#include "data_structure/internal/basic_tree_concept.hpp"
#pragma once #include <concepts> #include <type_traits> #include "internal/concepts.hpp" namespace uni { namespace internal { template<class T> concept basic_tree = std::default_initializable<T> && std::integral<typename T::size_type> && requires (T base, typename T::size_type key, typename T::node_pointer tree, const typename T::node_pointer const_tree) { base.split(const_tree, key, tree, tree); base.merge(tree, const_tree, const_tree); }; } // namespace internal } // namespace name
#line 2 "data_structure/internal/basic_tree_concept.hpp" #include <concepts> #include <type_traits> #line 2 "internal/concepts.hpp" #line 6 "internal/concepts.hpp" #include <ranges> #include <limits> #include <functional> namespace uni { namespace internal { template<class R, class T> concept convertibel_range = std::convertible_to<std::ranges::range_value_t<R>, T>; template<class T, class V> concept item_or_convertible_range = std::convertible_to<T, V> || convertibel_range<T, V>; template<class Structure> concept available = requires () { typename Structure; }; template< template<class...> class Structure, class... TemplateParameters > concept available_with = available<Structure<TemplateParameters...>>; template<class T> concept arithmetic = std::is_arithmetic_v<T>; template<class T> concept pointer = std::is_pointer_v<T>; template<class T> concept structural = std::is_class_v<T>; template<class Large, class Small> concept has_double_digits_of = (std::numeric_limits<Large>::digits == 2 * std::numeric_limits<Small>::digits); template<class Large, class Small> concept has_more_digits_than = (std::numeric_limits<Large>::digits > std::numeric_limits<Small>::digits); template<class Large, class Small> concept has_or_more_digits_than = (std::numeric_limits<Large>::digits >= std::numeric_limits<Small>::digits); template<class T> concept has_static_zero = requires { T::zero; }; template<class T> concept has_static_one = requires { T::one; }; template<class L, class R = L> concept weakly_bitand_calcurable = requires (L lhs, R rhs) { lhs & rhs; }; template<class L, class R = L> concept weakly_bitor_calcurable = requires (L lhs, R rhs) { lhs | rhs; }; template<class L, class R = L> concept weakly_bitxor_calcurable = requires (L lhs, R rhs) { lhs ^ rhs; }; template<class L, class R = L> concept weakly_addable = requires (L lhs, R rhs) { lhs + rhs; }; template<class L, class R = L> concept weakly_subtractable = requires (L lhs, R rhs) { lhs - rhs; }; template<class L, class R = L> concept weakly_multipliable = requires (L lhs, R rhs) { lhs * rhs; }; template<class L, class R = L> concept weakly_divisable = requires (L lhs, R rhs) { lhs / rhs; }; template<class L, class R = L> concept weakly_remainder_calculable = requires (L lhs, R rhs) { lhs % rhs; }; template<class L, class R = L> concept weakly_bitand_assignable = requires (L lhs, R rhs) { lhs += rhs; }; template<class L, class R = L> concept weakly_bitor_assignable = requires (L lhs, R rhs) { lhs |= rhs; }; template<class L, class R = L> concept weakly_bitxor_assignable = requires (L lhs, R rhs) { lhs ^= rhs; }; template<class L, class R = L> concept weakly_addition_assignable = requires (L lhs, R rhs) { lhs += rhs; }; template<class L, class R = L> concept weakly_subtraction_assignable = requires (L lhs, R rhs) { lhs -= rhs; }; template<class L, class R = L> concept weakly_multipliation_assignalbe = requires (L lhs, R rhs) { lhs *= rhs; }; template<class L, class R = L> concept weakly_division_assignable = requires (L lhs, R rhs) { lhs /= rhs; }; template<class L, class R = L> concept weakly_remainder_assignable = requires (L lhs, R rhs) { lhs /= rhs; }; template<class L, class R = L> concept bitand_calculable = weakly_bitand_calcurable<L, R> && weakly_bitand_calcurable<std::invoke_result_t<std::bit_and<>&, L, R>, R> && weakly_bitand_calcurable<L, std::invoke_result_t<std::bit_and<>&, L, R>> && weakly_bitand_calcurable<std::invoke_result_t<std::bit_and<>&, L, R>, std::invoke_result_t<std::bit_and<>&, L, R>>; template<class