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352 lines
11 KiB
C++
352 lines
11 KiB
C++
#pragma once
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#include "port.h"
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#include <macro_map.h>
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#include <optional.h>
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#include <variant.h>
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#include <cassert>
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#include <memory>
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#include <string>
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#include <type_traits>
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#include <vector>
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enum class SerializeFormat { Json, MessagePack };
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class Reader {
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public:
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virtual ~Reader() {}
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virtual SerializeFormat Format() const = 0;
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virtual bool IsBool() = 0;
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virtual bool IsNull() = 0;
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virtual bool IsArray() = 0;
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virtual bool IsInt() = 0;
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virtual bool IsInt64() = 0;
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virtual bool IsUint64() = 0;
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virtual bool IsDouble() = 0;
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virtual bool IsString() = 0;
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virtual void GetNull() = 0;
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virtual bool GetBool() = 0;
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virtual int GetInt() = 0;
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virtual uint32_t GetUint32() = 0;
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virtual int64_t GetInt64() = 0;
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virtual uint64_t GetUint64() = 0;
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virtual double GetDouble() = 0;
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virtual std::string GetString() = 0;
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virtual bool HasMember(const char* x) = 0;
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virtual std::unique_ptr<Reader> operator[](const char* x) = 0;
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virtual void IterArray(std::function<void(Reader&)> fn) = 0;
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virtual void DoMember(const char* name, std::function<void(Reader&)> fn) = 0;
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};
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class Writer {
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public:
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virtual ~Writer() {}
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virtual SerializeFormat Format() const = 0;
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virtual void Null() = 0;
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virtual void Bool(bool x) = 0;
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virtual void Int(int x) = 0;
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virtual void Uint32(uint32_t x) = 0;
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virtual void Int64(int64_t x) = 0;
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virtual void Uint64(uint64_t x) = 0;
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virtual void Double(double x) = 0;
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virtual void String(const char* x) = 0;
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virtual void String(const char* x, size_t len) = 0;
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virtual void StartArray(size_t) = 0;
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virtual void EndArray() = 0;
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virtual void StartObject() = 0;
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virtual void EndObject() = 0;
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virtual void Key(const char* name) = 0;
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};
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struct IndexFile;
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#define REFLECT_MEMBER_START() \
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if (!ReflectMemberStart(visitor, value)) \
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return
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#define REFLECT_MEMBER_START1(value) \
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if (!ReflectMemberStart(visitor, value)) \
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return
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#define REFLECT_MEMBER_END() ReflectMemberEnd(visitor, value);
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#define REFLECT_MEMBER_END1(value) ReflectMemberEnd(visitor, value);
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#define REFLECT_MEMBER(name) ReflectMember(visitor, #name, value.name)
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#define REFLECT_MEMBER2(name, value) ReflectMember(visitor, name, value)
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// TODO Make it inline because this macro can be used in header files.
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#define MAKE_REFLECT_TYPE_PROXY(type, as_type) \
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ATTRIBUTE_UNUSED inline void Reflect(Reader& visitor, type& value) { \
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as_type value0; \
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::Reflect(visitor, value0); \
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value = static_cast<type>(value0); \
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} \
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ATTRIBUTE_UNUSED inline void Reflect(Writer& visitor, type& value) { \
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auto value0 = static_cast<as_type>(value); \
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::Reflect(visitor, value0); \
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}
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#define _MAPPABLE_REFLECT_MEMBER(name) REFLECT_MEMBER(name);
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#define MAKE_REFLECT_EMPTY_STRUCT(type, ...) \
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template <typename TVisitor> \
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void Reflect(TVisitor& visitor, type& value) { \
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REFLECT_MEMBER_START(); \
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REFLECT_MEMBER_END(); \
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}
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#define MAKE_REFLECT_STRUCT(type, ...) \
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template <typename TVisitor> \
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void Reflect(TVisitor& visitor, type& value) { \
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REFLECT_MEMBER_START(); \
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MACRO_MAP(_MAPPABLE_REFLECT_MEMBER, __VA_ARGS__) \
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REFLECT_MEMBER_END(); \
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}
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// clang-format off
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// Config has many fields, we need to support at least its number of fields.
