oj.uz

Submission #777571

# Submission time Handle Problem Language Result Execution time Memory
777571 2023-07-09T10:51:39 Z Sam_a17 New Home (APIO18_new_home) C++17
47 / 100
 5000 ms 891632 KB 
#define _CRT_SECURE_NO_WARNINGS
#include <bits/stdc++.h>
//#include "temp.cpp"
#include <cstdio>
using namespace std;
 
#ifndef ONLINE_JUDGE
#define dbg(x) cerr << #x <<" "; print(x); cerr << endl;
#else
#define dbg(x)
#endif
 
#define sz(x) (int)x.size()
#define len(x) (int)x.length()
#define all(x) (x).begin(), (x).end()
#define rall(x) (x).rbegin(), (x).rend()
#define clr(x) (x).clear()
#define uniq(x) x.resize(unique(all(x)) - x.begin());
#define blt __builtin_popcount
 
#define pb push_back
#define popf pop_front
#define popb pop_back
#define ld long double
#define ll long long
 
void print(long long t) {cerr << t;}
void print(int t) {cerr << t;}
void print(string t) {cerr << t;}
void print(char t) {cerr << t;}
void print(double t) {cerr << t;}
void print(long double t) {cerr << t;}
void print(unsigned long long t) {cerr << t;}
 
#include <ext/pb_ds/assoc_container.hpp>
using namespace __gnu_pbds;
#define nl '\n'
 
// Indexed Set  
template <class T> using Tree = tree<T, null_type, less<T>, rb_tree_tag, tree_order_statistics_node_update>;
 
template <class T, class V> void print(pair <T, V> p);
template <class T> void print(vector <T> v);
template <class T> void print(set <T> v);
template <class T, class V> void print(map <T, V> v);
template <class T> void print(multiset <T> v);
template <class T, class V> void print(T v[],V n) {cerr << "["; for(int i = 0; i < n; i++) {print(v[i]); cerr << " "; } cerr << "]";}
template <class T, class V> void print(pair <T, V> p) {cerr << "{"; print(p.first); cerr << ","; print(p.second); cerr << "}";}
template <class T> void print(vector <T> v) {cerr << "[ "; for (T i : v) {print(i); cerr << " ";} cerr << "]";}
// template <class T> void print(vector <T> v) {cerr << "[ "; for (T i : v) {print(i); cerr << " ";} cerr << "]";}
template <class T> void print(set <T> v) {cerr << "[ "; for (T i : v) {print(i); cerr << " ";} cerr << "]";}
template <class T> void print(multiset <T> v) {cerr << "[ "; for (T i : v) {print(i); cerr << " ";} cerr << "]";}
template <class T> void print(Tree <T> v) {cerr << "[ "; for (T i : v) {print(i); cerr << " ";} cerr << "]";}
template <class T, class V> void print(map <T, V> v) {cerr << "[ "; for (auto i : v) {print(i); cerr << " ";} cerr << "]";}
template <class T> void print(deque <T> v) {cerr << "[ "; for (T i : v) {print(i); cerr << " ";} cerr << "]";}
 
 
// for random generations
mt19937 myrand(chrono::steady_clock::now().time_since_epoch().count());
// mt19937 myrand(131);
 
// for grid problems
int dx[8] = {-1,0,1,0,1,-1,1,-1};
int dy[8] = {0,1,0,-1,1,1,-1,-1};
 
// lowest / (1 << 17) >= 1e5 / (1 << 18) >= 2e5 / (1 << 21) >= 1e6
void fastIO() {
  ios_base::sync_with_stdio(false);
  cin.tie(nullptr); cout.tie(nullptr);
}
// file in/out
void setIO(string str = "") {
  fastIO();
 
  // if(str == "input") {
    // freopen("input.txt", "r", stdin);
    // freopen("output.txt", "w", stdout);
  // } else if(str != "") {
    // freopen((str + ".in").c_str(), "r", stdin);
    // freopen((str + ".out").c_str(), "w", stdout);
  // }
}
 
const int N = 6e5 + 10, inf = 1e8, infi = 2e9 + 10;
vector<pair<int, int>> to_add[N], to_erase[N];
int n, k, q, answ[N];
 
struct node {
  int x, t, a, b;
};
 
vector<node> cand;

struct segTreeMax {  // Range Queries
  multiset<int> mt[N * 4];
  vector<int> mTree;
  int size;

