답안 #727892

#	제출 시각	아이디	문제	언어	결과	실행 시간	메모리
727892	2023-04-21T14:17:48 Z	SanguineChameleon	육각형 영역 (APIO21_hexagon)	C++17	66 / 100	2000 ms	97448 KB

hexagon

#include "hexagon.h"
#include <bits/stdc++.h>
using namespace std;

#ifdef KAMIRULEZ
	const bool local = true;
	const int subtask = 6;
#else
	const bool local = false;
	const int subtask = -1;
#endif

const long long mod = 1e9 + 7;
const long long one_half = (mod + 1) / 2;
const long long one_third = (mod + 1) / 3;
const int dx[7] = {0, 0, 1, 1, 0, -1, -1};
const int dy[7] = {0, 1, 1, 0, -1, -1, 0};

struct point {
	long long x, y;

	point() {};

	point(long long _x, long long _y): x(_x), y(_y) {};

	point operator*(long long d) {
		return point(x * d, y * d);
	}

	point operator+(point p2) {
		return point(x + p2.x, y + p2.y);
	}

	long long operator^(point p2) {
		return x * p2.y - y * p2.x;
	}
};

point dv[7] = {point(0, 0), point(0, 1), point(1, 1), point(1, 0), point(0, -1), point(-1, -1), point(-1, 0)};

ostream& operator<<(ostream &out, point p) {
	out << "(" << p.x << "," << p.y << ")";
	return out;
}

struct line {
	int type, dir, len;
	point p1, p2;
	int id;

	line() {};

	line(int _type, int _dir, point _p1, point _p2, int _id): type(_type), dir(_dir), p1(_p1), p2(_p2), id(_id) {
		len = p2.x - p1.x + 1;
	};

	long long calc() {
		long long Ly = p1.y;
		long long Ry = p1.y + (dir == 1 ? 0 : len - 1);
		if (type == 1) {
			Ly = 1 - Ly;
			Ry = 1 - Ry;
		}
		return (Ly + Ry) % mod * len % mod * one_half % mod;
	}

	long long eval_x(long long x) {
		if (dir == 1) {
			return p1.y;
		}
		else {
			return p1.y + (x - p1.x);
		}
	}

	void shorten(long long left_x, long long right_x) {
		long long v1 = eval_x(left_x);
		long long v2 = eval_x(right_x);
		p1 = point(left_x, v1);
		p2 = point(right_x, v2);
	}
};

ostream& operator<<(ostream &out, line L) {
	if (L.type == 1) {
		out << "(bottom,";
	}
	else {
		out << "(top,";
	}
	out << L.p1 << "," << L.p2 << ")";
	return out;
}

bool operator<(line L1, line L2) {
	int max_x = max(L1.p1.x, L2.p1.x);
	int v1 = L1.eval_x(max_x);
	int v2 = L2.eval_x(max_x);
	if (v1 != v2) {
		return v1 < v2;
	}
	else {
		return L1.type < L2.type;
	}
};

struct column {
	long long x, left_y, right_y, min_dist, left_min, right_min;

	column() {};

	column(long long _x, long long _left_y, long long _right_y): x(_x), left_y(_left_y), right_y(_right_y) {};

	column(long long _x, long long _left_y, long long _right_y, long long _min_dist, long long _left_min, long long _right_min): x(_x), left_y(_left_y), right_y(_right_y), min_dist(_min_dist), left_min(_left_min), right_min(_right_min) {};

	long long calc(long long A, long long B) {
		long long left_len = (left_min - left_y) % mod;
		long long mid_len = (right_min - left_min + 1) % mod;
		long long right_len = (right_y - right_min) % mod;
		long long A_sum = (right_y - left_y + 1) % mod;
		long long B_sum = (min_dist * mid_len % mod + (min_dist + 1 + min_dist + left_len) * left_len % mod * one_half % mod + (min_dist + 1 + min_dist + right_len) * right_len % mod * one_half % mod) % mod;
		return (A_sum * A + B_sum * B) % mod;
	}
};

