fd07301bae
also: - fixed a bunch of doxygen parsing issues - added `#define` leak detection to the single-header script - renamed `TOML_ALL_INLINE` to `TOML_HEADER_ONLY` (the old one still works too) - simplified abi namespace definitions
337 lines
16 KiB
C++
337 lines
16 KiB
C++
// This file is a part of toml++ and is subject to the the terms of the MIT license.
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// Copyright (c) 2019-2020 Mark Gillard <mark.gillard@outlook.com.au>
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// See https://github.com/marzer/tomlplusplus/blob/master/LICENSE for the full license text.
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// SPDX-License-Identifier: MIT
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#include "settings.h"
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#if !TOML_HEADER_ONLY
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#define TOML_IMPLEMENTATION
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#endif
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#if USE_TARTANLLAMA_OPTIONAL
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#include "tloptional.h"
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#endif
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#if USE_SINGLE_HEADER
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#include "../toml.hpp"
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#else
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#include "../include/toml++/toml.h"
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#endif
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#if defined(TOML_FP16) ^ SHOULD_HAVE_FP16
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#error TOML_FP16 was not deduced correctly
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#endif
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#if defined(TOML_FLOAT16) ^ SHOULD_HAVE_FLOAT16
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#error TOML_FLOAT16 was not deduced correctly
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#endif
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#if defined(TOML_FLOAT128) ^ SHOULD_HAVE_FLOAT128
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#error TOML_FLOAT128 was not deduced correctly
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#endif
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#if defined(TOML_INT128) ^ SHOULD_HAVE_INT128
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#error TOML_INT128 was not deduced correctly
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#endif
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#if defined(TOML_INT128) ^ defined(TOML_UINT128)
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#error TOML_INT128 and TOML_UINT128 must both be defined, or neither be defined
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#endif
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#if TOML_COMPILER_EXCEPTIONS != SHOULD_HAVE_EXCEPTIONS
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#error TOML_COMPILER_EXCEPTIONS was not deduced correctly
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#endif
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#if TOML_COMPILER_EXCEPTIONS != TOML_EXCEPTIONS
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#error TOML_EXCEPTIONS does not match TOML_COMPILER_EXCEPTIONS (default behaviour should be to match)
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#endif
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#if (defined(_WIN32) && !TOML_WINDOWS_COMPAT) || (!defined(_WIN32) && TOML_WINDOWS_COMPAT)
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#error TOML_WINDOWS_COMPAT does not match _WIN32 (default behaviour should be to match)
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#endif
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namespace toml
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{
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using std::declval;
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using std::is_same_v;
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#define CHECK_NODE_TYPE_MAPPING(T, expected) \
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static_assert(impl::node_type_of<T> == expected); \
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static_assert(impl::node_type_of<T&> == expected); \
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static_assert(impl::node_type_of<T&&> == expected); \
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static_assert(impl::node_type_of<const T> == expected); \
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static_assert(impl::node_type_of<const T&> == expected); \
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static_assert(impl::node_type_of<const T&&> == expected); \
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static_assert(impl::node_type_of<volatile T> == expected); \
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static_assert(impl::node_type_of<volatile T&> == expected); \
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static_assert(impl::node_type_of<volatile T&&> == expected); \
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static_assert(impl::node_type_of<const volatile T> == expected); \
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static_assert(impl::node_type_of<const volatile T&> == expected); \
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static_assert(impl::node_type_of<const volatile T&&> == expected)
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CHECK_NODE_TYPE_MAPPING(int64_t, node_type::integer);
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CHECK_NODE_TYPE_MAPPING(double, node_type::floating_point);
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CHECK_NODE_TYPE_MAPPING(std::string, node_type::string);
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CHECK_NODE_TYPE_MAPPING(bool, node_type::boolean);
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CHECK_NODE_TYPE_MAPPING(toml::date, node_type::date);
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CHECK_NODE_TYPE_MAPPING(toml::time, node_type::time);
