1. EnumTest.java
public class EnumTest {
public static void main(String[] args) {
Size s=Size.SMALL;
Size t=Size.LARGE;
//s和t引用同一个对象?
System.out.println(s==t); //
//是原始数据类型吗?
System.out.println(s.getClass().isPrimitive());
//从字符串中转换
Size u=Size.valueOf("SMALL");
System.out.println(s==u); //true
//列出它的所有值
for(Size value:Size.values()){
System.out.println(value);
}
}
}
enum Size{SMALL,MEDIUM,LARGE};
s 和 t 的值不同,s == t 的结果为 false
Size 不是基本类型,返回 false
枚举类型值相等即为一个变量
values() 为返回所有值
总结:枚举enum是一种特殊的类(还是类),使用枚举可以很方便的定义常量
一个常用的场合就是switch语句中,使用枚举来进行判断
注:因为是常量,所以一般都是全大写
使用枚举的好处就是可以把变量的范围限定在几个以内,在使用 switch 的时候就不用担心有其他值的情况
2. TestDouble.java
public class TestDouble {
public static void main(String args[]) {
System.out.println("0.05 + 0.01 = " + (0.05 + 0.01));
System.out.println("1.0 - 0.42 = " + (1.0 - 0.42));
System.out.println("4.015 * 100 = " + (4.015 * 100));
System.out.println("123.3 / 100 = " + (123.3 / 100));
}
}
运行结果:
0.05 + 0.01 = 0.060000000000000005
1.0 - 0.42 = 0.5800000000000001
4.015 * 100 = 401.49999999999994
123.3 / 100 = 1.2329999999999999
结论:使用double类型的数值进行计算, 其结果是不精确的。
解决方法——使用BigDecimal类
import java.math.BigDecimal;
public class TestBigDecimal
{
public static void main(String[] args)
{
BigDecimal f1 = new BigDecimal("0.05");
BigDecimal f2 = BigDecimal.valueOf(0.01);
BigDecimal f3 = new BigDecimal(0.05);
System.out.println("下面使用String作为BigDecimal构造器参数的计算结果:");
System.out.println("0.05 + 0.01 = " + f1.add(f2));
System.out.println("0.05 - 0.01 = " + f1.subtract(f2));
System.out.println("0.05 * 0.01 = " + f1.multiply(f2));
System.out.println("0.05 / 0.01 = " + f1.divide(f2));
System.out.println("下面使用double作为BigDecimal构造器参数的计算结果:");
System.out.println("0.05 + 0.01 = " + f3.add(f2));
System.out.println("0.05 - 0.01 = " + f3.subtract(f2));
System.out.println("0.05 * 0.01 = " + f3.multiply(f2));
System.out.println("0.05 / 0.01 = " + f3.divide(f2));
}
}
运行结果:
下面使用String作为BigDecimal构造器参数的计算结果:
0.05 + 0.01 = 0.06
0.05 - 0.01 = 0.04
0.05 * 0.01 = 0.0005
0.05 / 0.01 = 5
下面使用double作为BigDecimal构造器参数的计算结果:
0.05 + 0.01 = 0.06000000000000000277555756156289135105907917022705078125
0.05 - 0.01 = 0.04000000000000000277555756156289135105907917022705078125
0.05 * 0.01 = 0.0005000000000000000277555756156289135105907917022705078125
0.05 / 0.01 = 5.000000000000000277555756156289135105907917022705078125
3.
int X=100;
int Y=200;
System.out.println("X+Y="+X+Y);
System.out.println(X+Y+"=X+Y");
使用运算符 + 连接字面量“The sum is” 和计算结果 sum将String 和其它数据类型相加,结果是一个新的String
4.