ostream& operator<<(ostream &out, column Col) {
	out << "(" << Col.x << ",(" << Col.left_y << "," << Col.right_y << "),min=" << Col.min_dist << ",(" << Col.left_min << "," << Col.right_min << "))";
	return out;
}

struct comp {
	line bottom, top;
	int left_x, right_x, len;
	column left_col, right_col;
	long long sum;

	comp() {};

	comp(line _bottom, line _top, int _left_x, int _right_x): bottom(_bottom), top(_top), left_x(_left_x), right_x(_right_x) {
		bottom.shorten(left_x, right_x);
		top.shorten(left_x, right_x);
		len = right_x - left_x + 1;
	}

	long long calc() {
		long long Ly = top.p1.y - bottom.p1.y + 1;
		long long Ry = top.p2.y - bottom.p2.y + 1;
		return (Ly + Ry) % mod * len % mod * one_half % mod;
	}
};

ostream& operator<<(ostream &out, comp C) {
	out << "(" << C.bottom << "," << C.top << ",(" << C.left_x << "," << C.right_x << "))";
	return out;
}

column move_right_one(column Col1, column Col2) {
	if (Col2.left_y > Col1.right_min + 1) {
		Col2.min_dist = Col2.left_y - (Col1.right_min + 1) + (Col1.min_dist + 1);
		Col2.left_min = Col2.left_y;
		Col2.right_min = Col2.left_y;
		return Col2;
	}
	if (Col2.right_y < Col1.left_min) {
		Col2.min_dist = Col1.left_min - Col2.right_y + (Col1.min_dist + 1);
		Col2.left_min = Col2.right_y;
		Col2.right_min = Col2.right_y;
		return Col2;
	}
	Col2.min_dist = Col1.min_dist + 1;
	Col2.left_min = max(Col2.left_y, Col1.left_min);
	Col2.right_min = min(Col2.right_y, Col1.right_min + 1);
	return Col2;
}

column move_left_one(column Col1, column Col2) {
	if (Col2.left_y > Col1.right_min) {
		Col2.min_dist = Col2.left_y - Col1.right_min + (Col1.min_dist + 1);
		Col2.left_min = Col2.left_y;
		Col2.right_min = Col2.left_y;
		return Col2;
	}
	if (Col2.right_y < Col1.left_min - 1) {
		Col2.min_dist = (Col1.left_min - 1) - Col2.right_y + (Col1.min_dist + 1);
		Col2.left_min = Col2.right_y;
		Col2.right_min = Col2.right_y;
		return Col2;
	}
	Col2.min_dist = Col1.min_dist + 1;
	Col2.left_min = max(Col2.left_y, Col1.left_min - 1);
	Col2.right_min = min(Col2.right_y, Col1.right_min);
	return Col2;
}

pair<long long, column> move_right(column Col, line bottom, line top, long long left_x, long long right_x, long long A, long long B) {
	column cur = Col;
	long long res = cur.calc(A, B);
	for (int x = left_x + 1; x <= right_x; x++) {
		column nxt = move_right_one(cur, column(x, bottom.eval_x(x), top.eval_x(x)));
		res += nxt.calc(A, B);
		res %= mod;
		cur = nxt;
	}
	return make_pair(res, cur);
}

pair<long long, column> move_left(column Col, line bottom, line top, long long right_x, long long left_x, long long A, long long B) {
	column cur = Col;
	long long res = cur.calc(A, B);
	for (int x = right_x - 1; x >= left_x; x--) {
		column nxt = move_left_one(cur, column(x, bottom.eval_x(x), top.eval_x(x)));
		res += nxt.calc(A, B);
		res %= mod;
		cur = nxt;
	}
	return make_pair(res, cur);
}

vector<comp> comps;
vector<vector<int>> adj;

