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IDProblemSubmitterResultTimeMemoryLanguageFile sizeSubmit timeJudge time
#388536#8547. Whose Land?ucup-team987#WA 471ms3812kbC++2021.7kb2024-04-13 16:40:082024-04-13 16:40:08

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  • [2024-04-13 16:40:08]
  • 评测
  • 测评结果:WA
  • 用时:471ms
  • 内存:3812kb
  • [2024-04-13 16:40:08]
  • 提交

answer

/**
 * date   : 2024-04-13 17:39:39
 * author : Nyaan
 */

#define NDEBUG

using namespace std;

// intrinstic
#include <immintrin.h>

#include <algorithm>
#include <array>
#include <bitset>
#include <cassert>
#include <cctype>
#include <cfenv>
#include <cfloat>
#include <chrono>
#include <cinttypes>
#include <climits>
#include <cmath>
#include <complex>
#include <cstdarg>
#include <cstddef>
#include <cstdint>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <deque>
#include <fstream>
#include <functional>
#include <initializer_list>
#include <iomanip>
#include <ios>
#include <iostream>
#include <istream>
#include <iterator>
#include <limits>
#include <list>
#include <map>
#include <memory>
#include <new>
#include <numeric>
#include <ostream>
#include <queue>
#include <random>
#include <set>
#include <sstream>
#include <stack>
#include <streambuf>
#include <string>
#include <tuple>
#include <type_traits>
#include <typeinfo>
#include <unordered_map>
#include <unordered_set>
#include <utility>
#include <vector>

// utility

namespace Nyaan {
using ll = long long;
using i64 = long long;
using u64 = unsigned long long;
using i128 = __int128_t;
using u128 = __uint128_t;

template <typename T>
using V = vector<T>;
template <typename T>
using VV = vector<vector<T>>;
using vi = vector<int>;
using vl = vector<long long>;
using vd = V<double>;
using vs = V<string>;
using vvi = vector<vector<int>>;
using vvl = vector<vector<long long>>;
template <typename T>
using minpq = priority_queue<T, vector<T>, greater<T>>;

template <typename T, typename U>
struct P : pair<T, U> {
  template <typename... Args>
  P(Args... args) : pair<T, U>(args...) {}

  using pair<T, U>::first;
  using pair<T, U>::second;

  P &operator+=(const P &r) {
    first += r.first;
    second += r.second;
    return *this;
  }
  P &operator-=(const P &r) {
    first -= r.first;
    second -= r.second;
    return *this;
  }
  P &operator*=(const P &r) {
    first *= r.first;
    second *= r.second;
    return *this;
  }
  template <typename S>
  P &operator*=(const S &r) {
    first *= r, second *= r;
    return *this;
  }
  P operator+(const P &r) const { return P(*this) += r; }
  P operator-(const P &r) const { return P(*this) -= r; }
  P operator*(const P &r) const { return P(*this) *= r; }
  template <typename S>
  P operator*(const S &r) const {
    return P(*this) *= r;
  }
  P operator-() const { return P{-first, -second}; }
};

using pl = P<ll, ll>;
using pi = P<int, int>;
using vp = V<pl>;

constexpr int inf = 1001001001;
constexpr long long infLL = 4004004004004004004LL;

template <typename T>
int sz(const T &t) {
  return t.size();
}

template <typename T, typename U>
inline bool amin(T &x, U y) {
  return (y < x) ? (x = y, true) : false;
}
template <typename T, typename U>
inline bool amax(T &x, U y) {
  return (x < y) ? (x = y, true) : false;
}

template <typename T>
inline T Max(const vector<T> &v) {
  return *max_element(begin(v), end(v));
}
template <typename T>
inline T Min(const vector<T> &v) {
  return *min_element(begin(v), end(v));
}
template <typename T>
inline long long Sum(const vector<T> &v) {
  return accumulate(begin(v), end(v), 0LL);
}

template <typename T>
int lb(const vector<T> &v, const T &a) {
  return lower_bound(begin(v), end(v), a) - begin(v);
}
template <typename T>
int ub(const vector<T> &v, const T &a) {
  return upper_bound(begin(v), end(v), a) - begin(v);
}