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CHECK_NODE_TYPE_MAPPING(toml::date_time, node_type::date_time);
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CHECK_NODE_TYPE_MAPPING(toml::array, node_type::array);
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CHECK_NODE_TYPE_MAPPING(toml::table, node_type::table);
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#define CHECK_CAN_REPRESENT_NATIVE(T, expected) \
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static_assert((impl::value_traits<T>::is_native || impl::value_traits<T>::can_represent_native) == expected)
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CHECK_CAN_REPRESENT_NATIVE(time, true);
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CHECK_CAN_REPRESENT_NATIVE(date, true);
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CHECK_CAN_REPRESENT_NATIVE(date_time, true);
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CHECK_CAN_REPRESENT_NATIVE(bool, true);
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CHECK_CAN_REPRESENT_NATIVE(int8_t, false);
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CHECK_CAN_REPRESENT_NATIVE(int16_t, false);
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CHECK_CAN_REPRESENT_NATIVE(int32_t, false);
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CHECK_CAN_REPRESENT_NATIVE(int64_t, true);
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CHECK_CAN_REPRESENT_NATIVE(uint8_t, false);
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CHECK_CAN_REPRESENT_NATIVE(uint16_t, false);
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CHECK_CAN_REPRESENT_NATIVE(uint32_t, false);
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CHECK_CAN_REPRESENT_NATIVE(uint64_t, false);
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CHECK_CAN_REPRESENT_NATIVE(float, false);
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CHECK_CAN_REPRESENT_NATIVE(double, true);
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#ifdef TOML_INT128
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CHECK_CAN_REPRESENT_NATIVE(TOML_INT128, true);
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CHECK_CAN_REPRESENT_NATIVE(TOML_UINT128, false);
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#endif
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#ifdef TOML_FP16
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CHECK_CAN_REPRESENT_NATIVE(TOML_FP16, false);
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#endif
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#ifdef TOML_FLOAT16
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CHECK_CAN_REPRESENT_NATIVE(TOML_FLOAT16, false);
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#endif
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#ifdef TOML_FLOAT128
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CHECK_CAN_REPRESENT_NATIVE(TOML_FLOAT128, true);
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#endif
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CHECK_CAN_REPRESENT_NATIVE(char*, false);
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CHECK_CAN_REPRESENT_NATIVE(char*const, false);
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CHECK_CAN_REPRESENT_NATIVE(char[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const char[2], false);
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CHECK_CAN_REPRESENT_NATIVE(char(&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const char(&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(char(&&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const char(&&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const char*, true);
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CHECK_CAN_REPRESENT_NATIVE(const char*const, true);
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CHECK_CAN_REPRESENT_NATIVE(std::string, true);
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CHECK_CAN_REPRESENT_NATIVE(std::string_view, true);
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#ifdef __cpp_lib_char8_t
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CHECK_CAN_REPRESENT_NATIVE(char8_t*, false);
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CHECK_CAN_REPRESENT_NATIVE(char8_t*const, false);
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CHECK_CAN_REPRESENT_NATIVE(char8_t[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const char8_t[2], false);
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CHECK_CAN_REPRESENT_NATIVE(char8_t(&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const char8_t(&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(char(&&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const char8_t(&&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const char8_t*, true);
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CHECK_CAN_REPRESENT_NATIVE(const char8_t*const, true);
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CHECK_CAN_REPRESENT_NATIVE(std::u8string, true);
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CHECK_CAN_REPRESENT_NATIVE(std::u8string_view, true);
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#endif
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CHECK_CAN_REPRESENT_NATIVE(wchar_t*, false);
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CHECK_CAN_REPRESENT_NATIVE(wchar_t*const, false);
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CHECK_CAN_REPRESENT_NATIVE(wchar_t[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const wchar_t[2], false);
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CHECK_CAN_REPRESENT_NATIVE(wchar_t(&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const wchar_t(&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(wchar_t(&&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const wchar_t(&&)[2], false);
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CHECK_CAN_REPRESENT_NATIVE(const wchar_t*, false);
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CHECK_CAN_REPRESENT_NATIVE(const wchar_t*const, false);
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CHECK_CAN_REPRESENT_NATIVE(std::wstring, !!TOML_WINDOWS_COMPAT);
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CHECK_CAN_REPRESENT_NATIVE(std::wstring_view, false);
