#include <bits/stdc++.h>
using namespace std;
using lint = long long;
int main() {
ios::sync_with_stdio(0);
cin.tie(0);
int N, K;
cin >> N >> K;
vector<lint> X(N), Y(N);
for (int i = 0; i < N; i++) {
cin >> X[i] >> Y[i];
}
// There is a vertical or horizontal line which divides K = 3 -> {1, 2}.
// Binary search the answer L. If cuts are shaped like (|-), then we
// can greedily take big left part. If cuts are shaped like (| |), we
// brute force middle (as we can greedily take middle), precompute left part
// and right part.
//
// This takes O(N log MAX).
vector<int> sortByX(N);
vector<int> sortByY(N);
iota(begin(sortByX), end(sortByX), 0);
iota(begin(sortByY), end(sortByY), 0);
sort(begin(sortByX), end(sortByX), [&](int i, int j) {
return pair(X[i], Y[i]) < pair(X[j], Y[j]);
});
sort(begin(sortByY), end(sortByY), [&](int i, int j) {
return pair(Y[i], X[i]) < pair(Y[j], X[j]);
});
vector<int> posInSortByX(N);
vector<int> posInSortByY(N);
for (int i = 0; i < N; i++) {
posInSortByX[sortByX[i]] = i;
posInSortByY[sortByY[i]] = i;
}
const auto CountingSort = [&](vector<int> &a, const vector<int> &sorted, const vector<int> &pos) {
static vector<int> res(N);
fill(begin(res), end(res), 0);
for (auto i : a) {
res[pos[i]] = 1;
}
a.clear();
for (int i = 0; i < N; i++) {
if (res[i]) {
a.emplace_back(sorted[i]);
}
}
};
vector<array<lint, 3>> ans;
const auto SolveK1 = [&](lint L, const vector<int> &alive, int config, int trace) {
if (alive.empty()) return true;
lint minX = +2e9;
lint maxX = -2e9;
lint minY = +2e9;
lint maxY = -2e9;
for (auto i : alive) {
minX = min(minX, X[i]);
maxX = max(maxX, X[i]);
minY = min(minY, Y[i]);
maxY = max(maxY, Y[i]);
}
if (maxX - minX <= L && maxY - minY <= L) {
lint len = max({1ll, maxX - minX, maxY - minY});
if (trace == 1 && config == 0) ans.push_back({minX, minY, len});
if (trace == 1 && config == 1) ans.push_back({maxX - len, minY, len});
if (trace == 1 && config == 2) ans.push_back({maxX - len, maxY - len, len});
if (trace == 1 && config == 3) ans.push_back({minX, maxY - len, len});
return true;
}
return false;
};
const auto SolveK2 = [&](int L, vector<int> alive, int vert, int trace) {
if (alive.empty()) return true;
if (!vert) {
CountingSort(alive, sortByY, posInSortByY);
} else {
CountingSort(alive, sortByX, posInSortByX);
}
static vector<lint> prefMinX(N);
static vector<lint> prefMaxX(N);
static vector<lint> prefMinY(N);
static vector<lint> prefMaxY(N);
static vector<lint> suffMinX(N);
static vector<lint> suffMaxX(N);
static vector<lint> suffMinY(N);
static vector<lint> suffMaxY(N);
for (int i = 0; i < int(alive.size()); i++) {
int id = alive[i];
prefMinX[i] = prefMaxX[i] = X[id];
prefMinY[i] = prefMaxY[i] = Y[id];
suffMinX[i] = suffMaxX[i] = X[id];
suffMinY[i] = suffMaxY[i] = Y[id];
}
for (int i = 1; i < int(alive.size()); i++) {
prefMinX[i] = min(prefMinX[i], prefMinX[i - 1]);
prefMaxX[i] = max(prefMaxX[i], prefMaxX[i - 1]);
prefMinY[i] = min(prefMinY[i], prefMinY[i - 1]);
prefMaxY[i] = max(prefMaxY[i], prefMaxY[i - 1]);
}
for (int i = int(alive.size()) - 2; i >= 0; i--) {
suffMinX[i] = min(suffMinX[i], suffMinX[i + 1]);
suffMaxX[i] = max(suffMaxX[i], suffMaxX[i + 1]);
suffMinY[i] = min(suffMinY[i], suffMinY[i + 1]);
suffMaxY[i] = max(suffMaxY[i], suffMaxY[i + 1]);
}
const auto CalcPref = [&](int i) -> lint {