  void init(ll n) {
    size = 1;
    while(size < n)  {
      size *= 2;
    }
    mTree.assign(2 * size - 1, 0);
  }

  void upd(int u, ll v, int x, int lx, int rx) { // set value at pos u
    if(rx - lx == 1) {
      if(v >= 0) {
        mt[x].insert(v);
      } else {
        assert(mt[x].find(-v) != mt[x].end());
        mt[x].erase(mt[x].find(-v));
      }

      if(!mt[x].empty()) {
        mTree[x] = *prev(mt[x].end());
      } else {
        mTree[x] = -1;
      }
      return;
    }

    int m = (lx + rx) / 2;
    if(u < m) {
      upd(u, v, 2 * x + 1, lx, m);
    }else {
      upd(u, v, 2 * x + 2, m, rx);
    }
    mTree[x] = max(mTree[2 * x + 1], mTree[2 * x + 2]);
  }

  void upd(int u, ll v) {
    upd(u, v, 0, 0, size);
  }

  int qry(int l, int r, int x, int lx, int rx) { // range queries
    if(l >= rx || lx >= r) {
      return -1;
    }

    if(lx >= l && r >= rx) {
      return mTree[x];
    }

    int m = (rx + lx) / 2;
    int s1 = qry(l, r, 2 * x + 1, lx, m);
    int s2 = qry(l, r, 2 * x + 2, m, rx);
    return max(s1, s2);
  }

  int qry(int l, int r) {
    return qry(l, r, 0,0,size);
  }
};

struct segTreeMin {  // Range Queries

  multiset<int> mt[N * 4];
  vector<int> mTree;
  int size;

  void init(ll n) {
    size = 1;
    while(size < n)  {
      size *= 2;
    }
    mTree.assign(2 * size - 1, INT32_MAX);
  }

  void upd(int u, ll v, int x, int lx, int rx) { // set value at pos u
    if(rx - lx == 1) {
      if(v >= 0) {
        mt[x].insert(v);
      } else {
        assert(mt[x].find(-v) != mt[x].end());
        mt[x].erase(mt[x].find(-v));
      }


      if(!mt[x].empty()) {
        mTree[x] = *mt[x].begin();
      } else {
        mTree[x] = INT32_MAX;
      }
      return;
    }

    int m = (lx + rx) / 2;
    if(u < m) {
      upd(u, v, 2 * x + 1, lx, m);
    }else {
      upd(u, v, 2 * x + 2, m, rx);
    }
    mTree[x] = min(mTree[2 * x + 1], mTree[2 * x + 2]);
  }

  void upd(int u, ll v) {
    upd(u, v, 0, 0, size);
  }

  int qry(int l, int r, int x, int lx, int rx) { // range queries
    if(l >= rx || lx >= r) {
      return INT32_MAX;
    }

    if(lx >= l && r >= rx) {
      return mTree[x];
    }

    int m = (rx + lx) / 2;
    int s1 = qry(l, r, 2 * x + 1, lx, m);
    int s2 = qry(l, r, 2 * x + 2, m, rx);
    return min(s1, s2);
  }

  int qry(int l, int r) {
    return qry(l, r, 0,0,size);
  }
};

segTreeMax rs;
segTreeMin ls;

vector<int> compress_times, compress_locations;
multiset<int> color[N];
map<pair<int, int>, int> col[N];
map<int, int> mx_col[N];
vector<pair<int, int>> qr[N];
int pat[N];

int get(int val) {
  auto it = lower_bound(all(compress_locations), val);
  assert(it != compress_locations.end());
  int cur = it - compress_locations.begin();
  assert(compress_locations[cur] == val);
  return cur;
}

void add_interval(int type, int l, int r) {
  int mid = (l + r + 1) / 2;
  l = get(l);
  r = get(r);
  int midone = get(mid - 1);
  mid = get(mid);
  
  if(mid <= r) {
    rs.upd(mid, r);
  }
  if(l < mid) {
    ls.upd(midone, l);
  }
}

void del_interval(int type, int l, int r) {
  int mid = (l + r + 1) / 2;
  
  l = get(l);
  r = get(r);
  int midone = get(mid - 1);
  mid = get(mid);

  if(mid <= r) rs.upd(mid, -r);
  if(l < mid) ls.upd(midone, -l);
}

void solve_() {
  cin >> n >> k >> q;
 
  for(int i = 1; i <= n; i++) {
    int x, t, a, b; 
    cin >> x >> t >> a >> b;
    