constexpr long long TEN(int n) {
  long long ret = 1, x = 10;
  for (; n; x *= x, n >>= 1) ret *= (n & 1 ? x : 1);
  return ret;
}

template <typename T, typename U>
pair<T, U> mkp(const T &t, const U &u) {
  return make_pair(t, u);
}

template <typename T>
vector<T> mkrui(const vector<T> &v, bool rev = false) {
  vector<T> ret(v.size() + 1);
  if (rev) {
    for (int i = int(v.size()) - 1; i >= 0; i--) ret[i] = v[i] + ret[i + 1];
  } else {
    for (int i = 0; i < int(v.size()); i++) ret[i + 1] = ret[i] + v[i];
  }
  return ret;
};

template <typename T>
vector<T> mkuni(const vector<T> &v) {
  vector<T> ret(v);
  sort(ret.begin(), ret.end());
  ret.erase(unique(ret.begin(), ret.end()), ret.end());
  return ret;
}

template <typename F>
vector<int> mkord(int N, F f) {
  vector<int> ord(N);
  iota(begin(ord), end(ord), 0);
  sort(begin(ord), end(ord), f);
  return ord;
}

template <typename T>
vector<int> mkinv(vector<T> &v) {
  int max_val = *max_element(begin(v), end(v));
  vector<int> inv(max_val + 1, -1);
  for (int i = 0; i < (int)v.size(); i++) inv[v[i]] = i;
  return inv;
}

vector<int> mkiota(int n) {
  vector<int> ret(n);
  iota(begin(ret), end(ret), 0);
  return ret;
}

template <typename T>
T mkrev(const T &v) {
  T w{v};
  reverse(begin(w), end(w));
  return w;
}

template <typename T>
bool nxp(T &v) {
  return next_permutation(begin(v), end(v));
}

// 返り値の型は入力の T に依存
// i 要素目 : [0, a[i])
template <typename T>
vector<vector<T>> product(const vector<T> &a) {
  vector<vector<T>> ret;
  vector<T> v;
  auto dfs = [&](auto rc, int i) -> void {
    if (i == (int)a.size()) {
      ret.push_back(v);
      return;
    }
    for (int j = 0; j < a[i]; j++) v.push_back(j), rc(rc, i + 1), v.pop_back();
  };
  dfs(dfs, 0);
  return ret;
}

// F : function(void(T&)), mod を取る操作
// T : 整数型のときはオーバーフローに注意する
template <typename T>
T Power(T a, long long n, const T &I, const function<void(T &)> &f) {
  T res = I;
  for (; n; f(a = a * a), n >>= 1) {
    if (n & 1) f(res = res * a);
  }
  return res;
}
// T : 整数型のときはオーバーフローに注意する
template <typename T>
T Power(T a, long long n, const T &I = T{1}) {
  return Power(a, n, I, function<void(T &)>{[](T &) -> void {}});
}

template <typename T>
T Rev(const T &v) {
  T res = v;
  reverse(begin(res), end(res));
  return res;
}

template <typename T>
vector<T> Transpose(const vector<T> &v) {
  using U = typename T::value_type;
  int H = v.size(), W = v[0].size();
  vector res(W, T(H, U{}));
  for (int i = 0; i < H; i++) {
    for (int j = 0; j < W; j++) {
      res[j][i] = v[i][j];
    }
  }
  return res;
}

template <typename T>
vector<T> Rotate(const vector<T> &v, int clockwise = true) {
  using U = typename T::value_type;
  int H = v.size(), W = v[0].size();
  vector res(W, T(H, U{}));
  for (int i = 0; i < H; i++) {
    for (int j = 0; j < W; j++) {
      if (clockwise) {
        res[W - 1 - j][i] = v[i][j];
      } else {
        res[j][H - 1 - i] = v[i][j];
      }
    }
  }
  return res;
}

