java第二次动手动脑

import java.math.BigInteger;
import java.util.Scanner;

public class CalculateN {

/**
* @param args
*/
public static void main(String[] args) {
System.out.print("请输入N：");
Scanner scanner=new Scanner(System.in);
int number=scanner.nextInt();
System.out.println(number+"!="+calculateN2(number));

}

public static long calculateN(int n) {
if(n==1 || n==0){
return 1;
}

return n*calculateN(n-1);
}

public static BigInteger calculateN2(int n) {
if(n==1 || n==0){
return BigInteger.valueOf(1);
}
return BigInteger.valueOf(n).multiply(calculateN2((n-1)));
}
}

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public class CompareFloatNumber {

/**
* @param args
*/
public static void main(String[] args) {
//compare();
compare2();

}

private static void compare() {
double i = 0.0001;
double j = 0.00010000000000000001;
System.out.println(i==j); //输出：true
}
private static void compare2() {
double i = 0.0001;
double j = 0.00010000000000000001;
if(Math.abs(i-j)<1e-10){
System.out.println("true");
}
else
{
System.out.println("false");
}

}

}

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// MethodOverload.java
// Using overloaded methods

public class MethodOverload {

public static void main(String[] args) {
System.out.println("The square of integer 7 is " + square(7));
System.out.println("nThe square of double 7.5 is " + square(7.5));
}

public static int square(int x) {
return x * x;
}

public static double square(double y) {
return y * y;
}
}

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// RandomInt.java
// Shifted,scaled random integers
import javax.swing.JOptionPane;

public class RandomInt {
public static void main( String args[] )
{
int value;
String output = "";

for ( int i = 1; i <= 20; i++ ) {
value = 1 + (int) ( Math.random() * 6 );
output += value + " ";

if ( i % 5 == 0 )
output += "n";
}

JOptionPane.showMessageDialog( null,output,
"20 Random Numbers from 1 to 6",
JOptionPane.INFORMATION_MESSAGE );

System.exit( 0 );
}
}

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// RollDie.java
// Roll a six-sided die 6000 times
import javax.swing.*;

public class RollDie {
public static void main( String args[] )
{
int frequency1 = 0,frequency2 = 0,
frequency3 = 0,frequency4 = 0,
frequency5 = 0,frequency6 = 0,face;

// summarize results
for ( int roll = 1; roll <= 6000; roll++ ) {
face = 1 + (int) ( Math.random() * 6 );

switch ( face ) {
case 1:
++frequency1;
break;
case 2:
++frequency2;
break;
case 3:
++frequency3;
break;
case 4:
++frequency4;
break;
case 5:
++frequency5;
break;
case 6:
++frequency6;
break;
}
}

JTextArea outputArea = new JTextArea( 7,10 );

outputArea.setText(
"FacetFrequency" +
"n1t" + frequency1 +
"n2t" + frequency2 +
"n3t" + frequency3 +
"n4t" + frequency4 +
"n5t" + frequency5 +
"n6t" + frequency6 );

JOptionPane.showMessageDialog( null,outputArea,
"Rolling a Die 6000 Times",
JOptionPane.INFORMATION_MESSAGE );
System.exit( 0 );
}
}

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public class SquareInt {

public static void main(String[] args) {
int result;

for (int x = 1; x <= 10; x++) {
result = square(x);
// Math库中也提供了求平方数的方法
// result=(int)Math.pow(x,2);
System.out.println("The square of " + x + " is " + result + "n");
}
}