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#define CHECK_VALUE_EXACT(T, expected) \
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static_assert(is_same_v<decltype(declval<node>().value_exact<T>()), optional<expected>>); \
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static_assert(is_same_v<decltype(declval<node_view<node>>().value_exact<T>()), optional<expected>>); \
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static_assert(is_same_v<decltype(declval<node_view<const node>>().value_exact<T>()), optional<expected>>)
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#define CHECK_VALUE_OR(T, expected) \
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static_assert(is_same_v<decltype(declval<node>().value_or(declval<T>())), expected>); \
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static_assert(is_same_v<decltype(declval<node_view<node>>().value_or(declval<T>())), expected>); \
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static_assert(is_same_v<decltype(declval<node_view<const node>>().value_or(declval<T>())), expected>)
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CHECK_VALUE_EXACT( time, time);
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CHECK_VALUE_EXACT( date, date);
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CHECK_VALUE_EXACT( date_time, date_time);
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CHECK_VALUE_EXACT( bool, bool);
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CHECK_VALUE_EXACT( double, double);
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CHECK_VALUE_EXACT( int64_t, int64_t);
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CHECK_VALUE_EXACT( const char*, const char*);
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CHECK_VALUE_EXACT( std::string_view, std::string_view);
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CHECK_VALUE_EXACT( std::string, std::string);
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#ifdef __cpp_lib_char8_t
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CHECK_VALUE_EXACT( const char8_t*, const char8_t*);
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CHECK_VALUE_EXACT( std::u8string_view, std::u8string_view);
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CHECK_VALUE_EXACT( std::u8string, std::u8string);
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#endif
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CHECK_VALUE_OR( time, time);
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CHECK_VALUE_OR( time&, time);
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CHECK_VALUE_OR( time&&, time);
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CHECK_VALUE_OR( time const, time);
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CHECK_VALUE_OR( date, date);
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CHECK_VALUE_OR( date&, date);
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CHECK_VALUE_OR( date&&, date);
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CHECK_VALUE_OR( date const, date);
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CHECK_VALUE_OR( date_time, date_time);
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CHECK_VALUE_OR( date_time&, date_time);
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CHECK_VALUE_OR( date_time&&, date_time);
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CHECK_VALUE_OR( date_time const, date_time);
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CHECK_VALUE_OR( bool, bool);
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CHECK_VALUE_OR( bool&, bool);
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CHECK_VALUE_OR( bool&&, bool);
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CHECK_VALUE_OR( bool const, bool);
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CHECK_VALUE_OR( int32_t, int32_t);
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CHECK_VALUE_OR( int32_t&, int32_t);
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CHECK_VALUE_OR( int32_t&&, int32_t);
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CHECK_VALUE_OR( int32_t const, int32_t);
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CHECK_VALUE_OR( int64_t, int64_t);
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CHECK_VALUE_OR( int64_t&, int64_t);
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CHECK_VALUE_OR( int64_t&&, int64_t);
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CHECK_VALUE_OR( int64_t const, int64_t);
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#ifdef TOML_INT128
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CHECK_VALUE_OR( TOML_INT128, TOML_INT128);
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CHECK_VALUE_OR( TOML_INT128&, TOML_INT128);
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CHECK_VALUE_OR( TOML_INT128&&, TOML_INT128);
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CHECK_VALUE_OR( TOML_INT128 const, TOML_INT128);
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CHECK_VALUE_OR( TOML_UINT128, TOML_UINT128);
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CHECK_VALUE_OR( TOML_UINT128&, TOML_UINT128);
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CHECK_VALUE_OR( TOML_UINT128&&, TOML_UINT128);
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CHECK_VALUE_OR( TOML_UINT128 const, TOML_UINT128);
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#endif
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#ifdef TOML_FP16
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CHECK_VALUE_OR( TOML_FP16, TOML_FP16);
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CHECK_VALUE_OR( TOML_FP16&, TOML_FP16);
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CHECK_VALUE_OR( TOML_FP16&&, TOML_FP16);
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CHECK_VALUE_OR( TOML_FP16 const, TOML_FP16);
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#endif
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#ifdef TOML_FLOAT16
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CHECK_VALUE_OR( TOML_FLOAT16, TOML_FLOAT16);
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CHECK_VALUE_OR( TOML_FLOAT16&, TOML_FLOAT16);
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CHECK_VALUE_OR( TOML_FLOAT16&&, TOML_FLOAT16);
