Some Code Template Just for Fun.
View the Project on GitHub Yuri3-xr/CP-library
#include "DataStructure/AndOrSegmentTreeBeats.hpp"
#pragma once #include "../Template/Template.hpp" template <class T> struct AndOrSegmentTreeBeats { /* applyAnd(l,r,v) \forall x \in [l,r) x = x&v applyOr(l,r,v) \forall x \in [l,r) x = x|v rangeQuery(l,r) max element [l,r) Time Complexity: O(NKlogN) K = __LG(max(x)) Verify: https://csacademy.com/contest/archive/task/and-or-max */ const int n; std::vector<T> tor, tand, tag, mx; AndOrSegmentTreeBeats(int n) : n(n), tor(4 << std::__lg(n)), tand(4 << std::__lg(n)), tag(4 << std::__lg(n)), mx(4 << std::__lg(n)){}; AndOrSegmentTreeBeats(const std::vector<T>& init) : AndOrSegmentTreeBeats(init.size()) { std::function<void(int, int, int)> build = [&](int p, int l, int r) { if (r - l == 1) { tor[p] = tand[p] = mx[p] = init[l]; return; } int m = (l + r) / 2; build(2 * p, l, m); build(2 * p + 1, m, r); pull(p); }; build(1, 0, n); } void pull(int p) { tand[p] = tand[p * 2] & tand[p * 2 + 1]; tor[p] = tor[p * 2] | tor[p * 2 + 1]; mx[p] = max(mx[p * 2], mx[p * 2 + 1]); return; } void apply(int p, T v) { tag[p] += v; tand[p] += v; tor[p] += v; mx[p] += v; return; } void push(int p) { apply(p * 2, tag[p]); apply(p * 2 + 1, tag[p]); tag[p] = 0; return; } void applyAnd(int p, int l, int r, int x, int y, const T v) { if (l >= y || r <= x) { return; } if (r - l > 1) push(p); if ((tor[p] & v) == tor[p]) return; if (l >= x && r <= y) { if (((tand[p] & v) - tand[p]) == ((tor[p] & v) - tor[p])) { apply(p, ((tand[p] & v) - tand[p])); return; } } int mid = (l + r) / 2; applyAnd(p * 2, l, mid, x, y, v); applyAnd(p * 2 + 1, mid, r, x, y, v); pull(p); } void applyOr(int p, int l, int r, int x, int y, const T v) { if (l >= y || r <= x) { return; } if (r - l > 1) push(p); if ((tand[p] | v) == tand[p]) return; if (l >= x && r <= y) { if (((tand[p] | v) - tand[p]) == ((tor[p] | v) - tor[p])) { apply(p, ((tand[p] | v) - tand[p])); return; } } int mid = (l + r) / 2; applyOr(p * 2, l, mid, x, y, v); applyOr(p * 2 + 1, mid, r, x, y, v); pull(p); } void applyOr(int l, int r, const T v) { applyOr(1, 0, n, l, r, v); } void applyAnd(int l, int r, const T v) { applyAnd(1, 0, n, l, r, v); } T rangeQuery(int p, int l, int r, int x, int y) { if (l >= y || r <= x) { return T(); } if (r - l > 1) push(p); if (l >= x && r <= y) { return mx[p]; } int m = (l + r) / 2; return max(rangeQuery(2 * p, l, m, x, y), rangeQuery(2 * p + 1, m, r, x, y)); } T rangeQuery(int l, int r) { return rangeQuery(1, 0, n, l, r); } };
#line 2 "DataStructure/AndOrSegmentTreeBeats.hpp" #line 2 "Template/Template.hpp" #include <bits/stdc++.h> using i64 = std::int64_t; #line 4 "DataStructure/AndOrSegmentTreeBeats.hpp" template <class T> struct AndOrSegmentTreeBeats { /* applyAnd(l,r,v) \forall x \in [l,r) x = x&v applyOr(l,r,v) \forall x \in [l,r) x = x|v rangeQuery(l,r) max element [l,r) Time Complexity: O(NKlogN) K = __LG(max(x)) Verify: https://csacademy.com/contest/archive/task/and-or-max */ const int n; std::vector<T> tor, tand, tag, mx; AndOrSegmentTreeBeats(int n) : n(n), tor(4 << std::__lg(n)), tand(4 << std::__lg(n)), tag(4 << std::__lg(n)), mx(4 << std::__lg(n)){}; AndOrSegmentTreeBeats(const std::vector<T>& init) : AndOrSegmentTreeBeats(init.size()) { std::function<void(int, int, int)> build = [&](int p, int l, int r) { if (r - l == 1) { tor[p] = tand[p] = mx[p] = init[l]; return; } int m = (l + r) / 2; build(2 * p, l, m); build(2 * p + 1, m, r); pull(p); }; build(1, 0, n); } void pull(int p) { tand[p] = tand[p * 2] & tand[p * 2 + 1]; tor[p] = tor[p * 2] | tor[p * 2 + 1]; mx[p] = max(mx[p * 2], mx[p * 2 + 1]); return; } void apply(int p, T v) { tag[p] += v; tand[p] += v; tor[p] += v; mx[p] += v; return; } void push(int p) { apply(p * 2, tag[p]); apply(p * 2 + 1, tag[p]); tag[p] = 0; return; } void applyAnd(int p, int l, int r, int x, int y, const T v) { if (l >= y || r <= x) { return; } if (r - l > 1) push(p); if ((tor[p] & v) == tor[p]) return; if (l >= x && r <= y) { if (((tand[p] & v) - tand[p]) == ((tor[p] & v) - tor[p])) { apply(p, ((tand[p] & v) - tand[p])); return; } } int mid = (l + r) / 2; applyAnd(p * 2, l, mid, x, y, v); applyAnd(p * 2 + 1, mid, r, x, y, v); pull(p); } void applyOr(int p, int l, int r, int x, int y, const T v) { if (l >= y || r <= x) { return; } if (r - l > 1) push(p); if ((tand[p] | v) == tand[p]) return; if (l >= x && r <= y) { if (((tand[p] | v) - tand[p]) == ((tor[p] | v) - tor[p])) { apply(p, ((tand[p] | v) - tand[p])); return; } } int mid = (l + r) / 2; applyOr(p * 2, l, mid, x, y, v); applyOr(p * 2 + 1, mid, r, x, y, v); pull(p); } void applyOr(int l, int r, const T v) { applyOr(1, 0, n, l, r, v); } void applyAnd(int l, int r, const T v) { applyAnd(1, 0, n, l, r, v); } T rangeQuery(int p, int l, int r, int x, int y) { if (l >= y || r <= x) { return T(); } if (r - l > 1) push(p); if (l >= x && r <= y) { return mx[p]; } int m = (l + r) / 2; return max(rangeQuery(2 * p, l, m, x, y), rangeQuery(2 * p + 1, m, r, x, y)); } T rangeQuery(int l, int r) { return rangeQuery(1, 0, n, l, r); } };