Submission #760328

#TimeUsernameProblemLanguageResultExecution timeMemory
760328Andrei_CalotaRace (IOI11_race)C++14
0 / 100
5 ms9756 KiB
#include "race.h" #include <bits/stdc++.h> using namespace std; using int64 = long long; const int N_MAX = 2e5; const int K_MAX = 1e6; struct defEdge { int from, to, cost; }; vector<defEdge> tree[1 + N_MAX]; int n, k; int sizOf[1 + N_MAX]; int64 preffSum[1 + N_MAX]; int depth[1 + N_MAX]; void auxDFS (int root, int p, int cost) { preffSum[root] = preffSum[p] + cost; depth[root] = depth[p] + 1; for (defEdge e : tree[root]) if (e.to != p) auxDFS (e.to, root, e.cost); sizOf[root] = 1; for (defEdge e : tree[root]) sizOf[root] += sizOf[e.to]; } const int NONE = -1; map<int64, int> minDist; /// minDist[k] = numarul minim de muchii cu distanta k vector<int> subTree[1 + N_MAX]; int answer[1 + N_MAX]; /// answer[root] = numarul minim de muchii care trec prin root cu suma k void DFS (int root, int p, bool toEliminate) { int maxSize = 0, heavyChild = NONE; for (defEdge e : tree[root]) if (e.to != p && sizOf[e.to] > maxSize) maxSize = sizOf[e.to], heavyChild = e.to; for (defEdge e : tree[root]) if (e.to != p && e.to != heavyChild) DFS (e.to, root, true); if (heavyChild != NONE) { DFS (heavyChild, root, false); swap (subTree[root], subTree[heavyChild]); } int64 target = k + 2 * preffSum[root]; subTree[root].push_back (root); minDist[preffSum[root]] = depth[root]; if (target > preffSum[root] && minDist[target - preffSum[root]]) answer[root] = minDist[target - preffSum[root]] - minDist[preffSum[root]]; for (defEdge e : tree[root]) { if (e.to != p && e.to != heavyChild) { for (int aux : subTree[e.to]) if (target > preffSum[aux] && minDist[target - preffSum[aux]]) answer[root] = min (answer[root], minDist[target - preffSum[aux]] + depth[aux] - 2 * depth[root]); for (int aux : subTree[e.to]) { subTree[root].push_back (aux); if (!minDist[preffSum[aux]] || minDist[preffSum[aux]] > depth[aux]) minDist[preffSum[aux]] = depth[aux]; } } } if (toEliminate) for (int aux : subTree[root]) minDist[preffSum[aux]] = 0; } const int PAIR = 2; int best_path (int N, int K, int H[][PAIR], int L[]) { n = N, k = K; for (int i = 0; i < N - 1; i ++) { int u = H[i][0], v = H[i][1]; u ++, v ++; tree[u].push_back ({u, v, L[i]}); tree[v].push_back ({v, u, L[i]}); } depth[0] = NONE, preffSum[0] = 0; auxDFS (1, 0, 0); DFS (1, 0, true); for (int node = 1; node <= n; node ++) answer[node] = 1 + N_MAX; int miny = answer[1]; for (int node = 2; node <= n; node ++) miny = min (miny, answer[node]); if (miny == 1 + N_MAX) return NONE; return miny; } /**void TestOut (void) { cin >> n >> k; for (int i = 1; i < n; i ++) { int u, v, cost; cin >> u >> v >> cost; u ++, v ++; tree[u].push_back ({u, v, cost}); tree[v].push_back ({v, u, cost}); } depth[0] = NONE, preffSum[0] = 0; auxDFS (1, 0, 0); for (int node = 1; node <= n; node ++) cout << depth[node] << " " << preffSum[node] << "\n"; for (int node = 1; node <= n; node ++) answer[node] = 1 + N_MAX; DFS (1, 0, true); for (int node = 1; node <= n; node ++) cout << answer[node] << " "; }**/ /**int main() { ///TestOut (); return 0; }**/
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...
#Verdict Execution timeMemoryGrader output
Fetching results...