if (i < 0 || i >= alive.size()) return 0;
return max(prefMaxX[i] - prefMinX[i], prefMaxY[i] - prefMinY[i]);
};
const auto CalcSuff = [&](int i) -> lint {
if (i < 0 || i >= alive.size()) return 0;
return max(suffMaxX[i] - suffMinX[i], suffMaxY[i] - suffMinY[i]);
};
vector<int> pref;
vector<int> suff = alive;
reverse(begin(suff), end(suff));
for (int i = 0; i < int(alive.size()); i++) {
pref.emplace_back(alive[i]);
suff.pop_back();
if (!(i + 1 == alive.size() ||
(vert == 0 && Y[alive[i + 1]] != Y[alive[i]]) ||
(vert == 1 && X[alive[i + 1]] != X[alive[i]]))) {
continue;
}
if (CalcPref(i) <= L && CalcSuff(i + 1) <= L) {
assert(SolveK1(L, pref, 2, trace));
assert(SolveK1(L, suff, 0, trace));
return true;
}
}
return false;
};
const auto SolveK3 = [&](lint L, vector<int> alive, int vert, int trace) {
if (!vert) {
CountingSort(alive, sortByY, posInSortByY);
} else {
CountingSort(alive, sortByX, posInSortByX);
}
static vector<lint> prefMinX(N);
static vector<lint> prefMaxX(N);
static vector<lint> prefMinY(N);
static vector<lint> prefMaxY(N);
static vector<lint> suffMinX(N);
static vector<lint> suffMaxX(N);
static vector<lint> suffMinY(N);
static vector<lint> suffMaxY(N);
for (int i = 0; i < int(alive.size()); i++) {
int id = alive[i];
prefMinX[i] = prefMaxX[i] = X[id];
prefMinY[i] = prefMaxY[i] = Y[id];
suffMinX[i] = suffMaxX[i] = X[id];
suffMinY[i] = suffMaxY[i] = Y[id];
}
for (int i = 1; i < int(alive.size()); i++) {
prefMinX[i] = min(prefMinX[i], prefMinX[i - 1]);
prefMaxX[i] = max(prefMaxX[i], prefMaxX[i - 1]);
prefMinY[i] = min(prefMinY[i], prefMinY[i - 1]);
prefMaxY[i] = max(prefMaxY[i], prefMaxY[i - 1]);
}
for (int i = int(alive.size()) - 2; i >= 0; i--) {
suffMinX[i] = min(suffMinX[i], suffMinX[i + 1]);
suffMaxX[i] = max(suffMaxX[i], suffMaxX[i + 1]);
suffMinY[i] = min(suffMinY[i], suffMinY[i + 1]);
suffMaxY[i] = max(suffMaxY[i], suffMaxY[i + 1]);
}
const auto CalcPref = [&](int i) -> lint {
if (i < 0 || i >= alive.size()) return 0;
return max(prefMaxX[i] - prefMinX[i], prefMaxY[i] - prefMinY[i]);
};
const auto CalcSuff = [&](int i) -> lint {
if (i < 0 || i >= alive.size()) return 0;
return max(suffMaxX[i] - suffMinX[i], suffMaxY[i] - suffMinY[i]);
};
// Configuration: |-
int last = -1;
for (int i = 0; i < int(alive.size()); i++) {
if (!(i + 1 == alive.size() ||
(vert == 0 && Y[alive[i + 1]] != Y[alive[i]]) ||
(vert == 1 && X[alive[i + 1]] != X[alive[i]]))) {
continue;
}
if (CalcPref(i) <= L) {
last = i;
}
}
if (last != -1) {
vector<int> other;
for (int i = last + 1; i < int(alive.size()); i++) {
other.emplace_back(alive[i]);
}
if (SolveK2(L, other, 1 - vert, trace)) {
if (trace) {
other.clear();
for (int i = 0; i <= last; i++) {
other.emplace_back(alive[i]);
}
SolveK1(L, other, 2, trace);
}
return true;
}
}
// Configuration: -|
last = -1;
for (int i = int(alive.size()) - 1; i >= 0; i--) {
if (!(i == 0 ||
(vert == 0 && Y[alive[i - 1]] != Y[alive[i]]) ||
(vert == 1 && X[alive[i - 1]] != X[alive[i]]))) {
continue;
}
if (CalcSuff(i) <= L) {
last = i;
}
}
if (last != -1) {
vector<int> other;
for (int i = 0; i < last; i++) {
other.emplace_back(alive[i]);
}
if (SolveK2(L, other, 1 - vert, trace)) {
if (trace) {
other.clear();
for (int i = last; i < int(alive.size()); i++) {
other.emplace_back(alive[i]);
}
SolveK1(L, other, 0, trace);
}
return true;
}
}
// Configuration: | |
