competitive-programming-library
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data_structure/dual_segment_tree.range_update_query.test.cpp
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- Last update: 2021-08-30 04:35:37+09:00
- Problem: http://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=DSL_2_D
Depends on
- Dual Segment Tree / 双対セグメント木 (monoids, 完全二分木)
(data_structure/dual_segment_tree.hpp)
- monoids/left.hpp
Code
#define PROBLEM "http://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=DSL_2_D"
#include "../data_structure/dual_segment_tree.hpp"
#include "../monoids/left.hpp"
#include <iostream>
using namespace std;
int main() {
int n, q; cin >> n >> q;
dual_segment_tree<left_monoid<uint32_t> > segtree(n);
segtree.range_apply(0, n, make_pair(true, (1u << 31) - 1));
while (q --) {
int com; cin >> com;
if (com == 0) {
int l, r; uint32_t x; cin >> l >> r >> x;
++ r;
segtree.range_apply(l, r, make_pair(true, x));
} else if (com == 1) {
int i; cin >> i;
cout << segtree.point_get(i).second << endl;
}
}
return 0;
}#line 1 "data_structure/dual_segment_tree.range_update_query.test.cpp"
#define PROBLEM "http://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=DSL_2_D"
#line 2 "data_structure/dual_segment_tree.hpp"
#include <algorithm>
#include <cassert>
#include <vector>
/**
* @brief Dual Segment Tree / 双対セグメント木 (monoids, 完全二分木)
* @docs data_structure/dual_segment_tree.md
* @tparam Monoid (commutativity is not required)
*/
template <class Monoid>
struct dual_segment_tree {
typedef typename Monoid::value_type value_type;
const Monoid mon;
int n;
std::vector<value_type> f;
dual_segment_tree() = default;
dual_segment_tree(int n_, const Monoid & mon_ = Monoid()) : mon(mon_) {
n = 1; while (n < n_) n *= 2;
f.resize(2 * n - 1, mon.unit());
}
value_type point_get(int i) { // 0-based
assert (0 <= i and i < n);
value_type acc = mon.unit();
for (i += n; i > 0; i /= 2) { // 1-based
acc = mon.mult(f[i - 1], acc);
}
return acc;
}
void range_apply(int l, int r, value_type g) { // 0-based, [l, r)
assert (0 <= l and l <= r and r <= n);
range_apply(0, 0, n, l, r, g);
}
void range_apply(int i, int il, int ir, int l, int r, value_type g) {
if (l <= il and ir <= r) { // 0-based
f[i] = mon.mult(g, f[i]);
} else if (ir <= l or r <= il) {
// nop
} else {
range_apply(2 * i + 1, il, (il + ir) / 2, 0, n, f[i]);
range_apply(2 * i + 2, (il + ir) / 2, ir, 0, n, f[i]);
f[i] = mon.unit();
range_apply(2 * i + 1, il, (il + ir) / 2, l, r, g);
range_apply(2 * i + 2, (il + ir) / 2, ir, l, r, g);
}
}
};
#line 2 "monoids/left.hpp"
#include <utility>
template <class T>
struct left_monoid {
// typedef std::optional<T> value_type;
typedef std::pair<bool, T> value_type;
value_type unit() const { return std::make_pair(false, T()); }
value_type mult(value_type a, value_type b) const { return a.first ? a : b; }
};
#line 4 "data_structure/dual_segment_tree.range_update_query.test.cpp"
#include <iostream>
using namespace std;
int main() {
int n, q; cin >> n >> q;
dual_segment_tree<left_monoid<uint32_t> > segtree(n);
segtree.range_apply(0, n, make_pair(true, (1u << 31) - 1));
while (q --) {
int com; cin >> com;
if (com == 0) {
int l, r; uint32_t x; cin >> l >> r >> x;
++ r;
segtree.range_apply(l, r, make_pair(true, x));
} else if (com == 1) {
int i; cin >> i;
cout << segtree.point_get(i).second << endl;
}
}
return 0;
}