一、Math.floor函数讲解
floor原意:地板。Math.floor函数是求一个浮点数的地板,就是求一个最接近它的整数,它的值小于或等于这个浮点数。看下面的例子:
package com.qiyuan.util;
public class GetInt {
/**
* Math.floor函数测试
* @param args
*/
public static void main(String[] args)
{
System.out.println("Math.floor(-1.1): " + Math.floor(-1.1));
System.out.println("Math.floor(-1.5): " + Math.floor(-1.5));
System.out.println("Math.floor(-1.6): " + Math.floor(-1.6));
System.out.println("Math.floor(0.1): " + Math.floor(0.1));
System.out.println("Math.floor(0.5): " + Math.floor(0.5));
System.out.println("Math.floor(0.6): " + Math.floor(0.6));
System.out.println("Math.floor(1.1): " + Math.floor(1.1));
System.out.println("Math.floor(1.5): " + Math.floor(1.5));
System.out.println("Math.floor(1.6): " + Math.floor(1.6));
}
}
结果为:
Math.floor(-1.1): -2.0
Math.floor(-1.5): -2.0
Math.floor(-1.6): -2.0
Math.floor(0.1): 0.0
Math.floor(0.5): 0.0
Math.floor(0.6): 0.0
Math.floor(1.1): 1.0
Math.floor(1.5): 1.0
Math.floor(1.6): 1.0
二、Math.ceil函数讲解
ceil愿意:天花板。Math.ceil函数执行的是向上取整计算,它返回的是大于或等于函数参数,并且与之最接近的整数。看下面的例子:
package com.qiyuan.util;
public class GetInt {
/**
* Math.ceil函数测试
* @param args
*/
public static void main(String[] args)
{
System.out.println("Math.ceil(-1.1): " + Math.ceil(-1.1));
System.out.println("Math.ceil(-1.5): " + Math.ceil(-1.5));
System.out.println("Math.ceil(-1.6): " + Math.ceil(-1.6));
System.out.println("Math.ceil(0.1): " + Math.ceil(0.1));
System.out.println("Math.ceil(0.5): " + Math.ceil(0.5));
System.out.println("Math.ceil(0.6): " + Math.ceil(0.6));
System.out.println("Math.ceil(1.1): " + Math.ceil(1.1));
System.out.println("Math.ceil(1.5): " + Math.ceil(1.5));
System.out.println("Math.ceil(1.6): " + Math.ceil(1.6));
}
}
结果为:
Math.ceil(-1.1): -1.0
Math.ceil(-1.5): -1.0
Math.ceil(-1.6): -1.0
Math.ceil(0.1): 1.0
Math.ceil(0.5): 1.0
Math.ceil(0.6): 1.0
Math.ceil(1.1): 2.0
Math.ceil(1.5): 2.0
Math.ceil(1.6): 2.0
三、Math.rint函数讲解
Math.rint函数返回最接近参数的整数,如果有2个数同样接近,则返回偶数的那个。
/**
* Math.rint函数测试
* @param args
*/
public static void main(String[] args)
{
System.out.println("Math.rint(-1.1): " + Math.rint(-1.1));
System.out.println("Math.rint(-1.5): " + Math.rint(-1.5));
System.out.println("Math.rint(-1.6): " + Math.rint(-1.6));
System.out.println("Math.rint(0.1): " + Math.rint(0.1));
System.out.println("Math.rint(0.5): " + Math.rint(0.5));
System.out.println("Math.rint(0.6): " + Math.rint(0.6));
System.out.println("Math.rint(1.1): " + Math.rint(1.1));
System.out.println("Math.rint(1.5): " + Math.rint(1.5));
System.out.println("Math.rint(1.6): " + Math.rint(1.6));
}
结果为:
Math.rint(-1.1): -1.0
Math.rint(-1.5): -2.0
Math.rint(-1.6): -2.0
Math.rint(0.1): 0.0
Math.rint(0.5): 0.0
Math.rint(0.6): 1.0
Math.rint(1.1): 1.0
Math.rint(1.5): 2.0
Math.rint(1.6): 2.0
四、Math.round函数讲解
Math.round方法,它表示"四舍五入",算法为Math.floor(x+0.5),即将原来的数字加上0.5后再向下取整
/**
* Math.round函数测试
* @param args
*/
public static void main(String[] args)
{
System.out.println("Math.round(-1.1): " + Math.round(-1.1));
System.out.println("Math.round(-1.5): " + Math.round(-1.5));
System.out.println("Math.round(-1.6): " + Math.round(-1.6));
System.out.println("Math.round(0.1): " + Math.round(0.1));
System.out.println("Math.round(0.5): " + Math.round(0.5));
System.out.println("Math.round(0.6): " + Math.round(0.6));
System.out.println("Math.round(1.1): " + Math.round(1.1));
System.out.println("Math.round(1.5): " + Math.round(1.5));
System.out.println("Math.round(1.6): " + Math.round(1.6));
}
结果为:
Math.round(-1.1): -1
Math.round(-1.5): -1
Math.round(-1.6): -2
Math.round(0.1): 0
Math.round(0.5): 1
Math.round(0.6): 1
Math.round(1.1): 1
Math.round(1.5): 2
Math.round(1.6): 2