제출 #820023

#제출 시각아이디문제언어결과실행 시간메모리
820023Aldas25Two Transportations (JOI19_transportations)C++14
6 / 100
3000 ms10108 KiB
#include "Azer.h" #include <bits/stdc++.h> using namespace std; namespace { const int MAXN = 2100; const int BITS_IN_DISTANCES = 9; const int BITS_IN_VERTICES = 11; const int INF_DISTANCE = (1 << BITS_IN_DISTANCES) - 1; int d[MAXN]; bool vis[MAXN]; int n; vector<pair<int, int>> adj[MAXN]; priority_queue<pair<int, int>, vector<pair<int, int>>, greater<>> pq; int longestCommonDistance = 0; pair<int, int> nextShortest; int distancesKnown = 0; int distanceReceived = 0; int vertexReceived = 0; int receivedBitsCount = 0; bool gettingDistance = true; // true if receiveA gets bits for distances, false if receiveA gets bits for vertex number void sendNumber(int number, int bits) { for (int i = 0; i < bits; i++) { SendA(number & (1 << i)); } } void sendNextShortest() { int distance = nextShortest.first - longestCommonDistance; // subtract to fit in BITS_IN_DISTANCES bytes sendNumber(distance, BITS_IN_DISTANCES); } void startSending() { int v = pq.top().second; // both people now know that the next shortest distance is to v pq.pop(); longestCommonDistance = d[v]; vis[v] = true; distancesKnown++; if (distancesKnown == n) return; // we now know all distances for (auto p : adj[v]) { int u = p.first; int w = p.second; int newDist = d[v] + w; if (d[u] == -1 || d[u] > newDist) { d[u] = newDist; pq.emplace(d[u], u); } } while (!pq.empty() && vis[pq.top().second]) { // don't consider if already distance known (if vis[v] is true) pq.pop(); } if (pq.empty()) nextShortest = {INF_DISTANCE + longestCommonDistance, n}; else nextShortest = pq.top(); sendNextShortest(); } void distanceWasReceived() { distanceReceived += longestCommonDistance; // because it was subtracted before sending if (distanceReceived < nextShortest.first) { // in equality case, Azer will send vertex number // we should now expect bits for the vertex number gettingDistance = false; } else { // we have better distance, we will send the vertex number of it gettingDistance = true; distanceReceived = 0; sendNumber(nextShortest.second, BITS_IN_VERTICES); startSending(); } } void vertexWasReceived() { if (d[vertexReceived] == -1 || distanceReceived < d[vertexReceived]) { d[vertexReceived] = distanceReceived; pq.emplace(distanceReceived, vertexReceived); } gettingDistance = true; distanceReceived = 0; vertexReceived = 0; startSending(); } void receiveBitForDistance(bool x) { if (x) distanceReceived += (1 << receivedBitsCount); receivedBitsCount++; if (receivedBitsCount == BITS_IN_DISTANCES) { // distance was got receivedBitsCount = 0; distanceWasReceived(); } } void receiveBitForVertex(bool x) { if (x) vertexReceived += (1 << receivedBitsCount); receivedBitsCount++; if (receivedBitsCount == BITS_IN_VERTICES) { // vertex was got receivedBitsCount = 0; vertexWasReceived(); } } void receiveBit(bool x) { if (gettingDistance) receiveBitForDistance(x); else receiveBitForVertex(x); } } // namespace void InitA(int N, int A, std::vector<int> U, std::vector<int> V, std::vector<int> C) { n = N; for (int i = 0; i < n; i++) { d[i] = -1; } for (int i = 0; i < A; i++) { adj[U[i]].emplace_back(V[i], C[i]); adj[V[i]].emplace_back(U[i], C[i]); } d[0] = 0; pq.emplace(d[0], 0); startSending(); } void ReceiveA(bool x) { receiveBit(x); } std::vector<int> Answer() { vector<int> ans(n); for (int i = 0; i < n; i++) ans[i] = d[i]; return ans; }
#include "Baijan.h" #include <bits/stdc++.h> using namespace std; namespace { const int MAXN = 2100; const int BITS_IN_DISTANCES = 9; const int BITS_IN_VERTICES = 11; const int INF_DISTANCE = (1 << BITS_IN_DISTANCES) - 1; int d[MAXN]; bool vis[MAXN]; int n; vector<pair<int, int>> adj[MAXN]; priority_queue<pair<int, int>, vector<pair<int, int>>, greater<>> pq; int longestCommonDistance = 0; pair<int, int> nextShortest; int distancesKnown = 0; int distanceReceived = 0; int vertexReceived = 0; int receivedBitsCount = 0; bool gettingDistance = true; // true if receiveA gets bits for distances, false if receiveA gets bits for vertex number void sendNumber(int number, int bits) { for (int i = 0; i < bits; i++) { SendB(number & (1 << i)); } } void sendNextShortest() { int distance = nextShortest.first - longestCommonDistance; // subtract to fit in BITS_IN_DISTANCES bytes sendNumber(distance, BITS_IN_DISTANCES); } void startSending() { int v = pq.top().second; // both people now know that the next shortest distance is to v pq.pop(); longestCommonDistance = d[v]; vis[v] = true; distancesKnown++; if (distancesKnown == n) return; // we now know all distances for (auto p : adj[v]) { int u = p.first; int w = p.second; int newDist = d[v] + w; if (d[u] == -1 || d[u] > newDist) { d[u] = newDist; pq.emplace(d[u], u); } } while (!pq.empty() && vis[pq.top().second]) { // don't consider if already distance known (if vis[v] is true) pq.pop(); } if (pq.empty()) nextShortest = {INF_DISTANCE + longestCommonDistance, n}; else nextShortest = pq.top(); sendNextShortest(); } void distanceWasReceived() { distanceReceived += longestCommonDistance; // because it was subtracted before sending if (distanceReceived < nextShortest.first) { // in equality case, Azer will send vertex number // we should now expect bits for the vertex number gettingDistance = false; } else { // we have better distance, we will send the vertex number of it gettingDistance = true; distanceReceived = 0; sendNumber(nextShortest.second, BITS_IN_VERTICES); startSending(); } } void vertexWasReceived() { if (d[vertexReceived] == -1 || distanceReceived < d[vertexReceived]) { d[vertexReceived] = distanceReceived; pq.emplace(distanceReceived, vertexReceived); } gettingDistance = true; distanceReceived = 0; vertexReceived = 0; startSending(); } void receiveBitForDistance(bool x) { if (x) distanceReceived += (1 << receivedBitsCount); receivedBitsCount++; if (receivedBitsCount == BITS_IN_DISTANCES) { // distance was got receivedBitsCount = 0; distanceWasReceived(); } } void receiveBitForVertex(bool x) { if (x) vertexReceived += (1 << receivedBitsCount); receivedBitsCount++; if (receivedBitsCount == BITS_IN_VERTICES) { // vertex was got receivedBitsCount = 0; vertexWasReceived(); } } void receiveBit(bool x) { if (gettingDistance) receiveBitForDistance(x); else receiveBitForVertex(x); } } // namespace void InitB(int N, int B, std::vector<int> S, std::vector<int> T, std::vector<int> D) { n = N; for (int i = 0; i < n; i++) { d[i] = -1; } for (int i = 0; i < B; i++) { adj[S[i]].emplace_back(T[i], D[i]); adj[T[i]].emplace_back(S[i], D[i]); } d[0] = 0; pq.emplace(d[0], 0); startSending(); } void ReceiveB(bool y) { receiveBit(y); }
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