    compress_times.push_back(a);
    compress_times.push_back(b + 1);

    compress_locations.push_back(x);

    cand.push_back({x, t, a, b});
  }

  vector<pair<int, int>> queries;
  for(int i = 1; i <= q; i++) {
    int l, y; cin >> l >> y;
    compress_locations.push_back(l);
    compress_times.push_back(y);
    queries.emplace_back(l, y);
  }

  compress_locations.push_back(-infi);
  compress_locations.push_back(infi);
  
  sort(all(compress_times));
  uniq(compress_times);


  for(auto &i: cand) {
    i.a = lower_bound(all(compress_times), i.a) - compress_times.begin();
    i.b = lower_bound(all(compress_times), i.b + 1) - compress_times.begin();

    to_add[i.a].push_back({i.x, i.t});
    to_erase[i.b].push_back({i.x, i.t});
  } 

  for(int i = 1; i <= k; i++) {
    color[i].insert(-infi);
    color[i].insert(infi);
  }

  for(int i = 0; i < sz(compress_times); i++) {
    for(auto j: to_add[i]) {
      if(color[j.second].find(j.first) != color[j.second].end()) {
        mx_col[j.second][j.first]++;
        continue;
      }

      color[j.second].insert(j.first);

      mx_col[j.second][j.first] = 1;
      auto it = color[j.second].find(j.first);
      auto it_prev = prev(it), it_next = next(it);

      int mid1 = (*it_next + j.first + 1) / 2;
      int mid2 = (*it_prev + j.first + 1) / 2;
      
      compress_locations.push_back(mid1);
      compress_locations.push_back(mid1 - 1);
      
      compress_locations.push_back(mid2);
      compress_locations.push_back(mid2 - 1);
    }


    // tex, tip
    for(auto j: to_erase[i]) {
      // color[j.second]

      mx_col[j.second][j.first]--;
      if(mx_col[j.second][j.first] == 0) {

        auto it = color[j.second].find(j.first);
        auto it_prev = prev(it), it_next = next(it);

        int mid1 = (*it_next + *it_prev + 1) / 2;
        
        compress_locations.push_back(mid1);
        compress_locations.push_back(mid1 - 1);
 
        color[j.second].erase(j.first);
      }
    }
  }

  int it = 1;
  for(auto &i: queries) {
    i.second = lower_bound(all(compress_times), i.second) - compress_times.begin();
    qr[i.second].emplace_back(i.first, it);
    it++;
  }

  sort(all(compress_locations));
  uniq(compress_locations);
  ls.init(sz(compress_locations) + 10);
  rs.init(sz(compress_locations) + 10);

  for(int i = 1; i <= k; i++) {
    color[i].clear();
    mx_col[i].clear();
    
    color[i].insert(-infi);
    color[i].insert(infi);
  }

  vector<bool> empty(k + 1, true);
  int emp = k;

  for(int i = 0; i < sz(compress_times); i++) {
    for(auto j: to_add[i]) {
      if(color[j.second].find(j.first) != color[j.second].end()) {
        mx_col[j.second][j.first]++;
        continue;
      }

      mx_col[j.second][j.first] = 1;
      color[j.second].insert(j.first);
      if(sz(color[j.second]) == 3) {
        assert(empty[j.second]);
        empty[j.second] = false;
        emp--;
      }

      // ete inchvor bani aranqna
      auto it = color[j.second].find(j.first);
      assert(it != color[j.second].begin());
      assert(it != prev(color[j.second].end()));
      auto it_prev = prev(it), it_next = next(it);

      int mid1 = (*it_next + j.first + 1) / 2;
      int mid2 = (*it_prev + j.first + 1) / 2;


      add_interval(j.second, *it_prev, j.first);
      add_interval(j.second, j.first, *it_next);


      if(*it_prev != -infi || *it_next != infi) {
        del_interval(j.second, *it_prev, *it_next);
      }
    }

