제출 #1049425

#제출 시각아이디문제언어결과실행 시간메모리
1049425HalitRectangles (IOI19_rect)C++17
100 / 100
3759 ms932028 KiB
#include "rect.h" #include <bits/stdc++.h> struct FenwickTree { std::vector<int> bit; int N; FenwickTree(int n) { N = n+1; bit.resize(N+1); } int sum(int idx) { int res = 0; for (++idx; idx > 0; idx -= idx & -idx) { res += bit[idx]; } return res; } int get(int l, int r) { return sum(r) - sum(l-1); } void add(int idx, int delta) { for (++idx;idx < N; idx += idx & -idx) { bit[idx] += delta; } } }; struct SegmentTree { int N; std::vector<int> tree; std::vector<int> lazy; SegmentTree(int n) { N = n; tree.resize(4*N); lazy.resize(4*N); } void push(int node, int left, int right) { if (lazy[node]) { tree[node] = 0; } if (left != right) { lazy[node*2] |= lazy[node]; lazy[node*2+1] |= lazy[node]; } lazy[node] = 0; } int get(int node, int left, int right, int tl, int tr) { push(node, left, right); if (left > tr || right < tl) { return 0; } if (left >= tl && right <= tr) { return tree[node]; } return get(node*2, left, (left+right)/2, tl, tr) + get(node*2+1, (left+right)/2+1, right, tl, tr); } void add(int node, int left, int right, int idx) { push(node, left, right); if (left > idx || right < idx) { return; } if (left == idx && right == idx) { tree[node] += 1; return; } add(node*2, left, (left+right)/2, idx); add(node*2+1, (left+right)/2+1, right, idx); tree[node] = tree[node*2] + tree[node*2+1]; } void clear() { lazy[1] = 1; } int get(int left, int right) { return get(1, 0, N-1, left, right); } void add(int idx) { add(1, 0, N-1, idx); } }; struct disjoint_sets { int N; std::vector<int> rank; disjoint_sets(int n) { N = n; for (int i = 0;i < N; ++i) { rank.push_back(i); } } int get(int x) { if (rank[x] == x) return x; return rank[x] = get(rank[x]); } void merge(int x, int y) { x = get(x); y = get(y); if (x == y) { return; } rank[y] = rank[x]; } void clear() { for (int i = 0;i < N; ++i) { rank[i] = i; } } }; long long count_rectangles(std::vector<std::vector<int>> a) { int N = a.size(); int M = a[0].size(); std::vector<std::array<short, 3>> valid_row, valid_col; { std::vector<int> idx(M); std::iota(idx.begin(), idx.end(), 0); disjoint_sets left(M), right(M); for (int i = 1;i < N-1; ++i) { left.clear(); right.clear(); std::sort(idx.begin(), idx.end(), [&](int j, int k) { return a[i][j] < a[i][k]; }); int first = 0; std::vector<bool> act(M); for (int jj = 0;jj < M; ++jj) { int j = idx[jj]; act[j] = true; if (j > 0 && act[j-1]) { left.merge(j-1, j); right.merge(j, j-1); } if (j+1 < M && act[j+1]) { right.merge(j+1, j); left.merge(j, j+1); } if (jj+1 < M && a[i][idx[jj+1]] == a[i][j]) { continue; } else { for (int k = first;k <= jj; ++k) { if (left.get(idx[k]) > 0 && right.get(idx[k]) < M-1) { valid_row.push_back({i, left.get(idx[k]), right.get(idx[k])}); } } first = jj+1; } } } } /* for (int val : num) { for (int j : idx[val]) { act[j] = true; if (j > 0 && act[j-1]) { left.merge(j-1, j); right.merge(j, j-1); } if (j+1 < M && act[j+1]) { right.merge(j+1, j); left.merge(j, j+1); } } for (int j : idx[val]) { if (left.get(j) > 0 && right.get(j) < M-1) { temp_valid_row.insert({i, left.get(j), right.get(j)}); } } } */ { std::vector<int> idx(N); std::iota(idx.begin(), idx.end(), 0); disjoint_sets left(N), right(N); for (int j = 1;j < M-1; ++j) { left.clear(); right.clear(); std::sort(idx.begin(), idx.end(), [&](int i, int k) { return a[i][j] < a[k][j]; }); int first = 0; std::vector<bool> act(N); for (int imi = 0;imi < N; ++imi) { int i = idx[imi]; act[i] = true; if (i > 0 && act[i-1]) { left.merge(i-1, i); right.merge(i, i-1); } if (i+1 < N && act[i+1]) { right.merge(i+1, i); left.merge(i, i+1); } if (imi+1 < N && a[idx[imi+1]][j] == a[i][j]) { continue; } else { for (int k = first;k <= imi; ++k) { if (left.get(idx[k]) > 