L, class R = L> concept bitor_calculable = weakly_bitor_calcurable<L, R> && weakly_bitor_calcurable<std::invoke_result_t<std::bit_or<>&, L, R>, R> && weakly_bitor_calcurable<L, std::invoke_result_t<std::bit_or<>&, L, R>> && weakly_bitor_calcurable<std::invoke_result_t<std::bit_or<>&, L, R>, std::invoke_result_t<std::bit_or<>&, L, R>>; template<class L, class R = L> concept bitxor_calculable = weakly_bitxor_calcurable<L, R> && weakly_bitxor_calcurable<std::invoke_result_t<std::bit_xor<>&, L, R>, R> && weakly_bitxor_calcurable<L, std::invoke_result_t<std::bit_xor<>&, L, R>> && weakly_bitxor_calcurable<std::invoke_result_t<std::bit_xor<>&, L, R>, std::invoke_result_t<std::bit_xor<>&, L, R>>; template<class L, class R = L> concept addable = weakly_addable<L, R> && weakly_addable<std::invoke_result_t<std::plus<>&, L, R>, R> && weakly_addable<L, std::invoke_result_t<std::plus<>&, L, R>> && weakly_addable<std::invoke_result_t<std::plus<>&, L, R>, std::invoke_result_t<std::plus<>&, L, R>>; template<class L, class R = L> concept subtractable = weakly_subtractable<L, R> && weakly_subtractable<std::invoke_result_t<std::minus<>&, L, R>, R> && weakly_subtractable<L, std::invoke_result_t<std::minus<>&, L, R>> && weakly_subtractable<std::invoke_result_t<std::minus<>&, L, R>, std::invoke_result_t<std::minus<>&, L, R>>; template<class L, class R = L> concept multipliable = weakly_multipliable<L, R> && weakly_multipliable<std::invoke_result_t<std::multiplies<>&, L, R>, R> && weakly_multipliable<L, std::invoke_result_t<std::multiplies<>&, L, R>> && weakly_multipliable<std::invoke_result_t<std::multiplies<>&, L, R>, std::invoke_result_t<std::multiplies<>&, L, R>>; template<class L, class R = L> concept divisable = weakly_divisable<L, R> && weakly_divisable<std::invoke_result_t<std::divides<>&, L, R>, R> && weakly_divisable<L, std::invoke_result_t<std::divides<>&, L, R>> && weakly_divisable<std::invoke_result_t<std::divides<>&, L, R>, std::invoke_result_t<std::divides<>&, L, R>>; template<class L, class R = L> concept remainder_calculable = weakly_remainder_calculable<L, R> && weakly_remainder_calculable<std::invoke_result_t<std::modulus<>&, L, R>, R> && weakly_remainder_calculable<L, std::invoke_result_t<std::modulus<>&, L, R>> && weakly_remainder_calculable<std::invoke_result_t<std::modulus<>&, L, R>, std::invoke_result_t<std::modulus<>&, L, R>>; template<class L, class R = L> concept bitand_assignable = weakly_bitand_assignable<L, R> && weakly_bitand_assignable<std::invoke_result_t<std::bit_and<>&, L, R>, R> && weakly_bitand_assignable<L, std::invoke_result_t<std::bit_and<>&, L, R>> && weakly_bitand_assignable<std::invoke_result_t<std::bit_and<>&, L, R>, std::invoke_result_t<std::bit_and<>&, L, R>>; template<class L, class R = L> concept bitor_assignable = weakly_bitor_calcurable<L, R> && weakly_bitor_calcurable<std::invoke_result_t<std::bit_or<>&, L, R>, R> && weakly_bitor_calcurable<L, std::invoke_result_t<std::bit_or<>&, L, R>> && weakly_bitor_calcurable<std::invoke_result_t<std::bit_or<>&, L, R>, std::invoke_result_t<std::bit_or<>&, L, R>>; template<class L, class R = L> concept bitxor_assignable = weakly_bitxor_calcurable<L, R> && weakly_bitxor_calcurable<std::invoke_result_t<std::bit_xor<>&, L, R>, R> && weakly_bitxor_calcurable<L, std::invoke_result_t<std::bit_xor<>&, L, R>> && weakly_bitxor_calcurable<std::invoke_result_t<std::bit_xor<>&, L, R>, std::invoke_result_t<std::bit_xor<>&, L, R>>; template<class L, class R = L> concept addition_assignable = weakly_addition_assignable<L, R> && weakly_addition_assignable<std::remove_cvref_t<std::invoke_result_t<std::plus<>&, L, R>>, R> && weakly_addition_assignable<L, std::invoke_result_t<std::plus<>&, L, R>> && weakly_addition_assignable<std::remove_cvref_t<std::invoke_result_t<std::plus<>&, L, R>>, std::invoke_result_t<std::plus<>&, L, R>>; template<class