package com.fangfa.text;
public class Chuancan {
public static void main(String[] args) {
int int_x;
double double_x;
int_x=add(3,5);
System.out.println("add(3,5)传参的值是"+int_x);
int_x=add(3,5,6);
System.out.println("add(3,5,6)传参的值是"+int_x);
double_x=add(3.5,4.7);
System.out.println("add(3.5,4.7)传参的值是
"+double_x);
int A[]={2,4,5,6};
System.out.println("一维数组的传参通过方法返回最大值"+max(A));
int B[][]={{2,4,5,6},{3,1,7,8}};
int C[][]=new int[2][4];
System.out.println("二维数组的传参方法依次输出");
erwei(B);
C=suanfa(B);
for(int i=0;i { for(int j=0;j System.out.print(C[i][j]+" "); System.out.println(); } } public static int add(int i, int j) { return i+j; } public static int add(int i, int j, int k) { return i+j+k; } public static double add(double d, double e) { return d+e; } public static int max(int arr[]){ int max=arr[0]; for(int i=0;i if(max max=arr[i]; return max; } public static void erwei(int arr[][]){ for(int i=0;i for(int j=0;j System.out.print(arr[i][j]+" "); System.out.println(); } } public static int[][] suanfa(int arr[][]){ for(int i=0;i for(int j=0;j arr[i][j]+=10; return arr; } }