This submission is migrated from previous version of oj.uz, which used different machine for grading. This submission may have different result if resubmitted.
#include "seats.h"
#include <algorithm>
#include <iostream>
#include <numeric>
#include <cassert>
#include <vector>
typedef long long llong;
const int MAXN = 1 << 20;
const int INF = 1e9;
int n, m;
struct SegmentTreeLazy
{
struct Node
{
int min;
int cnt;
int lazy;
Node()
{
min = cnt = lazy = 0;
}
friend Node operator + (const Node &left, const Node &right)
{
Node res;
res.min = std::min(left.min, right.min);
if (res.min == left.min) res.cnt += left.cnt;
if (res.min == right.min) res.cnt += right.cnt;
return res;
}
};
Node tree[2*MAXN];
void build(int l, int r, int node)
{
if (l == r)
{
tree[node].min = 0;
tree[node].cnt = 1;
return;
}
int mid = l + r >> 1;
build(l, mid, 2*node);
build(mid + 1, r, 2*node + 1);
tree[node] = tree[2*node] + tree[2*node + 1];
}
void push(int node, int l, int r)
{
if (tree[node].lazy == 0)
{
return;
}
tree[node].min += tree[node].lazy;
if (l < r)
{
tree[2*node].lazy += tree[node].lazy;
tree[2*node + 1].lazy += tree[node].lazy;
}
tree[node].lazy = 0;
}
void update(int l, int r, int node, int queryL, int queryR, int queryVal)
{
push(node, l, r);
if (queryR < l || r < queryL)
{
return;
}
if (queryL <= l && r <= queryR)
{
tree[node].lazy = queryVal;
push(node, l, r);
return;
}
int mid = l + r >> 1;
update(l, mid, 2*node, queryL, queryR, queryVal);
update(mid + 1, r, 2*node + 1, queryL, queryR, queryVal);
tree[node] = tree[2*node] + tree[2*node + 1];
}
Node query(int l, int r, int node, int queryL, int queryR)
{
push(node, l, r);
if (queryL <= l && r <= queryR)
{
return tree[node];
}
Node res; res.min = INF;
int mid = l + r >> 1;
if (queryL <= mid) res = res + query(l, mid, 2*node, queryL, queryR);
if (mid + 1 <= queryR) res = res + query(mid + 1, r, 2*node + 1, queryL, queryR);
return res;
}
void build()
{
build(1, n * m, 1);
}
void update(int l, int r, int val)
{
// std::cout << "singular update: " << l << ' ' << r << ' ' << val << '\n';
update(1, n * m, 1, l, r, val);
}
int query(int l, int r, int value)
{
Node res = query(1, n * m, 1, l, r);
// std::cout << "reeeessss: " << res.min << ' ' << res.cnt << '\n';
if (res.min != value) return 0;
return res.cnt;
}
};
struct SegmentTreeMinMax
{
struct Node
{
int min;
int max;
Node()
{
min = INF;
max = 0;
}
friend Node operator + (const Node &left, const Node &right)
{
Node res;
res.min = std::min(left.min, right.min);
res.max = std::max(left.max, right.max);
return res;
}
};
Node tree[2*MAXN];
void build(int l, int r, int node, std::vector <int> &v)
{
if (l == r)
{
// std::cout << "set: " << l << " = " << v[l] << '\n';
tree[node].min = tree[node].max = v[l];
return;
}
int mid = l + r >> 1;
build(l, mid, 2*node, v);
build(mid + 1, r, 2*node + 1, v);
tree[node] = tree[2*node] + tree[2*node + 1];
}
void update(int l, int r, int node, int queryPos, int queryVal)
{
if (l == r)
{
tree[node].min = tree[node].max = queryVal;
return;
}
int mid = l + r >> 1;
if (queryPos <= mid) update(l, mid, 2*node, queryPos, queryVal);
else update(mid + 1, r, 2*node + 1, queryPos, queryVal);
tree[node] = tree[2*node] + tree[2*node + 1];
}
int search(int l, int r, int node, int value)
{
if (l == r)
{
if (tree[node].min != value) return -1;
return l;
}
int mid = l + r >> 1;
if (tree[2*node].min == value && tree[2*node].max == value)
{