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#define NUM_VA_ARGS_IMPL(_1,_2,_3,_4,_5,_6,_7,_8,_9,_10,_11,_12,_13,_14,_15,_16,_17,_18,_19,_20,_21,_22,_23,_24,_25,_26,_27,_28,_29,_30,N,...) N
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#define NUM_VA_ARGS(...) NUM_VA_ARGS_IMPL(__VA_ARGS__,30,29,28,27,26,25,24,23,22,21,20,19,18,17,16,15,14,13,12,11,10,9,8,7,6,5,4,3,2,1)
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// clang-format on
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#define _MAPPABLE_REFLECT_ARRAY(name) Reflect(visitor, value.name);
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// Reflects the struct so it is serialized as an array instead of an object.
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// This currently only supports writers.
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#define MAKE_REFLECT_STRUCT_WRITER_AS_ARRAY(type, ...) \
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inline void Reflect(Writer& visitor, type& value) { \
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visitor.StartArray(NUM_VA_ARGS(__VA_ARGS__)); \
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MACRO_MAP(_MAPPABLE_REFLECT_ARRAY, __VA_ARGS__) \
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visitor.EndArray(); \
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}
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// API:
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/*
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template<typename TVisitor, typename T>
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void Reflect(TVisitor& visitor, T& value) {
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static_assert(false, "Missing implementation");
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}
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template<typename TVisitor>
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void DefaultReflectMemberStart(TVisitor& visitor) {
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static_assert(false, "Missing implementation");
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}
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template<typename TVisitor, typename T>
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bool ReflectMemberStart(TVisitor& visitor, T& value) {
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static_assert(false, "Missing implementation");
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return true;
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}
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template<typename TVisitor, typename T>
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void ReflectMemberEnd(TVisitor& visitor, T& value) {
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static_assert(false, "Missing implementation");
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}
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*/
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//// Elementary types
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void Reflect(Reader& visitor, uint8_t& value);
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void Reflect(Writer& visitor, uint8_t& value);
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void Reflect(Reader& visitor, int16_t& value);
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void Reflect(Writer& visitor, int16_t& value);
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void Reflect(Reader& visitor, int& value);
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void Reflect(Writer& visitor, int& value);
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void Reflect(Reader& visitor, unsigned& value);
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void Reflect(Writer& visitor, unsigned& value);
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void Reflect(Reader& visitor, long& value);
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void Reflect(Writer& visitor, long& value);
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void Reflect(Reader& visitor, unsigned long& value);
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void Reflect(Writer& visitor, unsigned long& value);
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void Reflect(Reader& visitor, long long& value);
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void Reflect(Writer& visitor, long long& value);
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void Reflect(Reader& visitor, unsigned long long& value);
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void Reflect(Writer& visitor, unsigned long long& value);
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void Reflect(Reader& visitor, double& value);
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void Reflect(Writer& visitor, double& value);
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void Reflect(Reader& visitor, bool& value);
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void Reflect(Writer& visitor, bool& value);
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void Reflect(Reader& visitor, std::string& value);
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void Reflect(Writer& visitor, std::string& value);
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// std::monostate is used to represent JSON null
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void Reflect(Reader& visitor, std::monostate&);
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void Reflect(Writer& visitor, std::monostate&);
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void Reflect(Reader& visitor, SerializeFormat& value);
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void Reflect(Writer& visitor, SerializeFormat& value);
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//// Type constructors
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// ReflectMember optional<T> is used to represent TypeScript optional properties
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// (in `key: value` context).
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// Reflect optional<T> is used for a different purpose, whether an object is
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// nullable (possibly in `value` context). For the nullable semantics,
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// std::variant<std::monostate, T> is recommended.
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template <typename T>
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void Reflect(Reader& visitor, optional<T>& value) {
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if (visitor.IsNull()) {
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visitor.GetNull();
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return;
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}
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T real_value;
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Reflect(visitor, real_value);
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value = real_value;
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}
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template <typename T>
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void Reflect(Writer& visitor, optional<T>& value) {
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if (value)
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Reflect(visitor, *value);
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else
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visitor.Null();
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}
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template <typename T>
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void ReflectMember(Writer& visitor, const char* name, optional<T>& value) {
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// For TypeScript optional property key?: value in the spec,
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// We omit both key and value if value is std::nullopt (null) for JsonWriter
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// to reduce output. But keep it for other serialization formats.