自动生成 n 道小学四则运算题目的 “软件”
//信1805-2孙超凡20183558
import java.util.Scanner;
public class Mathtest{
public static void main(String[] args)
{
int[] chucun1= new int [1001];
int[] chucun2= new int [1001];
int[] chucun3= new int [1001];
int[] chucun4= new int [1001];
int[] chucun5= new int [1001];
int[] chucun6= new int [1001];
int[] chucun7= new int [1001];
int[] chucun8= new int [1001];
int max=100,min=1;
int ran1 = (int) (Math.random()*(max-min)+min);
int ran2=(int) (Math.random()*(max-min)+min);
int zhuangtai=0;
char fuhao[]={'+','+','-','*','/'};
max=4;min=1;
int ran3=(int) (Math.random()*(max-min)+min);
int shuliang;
System.out.println("enter the number1:");
Scanner scan=new Scanner(System.in);
shuliang=scan.nextInt();
System.out.println("enter the number2:");
int hang=scan.nextInt();
int p=0;
for(int i=1;i<shuliang+1;++i)
{
++p;
max=100;min=1;
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
max=5;min=1;
ran3=(int) (Math.random()*(max-min)+min);
switch(ran3){
case 1:{max=100;min=1;
chucun5[i]=ran1;
chucun6[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun5[m]||ran2==chucun6[m]){
zhuangtai=1;
break;}
zhuangtai=0;
}
while(zhuangtai==1){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
chucun5[i]=ran1;
chucun6[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun5[m]||ran2==chucun6[m]){
zhuangtai=1;
break;}
zhuangtai=0;}
}
System.out.println(i+","+ran1+" + "+ran2+" =");
break;
}
case 2:{
max=100;min=1;
chucun1[i]=ran1;
chucun2[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun1[m]||ran2==chucun2[m]){
zhuangtai=1;
break;}
zhuangtai=0;
}
while(zhuangtai==1){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
chucun1[i]=ran1;
chucun2[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun1[m]||ran2==chucun2[m]){
zhuangtai=1;
break;}
zhuangtai=0;}
}
if(ran1>ran2)System.out.println(i+","+ran1+" - "+ran2+" =");
else System.out.println(i+","+ran2+" - "+ran1+" =");
break;
}
case 3:
{
max=100;min=1;
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
chucun3[i]=ran1;
chucun4[i]=ran2;
while((ran1*ran2)>=100){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
chucun3[i]=ran1;
chucun4[i]=ran2;
}
for(int m=0;m<i;++m){
if(ran1==chucun3[m]||ran2==chucun4[m]){
zhuangtai=1;
break;}
zhuangtai=0;
}
while(zhuangtai==1&&(ran1*ran2)>=100){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
chucun3[i]=ran1;
chucun4[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun3[m]||ran2==chucun4[m]){
zhuangtai=1;
break;}
zhuangtai=0;}
}
System.out.println(i+","+ran1+" * "+ran2+" =");
max=100;min=1;
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
break;
}
case 4:{
max=100;
if(ran1>ran2){
float ran=ran1/ran2;
while(ran1%ran2!=0){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
}
chucun7[i]=ran1;
chucun8[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun7[m]||ran2==chucun8[m]){
zhuangtai=1;
break;
}
zhuangtai=0;
}
while(zhuangtai==1){
ran1 = (int) (Math.random()*(max-min)+min);
ran2= (int) (Math.random()*(max-min)+min);
ran=ran1/ran2;
while(ran1%ran2!=0){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
}
chucun7[i]=ran1;
chucun8[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun7[m]||ran2==chucun8[m]){
zhuangtai=1;
break;}
zhuangtai=0;}
// System.out.println(zhuangtai+"!!");
}
System.out.println(i+","+ran1+" / "+ran2+" =");
break;
}
else {
int t=ran2;
ran2=ran1;
ran1=t;
float ran=ran1/ran2;
while(ran1%ran2!=0){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
}
chucun7[i]=ran1;
chucun8[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun7[m]||ran2==chucun8[m]){
zhuangtai=1;
break;}
zhuangtai=0;
}
while(zhuangtai==1){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
ran=ran1/ran2;
while(ran1%ran2!=0){
ran1 = (int) (Math.random()*(max-min)+min);
ran2=(int) (Math.random()*(max-min)+min);
}
chucun7[i]=ran1;
chucun8[i]=ran2;
for(int m=0;m<i;++m){
if(ran1==chucun7[m]||ran2==chucun8[m]){
zhuangtai=1;
break;
}
zhuangtai=0;
}
// System.out.println(zhuangtai+"??");
}
System.out.println(i+","+ran1+" / "+ran2+" =");
break;
}
}
}
if(p==hang){
System.out.println("\n");
p=0;
}
}
}
}//定制,不能重复
运行结果
实现功能:
自定义题目总数和组数
算式不重复
乘法结果 < 100
除法均为整除