CompetitiveProgrammingCpp
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Library/Algebraic/Monoid.hpp
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- Last update: 2024-12-27 16:29:20+09:00
- Include:
#include "Library/Algebraic/Monoid.hpp"
Required by
- Library/DataStructure/DynamicSegmentTree.hpp
- Library/DataStructure/LazySegmentTree.hpp
- Library/DataStructure/SegmentTree.hpp
- Library/Graph/Tree/ReRootingDP.hpp
Verified with
- Test/Algorithms/CoordinateCompression_comp.test.cpp
- Test/Algorithms/CoordinateCompression_to.test.cpp
- Test/DataStructure/DynamicSegmentTree.test.cpp
- Test/DataStructure/DynamicSegmentTree_RMQ.test.cpp
- Test/DataStructure/DynamicSegmentTree_RSQ.test.cpp
- Test/DataStructure/LazySegmentTree_RAQRMQ.test.cpp
- Test/DataStructure/LazySegmentTree_RAQRSQ.test.cpp
- Test/DataStructure/LazySegmentTree_RUQRMQ.test.cpp
- Test/DataStructure/LazySegmentTree_RUQRSQ.test.cpp
- Test/DataStructure/LazySegmentTree_maxright.test.cpp
- Test/DataStructure/SegmentTree_RMQ.test.cpp
- Test/DataStructure/SegmentTree_RSQ.test.cpp
- Test/DataStructure/SegmentTree_maxright.test.cpp
- Test/DataStructure/SegmentTree_minleft.test.cpp
- Test/Graph/Tree/HeavyLightDecomposition_edge.test.cpp
- Test/Graph/Tree/ReRootingDP.test.cpp
- Test/Graph/Tree/ReRootingDP_cost.test.cpp
- Test/String/LCPArray.test.cpp
Code
#pragma once
#include <iostream>
namespace mtd {
template <class S, // set
S element, // identity element
class op // binary operation
>
requires std::is_invocable_r_v<S, op, S, S>
struct Monoid {
using value_type = S;
constexpr static S _element = element;
using op_type = op;
S m_val;
constexpr Monoid(S val) : m_val(val) {}
constexpr Monoid() : Monoid(element) {}
constexpr Monoid binaryOperation(const Monoid& m2) const {
return op()(m_val, m2.m_val);
}
friend std::ostream& operator<<(std::ostream& os,
const Monoid<S, element, op>& m) {
return os << m.m_val;
}
};
namespace __detail {
template <typename T, template <typename, auto, typename> typename S>
concept is_monoid_specialization_of = requires {
typename std::enable_if_t<std::is_same_v<
T, S<typename T::value_type, T::_element, typename T::op_type>>>;
};
} // namespace __detail
template <typename M>
concept monoid = __detail::is_monoid_specialization_of<M, Monoid>;
} // namespace mtd#line 2 "Library/Algebraic/Monoid.hpp"
#include <iostream>
namespace mtd {
template <class S, // set
S element, // identity element
class op // binary operation
>
requires std::is_invocable_r_v<S, op, S, S>
struct Monoid {
using value_type = S;
constexpr static S _element = element;
using op_type = op;
S m_val;
constexpr Monoid(S val) : m_val(val) {}
constexpr Monoid() : Monoid(element) {}
constexpr Monoid binaryOperation(const Monoid& m2) const {
return op()(m_val, m2.m_val);
}
friend std::ostream& operator<<(std::ostream& os,
const Monoid<S, element, op>& m) {
return os << m.m_val;
}
};
namespace __detail {
template <typename T, template <typename, auto, typename> typename S>
concept is_monoid_specialization_of = requires {
typename std::enable_if_t<std::is_same_v<
T, S<typename T::value_type, T::_element, typename T::op_type>>>;
};
} // namespace __detail
template <typename M>
concept monoid = __detail::is_monoid_specialization_of<M, Monoid>;
} // namespace mtd