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題目描述

Consider the following function f defined for any natural number n:
f(n) is the number obtained by summing up the squares of the digits of n in decimal (or base-ten).
If n = 19, for example, then f(19) = 82 because 12 + 92 = 82.
Repeatedly applying this function f, some natural numbers eventually become 1. Such numbers are called happy numbers. For example, 19 is a happy number, because repeatedly applying function f to 19 results in:
f(19) = 12 + 92 = 82
f(82) = 82 + 22 = 68
f(68) = 62 + 82 = 100
f(100) = 12 + 02 + 02 = 1
However, not all natural numbers are happy. You could try 5 and you will see that 5 is not a happy number. If n is not a happy number, it has been proved by mathematicians that repeatedly applying function f to n reaches the following cycle:
4 → 16 → 37 → 58 → 89 → 145 → 42 → 20 → 4.
Write a program that decides if a given natural number n is a happy number or not.

輸入

Your program is to read from standard input. The input consists of a single line that contains an integer, n (1 ≤ n ≤ 1,000,000,000)

輸出

Your program is to write to standard output. Print exactly one line. If the given number n is a happy number, print out HAPPY; otherwise, print out UNHAPPY.

樣例輸入

19

樣例輸出

HAPPY

題意：對於題目中給定的數 n ，可以進行對n的每位數字取平方和，可以不斷的進行該項操作，

如果在操作的過程中其平方和為1 ，n就是一個HAPPY NUMBER; 否則會是不會出現1 的迴圈節的情況

,判斷該數字n是否是一個HAPPY NUMBER;

程式碼：

#include<stdio.h>
#include<string.h>
#include<algorithm>
using namespace std;
#define ll long long int
int main()
{	
	ll panduan;
	scanf("%lld",&panduan);
	while(1){
		int x=panduan;
		int sum=0;
		while(x){
			int temp=x%10;
			sum+=temp*temp;
			x/=10;
		}
		panduan=sum;
		if(sum<10)
			break;
	}
	
	if(panduan!=1)
		printf("UNHAPPY\n");
	else
		printf("HAPPY\n");
	
	return 0;
 }