Submission #703613

#TimeUsernameProblemLanguageResultExecution timeMemory
703613bebraValley (BOI19_valley)C++17
32 / 100
198 ms79288 KiB
#include <bits/stdc++.h> using namespace std; using ll = long long; #define int long long #define dbg(x) cerr << #x << ": " << x << endl; const int MAX_N = 1e5 + 5; const ll INF = 1e17; vector<pair<int, ll>> g[MAX_N]; bool special[MAX_N]; pair<int, int> edges[MAX_N]; int tin[MAX_N]; int tout[MAX_N]; int timer = 0; ll depth[MAX_N]; ll first_down_dist[MAX_N]; // from different subtree ll second_down_dist[MAX_N]; const int MAX_K = 20; int binup[MAX_K][MAX_N]; ll binup_first_dist[MAX_K][MAX_N]; ll binup_second_dist[MAX_K][MAX_N]; ll first_down_value[MAX_N]; ll second_down_value[MAX_N]; void dfs_down(int v, int p) { tin[v] = timer++; if (special[v]) { first_down_dist[v] = 0; second_down_dist[v] = 0; } else { first_down_dist[v] = INF; second_down_dist[v] = INF; } vector<ll> values; for (const auto& [u, w] : g[v]) { if (u == p) continue; depth[u] = depth[v] + w; binup[0][u] = v; dfs_down(u, v); values.emplace_back(first_down_dist[u] + w); } sort(values.begin(), values.end()); if (values.size() == 1) { first_down_dist[v] = min(first_down_dist[v], values[0]); } else if (values.size() > 1) { first_down_dist[v] = min(first_down_dist[v], values[0]); second_down_dist[v] = min(second_down_dist[v], values[1]); } if (first_down_dist[v] != INF) { first_down_value[v] = first_down_dist[v] - depth[v]; } else { first_down_value[v] = INF; } if (second_down_dist[v] != INF) { second_down_value[v] = second_down_dist[v] + depth[v]; } else { second_down_value[v] = INF; } tout[v] = timer; } ll up_dist[MAX_N]; ll min_dist[MAX_N]; void dfs_up(int v) { for (const auto& [u, w] : g[v]) { g[u].erase(find(g[u].begin(), g[u].end(), make_pair(v, w))); } if (special[v]) { up_dist[v] = 0; } int n = g[v].size(); vector<ll> pref_min(n + 1, INF); vector<ll> suf_min(n + 1, INF); for (int i = 0; i < n; ++i) { auto [u, w] = g[v][i]; pref_min[i + 1] = min(pref_min[i], first_down_dist[u] + w); } for (int i = n - 1; i >= 0; --i) { auto [u, w] = g[v][i]; suf_min[i] = min(suf_min[i + 1], first_down_dist[u] + w); } min_dist[v] = min(up_dist[v], first_down_dist[v]); for (int i = 0; i < n; ++i) { auto [u, w] = g[v][i]; up_dist[u] = min({up_dist[v], pref_min[i], suf_min[i + 1]}) + w; dfs_up(u); } } bool is_parent(int p, int v) { return tin[p] <= tin[v] && tout[v] <= tout[p]; } int get_lca(int u, int v) { if (is_parent(u, v)) return u; if (is_parent(v, u)) return v; for (int k = MAX_K - 1; k >= 0; --k) { if (!is_parent(binup[k][v], u)) { v = binup[k][v]; } } return binup[0][v]; } ll get_dist(int u, int v) { int lca = get_lca(u, v); return depth[u] + depth[v] - 2 * depth[lca]; } ll get_second_dist(int u, int v) { // min over second_down_dist[c] + depth[c] over all vertices c in path from v to u if (u == v) return second_down_value[v]; if (!is_parent(u, v)) swap(u, v); ll res = INF; for (int k = MAX_K - 1; k >= 0; --k) { if (!is_parent(binup[k][v], u)) { res = min(res, binup_second_dist[k][v]); v = binup[k][v]; } } res = min(res, binup_second_dist[0][v]); return res; } ll get_first_dist(int u, int v, bool f = false) { // min over first_down_dist[c] - depth[c] over all vertices c in path from v to u if (u == v) return first_down_value[v]; if (!is_parent(u, v)) swap(u, v); ll res = INF; for (int k = MAX_K - 1; k >= 0; --k) { if (!is_parent(binup[k][v], u)) { res = min(res, binup_first_dist[k][v]); v = binup[k][v]; } } if (!f) { res = min(res, binup_first_dist[0][v]); } return res; } int32_t main() { ios_base::sync_with_stdio(false); cin.tie(nullptr); int n, s, q, t; cin >> n >> s >> q >> t; --t; for (int i = 0; i < n - 1; ++i) { int u, v; cin >> u >> v; --u, --v; int w; cin >> w; g[u].emplace_back(v, w); g[v].emplace_back(u, w); edges[i] = {u, v}; } for (int i = 0; i < s; ++i) { int v; cin >> v; --v; special[v] = true; } dfs_down(0, -1); up_dist[0] = INF; dfs_up(0); for (int i = 0; i < n - 1; ++i) { auto& [u, v] = edges[i]; if (!is_parent(u, v)) { swap(u, v); } } for (int v = 0; v < n; ++v) { binup_first_dist[0][v] = min(first_down_value[v], first_down_value[binup[0][v]]); binup_second_dist[0][v] = min(second_down_value[v], second_down_value[binup[0][v]]); } for (int k = 1; k < MAX_K; ++k) { for (int v = 0; v < n; ++v) { binup[k][v] = binup[k - 1][binup[k - 1][v]]; binup_first_dist[k][v] = min(binup_first_dist[k - 1][v], binup_first_dist[k - 1][binup[k - 1][v]]); binup_second_dist[k][v] = min(binup_second_dist[k - 1][v], binup_second_dist[k - 1][binup[k - 1][v]]); } } while (q--) { int edge, r; cin >> edge >> r; --edge, --r; auto [u, v] = edges[edge]; if ((is_parent(v, r) && is_parent(v, t)) || (!is_parent(v, r) && !is_parent(v, t))) { cout << "escaped\n"; continue; } if (special[r]) { cout << "0\n"; continue; } ll ans = INF; if (is_parent(r, u)) { if (get_dist(r, v) + first_down_dist[v] > min_dist[r]) { ans = min_dist[r]; } else { ll value = get_second_dist(r, u); if (value != INF) value -= depth[r]; ans = min(up_dist[r], value); } } else if (is_parent(v, r)) { if (get_dist(r, v) + up_dist[v] > min_dist[r]) { ans = min_dist[r]; } else { ans = min(first_down_dist[r], get_first_dist(v, r) + depth[r]); } } else { if (get_dist(r, v) + first_down_dist[v] == min_dist[r]) { int lca = get_lca(r, u); ll value = get_second_dist(lca, u); if (value != INF) value += -2 * depth[lca] + depth[r]; ans = min({first_down_dist[r], get_first_dist(r, lca, 1) + depth[r], value - depth[lca]}); } else { ans = min_dist[r]; } } if (ans >= INF) { cout << "oo\n"; } else { cout << ans << '\n'; } } return 0; } /* 6 3 1 4 1 2 4 2 5 3 2 6 4 1 3 5 1 4 5 5 5 2 5 3 right: 9 */
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