An Easy Problem
| Time Limit: 1000MS | Memory Limit: 65536K | |
| Total Submissions: 8371 | Accepted: 5009 |
Description
As we known, data stored in the computers is in binary form. The problem we discuss now is about the positive integers and its binary form.
Given a positive integer I, you task is to find out an integer J, which is the minimum integer greater than I, and the number of '1's in whose binary form is the same as that in the binary form of I.
For example, if "78" is given, we can write out its binary form, "1001110". This binary form has 4 '1's. The minimum integer, which is greater than "1001110" and also contains 4 '1's, is "1010011", i.e. "83", so you should output "83".
Input
One integer per line, which is I (1 <= I <= 1000000).
A line containing a number "0" terminates input, and this line need not be processed.
Output
One integer per line, which is J.
Sample Input
1 2 3 4 78 0
Sample Output
2 4 5 8 83
Source
POJ Monthly,zby03
这题就是说给你一个1e6以内的数I,设x为I在二进制下1的个数.要找到大于n的最小的ans,满足ans在二进制下有x个1.
这一题我似乎是直接水过的...
如果看了Matrix67的帖子,就知道判断一个整数在二进制下有几个1只要O1的时间.
那么,我们不断的n++,判断一下就好了.最坏复杂度O(TI).
#include<cstdio>
using namespace std;
int n,m,cnt;
int calc(int x){
x=(x&)+((x>>)&);
x=(x&)+((x>>)&);
x=(x&)+((x>>)&);
x=(x&)+((x>>)&);
x=(x&)+((x>>)&);
return x;
}
int main(){
while (scanf("%d",&n)&&n){
cnt=calc(n),n++;
while (calc(n)!=cnt) n++;
printf("%d\n",n);
}
;
}