Submission #452680

#TimeUsernameProblemLanguageResultExecution timeMemory
452680naman1601Valley (BOI19_valley)C++17
100 / 100
334 ms44740 KiB
/* ++[---------->+<]>.-[------>+<]>-.++++++++.+++++.-[->+++++<]>-.-[--->++<]>--.+.[--->+<]>---.[->+++<]>++.++++++.-------.++++++.--[--->+<]>.-[->+++<]>-..+++++++++++++.[----->++<]>.------------.+[----->+<]>.--------.+++++++++++++.-------------.--[--->+<]>-.---[->++++<]>-.++++[->+++<]>.--[--->+<]>-.[->+++<]>++.-.+++.---.-[->+++<]>.-[--->++<]>+.++++.------.[--->+<]>---.+[----->+<]>.------------.+++++++.-------.--[--->+<]>---.+++[->+++<]>++..+++++++++.---------.-[->+++<]>.+[----->+<]>+.-------------.+++++++.+.----[->+++<]>-. */ #include <bits/stdc++.h> using namespace std; typedef long long big; typedef long double ludo; #define pbb pair<big, big> #define pii pair<int, int> #define fe first #define se second #define maxheap priority_queue #define mset multiset #define uset unordered_set #define umap unordered_map #define fr(i, s, e) for(int i = s; i < e; i++) #define revfr(i, s, e) for(int i = s - 1; i >= e; i--) #define getv(v, n) for(int i = 0; i < n; i++) cin >> v[i]; #define speed ios_base::sync_with_stdio(false); cin.tie(NULL) #define nl "\n" // #define debug(text) if(do_debug) {cout << (#text) << ": " << text << endl;} #ifdef naman1601 #define debug(text) cout << (#text) << ": " << text << endl; #else #define debug(text) #endif const big mod = 1000000007; // const big mod = 998244353; const big infinity = 3000000000000000000; const int inf = 1e9 + 5; bool do_debug = false; const int maxn = 1e5 + 5; int n_nodes, nq, n_shops, destination; vector<int> adj[maxn]; big attribute[maxn]; vector<array<int, 2>> edges; map<int, int> ew[maxn]; struct lca { int n, tl; vector<int> t; vector<int> first; vector<int> euler; vector<int> dv; void init(int N) { n = N; euler.clear(); euler.reserve(2 * n); first.clear(); first.resize(n); dv.clear(); dv.resize(n); dv[destination] = 0; dfs(destination, destination); tl = euler.size(); t.clear(); t.resize(tl << 2, -1); build(1, 0, tl - 1); } int get_lca(int u, int v) { int l = first[u], r = first[v]; if(l > r) swap(l, r); return query(1, 0, tl - 1, l, r); } void dfs(int node, int parent) { first[node] = euler.size(); euler.push_back(node); for(int next : adj[node]) { if(next == parent) continue; dv[next] = dv[node] + 1; dfs(next, node); euler.push_back(node); } } int task(int child1, int child2) { if(child1 == -1) return child2; if(child2 == -1) return child1; if(dv[child1] < dv[child2]) { return child1; } else { return child2; } } void build(int node, int l, int r) { if(l == r) { t[node] = euler[l]; } else { int mid = (l + r) >> 1; build(node << 1, l, mid); build((node << 1) + 1, mid + 1, r); t[node] = task(t[node << 1], t[(node << 1) + 1]); } } int query(int node, int l, int r, int lq, int rq) { if(lq > rq) { return -1; } else if(lq <= l && rq >= r) { return t[node]; } else { int mid = (l + r) >> 1; return task(query(node << 1, l, mid, lq, min(rq, mid)), query((node << 1) + 1, mid + 1, r, max(lq, mid + 1), rq)); } } }; lca L; struct hld_t { int tl; vector<big> t; void init(int l, big val) { tl = l; t = vector<big>(tl << 2, val); } big task(big child1, big child2) { return min(child1, child2); } void update(int node, int l, int r, int pos, big val) { if(l == r) { t[node] = val; } else { int mid = (l + r) >> 1; if(pos <= mid) { update(node << 1, l, mid, pos, val); } else { update((node << 1) + 1, mid + 1, r, pos, val); } t[node] = task(t[node << 1], t[(node << 1) + 1]); } } void update(int pos, big val) { update(1, 0, tl - 1, pos, val); } big query(int node, int l, int r, int