Submission #163550

#	Time	Username	Problem	Language	Result	Execution time	Memory
163550		faremy	Pyramid Base (IOI08_pyramid_base)	C++14	46 / 100	5114 ms	102876 KiB

pyramid_base

#include <iostream>
#include <algorithm>
#include <vector>


class Interval
{
	int left, right;

public:
	Interval(int l, int r) : left(l), right(r) {}

	bool IsIncludedIn(const Interval &other) const
	{
		return (other.left <= left && right <= other.right);
	}

	bool IsDisjointFrom(const Interval &other) const
	{
		return (other.right <= left || right <= other.left);
	}

	Interval Left() const
	{
		return Interval(left, (left + right) / 2);
	}

	Interval Right() const
	{
		return Interval((left + right) / 2, right);
	}
};

struct Side
{
	Side(int l, int r, long long v) : covers(l, r), value(v) {}
	Interval covers;
	long long value;
};

const int MAXP = 4e5;
const int MAXN = 1e6 + 1;
const long long INFTY = 1e18;

const int LEAVES = 1 << 20;
const int TSIZE = LEAVES << 1;
const Interval ROOTCOVER = { 0, LEAVES };

int left[MAXP], bottom[MAXP];
int right[MAXP], top[MAXP];
long long cost[MAXP];

long long minCovering[TSIZE];
long long covering[TSIZE];
std::vector<Side> obstacleLimits[MAXN];


void push(int node)
{
	if (node < LEAVES)
	{
		covering[node * 2] += covering[node];
		covering[node * 2 + 1] += covering[node];
	}

	minCovering[node] += covering[node];
	covering[node] = 0;
}

void update(int node, Interval covered, Interval requested, long long value)
{
	push(node);
	if (covered.IsIncludedIn(requested))
	{
		covering[node] = value;
		push(node);
	}
	else if (!covered.IsDisjointFrom(requested))
	{
		update(node * 2, covered.Left(), requested, value);
		update(node * 2 + 1, covered.Right(), requested, value);
		minCovering[node] = std::min(minCovering[node * 2], minCovering[node * 2 + 1]);
	}
}

long long getmin(int node, Interval covered, Interval requested)
{
	push(node);
	if (covered.IsIncludedIn(requested))
		return minCovering[node];
	if (covered.IsDisjointFrom(requested))
		return INFTY;
	return std::min(getmin(node * 2, covered.Left(), requested), getmin(node * 2 + 1, covered.Right(), requested));
}

void buildlimits(int squareSize, int obstacles, int width)
{
	for (int iPos = 0; iPos <= width; iPos++)
		obstacleLimits[iPos].clear();
	std::fill_n(minCovering, TSIZE, 0);
	std::fill_n(covering, TSIZE, 0);

	for (int iObst = 0; iObst < obstacles; iObst++)
	{
		obstacleLimits[std::max(0, left[iObst] - squareSize)].emplace_back(std::max(0, bottom[iObst] - squareSize), top[iObst], cost[iObst]);
		obstacleLimits[right[iObst]].emplace_back(std::max(0, bottom[iObst] - squareSize), top[iObst], -cost[iObst]);
	}
}

bool isvalidsize(int squareSize, int obstacles, int width, int height, long long budget)
{
	buildlimits(squareSize, obstacles, width);
	for (int iPos = 0; iPos < width - squareSize + 1; iPos++)
	{
		for (Side &seg : obstacleLimits[iPos])
			update(1, ROOTCOVER, seg.covers, seg.value);
		if (getmin(1, ROOTCOVER, Interval(0, height - squareSize + 1)) <= budget)
			return true;
	}

	return false;
}

int maxsquare(int smallest, int largest, int obstacles, int width, int height, long long budget)
{
	if (smallest == largest)
		return 0;
	int squareSize = (smallest + largest) / 2;

	if (isvalidsize(squareSize, obstacles, width, height, budget))
		return std::max(squareSize, maxsquare(squareSize + 1, largest, obstacles, width, height, budget));
	return maxsquare(smallest, squareSize, obstacles, width, height, budget);
}

int main()
{
	std::ios::sync_with_stdio(false);
	std::cout.tie(nullptr);
	std::cin.tie(nullptr);

	int width, height;
	std::cin >> width >> height;

	long long budget; std::cin >> budget;
	int obstacles; std::cin >> obstacles;

	for (int iObst = 0; iObst < obstacles; iObst++)
		std::cin >> left[iObst] >> bottom[iObst] >> right[iObst] >> top[iObst] >> cost[iObst];
	std::cout << maxsquare(1, std::min(width, height) + 1, obstacles, width, height, budget) << '\n';

	return 0;
}

• Subtask 1: 5 / 5
• Subtask 2: 5 / 5
• Subtask 3: 5 / 5
• Subtask 4: 5 / 5
• Subtask 5: 5 / 5
• Subtask 6: 0 / 5
• Subtask 7: 0 / 5
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• Subtask 9: 7 / 7
• Subtask 10: 7 / 7
• Subtask 11: 0 / 7
• Subtask 12: 0 / 7
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• Subtask 14: 0 / 10
• Subtask 15: 0 / 10