void dfs(int u, int par, long long A, long long B) {
	for (auto v: adj[u]) {
		if (v == par) {
			continue;
		}
		if (comps[u].right_x + 1 == comps[v].left_x) {
			comps[v].left_col = move_right_one(comps[u].right_col, column(comps[v].left_x, comps[v].bottom.p1.y, comps[v].top.p1.y));
			auto p_right = move_right(comps[v].left_col, comps[v].bottom, comps[v].top, comps[v].left_x, comps[v].right_x, A, B);
			comps[v].sum = p_right.first;
			comps[v].right_col = p_right.second;
		}
		else {
			comps[v].right_col = move_left_one(comps[u].left_col, column(comps[v].right_x, comps[v].bottom.p2.y, comps[v].top.p2.y));
			auto p_left = move_left(comps[v].right_col, comps[v].bottom, comps[v].top, comps[v].right_x, comps[v].left_x, A, B);
			comps[v].sum = p_left.first;
			comps[v].left_col = p_left.second;
		}
		dfs(v, u, A, B);
	}
}

int draw_territory(int N, int A, int B, vector<int> D, vector<int> L) {
	if (N == 3 && (!local || subtask == 1 || subtask == 2)) {
		int len = L[0] + 1;
		long long A_sum = 1LL * len * (len + 1) % mod * one_half % mod;
		long long B_sum = 1LL * len * (len - 1) % mod * one_half % mod + (len - 1) * len % mod * (len * 2 - 1) % mod * one_half % mod * one_third % mod;
		return (A_sum * A + B_sum * B) % mod;
	}
	long long L_sum = 0;
	for (int i = 0; i < N; i++) {
		L_sum += L[i];
	}
	if (L_sum <= 2000 && (!local || subtask == 3)) {
		vector<vector<bool>> border(4069, vector<bool>(4069, false));
		vector<vector<int>> dist(4069, vector<int>(4069, -1));
		int cx = 0;
		int cy = 0;
		for (int i = 0; i < N; i++) {
			for (int j = 0; j < L[i]; j++) {
				cx += dx[D[i]];
				cy += dy[D[i]];
				border[cx + 2023][cy + 2023] = true;
			}
		}
		deque<pair<int, int>> q = {{0, 0}};
		dist[0][0] = -2;
		while (!q.empty()) {
			cx = q.front().first;
			cy = q.front().second;
			q.pop_front();
			for (int d = 1; d <= 6; d++) {
				int nx = cx + dx[d];
				int ny = cy + dy[d];
				if (0 <= nx && nx < 4069 && 0 <= ny && ny < 4069 && !border[nx][ny] && dist[nx][ny] == -1) {
					dist[nx][ny] = -2;
					q.push_back({nx, ny});
				}
			}
		}
		q.push_back({2023, 2023});
		dist[2023][2023] = 0;
		long long res = 0;
		while (!q.empty()) {
			cx = q.front().first;
			cy = q.front().second;
			res += 1LL * B * dist[cx][cy] + A;
			res %= mod;
			q.pop_front();
			for (int d = 1; d <= 6; d++) {
				int nx = cx + dx[d];
				int ny = cy + dy[d];
				if (0 <= nx && nx < 4069 && 0 <= ny && ny < 4069 && dist[nx][ny] == -1) {
					dist[nx][ny] = dist[cx][cy] + 1;
					q.push_back({nx, ny});
				}
			}
		}
		return res;
	}
	long long area = 0;
	point cur = point(0, 0);
