Submission #864943

#	Submission time	Handle	Problem	Language	Result	Execution time	Memory
864943	2023-10-23T18:54:23 Z	danikoynov	New Home (APIO18_new_home)	C++14	57 / 100	5000 ms	946508 KB

new_home

#include<bits/stdc++.h>
#define endl '\n'
    
using namespace std;
typedef long long ll;
    
const int maxn = 6e5 + 10, inf = 1e9;
    
struct store
{
    int x, t, a, b;
}s[maxn];
    
struct query
{
    int l, y, idx;
}task[maxn];
    
int n, k, q;
int readInt () {
    bool minus = false;
    int result = 0;
    char ch;
    ch = getchar_unlocked();
    while (true) {
        if (ch == '-') break;
        if (ch >= '0' && ch <= '9') break;
        ch = getchar_unlocked();
    }
    if (ch == '-') minus = true; else result = ch-'0';
    while (true) {
        ch = getchar_unlocked();
        if (ch < '0' || ch > '9') break;
        result = result*10 + (ch - '0');
    }
    if (minus)
        return -result;
    else
        return result;
}
void input()
{
    n = readInt();
    k = readInt();
    q = readInt();
    ///cin >> n >> k >> q;
    for (int i = 1; i <= n; i ++)
    {
        s[i].x = readInt();
        s[i].t = readInt();
        s[i].a = readInt();
        s[i].b = readInt();
        ///        cin >> s[i].x >> s[i].t >> s[i].a >> s[i].b;
    }
    
    for (int i = 1; i <= q; i ++)
    {
            task[i].l = readInt();
            task[i].y = readInt();
            task[i].idx = i;
        ///cin >> task[i].l >> task[i].y, task[i].idx = i;
    }
}
    
unordered_map < int, int > rev;
int dif, back_to[2 * maxn];
    
int get_mid(int left, int right)
{
    if (left == right)
        return rev[left];
    
    int lf = rev[left], rf = rev[right];
    while(lf <= rf)
    {
        int mf = (lf + rf) / 2;
        if (abs(left - back_to[mf]) <= abs(right - back_to[mf]))
            lf = mf + 1;
        else
            rf = mf - 1;
    }
    
    return rf;
}
void compress_data()
{
    vector < int > cor;
    for (int i = 1; i <= n; i ++)
        cor.push_back(s[i].x);
    for (int i = 1; i <= q; i ++)
        cor.push_back(task[i].l);
    
    sort(cor.begin(), cor.end());
    int sz = cor.size();
    
    for (int i = 0; i < cor.size(); i ++)
    {
        if (i != 0 || cor[i - 1] != cor[i])
        {
            dif ++;
            rev[cor[i]] = dif;
            back_to[dif] = cor[i];
        }
    }
}
    
    
bool cmp_query(query t1, query t2)
{
    return t1.l < t2.l;
}
    
struct event
{
    int type, cor, add, arrive;
    
    event(int _type, int _cor, int _add, int _arrive)
    {
        type = _type;
        cor = _cor;
        add = _add;
        arrive = _arrive;
    }
};
    
bool cmp_event(event e1, event e2)
{
    if (e1.arrive != e2.arrive)
        return e1.arrive < e2.arrive;
    
    if (e1.add != e2.add)
        return e1.add < e2.add;
    
    return e1.cor < e2.cor; /// could have dublicates
}
    
    
    
multiset < int > act[maxn];
    
struct interval_ray
{
    int s, e;
    pair < int, int > ray;
    
    interval_ray(int _s, int _e, pair < int, int > _ray)
    {
        s = _s;
        e = _e;
        ray = _ray;
    }
};
    
vector < interval_ray > seg_left, seg_right;
    
map < pair < int, int >, int > ray_right[maxn], ray_left[maxn];
vector < int > dat;
void make_left_segment(int start, int finish, int timer, int type)
{
    ///cout << "left " << start << " " << finish << " " << timer << endl;
    seg_left.push_back(interval_ray(ray_left[type][{start, finish}], timer - 1, {start, finish}));
    ray_left[type][{start, finish}] = 0;
}
    
void make_right_segment(int start, int finish, int timer, int type)
{
    
    seg_right.push_back(interval_ray(ray_right[type][{start, finish}], timer - 1, {start, finish}));
    ray_right[type][{start, finish}] = 0;
}
    
