Submission #320179

#TimeUsernameProblemLanguageResultExecution timeMemory
320179VEGAnnFun Tour (APIO20_fun)C++14
0 / 100
1 ms364 KiB
#include "fun.h" #include <bits/stdc++.h> #define PB push_back #define all(x) x.begin(),x.end() #define sz(x) ((int)x.size()) #define i2 array<int,2> using namespace std; const int oo = 2e9; const int N = 100100; vector<int> ans, chld; vector<i2> elms[3]; int dst[N]; void srt(){ if (sz(elms[0]) < sz(elms[1])) swap(elms[0], elms[1]); if (sz(chld) == 3 && sz(elms[1]) < sz(elms[2])) swap(elms[1], elms[2]); if (sz(elms[0]) < sz(elms[1])) swap(elms[0], elms[1]); } vector<int> createFunTour(int n, int Q) { if (n == 2) return {0, 1}; int cen = -1, mn = oo, hlf = (n + 1) / 2; for (int i = 1; i < n; i++){ int now = attractionsBehind(0, i); if (now < mn && now >= hlf){ mn = now; cen = i; } } chld.clear(); for (int i = 0; i < n; i++){ if (i == cen) continue; int now = hoursRequired(cen, i); dst[i] = now; if (now == 1) chld.PB(i); } for (int i = 0; i < n; i++){ if (i == cen) continue; int who = 0; for (int it = 1; it < sz(chld); it++){ int now = hoursRequired(chld[it], i); if (now + 1 == dst[i]){ who = it; break; } } elms[who].PB({dst[i], i}); } for (int i = 0; i < sz(chld); i++){ sort(all(elms[i])); } srt(); ans.clear(); if (sz(chld) == 3 && sz(elms[0]) >= sz(elms[1]) + sz(elms[2])){ chld.pop_back(); for (i2 cr : elms[2]) elms[1].PB(cr); sort(all(elms[1])); } if (sz(chld) == 3){ int lst = -1; while (1){ int bst = -1, id = -1; for (int it = 0; it < 3; it++){ if (it == lst) continue; if (elms[it].back()[0] > bst){ bst = elms[it].back()[0]; id = it; } } ans.PB(elms[id].back()[1]); elms[id].pop_back(); lst = id; if (sz(elms[0]) == sz(elms[1]) + sz(elms[2])) break; if (sz(elms[1]) == sz(elms[0]) + sz(elms[2])) break; if (sz(elms[2]) == sz(elms[0]) + sz(elms[1])) break; } srt(); for (i2 cr : elms[2]) elms[1].PB(cr); sort(all(elms[1])); while (sz(elms[1]) > 0){ ans.PB(elms[0].back()[1]); ans.PB(elms[1].back()[1]); elms[0].pop_back(); elms[1].pop_back(); } } else { while (sz(elms[1]) > 0){ ans.PB(elms[0].back()[1]); ans.PB(elms[1].back()[1]); elms[0].pop_back(); elms[1].pop_back(); } if (sz(elms[0]) > 0) ans.PB(elms[0][0][1]); } ans.PB(cen); return ans; }
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