}  // namespace Nyaan


// bit operation

namespace Nyaan {
__attribute__((target("popcnt"))) inline int popcnt(const u64 &a) {
  return __builtin_popcountll(a);
}
inline int lsb(const u64 &a) { return a ? __builtin_ctzll(a) : 64; }
inline int ctz(const u64 &a) { return a ? __builtin_ctzll(a) : 64; }
inline int msb(const u64 &a) { return a ? 63 - __builtin_clzll(a) : -1; }
template <typename T>
inline int gbit(const T &a, int i) {
  return (a >> i) & 1;
}
template <typename T>
inline void sbit(T &a, int i, bool b) {
  if (gbit(a, i) != b) a ^= T(1) << i;
}
constexpr long long PW(int n) { return 1LL << n; }
constexpr long long MSK(int n) { return (1LL << n) - 1; }
}  // namespace Nyaan


// inout

namespace Nyaan {

template <typename T, typename U>
ostream &operator<<(ostream &os, const pair<T, U> &p) {
  os << p.first << " " << p.second;
  return os;
}
template <typename T, typename U>
istream &operator>>(istream &is, pair<T, U> &p) {
  is >> p.first >> p.second;
  return is;
}

template <typename T>
ostream &operator<<(ostream &os, const vector<T> &v) {
  int s = (int)v.size();
  for (int i = 0; i < s; i++) os << (i ? " " : "") << v[i];
  return os;
}
template <typename T>
istream &operator>>(istream &is, vector<T> &v) {
  for (auto &x : v) is >> x;
  return is;
}

istream &operator>>(istream &is, __int128_t &x) {
  string S;
  is >> S;
  x = 0;
  int flag = 0;
  for (auto &c : S) {
    if (c == '-') {
      flag = true;
      continue;
    }
    x *= 10;
    x += c - '0';
  }
  if (flag) x = -x;
  return is;
}

istream &operator>>(istream &is, __uint128_t &x) {
  string S;
  is >> S;
  x = 0;
  for (auto &c : S) {
    x *= 10;
    x += c - '0';
  }
  return is;
}

ostream &operator<<(ostream &os, __int128_t x) {
  if (x == 0) return os << 0;
  if (x < 0) os << '-', x = -x;
  string S;
  while (x) S.push_back('0' + x % 10), x /= 10;
  reverse(begin(S), end(S));
  return os << S;
}
ostream &operator<<(ostream &os, __uint128_t x) {
  if (x == 0) return os << 0;
  string S;
  while (x) S.push_back('0' + x % 10), x /= 10;
  reverse(begin(S), end(S));
  return os << S;
}

void in() {}
template <typename T, class... U>
void in(T &t, U &...u) {
  cin >> t;
  in(u...);
}

void out() { cout << "\n"; }
template <typename T, class... U, char sep = ' '>
void out(const T &t, const U &...u) {
  cout << t;
  if (sizeof...(u)) cout << sep;
  out(u...);
}

struct IoSetupNya {
  IoSetupNya() {
    cin.tie(nullptr);
    ios::sync_with_stdio(false);
    cout << fixed << setprecision(15);
    cerr << fixed << setprecision(7);
  }
} iosetupnya;

}  // namespace Nyaan


// debug


#ifdef NyaanDebug
#define trc(...) (void(0))
#else
#define trc(...) (void(0))
#endif

#ifdef NyaanLocal
#define trc2(...) (void(0))
#else
#define trc2(...) (void(0))
#endif


// macro

#define each(x, v) for (auto&& x : v)
#define each2(x, y, v) for (auto&& [x, y] : v)
#define all(v) (v).begin(), (v).end()
#define rep(i, N) for (long long i = 0; i < (long long)(N); i++)
#define repr(i, N) for (long long i = (long long)(N)-1; i >= 0; i--)
#define rep1(i, N) for (long long i = 1; i <= (long long)(N); i++)
#define repr1(i, N) for (long long i = (N); (long long)(i) > 0; i--)
#define reg(i, a, b) for (long long i = (a); i < (b); i++)
#define regr(i, a, b) for (long long i = (b)-1; i >= (a); i--)
#define fi first
#define se second
#define ini(...)   \
  int __VA_ARGS__; \
  in(__VA_ARGS__)
#define inl(...)         \
  long long __VA_ARGS__; \
  in(__VA_ARGS__)
#define ins(...)      \
  string __VA_ARGS__; \
  in(__VA_ARGS__)
#define in2(s, t)                           \
  for (int i = 0; i < (int)s.size(); i++) { \
    in(s[i], t[i]);                         \
  }
#define in3(s, t, u)                        \
  for (int i = 0; i < (int)s.size(); i++) { \
    in(s[i], t[i], u[i]);                   \
  }
#define in4(s, t, u, v)                     \
  for (int i = 0; i < (int)s.size(); i++) { \
    in(s[i], t[i], u[i], v[i]);             \
  }
#define die(...)             \
  do {                       \
    Nyaan::out(__VA_ARGS__); \
    return;                  \
  } while (0)