L, class R = L> concept subtraction_assignable = weakly_subtraction_assignable<L, R> && weakly_subtraction_assignable<std::remove_cvref_t<std::invoke_result_t<std::minus<>&, L, R>>, R> && weakly_subtraction_assignable<L, std::invoke_result_t<std::minus<>&, L, R>> && weakly_subtraction_assignable<std::remove_cvref_t<std::invoke_result_t<std::minus<>&, L, R>>, std::invoke_result_t<std::minus<>&, L, R>>; template<class L, class R = L> concept multipliation_assignalbe = weakly_multipliation_assignalbe<L, R> && weakly_multipliation_assignalbe<std::remove_cvref_t<std::invoke_result_t<std::multiplies<>&, L, R>>, R> && weakly_multipliation_assignalbe<L, std::invoke_result_t<std::multiplies<>&, L, R>> && weakly_multipliation_assignalbe<std::remove_cvref_t<std::invoke_result_t<std::multiplies<>&, L, R>>, std::invoke_result_t<std::multiplies<>&, L, R>>; template<class L, class R = L> concept division_assignable = weakly_division_assignable<L, R> && weakly_division_assignable<std::remove_cvref_t<std::invoke_result_t<std::divides<>&, L, R>>, R> && weakly_division_assignable<L, std::invoke_result_t<std::divides<>&, L, R>> && weakly_division_assignable<std::remove_cvref_t<std::invoke_result_t<std::divides<>&, L, R>>, std::invoke_result_t<std::divides<>&, L, R>>; template<class L, class R = L> concept remainder_assignable = weakly_remainder_assignable<L, R> && weakly_remainder_assignable<std::remove_cvref_t<std::invoke_result_t<std::modulus<>&, L, R>>, R> && weakly_remainder_assignable<L, std::invoke_result_t<std::modulus<>&, L, R>> && weakly_remainder_assignable<std::remove_cvref_t<std::invoke_result_t<std::modulus<>&, L, R>>, std::invoke_result_t<std::modulus<>&, L, R>>; template<class T> concept weakly_incrementable = std::movable<T> && requires (T v) { { ++v } -> std::same_as<T&>; v++; }; template<class T> concept weakly_decrementable = std::movable<T> && requires (T v) { { --v } -> std::same_as<T&>; v--; }; template<class T> concept incrementable = std::regular<T> && weakly_incrementable<T> && requires (T v) { { v++ } -> std::same_as<T>; }; template<class T> concept decrementable = std::regular<T> && weakly_decrementable<T> && requires (T v) { { v-- } -> std::same_as<T>; }; template<class L, class R = L> concept weakly_arithmetic_operable = weakly_addable<L, R> && weakly_subtractable<L, R> && weakly_multipliable<L, R> && weakly_divisable<L, R>; template<class L, class R = L> concept weakly_arithmetic_operation_assignable = weakly_addition_assignable<L, R> && weakly_subtraction_assignable<L, R> && weakly_multipliation_assignalbe<L, R> && weakly_division_assignable<L, R>; template<class L, class R = L> concept arithmetic_operable = weakly_arithmetic_operable<L, R> && addable<L, R> && subtractable<L, R> && multipliable<L, R> && divisable<L, R>; template<class L, class R = L> concept arithmetic_operation_assignable = weakly_arithmetic_operation_assignable<L, R> && addition_assignable<L, R> && subtraction_assignable<L, R> && multipliation_assignalbe<L, R> && division_assignable<L, R>; template<class T> concept unary_addable = requires (T v) { { +v } -> std::same_as<T>; }; template<class T> concept unary_subtractable = requires (T v) { { -v } -> std::same_as<T>; }; template<class T> concept numeric = std::regular<T> && arithmetic_operable<T> && arithmetic_operation_assignable<T> && weakly_incrementable<T> && unary_addable<T> && unary_subtractable<T>; } // namespace internal } // namespace uni #line 8 "data_structure/internal/basic_tree_concept.hpp" namespace uni { namespace internal { template<class T> concept basic_tree = std::default_initializable<T> && std::integral<typename T::size_type> && requires (T base, typename T::size_type key, typename T::node_pointer tree, const typename T::node_pointer const_tree) { base.split(const_tree, key, tree, tree); base.merge(tree, const_tree, const_tree); }; } // namespace internal } // namespace name