struct Flow { static constexpr int INF = 1e9; int n; struct Edge { int to, cap; Edge(int to, int cap) : to(to), cap(cap) {} }; std::vector<Edge> e; std::vector<std::vector<int>> g; std::vector<int> cur, h; Flow(int n) : n(n), g(n) {} bool bfs(int s, int t) { h.assign(n, -1); std::queue<int> que; h[s] = 0; que.push(s); while (!que.empty()) { int u = que.front(); que.pop(); for (int i : g[u]) { int v = e[i].to; int c = e[i].cap; if (c > 0 && h[v] == -1) { h[v] = h[u] + 1; if (v == t) return true; que.push(v); } } } return false; } int dfs(int u, int t, int f) { if (u == t) return f; int r = f; for (int &i = cur[u]; i < int(g[u].size()); ++i) { int j = g[u][i]; int v = e[j].to; int c = e[j].cap; if (c > 0 && h[v] == h[u] + 1) { int a = dfs(v, t, std::min(r, c)); e[j].cap -= a; e[j ^ 1].cap += a; r -= a; if (r == 0) return f; } } return f - r; } void addEdge(int u, int v, int c) { g[u].push_back(e.size()); e.emplace_back(v, c); g[v].push_back(e.size()); e.emplace_back(u, 0); } int maxFlow(int s, int t) { int ans = 0; while (bfs(s, t)) { cur.assign(n, 0); ans += dfs(s, t, INF); } return ans; } }; //Flow flow(n*n+n+3);
网络流(更小常数jiangly版本)
rush!