void add_event(int type, int cor, int timer)
{
    multiset < int > :: iterator it = act[type].upper_bound(cor);
    int aft = *it;
    int bef = *prev(it);
    
    if (bef == -inf && aft == inf)
    {
        
        make_right_segment(-inf, inf, timer, type);
        ray_left[type][{cor, -inf}] = timer;
        ray_right[type][{cor, +inf}] = timer;
    }
    else
    if (bef == - inf)
    {
        make_left_segment(aft, -inf, timer, type);
        int mid = (cor + aft) / 2;
        ray_right[type][{cor, mid}] = timer;
        ray_left[type][{aft, mid + 1}] = timer;
        ray_left[type][{cor, -inf}] = timer;
    }
    else
    if (aft == inf)
    {
        make_right_segment(bef, inf, timer, type);
        int mid = (bef + cor) / 2;
        ray_left[type][{cor, mid + 1}] = timer;
        ray_right[type][{bef, mid}] = timer;
        ray_right[type][{cor, inf}] = timer;
    }
    else
    {
        int mid = (bef + aft) / 2;
        make_right_segment(bef, mid, timer, type);
        make_left_segment(aft, mid + 1, timer, type);
        int mid_left = (bef + cor) / 2;
        ray_right[type][{bef, mid_left}] = timer;
        ray_left[type][{cor, mid_left + 1}] = timer;
        int mid_right = (cor + aft) / 2;
        ray_right[type][{cor, mid_right}] = timer;
        ray_left[type][{aft, mid_right + 1}] = timer;
    }
    
    act[type].insert(cor);
}
    
    
void remove_event(int type, int cor, int timer)
{
    multiset < int > :: iterator it = act[type].find(cor);
    int aft = *next(it);
    int bef = *prev(it);
    
    if (bef == -inf && aft == inf)
    {
        ///cout << "reverse " << timer << endl;
    
        make_left_segment(cor, -inf, timer, type);
        make_right_segment(cor, +inf, timer, type);
        ray_right[type][{-inf, inf}] = timer;
    
    }
    else
    if (bef == -inf)
    {
    
        ///cout << "step " << timer << endl;
        make_left_segment(cor, -inf, timer, type);
        int mid = (cor + aft) / 2;
        make_right_segment(cor, mid, timer, type);
        make_left_segment(aft, mid + 1, timer, type);
                ray_left[type][{aft, -inf}] = timer;
    
    
    }
    else
    if (aft == inf)
    {
    
        make_right_segment(cor, inf, timer, type);
        int mid = (bef + cor) / 2;
        make_left_segment(cor, mid + 1, timer, type);
        make_right_segment(bef, mid, timer, type);
                ray_right[type][{bef, inf}] = timer;
    }
    else
    {
        int mid = (bef + aft) / 2;
        ///assert((ray_right[type][{bef, mid}]) == 0);
        ///assert((ray_left[type][{aft, mid + 1}]) == 0);
    
        int mid_left = (bef + cor) / 2;
        make_right_segment(bef, mid_left, timer, type);
        make_left_segment(cor, mid_left + 1, timer, type);
        int mid_right = (aft + cor) / 2;
        make_right_segment(cor, mid_right, timer, type);
        make_left_segment(aft, mid_right + 1, timer, type);
    
                ray_right[type][{bef, mid}] = timer;
        ray_left[type][{aft, mid + 1}] = timer;
    
    }
    
    act[type].erase(it);
}
    
int ans[maxn];
    
vector < interval_ray > tree_left[maxn * 4], tree_right[maxn * 4];
int pt_lf[4 * maxn], bs_lf[4 * maxn];
int pt_rf[4 * maxn], bs_rf[4 * maxn];
    
bool cmp_ray_second(interval_ray r1, interval_ray r2)
{
    return r1.ray.second < r2.ray.second;
}
void update_range(int root, int left, int right, int qleft, int qright, interval_ray &ray, int type)
{
    if (left > qright || right < qleft)
        return;
    
    if (left >= qleft && right <= qright)
    {
        if (type == -1)
            tree_left[root].push_back(ray);
        else
            tree_right[root].push_back(ray);
        return;
    }
    
    int mid = (left + right) / 2;
    update_range(root * 2, left, mid, qleft, qright, ray, type);
    update_range(root * 2 + 1, mid + 1, right, qleft, qright, ray, type);
    