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CHECK_VALUE_OR( TOML_FLOAT16 const, TOML_FLOAT16);
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#endif
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CHECK_VALUE_OR( float, float);
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CHECK_VALUE_OR( float&, float);
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CHECK_VALUE_OR( float&&, float);
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CHECK_VALUE_OR( float const, float);
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CHECK_VALUE_OR( double, double);
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CHECK_VALUE_OR( double&, double);
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CHECK_VALUE_OR( double&&, double);
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CHECK_VALUE_OR( double const, double);
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#ifdef TOML_FLOAT128
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CHECK_VALUE_OR( TOML_FLOAT128, TOML_FLOAT128);
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CHECK_VALUE_OR( TOML_FLOAT128&, TOML_FLOAT128);
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CHECK_VALUE_OR( TOML_FLOAT128&&, TOML_FLOAT128);
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CHECK_VALUE_OR( TOML_FLOAT128 const, TOML_FLOAT128);
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#endif
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CHECK_VALUE_OR( char*, const char*);
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CHECK_VALUE_OR( char*&, const char*);
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CHECK_VALUE_OR( char*&&, const char*);
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CHECK_VALUE_OR( char*const, const char*);
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CHECK_VALUE_OR( char[2], const char*);
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CHECK_VALUE_OR( char(&)[2], const char*);
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CHECK_VALUE_OR( char(&&)[2], const char*);
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CHECK_VALUE_OR( const char*, const char*);
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CHECK_VALUE_OR( const char*&, const char*);
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CHECK_VALUE_OR( const char*&&, const char*);
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CHECK_VALUE_OR( const char*const, const char*);
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CHECK_VALUE_OR( const char[2], const char*);
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CHECK_VALUE_OR( const char(&)[2], const char*);
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CHECK_VALUE_OR( const char(&&)[2], const char*);
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CHECK_VALUE_OR( std::string_view, std::string_view);
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CHECK_VALUE_OR( std::string_view&, std::string_view);
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CHECK_VALUE_OR( std::string_view&&, std::string_view);
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CHECK_VALUE_OR( const std::string_view, std::string_view);
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CHECK_VALUE_OR( const std::string_view&, std::string_view);
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CHECK_VALUE_OR( const std::string_view&&, std::string_view);
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CHECK_VALUE_OR( std::string, std::string);
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CHECK_VALUE_OR( std::string&, std::string);
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CHECK_VALUE_OR( std::string&&, std::string);
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CHECK_VALUE_OR( const std::string, std::string);
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CHECK_VALUE_OR( const std::string&, std::string);
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CHECK_VALUE_OR( const std::string&&, std::string);
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#ifdef __cpp_lib_char8_t
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CHECK_VALUE_OR( char8_t*, const char8_t*);
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CHECK_VALUE_OR( char8_t*&, const char8_t*);
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CHECK_VALUE_OR( char8_t*&&, const char8_t*);
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CHECK_VALUE_OR( char8_t*const, const char8_t*);
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CHECK_VALUE_OR( char8_t[2], const char8_t*);
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CHECK_VALUE_OR( char8_t(&)[2], const char8_t*);
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CHECK_VALUE_OR( char8_t(&&)[2], const char8_t*);
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CHECK_VALUE_OR( const char8_t*, const char8_t*);
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CHECK_VALUE_OR( const char8_t*&, const char8_t*);
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CHECK_VALUE_OR( const char8_t*&&, const char8_t*);
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CHECK_VALUE_OR( const char8_t*const, const char8_t*);
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CHECK_VALUE_OR( const char8_t[2], const char8_t*);
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CHECK_VALUE_OR( const char8_t(&)[2], const char8_t*);
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CHECK_VALUE_OR( const char8_t(&&)[2], const char8_t*);
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CHECK_VALUE_OR( std::u8string_view, std::u8string_view);
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CHECK_VALUE_OR( std::u8string_view&, std::u8string_view);
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CHECK_VALUE_OR( std::u8string_view&&, std::u8string_view);
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CHECK_VALUE_OR( const std::u8string_view, std::u8string_view);
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CHECK_VALUE_OR( const std::u8string_view&, std::u8string_view);
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CHECK_VALUE_OR( const std::u8string_view&&, std::u8string_view);
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CHECK_VALUE_OR( std::u8string, std::u8string);