    // tex, tip
    for(auto j: to_erase[i]) {

      mx_col[j.second][j.first]--;
      if(mx_col[j.second][j.first] == 0) {

        auto it = color[j.second].find(j.first);

        if(sz(color[j.second]) == 3) {
          empty[j.second] = true;
          emp++;
        }

        auto it_prev = prev(it), it_next = next(it);
        del_interval(j.second, *it_prev, j.first);
        del_interval(j.second, j.first, *it_next);

        if(*it_prev != -infi || *it_next != infi) {
          add_interval(j.second, *it_prev, *it_next);
        }

        color[j.second].erase(j.first);
      }
    }

    for(auto j: qr[i]) {
      if(emp) {
        pat[j.second] = -1;
      } else {
        int cur = lower_bound(all(compress_locations), j.first) - compress_locations.begin();
        int li = ls.qry(cur, sz(compress_locations) + 1);
        int ri = rs.qry(0, cur + 1);

        if(li <= cur) {
          pat[j.second] = max(pat[j.second], j.first - compress_locations[li]);
        }

        if(ri >= cur) {
          pat[j.second] = max(pat[j.second], compress_locations[ri] - j.first);
        }
      }
    }
  }

  for(int i = 1; i <= q; i++) {
    cout << pat[i] << '\n';
  }
 }
 
int main() {
  setIO();
 
  auto solve = [&](int test_case)-> void {
    for(int i = 1; i <= test_case; i++) {
      solve_();
    }
  };
 
  int test_cases = 1;
  // cin >> test_cases;
  solve(test_cases);
 
  return 0;
}

Compilation message

new_home.cpp: In function 'void solve_()':
new_home.cpp:398:11: warning: unused variable 'mid1' [-Wunused-variable]
  398 |       int mid1 = (*it_next + j.first + 1) / 2;
      |           ^~~~
new_home.cpp:399:11: warning: unused variable 'mid2' [-Wunused-variable]
  399 |       int mid2 = (*it_prev + j.first + 1) / 2;
      |           ^~~~

Subtask #1
5.0 / 5.0

# Verdict Execution time Memory Grader output
1 Correct 174 ms 352576 KB Output is correct
2 Correct 143 ms 352468 KB Output is correct
3 Correct 140 ms 352576 KB Output is correct
4 Correct 145 ms 352480 KB Output is correct
5 Correct 144 ms 352760 KB Output is correct
6 Correct 161 ms 352912 KB Output is correct
7 Correct 155 ms 352836 KB Output is correct
8 Correct 150 ms 352880 KB Output is correct
9 Correct 146 ms 352844 KB Output is correct
10 Correct 144 ms 352808 KB Output is correct
11 Correct 144 ms 352712 KB Output is correct
12 Correct 148 ms 352680 KB Output is correct
13 Correct 143 ms 352768 KB Output is correct
14 Correct 141 ms 352716 KB Output is correct
15 Correct 144 ms 352824 KB Output is correct
16 Correct 148 ms 352852 KB Output is correct
17 Correct 143 ms 352764 KB Output is correct
18 Correct 142 ms 352828 KB Output is correct
19 Correct 152 ms 352748 KB Output is correct
20 Correct 149 ms 352768 KB Output is correct
21 Correct 142 ms 352780 KB Output is correct
22 Correct 143 ms 352844 KB Output is correct
23 Correct 142 ms 352824 KB Output is correct
24 Correct 146 ms 352768 KB Output is correct
25 Correct 144 ms 352720 KB Output is correct
26 Correct 143 ms 352788 KB Output is correct
27 Correct 154 ms 352688 KB Output is correct
28 Correct 143 ms 352780 KB Output is correct
29 Correct 141 ms 352716 KB Output is correct
30 Correct 142 ms 352656 KB Output is correct

