Kod źródłowy zgłoszenia nr 89883

#include <algorithm>
#include <cstdio>
#include <memory>
#include <queue>
#include <set>
#include <tuple>
#include <vector>
using namespace std;

struct Problem
{
  Problem(int n, int m) : n_(n), m_(m), adj_(n), revAdj_(n), removed_(n), d_(n,-1), size_(n,1), parent_(n,-1) {}
  
  void addEdge(int u, int v) { adj_[u].push_back(v); revAdj_[v].push_back(u); }
  unique_ptr<vector<int>> solve();
  void removeDeg0s(const vector<vector<int>>& adj);
  bool checkAllReachable(int root, const vector<vector<int>>& adj);
  void dfs(int v, int& preNr);
  inline bool isPred(int u, int v) { return d_[v] >= d_[u] && d_[v] < d_[u] + size_[u]; }
  pair<int,int> intersectBackEdges(int v);
  void convertToForwardEdges(int v, set<pair<int,int>>& ends);
  vector<int> removeForwardEdges(int root, int low, int high);
  bool isAcyclic(int vertexToRemove);
  
  int n_, m_;
  vector<vector<int>> adj_, revAdj_;
  vector<bool> removed_;
  vector<int> d_, size_, parent_;
};

unique_ptr<vector<int>> Problem::solve()
{
  removeDeg0s(adj_);
  removeDeg0s(revAdj_);
  int root = -1;
  for (int v=0; v<n_; ++v)
    if (!removed_[v])
    {
      root = v;
      break;
    }
  if (root == -1)
    return nullptr;
  if (!checkAllReachable(root,adj_) || !checkAllReachable(root,revAdj_))
    return unique_ptr<vector<int>>(new vector<int>());
  int preNr = 0;
  dfs(root,preNr);
  int low,high;
  tie(low,high) = intersectBackEdges(root);
  if (low == -1)
    return unique_ptr<vector<int>>(new vector<int>());
  set<pair<int,int>> ends;
  convertToForwardEdges(root,ends);
  vector<int> toTest = removeForwardEdges(root,low,high);
  if (toTest.empty())
    return unique_ptr<vector<int>>(new vector<int>());
  unique_ptr<vector<int>> result(new vector<int>());
  if (toTest.back() == low)
  {
    if (isAcyclic(low))
      result->push_back(low);
    toTest.pop_back();
  }
  int ix1 = 0;
  int ix2 = (int)toTest.size();
  while (ix1 < ix2)
  {
    int ix = (ix1+ix2)/2;
    if (isAcyclic(toTest[ix]))
      ix1 = ix+1;
    else
      ix2 = ix;
  }
  for (int i=0; i<ix1; ++i)
    result->push_back(toTest[i]);
  sort(result->begin(), result->end());
  return result;
}

void Problem::removeDeg0s(const vector<vector<int>>& adj)
{
  vector<int> deg(n_);
  for (int v=0; v<n_; ++v)
    for (int u : adj[v])
      ++deg[u];
  queue<int> q;
  for (int v=0; v<n_; ++v)
    if (deg[v] == 0)
      q.push(v);
  while (!q.empty())
  {
    int v = q.front();
    q.pop();
    removed_[v] = true;
    for (int u : adj[v])
      if (--deg[u] == 0)
        q.push(u);
  }
}

bool Problem::checkAllReachable(int root, const vector<vector<int>>& adj)
{
  queue<int> q;
  q.push(root);
  vector<bool> visited(n_);
  visited[root] = true;
  while (!q.empty())
  {
    int v = q.front();
    q.pop();
    for (int u : adj[v])
      if (!removed_[u] && !visited[u])
      {
        q.push(u);
        visited[u] = true;
      }
  }
  for (int v=0; v<n_; ++v)
    if (!removed_[v] && !visited[v])
      return false;
  return true;
}

void Problem::dfs(int v, int& preNr)
{
  d_[v] = preNr++;
  for (int u : adj_[v])
    if (!removed_[u] && d_[u] == -1)
    {
      parent_[u] = v;
      dfs(u,preNr);
      size_[v] += size_[u];
    }
}

pair<int,int> Problem::intersectBackEdges(int v)
{
  pair<int,int> p{-2,-2};
  for (int u : adj_[v])
  {
    if (removed_[u])
      continue;
    pair<int,int> q;
    if (v == parent_[u])
    {
      q = intersectBackEdges(u);
      if (q.first == -2)
        continue;
      if (q.first == -1)
        return {-1,-1};
    }
    else if (isPred(u,v))
      q = {v,u};
    else
      continue;
    if (p.first == -2)
      p = q;
    else if (d_[q.second] > d_[v])
      return {-1,-1};
    else
    {
      p.first = v;
      if (d_[q.second] > d_[p.second])
        p.second = q.second;
    }
  }
  return p;
}

