PAT甲级——A1153 DecodeRegistrationCardofPAT【25】
A registration card number of PAT consists of 4 parts:
- the 1st letter represents the test level, namely,
Tfor the top level,Afor advance andBfor basic; - the 2nd - 4th digits are the test site number, ranged from 101 to 999;
- the 5th - 10th digits give the test date, in the form of
yymmdd; - finally the 11th - 13th digits are the testee's number, ranged from 000 to 999.
Now given a set of registration card numbers and the scores of the card owners, you are supposed to output the various statistics according to the given queries.
Input Specification:
Each input file contains one test case. For each case, the first line gives two positive integers N (≤) and M (≤), the numbers of cards and the queries, respectively.
Then N lines follow, each gives a card number and the owner's score (integer in [), separated by a space.
After the info of testees, there are M lines, each gives a query in the format Type Term, where
Typebeing 1 means to output all the testees on a given level, in non-increasing order of their scores. The correspondingTermwill be the letter which specifies the level;Typebeing 2 means to output the total number of testees together with their total scores in a given site. The correspondingTermwill then be the site number;Typebeing 3 means to output the total number of testees of every site for a given test date. The correspondingTermwill then be the date, given in the same format as in the registration card.
Output Specification:
For each query, first print in a line Case #: input, where # is the index of the query case, starting from 1; and input is a copy of the corresponding input query. Then output as requested:
- for a type 1 query, the output format is the same as in input, that is,
CardNumber Score. If there is a tie of the scores, output in increasing alphabetical order of their card numbers (uniqueness of the card numbers is guaranteed); - for a type 2 query, output in the format
Nt NswhereNtis the total number of testees andNsis their total score; - for a type 3 query, output in the format
Site NtwhereSiteis the site number andNtis the total number of testees atSite. The output must be in non-increasing order ofNt's, or in increasing order of site numbers if there is a tie ofNt.
If the result of a query is empty, simply print NA.
Sample Input:
8 4
B123180908127 99
B102180908003 86
A112180318002 98
T107150310127 62
A107180908108 100
T123180908010 78
B112160918035 88
A107180908021 98
1 A
2 107
3 180908
2 999
Sample Output:
Case 1: 1 A
A107180908108 100
A107180908021 98
A112180318002 98
Case 2: 2 107
3 260
Case 3: 3 180908
107 2
123 2
102 1
Case 4: 2 999
Solution:
这道题就是简单的进行分类判断
1 #include <iostream> 2 #include <vector> 3 #include <string> 4 #include <unordered_map> 5 #include <algorithm> 6 using namespace std; 7 struct node { 8 string t; 9 int value; 10 }; 11 bool cmp(const node &a, const node &b) { 12 return a.value != b.value ? a.value > b.value : a.t < b.t; 13 } 14 int main() { 15 int n, k, num; 16 string s; 17 cin >> n >> k; 18 vector<node> v(n); 19 for (int i = 0; i < n; i++) 20 cin >> v[i].t >> v[i].value; 21 for (int i = 1; i <= k; i++) { 22 cin >> num >> s; 23 printf("Case %d: %d %s\n", i, num, s.c_str()); 24 vector<node> ans; 25 int cnt = 0, sum = 0; 26 if (num == 1) { 27 for (int j = 0; j < n; j++) 28 if (v[j].t[0] == s[0]) 29 ans.push_back(v[j]); 30 } 31 else if (num == 2) { 32 for (int j = 0; j < n; j++) { 33 if (v[j].t.substr(1, 3) == s) { 34 cnt++; 35 sum += v[j].value; 36 } 37 } 38 if (cnt != 0) 39 printf("%d %d\n", cnt, sum); 40 } 41 else if (num == 3) { 42 unordered_map<string, int> m; 43 for (int j = 0; j < n; j++) 44 if (v[j].t.substr(4, 6) == s) m[v[j].t.substr(1, 3)]++; 45 for (auto it : m) 46 ans.push_back({ it.first, it.second }); 47 } 48 sort(ans.begin(), ans.end(), cmp); 49 for (int j = 0; j < ans.size(); j++) 50 printf("%s %d\n", ans[j].t.c_str(), ans[j].value); 51 if (((num == 1 || num == 3) && ans.size() == 0) || (num == 2 && cnt == 52 0)) printf("NA\n"); 53 } 54 return 0; 55 }
