Submission #804509

#TimeUsernameProblemLanguageResultExecution timeMemory
804509thimote75Prize (CEOI22_prize)C++14
0 / 100
3073 ms448364 KiB
#include <bits/stdc++.h> using namespace std; using bdata = vector<bool>; using idata = vector<int>; using igrid = vector<idata>; const int MAXK = 21; struct Tree { igrid roads; igrid parents_2k; idata dist_root; idata parents; idata preordre; idata depth; int root; void dfs_preordre (int node, int _depth) { preordre.push_back(node); depth[node] = _depth; for (int next : roads[node]) dfs_preordre(next, _depth + 1); } int jump (int node, int k) { for (int i = 0; i < MAXK; i ++) { if (((1 << i) & k) == 0) continue ; node = parents_2k[node][i]; } return node; } int lca (int a, int b) { if (depth[a] > depth[b]) swap(a, b); b = jump(b, depth[b] - depth[a]); if (a == b) return a; for (int i = MAXK - 1; i >= 0; i --) { if (parents_2k[a][i] == parents_2k[b][i]) continue ; a = parents_2k[a][i]; b = parents_2k[b][i]; } return parents[a]; } int distance (int a, int b) { int l = lca(a, b); return dist_root[a] + dist_root[b] - 2 * dist_root[l]; } void dfs_compute (idata &distances_to_parent, int distance, int node) { distance += distances_to_parent[node]; dist_root[node] = distance; for (int next : roads[node]) dfs_compute(distances_to_parent, distance, next); } void compute (idata &distances_to_parent) { dfs_compute(distances_to_parent, 0, root); } Tree () = default; Tree (int N) { dist_root.resize(N, -1); roads .resize(N); depth .resize(N); parents .resize(N); for (int i = 0; i < N; i ++) { cin >> parents[i]; parents[i] --; if (parents[i] == -2) { parents[i] = -1; root = i; continue ; } roads[parents[i]].push_back(i); } dfs_preordre(root, 0); parents_2k.resize(N, idata(MAXK, -1)); for (int i = 0; i < N; i ++) parents_2k[i][0] = parents[i]; for (int k = 0; k + 1 < MAXK; k ++) { for (int i = 0; i < N; i ++) { if (parents_2k[i][k] == -1) continue ; parents_2k[i][k + 1] = parents_2k[parents_2k[i][k]][k]; } } } }; Tree tree1, tree2; bdata subset; vector<pair<int, int>> queries; int last_preordre = -1; void dfs_query (int node) { if (subset[node]) { if (last_preordre != -1) { queries.push_back({ last_preordre, node }); cout << "? " << last_preordre + 1 << " " << node + 1 << endl << flush; } last_preordre = node; } for (int next : tree1.roads[node]) dfs_query(next); } int main () { int N, K, Q, T; cin >> N >> K >> Q >> T; tree1 = Tree(N); tree2 = Tree(N); subset.resize(N); for (int i = 0; i < K; i ++) { subset[ tree2.preordre[i] ] = true; cout << tree2.preordre[i] + 1; if (i + 1 == K) cout << endl << flush; else cout << " "; } dfs_query(tree1.root); cout << "!" << endl << flush; idata distance_to_root1(N, 0); idata distance_to_root2(N, 0); for (const auto &query : queries) { int q1 = query.first; int q2 = query.second; int al1, bl1, al2, bl2; cin >> al1 >> bl1 >> al2 >> bl2; int lca1 = tree1.lca(q1, q2); int lca2 = tree2.lca(q1, q2); distance_to_root1[lca1] = distance_to_root1[q1] - al1; distance_to_root1[q2 ] = distance_to_root1[q1] + bl1 - al1; distance_to_root2[lca2] = distance_to_root2[q1] - al2; distance_to_root2[q2 ] = distance_to_root2[q1] + bl2 - al2; } tree1.dist_root = distance_to_root1; tree2.dist_root = distance_to_root2; for (int i = 0; i < T; i ++) { int p, q; cin >> p >> q; p --; q --; cout << tree1.distance(p, q) << " " << tree2.distance(p, q) << endl << flush; } }
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