0 && right.get(idx[k]) < N-1) { // std::cout << i+1 << ' ' << j+1 << ' ' << left.get(idx[k]) << ' ' << right.get(idx[k]) << std::endl; valid_col.push_back({j, left.get(idx[k]), right.get(idx[k])}); } } first = imi+1; } } } } /* for (int j = 1;j < M-1; ++j) { disjoint_sets up(N), down(N); std::set<int> num; std::map<int, std::vector<int>> idx; for (int i = 0;i < N; ++i) { num.insert(a[i][j]); idx[a[i][j]].push_back(i); } std::vector<bool> act(N); for (int val : num) { for (int i : idx[val]) { act[i] = true; if (i > 0 && act[i-1]) { up.merge(i-1, i); down.merge(i, i-1); } if (i+1 < N && act[i+1]) { down.merge(i+1, i); up.merge(i, i+1); } } for (int i : idx[val]) { if (up.get(i) > 0 && down.get(i) < N-1) { temp_valid_col.insert({j, up.get(i), down.get(i)}); } } } } */ std::sort(valid_row.begin(), valid_row.end()); std::sort(valid_col.begin(), valid_col.end()); valid_row.resize(std::unique(valid_row.begin(), valid_row.end()) - valid_row.begin()); valid_col.resize(std::unique(valid_col.begin(), valid_col.end()) - valid_col.begin()); /* std::cout << "Valid Rows" << std::endl; for (auto [row, left, right] : valid_row) { std::cout << row+1 << ' ' << left+1 << ' ' << right+1 << std::endl; } std::cout << "Valid Columns" << std::endl; for (auto [col, up, down] : valid_col) { std::cout << col+1 << ' ' << up+1 << ' ' << down+1 << std::endl; }*/ std::reverse(valid_row.begin(), valid_row.end()); std::reverse(valid_col.begin(), valid_col.end()); std::vector<int> row_value(valid_row.size()), col_value(valid_col.size()); std::vector<std::vector<std::vector<std::vector<int>>>> start(2, std::vector<std::vector<std::vector<int>>>(std::max(N, M), std::vector<std::vector<int>>(std::max(N, M)))); { std::vector<std::vector<int>> last(M+1, std::vector<int>(M+1, int(-1))), dp(M+1, std::vector<int>(M+1, int(0))); for (int i = 0;i < valid_row.size(); ++i) { auto [row, left, right] = valid_row[i]; row_value[i] = dp[left][right] = (last[left][right] != row+1 ? 1 : dp[left][right] + 1); start[0][row][left].push_back(i); last[left][right] = row; // std::cout << row+1 << ' ' << left+1 << ' ' << right+1 << " -> row value " << row_value[i] << std::endl; } } { std::vector<std::vector<int>> last(N+1, std::vector<int>(N+1, int(-1))), dp(N+1, std::vector<int>(N+1, int(0))); for (int i = 0;i < valid_col.size(); ++i) { auto [col, up, down] = valid_col[i]; col_value[i] = dp[up][down] = (last[up][down] != col+1 ? 1 : dp[up][down] + 1); start[1][up][col].push_back(i); last[up][down] = col; // std::cout << col+1 << ' ' << up+1 << ' ' << down+1 << " -> column value " << col_value[i] << std::endl; } } int64_t ans = 0; constexpr int MAX = 2500; // SegmentTree st(MAX+1); FenwickTree fenw(MAX); for (int x = 1;x < N-1; ++x) { for (int y = 1;y < M-1; ++y) { // std::cout << "Current : " << x+1 << ' ' << y+1 << std::endl; auto &row = start[0][x][y]; auto &col = start[1][x][y]; if (row.size() == 0 || col.size() == 0) { continue; } std::vector<int> idx_row(row.size()), idx_col(col.size()); std::iota(idx_row.begin(), idx_row.end(), 0); std::iota(idx_col.begin(), idx_col.end(), 0); std::sort(idx_row.begin(), idx_row.end(), [&](int i, int j) { return row_value[row[i]] < row_value[row[j]]; }); std::sort(idx_col.begin(), idx_col.end(), [&](int i, int j) { return valid_col[col[i]][2] < valid_col[col[j]][2]; }); int j = -1; int cnt = 0; std::vector<int> rollback; // std::cout << "#Rows : " << k_row << '\t' << "#Columns : " << k_col << std::endl; for (int i : idx_row) { // std::cout << "Current row : " << valid_row[start[0][x][y][i]][0]+1 << ' ' << valid_row[start[0][x][y][i]][1]+1 << ' ' << valid_row[start[0][x][y][i]][2]+1 << std::endl; while (j+1 < col.size() && valid_col[col[idx_col[j+1]]][2] - valid_col[col[idx_col[j+1]]][1] + 1 <= row_value[row[i]]) { j += 