void Problem::convertToForwardEdges(int v, set<pair<int,int>>& ends)
{
  for (int u : adj_[v])
    if (!removed_[u] && v == parent_[u])
      convertToForwardEdges(u, ends);
  while (!ends.empty())
  {
    int u = prev(ends.end())->second;
    if (d_[u] < d_[v])
      break;
    addEdge(v,u);
    ends.erase(prev(ends.end()));
  }
  for (int u : adj_[v])
    if (!removed_[u] && d_[u] < d_[v] && !isPred(u,v))
      ends.insert({d_[u],u});
}

vector<int> Problem::removeForwardEdges(int root, int low, int high)
{
  bool inside = false;
  int v = root;
  int fw = 0;
  vector<int> result;
  while (1)
  {
    if (v == high)
      inside = true;
    for (int u : revAdj_[v])
      if (!removed_[u] && d_[u] < d_[v] && u != parent_[v])
        --fw;
    if (inside && fw == 0)
      result.push_back(v);
    if (v == low)
      break;      
    int w = -1;
    for (int u : adj_[v])
      if (!removed_[u] && d_[u] > d_[v])
      {
        if (w == -1)
          w = u;
        else if (v != parent_[u] && (isPred(low,u) || isPred(u,low)))
          ++fw;
      }
    v = w;
  }
  return result;
}

bool Problem::isAcyclic(int vertexToRemove)
{
  vector<int> deg(n_);
  for (int v=0; v<n_; ++v)
    if (!removed_[v] && v != vertexToRemove)
      for (int u : adj_[v])
        if (!removed_[u] && u != vertexToRemove)
          ++deg[u];
  queue<int> q;          
  for (int v=0; v<n_; ++v)
    if (!removed_[v] && v != vertexToRemove && deg[v] == 0)
      q.push(v);
  while (!q.empty())
  {
    int v = q.front();
    q.pop();
    for (int u : adj_[v])
      if (!removed_[u] && u != vertexToRemove && --deg[u] == 0)
        q.push(u);
  }
  for (int v=0; v<n_; ++v)
    if (!removed_[v] && v != vertexToRemove && deg[v] != 0)
      return false;
  return true;
}

int main()
{
  int n,m;
  scanf("%d%d", &n, &m);
  Problem p(n,m);
  for (int i=0; i<m; ++i)
  {
    int u,v;
    scanf("%d%d", &u, &v);
    p.addEdge(u-1,v-1);
  }
  auto r = p.solve();
  if (r)
  {
    printf("%d\n", (int)r->size());
    for (int x : *r)
      printf("%d ", x+1);
    printf("\n");
  }
  else
    printf("NIE\n");
}

#include <algorithm>
#include <cstdio>
#include <memory>
#include <queue>
#include <set>
#include <tuple>
#include <vector>
using namespace std;

struct Problem
{
  Problem(int n, int m) : n_(n), m_(m), adj_(n), revAdj_(n), removed_(n), d_(n,-1), size_(n,1), parent_(n,-1) {}
  
  void addEdge(int u, int v) { adj_[u].push_back(v); revAdj_[v].push_back(u); }
  unique_ptr<vector<int>> solve();
  void removeDeg0s(const vector<vector<int>>& adj);
  bool checkAllReachable(int root, const vector<vector<int>>& adj);
  void dfs(int v, int& preNr);
  inline bool isPred(int u, int v) { return d_[v] >= d_[u] && d_[v] < d_[u] + size_[u]; }
  pair<int,int> intersectBackEdges(int v);
  void convertToForwardEdges(int v, set<pair<int,int>>& ends);
  vector<int> removeForwardEdges(int root, int low, int high);
  bool isAcyclic(int vertexToRemove);
  
  int n_, m_;
  vector<vector<int>> adj_, revAdj_;
  vector<bool> removed_;
  vector<int> d_, size_, parent_;
};

unique_ptr<vector<int>> Problem::solve()
{
  removeDeg0s(adj_);
  removeDeg0s(revAdj_);
  int root = -1;
  for (int v=0; v<n_; ++v)
    if (!removed_[v])
    {
      root = v;
      break;
    }
  if (root == -1)
    return nullptr;
  if (!checkAllReachable(root,adj_) || !checkAllReachable(root,revAdj_))
    return unique_ptr<vector<int>>(new vector<int>());
  int preNr = 0;
  dfs(root,preNr);
  int low,high;
  tie(low,high) = intersectBackEdges(root);
  if (low == -1)
    return unique_ptr<vector<int>>(new vector<int>());
  set<pair<int,int>> ends;
  convertToForwardEdges(root,ends);
  vector<int> toTest = removeForwardEdges(root,low,high);
  if (toTest.empty())
    return unique_ptr<vector<int>>(new vector<int>());
  unique_ptr<vector<int>> result(new vector<int>());
  if (toTest.back() == low)
  {
    if (isAcyclic(low))
      result->push_back(low);
    toTest.pop_back();
  }
  int ix1 = 0;
  int ix2 = (int)toTest.size();
  while (ix1 < ix2)
  {
    int ix = (ix1+ix2)/2;
    if (isAcyclic(toTest[ix]))
      ix1 = ix+1;
    else
      ix2 = ix;
  }
  for (int i=0; i<ix1; ++i)
    result->push_back(toTest[i]);
  sort(result->begin(), result->end());
  return result;
}

