This submission is migrated from previous version of oj.uz, which used different machine for grading. This submission may have different result if resubmitted.
/**
* I don't feel like fully solving this, so maybe i'll just score some partials.
*
* [S1] Too trivial
* [S2] Each point lies on the main diagonal. Clearly, no two squares should have
* common squares, which means the points are partitioned into contiguous
* segments. O(n^2 * k) dp kills it.
* [S3] Maybe we can somehow sort the points based on their columns, then apply [S2]?
* Yep, pretty much analagous to [S2]. The key here is that if (2,5), (3,5),
* the square that covers (2,5) must cover (3,5).
*
* Time Complexity: O(n^2 * k)
* Implementation 1.2 (only S1 fully solved)
*/
#include <bits/stdc++.h>
#include "aliens.h"
typedef long long ll;
const int N_MAX = 500;
const ll INF = 0x3f3f3f3f3f3f;
inline ll sqr(int k) { return ll(k) * ll(k); }
ll cover[N_MAX + 1][N_MAX + 1];
struct point_t {
int i, j;
};
inline bool operator==(const point_t& p1, const point_t& p2) { return p1.i == p2.i && p1.j == p2.j; }
ll take_photos(int n, int m, int max_sqr, std::vector<int> row, std::vector<int> col) {
if (max_sqr != n)
return -1; // bye
std::vector<point_t> values(n);
for (int k = 0; k < n; k++)
values[k].i = std::min(row[k], col[k]), values[k].j = std::max(row[k], col[k]);
std::sort(values.begin(), values.end(),
[](const point_t& p1, const point_t& p2) {
return p1.j < p2.j || (p1.j == p2.j && p1.i > p2.i);
});
ll area = 0;
for (int k = 0, prev = -1; k < n; k++) {
if (k + 1 < n && values[k + 1].j == values[k].j)
continue;
area += sqr(values[k].j - values[k].i + 1)
- sqr(std::max(prev - values[k].i + 1, 0));
prev = values[k].j;
}
return area;
}
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