输出1-4组成的不重复的数字
#include<stdio.h>int main(){
for(int i=1;i<=4;i++){
for(int j=1;j!=i && j<=4;j++){
for(int k=1;k!=j && k!=i && k<=4;k++){
printf("%d%d%d\n",i,j,k);
}
}
}
return 0;
}
输出1-4组成的不重复的数字,不知道哪里的问题
data:image/png;base64,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
#include<stdio.h>
int main(void)
{
int a , b , c , d ;
for(a = 1 ; a < 5 ; a ++) {
for(b = 1 ; b < 5 ; b ++) {
if(b != a) {
for(c = 1 ; c < 5 ; c ++) {
if(c != a && c != b) {
for(d = 1 ; d < 5 ; d ++) {
if(d != a && d != b && d != c) printf("%d%d%d%d\n" , a , b , c , d) ;
}
}
}
}
}
}
} jackz007 发表于 2021-4-2 21:04
大佬可以说说我的代码问题出在哪吗 在第二个for 循环中由于 j=1,j!=i && j<=4判断为False,所以直接跳出了循环重新第一个for循环开始,一直到i=3,满足所有条件 蔚然与成风 发表于 2021-4-3 12:25
在第二个for 循环中由于 j=1,j!=i && j
哦哦,懂了懂了{:10_282:}
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