제출 #1040172

#제출 시각아이디문제언어결과실행 시간메모리
1040172spacewalkerKeys (IOI21_keys)C++17
0 / 100
1 ms348 KiB
#include <bits/stdc++.h> using namespace std; template<class T, class U> ostream& operator<< (ostream& os, const pair<T, U> &pair) { return os << '(' << pair.first << ", " << pair.second << ')'; } template<class T> ostream& operator<< (ostream& os, const vector<T> &arr) { os << '['; for (const T &v : arr) os << v << ", "; return os << ']'; } // TODO replace this with my own linked list because I can't guarantee that // the inserts will be constant time rahhh struct UnionFind { vector<int> par; vector<int> id; vector<list<int>> next_queue; UnionFind(int n) : par(n, -1), id(n), next_queue(n) { iota(begin(id), end(id), 0); } int find(int i) { return (par[i] < 0) ? i : (par[i] = find(par[i])); } void join(int i, int j, int new_id) { i = find(i); j = find(j); id[i] = id[j] = new_id; if (i == j) return; if (par[i] > par[j]) swap(i, j); par[i] += par[j]; par[j] = i; next_queue[i].insert(next_queue[i].end(), next_queue[j].begin(), next_queue[j].end()); } int rep(int i) {return id[find(i)];} list<int>& get_next_queue(int i) { return next_queue[find(i)]; } }; // return a partial partition of {0, ..., n-1} corresponding to sccs that cannot reach any other nodes vector<vector<int>> partial_sccs(const vector<int> &keys, const vector<vector<pair<int, int>>> &graph) { int n = keys.size(); vector<vector<int>> ans; // finalized[i] = can this vtx currently reach a vtx in ans? vector<bool> finalized(n); vector<int> cstack; vector<int> par(n, -1); vector<int> stack_pos(n, -1); vector<int> highest_reachable(n, n); vector<int> lowest_on_stack(n, -1); UnionFind current_sccs(n); vector<vector<pair<int, int>>> pending_color_queue(n); auto push_to_queue = [&] (int from, int to) { current_sccs.get_next_queue(from).push_back(to); }; auto mark_vertex = [&] (int c) { for (auto &[from, to] : pending_color_queue[c]) { int source = current_sccs.rep(from); push_to_queue(source, to); } pending_color_queue[c].clear(); }; auto register_edge = [&] (int from, int to, int c) { pending_color_queue[c].emplace_back(from, to); }; function<bool(int, int)> visit; visit = [&] (int v, int p) { // cerr << "visit " << v << " from " << p << endl; if (stack_pos[v] != -1) return true; if (finalized[v]) return false; par[v] = p; stack_pos[v] = cstack.size(); cstack.push_back(v); lowest_on_stack[keys[v]] = stack_pos[v]; mark_vertex(keys[v]); // cerr << cstack << endl; vector<pair<int, int>> neighbors = graph[v]; for (auto [to, c] : neighbors) register_edge(v, to, c); sort(begin(neighbors), end(neighbors), [&] (pair<int, int> n1, pair<int, int> n2) { return lowest_on_stack[n1.second] < lowest_on_stack[n2.second]; }); int highest_stack_pos = stack_pos[v]; /* cerr << v << " neighbors:"; for (auto [to, c] : neighbors) cerr << "(" << to << ", " << c << ", " << lowest_on_stack[c] << ") "; cerr << endl; for (auto [to, c] : neighbors) if (c == keys[v]) current_sccs.get_next_queue(v).push_back(to); */ auto update_hsp = [&] (int hsp) { // cerr << v << "update hsp with " << hsp << endl; highest_stack_pos = min(highest_stack_pos, hsp); while (!neighbors.empty() && lowest_on_stack[neighbors.back().second] >= highest_stack_pos) { int to = neighbors.back().first; neighbors.pop_back(); // cerr << "(hsp update) add " << v << "to queue" << endl; current_sccs.get_next_queue(v).push_back(to); } }; while (!current_sccs.get_next_queue(v).empty()) { int cur = current_sccs.get_next_queue(v).back(); current_sccs.get_next_queue(v).pop_back(); if (stack_pos[cur] != -1) { // cerr << "! back edge " << v << " " << cur << endl; if (finalized[cur]) return false; // this back edge gives us access to some colors. push them to our queue update_hsp(stack_pos[current_sccs.rep(cur)]); // merge sccs as needed to account for this back edge while (current_sccs.rep(v) != current_sccs.rep(cur)) { int parent = par[current_sccs.rep(v)]; // cerr << "joining " << v << " with " << parent << endl; current_sccs.join(v, parent, current_sccs.rep(parent)); } } else { if (!visit(cur, v)) return false; update_hsp(highest_reachable[v]); update_hsp(stack_pos[current_sccs.rep(v)]); } } // cerr << "visit " << v << " from " << p << " ending " << endl; if (v == current_sccs.rep(v) && highest_stack_pos <= stack_pos[v]) { // cerr << "! make new SCC" << endl; // new scc here ans.emplace_back(begin(cstack) + stack_pos[v], end(cstack)); return false; } highest_reachable[v] = highest_stack_pos; return true; }; for (int i = 0; i < n; ++i) { if (finalized[i]) continue; visit(i, -1); for (int v : cstack) { finalized[v] = true; lowest_on_stack[keys[v]] = -1; } cstack.clear(); } return ans; } vector<int> find_reachable(vector<int> r, vector<int> u, vector<int> v, vector<int> c) { int n = r.size(), m = u.size(); vector<vector<pair<int, int>>> graph(n); for (int i = 0; i < m; ++i) { graph[u[i]].emplace_back(v[i], c[i]); graph[v[i]].emplace_back(u[i], c[i]); } vector<vector<int>> sccs = partial_sccs(r, graph); int min_scc_size = n; for (auto &scc : sccs) min_scc_size = min((int)scc.size(), min_scc_size); vector<int> ans(n); for (auto &scc : sccs) { if (scc.size() == min_scc_size) { for (int v : scc) ans[v] = 1; } } return ans; }

컴파일 시 표준 에러 (stderr) 메시지

keys.cpp: In function 'std::vector<int> find_reachable(std::vector<int>, std::vector<int>, std::vector<int>, std::vector<int>)':
keys.cpp:166:20: warning: comparison of integer expressions of different signedness: 'std::vector<int>::size_type' {aka 'long unsigned int'} and 'int' [-Wsign-compare]
  166 |     if (scc.size() == min_scc_size) {
      |         ~~~~~~~~~~~^~~~~~~~~~~~~~~
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