	vector<point> poly(N);
	for (int i = 0; i < N; i++) {
		poly[i] = cur;
		cur = cur + (dv[D[i]] * L[i]);
	}
	for (int i = 0; i < N; i++) {
		area += poly[i] ^ poly[(i + 1) % N];
	}
	if (area < 0) {
		reverse(D.begin(), D.end());
		for (int i = 0; i < N; i++) {
			if (D[i] <= 3) {
				D[i] += 3;
			}
			else {
				D[i] -= 3;
			}
		}
		reverse(L.begin(), L.end());
		cur = point(0, 0);
		for (int i = 0; i < N; i++) {
			poly[i] = cur;
			cur = cur + (dv[D[i]] * L[i]);
		}
	}
	vector<line> lines;
	vector<int> prv_x;
	for (int i = 0; i < N; i++) {
		point prv = poly[(i + (N - 1)) % N];
		point cur = poly[i];
		point nxt1 = poly[(i + 1) % N];
		point nxt2 = poly[(i + 2) % N];
		if (cur.x < nxt1.x) {
			point p1 = cur;
			point p2 = nxt1;
			int dir = (cur.y == nxt1.y ? 1 : 2);
			if (prv.x < cur.x) {
				if (dir == 1) {
					p1 = p1 + point(1, 0);
				}
				else {
					p1 = p1 + point(1, 1);
				}
			}
			if (prv.x == cur.x && prv.y < cur.y) {
				if (dir == 1) {
					p1 = p1 + point(1, 0);
				}
				else {
					p1 = p1 + point(1, 1);
				}
			}
			if (nxt1.x == nxt2.x && nxt1.y > nxt2.y) {
				if (dir == 1) {
					p2 = p2 + point(-1, 0);
				}
				else {
					p2 = p2 + point(-1, -1);
				}
			}
			if (p1.x <= p2.x) {
				lines.emplace_back(1, dir, p1, p2, lines.size());
				prv_x.push_back(p1.x);
			}
		}
		if (cur.x > nxt1.x) {
			point p1 = nxt1;
			point p2 = cur;
			int dir = (cur.y == nxt1.y ? 1 : 2);
			if (prv.x > cur.x) {
				if (dir == 1) {
					p2 = p2 + point(-1, 0);
				}
				else {
					p2 = p2 + point(-1, -1);
				}
			}
			if (prv.x == cur.x && prv.y > cur.y) {
				if (dir == 1) {
					p2 = p2 + point(-1, 0);
				}
				else {
					p2 = p2 + point(-1, -1);
				}
			}
			if (nxt1.x == nxt2.x && nxt1.y < nxt2.y) {
				if (dir == 1) {
					p1 = p1 + point(1, 0);
				}
				else {
					p1 = p1 + point(1, 1);
				}
			}
			if (p1.x <= p2.x) {
				lines.emplace_back(2, dir, p1, p2, lines.size());
				prv_x.push_back(p1.x);
			}
		}
	}
	vector<pair<int, pair<int, int>>> events;
	for (int i = 0; i < (int)lines.size(); i++) {
		events.push_back(make_pair(lines[i].p1.x - 1, make_pair(2, i)));
		events.push_back(make_pair(lines[i].p1.x, make_pair(0, i)));
		events.push_back(make_pair(lines[i].p2.x, make_pair(1, i)));
	}
	sort(events.begin(), events.end());
	set<line, less<>> S;
	for (auto e: events) {
		int cur_x = e.first;
		int type = e.second.first;
		line L = lines[e.second.second];
		auto it = (type == 0 ? S.insert(L).first : S.lower_bound(L));
		if (type == 1) {
			if (it->type == 1 && next(it) != S.end()) {
				auto bottom = it;
				auto top = next(it);