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CHECK_VALUE_OR( std::u8string&, std::u8string);
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CHECK_VALUE_OR( std::u8string&&, std::u8string);
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CHECK_VALUE_OR( const std::u8string, std::u8string);
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CHECK_VALUE_OR( const std::u8string&, std::u8string);
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CHECK_VALUE_OR( const std::u8string&&, std::u8string);
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#endif
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#if TOML_WINDOWS_COMPAT
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CHECK_VALUE_OR( wchar_t*, std::wstring);
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CHECK_VALUE_OR( wchar_t*&, std::wstring);
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CHECK_VALUE_OR( wchar_t*&&, std::wstring);
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CHECK_VALUE_OR( wchar_t*const, std::wstring);
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CHECK_VALUE_OR( wchar_t[2], std::wstring);
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CHECK_VALUE_OR( wchar_t(&)[2], std::wstring);
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CHECK_VALUE_OR( wchar_t(&&)[2], std::wstring);
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CHECK_VALUE_OR( const wchar_t*, std::wstring);
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CHECK_VALUE_OR( const wchar_t*&, std::wstring);
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CHECK_VALUE_OR( const wchar_t*&&, std::wstring);
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CHECK_VALUE_OR( const wchar_t*const, std::wstring);
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CHECK_VALUE_OR( const wchar_t[2], std::wstring);
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CHECK_VALUE_OR( const wchar_t(&)[2], std::wstring);
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CHECK_VALUE_OR( const wchar_t(&&)[2], std::wstring);
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CHECK_VALUE_OR( std::wstring_view, std::wstring);
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CHECK_VALUE_OR( std::wstring_view&, std::wstring);
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CHECK_VALUE_OR( std::wstring_view&&, std::wstring);
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CHECK_VALUE_OR( const std::wstring_view, std::wstring);
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CHECK_VALUE_OR( const std::wstring_view&, std::wstring);
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CHECK_VALUE_OR( const std::wstring_view&&, std::wstring);
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CHECK_VALUE_OR( std::wstring, std::wstring);
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CHECK_VALUE_OR( std::wstring&, std::wstring);
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CHECK_VALUE_OR( std::wstring&&, std::wstring);
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CHECK_VALUE_OR( const std::wstring, std::wstring);
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CHECK_VALUE_OR( const std::wstring&, std::wstring);
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CHECK_VALUE_OR( const std::wstring&&, std::wstring);
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#endif
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static_assert(is_same_v<decltype(declval<node&>().ref<double>()), double&>);
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static_assert(is_same_v<decltype(declval<node&&>().ref<double>()), double&&>);
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static_assert(is_same_v<decltype(declval<const node&>().ref<double>()), const double&>);
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static_assert(is_same_v<decltype(declval<node&>().ref<value<double>>()), double&>);
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static_assert(is_same_v<decltype(declval<node&&>().ref<value<double>>()), double&&>);
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static_assert(is_same_v<decltype(declval<const node&>().ref<value<double>>()), const double&>);
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static_assert(is_same_v<decltype(declval<node&>().ref<table>()), table&>);
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static_assert(is_same_v<decltype(declval<node&&>().ref<table>()), table&&>);
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static_assert(is_same_v<decltype(declval<const node&>().ref<table>()), const table&>);
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static_assert(is_same_v<decltype(declval<node&>().ref<array>()), array&>);
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static_assert(is_same_v<decltype(declval<node&&>().ref<array>()), array&&>);
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static_assert(is_same_v<decltype(declval<const node&>().ref<array>()), const array&>);
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static_assert(is_same_v<decltype(declval<node_view<node>>().ref<double>()), double&>);
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static_assert(is_same_v<decltype(declval<node_view<const node>>().ref<double>()), const double&>);
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static_assert(is_same_v<decltype(declval<node_view<node>>().ref<value<double>>()), double&>);
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static_assert(is_same_v<decltype(declval<node_view<const node>>().ref<value<double>>()), const double&>);
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static_assert(is_same_v<decltype(declval<node_view<node>>().ref<table>()), table&>);
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static_assert(is_same_v<decltype(declval<node_view<const node>>().ref<table>()), const table&>);
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static_assert(is_same_v<decltype(declval<node_view<node>>().ref<array>()), array&>);
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static_assert(is_same_v<decltype(declval<node_view<const node>>().ref<array>()), const array&>);
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}
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