B. Passwords
Vanya is managed to enter his favourite site Codehorses. Vanya uses n distinct passwords for sites at all, however he can't remember which one exactly he specified during Codehorses registration.
Vanya will enter passwords in order of non-decreasing their lengths, and he will enter passwords of same length in arbitrary order. Just when Vanya will have entered the correct password, he is immediately authorized on the site. Vanya will not enter any password twice.
Entering any passwords takes one second for Vanya. But if Vanya will enter wrong password k times, then he is able to make the next try only 5 seconds after that. Vanya makes each try immediately, that is, at each moment when Vanya is able to enter password, he is doing that.
Determine how many seconds will Vanya need to enter Codehorses in the best case for him (if he spends minimum possible number of second) and in the worst case (if he spends maximum possible amount of seconds).
Input
The first line of the input contains two integers n and k (1 ≤ n, k ≤ 100) — the number of Vanya's passwords and the number of failed tries, after which the access to the site is blocked for 5 seconds.
The next n lines contains passwords, one per line — pairwise distinct non-empty strings consisting of latin letters and digits. Each password length does not exceed 100 characters.
The last line of the input contains the Vanya's Codehorses password. It is guaranteed that the Vanya's Codehorses password is equal to some of his n passwords.
Output
Consider the first sample case. As soon as all passwords have the same length, Vanya can enter the right password at the first try as well as at the last try. If he enters it at the first try, he spends exactly 1 second. Thus in the best case the answer is 1. If, at the other hand, he enters it at the last try, he enters another 4 passwords before. He spends 2 seconds to enter first 2 passwords, then he waits 5 seconds as soon as he made 2 wrong tries. Then he spends 2 more seconds to enter 2 wrong passwords, again waits 5 seconds and, finally, enters the correct password spending 1 more second. In summary in the worst case he is able to be authorized in 15 seconds.
Examples
input
5 2
cba
abc
bb1
abC
ABC
abc
output
1 15
input
4 100
11
22
1
2
22
output
3 4
Note
Consider the second sample case. There is no way of entering passwords and get the access to the site blocked. As soon as the required password has length of 2, Vanya enters all passwords of length 1 anyway, spending 2 seconds for that. Then, in the best case, he immediately enters the correct password and the answer for the best case is 3, but in the worst case he enters wrong password of length 2and only then the right one, spending 4 seconds at all.
题意:输入密码按长度非递减顺序输入,每输一次密码耗时1秒,输错k次等待5秒,最后一行为正确密码,问消耗的最少和最多时间。
思路:对密码长度进行桶排序,算出比正确密码长度短的密码个数,最少时间为下次输入即正确,最多为该长度最后输入才正确
1 //2016.9.30 2 #include <iostream> 3 #include <cstdio> 4 #include <cstring> 5 #define N 105 6 7 using namespace std; 8 9 int len[N]; 10 11 int main() 12 { 13 int n, k, len_of_ans, low_ans, high_ans; 14 string str; 15 while(scanf("%d%d", &n, &k)!=EOF) 16 { 17 memset(len, 0, sizeof(len)); 18 for(int i = 0; i < n; i++) 19 { 20 cin>>str; 21 len[str.length()]++; 22 } 23 cin>>str; 24 len_of_ans = str.length(); 25 low_ans = high_ans = 0; 26 int cnt = 0; 27 for(int i = 1; i < len_of_ans; i++)cnt += len[i]; 28 low_ans = cnt/k*5+cnt+1; 29 high_ans = (cnt+len[len_of_ans]-1)/k*5+cnt+len[len_of_ans]; 30 cout<<low_ans<<" "<<high_ans<<endl; 31 } 32 33 return 0; 34 }