Subtask #2
7.0 / 7.0

# Verdict Execution time Memory Grader output
1 Correct 174 ms 352576 KB Output is correct
2 Correct 143 ms 352468 KB Output is correct
3 Correct 140 ms 352576 KB Output is correct
4 Correct 145 ms 352480 KB Output is correct
5 Correct 144 ms 352760 KB Output is correct
6 Correct 161 ms 352912 KB Output is correct
7 Correct 155 ms 352836 KB Output is correct
8 Correct 150 ms 352880 KB Output is correct
9 Correct 146 ms 352844 KB Output is correct
10 Correct 144 ms 352808 KB Output is correct
11 Correct 144 ms 352712 KB Output is correct
12 Correct 148 ms 352680 KB Output is correct
13 Correct 143 ms 352768 KB Output is correct
14 Correct 141 ms 352716 KB Output is correct
15 Correct 144 ms 352824 KB Output is correct
16 Correct 148 ms 352852 KB Output is correct
17 Correct 143 ms 352764 KB Output is correct
18 Correct 142 ms 352828 KB Output is correct
19 Correct 152 ms 352748 KB Output is correct
20 Correct 149 ms 352768 KB Output is correct
21 Correct 142 ms 352780 KB Output is correct
22 Correct 143 ms 352844 KB Output is correct
23 Correct 142 ms 352824 KB Output is correct
24 Correct 146 ms 352768 KB Output is correct
25 Correct 144 ms 352720 KB Output is correct
26 Correct 143 ms 352788 KB Output is correct
27 Correct 154 ms 352688 KB Output is correct
28 Correct 143 ms 352780 KB Output is correct
29 Correct 141 ms 352716 KB Output is correct
30 Correct 142 ms 352656 KB Output is correct
31 Correct 985 ms 386428 KB Output is correct
32 Correct 189 ms 358216 KB Output is correct
33 Correct 904 ms 379092 KB Output is correct
34 Correct 879 ms 379568 KB Output is correct
35 Correct 979 ms 386244 KB Output is correct
36 Correct 984 ms 386092 KB Output is correct
37 Correct 739 ms 377408 KB Output is correct
38 Correct 725 ms 377108 KB Output is correct
39 Correct 664 ms 377100 KB Output is correct
40 Correct 655 ms 376820 KB Output is correct
41 Correct 820 ms 381580 KB Output is correct
42 Correct 780 ms 381488 KB Output is correct
43 Correct 179 ms 360436 KB Output is correct
44 Correct 810 ms 381656 KB Output is correct
45 Correct 850 ms 381588 KB Output is correct
46 Correct 824 ms 381460 KB Output is correct
47 Correct 547 ms 380916 KB Output is correct
48 Correct 518 ms 380620 KB Output is correct
49 Correct 575 ms 380956 KB Output is correct
50 Correct 603 ms 381548 KB Output is correct
51 Correct 582 ms 380824 KB Output is correct

Subtask #3
0 / 10.0

# Verdict Execution time Memory Grader output
1 Runtime error 1532 ms 891632 KB Execution killed with signal 11
2 Halted 0 ms 0 KB -

Subtask #4
0 / 23.0

# Verdict Execution time Memory Grader output
1 Execution timed out 5081 ms 478896 KB Time limit exceeded
2 Halted 0 ms 0 KB -

Subtask #5
35.0 / 35.0

# Verdict Execution time Memory Grader output
1 Correct 174 ms 352576 KB Output is correct
2 Correct 143 ms 352468 KB Output is correct
3 Correct 140 ms 352576 KB Output is correct
4 Correct 145 ms 352480 KB Output is correct
5 Correct 144 ms 352760 KB Output is correct
6 Correct 161 ms 352912 KB Output is correct
7 Correct 155 ms 352836 KB Output is correct
8 Correct 150 ms 352880 KB Output is correct
9 Correct 146 ms 352844 KB Output is correct
10 Correct 144 ms 352808 KB Output is correct
11 Correct 144 ms 352712 KB Output is correct
12 Correct 148 ms 352680 KB Output is correct
13 Correct 143 ms 352768 KB Output is correct
14 Correct 141 ms 352716 KB Output is correct
15 Correct 144 ms 352824 KB Output is correct
16 Correct 148 ms 352852 KB Output is correct
17 Correct 143 ms 352764 KB Output is correct
18 Correct 142 ms 352828 KB Output is correct
19 Correct 152 ms 352748 KB Output is correct
20 Correct 149 ms 352768 KB Output is correct
21 Correct 142 ms 352780 KB Output is correct
22 Correct 143 ms 352844 KB Output is correct
23 Correct 142 ms 352824 KB Output is correct
24 Correct 146 ms 352768 KB Output is correct
25 Correct 144 ms 352720 KB Output is correct
26 Correct 143 ms 352788 KB Output is correct
27 Correct 154 ms 352688 KB Output is correct
28 Correct 143 ms 352780 KB Output is correct
29 Correct 141 ms 352716 KB Output is correct
30 Correct 142 ms 352656 KB Output is correct
31 Correct 985 ms 386428 KB Output is correct
32 Correct 189 ms 358216 KB Output is correct
33 Correct 904 ms 379092 KB Output is correct
34 Correct 879 ms 379568 KB Output is correct
35 Correct 979 ms 386244 KB Output is correct
36 Correct 984 ms 386092 KB Output is correct
37 Correct 739 ms 377408 KB Output is correct
38 Correct 725 ms 377108 KB Output is correct
39 Correct 664 ms 377100 KB Output is correct
40 Correct 655 ms 376820 KB Output is correct
41 Correct 820 ms 381580 KB Output is correct
42 Correct 780 ms 381488 KB Output is correct
43 Correct 179 ms 360436 KB Output is correct
44 Correct 810 ms 381656 KB Output is correct
45 Correct 850 ms 381588 KB Output is correct
46 Correct 824 ms 381460 KB Output is correct
47 Correct 547 ms 380916 KB Output is correct
48 Correct 518 ms 380620 KB Output is correct
49 Correct 575 ms 380956 KB Output is correct
50 Correct 603 ms 381548 KB Output is correct
51 Correct 582 ms 380824 KB Output is correct
52 Correct 712 ms 397360 KB Output is correct
53 Correct 699 ms 389284 KB Output is correct
54 Correct 847 ms 391200 KB Output is correct
55 Correct 797 ms 387132 KB Output is correct
56 Correct 741 ms 389744 KB Output is correct
57 Correct 811 ms 383360 KB Output is correct
58 Correct 836 ms 386016 KB Output is correct
59 Correct 748 ms 388916 KB Output is correct
60 Correct 807 ms 382344 KB Output is correct
61 Correct 301 ms 383740 KB Output is correct
62 Correct 764 ms 397468 KB Output is correct
63 Correct 806 ms 391548 KB Output is correct
64 Correct 890 ms 388696 KB Output is correct
65 Correct 866 ms 383944 KB Output is correct
66 Correct 854 ms 381844 KB Output is correct
67 Correct 444 ms 368532 KB Output is correct