for (int i = 0; i < int(alive.size()); i++) {
lint minX = X[alive[i]];
lint maxX = X[alive[i]];
lint minY = Y[alive[i]];
lint maxY = Y[alive[i]];
for (int j = i; j < int(alive.size()); j++) {
minX = min(minX, X[alive[j]]);
maxX = max(maxX, X[alive[j]]);
minY = min(minY, Y[alive[j]]);
maxY = max(maxY, Y[alive[j]]);
if ((vert == 0 && maxX - minX <= maxY - minY && maxY - minY <= L) ||
(vert == 1 && maxY - minY <= maxX - minX && maxX - minX <= L)) {
if (CalcPref(i - 1) <= L && CalcPref(j + 1) <= L) {
if (trace) {
vector<int> a, b, c;
for (int x = 0; x < int(alive.size()); x++) {
if (x < i) a.emplace_back(alive[x]);
else if (x > j) c.emplace_back(alive[x]);
else b.emplace_back(alive[x]);
}
assert(SolveK1(L, a, 2, trace));
assert(SolveK1(L, b, 0, trace));
assert(SolveK1(L, c, 0, trace));
}
return true;
}
}
}
}
return false;
// deque<pair<lint, int>> minQue;
// deque<pair<lint, int>> maxQue;
// const auto CanInsert = [&](int id) {
// if (minQue.empty() || maxQue.empty()) return true;
// lint val;
// if (vert == 0) {
// // horizontal, keep minX and maxX
// val = X[id];
// } else {
// // vertical, keep minY and maxY
// val = Y[id];
// }
// if (max(maxQue.front().first, val) - min(minQue.front().first, val) <= L) {
// return true;
// }
// };
// for (int i = 0, j = -1; i < int(alive.size()); i++) {
// while (j + 1 < int(alive.size()) &&
// (vert == 0 ? (Y[alive[j + 1]] - Y[alive[i]]) : (X[alive[j + 1]] - X[alive[i]])) <= L &&
// CanInsert(alive[j + 1])) {
// Insert(alive[j++]);
// }
// if (CalcPref(i - 1) <= L && CalcSuff(j + 1) <= L) {
// }
// Erase(alive[i]);
// }
};
const auto Solve = [&](int K, lint L, int trace) {
vector<int> alive(N);
iota(begin(alive), end(alive), 0);
if (K == 1) {
ans.clear();
return SolveK1(L, alive, 0, trace);
} else if (K == 2) {
ans.clear();
if (SolveK2(L, alive, 0, trace)) {
return true;
}
ans.clear();
if (SolveK2(L, alive, 1, trace)) {
return true;
}
} else if (K == 3) {
ans.clear();
if (SolveK3(L, alive, 0, trace)) {
return true;
}
ans.clear();
if (SolveK3(L, alive, 1, trace)) {
return true;
}
}
return false;
};
lint lo = 1;
lint hi = 2e9;
while (lo < hi) {
lint md = (lo + hi) / 2;
if (Solve(K, md, 0)) {
hi = md;
} else {
lo = md + 1;
}
}
assert(Solve(K, lo, 1));
int it = 0;
while (ans.size() < K) {
ans.push_back({lint(3e9 - 2 * it), lint(3e9), 1});
it++;
}
for (int i = 0; i < K; i++) {
cout << ans[i][0] << ' ' << ans[i][1] << ' ' << ans[i][2] << '\n';
}
return 0;
}
Compilation message
izvanzemaljci.cpp: In lambda function:
izvanzemaljci.cpp:121:22: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
121 | if (i < 0 || i >= alive.size()) return 0;
| ~~^~~~~~~~~~~~~~~
izvanzemaljci.cpp: In lambda function:
izvanzemaljci.cpp:125:22: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
125 | if (i < 0 || i >= alive.size()) return 0;
| ~~^~~~~~~~~~~~~~~
izvanzemaljci.cpp: In lambda function:
izvanzemaljci.cpp:136:19: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
136 | if (!(i + 1 == alive.size() ||
| ~~~~~~^~~~~~~~~~~~~~~
izvanzemaljci.cpp: In lambda function:
izvanzemaljci.cpp:189:22: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
189 | if (i < 0 || i >= alive.size()) return 0;
| ~~^~~~~~~~~~~~~~~
izvanzemaljci.cpp: In lambda function:
izvanzemaljci.cpp:193:22: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