namespace Nyaan {
void solve();
}
int main() { Nyaan::solve(); }


//


template <typename T>
struct edge {
  int src, to;
  T cost;

  edge(int _to, T _cost) : src(-1), to(_to), cost(_cost) {}
  edge(int _src, int _to, T _cost) : src(_src), to(_to), cost(_cost) {}

  edge &operator=(const int &x) {
    to = x;
    return *this;
  }

  operator int() const { return to; }
};
template <typename T>
using Edges = vector<edge<T>>;
template <typename T>
using WeightedGraph = vector<Edges<T>>;
using UnweightedGraph = vector<vector<int>>;

// Input of (Unweighted) Graph
UnweightedGraph graph(int N, int M = -1, bool is_directed = false,
                      bool is_1origin = true) {
  UnweightedGraph g(N);
  if (M == -1) M = N - 1;
  for (int _ = 0; _ < M; _++) {
    int x, y;
    cin >> x >> y;
    if (is_1origin) x--, y--;
    g[x].push_back(y);
    if (!is_directed) g[y].push_back(x);
  }
  return g;
}

// Input of Weighted Graph
template <typename T>
WeightedGraph<T> wgraph(int N, int M = -1, bool is_directed = false,
                        bool is_1origin = true) {
  WeightedGraph<T> g(N);
  if (M == -1) M = N - 1;
  for (int _ = 0; _ < M; _++) {
    int x, y;
    cin >> x >> y;
    T c;
    cin >> c;
    if (is_1origin) x--, y--;
    g[x].emplace_back(x, y, c);
    if (!is_directed) g[y].emplace_back(y, x, c);
  }
  return g;
}

// Input of Edges
template <typename T>
Edges<T> esgraph(int N, int M, int is_weighted = true, bool is_1origin = true) {
  Edges<T> es;
  for (int _ = 0; _ < M; _++) {
    int x, y;
    cin >> x >> y;
    T c;
    if (is_weighted)
      cin >> c;
    else
      c = 1;
    if (is_1origin) x--, y--;
    es.emplace_back(x, y, c);
  }
  return es;
}

// Input of Adjacency Matrix
template <typename T>
vector<vector<T>> adjgraph(int N, int M, T INF, int is_weighted = true,
                           bool is_directed = false, bool is_1origin = true) {
  vector<vector<T>> d(N, vector<T>(N, INF));
  for (int _ = 0; _ < M; _++) {
    int x, y;
    cin >> x >> y;
    T c;
    if (is_weighted)
      cin >> c;
    else
      c = 1;
    if (is_1origin) x--, y--;
    d[x][y] = c;
    if (!is_directed) d[y][x] = c;
  }
  return d;
}

/**
 * @brief グラフテンプレート
 * @docs docs/graph/graph-template.md
 */




template <typename T, typename F>
struct SegmentTree {
  int N;
  int size;
  vector<T> seg;
  const F f;
  const T I;

  SegmentTree(F _f, const T &I_) : N(0), size(0), f(_f), I(I_) {}

  SegmentTree(int _N, F _f, const T &I_) : f(_f), I(I_) { init(_N); }

  SegmentTree(const vector<T> &v, F _f, T I_) : f(_f), I(I_) {
    init(v.size());
    for (int i = 0; i < (int)v.size(); i++) {
      seg[i + size] = v[i];
    }
    build();
  }

  void init(int _N) {
    N = _N;
    size = 1;
    while (size < N) size <<= 1;
    seg.assign(2 * size, I);
  }

  void set(int k, T x) { seg[k + size] = x; }

  void build() {
    for (int k = size - 1; k > 0; k--) {
      seg[k] = f(seg[2 * k], seg[2 * k + 1]);
    }
  }

  void update(int k, T x) {
    k += size;
    seg[k] = x;
    while (k >>= 1) {
      seg[k] = f(seg[2 * k], seg[2 * k + 1]);
    }
  }

  void add(int k, T x) {
    k += size;
    seg[k] += x;
    while (k >>= 1) {
      seg[k] = f(seg[2 * k], seg[2 * k + 1]);
    }
  }