}
    
unordered_map < int, int > event_times;
    
void answer_queries()
{
    sort(task + 1, task + q + 1, cmp_query);
    
    vector < event > events;
    for (int i = 1; i <= n; i ++)
    {
        events.push_back(event(s[i].t, s[i].x, 1, s[i].a));
        events.push_back(event(s[i].t, s[i].x, -1, s[i].b + 1));
    }
    
    sort(events.begin(), events.end(), cmp_event);
    
    for (int i = 1; i <= k; i ++)
    {
        act[i].insert(-inf);
        act[i].insert(inf);
        ray_right[i][{-inf, inf}] = 1;
    }
    
    
    int cnt = 0;
    dat.push_back(1);
    dat.push_back(0);
    
    for (event cur : events)
    {
        ///dat.push_back(cur.arrive - 1);
        dat.push_back(cur.arrive);
        ///cout << "event " << cur.arrive << " " << cur.add << " " << cur.cor << " " << cur.type << endl;
        if (cur.add == 1)
            add_event(cur.type, cur.cor, cur.arrive);
        else
            remove_event(cur.type, cur.cor, cur.arrive);
    }
    
    dat.push_back(inf - 1);
    dat.push_back(inf);
    
    for (int i = 1; i <= q; i ++)
        dat.push_back(task[i].y);
    
    sort(dat.begin(), dat.end());
    cnt ++;
    event_times[dat[0]] = cnt;
    for (int i = 1; i < dat.size(); i ++)
    {
        if (dat[i] == dat[i - 1])
            continue;
        cnt ++;
        event_times[dat[i]] = cnt;
    }
    
    map < pair < int, int >, int > :: iterator it;
    for (int i = 1; i <= k; i ++)
        for (it = ray_right[i].begin(); it != ray_right[i].end(); it ++)
        {
            ///cout << it -> first.first << " :: " << it -> first.second << " " << it -> second << endl;
            if (it -> second != 0)
                make_right_segment(it -> first.first, it -> first.second, inf, i);
        }
    
    
    for (int i = 1; i <= k; i ++)
        for (it = ray_left[i].begin(); it != ray_left[i].end(); it ++)
        {
            if (it -> second != 0)
            {
            ///cout << "here " << endl;
                make_left_segment(it -> first.first, it -> first.second, inf, i);
            }
        }
    
    sort(seg_right.begin(), seg_right.end(), cmp_ray_second);
    sort(seg_left.begin(), seg_left.end(), cmp_ray_second);
    for (interval_ray cur : seg_left)
    {
        //assert(event_times[cur.e + 1] != 0);
        update_range(1, 1, cnt, event_times[cur.s], event_times[cur.e + 1] - 1, cur, -1);
    ///    cout << "left ray " << cur.s << " " << cur.e << " " << cur.ray.first << " " << cur.ray.second << endl;
    }
    
    for (interval_ray cur : seg_right)
    {
        //assert(event_times[cur.e + 1] != 0);
        update_range(1, 1, cnt, event_times[cur.s], event_times[cur.e + 1] - 1, cur, 1);
        ///cout << "right ray " << cur.s << " " << cur.e << " " << cur.ray.first << " " << cur.ray.second << endl;
    }
    
    
    for (int i = 1; i <= 4 * cnt; i ++)
    {
        pt_rf[i] = (int)(tree_right[i].size()) - 1;
        bs_rf[i] = inf;
    
        pt_lf[i] = 0;
        bs_lf[i] = -inf;
        ///sort(tree_right[i].begin(), tree_right[i].end(), cmp_ray_second);
        ///sort(tree_left[i].begin(), tree_left[i].end(), cmp_ray_second);
    }
    
    for (int i = q; i > 0; i --)
    {
        int longest = 0;
        int pos = event_times[task[i].y];
        int root = 1, left = 1, right = cnt;
    
        while(true)
        {
    
            while(pt_rf[root] >= 0 && task[i].l <= tree_right[root][pt_rf[root]].ray.second)
            {
                bs_rf[root] = min(bs_rf[root], tree_right[root][pt_rf[root]].ray.first);
                pt_rf[root] --;
            }
            longest = max(longest, task[i].l - bs_rf[root]);
    
