this.denominator * g.denominator;
return new Fraction(numerator,denominator);
}
/**
* subtract method
* a/b - c/d is (ad - bc)/bd
* calls the normalize method to make sure that the Fraction h
* is in the normalized form
*/
public Fraction substract (Fraction g)
{
int num = this.numerator * g.denominator - this.denominator * g.numerator;
int den = this.denominator*g.denominator;
return new Fraction(num,den);
}
/**
* equals method
* public boolean equals(Object o)
*/
public boolean equals (Object o){
if(o == null)return false;
return o.equals(this);
}
/**
* Multiplication
* (a/b) * (c/d) is (a*c)/(b*d)
* @param g
* @return
*/
public Fraction multiply(Fraction g)
{
int num = this.numerator * g.numerator;
int den = this.denominator * g.denominator;
return new Fraction(num,den);
}
/**
* Division
* (a/b) / (c/d) is (a*d)/(b*c)
* @param g
* @return
*/
public Fraction divide(Fraction g)
{
int num = this.numerator * g.denominator;
int den = this.denominator * g.numerator;
return new Fraction(num,den);
}
/**
* Negation
* -(a/b) is -a/b
*/
public Fraction negate()
{
int num = Math.abs(this.numerator) * -1;
int den = this.denominator;
return new Fraction(num,den);
}
/**
* Inverse of a/b is b/a
*/
public Fraction inverse()
{
int num = this.denominator;
int den = this.numerator;
return new Fraction(num,den);
}
/**
* a/b > c/d if ad > bc
* @return
*/
public boolean greaterThan(Fraction g)
{
if(this.numerator * g.denominator > this.denominator * g.numerator)
{
return true;//use the subtract() but how to
}
else return false;
}
/**
* lessThan method
* a/b < c/d if c/d > a/b
* @param g
* @return
*/
public boolean lessThan(Fraction g)
{
if (this.greaterThan(g)==false)
{
return true;
}
else return false;
}
@Override
public String toString()
{
return this.getNumerator()+"/"+this.getDenominator();
}
}
这是我的测试类,所有测试都成功,除了否定,我尝试了几个选项,只是乘以 -1 或者简单地用 - 否定,没有喜悦。
package Fraction;
import static org.junit.Assert.*;
import java.lang.reflect.Method;
import org.junit.Test;
import org.junit.Ignore;
import org.junit.runner.RunWith;
import org.junit.runners.JUnit4;
@RunWith(JUnit4.class)
public class FractionsTest {
/**
* test methods checking the constructors
*/
@Test
public void testFractionNum_Den()
{
Fraction f = new Fraction(2,6);
assertEquals(1, f.getNumerator());
assertEquals(3, f.getDenominator());
}
@Test
public void testFractionNum()
{
Fraction f = new Fraction(5);
assertEquals(1, f.getNumerator());
assertEquals(5, f.getDenominator());
}
@Test
public void testFractionStr()
{
Fraction f = new Fraction("1/5");
assertEquals(1, f.getNumerator());
assertEquals(5, f.getDenominator());
}
@Test
public void testNormalize()
{
Fraction f = new Fraction(2,4);
assertEquals(1, f.getNumerator());
assertEquals(2,f.getDenominator());
}
/**
* Method m=Dummy.class.getDeclaredMethod("foo");
* m.setAccessible(true);//Abracadabra
m.invoke(d);
*/
@Test
public void testAdd()
{
Fraction g = new Fraction(1,3);
Fraction toTest = g.add(new Fraction(1,3));
assertEquals(2, toTest.getNumerator());
assertEquals(3, toTest.getDenominator());
}
@Test
public void testSubtract()
{
Fraction g = new Fraction (4,6);
Fraction toTest = g.substract(new Fraction(2,6));
assertEquals(1, toTest.getNumerator());
assertEquals(3, toTest.getDenominator());
}
@Test
public void testMultiply()
{
Fraction g = new Fraction (2,3);
Fraction toTest = g.multiply(new Fraction(1,2));
assertEquals(1, toTest.getNumerator());
assertEquals(3, toTest.getDenominator());
}
@Test
public void testDivide()
{
Fraction g = new Fraction (2,3);
Fraction toTest = g.divide(new Fraction(1,3));
assertEquals(2, toTest.getNumerator());
assertEquals(1, toTest.getDenominator());
}
@Test
public void testNegate()
{
Fraction g = new Fraction(1,3);
g.negate();
assertEquals(-1, g.getNumerator());
assertEquals(3, g.getDenominator());
}
@Test
public void testgreaterThan()
{
Fraction g = new Fraction(1,3);
assertEquals(false, g.greaterThan(new Fraction(2,3)));
assertEquals(true, g.greaterThan(new Fraction(1,5)));
}
@Test
public void testlessThan()
{
Fraction g = new Fraction(2,3);
assertEquals(false, g.lessThan(new Fraction(1,3)));
assertEquals(true, g.lessThan(new Fraction(4,5)));
}
@Test
public void testtoString()
{
Fraction g = new Fraction(1,3);
String f = g.toString();
assertEquals(true, f.contentEquals("1/3"));
}
}
最佳答案
问题是您的 negate 方法返回一个新的 Fraction 对象,您永远不会将它重新分配给您的 g 变量:
public void testNegate()
{
Fraction g = new Fraction(1,3);
g = g.negate(); //added "g ="
assertEquals(-1, g.getNumerator());
assertEquals(3, g.getDenominator());
}
作为旁注,您的 negate 方法有一个问题,即 numerator 由于乘以 numerator< 的绝对值而始终为负(始终为正)减 -1。只需从那里删除 Math#abs 用法:
public Fraction negate()
{
int num = this.numerator * -1;
int den = this.denominator;
return new Fraction(num,den);
}
一个让你的类不可变的例子:
public class Fraction {
//marking the fields as final in order to only be initialized
//in class constructor
private final int numerator;
private final int denominator;
public Fraction() {
//always initialize the fields in constructor
numerator = 0;
denominator = 1; //because it cannot be zero
}
/**
* Constructor with two int parameters
* @param num is numerator
* @param den is denominator
*/
public Fraction(int num, int den) {
if (den==0) {
//denominator cannot be zero
//it is better to throw an exception than just returning
throw new IllegalArgumentException("Denominator cannot be zero");
}
int[] fractionData = this.normalize(num, den);
//always initialize the fields in constructor
this.numerator = fractionData[0];
this.denominator = fractionData[1];
}
private int[] normalize(int numParam, int denParam) {
int[] fractionData = new int[2];
fractionData[0] = numParam;
fractionData[1] = denParam;
BigInteger gcd;
BigInteger num = BigInteger.valueOf(numParam);
BigInteger den = BigInteger.valueOf(denParam);
gcd = num.gcd(den);
if (gcd.intValue() > 1) {
fractionData[0] = numParam / gcd.intValue();
fractionData[1] = denParam / gcd.intValue();
}
return fractionData;
}
//leaving the rest of the implementation up to you...
}
关于java - 我如何否定我创建的 Java Fraction 类,我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/21571940/