Submission #303545

#TimeUsernameProblemLanguageResultExecution timeMemory
303545Haunted_CppConnecting Supertrees (IOI20_supertrees)C++17
0 / 100
1 ms384 KiB
#include "supertrees.h" #include <bits/stdc++.h> using namespace std; class DisjointSet { private: vector<int> par, sz; public: DisjointSet(int n) { par = sz = vector<int>(n); for (int i = 0; i < n; i++) { par[i] = i; sz[i] = 1; } } int root(int x) { if (x == par[x]) { return x; } return par[x] = root(par[x]); } void join(int a, int b) { a = root(a); b = root(b); if (a == b) { return; } if (sz[a] < sz[b]) { swap(a, b); } sz[a] += sz[b]; par[b] = a; } bool is_connected(int a, int b) { return root(a) == root(b); } }; const int MAX_N = 1e3 + 5; vector<vector<int>> g(MAX_N); vector<int> cnt_two(MAX_N); bitset<MAX_N> vis; int construct(vector<vector<int>> mat) { const int n = (int) mat.size(); DisjointSet DSU(n); vector<vector<int>> ans(n, vector<int>(n)); for (int i = 0; i < n; i++) { int cnt = 0; for (int j = 0; j < n; j++) { if (i == j) { continue; } if (mat[i][j] == 3) { return 0; } cnt += (mat[i][j] == 2); if (mat[i][j] == 1) { g[i].emplace_back(j); } if (mat[i][j] > 0) { DSU.join(i, j); } } cnt_two[i] = cnt; } for (int i = 0; i < n; i++) { for (int j = 0; j < n; j++) { if (mat[i][j] == 0 && DSU.is_connected(i, j)) { return 0; } } } vector<vector<int>> root(MAX_N); for (int i = 0; i < n; i++) { root[DSU.root(i)].emplace_back(i); } auto add_edge = [&](int st, int et) { if (st == et) { return; } ans[st][et] = ans[et][st] = 1; }; auto build_cycle = [&](const vector<int> &arr) { for (int i = 1; i < (int) arr.size(); i++) { add_edge(arr[i], arr[i - 1]); } add_edge(arr.front(), arr.back()); }; vis.reset(); for (auto to : root) { if (to.empty()) { continue; } const int sz = (int) to.size(); vector<int> main_cycle; for (auto cur : to) { if (cnt_two[cur] == sz - 1) { main_cycle.emplace_back(cur); } else { if (vis[cur]) { continue; } main_cycle.emplace_back(cur); vis[cur] = true; vector<int> chain = {cur}; for (auto add : g[cur]) { assert(vis[add] == false); vis[add] = true; add_edge(cur, add); } } } if (main_cycle.size() <= 2 && !main_cycle.empty()) { return 0; } build_cycle(main_cycle); } build(ans); return 1; }
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