For any 4-digit integer except the ones with all the digits being the same, if we sort the digits in non-increasing order first, and then in non-decreasing order, a new number can be obtained by taking the second number from the first one. Repeat in this manner we will soon end up at the number 6174 -- the "black hole" of 4-digit numbers. This number is named Kaprekar Constant.
For example, start from 6767, we'll get:
7766 - 6677 = 1089
9810 - 0189 = 9621
9621 - 1269 = 8352
8532 - 2358 = 6174
7641 - 1467 = 6174
... ...
Given any 4-digit number, you are supposed to illustrate the way it gets into the black hole.
Input Specification:
Each input file contains one test case which gives a positive integer N in the range (0, 10000).
Output Specification:
If all the 4 digits of N are the same, print in one line the equation "N - N = 0000". Else print each step of calculation in a line until 6174 comes out as the difference. All the numbers must be printed as 4-digit numbers.
Sample Input 1:
6767
Sample Output 1:
7766 - 6677 = 1089
9810 - 0189 = 9621
9621 - 1269 = 8352
8532 - 2358 = 6174
Sample Input 2:
2222
Sample Output 2:
2222 - 2222 = 0000
#include<iostream>
#include<sstream>
#include<math.h>
#include<iomanip>
using namespace std;
void Insertion_sort(int a[],int N){
int i,j;
for(i=1;i<N;i++){
int temp=a[i];
for(j=i;j>0;j--)
if(a[j-1]>temp) swap(a[j-1],a[j]);
else break;
a[j]=temp;
}
}
int main(){
string s;
cin>>s;
s.insert(0,4-s.length(),'0');
int a[4];
int r=0;
while(r!=6174){
int m=0,n=0;
for(int i=0;i<4;i++)
a[i]=s[i]-'0';
Insertion_sort(a,4);
for(int i=0;i<4;i++){
m+=a[i]*pow(10,i);
n+=a[i]*pow(10,3-i);
}
r=m-n;
cout<<setw(4)<<setfill('0')<<m;
cout<<" - "; cout<<setw(4)<<setfill('0')<<n;
cout<<" = "; cout<<setw(4)<<setfill('0')<<r<<endl;
if(r==0) break;
ostringstream os;
os<<setw(4)<<setfill('0')<<r;
s=os.str();
}
return 0;
}