답안 #1039477

#	제출 시각	아이디	문제	언어	결과	실행 시간	메모리
1039477	2024-07-30T23:56:45 Z	Trent	Spy 3 (JOI24_spy3)	C++17	72 / 100	260 ms	8188 KB

Aoi

#include "Aoi.h"
#include "bits/stdc++.h"
 
using namespace std;
#define forR(i, x) for(int i = 0; i < (x); ++i)
#define REP(i, a, b) for(int i = (a); i < (b); ++i)
#define all(x) x.begin(), x.end()
 
namespace {
	typedef long long ll;
	struct pii{int a, b;};
	bool operator <(pii a, pii b) {return a.a < b.a || a.a == b.a && a.b < b.b;}
	struct edge{int t; ll len;};
	struct node{int i; ll to;};
	bool operator <(node a, node b){
		return a.to > b.to;
	}
	const ll INF = 1e17;
	string toBinNumber(int x, int bits) {
		string ret;
		forR(i, bits) {
			ret.push_back(x % 2 == 0 ? '0' : '1');
			x /= 2;
		}
		reverse(all(ret));
		assert(x == 0);
		return ret;
	}
}
 
std::string aoi(int N, int M, int Q, int K, std::vector<int> A,
                std::vector<int> B, std::vector<long long> C,
                std::vector<int> T, std::vector<int> X) {
	vector<vector<edge>> adj(N);
	map<pii, int> xi;
	forR(i, M){
		adj[A[i]].push_back({B[i], C[i]});
		adj[B[i]].push_back({A[i], C[i]});
	}
	forR(i, K){
		xi.insert({{A[X[i]], B[X[i]]}, i});
		xi.insert({{B[X[i]], A[X[i]]}, i});
	}
 
	vector<int> indIn(K, Q);
	vector<int> lOld(Q);
	// dijkstra
	forR(i, Q){
		vector<ll> dis(N, INF);
		vector<bool> vis(N);
		vector<int> pre(N);
		priority_queue<node> dij;
		dij.push({0, 0});
		dis[0] = 0;
		while(!dij.empty()){
			auto [cur, len] = dij.top();
			dij.pop();
			if(!vis[cur]){
				vis[cur] = true;
				for(auto [to, el] : adj[cur]){
					if(len + el < dis[to]){
						dis[to] = len + el;
						pre[to] = cur;
						dij.push({to, dis[to]});
					}
				}
			}
		}
 
		vector<int> pth;
		for(int j = T[i]; j != 0; j = pre[j]) pth.push_back(j);
		pth.push_back(0);
		reverse(all(pth));
		int lasUsed = -1;
		forR(j, (int) pth.size() - 1) {
			if(xi.count({pth[j], pth[j+1]})) {
				int eInd = xi[{pth[j], pth[j+1]}];
				if(indIn[eInd] == Q) {
					indIn[eInd] = i;
				} else {
					lasUsed = eInd;
				}
			}
		}
		lOld[i] = lasUsed == -1 ? -1 : lasUsed;
	}
    set<int> sUsedX;
    for(int i : lOld) if(i != -1) {
        sUsedX.insert(i);
        assert(indIn[i] < Q);
    }
    vector<int> usedX;
    for(int i : sUsedX) usedX.push_back(i);
 
	for(int i : indIn) cerr << i << ' ';
	cerr << '\n';
	for(int i : lOld) cerr << i << ' ';
	cerr << '\n';

	string ret;
	for(int i : indIn) {
        if(!sUsedX.count(i)) ret += toBinNumber(i, 6);
        else {
            ret += toBinNumber(i + Q + 1, 6);
        }
	}
	for(int i : lOld) {
		ret += toBinNumber(i + 1, 9);
	}
	cerr << ret << '\n';
	return ret;
}

Bitaro

#include "Bitaro.h"
#include "bits/stdc++.h"
 
using namespace std;
#define forR(i, x) for(int i = 0; i < (x); ++i)
#define REP(i, a, b) for(int i = (a); i < (b); ++i)
#define all(x) x.begin(), x.end()
 
namespace {
	typedef long long ll;
	struct pii{int a, b;};
	bool operator <(pii a, pii b) {return a.a < b.a || a.a == b.a && a.b < b.b;}
	struct edge{int t, ind; ll len;};
	struct node{int i; ll to;};
	bool operator <(node a, node b){
		return a.to > b.to;
	}
	const ll INF = 1e17;
	int fromBinNumber(string s) {
		int ret = 0;
		for(char i : s) ret = ret * 2 + (i == '0' ? 0 : 1);
		return ret;
	}
}
 