				if (prv_x[bottom->id] <= cur_x && prv_x[top->id] <= cur_x) {
					comps.emplace_back(*bottom, *top, prv_x[bottom->id], cur_x);
					prv_x[bottom->id] = cur_x + 1;
					prv_x[top->id] = cur_x + 1;
				}
			}
			if (it->type == 2 && it != S.begin()) {
				auto bottom = prev(it);
				auto top = it;
				if (prv_x[bottom->id] <= cur_x && prv_x[top->id] <= cur_x) {
					comps.emplace_back(*bottom, *top, prv_x[bottom->id], cur_x);
					prv_x[bottom->id] = cur_x + 1;
					prv_x[top->id] = cur_x + 1;
				}
			}
			S.erase(it);
		}
		if (type == 2) {
			if (it != S.end() && it != S.begin()) {
				auto bottom = prev(it);
				auto top = it;
				if (bottom->type == 1 && top->type == 2) {
					if (prv_x[bottom->id] <= cur_x && prv_x[top->id] <= cur_x) {
						comps.emplace_back(*bottom, *top, prv_x[bottom->id], cur_x);
						prv_x[bottom->id] = cur_x + 1;
						prv_x[top->id] = cur_x + 1;
					}
				}
			}
		}
	}
	adj.resize(comps.size());
	events.clear();
	for (int i = 0; i < (int)comps.size(); i++) {
		events.push_back(make_pair(comps[i].right_x + 1, make_pair(comps[i].bottom.p2.y, i)));
		events.push_back(make_pair(comps[i].left_x, make_pair(comps[i].bottom.p1.y, -i - 1)));
	}
	sort(events.begin(), events.end());
	int lid = -1;
	int rid = -1;
	for (auto e: events) {
		if (e.second.second >= 0) {
			lid = e.second.second;
		}
		else {
			rid = -e.second.second - 1;
		}
		if (lid >= 0 && rid >= 0 && comps[lid].right_x + 1 == comps[rid].left_x && max(comps[lid].bottom.p2.y, comps[rid].bottom.p1.y) <= min(comps[lid].top.p2.y + 1, comps[rid].top.p1.y)) {
			adj[lid].push_back(rid);
			adj[rid].push_back(lid);
		}
	}
	if (B == 0 && (!local || subtask == 4 || subtask == 5)) {
		long long res = 0;
		for (auto C: comps) {
			res += C.calc();
			res %= mod;
		}
		if (res < 0) {
			res += mod;
		}
		res = res * A % mod;
		return res;
	}
	int root = -1;
	for (int i = 0; i < (int)comps.size(); i++) {
		auto C = comps[i];
		if (C.left_x <= 0 && 0 <= C.right_x) {
			int left_y = C.bottom.eval_x(0);
			int right_y = C.top.eval_x(0);
			if (left_y <= 0 && 0 <= right_y) {
				column mid_col(0, left_y, right_y, 0, 0, 0);
				auto p_left = move_left(mid_col, C.bottom, C.top, 0, C.left_x, A, B);
				auto p_right = move_right(mid_col, C.bottom, C.top, 0, C.right_x, A, B);
				comps[i].left_col = p_left.second;
				comps[i].right_col = p_right.second;
				comps[i].sum = (p_left.first + p_right.first + mod - mid_col.calc(A, B)) % mod;
				root = i;
				break;
			}
		}
	}
	dfs(root, -1, A, B);
	long long res = 0;
	for (auto C: comps) {
		res += C.sum;
		res %= mod;
	}
	return res;
}

