Submission #955722

#TimeUsernameProblemLanguageResultExecution timeMemory
955722caterpillowRoad Closures (APIO21_roads)C++17
22 / 100
279 ms48540 KiB
#include <bits/stdc++.h> using namespace std; using ll = long long; using pl = pair<ll, ll>; #define vt vector #define f first #define s second #define all(x) x.begin(), x.end() #define pb push_back #define FOR(i, a, b) for (int i = (a); i < (b); i++) #define ROF(i, a, b) for (int i = (b) - 1; i >= (a); i--) #define F0R(i, b) FOR (i, 0, b) #define endl '\n' #define debug(x) do{auto _x = x; cerr << #x << " = " << _x << endl;} while(0) const ll INF = 1e18; random_device rd; mt19937 mt(rd()); using ptr = struct Node*; struct Node { int pri; ll val, agg; int sz; ptr l, r; Node(ll v) { val = agg = v; l = r = 0; pri = mt(); sz = 1; } ~Node() { delete l; delete r; } }; inline ll agg(ptr n) { return n ? n->agg : 0; } inline ll val(ptr n) { return n ? n->val : 0; } inline ll sz(ptr n) { return n ? n->sz : 0; } ptr pull(ptr n) { if (!n) return n; n->sz = sz(n->l) + 1 + sz(n->r); n->agg = agg(n->l) + n->val + agg(n->r); return n; } pair<ptr, ptr> split(ptr n, ll v) { if (!n) return {n, n}; if (v <= n->val) { auto [l, r] = split(n->l, v); n->l = r; return {l, pull(n)}; } else { auto [l, r] = split(n->r, v); n->r = l; return {pull(n), r}; } } pair<ptr, ptr> spliti(ptr n, int i) { if (!n) return {n, n}; if (i <= sz(n->l)) { auto [l, r] = spliti(n->l, i); n->l = r; return {l, pull(n)}; } else { auto [l, r] = spliti(n->r, i - sz(n->l) - 1); n->r = l; return {pull(n), r}; } } ptr merge(ptr l, ptr r) { if (!l || !r) return l ? l : r; ptr t; if (l->pri > r->pri) l->r = merge(l->r, r), t = l; else r->l = merge(l, r->l), t = r; return pull(t); } void erase(ptr& n, ll v) { auto [l, rhs] = split(n, v); auto [m, r] = spliti(rhs, 1); n = merge(l, r); } void insert(ptr& n, ll v) { auto [l, r] = split(n, v); n = merge(l, merge(new Node(v), r)); } ptr unite(ptr l, ptr r) { if (!l || !r) return l ? l : r; if (l->pri < r->pri) swap(l, r); auto [lt, rt] = split(r, l->val); l->l = unite(l->l, lt); l->r = unite(l->r, rt); return pull(l); } ll smol(ptr n) { if (!n) return INF; if (n->l) return smol(n->l); else return n->val; } /* answer all k's in O(nodes with degree > k * log^2 n) */ int n; vt<vt<pl>> adj; vt<int> deg; vt<int> ord; vt<ll> ans; vt<ptr> weights; vt<bool> seen; pl dfs(int u, int k, int par = -1) { // {take parent edge, dont take parent edge} seen[u] = true; vt<ll> diff; ll take_cost = 0; for (auto [v, w] : adj[u]) { if (v == par) continue; if (deg[v] > k) { auto [take, dont_take] = dfs(v, k, u); take_cost += dont_take; diff.pb(take - dont_take + w); } else break; } ll dont_take_cost = take_cost; ll req = deg[u] - k; sort(all(diff)); // CURSED CODE INCOMING ptr sussy = nullptr; for (auto e : diff) sussy = merge(sussy, new Node(e)); ptr& root = weights[u]; root = unite(root, sussy); auto [l, r] = spliti(root, req - 1); take_cost += agg(l); dont_take_cost = take_cost + smol(r); root = merge(l, r); for (auto e : diff) erase(root, e); // END CURSED CODE return {take_cost, dont_take_cost}; } vt<ll> minimum_closure_costs(int _n, vt<int> u, vt<int> v, vt<int> w) { auto comp = [&] (int a, int b) { return deg[a] > deg[b]; }; auto comppl = [&] (pl a, pl b) { return deg[a.f] > deg[b.f]; }; n = _n; adj.resize(n); deg.resize(n); ord.resize(n); iota(all(ord), 0); weights.resize(n, nullptr); seen.resize(n); F0R (i, n - 1) { adj[u[i]].pb({v[i], w[i]}); adj[v[i]].pb({u[i], w[i]}); deg[u[i]]++; deg[v[i]]++; insert(weights[u[i]], w[i]); insert(weights[v[i]], w[i]); } sort(all(ord), comp); F0R (i, n) sort(all(adj[i]), comppl); ans.resize(n); ROF (k, 0, n) { for (int u : ord) { if (deg[u] <= k) break; if (!seen[u]) { ans[k] += dfs(u, k).s; } } // reset for (int u : ord) { if (deg[u] > k) seen[u] = false; else if (deg[u] == k) { for (auto [v, w] : adj[u]) erase(weights[v], w); } else break; } } return ans; }
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