  // query to [a, b)
  T query(int a, int b) {
    T L = I, R = I;
    for (a += size, b += size; a < b; a >>= 1, b >>= 1) {
      if (a & 1) L = f(L, seg[a++]);
      if (b & 1) R = f(seg[--b], R);
    }
    return f(L, R);
  }

  T &operator[](const int &k) { return seg[k + size]; }

  // check(a[l] * ...  * a[r-1]) が true となる最大の r
  // (右端まですべて true なら N を返す)
  template <class C>
  int max_right(int l, C check) {
    assert(0 <= l && l <= N);
    assert(check(I) == true);
    if (l == N) return N;
    l += size;
    T sm = I;
    do {
      while (l % 2 == 0) l >>= 1;
      if (!check(f(sm, seg[l]))) {
        while (l < size) {
          l = (2 * l);
          if (check(f(sm, seg[l]))) {
            sm = f(sm, seg[l]);
            l++;
          }
        }
        return l - size;
      }
      sm = f(sm, seg[l]);
      l++;
    } while ((l & -l) != l);
    return N;
  }

  // check(a[l] * ... * a[r-1]) が true となる最小の l
  // (左端まで true なら 0 を返す)
  template <typename C>
  int min_left(int r, C check) {
    assert(0 <= r && r <= N);
    assert(check(I) == true);
    if (r == 0) return 0;
    r += size;
    T sm = I;
    do {
      r--;
      while (r > 1 && (r % 2)) r >>= 1;
      if (!check(f(seg[r], sm))) {
        while (r < size) {
          r = (2 * r + 1);
          if (check(f(seg[r], sm))) {
            sm = f(seg[r], sm);
            r--;
          }
        }
        return r + 1 - size;
      }
      sm = f(seg[r], sm);
    } while ((r & -r) != r);
    return 0;
  }
};





template <typename T>
struct has_cost {
 private:
  template <typename U>
  static auto confirm(U u) -> decltype(u.cost, std::true_type());
  static auto confirm(...) -> std::false_type;

 public:
  enum : bool { value = decltype(confirm(std::declval<T>()))::value };
};

template <typename T>
vector<vector<T>> inverse_tree(const vector<vector<T>>& g) {
  int N = (int)g.size();
  vector<vector<T>> rg(N);
  for (int i = 0; i < N; i++) {
    for (auto& e : g[i]) {
      if constexpr (is_same<T, int>::value) {
        rg[e].push_back(i);
      } else if constexpr (has_cost<T>::value) {
        rg[e].emplace_back(e.to, i, e.cost);
      } else {
        assert(0);
      }
    }
  }
  return rg;
}

template <typename T>
vector<vector<T>> rooted_tree(const vector<vector<T>>& g, int root = 0) {
  int N = (int)g.size();
  vector<vector<T>> rg(N);
  vector<char> v(N, false);
  v[root] = true;
  queue<int> que;
  que.emplace(root);
  while (!que.empty()) {
    auto p = que.front();
    que.pop();
    for (auto& e : g[p]) {
      if (v[e] == false) {
        v[e] = true;
        que.push(e);
        rg[p].push_back(e);
      }
    }
  }
  return rg;
}

/**
 * @brief 根付き木・逆辺からなる木への変換
 */


using namespace Nyaan;

namespace noimi {
// S : 持つデータの型 T : 範囲の型
template <class S, class T = int>
struct IntervalManager {
  struct node {
    T l, r;
    S x;
    node(const T &_l, const T &_r, const S &_x) : l(_l), r(_r), x(_x) {}
    constexpr bool operator<(const node &rhs) const {
      if (l != rhs.l) return l < rhs.l;
      return r < rhs.r;
    }
  };
  const S unit;
  set<node> s;
  IntervalManager(const S &u = S()) : unit(u) {}
  IntervalManager(const vector<T> &a) {
    vector<node> setter;
    for (int l = 0; l < a.size(); l++) {
      int r = l;
      for (; r < a.size() and a[l] == a[r]; r++) {
      }
      setter.emplace_back(l, r, a[l]);
      l = r - 1;
    }
    s = set<node>(all(setter));
  }