1; // st.add(col_value[col[idx_col[j]]]); fenw.add(col_value[col[idx_col[j]]], +1); rollback.push_back(col_value[col[idx_col[j]]]); // std::cout << j << "-th column to Segment Tree (value : " << col_value[j] << " )" << std::endl; } // cnt += st.get(valid_row[row[i]][2] - valid_row[row[i]][1] + 1, MAX); cnt += fenw.get(valid_row[row[i]][2] - valid_row[row[i]][1] + 1, MAX); } ans += cnt; for (int op : rollback) { fenw.add(op, -1); } // st.clear(); } } /* int ans = 0; for (int i = 0;i < valid_row.size(); ++i) { auto [row, left, right] = valid_row[i]; // std::cout << "Current row : " << row + 1 << ' ' << left + 1 << ' ' << right + 1 << std::endl; for (int j : start[1][row][left]) { // std::cout << "Testing..." << std::endl; // std::cout << valid_col[j][0] + 1 << ' ' << valid_col[j][1] + 1 << ' ' << valid_col[j][2] + 1 << std::endl; if (valid_col[j][2] - valid_col[j][1] + 1 <= row_value[i] && (right - left + 1 <= col_value[j])) { ans += 1; // std::cout << "OK!" << std::endl; } } // std::cout << std::endl; }*/ return ans; }

컴파일 시 표준 에러 (stderr) 메시지

rect.cpp: In function 'long long int count_rectangles(std::vector<std::vector<int> >)':
rect.cpp:137:36: warning: narrowing conversion of 'i' from 'int' to 'short int' [-Wnarrowing]
  137 |               valid_row.push_back({i, left.get(idx[k]), right.get(idx[k])});
      |                                    ^
rect.cpp:137:47: warning: narrowing conversion of 'left.disjoint_sets::get(idx.std::vector<int>::operator[](((std::vector<int>::size_type)k)))' from 'int' to 'short int' [-Wnarrowing]
  137 |               valid_row.push_back({i, left.get(idx[k]), right.get(idx[k])});
      |                                       ~~~~~~~~^~~~~~~~
rect.cpp:137:66: warning: narrowing conversion of 'right.disjoint_sets::get(idx.std::vector<int>::operator[](((std::vector<int>::size_type)k)))' from 'int' to 'short int' [-Wnarrowing]
  137 |               valid_row.push_back({i, left.get(idx[k]), right.get(idx[k])});
      |                                                         ~~~~~~~~~^~~~~~~~
rect.cpp:191:36: warning: narrowing conversion of 'j' from 'int' to 'short int' [-Wnarrowing]
  191 |               valid_col.push_back({j, left.get(idx[k]), right.get(idx[k])});
      |                                    ^
rect.cpp:191:47: warning: narrowing conversion of 'left.disjoint_sets::get(idx.std::vector<int>::operator[](((std::vector<int>::size_type)k)))' from 'int' to 'short int' [-Wnarrowing]
  191 |               valid_col.push_back({j, left.get(idx[k]), right.get(idx[k])});
      |                                       ~~~~~~~~^~~~~~~~
rect.cpp:191:66: warning: narrowing conversion of 'right.disjoint_sets::get(idx.std::vector<int>::operator[](((std::vector<int>::size_type)k)))' from 'int' to 'short int' [-Wnarrowing]
  191 |               valid_col.push_back({j, left.get(idx[k]), right.get(idx[k])});
      |                                                         ~~~~~~~~~^~~~~~~~
rect.cpp:248:22: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<std::array<short int, 3> >::size_type' {aka 'long unsigned int'} [-Wsign-compare]
  248 |     for (int i = 0;i < valid_row.size(); ++i) {
      |                    ~~^~~~~~~~~~~~~~~~~~
rect.cpp:258:22: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<std::array<short int, 3> >::size_type' {aka 'long unsigned int'} [-Wsign-compare]
  258 |     for (int i = 0;i < valid_col.size(); ++i) {
      |                    ~~^~~~~~~~~~~~~~~~~~
rect.cpp:289:20: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
  289 |         while (j+1 < col.size() && valid_col[col[idx_col[j+1]]][2] - valid_col[col[idx_col[j+1]]][1] + 1 <= row_value[row[i]]) {
      |                ~~~~^~~~~~~~~~~~
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