    
            if (left == right)
                break;
    
            int mid = (left + right) / 2;
            if (pos <= mid)
            {
                root *= 2;
                right = mid;
            }
            else
            {
                root = root * 2 + 1;
                left = mid + 1;
            }
        }
    
        ans[task[i].idx] = max(ans[task[i].idx], longest);
    }
    
    for (int i = 1; i <= q; i ++)
    {
        int longest = 0;
        int pos = event_times[task[i].y];
        int root = 1, left = 1, right = cnt;
        while(true)
        {
            ///cout << "step " << root << " " << left << " " << right << endl;
            while(pt_lf[root] < tree_left[root].size() && tree_left[root][pt_lf[root]].ray.second <= task[i].l)
            {
                bs_lf[root] = max(bs_lf[root], tree_left[root][pt_lf[root]].ray.first);
                pt_lf[root] ++;
            }
            longest = max(longest, bs_lf[root] - task[i].l);
            /**for (interval_ray cur : tree_left[root])
            {
                if (task[i].l >= cur.ray.second)
                    longest = max(longest, cur.ray.first - task[i].l);
            }*/
    
    
            if (left == right)
                break;
    
            int mid = (left + right) / 2;
            if (pos <= mid)
            {
                root *= 2;
                right = mid;
            }
            else
            {
                root = root * 2 + 1;
                left = mid + 1;
            }
        }
    
        ans[task[i].idx] = max(ans[task[i].idx], longest);
    }
    
    for (int i = 1; i <= q; i ++)
    {
        if (ans[i] > 2e8)
            cout << -1 << endl;
        else
            cout << ans[i] << endl;
    }
}
void solve()
{
    input();
    ///compress_data();
    answer_queries();
}
    
void speed()
{
    ios_base::sync_with_stdio(false);
    cin.tie(NULL);
    cout.tie(NULL);
}
int main()
{
    
    speed();
    solve();
    return 0;
}
    
/**
2 1 2
3 1 1 3
5 1 3 4
3 3
3 4
    
    
    
    
4 2 4
3 1 1 10
9 2 2 4
7 2 5 7
4 1 8 10
5 3
5 6
5 9
1 10
    
2 1 3
1 1 1 4
1 1 2 6
1 3
1 5
1 7
    
1 1 1
100000000 1 1 1
1 1
    
    
    
*/

Compilation message

new_home.cpp: In function 'void compress_data()':
new_home.cpp:96:23: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
   96 |     for (int i = 0; i < cor.size(); i ++)
      |                     ~~^~~~~~~~~~~~
new_home.cpp:94:9: warning: unused variable 'sz' [-Wunused-variable]
   94 |     int sz = cor.size();
      |         ^~
new_home.cpp: In function 'void answer_queries()':
new_home.cpp:356:23: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
  356 |     for (int i = 1; i < dat.size(); i ++)
      |                     ~~^~~~~~~~~~~~
new_home.cpp:456:31: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<interval_ray>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
  456 |             while(pt_lf[root] < tree_left[root].size() && tree_left[root][pt_lf[root]].ray.second <= task[i].l)
      |                   ~~~~~~~~~~~~^~~~~~~~~~~~~~~~~~~~~~~~

Subtask #1
5.0 / 5.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	40 ms	211792 KB	Output is correct
2	Correct	41 ms	211804 KB	Output is correct
3	Correct	41 ms	211688 KB	Output is correct
4	Correct	41 ms	211824 KB	Output is correct
5	Correct	42 ms	211800 KB	Output is correct
6	Correct	44 ms	212316 KB	Output is correct
7	Correct	43 ms	212404 KB	Output is correct
8	Correct	43 ms	212396 KB	Output is correct
9	Correct	42 ms	212312 KB	Output is correct
10	Correct	44 ms	212224 KB	Output is correct
11	Correct	43 ms	212188 KB	Output is correct
12	Correct	43 ms	212048 KB	Output is correct
13	Correct	42 ms	211920 KB	Output is correct
14	Correct	43 ms	212052 KB	Output is correct
15	Correct	43 ms	212316 KB	Output is correct
16	Correct	43 ms	212304 KB	Output is correct
17	Correct	43 ms	212048 KB	Output is correct
18	Correct	43 ms	212304 KB	Output is correct
19	Correct	43 ms	212632 KB	Output is correct
20	Correct	42 ms	212308 KB	Output is correct
21	Correct	41 ms	211968 KB	Output is correct
22	Correct	42 ms	212308 KB	Output is correct
23	Correct	43 ms	212304 KB	Output is correct
24	Correct	42 ms	212308 KB	Output is correct
25	Correct	45 ms	212308 KB	Output is correct
26	Correct	42 ms	212048 KB	Output is correct
27	Correct	41 ms	212060 KB	Output is correct
28	Correct	43 ms	212172 KB	Output is correct
29	Correct	43 ms	212156 KB	Output is correct
30	Correct	42 ms	211796 KB	Output is correct

