# Tag Archives: 滚动数组

## SGU 108 解题报告

http://acm.sgu.ru/problem.php?contest=0&problem=108

## 108. Self-numbers 2

time limit per test: 2.50 sec.
memory limit per test: 4096 KB

In 1949 the Indian mathematician D.R. Kaprekar discovered a class of numbers called self-numbers. For any positive integer n, define d(n) to be n plus the sum of the digits of n. (The d stands for digitadition, a term coined by Kaprekar.) For example, d(75) = 75 + 7 + 5 = 87. Given any positive integer n as a starting point, you can construct the infinite increasing sequence of integers n, d(n), d(d(n)), d(d(d(n))), .... For example, if you start with 33, the next number is 33 + 3 + 3 = 39, the next is 39 + 3 + 9 = 51, the next is 51 + 5 + 1 = 57, and so you generate the sequence 33, 39, 51, 57, 69, 84, 96, 111, 114, 120, 123, 129, 141, ... The number n is called a generator of d(n). In the sequence above, 33 is a generator of 39, 39 is a generator of 51, 51 is a generator of 57, and so on. Some numbers have more than one generator: for example, 101 has two generators, 91 and 100. A number with no generators is a self-number. Let the a[i] will be i-th self-number. There are thirteen self-numbers a..a less than 100: 1, 3, 5, 7, 9, 20, 31, 42, 53, 64, 75, 86, and 97. (the first self-number is a=1, the second is a = 3, :, the thirteen is a=97);

1949年,印度数学家D.R. Kaprekar 发现了一类数，称为自我数.对于任何一个正整数 n ,定义 d(n) 的值为 n 与 n的每一位数字之和.(d 叫做digitadition, 这个单词是Kaprekar创造的.) 例如,d(75) = 75 + 7 + 5 = 87. 给你任意正整数 n 作为起点，您可以构建无限增加的整数 n 序列,n, d(n), d(d(n)), d(d(d(n))),.... 例如,起点是33,则下一个数是 33 + 3 + 3 = 39,再下一个数是 39 + 3 + 9 = 51,然后是 51 + 5 + 1 = 57,这样由 33 生成的数列是 33, 39, 51, 57, 69, 84, 96, 111, 114, 120, 123, 129, 141,... 这样我们称正整数 n 是 d(n)生成器.在刚才的序列中, 33 是 39 的生成器, 39 是 51 的生成器, 51 是 57 的生成器,等等.有些数有不止一个生成器,例如, 101 有两个生成器, 91 和 100.如果一个数没有生成器我们就称它为自我数.用 a[i] 表示第 i 个自我数.小于 100 有 13 个自我数:1, 3, 5, 7, 9, 20, 31, 42, 53, 64, 75, 86, 97.(第一个自我数是 a = 1,第二个是 a = 3,:,第十三个是 a = 97);

### Input

Input contains integer numbers N, K, s1...sk. (1<=N<=107, 1<=K<=5000) delimited by spaces and line breaks.

### Output

At first line you must output one number - the quantity of self-numbers in interval [1..N]. Second line must contain K numbers - a[s1]..a[sk], delimited by spaces. It`s a gaurantee, that all self-numbers a[s1]..a[sk] are in interval [1..N]. (for example if N = 100, sk can be 1..13 and cannot be 14, because 14-th self-number a = 108, 108 > 100)

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