void Problem::removeDeg0s(const vector<vector<int>>& adj)
{
  vector<int> deg(n_);
  for (int v=0; v<n_; ++v)
    for (int u : adj[v])
      ++deg[u];
  queue<int> q;
  for (int v=0; v<n_; ++v)
    if (deg[v] == 0)
      q.push(v);
  while (!q.empty())
  {
    int v = q.front();
    q.pop();
    removed_[v] = true;
    for (int u : adj[v])
      if (--deg[u] == 0)
        q.push(u);
  }
}

bool Problem::checkAllReachable(int root, const vector<vector<int>>& adj)
{
  queue<int> q;
  q.push(root);
  vector<bool> visited(n_);
  visited[root] = true;
  while (!q.empty())
  {
    int v = q.front();
    q.pop();
    for (int u : adj[v])
      if (!removed_[u] && !visited[u])
      {
        q.push(u);
        visited[u] = true;
      }
  }
  for (int v=0; v<n_; ++v)
    if (!removed_[v] && !visited[v])
      return false;
  return true;
}

void Problem::dfs(int v, int& preNr)
{
  d_[v] = preNr++;
  for (int u : adj_[v])
    if (!removed_[u] && d_[u] == -1)
    {
      parent_[u] = v;
      dfs(u,preNr);
      size_[v] += size_[u];
    }
}

pair<int,int> Problem::intersectBackEdges(int v)
{
  pair<int,int> p{-2,-2};
  for (int u : adj_[v])
  {
    if (removed_[u])
      continue;
    pair<int,int> q;
    if (v == parent_[u])
    {
      q = intersectBackEdges(u);
      if (q.first == -2)
        continue;
      if (q.first == -1)
        return {-1,-1};
    }
    else if (isPred(u,v))
      q = {v,u};
    else
      continue;
    if (p.first == -2)
      p = q;
    else if (d_[q.second] > d_[v])
      return {-1,-1};
    else
    {
      p.first = v;
      if (d_[q.second] > d_[p.second])
        p.second = q.second;
    }
  }
  return p;
}

void Problem::convertToForwardEdges(int v, set<pair<int,int>>& ends)
{
  for (int u : adj_[v])
    if (!removed_[u] && v == parent_[u])
      convertToForwardEdges(u, ends);
  while (!ends.empty())
  {
    int u = prev(ends.end())->second;
    if (d_[u] < d_[v])
      break;
    addEdge(v,u);
    ends.erase(prev(ends.end()));
  }
  for (int u : adj_[v])
    if (!removed_[u] && d_[u] < d_[v] && !isPred(u,v))
      ends.insert({d_[u],u});
}

vector<int> Problem::removeForwardEdges(int root, int low, int high)
{
  bool inside = false;
  int v = root;
  int fw = 0;
  vector<int> result;
  while (1)
  {
    if (v == high)
      inside = true;
    for (int u : revAdj_[v])
      if (!removed_[u] && d_[u] < d_[v] && u != parent_[v])
        --fw;
    if (inside && fw == 0)
      result.push_back(v);
    if (v == low)
      break;      
    int w = -1;
    for (int u : adj_[v])
      if (!removed_[u] && d_[u] > d_[v])
      {
        if (w == -1)
          w = u;
        else if (v != parent_[u] && (isPred(low,u) || isPred(u,low)))
          ++fw;
      }
    v = w;
  }
  return result;
}

bool Problem::isAcyclic(int vertexToRemove)
{
  vector<int> deg(n_);
  for (int v=0; v<n_; ++v)
    if (!removed_[v] && v != vertexToRemove)
      for (int u : adj_[v])
        if (!removed_[u] && u != vertexToRemove)
          ++deg[u];
  queue<int> q;          
  for (int v=0; v<n_; ++v)
    if (!removed_[v] && v != vertexToRemove && deg[v] == 0)
      q.push(v);
  while (!q.empty())
  {
    int v = q.front();
    q.pop();
    for (int u : adj_[v])
      if (!removed_[u] && u != vertexToRemove && --deg[u] == 0)
        q.push(u);
  }
  for (int v=0; v<n_; ++v)
    if (!removed_[v] && v != vertexToRemove && deg[v] != 0)
      return false;
  return true;
}

int main()
{
  int n,m;
  scanf("%d%d", &n, &m);
  Problem p(n,m);
  for (int i=0; i<m; ++i)
  {
    int u,v;
    scanf("%d%d", &u, &v);
    p.addEdge(u-1,v-1);
  }
  auto r = p.solve();
  if (r)
  {
    printf("%d\n", (int)r->size());
    for (int x : *r)
      printf("%d ", x+1);
    printf("\n");
  }
  else
    printf("NIE\n");
}