Subtask #6
0 / 20.0

# Verdict Execution time Memory Grader output
1 Correct 174 ms 352576 KB Output is correct
2 Correct 143 ms 352468 KB Output is correct
3 Correct 140 ms 352576 KB Output is correct
4 Correct 145 ms 352480 KB Output is correct
5 Correct 144 ms 352760 KB Output is correct
6 Correct 161 ms 352912 KB Output is correct
7 Correct 155 ms 352836 KB Output is correct
8 Correct 150 ms 352880 KB Output is correct
9 Correct 146 ms 352844 KB Output is correct
10 Correct 144 ms 352808 KB Output is correct
11 Correct 144 ms 352712 KB Output is correct
12 Correct 148 ms 352680 KB Output is correct
13 Correct 143 ms 352768 KB Output is correct
14 Correct 141 ms 352716 KB Output is correct
15 Correct 144 ms 352824 KB Output is correct
16 Correct 148 ms 352852 KB Output is correct
17 Correct 143 ms 352764 KB Output is correct
18 Correct 142 ms 352828 KB Output is correct
19 Correct 152 ms 352748 KB Output is correct
20 Correct 149 ms 352768 KB Output is correct
21 Correct 142 ms 352780 KB Output is correct
22 Correct 143 ms 352844 KB Output is correct
23 Correct 142 ms 352824 KB Output is correct
24 Correct 146 ms 352768 KB Output is correct
25 Correct 144 ms 352720 KB Output is correct
26 Correct 143 ms 352788 KB Output is correct
27 Correct 154 ms 352688 KB Output is correct
28 Correct 143 ms 352780 KB Output is correct
29 Correct 141 ms 352716 KB Output is correct
30 Correct 142 ms 352656 KB Output is correct
31 Correct 985 ms 386428 KB Output is correct
32 Correct 189 ms 358216 KB Output is correct
33 Correct 904 ms 379092 KB Output is correct
34 Correct 879 ms 379568 KB Output is correct
35 Correct 979 ms 386244 KB Output is correct
36 Correct 984 ms 386092 KB Output is correct
37 Correct 739 ms 377408 KB Output is correct
38 Correct 725 ms 377108 KB Output is correct
39 Correct 664 ms 377100 KB Output is correct
40 Correct 655 ms 376820 KB Output is correct
41 Correct 820 ms 381580 KB Output is correct
42 Correct 780 ms 381488 KB Output is correct
43 Correct 179 ms 360436 KB Output is correct
44 Correct 810 ms 381656 KB Output is correct
45 Correct 850 ms 381588 KB Output is correct
46 Correct 824 ms 381460 KB Output is correct
47 Correct 547 ms 380916 KB Output is correct
48 Correct 518 ms 380620 KB Output is correct
49 Correct 575 ms 380956 KB Output is correct
50 Correct 603 ms 381548 KB Output is correct
51 Correct 582 ms 380824 KB Output is correct
52 Runtime error 1532 ms 891632 KB Execution killed with signal 11
53 Halted 0 ms 0 KB -