  // x を含んだセグメントのイテレータを返す
  typename set<node>::iterator getIt(const T &x) {
    auto it = s.upper_bound(node(x, numeric_limits<T>::max(), 0));
    if (it == begin(s)) return end(s);
    it = prev(it);
    if (it->l <= x and x < it->r) return it;
    return end(s);
  }

  // x を含んだセグメントの情報を持ってくる
  node getSeg(const T &x) {
    auto it = getIt(x);
    if (it != end(s)) return *it;
    return node(x, x + 1, unit);
  }

  // x 以上をはじめて含むセグメントの iterator が帰ってくる
  typename set<node>::iterator nextIt(const T &x) {
    auto it = s.upper_bound(node(x, numeric_limits<T>::max(), 0));
    if (it == begin(s)) return it;
    return prev(it);
  }

  // x に設定されてる値を取得
  S get(const T &x) {
    auto it = getIt(x);
    if (it != end(s)) return it->x;
    return unit;
  }

  S operator[](T k) const { return get(k); }

  // [l, r) := x を set するときに消える区間加える区間ごとに関数を呼び出す
  // ただし、内包, 結合される [L, r) := x の区間も一旦消す
  template <typename ADD, typename DEL>
  void update(T l, T r, const S &x, const ADD &add, const DEL &del) {
    auto it = s.lower_bound(node{l, 0, x});
    while (it != end(s) and it->l <= r) {
      if (it->l == r) {
        if (it->x == x) {
          del(r, it->r, x);
          r = it->r, it = s.erase(it);
        }
        break;
      }
      if (it->r <= r) {
        del(it->l, it->r, it->x);
        it = s.erase(it);
      } else {
        if (it->x == x) {
          r = it->r;
          del(it->l, it->r, it->x);
          it = s.erase(it);
        } else {
          del(it->l, r, it->x);
          node n = *it;
          it = s.erase(it);
          it = s.emplace_hint(it, r, n.r, n.x);
        }
      }
    }

    if (it != begin(s)) {
      it = prev(it);
      if (it->r == l) {
        if (it->x == x) {
          del(it->l, it->r, it->x);
          l = it->l;
          it = s.erase(it);
        }
      } else if (l < it->r) {
        if (it->x == x) {
          del(it->l, it->r, it->x);
          l = min(l, it->l);
          r = max(r, it->r);
          it = s.erase(it);
        } else {
          if (r < it->r) {
            it = s.emplace_hint(next(it), r, it->r, it->x);
            it = prev(it);
          }
          del(l, min(r, it->r), it->x);
          node n = *it;
          it = s.erase(it);
          it = s.emplace_hint(it, n.l, l, n.x);
        }
      }
    }
    if (it != end(s)) it = next(it);
    add(l, r, x);
    s.emplace_hint(it, l, r, x);
  }

  void update(T l, T r, const S &x) {
    update(
        l, r, x, [](T, T, S) {}, [](T, T, S) {});
  }

  void show() {
    for (auto e : s) {
      cerr << "("
           << "[" << e.l << ", " << e.r << "): " << e.x << ") ";
    }
    cerr << endl;
  }
};
}  // namespace noimi

void q() {
  ini(N, K, Q);
  auto g = graph(N);
  g = rooted_tree(g, 0);
  V<vp> qs(N + 1);
  rep(i, Q) {
    ini(l, r);
    --l;
    qs[r].push_back(pl{l, i});
  }

  vi order, par(N, -1);
  {
    queue<int> QQ;
    QQ.push(0);
    while (sz(QQ)) {
      int c = QQ.front();
      QQ.pop();
      order.push_back(c);
      each(d, g[c]) QQ.push(d), par[d] = c;
    }
    trc(order);
  }
  vi inv = mkinv(order);