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if (value || visitor.Format() != SerializeFormat::Json) {
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visitor.Key(name);
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Reflect(visitor, value);
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}
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}
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// Backport C++17 std::disjunction
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namespace {
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template <typename B0, typename... Bs>
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struct disjunction
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: std::conditional<bool(B0::value), B0, disjunction<Bs...>>::type {};
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template <typename B0>
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struct disjunction<B0> : B0 {};
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}
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// Helper struct to reflect std::variant
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template <size_t N, typename... Ts>
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struct ReflectVariant {
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// If T appears in Ts..., we should set the value of std::variant<Ts...> to
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// what we get from Reader.
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template <typename T>
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typename std::enable_if<disjunction<std::is_same<T, Ts>...>::value,
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void>::type
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ReflectTag(Reader& visitor, std::variant<Ts...>& value) {
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T a;
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Reflect(visitor, a);
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value = a;
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}
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// This SFINAE overload is used to prevent compile error. value = a; is not
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// allowed if T does not appear in Ts...
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template <typename T>
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typename std::enable_if<!disjunction<std::is_same<T, Ts>...>::value,
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void>::type
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ReflectTag(Reader&, std::variant<Ts...>&) {}
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void operator()(Reader& visitor, std::variant<Ts...>& value) {
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// Based on tag dispatch, call different ReflectTag helper.
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if (visitor.IsNull())
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ReflectTag<std::monostate>(visitor, value);
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// It is possible that IsInt64() && IsInt(). We don't call ReflectTag<int> if
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// int is not in Ts...
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else if (disjunction<std::is_same<int, Ts>...>::value && visitor.IsInt())
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ReflectTag<int>(visitor, value);
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else if (visitor.IsInt64())
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ReflectTag<int64_t>(visitor, value);
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else if (visitor.IsString())
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ReflectTag<std::string>(visitor, value);
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else
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assert(0);
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}
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// Check which type the variant contains and call corresponding Reflect.
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void operator()(Writer& visitor, std::variant<Ts...>& value) {
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if (value.index() == N - 1)
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Reflect(visitor, std::get<N - 1>(value));
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else
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ReflectVariant<N - 1, Ts...>()(visitor, value);
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}
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};
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// Writer reflection on std::variant recurses. This is induction basis.
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template <typename... Ts>
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struct ReflectVariant<0, Ts...> {
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void operator()(Writer& visitor, std::variant<Ts...>& value) {}
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};
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// std::variant
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template <typename TVisitor, typename... Ts>
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void Reflect(TVisitor& visitor, std::variant<Ts...>& value) {
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ReflectVariant<sizeof...(Ts), Ts...>()(visitor, value);
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}
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// std::vector
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template <typename T>
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void Reflect(Reader& visitor, std::vector<T>& values) {
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visitor.IterArray([&](Reader& entry) {
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T entry_value;
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Reflect(entry, entry_value);
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values.push_back(entry_value);
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});
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}
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template <typename T>
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void Reflect(Writer& visitor, std::vector<T>& values) {
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visitor.StartArray(values.size());
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for (auto& value : values)
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Reflect(visitor, value);
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visitor.EndArray();
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}
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// Writer:
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inline void DefaultReflectMemberStart(Writer& visitor) {
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visitor.StartObject();
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}
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template <typename T>
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bool ReflectMemberStart(Writer& visitor, T& value) {
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visitor.StartObject();
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return true;
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}
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template <typename T>
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void ReflectMemberEnd(Writer& visitor, T& value) {
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visitor.EndObject();
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}
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template <typename T>
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void ReflectMember(Writer& visitor, const char* name, T& value) {
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visitor.Key(name);
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Reflect(visitor, value);
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}
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void ReflectMember(Writer& visitor, const char* name, std::string& value);
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// Reader:
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inline void DefaultReflectMemberStart(Reader& visitor) {}
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template <typename T>
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bool ReflectMemberStart(Reader& visitor, T& value) {
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return true;
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}
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template <typename T>
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void ReflectMemberEnd(Reader& visitor, T& value) {}
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template <typename T>
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void ReflectMember(Reader& visitor, const char* name, T& value) {
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visitor.DoMember(name, [&](Reader& child) { Reflect(child, value); });
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}
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// API
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std::string Serialize(SerializeFormat format, IndexFile& file);
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std::unique_ptr<IndexFile> Deserialize(SerializeFormat format,
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std::string path,
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std::string serialized,
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optional<int> expected_version);
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void SetTestOutputMode();
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