void bitaro(int N, int M, int Q, int K, std::vector<int> A, std::vector<int> B,
            std::vector<long long> C, std::vector<int> T, std::vector<int> X,
            std::string s) {
	map<pii, int> xi;
	forR(i, K){
		xi.insert({{A[X[i]], B[X[i]]}, i});
		xi.insert({{B[X[i]], A[X[i]]}, i});
	}
 
	vector<vector<edge>> adj(N);
	map<pii, int> ei;
	forR(i, M){
		int cxi = -1;
		if(xi.count({A[i], B[i]})){
			cxi = xi[{A[i], B[i]}];
		}
		adj[A[i]].push_back({B[i], cxi, C[i]});
		adj[B[i]].push_back({A[i], cxi, C[i]});
		ei[{A[i], B[i]}] = i;
		ei[{B[i], A[i]}] = i;
	}
 
	vector<int> indIn;
	vector<int> lOld;
    vector<int> usedX;
	int ci=0;
	forR(i, K) {
        int val = fromBinNumber(s.substr(ci, 6));
        if(val >= Q + 1) {
            usedX.push_back(i);
            indIn.push_back(val - Q - 1);
        } else {
            indIn.push_back(val);
        }
		ci += 6;
	}
	forR(i, Q) {
		lOld.push_back(fromBinNumber(s.substr(ci, 9)) - 1);
		ci += 9;
	}
	for(int i : indIn) cerr << i << ' ';
	cerr << '\n';
	for(int i : lOld) cerr << i << ' ';
	cerr << '\n';
 
	vector<bool> solid(N, false);
	vector<int> sPre(N);
	forR(i, Q){
		vector<ll> dis(N, INF);
		vector<bool> vis(N);
		vector<int> pre(N);
		int stNode;
		if(lOld[i] == -1) stNode = 0;
		else {
			int eInd = X[lOld[i]];
			stNode = sPre[A[eInd]] == B[eInd] ? A[eInd] : B[eInd];
			assert(solid[stNode]);
		}
 
		priority_queue<node> dij;
		dij.push({stNode, 0});
		dis[stNode] = 0;
		while(!dij.empty()){
			auto [cur, len] = dij.top();
			dij.pop();
			if(!vis[cur]){
				vis[cur] = true;
				for(auto [to, ind, el] : adj[cur]){
					if(ind == -1 || indIn[ind] == i){
						el = ind == -1 ? el : 0;
						if(len + el < dis[to]){
							dis[to] = len + el;
							pre[to] = cur;
							dij.push({to, dis[to]});
						}
					}
				}	
			}
		}
		vector<int> pth;
		for(int j = T[i]; j != stNode; j = pre[j]) pth.push_back(j);
		for(int j = stNode; j != 0; j = sPre[j]) pth.push_back(j);
		pth.push_back(0);
		reverse(all(pth));
		for(int j : pth) cerr << j << ' ';
		cerr << '\n';
		REP(j, 1, pth.size()) {
			solid[pth[j]] = true;
			sPre[pth[j]] = pth[j-1];
		}
		vector<int> ret;
		forR(j, (int) pth.size() - 1) ret.push_back(ei[{pth[j], pth[j+1]}]);
		answer(ret);
	}
}

Compilation message

Aoi.cpp: In function 'bool {anonymous}::operator<({anonymous}::pii, {anonymous}::pii)':
Aoi.cpp:12:64: warning: suggest parentheses around '&&' within '||' [-Wparentheses]
   12 |  bool operator <(pii a, pii b) {return a.a < b.a || a.a == b.a && a.b < b.b;}
      |                                                     ~~~~~~~~~~~^~~~~~~~~~~~

Bitaro.cpp: In function 'bool {anonymous}::operator<({anonymous}::pii, {anonymous}::pii)':
Bitaro.cpp:12:64: warning: suggest parentheses around '&&' within '||' [-Wparentheses]
   12 |  bool operator <(pii a, pii b) {return a.a < b.a || a.a == b.a && a.b < b.b;}
      |                                                     ~~~~~~~~~~~^~~~~~~~~~~~
Bitaro.cpp: In function 'void bitaro(int, int, int, int, std::vector<int>, std::vector<int>, std::vector<long long int>, std::vector<int>, std::vector<int>, std::string)':
Bitaro.cpp:6:41: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
    6 | #define REP(i, a, b) for(int i = (a); i < (b); ++i)
      |                                         ^
Bitaro.cpp:112:3: note: in expansion of macro 'REP'
  112 |   REP(j, 1, pth.size()) {
      |   ^~~

