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昇順 $K$ 個の和を取れるpriority_queue
(Src/DataStructure/Other/PriorityProductSet.hpp)
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- Last update: 2025-04-17 19:44:48+09:00
- Include:
#include "Src/DataStructure/Other/PriorityProductSet.hpp"
概要
要素の挿入と昇順 $K$ 要素の和が取れるデータ構造。要素の削除は $K$ 番目からしか行えないことに注意。
- 群を載せることができる
ライブラリ
PriorityProductSet()
PriorityProductSet(usize K)
void insert(V&& v)
void insert(const V& v)
usize size() const
inline usize K() const
std::optional<V> product() const
std::optional<V> productRemain() const
V productAll() const
V popK()
Depends on
- Src/Algebra/Group/GroupConcept.hpp
- Src/Algebra/Monoid/MonoidConcept.hpp
- Src/Algebra/Semigroup/SemigroupConcept.hpp
- 標準データ型のエイリアス
(Src/Template/TypeAlias.hpp)
Verified with
Code
#pragma once
#include "../../Template/TypeAlias.hpp"
#include "../../Algebra/Group/GroupConcept.hpp"
#include <cassert>
#include <optional>
#include <utility>
#include <queue>
namespace zawa {
// 1-indexed
template <concepts::Group G>
class PriorityProductSet {
public:
using V = G::Element;
PriorityProductSet() = default;
PriorityProductSet(usize K) : m_K{K} {}
void insert(V&& v) {
pushSmall(std::move(v));
adjust();
}
void insert(const V& v) {
insert(V{v});
}
usize size() const {
return m_small.size() + m_big.size();
}
inline usize K() const {
return m_K;
}
void setK(usize K) {
m_K = K;
adjust();
}
std::optional<V> product() const {
return m_small.size() == m_K ? std::optional<V>{m_sv} : std::nullopt;
}
std::optional<V> productRemain() const {
return m_small.size() == m_K ? std::optional<V>{m_bv} : std::nullopt;
}
V productAll() const {
return G::operation(m_sv, m_bv);
}
V popK() {
assert(m_K >= 1u and size() >= m_K);
V res = popSmall();
adjust();
return res;
}
private:
std::priority_queue<V> m_small;
std::priority_queue<V, std::vector<V>, std::greater<V>> m_big;
V m_sv = G::identity(), m_bv = G::identity();
usize m_K = 0;
void pushSmall(V&& v) {
m_sv = G::operation(m_sv, v);
m_small.push(std::move(v));
}
V popSmall() {
assert(m_small.size());
V res = m_small.top();
m_small.pop();
m_sv = G::operation(m_sv, G::inverse(res));
return res;
}
void pushBig(V&& v) {
m_bv = G::operation(m_bv, v);
m_big.push(std::move(v));
}
V popBig() {
assert(m_big.size());
V res = m_big.top();
m_big.pop();
m_bv = G::operation(m_bv, G::inverse(res));
return res;
}
void adjust() {
while (m_small.size() > m_K) pushBig(popSmall());
while (m_small.size() < m_K and m_big.size()) pushSmall(popBig());
}
};
} // namespace zawa#line 2 "Src/DataStructure/Other/PriorityProductSet.hpp"
#line 2 "Src/Template/TypeAlias.hpp"
#include <cstdint>
#include <cstddef>
namespace zawa {
using i16 = std::int16_t;
using i32 = std::int32_t;
using i64 = std::int64_t;
using i128 = __int128_t;
using u8 = std::uint8_t;
using u16 = std::uint16_t;
using u32 = std::uint32_t;
using u64 = std::uint64_t;
using usize = std::size_t;
} // namespace zawa
#line 2 "Src/Algebra/Group/GroupConcept.hpp"
#line 2 "Src/Algebra/Monoid/MonoidConcept.hpp"
#line 2 "Src/Algebra/Semigroup/SemigroupConcept.hpp"
#include <concepts>
namespace zawa {
namespace concepts {
template <class T>
concept Semigroup = requires {
typename T::Element;
{ T::operation(std::declval<typename T::Element>(), std::declval<typename T::Element>()) } -> std::same_as<typename T::Element>;
};
} // namespace concepts
} // namespace zawa
#line 4 "Src/Algebra/Monoid/MonoidConcept.hpp"
#line 6 "Src/Algebra/Monoid/MonoidConcept.hpp"
namespace zawa {
namespace concepts {
template <class T>
concept Identitiable = requires {
typename T::Element;
{ T::identity() } -> std::same_as<typename T::Element>;
};
template <class T>
concept Monoid = Semigroup<T> and Identitiable<T>;
} // namespace
} // namespace zawa
#line 4 "Src/Algebra/Group/GroupConcept.hpp"
namespace zawa {
namespace concepts {
template <class T>
concept Inversible = requires {
typename T::Element;
{ T::inverse(std::declval<typename T::Element>()) } -> std::same_as<typename T::Element>;
};
template <class T>
concept Group = Monoid<T> and Inversible<T>;
} // namespace Concept
} // namespace zawa
#line 5 "Src/DataStructure/Other/PriorityProductSet.hpp"
#include <cassert>
#include <optional>
#include <utility>
#include <queue>
namespace zawa {
// 1-indexed
template <concepts::Group G>
class PriorityProductSet {
public:
using V = G::Element;
PriorityProductSet() = default;
PriorityProductSet(usize K) : m_K{K} {}
void insert(V&& v) {
pushSmall(std::move(v));
adjust();
}
void insert(const V& v) {
insert(V{v});
}
usize size() const {
return m_small.size() + m_big.size();
}
inline usize K() const {
return m_K;
}
void setK(usize K) {
m_K = K;
adjust();
}
std::optional<V> product() const {
return m_small.size() == m_K ? std::optional<V>{m_sv} : std::nullopt;
}
std::optional<V> productRemain() const {
return m_small.size() == m_K ? std::optional<V>{m_bv} : std::nullopt;
}
V productAll() const {
return G::operation(m_sv, m_bv);
}
V popK() {
assert(m_K >= 1u and size() >= m_K);
V res = popSmall();
adjust();
return res;
}
private:
std::priority_queue<V> m_small;
std::priority_queue<V, std::vector<V>, std::greater<V>> m_big;
V m_sv = G::identity(), m_bv = G::identity();
usize m_K = 0;
void pushSmall(V&& v) {
m_sv = G::operation(m_sv, v);
m_small.push(std::move(v));
}
V popSmall() {
assert(m_small.size());
V res = m_small.top();
m_small.pop();
m_sv = G::operation(m_sv, G::inverse(res));
return res;
}
void pushBig(V&& v) {
m_bv = G::operation(m_bv, v);
m_big.push(std::move(v));
}
V popBig() {
assert(m_big.size());
V res = m_big.top();
m_big.pop();
m_bv = G::operation(m_bv, G::inverse(res));
return res;
}
void adjust() {
while (m_small.size() > m_K) pushBig(popSmall());
while (m_small.size() < m_K and m_big.size()) pushSmall(popBig());
}
};
} // namespace zawa