Subtask #2
7.0 / 7.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	40 ms	211792 KB	Output is correct
2	Correct	41 ms	211804 KB	Output is correct
3	Correct	41 ms	211688 KB	Output is correct
4	Correct	41 ms	211824 KB	Output is correct
5	Correct	42 ms	211800 KB	Output is correct
6	Correct	44 ms	212316 KB	Output is correct
7	Correct	43 ms	212404 KB	Output is correct
8	Correct	43 ms	212396 KB	Output is correct
9	Correct	42 ms	212312 KB	Output is correct
10	Correct	44 ms	212224 KB	Output is correct
11	Correct	43 ms	212188 KB	Output is correct
12	Correct	43 ms	212048 KB	Output is correct
13	Correct	42 ms	211920 KB	Output is correct
14	Correct	43 ms	212052 KB	Output is correct
15	Correct	43 ms	212316 KB	Output is correct
16	Correct	43 ms	212304 KB	Output is correct
17	Correct	43 ms	212048 KB	Output is correct
18	Correct	43 ms	212304 KB	Output is correct
19	Correct	43 ms	212632 KB	Output is correct
20	Correct	42 ms	212308 KB	Output is correct
21	Correct	41 ms	211968 KB	Output is correct
22	Correct	42 ms	212308 KB	Output is correct
23	Correct	43 ms	212304 KB	Output is correct
24	Correct	42 ms	212308 KB	Output is correct
25	Correct	45 ms	212308 KB	Output is correct
26	Correct	42 ms	212048 KB	Output is correct
27	Correct	41 ms	212060 KB	Output is correct
28	Correct	43 ms	212172 KB	Output is correct
29	Correct	43 ms	212156 KB	Output is correct
30	Correct	42 ms	211796 KB	Output is correct
31	Correct	1039 ms	363196 KB	Output is correct
32	Correct	127 ms	230088 KB	Output is correct
33	Correct	1022 ms	365668 KB	Output is correct
34	Correct	981 ms	363192 KB	Output is correct
35	Correct	1039 ms	364448 KB	Output is correct
36	Correct	1071 ms	365244 KB	Output is correct
37	Correct	772 ms	352796 KB	Output is correct
38	Correct	800 ms	350948 KB	Output is correct
39	Correct	672 ms	323888 KB	Output is correct
40	Correct	685 ms	331704 KB	Output is correct
41	Correct	782 ms	312880 KB	Output is correct
42	Correct	774 ms	315000 KB	Output is correct
43	Correct	96 ms	225088 KB	Output is correct
44	Correct	758 ms	310812 KB	Output is correct
45	Correct	741 ms	301832 KB	Output is correct
46	Correct	618 ms	284540 KB	Output is correct
47	Correct	408 ms	277884 KB	Output is correct
48	Correct	391 ms	274680 KB	Output is correct
49	Correct	483 ms	289660 KB	Output is correct
50	Correct	536 ms	306400 KB	Output is correct
51	Correct	500 ms	283148 KB	Output is correct

Subtask #3
10.0 / 10.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	1976 ms	866604 KB	Output is correct
2	Correct	1872 ms	888856 KB	Output is correct
3	Correct	1697 ms	899160 KB	Output is correct
4	Correct	1972 ms	837912 KB	Output is correct
5	Correct	1722 ms	862196 KB	Output is correct
6	Correct	1865 ms	843028 KB	Output is correct
7	Correct	1728 ms	885688 KB	Output is correct
8	Correct	1914 ms	863756 KB	Output is correct
9	Correct	2077 ms	843692 KB	Output is correct
10	Correct	2185 ms	848424 KB	Output is correct
11	Correct	1759 ms	856648 KB	Output is correct
12	Correct	2041 ms	848448 KB	Output is correct

