cp_library
This documentation is automatically generated by online-judge-tools/verification-helper
拡張 Block Cut Tree
(graph/extended_block_cut_tree.hpp)
- View this file on GitHub
- Last update: 2022-07-24 02:46:13+09:00
- Include:
#include "graph/extended_block_cut_tree.hpp"
Verified with
- test/aoj/grl/grl_3_a_2.test.cpp
- test/library_checker/graph/biconnected_components_2.test.cpp
- test/yukicoder/yuki_1326_2.test.cpp
Code
#pragma once
/**
* @brief 拡張 Block Cut Tree
*/
struct extended_block_cut_tree{
int N, cnt;
vector<vector<int>> G;
extended_block_cut_tree(vector<vector<int>> &E){
N = E.size();
vector<int> next(N, -1);
vector<int> d(N, -1);
vector<int> imos(N, 0);
for (int i = 0; i < N; i++){
if (d[i] == -1){
d[i] = 0;
dfs1(E, next, d, imos, i);
}
}
cnt = 0;
G.resize(N + 1);
vector<bool> used(N, false);
for (int i = 0; i < N; i++){
if (d[i] == 0){
dfs2(E, d, imos, used, cnt, i);
}
if (E[i].empty()){
G[i].push_back(N + cnt);
G[N + cnt].push_back(i);
cnt++;
G.push_back({});
}
}
G.pop_back();
}
void dfs1(vector<vector<int>> &E, vector<int> &next, vector<int> &d, vector<int> &imos, int v){
for (int w : E[v]){
if (d[w] == -1){
d[w] = d[v] + 1;
next[v] = w;
dfs1(E, next, d, imos, w);
imos[v] += imos[w];
} else if (d[w] < d[v] - 1){
imos[v]++;
imos[next[w]]--;
}
}
}
void dfs2(vector<vector<int>> &E, vector<int> &d, vector<int> &imos, vector<bool> &used, int b, int v){
used[v] = true;
bool ok = false;
for (int w : E[v]){
if (d[w] == d[v] + 1 && !used[w]){
if (imos[w] > 0){
if (!ok){
ok = true;
G[v].push_back(N + b);
G[N + b].push_back(v);
}
dfs2(E, d, imos, used, b, w);
} else {
G[v].push_back(N + cnt);
G[N + cnt].push_back(v);
cnt++;
G.push_back({});
dfs2(E, d, imos, used, cnt - 1, w);
}
}
}
if (!ok && d[v] > 0){
G[v].push_back(N + b);
G[N + b].push_back(v);
}
}
int size(){
return G.size();
}
vector<int> &operator [](int v){
return G[v];
}
};#line 2 "graph/extended_block_cut_tree.hpp"
/**
* @brief 拡張 Block Cut Tree
*/
struct extended_block_cut_tree{
int N, cnt;
vector<vector<int>> G;
extended_block_cut_tree(vector<vector<int>> &E){
N = E.size();
vector<int> next(N, -1);
vector<int> d(N, -1);
vector<int> imos(N, 0);
for (int i = 0; i < N; i++){
if (d[i] == -1){
d[i] = 0;
dfs1(E, next, d, imos, i);
}
}
cnt = 0;
G.resize(N + 1);
vector<bool> used(N, false);
for (int i = 0; i < N; i++){
if (d[i] == 0){
dfs2(E, d, imos, used, cnt, i);
}
if (E[i].empty()){
G[i].push_back(N + cnt);
G[N + cnt].push_back(i);
cnt++;
G.push_back({});
}
}
G.pop_back();
}
void dfs1(vector<vector<int>> &E, vector<int> &next, vector<int> &d, vector<int> &imos, int v){
for (int w : E[v]){
if (d[w] == -1){
d[w] = d[v] + 1;
next[v] = w;
dfs1(E, next, d, imos, w);
imos[v] += imos[w];
} else if (d[w] < d[v] - 1){
imos[v]++;
imos[next[w]]--;
}
}
}
void dfs2(vector<vector<int>> &E, vector<int> &d, vector<int> &imos, vector<bool> &used, int b, int v){
used[v] = true;
bool ok = false;
for (int w : E[v]){
if (d[w] == d[v] + 1 && !used[w]){
if (imos[w] > 0){
if (!ok){
ok = true;
G[v].push_back(N + b);
G[N + b].push_back(v);
}
dfs2(E, d, imos, used, b, w);
} else {
G[v].push_back(N + cnt);
G[N + cnt].push_back(v);
cnt++;
G.push_back({});
dfs2(E, d, imos, used, cnt - 1, w);
}
}
}
if (!ok && d[v] > 0){
G[v].push_back(N + b);
G[N + b].push_back(v);
}
}
int size(){
return G.size();
}
vector<int> &operator [](int v){
return G[v];
}
};