lq, int rq) { if(lq > rq) { return infinity; } else if(lq <= l && rq >= r) { return t[node]; } else { int mid = (l + r) >> 1; return task(query(node << 1, l, mid, lq, min(rq, mid)), query((node << 1) + 1, mid + 1, r, max(lq, mid + 1), rq)); } } big query(int lq, int rq) { return query(1, 0, tl - 1, lq, rq); } void build(vector<int>& v, int node, int l, int r) { if(l == r) { t[node] = attribute[v[l]]; // replace attribute with appropriate variable } else { int mid = (l + r) >> 1; build(v, node << 1, l, mid); build(v, (node << 1) + 1, mid + 1, r); t[node] = task(t[node << 1], t[(node << 1) + 1]); } } void build(vector<int>& v) { build(v, 1, 0, tl - 1); } }; struct hld { int n; vector<int> hld_path; vector<int> pos; vector<int> heavy_of; vector<int> head_of; vector<int> parent_of; hld_t t; void init(int N) { n = N; hld_path.clear(); hld_path.reserve(n); pos.clear(); pos.resize(n); heavy_of.clear(); heavy_of.resize(n, -1); head_of.clear(); head_of.resize(n); parent_of.clear(); parent_of.resize(n); t.init(n, infinity); parent_of[destination] = destination; dfs(destination); head_of[destination] = destination; decompose(destination); t.build(hld_path); } int dfs(int node) { int subtree_size = 1; int current_heavy_size = -1; for(int next : adj[node]) { if(next == parent_of[node]) continue; parent_of[next] = node; int next_size = dfs(next); subtree_size += next_size; if(next_size > current_heavy_size) { current_heavy_size = next_size; heavy_of[node] = next; } } return subtree_size; } void decompose(int node) { pos[node] = hld_path.size(); hld_path.push_back(node); if(heavy_of[node] != -1) { head_of[heavy_of[node]] = head_of[node]; decompose(heavy_of[node]); } for(int next : adj[node]) { if(next == heavy_of[node] || next == parent_of[node]) continue; head_of[next] = next; decompose(next); } } big task(big v1, big v2) { return min(v1, v2); } big query(int node, int ancestor) { big retval = infinity; for(; head_of[node] != head_of[ancestor]; node = parent_of[head_of[node]]) { retval = task(retval, t.query(pos[head_of[node]], pos[node])); } retval = task(retval, t.query(pos[ancestor], pos[node])); return retval; } void update(int node, big value) { t.update(pos[node], value); } }; hld h; big dp[maxn], dep[maxn]; int start[maxn], fin[maxn]; vector<int> euler; void init(int v, int p, big d) { dep[v] = d; for(int u : adj[v]) { if(u == p) continue; init(u, v, d + ew[u][v]); } } void dfs(int v, int p) { start[v] = euler.size(); euler.push_back(v); for(int u : adj[v]) { if(u == p) continue; dfs(u, v); dp[v] = min(dp[v], ew[u][v] + dp[u]); } attribute[v] = dp[v] - dep[v]; fin[v] = euler.size() - 1; } void solve() { cin >> n_nodes >> n_shops >> nq >> destination; destination--; fr(i, 0, n_nodes) dp[i] = infinity; edges.reserve(n_nodes - 1); fr(i, 0, n_nodes - 1) { int u, v, w; cin >> u >> v >> w; u--; v--; ew[u][v] = w; ew[v][u] = w; adj[u].push_back(v); adj[v].push_back(u); edges.push_back({u, v}); } init(destination, destination, 0); fr(i, 0, n_shops) { int v; cin >> v; v--; dp[v] = 0; } dfs(destination, destination); fr(i, 0, n_nodes - 1) { if(start[edges[i][0]] > start[edges[i][1]]) { swap(edges[i][0], edges[i][1]); } } // L.init(n_nodes); h.init(n_nodes); fr(i, 0, nq) { int e, v; cin >> e >> v; e--; v--; int u = edges[e][1]; // cout << "i: " << u << nl; if(start[v] >= start[u] && start[v] <= fin[u]) { big r = dep[v] + h.query(v, u); if(r < infinity) { cout << r << nl; } else { cout << "oo\n"; } } else { cout << "escaped\n"; } } } int main() { speed; int q = 1; // cin >> q; while(q-- > 0) { solve(); } return 0; }
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