【STL】Saving the Universe
Saving the Universe
http://icpc.ahu.edu.cn/OJ/Problem.aspx?id=575
Description
The urban legend goes that if you go to the Google homepage and search for "Google", the universe will implode. We have a secret to share... It is true! Please don't try it, or tell anyone. All right, maybe not. We are just kidding.
The same is not true for a universe far far away. In that universe, if you search on any search engine for that search engine's name, the universe does implode!
To combat this, people came up with an interesting solution. All queries are pooled together. They are passed to a central system that decides which query goes to which search engine. The central system sends a series of queries to one search engine, and can switch to another at any time. Queries must be processed in the order they're received. The central system must never send a query to a search engine whose name matches the query. In order to reduce costs, the number of switches should be minimized.
Your task is to tell us how many times the central system will have to switch between search engines, assuming that we program it optimally.
The same is not true for a universe far far away. In that universe, if you search on any search engine for that search engine's name, the universe does implode!
To combat this, people came up with an interesting solution. All queries are pooled together. They are passed to a central system that decides which query goes to which search engine. The central system sends a series of queries to one search engine, and can switch to another at any time. Queries must be processed in the order they're received. The central system must never send a query to a search engine whose name matches the query. In order to reduce costs, the number of switches should be minimized.
Your task is to tell us how many times the central system will have to switch between search engines, assuming that we program it optimally.
Input
The first line of the input file contains the number of cases, N. N test cases follow.
Each case starts with the number S -- the number of search engines. The next S lines each contain the name of a search engine. Each search engine name is no more than one hundred characters long and contains only uppercase letters, lowercase letters, spaces, and numbers. There will not be two search engines with the same name.
The following line contains a number Q -- the number of incoming queries. The next Q lines will each contain a query. Each query will be the name of a search engine in the case.
Limits:
0 < N ≤ 20
2 ≤ S ≤ 100
0 ≤ Q ≤ 1000
Each case starts with the number S -- the number of search engines. The next S lines each contain the name of a search engine. Each search engine name is no more than one hundred characters long and contains only uppercase letters, lowercase letters, spaces, and numbers. There will not be two search engines with the same name.
The following line contains a number Q -- the number of incoming queries. The next Q lines will each contain a query. Each query will be the name of a search engine in the case.
Limits:
0 < N ≤ 20
2 ≤ S ≤ 100
0 ≤ Q ≤ 1000
Output
For each input case, you should output:
Case #X: Y
where X is the number of the test case and Y is the number of search engine switches. Do not count the initial choice of a search engine as a switch.
Case #X: Y
where X is the number of the test case and Y is the number of search engine switches. Do not count the initial choice of a search engine as a switch.
Sample Input
| Original | Transformed |
2 5 Yeehaw NSM Dont Ask B9 Googol 10 Yeehaw Yeehaw Googol B9 Googol NSM B9 NSM Dont Ask Googol 5 Yeehaw NSM Dont Ask B9 Googol 7 Googol Dont Ask NSM NSM Yeehaw Yeehaw Googol
Sample Output
| Original | Transformed |
Case #1: 1 Case #2: 0
#if __GNUC__>2
#include <ext/hash_set>
#include <ext/hash_map>
using namespace __gnu_cxx;
#else
#include <hash_set>
#include <hash_map>
using namespace stdext;
#endif
//hash_set的头文件
#include<cstdio>
#include<string>
using namespace std;
/*-------------------------------------------*/
/*函数类
*作为hash_map的hash函数
*string没有默认的hash函数
*/
class str_hash
{
public:
size_t operator()(const string& str) const
{
unsigned long __h = 0;
for (size_t i = 0 ; i < str.size() ; ++i)
__h = 5*__h + str[i];
return size_t(__h);
}
};
/*-------------------------------------------*/
/*函数类
*作为hash_map的比较函数 )
*(查找的时候不同的key往往可能对用到相同的hash值
*/
class str_compare
{
public:
bool operator()(const string& str1,const string& str2)const
{
return str1==str2;
}
};
/*-------------------------------------------*/
int main()
{
int T,n,m;
string s;
char ch[105];
scanf("%d", &T);
for(int t=1; t<=T; ++t)
{
scanf("%d", &n);
getchar();
for(int i=0; i<n; ++i)
gets(ch);
scanf("%d", &m);
getchar();
hash_set<string,str_hash,str_compare> st;
int count = 0;
for(int i=0; i<m; ++i)
{
gets(ch);
s=string(ch);
if (st.find(s) == st.end())
{
if (st.size() == n-1)
{
st.clear();
count++;
}
st.insert(s);
}
}
printf("Case #%d: %d\n", t, count);
}
return 0;
}