int res = search(mid + 1, r, 2*node + 1, value);
if (res != -1) return res;
return mid;
}
return search(l, mid, 2*node, value);
}
void build(std::vector <int> &v)
{
build(1, n * m, 1, v);
}
void update(int pos, int val)
{
update(1, n * m, 1, pos, val);
}
int search(int value)
{
return search(1, n * m, 1, value);
}
};
SegmentTreeLazy treeRect;
SegmentTreeLazy treeLineRow;
SegmentTreeLazy treeLineCol;
SegmentTreeMinMax treeRow, treeCol;
std::vector <int> t[MAXN];
std::vector <int> r, c;
void addL(int row, int col)
{
// std::cout << "addL: " << row << ' ' << col << '\n' << std::flush;
if (row > n || col > m || row == 1 || col == 1)
{
return;
}
std::vector <int> vals;
vals.push_back(t[row][col]);
vals.push_back(t[row - 1][col]);
vals.push_back(t[row][col - 1]);
vals.push_back(t[row - 1][col - 1]);
std::sort(vals.begin(), vals.end());
treeRect.update(vals[2], vals[3] - 1, 1);
}
void remL(int row, int col)
{
// std::cout << "remL: " << row << ' ' << col << '\n' << std::flush;
if (row > n || col > m || row == 1 || col == 1)
{
return;
}
std::vector <int> vals;
vals.push_back(t[row][col]);
vals.push_back(t[row - 1][col]);
vals.push_back(t[row][col - 1]);
vals.push_back(t[row - 1][col - 1]);
std::sort(vals.begin(), vals.end());
treeRect.update(vals[2], vals[3] - 1, -1);
}
void addSingularUp(int row, int col)
{
int min = std::min(t[row][col], t[row - 1][col]);
int max = std::max(t[row][col], t[row - 1][col]);
treeLineCol.update(min, max - 1, 1);
min = std::min(t[row][col], t[row][col - 1]);
max = std::max(t[row][col], t[row][col - 1]);
treeLineRow.update(min, max - 1, 1);
}
void addSingularRect(int row, int col)
{
std::vector <int> v;
v.push_back(t[row - 1][col]);
v.push_back(t[row][col - 1]);
v.push_back(t[row + 1][col]);
v.push_back(t[row][col + 1]);
std::sort(v.begin(), v.end());
if (t[row][col] < v[1])
{
treeRect.update(std::max(v[0], t[row][col]), v[1] - 1, 1);
}
}
void remSingularRect(int row, int col)
{
std::vector <int> v;
v.push_back(t[row - 1][col]);
v.push_back(t[row][col - 1]);
v.push_back(t[row + 1][col]);
v.push_back(t[row][col + 1]);
std::sort(v.begin(), v.end());
if (t[row][col] < v[1])
{
treeRect.update(std::max(v[0], t[row][col]), v[1] - 1, -1);
}
}
void addSingular(int row, int col)
{
int min = std::min(t[row][col], t[row - 1][col]);
int max = std::max(t[row][col], t[row - 1][col]);
treeLineCol.update(min, max - 1, 1);
min = std::min(t[row][col], t[row][col - 1]);
max = std::max(t[row][col], t[row][col - 1]);
treeLineRow.update(min, max - 1, 1);
min = std::min(t[row][col], t[row + 1][col]);
max = std::max(t[row][col], t[row + 1][col]);
treeLineCol.update(min, max - 1, 1);
min = std::min(t[row][col], t[row][col + 1]);
max = std::max(t[row][col], t[row][col + 1]);
treeLineRow.update(min, max - 1, 1);
}
void remSingular(int row, int col)
{
int min = std::min(t[row][col], t[row - 1][col]);
int max = std::max(t[row][col], t[row - 1][col]);
treeLineCol.update(min, max - 1, -1);
min = std::min(t[row][col], t[row][col - 1]);
max = std::max(t[row][col], t[row][col - 1]);
treeLineRow.update(min, max - 1, -1);
min = std::min(t[row][col], t[row + 1][col]);
max = std::max(t[row][col], t[row + 1][col]);
treeLineCol.update(min, max - 1, -1);
min = std::min(t[row][col], t[row][col + 1]);
max = std::max(t[row][col], t[row][col + 1]);
treeLineRow.update(min, max - 1, -1);
}
void add(int row, int col)
{
addL(row, col);
addL(row + 1, col);
addL(row, col + 1);