Subtask #1

3.0 / 3.0

#	결과	실행 시간	메모리	Grader output
1	Correct	1 ms	212 KB	Output is correct
2	Correct	0 ms	212 KB	Output is correct
3	Correct	0 ms	212 KB	Output is correct
4	Correct	1 ms	212 KB	Output is correct
5	Correct	0 ms	212 KB	Output is correct

Subtask #2

6.0 / 6.0

#	결과	실행 시간	메모리	Grader output
1	Correct	0 ms	212 KB	Output is correct
2	Correct	0 ms	212 KB	Output is correct
3	Correct	0 ms	212 KB	Output is correct
4	Correct	0 ms	212 KB	Output is correct
5	Correct	0 ms	212 KB	Output is correct
6	Correct	1 ms	212 KB	Output is correct
7	Correct	0 ms	212 KB	Output is correct
8	Correct	1 ms	212 KB	Output is correct
9	Correct	0 ms	212 KB	Output is correct
10	Correct	0 ms	212 KB	Output is correct
11	Correct	0 ms	212 KB	Output is correct
12	Correct	1 ms	212 KB	Output is correct

Subtask #3

11.0 / 11.0

#	결과	실행 시간	메모리	Grader output
1	Correct	606 ms	67528 KB	Output is correct
2	Correct	597 ms	67728 KB	Output is correct
3	Correct	612 ms	67568 KB	Output is correct
4	Correct	621 ms	67664 KB	Output is correct
5	Correct	622 ms	67740 KB	Output is correct
6	Correct	618 ms	67552 KB	Output is correct
7	Correct	620 ms	67556 KB	Output is correct
8	Correct	610 ms	67560 KB	Output is correct
9	Correct	630 ms	67532 KB	Output is correct
10	Correct	626 ms	67560 KB	Output is correct
11	Correct	611 ms	67680 KB	Output is correct
12	Correct	608 ms	67648 KB	Output is correct
13	Correct	614 ms	67796 KB	Output is correct
14	Correct	615 ms	67564 KB	Output is correct
15	Correct	628 ms	67568 KB	Output is correct
16	Correct	615 ms	67560 KB	Output is correct
17	Correct	614 ms	67528 KB	Output is correct
18	Correct	0 ms	212 KB	Output is correct
19	Correct	0 ms	212 KB	Output is correct
20	Correct	1 ms	212 KB	Output is correct

Subtask #4

12.0 / 12.0

#	결과	실행 시간	메모리	Grader output
1	Correct	0 ms	212 KB	Output is correct
2	Correct	7 ms	3184 KB	Output is correct
3	Correct	2 ms	1032 KB	Output is correct
4	Correct	1 ms	596 KB	Output is correct
5	Correct	5 ms	1804 KB	Output is correct
6	Correct	9 ms	3204 KB	Output is correct
7	Correct	29 ms	8088 KB	Output is correct
8	Correct	2 ms	804 KB	Output is correct
9	Correct	2 ms	724 KB	Output is correct
10	Correct	1 ms	468 KB	Output is correct
11	Correct	49 ms	24320 KB	Output is correct
12	Correct	30 ms	13168 KB	Output is correct
13	Correct	25 ms	12924 KB	Output is correct
14	Correct	51 ms	15600 KB	Output is correct
15	Correct	1 ms	596 KB	Output is correct
16	Correct	1 ms	468 KB	Output is correct
17	Correct	1 ms	212 KB	Output is correct
18	Correct	1 ms	212 KB	Output is correct
19	Correct	1 ms	212 KB	Output is correct

Subtask #5

15.0 / 15.0

#	결과	실행 시간	메모리	Grader output
1	Correct	0 ms	212 KB	Output is correct
2	Correct	1 ms	212 KB	Output is correct
3	Correct	1 ms	212 KB	Output is correct
4	Correct	9 ms	3264 KB	Output is correct
5	Correct	2 ms	1032 KB	Output is correct
6	Correct	1 ms	596 KB	Output is correct
7	Correct	5 ms	1804 KB	Output is correct
8	Correct	8 ms	3176 KB	Output is correct
9	Correct	25 ms	8072 KB	Output is correct
10	Correct	3 ms	804 KB	Output is correct
11	Correct	1 ms	724 KB	Output is correct
12	Correct	1 ms	468 KB	Output is correct
13	Correct	49 ms	24296 KB	Output is correct
14	Correct	27 ms	13180 KB	Output is correct
15	Correct	24 ms	12868 KB	Output is correct
16	Correct	49 ms	15604 KB	Output is correct
17	Correct	1 ms	596 KB	Output is correct
18	Correct	1 ms	468 KB	Output is correct
19	Correct	1 ms	212 KB	Output is correct
20	Correct	71 ms	25488 KB	Output is correct
21	Correct	8 ms	3204 KB	Output is correct
22	Correct	5 ms	1772 KB	Output is correct
23	Correct	96 ms	30084 KB	Output is correct
24	Correct	152 ms	52900 KB	Output is correct
25	Correct	163 ms	53396 KB	Output is correct
26	Correct	87 ms	26656 KB	Output is correct
27	Correct	69 ms	23600 KB	Output is correct
28	Correct	48 ms	13244 KB	Output is correct
29	Correct	204 ms	97404 KB	Output is correct
30	Correct	107 ms	51956 KB	Output is correct
31	Correct	110 ms	52020 KB	Output is correct
32	Correct	217 ms	90608 KB	Output is correct
33	Correct	77 ms	25740 KB	Output is correct
34	Correct	27 ms	9236 KB	Output is correct
35	Correct	0 ms	212 KB	Output is correct
36	Correct	0 ms	212 KB	Output is correct
37	Correct	0 ms	212 KB	Output is correct

