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二部グラフの最大マッチング
(graph/bipartite_matching.hpp)
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- Last update: 2025-09-19 19:07:58+09:00
- Include:
#include "graph/bipartite_matching.hpp"
二部グラフの最大マッチング
使い方
-
vector<pair<int, int>> bipartite_matching(vector<vector<int>> &g): 二部グラフ $G$ の最大マッチングを表す組を返す $O(E \sqrt{V})$
Depends on
最大流(Dinic)
(graph/dinic.hpp)
Required by
Code
#pragma once
#include "./dinic.hpp"
#include<vector>
#include<ranges>
vector<pair<int, int>> bipartite_matching(const int &l, const int &r, const vector<pair<int, int>> &es) {
dinic<int> matching(l+r+2);
const int S = l+r+0;
const int T = l+r+1;
for(int i = 0;i < l;i++)matching.add_edge(S, i, 1);
for(int i = 0;i < r;i++)matching.add_edge(l+i, T, 1);
for(auto [u, v] : es){
matching.add_edge(u, l+v, 1);
}
matching.calc(S, T);
std::vector<pair<int, int>> ret;
// C++23
// for(auto [idx, edge] : es | std::views::enumerate) {
for(int idx = 0;idx < ssize(es);idx++){
auto &edge = es[idx];
if(matching.get_flow(l+r+idx) == 1){
ret.emplace_back(edge);
}
}
return ret;
}#line 2 "graph/bipartite_matching.hpp"
#line 2 "graph/dinic.hpp"
#include<numeric>
#include<queue>
#include<vector>
template<typename T>
struct dinic {
struct edge{
int to;
T cap;
T rev;
T init_cap;
};
int n;
std::vector<std::vector<edge>> G;
std::vector<int> level;
std::vector<int> iter;
std::vector<int> from_idx, to_idx;
int edge_idx;
dinic(int _v) : n(_v), G(n), level(n), iter(n), edge_idx(0) {}
int add_edge(int from, int to, T cap){
G[from].push_back((edge){to, cap, (T)G[to].size(), cap});
G[to].push_back((edge){from, 0, (T)(G[from].size() - 1), 0});
from_idx.emplace_back(from);
to_idx.emplace_back((int)G[from].size()-1);
return edge_idx++;
}
void bfs(int s){
for(int i = 0;i < n;i++)level[i] = -1;
std::queue<int> que;
level[s] = 0;
que.push(s);
while(!que.empty()){
int v = que.front();
que.pop();
for(int i = 0;i < (int)G[v].size();i++){
edge &e = G[v][i];
if(e.cap > 0 && level[e.to] < 0){
level[e.to] = level[v] + 1;
que.push(e.to);
}
}
}
}
T dfs(int v, int t, T f){
if(v == t)return f;
for(int &i = iter[v];i < (int)G[v].size();i++){
edge &e = G[v][i];
if(e.cap > 0 && level[v] < level[e.to]){
T d = dfs(e.to, t, min(f, e.cap));
if(d > 0){
e.cap -= d;
G[e.to][e.rev].cap += d;
return d;
}
}
}
return 0;
}
T calc(int s, int t){
T flow = 0;
for(;;){
bfs(s);
if(level[t] < 0)return flow;
for(int i = 0;i < n;i++)iter[i] = 0;
T f;
while((f = dfs(s, t, std::numeric_limits<T>::max())) > 0) {
flow += f;
}
}
}
T get_flow(int idx){
return G[from_idx[idx]][to_idx[idx]].init_cap - G[from_idx[idx]][to_idx[idx]].cap;
}
};
#line 4 "graph/bipartite_matching.hpp"
#line 6 "graph/bipartite_matching.hpp"
#include<ranges>
vector<pair<int, int>> bipartite_matching(const int &l, const int &r, const vector<pair<int, int>> &es) {
dinic<int> matching(l+r+2);
const int S = l+r+0;
const int T = l+r+1;
for(int i = 0;i < l;i++)matching.add_edge(S, i, 1);
for(int i = 0;i < r;i++)matching.add_edge(l+i, T, 1);
for(auto [u, v] : es){
matching.add_edge(u, l+v, 1);
}
matching.calc(S, T);
std::vector<pair<int, int>> ret;
// C++23
// for(auto [idx, edge] : es | std::views::enumerate) {
for(int idx = 0;idx < ssize(es);idx++){
auto &edge = es[idx];
if(matching.get_flow(l+r+idx) == 1){
ret.emplace_back(edge);
}
}
return ret;
}