Subtask #1

72.0 / 100.0

#	결과	실행 시간	메모리	Grader output
1	Partially correct	27 ms	6300 KB	Partially correct
2	Correct	1 ms	784 KB	Output is correct
3	Partially correct	57 ms	7036 KB	Partially correct
4	Partially correct	172 ms	6832 KB	Partially correct
5	Partially correct	57 ms	6996 KB	Partially correct
6	Partially correct	82 ms	7088 KB	Partially correct
7	Partially correct	50 ms	7076 KB	Partially correct
8	Partially correct	71 ms	6840 KB	Partially correct
9	Partially correct	148 ms	6908 KB	Partially correct
10	Partially correct	39 ms	6756 KB	Partially correct
11	Partially correct	50 ms	6908 KB	Partially correct
12	Correct	90 ms	7088 KB	Output is correct
13	Correct	62 ms	7000 KB	Output is correct
14	Correct	46 ms	6776 KB	Output is correct
15	Correct	127 ms	6936 KB	Output is correct
16	Correct	33 ms	6824 KB	Output is correct
17	Partially correct	250 ms	7128 KB	Partially correct
18	Partially correct	260 ms	7092 KB	Partially correct
19	Partially correct	65 ms	8096 KB	Partially correct
20	Partially correct	52 ms	8108 KB	Partially correct
21	Partially correct	64 ms	8140 KB	Partially correct
22	Partially correct	78 ms	8092 KB	Partially correct
23	Partially correct	58 ms	8092 KB	Partially correct
24	Partially correct	82 ms	8056 KB	Partially correct
25	Partially correct	201 ms	7064 KB	Partially correct
26	Partially correct	206 ms	7020 KB	Partially correct
27	Correct	2 ms	784 KB	Output is correct
28	Correct	64 ms	7344 KB	Output is correct
29	Partially correct	84 ms	5048 KB	Partially correct
30	Correct	85 ms	7472 KB	Output is correct
31	Correct	43 ms	7392 KB	Output is correct
32	Correct	60 ms	7476 KB	Output is correct
33	Correct	55 ms	6956 KB	Output is correct
34	Correct	109 ms	7628 KB	Output is correct
35	Correct	83 ms	7608 KB	Output is correct
36	Partially correct	80 ms	7600 KB	Partially correct
37	Partially correct	69 ms	4072 KB	Partially correct
38	Partially correct	187 ms	5376 KB	Partially correct
39	Correct	186 ms	5220 KB	Output is correct
40	Correct	26 ms	4748 KB	Output is correct
41	Partially correct	75 ms	7824 KB	Partially correct
42	Partially correct	53 ms	8048 KB	Partially correct
43	Correct	107 ms	8080 KB	Output is correct
44	Correct	31 ms	7868 KB	Output is correct
45	Partially correct	74 ms	4168 KB	Partially correct
46	Partially correct	94 ms	4980 KB	Partially correct
47	Correct	106 ms	4836 KB	Output is correct
48	Correct	0 ms	776 KB	Output is correct
49	Correct	0 ms	776 KB	Output is correct
50	Partially correct	23 ms	6604 KB	Partially correct
51	Partially correct	3 ms	1040 KB	Partially correct
52	Correct	2 ms	784 KB	Output is correct
53	Partially correct	27 ms	6296 KB	Partially correct
54	Partially correct	18 ms	4368 KB	Partially correct
55	Correct	40 ms	5080 KB	Output is correct
56	Partially correct	38 ms	7268 KB	Partially correct
57	Partially correct	59 ms	7764 KB	Partially correct
58	Partially correct	45 ms	6024 KB	Partially correct
59	Correct	62 ms	7904 KB	Output is correct
60	Partially correct	54 ms	7624 KB	Partially correct
61	Partially correct	73 ms	7944 KB	Partially correct
62	Correct	60 ms	7408 KB	Output is correct
63	Correct	58 ms	7964 KB	Output is correct
64	Correct	22 ms	6844 KB	Output is correct
65	Correct	34 ms	5560 KB	Output is correct
66	Partially correct	35 ms	8188 KB	Partially correct
67	Partially correct	34 ms	5340 KB	Partially correct
68	Partially correct	38 ms	8168 KB	Partially correct
69	Correct	0 ms	784 KB	Output is correct
70	Correct	1 ms	788 KB	Output is correct
71	Correct	2 ms	776 KB	Output is correct
72	Partially correct	17 ms	3852 KB	Partially correct
73	Partially correct	30 ms	4608 KB	Partially correct
74	Partially correct	32 ms	4588 KB	Partially correct
75	Correct	15 ms	4692 KB	Output is correct
76	Correct	0 ms	788 KB	Output is correct
77	Correct	47 ms	7156 KB	Output is correct
78	Partially correct	39 ms	7348 KB	Partially correct
79	Correct	55 ms	7104 KB	Output is correct
80	Correct	0 ms	784 KB	Output is correct
81	Correct	53 ms	6836 KB	Output is correct
82	Partially correct	48 ms	6860 KB	Partially correct
83	Correct	63 ms	6836 KB	Output is correct