제출 #120967

#제출 시각아이디문제언어결과실행 시간메모리
120967KieranHorgan마상시합 토너먼트 (IOI12_tournament)C++17
0 / 100
1068 ms15480 KiB
// #include "grader.h" #include <bits/stdc++.h> using namespace std; #include <ext/pb_ds/assoc_container.hpp> #include <ext/pb_ds/tree_policy.hpp> using namespace __gnu_pbds; typedef tree<pair<pair<long double,long double>, int>, null_type, less<pair<pair<long double,long double>, int>>, rb_tree_tag, tree_order_statistics_node_update> ordered_set; vector<int> AdjList[200005]; int sz[200005]; int curNode = 1; int N, C, R, *K, *S, *E; int actualIdxToNode[100005]; int nodeToActualIdx[200005]; int idxToAdd, sizeToAdd, curIdx; ordered_set st, stt; void addNode() { if(st.empty()) st.insert({{0,1},1}); auto it = st.find_by_order(idxToAdd); auto l = it->first.first; auto r = it->first.second; auto id = it->second; st.erase(it); long double x = (r-l)/sizeToAdd; for(int i = 0; i < sizeToAdd; i++) { AdjList[id].push_back(++curNode); st.insert({{l, l+x}, curNode}); l += x; } if(x < 1e-20) { stt.clear(); long double l = 0; long double x = (long double)1/(st.size()); for(auto p: st) { p.first.first = l; p.first.second = l+x; l += x; stt.insert(p); } swap(st, stt); } } int curActualIdx = 0; int depth[200005]; int kthAncestor[20][200005]; void getDepth(int u, int d) { depth[u] = d; if(AdjList[u].empty()) { sz[u] = 1; actualIdxToNode[curActualIdx] = u; nodeToActualIdx[u] = curActualIdx++; return; } for(auto v: AdjList[u]) { sz[u] += sz[v]; kthAncestor[0][v] = u; getDepth(v, d-1); } } void calcKthAncestor() { kthAncestor[0][1] = 0; for(int i = 1+1; i <= curNode; i++) for(int j = 1; j < 20; j++) { kthAncestor[j][i] = kthAncestor[j-1][kthAncestor[j-1][i]]; if(kthAncestor[j][i]==0) break; } } int lca(int a, int b) { if(depth[a] < depth[b]) for(int j = 31-__builtin_clz(C-depth[a]); j >= 0; j--) if(depth[a] + (1<<j) <= depth[b]) a = kthAncestor[j][a]; if(depth[b] < depth[a]) for(int j = 31-__builtin_clz(C-depth[b]); j >= 0; j--) if(depth[b] + (1<<j) <= depth[a]) b = kthAncestor[j][b]; for(int j = 31-__builtin_clz(C-depth[a]); j >= 0; j--) if(kthAncestor[j][a] != kthAncestor[j][b]) { a = kthAncestor[j][a]; b = kthAncestor[j][b]; } if(a != b) { a = kthAncestor[0][a]; b = kthAncestor[0][b]; } return a; } int closestToLeft[100005]; int closestToRight[100005]; int GetBestPosition(int N_, int C_, int R_, int *K_, int *S_, int *E_) { N=N_, C=C_, R=R_; K=K_, S=S_, E=E_; sz[1] = 1; for(int i = C-1; i >= 0; i--) { curIdx = 0; idxToAdd = S[i]; sizeToAdd = E[i]-S[i]+1; addNode(); } getDepth(1,C); calcKthAncestor(); closestToLeft[0] = -1; for(int i = 1; i <= N; i++) { closestToLeft[i] = closestToLeft[i-1]; if(K[i-1] > R) closestToLeft[i] = i-1; } closestToRight[N-1] = -1; for(int i = N-1-1; i >= 0; i--) { closestToRight[i] = closestToRight[i+1]; if(K[i+1-1] > R) closestToRight[i] = i+1; } int ans = -1; int pos = -1; for(int i = 0; i < N; i++) { int a = 0; if(closestToLeft[i] == -1) { a = C-depth[actualIdxToNode[i]]; } else { a = depth[lca(actualIdxToNode[i], actualIdxToNode[closestToLeft[i]])]-depth[actualIdxToNode[i]]-1; } int b = 0; if(closestToRight[i] == -1) { b = C-depth[actualIdxToNode[i]]; } else { b = depth[lca(actualIdxToNode[i], actualIdxToNode[closestToRight[i]])]-depth[actualIdxToNode[i]]-1; } if(min(a,b) > ans) { ans = min(a,b); pos = i; } } return pos; }
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