Subtask #4
0 / 23.0

#	Verdict	Execution time	Memory	Grader output
1	Execution timed out	5043 ms	946508 KB	Time limit exceeded
2	Halted	0 ms	0 KB	-

Subtask #5
35.0 / 35.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	40 ms	211792 KB	Output is correct
2	Correct	41 ms	211804 KB	Output is correct
3	Correct	41 ms	211688 KB	Output is correct
4	Correct	41 ms	211824 KB	Output is correct
5	Correct	42 ms	211800 KB	Output is correct
6	Correct	44 ms	212316 KB	Output is correct
7	Correct	43 ms	212404 KB	Output is correct
8	Correct	43 ms	212396 KB	Output is correct
9	Correct	42 ms	212312 KB	Output is correct
10	Correct	44 ms	212224 KB	Output is correct
11	Correct	43 ms	212188 KB	Output is correct
12	Correct	43 ms	212048 KB	Output is correct
13	Correct	42 ms	211920 KB	Output is correct
14	Correct	43 ms	212052 KB	Output is correct
15	Correct	43 ms	212316 KB	Output is correct
16	Correct	43 ms	212304 KB	Output is correct
17	Correct	43 ms	212048 KB	Output is correct
18	Correct	43 ms	212304 KB	Output is correct
19	Correct	43 ms	212632 KB	Output is correct
20	Correct	42 ms	212308 KB	Output is correct
21	Correct	41 ms	211968 KB	Output is correct
22	Correct	42 ms	212308 KB	Output is correct
23	Correct	43 ms	212304 KB	Output is correct
24	Correct	42 ms	212308 KB	Output is correct
25	Correct	45 ms	212308 KB	Output is correct
26	Correct	42 ms	212048 KB	Output is correct
27	Correct	41 ms	212060 KB	Output is correct
28	Correct	43 ms	212172 KB	Output is correct
29	Correct	43 ms	212156 KB	Output is correct
30	Correct	42 ms	211796 KB	Output is correct
31	Correct	1039 ms	363196 KB	Output is correct
32	Correct	127 ms	230088 KB	Output is correct
33	Correct	1022 ms	365668 KB	Output is correct
34	Correct	981 ms	363192 KB	Output is correct
35	Correct	1039 ms	364448 KB	Output is correct
36	Correct	1071 ms	365244 KB	Output is correct
37	Correct	772 ms	352796 KB	Output is correct
38	Correct	800 ms	350948 KB	Output is correct
39	Correct	672 ms	323888 KB	Output is correct
40	Correct	685 ms	331704 KB	Output is correct
41	Correct	782 ms	312880 KB	Output is correct
42	Correct	774 ms	315000 KB	Output is correct
43	Correct	96 ms	225088 KB	Output is correct
44	Correct	758 ms	310812 KB	Output is correct
45	Correct	741 ms	301832 KB	Output is correct
46	Correct	618 ms	284540 KB	Output is correct
47	Correct	408 ms	277884 KB	Output is correct
48	Correct	391 ms	274680 KB	Output is correct
49	Correct	483 ms	289660 KB	Output is correct
50	Correct	536 ms	306400 KB	Output is correct
51	Correct	500 ms	283148 KB	Output is correct
52	Correct	628 ms	345176 KB	Output is correct
53	Correct	598 ms	347788 KB	Output is correct
54	Correct	794 ms	348276 KB	Output is correct
55	Correct	644 ms	328380 KB	Output is correct
56	Correct	604 ms	333012 KB	Output is correct
57	Correct	706 ms	317288 KB	Output is correct
58	Correct	695 ms	330464 KB	Output is correct
59	Correct	662 ms	335220 KB	Output is correct
60	Correct	754 ms	319156 KB	Output is correct
61	Correct	136 ms	246584 KB	Output is correct
62	Correct	610 ms	356068 KB	Output is correct
63	Correct	671 ms	343156 KB	Output is correct
64	Correct	679 ms	343156 KB	Output is correct
65	Correct	740 ms	339244 KB	Output is correct
66	Correct	755 ms	320492 KB	Output is correct
67	Correct	213 ms	249532 KB	Output is correct