  vvi L(K + 1, vi(N, -1)), R(K + 1, vi(N, -1));
  rep(i, N) {
    L[0][i] = inv[i];
    R[0][i] = inv[i] + 1;
  }
  rep1(d, K) rep(i, N) {
    if (g[i].empty()) continue;
    L[d][i] = inf, R[d][i] = -inf;
    each(x, g[i]) {
      if (L[d - 1][x] == -1) continue;
      amin(L[d][i], L[d - 1][x]);
      amax(R[d][i], R[d - 1][x]);
    }
    if (L[d][i] == inf) L[d][i] = R[d][i] = -1;
    assert(L[d][i] <= R[d][i]);
  }

  auto gen = [&](int ii) -> vp {
    vp res;
    int c = ii;
    for (int i = 0; i <= K; i++) {
      if (c == -1) break;
      for (int d : vector{K - i, K - i - 1}) {
        if (d < 0) continue;
        int l = L[d][c];
        int r = R[d][c];
        if (l != -1) res.emplace_back(l, r);
      }
      c = par[c];
    }
    return res;
  };

  SegmentTree seg(
      N + 3, [](int a, int b) { return a + b; }, 0);
  noimi::IntervalManager<int, int> im;

  auto add = [&](int l, int r, int x) { seg.add(x + 1, r - l); };
  auto del = [&](int l, int r, int x) { seg.add(x + 1, l - r); };
  auto upd = [&](int l, int r, int x) { im.update(l, r, x, add, del); };
  upd(0, N, -1);

  vi ans(Q);
  rep(i, N + 1) {
    each2(l, q, qs[i]) {
      int dame = seg.query(0, l + 1);
      ans[q] = N - dame;
    }
    if (i == N) break;
    each2(l, r, gen(i)) { upd(l, r, i); }
  }
  each(x, ans) out(x);
}

void Nyaan::solve() {
  int t = 1;
  in(t);
  while (t--) q();
}

Details

Tip: Click on the bar to expand more detailed information

Test #1:

score: 100
Accepted
time: 1ms
memory: 3644kb

input:

2
5 1 2
1 2
1 3
2 4
2 5
2 2
2 3
8 2 3
1 2
1 3
2 4
2 5
4 6
5 7
7 8
2 2
2 5
3 4

output:

4
5
7
8
6

result:

ok 5 number(s): "4 5 7 8 6"

Test #2:

score: 0
Accepted
time: 385ms
memory: 3812kb

input:

1000
500 1 500
291 2
406 9
207 13
71 15
351 17
442 18
496 19
104 20
208 23
448 34
80 42
187 44
352 45
290 46
116 47
318 50
226 52
129 55
83 59
100 60
54 61
73 65
63 66
454 67
43 71
26 74
68 26
320 75
388 76
425 79
170 81
350 83
48 85
153 86
221 90
290 95
130 96
82 98
124 82
36 99
213 100
121 101
132...

output:

255
386
356
124
315
330
437
8
335
423
398
338
180
242
352
500
145
44
342
261
92
326
38
291
259
71
137
456
171
24
162
453
283
325
250
319
478
460
77
354
56
393
372
217
395
265
188
256
134
68
205
429
436
346
300
462
324
170
291
406
207
480
198
182
489
61
476
127
289
204
282
374
114
406
488
366
121
190...

result:

ok 500000 numbers

Test #3:

score: -100
Wrong Answer
time: 471ms
memory: 3704kb

input:

1000
500 2 500
260 2
93 3
399 4
227 5
238 6
382 7
35 12
194 24
141 26
463 27
497 30
102 31
410 32
308 34
357 42
271 43
208 44
446 46
262 50
457 51
467 52
294 53
424 54
267 56
210 58
48 59
339 48
407 65
320 66
33 68
78 33
79 71
315 72
390 74
128 76
83 81
244 87
375 91
79 93
225 94
1 97
433 1
172 100
...

output:

496
471
423
489
270
388
451
329
495
104
453
321
500
357
24
429
409
496
491
454
469
119
495
460
432
450
496
494
459
435
211
298
426
260
371
490
498
259
490
494
492
477
336
412
425
431
235
445
482
422
296
495
361
407
465
492
497
500
394
222
500
500
500
498
470
470
152
414
337
412
325
387
89
492
313
45...

result:

wrong answer 10076th numbers differ - expected: '240', found: '239'