Subtask #6

19.0 / 19.0

#	결과	실행 시간	메모리	Grader output
1	Correct	618 ms	67536 KB	Output is correct
2	Correct	624 ms	67572 KB	Output is correct
3	Correct	624 ms	67516 KB	Output is correct
4	Correct	621 ms	67512 KB	Output is correct
5	Correct	620 ms	67532 KB	Output is correct
6	Correct	622 ms	67644 KB	Output is correct
7	Correct	657 ms	67772 KB	Output is correct
8	Correct	647 ms	67572 KB	Output is correct
9	Correct	671 ms	67552 KB	Output is correct
10	Correct	629 ms	67620 KB	Output is correct
11	Correct	635 ms	67556 KB	Output is correct
12	Correct	616 ms	67676 KB	Output is correct
13	Correct	613 ms	67644 KB	Output is correct
14	Correct	608 ms	67664 KB	Output is correct
15	Correct	662 ms	67524 KB	Output is correct
16	Correct	616 ms	67656 KB	Output is correct
17	Correct	623 ms	67548 KB	Output is correct
18	Correct	1 ms	212 KB	Output is correct
19	Correct	8 ms	3156 KB	Output is correct
20	Correct	2 ms	1032 KB	Output is correct
21	Correct	2 ms	596 KB	Output is correct
22	Correct	4 ms	1804 KB	Output is correct
23	Correct	9 ms	3204 KB	Output is correct
24	Correct	25 ms	8076 KB	Output is correct
25	Correct	2 ms	804 KB	Output is correct
26	Correct	1 ms	724 KB	Output is correct
27	Correct	1 ms	468 KB	Output is correct
28	Correct	53 ms	24296 KB	Output is correct
29	Correct	30 ms	13180 KB	Output is correct
30	Correct	25 ms	12880 KB	Output is correct
31	Correct	52 ms	15596 KB	Output is correct
32	Correct	1 ms	596 KB	Output is correct
33	Correct	1 ms	468 KB	Output is correct
34	Correct	2 ms	212 KB	Output is correct
35	Correct	10 ms	3204 KB	Output is correct
36	Correct	3 ms	804 KB	Output is correct
37	Correct	4 ms	596 KB	Output is correct
38	Correct	11 ms	3204 KB	Output is correct
39	Correct	11 ms	3488 KB	Output is correct
40	Correct	35 ms	11964 KB	Output is correct
41	Correct	6 ms	932 KB	Output is correct
42	Correct	5 ms	776 KB	Output is correct
43	Correct	5 ms	620 KB	Output is correct
44	Correct	61 ms	31072 KB	Output is correct
45	Correct	40 ms	16940 KB	Output is correct
46	Correct	37 ms	16392 KB	Output is correct
47	Correct	33 ms	13408 KB	Output is correct
48	Correct	6 ms	780 KB	Output is correct
49	Correct	7 ms	596 KB	Output is correct
50	Correct	1 ms	212 KB	Output is correct
51	Correct	0 ms	212 KB	Output is correct
52	Correct	0 ms	212 KB	Output is correct
53	Correct	1 ms	212 KB	Output is correct
54	Correct	0 ms	212 KB	Output is correct
55	Correct	1 ms	212 KB	Output is correct
56	Correct	0 ms	212 KB	Output is correct
57	Correct	0 ms	212 KB	Output is correct

Subtask #7

0 / 18.0

#	결과	실행 시간	메모리	Grader output
1	Correct	0 ms	212 KB	Output is correct
2	Correct	0 ms	212 KB	Output is correct
3	Correct	0 ms	212 KB	Output is correct
4	Correct	0 ms	212 KB	Output is correct
5	Execution timed out	2059 ms	212 KB	Time limit exceeded
6	Halted	0 ms	0 KB	-

