cpp-library
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ds/kd_tree.hpp
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- Last update: 2024-11-09 00:49:07+00:00
- Include:
#include "ds/kd_tree.hpp"
Depends on
prelude.hppCode
#pragma once
#include "prelude.hpp"
template <class T, size_t K>
class kd_tree {
public:
struct point {
int id;
array<T, K> coord;
};
kd_tree() = default;
template <class Iter>
kd_tree(Iter f, Iter l) : root(build(f, l, 0)) {}
template <class Iter>
void build(Iter f, Iter l) {
ns.clear();
ns.reserve(l - f);
root = build(f, l, 0);
}
template <class Iter>
vector<int> find(Iter range) {
vector<int> ans;
search(root, range, 0, [&](auto &pt) { ans.push_back(pt.id); });
return ans;
}
private:
struct node {
point pt;
int l, r;
};
vector<node> ns;
int root;
template <class Iter>
int build(Iter f, Iter l, int k) {
if (f == l) return -1;
Iter m = f + (l - f) / 2;
nth_element(f, m, l,
[=](auto &&a, auto &&b) { return a.coord[k] < b.coord[k]; });
ns.emplace_back(
node{*m, build(f, m, (k + 1) % K), build(next(m), l, (k + 1) % K)});
return ns.size() - 1;
}
template <class Iter, class F>
void search(int idx, Iter range, int k, F &&f) {
if (idx == -1) return;
bool inside = true;
rep(i, K) if (ns[idx].pt.coord[i] < range[i].first ||
range[i].second <= ns[idx].pt.coord[i]) {
inside = false;
break;
}
if (inside) f(ns[idx].pt);
T x = ns[idx].pt.coord[k];
if (range[k].first <= x) search(ns[idx].l, range, (k + 1) % K, f);
if (x < range[k].second) search(ns[idx].r, range, (k + 1) % K, f);
}
};
#line 2 "prelude.hpp"
#include <bits/stdc++.h>
using namespace std;
using ll = long long;
using vi = vector<int>;
using vvi = vector<vector<int>>;
using vll = vector<ll>;
using vvll = vector<vector<ll>>;
using vc = vector<char>;
#define rep2(i, m, n) for (auto i = (m); i < (n); i++)
#define rep(i, n) rep2(i, 0, n)
#define repr2(i, m, n) for (auto i = (n); i-- > (m);)
#define repr(i, n) repr2(i, 0, n)
#define all(x) begin(x), end(x)
auto ndvec(int n, auto e) { return vector(n, e); }
auto ndvec(int n, auto ...e) { return vector(n, ndvec(e...)); }
auto comp_key(auto&& f) { return [&](auto&& a, auto&& b) { return f(a) < f(b); }; }
auto& max(const auto& a, const auto& b) { return a < b ? b : a; }
auto& min(const auto& a, const auto& b) { return b < a ? b : a; }
#if __cpp_lib_ranges
namespace R = std::ranges;
namespace V = std::views;
#endif
#line 3 "ds/kd_tree.hpp"
template <class T, size_t K>
class kd_tree {
public:
struct point {
int id;
array<T, K> coord;
};
kd_tree() = default;
template <class Iter>
kd_tree(Iter f, Iter l) : root(build(f, l, 0)) {}
template <class Iter>
void build(Iter f, Iter l) {
ns.clear();
ns.reserve(l - f);
root = build(f, l, 0);
}
template <class Iter>
vector<int> find(Iter range) {
vector<int> ans;
search(root, range, 0, [&](auto &pt) { ans.push_back(pt.id); });
return ans;
}
private:
struct node {
point pt;
int l, r;
};
vector<node> ns;
int root;
template <class Iter>
int build(Iter f, Iter l, int k) {
if (f == l) return -1;
Iter m = f + (l - f) / 2;
nth_element(f, m, l,
[=](auto &&a, auto &&b) { return a.coord[k] < b.coord[k]; });
ns.emplace_back(
node{*m, build(f, m, (k + 1) % K), build(next(m), l, (k + 1) % K)});
return ns.size() - 1;
}
template <class Iter, class F>
void search(int idx, Iter range, int k, F &&f) {
if (idx == -1) return;
bool inside = true;
rep(i, K) if (ns[idx].pt.coord[i] < range[i].first ||
range[i].second <= ns[idx].pt.coord[i]) {
inside = false;
break;
}
if (inside) f(ns[idx].pt);
T x = ns[idx].pt.coord[k];
if (range[k].first <= x) search(ns[idx].l, range, (k + 1) % K, f);
if (x < range[k].second) search(ns[idx].r, range, (k + 1) % K, f);
}
};