// 自定义求平方数的静态方法
public static int square(int y) {
return y * y;
}
}

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public class TestDouble
{
public static void main(String[] args)
{
/*---------下面是三角运算---------*/
//将弧度转换角度
System.out.println("Math.toDegrees(1.57)：" + Math.toDegrees(1.57));
//将角度转换为弧度
System.out.println("Math.toRadians(90)：" + Math.toRadians(90));
//计算反余弦，返回的角度范围在 0.0 到 pi 之间。
System.out.println("Math.acos(0.3)：" + Math.acos(1.2));
//计算反正弦；返回的角度范围在 -pi/2 到 pi/2 之间。
System.out.println("Math.asin(0.8)：" + Math.asin(0.8));
//计算反正切；返回的角度范围在 -pi/2 到 pi/2 之间。
System.out.println("Math.atan(2.3)：" + Math.atan(2.3));
//计算三角余弦。
System.out.println("Math.cos(1.57)：" + Math.cos(1.57));
//计算值的双曲余弦。
System.out.println("Math.cosh(1.2 )：" + Math.cosh(1.2 ));
//计算正弦
System.out.println("Math.sin(1.57 )：" + Math.sin(1.57 ));
//计算双曲正弦
System.out.println("Math.sinh(1.2 )：" + Math.sinh(1.2 ));
//计算三角正切
System.out.println("Math.tan(0.8 )：" + Math.tan(0.8 ));
//计算双曲余弦
System.out.println("Math.tanh(2.1 )：" + Math.tanh(2.1 ));
//将矩形坐标 (x,y) 转换成极坐标 (r,thet));，返回所得角 theta。
System.out.println("Math.atan2(0.1,0.2)：" + Math.atan2(0.1,0.2));
/*---------下面是取整运算---------*/
//取整，返回小于目标数的最大整数。
System.out.println("Math.floor(-1.2 )：" + Math.floor(-1.2 ));
//取整，返回大于目标数的最小整数。
System.out.println("Math.ceil(1.2)：" + Math.ceil(1.2));
//四舍五入取整
System.out.println("Math.round(2.3 )：" + Math.round(2.3 ));
/*---------下面是乘方、开方、指数运算---------*/
//计算平方根。
System.out.println("Math.sqrt(2.3 )：" + Math.sqrt(2.3 ));
//计算立方根。
System.out.println("Math.cbrt(9)：" + Math.cbrt(9));
//返回欧拉数 e 的n次幂。
System.out.println("Math.exp(2)：" + Math.exp(2));
//返回 sqrt(x2：" +y2)，没有中间溢出或下溢。
System.out.println("Math.hypot(4,4)：" + Math.hypot(4,4));
// 按照 IEEE 754 标准的规定，对两个参数进行余数运算。
System.out.println("Math.IEEEremainder(5,2)：" + Math.IEEEremainder(5,2));
//计算乘方
System.out.println("Math.pow(3,2)：" + Math.pow(3,2));
//计算自然对数
System.out.println("Math.log(12)：" + Math.log(12));
//计算底数为 10 的对数。
System.out.println("Math.log10(9)：" + Math.log10(9));
// 回参数与 1 之和的自然对数。
System.out.println("Math.log1p(9)：" + Math.log1p(9));
/*---------下面是符号相关的运算---------*/
//计算绝对值。
System.out.println("Math.abs(-4.5)：" + Math.abs(-4.5));
//符号赋值，返回带有第二个浮点数符号的第一个浮点参数。
System.out.println("Math.copySign(1.2,-1.0)：" + Math.copySign(1.2,-1.0));
//符号函数；如果参数为 0，则返回 0；如果参数大于 0，则返回 1.0；如果参数小于 0，则返回 -1.0。
System.out.println("Math.signum(2.3)：" + Math.signum(2.3));
/*---------下面是大小相关的运算运算---------*/
//找出最大值
System.out.println("Math.max(2.3,4.5)：" + Math.max(2.3,4.5));
//计算最小值
System.out.println("Math.min(1.2,3.4)：" + Math.min(1.2,3.4));
//返回第一个参数和第二个参数之间与第一个参数相邻的浮点数。
System.out.println("Math.nextAfter(1.2,1.0)：" + Math.nextAfter(1.2,1.0));
//返回比目标数略大的浮点数
System.out.println("Math.nextUp(1.2 )：" + Math.nextUp(1.2 ));
//返回一个伪随机数，该值大于等于 0.0 且小于 1.0。
System.out.println("Math.random()：" + Math.random());
}
}

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import java.util.*;

public class TestRandom
{
public static void main(String[] args)
{
Random rand = new Random();
System.out.println("rand.nextBoolean()：" + rand.nextBoolean());
byte[] buffer = new byte[16];
rand.nextBytes(buffer);
System.out.println(Arrays.toString(buffer));
//生成0.0~1.0之间的伪随机double数
System.out.println("rand.nextDouble()：" + rand.nextDouble());
//生成0.0~1.0之间的伪随机float数
System.out.println("rand.nextFloat()：" + rand.nextFloat());
//生成平均值是 0.0，标准差是 1.0的伪高斯数
System.out.println("rand.nextGaussian()：" + rand.nextGaussian());
//生成一个处于long整数取值范围的伪随机整数
System.out.println("rand.nextInt()：" + rand.nextInt());
//生成0~26之间的伪随机整数
System.out.println("rand.nextInt(26)：" + rand.nextInt(26));
//生成一个处于long整数取值范围的伪随机整数
System.out.println("rand.nextLong()：" + rand.nextLong());
}
}

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import java.util.Random;

public class TestSeed
{
public static void main(String[] args)
{
Random r1 = new Random(50);
System.out.println("第一个种子为50的Random对象");
System.out.println("r1.nextBoolean():t" + r1.nextBoolean());
System.out.println("r1.nextInt():tt" + r1.nextInt());
System.out.println("r1.nextDouble():t" + r1.nextDouble());
System.out.println("r1.nextGaussian():t" + r1.nextGaussian());
System.out.println("---------------------------");

Random r2 = new Random(50);
System.out.println("第二个种子为50的Random对象");
System.out.println("r2.nextBoolean():t" + r2.nextBoolean());
System.out.println("r2.nextInt():tt" + r2.nextInt());
System.out.println("r2.nextDouble():t" + r2.nextDouble());
System.out.println("r2.nextGaussian():t" + r2.nextGaussian());
System.out.println("---------------------------");

Random r3 = new Random(100);
System.out.println("种子为100的Random对象");
System.out.println("r3.nextBoolean():t" + r3.nextBoolean());
System.out.println("r3.nextInt():tt" + r3.nextInt());
System.out.println("r3.nextDouble():t" + r3.nextDouble());
System.out.println("r3.nextGaussian():t" + r3.nextGaussian());


Random r4 = new Random(System.currentTimeMillis());
System.out.println("以当前时间为种子的Random对象");
System.out.println("r3.nextBoolean():t" + r4.nextBoolean());
System.out.println("r3.nextInt():tt" + r4.nextInt());
System.out.println("r3.nextDouble():t" + r4.nextDouble());
System.out.println("r3.nextGaussian():t" + r4.nextGaussian());
}
}

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import java.awt.*;
import java.awt.event.*;
import java.util.*;

public class VariableArgumentsTest{

public static double max(double...values)
{
double largest=Double.MIN_VALUE;
for (double v:values)
if(v>largest) largest=v;
return largest;
}

public static void main(String args[]) {

System.out.println("Max:"+max(1,11,300,2,3));

}
}

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