Subtask #8

0 / 16.0

#	결과	실행 시간	메모리	Grader output
1	Correct	626 ms	67652 KB	Output is correct
2	Correct	0 ms	212 KB	Output is correct
3	Correct	0 ms	212 KB	Output is correct
4	Correct	0 ms	212 KB	Output is correct
5	Correct	1 ms	212 KB	Output is correct
6	Correct	666 ms	67560 KB	Output is correct
7	Correct	621 ms	67800 KB	Output is correct
8	Correct	620 ms	67788 KB	Output is correct
9	Correct	648 ms	67644 KB	Output is correct
10	Correct	636 ms	67656 KB	Output is correct
11	Correct	621 ms	67564 KB	Output is correct
12	Correct	653 ms	67644 KB	Output is correct
13	Correct	637 ms	67540 KB	Output is correct
14	Correct	618 ms	67540 KB	Output is correct
15	Correct	628 ms	67660 KB	Output is correct
16	Correct	626 ms	67668 KB	Output is correct
17	Correct	641 ms	67604 KB	Output is correct
18	Correct	619 ms	67660 KB	Output is correct
19	Correct	626 ms	67680 KB	Output is correct
20	Correct	639 ms	67604 KB	Output is correct
21	Correct	648 ms	67660 KB	Output is correct
22	Correct	0 ms	212 KB	Output is correct
23	Correct	7 ms	3176 KB	Output is correct
24	Correct	2 ms	1032 KB	Output is correct
25	Correct	1 ms	596 KB	Output is correct
26	Correct	4 ms	1804 KB	Output is correct
27	Correct	9 ms	3204 KB	Output is correct
28	Correct	27 ms	8072 KB	Output is correct
29	Correct	1 ms	804 KB	Output is correct
30	Correct	1 ms	724 KB	Output is correct
31	Correct	1 ms	468 KB	Output is correct
32	Correct	46 ms	24352 KB	Output is correct
33	Correct	30 ms	13180 KB	Output is correct
34	Correct	26 ms	12864 KB	Output is correct
35	Correct	46 ms	15628 KB	Output is correct
36	Correct	1 ms	596 KB	Output is correct
37	Correct	1 ms	468 KB	Output is correct
38	Correct	0 ms	212 KB	Output is correct
39	Correct	68 ms	25568 KB	Output is correct
40	Correct	8 ms	3148 KB	Output is correct
41	Correct	4 ms	1772 KB	Output is correct
42	Correct	98 ms	30240 KB	Output is correct
43	Correct	157 ms	52808 KB	Output is correct
44	Correct	159 ms	53392 KB	Output is correct
45	Correct	88 ms	26644 KB	Output is correct
46	Correct	79 ms	23616 KB	Output is correct
47	Correct	47 ms	13252 KB	Output is correct
48	Correct	204 ms	97448 KB	Output is correct
49	Correct	105 ms	52036 KB	Output is correct
50	Correct	105 ms	52004 KB	Output is correct
51	Correct	231 ms	90824 KB	Output is correct
52	Correct	73 ms	25676 KB	Output is correct
53	Correct	24 ms	9300 KB	Output is correct
54	Correct	2 ms	212 KB	Output is correct
55	Correct	9 ms	3204 KB	Output is correct
56	Correct	3 ms	804 KB	Output is correct
57	Correct	4 ms	596 KB	Output is correct
58	Correct	10 ms	3204 KB	Output is correct
59	Correct	11 ms	3428 KB	Output is correct
60	Correct	36 ms	11912 KB	Output is correct
61	Correct	5 ms	932 KB	Output is correct
62	Correct	5 ms	776 KB	Output is correct
63	Correct	5 ms	596 KB	Output is correct
64	Correct	62 ms	31028 KB	Output is correct
65	Correct	36 ms	16948 KB	Output is correct
66	Correct	36 ms	16412 KB	Output is correct
67	Correct	32 ms	13372 KB	Output is correct
68	Correct	7 ms	840 KB	Output is correct
69	Correct	7 ms	640 KB	Output is correct
70	Execution timed out	2081 ms	212 KB	Time limit exceeded
71	Halted	0 ms	0 KB	-