193 | if (i < 0 || i >= alive.size()) return 0;
| ~~^~~~~~~~~~~~~~~
izvanzemaljci.cpp: In lambda function:
izvanzemaljci.cpp:200:19: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
200 | if (!(i + 1 == alive.size() ||
| ~~~~~~^~~~~~~~~~~~~~~
izvanzemaljci.cpp: In function 'int main()':
izvanzemaljci.cpp:363:21: warning: comparison of integer expressions of different signedness: 'std::vector<std::array<long long int, 3> >::size_type' {aka 'long unsigned int'} and 'int' [-Wsign-compare]
363 | while (ans.size() < K) {
| ~~~~~~~~~~~^~~
# |
Verdict |
Execution time |
Memory |
Grader output |
1 |
Correct |
1 ms |
204 KB |
Output is correct |
2 |
Correct |
1 ms |
204 KB |
Output is correct |
3 |
Correct |
1 ms |
204 KB |
Output is correct |
4 |
Correct |
1 ms |
204 KB |
Output is correct |
5 |
Correct |
1 ms |
204 KB |
Output is correct |
6 |
Correct |
0 ms |
204 KB |
Output is correct |
7 |
Correct |
67 ms |
3808 KB |
Output is correct |
8 |
Correct |
78 ms |
3840 KB |
Output is correct |
9 |
Correct |
70 ms |
3808 KB |
Output is correct |
10 |
Correct |
67 ms |
3812 KB |
Output is correct |
11 |
Correct |
74 ms |
3780 KB |
Output is correct |
# |
Verdict |
Execution time |
Memory |
Grader output |
1 |
Correct |
0 ms |
204 KB |
Output is correct |
2 |
Correct |
0 ms |
216 KB |
Output is correct |
3 |
Correct |
0 ms |
204 KB |
Output is correct |
4 |
Correct |
0 ms |
204 KB |
Output is correct |
5 |
Correct |
0 ms |
204 KB |
Output is correct |
6 |
Correct |
1 ms |
204 KB |
Output is correct |
7 |
Correct |
1 ms |
204 KB |
Output is correct |
8 |
Correct |
1 ms |
204 KB |
Output is correct |
9 |
Correct |
1 ms |
204 KB |
Output is correct |
10 |
Correct |
461 ms |
12216 KB |
Output is correct |
11 |
Correct |
450 ms |
12284 KB |
Output is correct |
12 |
Correct |
511 ms |
12376 KB |
Output is correct |
13 |
Correct |
450 ms |
12288 KB |
Output is correct |
14 |
Correct |
458 ms |
12208 KB |
Output is correct |
15 |
Correct |
452 ms |
12216 KB |
Output is correct |
16 |
Correct |
523 ms |
12316 KB |
Output is correct |
17 |
Correct |
379 ms |
11224 KB |
Output is correct |
18 |
Correct |
352 ms |
10880 KB |
Output is correct |
19 |
Correct |
397 ms |
10044 KB |
Output is correct |
20 |
Correct |
424 ms |
10648 KB |
Output is correct |
21 |
Correct |
378 ms |
12288 KB |
Output is correct |
22 |
Correct |
430 ms |
12308 KB |
Output is correct |
23 |
Correct |
498 ms |
12256 KB |
Output is correct |
# |
Verdict |
Execution time |
Memory |
Grader output |
1 |
Correct |
0 ms |
204 KB |
Output is correct |
2 |
Correct |
1 ms |
204 KB |
Output is correct |
3 |
Correct |
0 ms |
204 KB |
Output is correct |
4 |
Correct |
1 ms |
204 KB |
Output is correct |
5 |
Correct |
0 ms |
204 KB |
Output is correct |
6 |
Correct |
1 ms |
204 KB |
Output is correct |
7 |
Correct |
1 ms |
204 KB |
Output is correct |
8 |
Correct |
1 ms |
204 KB |
Output is correct |
9 |
Runtime error |
1 ms |
460 KB |
Execution killed with signal 6 |
10 |
Halted |
0 ms |
0 KB |
- |
# |
Verdict |
Execution time |
Memory |
Grader output |
1 |
Runtime error |
74 ms |
752 KB |
Execution killed with signal 6 |
2 |
Halted |
0 ms |
0 KB |
- |
# |
Verdict |
Execution time |
Memory |
Grader output |
1 |
Runtime error |
59 ms |
748 KB |
Execution killed with signal 6 |
2 |
Halted |
0 ms |
0 KB |
- |