Subtask #6
0 / 20.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	40 ms	211792 KB	Output is correct
2	Correct	41 ms	211804 KB	Output is correct
3	Correct	41 ms	211688 KB	Output is correct
4	Correct	41 ms	211824 KB	Output is correct
5	Correct	42 ms	211800 KB	Output is correct
6	Correct	44 ms	212316 KB	Output is correct
7	Correct	43 ms	212404 KB	Output is correct
8	Correct	43 ms	212396 KB	Output is correct
9	Correct	42 ms	212312 KB	Output is correct
10	Correct	44 ms	212224 KB	Output is correct
11	Correct	43 ms	212188 KB	Output is correct
12	Correct	43 ms	212048 KB	Output is correct
13	Correct	42 ms	211920 KB	Output is correct
14	Correct	43 ms	212052 KB	Output is correct
15	Correct	43 ms	212316 KB	Output is correct
16	Correct	43 ms	212304 KB	Output is correct
17	Correct	43 ms	212048 KB	Output is correct
18	Correct	43 ms	212304 KB	Output is correct
19	Correct	43 ms	212632 KB	Output is correct
20	Correct	42 ms	212308 KB	Output is correct
21	Correct	41 ms	211968 KB	Output is correct
22	Correct	42 ms	212308 KB	Output is correct
23	Correct	43 ms	212304 KB	Output is correct
24	Correct	42 ms	212308 KB	Output is correct
25	Correct	45 ms	212308 KB	Output is correct
26	Correct	42 ms	212048 KB	Output is correct
27	Correct	41 ms	212060 KB	Output is correct
28	Correct	43 ms	212172 KB	Output is correct
29	Correct	43 ms	212156 KB	Output is correct
30	Correct	42 ms	211796 KB	Output is correct
31	Correct	1039 ms	363196 KB	Output is correct
32	Correct	127 ms	230088 KB	Output is correct
33	Correct	1022 ms	365668 KB	Output is correct
34	Correct	981 ms	363192 KB	Output is correct
35	Correct	1039 ms	364448 KB	Output is correct
36	Correct	1071 ms	365244 KB	Output is correct
37	Correct	772 ms	352796 KB	Output is correct
38	Correct	800 ms	350948 KB	Output is correct
39	Correct	672 ms	323888 KB	Output is correct
40	Correct	685 ms	331704 KB	Output is correct
41	Correct	782 ms	312880 KB	Output is correct
42	Correct	774 ms	315000 KB	Output is correct
43	Correct	96 ms	225088 KB	Output is correct
44	Correct	758 ms	310812 KB	Output is correct
45	Correct	741 ms	301832 KB	Output is correct
46	Correct	618 ms	284540 KB	Output is correct
47	Correct	408 ms	277884 KB	Output is correct
48	Correct	391 ms	274680 KB	Output is correct
49	Correct	483 ms	289660 KB	Output is correct
50	Correct	536 ms	306400 KB	Output is correct
51	Correct	500 ms	283148 KB	Output is correct
52	Correct	1976 ms	866604 KB	Output is correct
53	Correct	1872 ms	888856 KB	Output is correct
54	Correct	1697 ms	899160 KB	Output is correct
55	Correct	1972 ms	837912 KB	Output is correct
56	Correct	1722 ms	862196 KB	Output is correct
57	Correct	1865 ms	843028 KB	Output is correct
58	Correct	1728 ms	885688 KB	Output is correct
59	Correct	1914 ms	863756 KB	Output is correct
60	Correct	2077 ms	843692 KB	Output is correct
61	Correct	2185 ms	848424 KB	Output is correct
62	Correct	1759 ms	856648 KB	Output is correct
63	Correct	2041 ms	848448 KB	Output is correct
64	Execution timed out	5043 ms	946508 KB	Time limit exceeded
65	Halted	0 ms	0 KB	-

Submission #864943

Compilation message

Subtask #1 5.0 / 5.0

Subtask #2 7.0 / 7.0

Subtask #3 10.0 / 10.0

Subtask #4 0 / 23.0

Subtask #5 35.0 / 35.0

Subtask #6 0 / 20.0

Subtask #1
5.0 / 5.0

Subtask #2
7.0 / 7.0

Subtask #3
10.0 / 10.0

Subtask #4
0 / 23.0

Subtask #5
35.0 / 35.0

Subtask #6
0 / 20.0