addL(row + 1, col + 1);
addSingular(row, col);
addSingularRect(row, col);
}
void rem(int row, int col)
{
remL(row, col);
remL(row + 1, col);
remL(row, col + 1);
remL(row + 1, col + 1);
remSingular(row, col);
remSingularRect(row, col);
}
void give_initial_chart(int H, int W, std::vector<int> R, std::vector<int> C)
{
n = H;
m = W;
for (int i = 0 ; i <= n + 1 ; ++i)
{
t[i].resize(m + 2, n * m + 1);
}
C.insert(C.begin(), -1);
R.insert(R.begin(), -1);
for (int &val : R) val++;
for (int &val : C) val++;
r = R; c = C;
treeRow.build(r);
treeCol.build(c);
for (int i = 1 ; i <= n * m ; ++i)
{
t[R[i]][C[i]] = i;
}
treeRect.build();
treeLineRow.build();
treeLineCol.build();
for (int i = 1 ; i <= n ; ++i)
{
for (int j = 1 ; j <= m ; ++j)
{
addL(i, j);
addSingularUp(i, j);
addSingularRect(i, j);
}
}
for (int i = 1 ; i <= m ; ++i)
{
int min = t[n][i];
int max = n * m + 1;
treeLineCol.update(min, max - 1, 1);
}
for (int i = 1 ; i <= n ; ++i)
{
int min = t[i][m];
int max = n * m + 1;
treeLineRow.update(min, max - 1, 1);
}
int ans = 0;
int pos = 1;
if (r[1] == r[2])
{
pos = treeRow.search(r[1]);
ans = treeLineRow.query(1, pos, 2);
}
if (c[1] == c[2])
{
pos = treeCol.search(c[1]);
ans = treeLineCol.query(1, pos, 2);
}
}
int swap_seats(int a, int b)
{
a++; b++;
int rowA = r[a];
int colA = c[a];
int rowB = r[b];
int colB = c[b];
rem(rowA, colA);
rem(rowB, colB);
std::swap(t[rowA][colA], t[rowB][colB]);
std::swap(c[a], c[b]);
std::swap(r[a], r[b]);
treeRow.update(a, r[a]);
treeRow.update(b, r[b]);
treeCol.update(a, c[a]);
treeCol.update(b, c[b]);
add(rowA, colA);
add(rowB, colB);
int ans = 0;
int pos = 1;
if (r[1] == r[2])
{
pos = treeRow.search(r[1]);
ans = treeLineRow.query(1, pos, 2);
}
if (c[1] == c[2])
{
pos = treeCol.search(c[1]);
ans = treeLineCol.query(1, pos, 2);
}
if (pos < n * m)
{
ans += treeRect.query(pos + 1, n * m, 0);
}
return ans;
}
Compilation message (stderr)
seats.cpp: In member function 'void SegmentTreeLazy::build(int, int, int)':
seats.cpp:46:21: warning: suggest parentheses around '+' inside '>>' [-Wparentheses]
46 | int mid = l + r >> 1;
| ~~^~~
seats.cpp: In member function 'void SegmentTreeLazy::update(int, int, int, int, int, int)':
seats.cpp:84:21: warning: suggest parentheses around '+' inside '>>' [-Wparentheses]
84 | int mid = l + r >> 1;
| ~~^~~
seats.cpp: In member function 'SegmentTreeLazy::Node SegmentTreeLazy::query(int, int, int, int, int)':
seats.cpp:99:21: warning: suggest parentheses around '+' inside '>>' [-Wparentheses]
99 | int mid = l + r >> 1;
| ~~^~~
seats.cpp: In member function 'void SegmentTreeMinMax::build(int, int, int, std::vector<int>&)':
seats.cpp:158:21: warning: suggest parentheses around '+' inside '>>' [-Wparentheses]
158 | int mid = l + r >> 1;
| ~~^~~
seats.cpp: In member function 'void SegmentTreeMinMax::update(int, int, int, int, int)':
seats.cpp:172:21: warning: suggest parentheses around '+' inside '>>' [-Wparentheses]
172 | int mid = l + r >> 1;
| ~~^~~
seats.cpp: In member function 'int SegmentTreeMinMax::search(int, int, int, int)':
seats.cpp:186:21: warning: suggest parentheses around '+' inside '>>' [-Wparentheses]
186 | int mid = l + r >> 1;
| ~~^~~
seats.cpp: In function 'void give_initial_chart(int, int, std::vector<int>, std::vector<int>)':
seats.cpp:400:9: warning: variable 'ans' set but not used [-Wunused-but-set-variable]
400 | int ans = 0;
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