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467 lines
17 KiB
C++
467 lines
17 KiB
C++
#pragma once
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#include <Poco/Timespan.h>
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#include <Poco/URI.h>
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#include <base/types.h>
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#include <Core/Field.h>
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#include <Core/MultiEnum.h>
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#include <boost/range/adaptor/map.hpp>
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#include <chrono>
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#include <unordered_map>
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#include <string_view>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int BAD_ARGUMENTS;
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}
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class ReadBuffer;
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class WriteBuffer;
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/** One setting for any type.
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* Stores a value within itself, as well as a flag - whether the value was changed.
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* This is done so that you can send to the remote servers only changed settings (or explicitly specified in the config) values.
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* That is, if the configuration was not specified in the config and was not dynamically changed, it is not sent to the remote server,
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* and the remote server will use its default value.
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*/
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template <typename T>
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struct SettingFieldNumber
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{
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using Type = T;
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Type value;
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bool changed = false;
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explicit SettingFieldNumber(Type x = 0) : value(x) {}
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explicit SettingFieldNumber(const Field & f);
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SettingFieldNumber & operator=(Type x) { value = x; changed = true; return *this; }
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SettingFieldNumber & operator=(const Field & f);
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operator Type() const { return value; } /// NOLINT
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explicit operator Field() const { return value; }
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String toString() const;
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void parseFromString(const String & str);
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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};
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using SettingFieldUInt64 = SettingFieldNumber<UInt64>;
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using SettingFieldInt64 = SettingFieldNumber<Int64>;
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using SettingFieldFloat = SettingFieldNumber<float>;
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using SettingFieldBool = SettingFieldNumber<bool>;
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/** Unlike SettingFieldUInt64, supports the value of 'auto' - the number of processor cores without taking into account SMT.
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* A value of 0 is also treated as auto.
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* When serializing, `auto` is written in the same way as 0.
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*/
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struct SettingFieldMaxThreads
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{
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bool is_auto;
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UInt64 value;
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bool changed = false;
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explicit SettingFieldMaxThreads(UInt64 x = 0) : is_auto(!x), value(is_auto ? getAuto() : x) {}
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explicit SettingFieldMaxThreads(const Field & f);
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SettingFieldMaxThreads & operator=(UInt64 x) { is_auto = !x; value = is_auto ? getAuto() : x; changed = true; return *this; }
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SettingFieldMaxThreads & operator=(const Field & f);
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operator UInt64() const { return value; } /// NOLINT
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explicit operator Field() const { return value; }
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/// Writes "auto(<number>)" instead of simple "<number>" if `is_auto==true`.
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String toString() const;
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void parseFromString(const String & str);
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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private:
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static UInt64 getAuto();
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};
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enum class SettingFieldTimespanUnit { Millisecond, Second };
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template <SettingFieldTimespanUnit unit_>
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struct SettingFieldTimespan
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{
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using Unit = SettingFieldTimespanUnit;
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static constexpr Unit unit = unit_;
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static constexpr UInt64 microseconds_per_unit = (unit == SettingFieldTimespanUnit::Millisecond) ? 1000 : 1000000;
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Poco::Timespan value;
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bool changed = false;
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explicit SettingFieldTimespan(Poco::Timespan x = {}) : value(x) {}
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template <class Rep, class Period = std::ratio<1>>
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explicit SettingFieldTimespan(const std::chrono::duration<Rep, Period> & x)
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: SettingFieldTimespan(Poco::Timespan{static_cast<Poco::Timespan::TimeDiff>(std::chrono::duration_cast<std::chrono::microseconds>(x).count())}) {}
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explicit SettingFieldTimespan(UInt64 x) : SettingFieldTimespan(Poco::Timespan{static_cast<Poco::Timespan::TimeDiff>(x * microseconds_per_unit)}) {}
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explicit SettingFieldTimespan(const Field & f);
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SettingFieldTimespan & operator =(Poco::Timespan x) { value = x; changed = true; return *this; }
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template <class Rep, class Period = std::ratio<1>>
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SettingFieldTimespan & operator =(const std::chrono::duration<Rep, Period> & x) { *this = Poco::Timespan{static_cast<Poco::Timespan::TimeDiff>(std::chrono::duration_cast<std::chrono::microseconds>(x).count())}; return *this; }
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SettingFieldTimespan & operator =(UInt64 x) { *this = Poco::Timespan{static_cast<Poco::Timespan::TimeDiff>(x * microseconds_per_unit)}; return *this; }
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SettingFieldTimespan & operator =(const Field & f);
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operator Poco::Timespan() const { return value; } /// NOLINT
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template <class Rep, class Period = std::ratio<1>>
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operator std::chrono::duration<Rep, Period>() const { return std::chrono::duration_cast<std::chrono::duration<Rep, Period>>(std::chrono::microseconds(value.totalMicroseconds())); } /// NOLINT
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explicit operator UInt64() const { return value.totalMicroseconds() / microseconds_per_unit; }
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explicit operator Field() const { return operator UInt64(); }
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Poco::Timespan::TimeDiff totalMicroseconds() const { return value.totalMicroseconds(); }
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Poco::Timespan::TimeDiff totalMilliseconds() const { return value.totalMilliseconds(); }
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Poco::Timespan::TimeDiff totalSeconds() const { return value.totalSeconds(); }
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String toString() const;
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void parseFromString(const String & str);
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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};
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using SettingFieldSeconds = SettingFieldTimespan<SettingFieldTimespanUnit::Second>;
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using SettingFieldMilliseconds = SettingFieldTimespan<SettingFieldTimespanUnit::Millisecond>;
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struct SettingFieldString
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{
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String value;
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bool changed = false;
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explicit SettingFieldString(const std::string_view & str = {}) : value(str) {}
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explicit SettingFieldString(const String & str) : SettingFieldString(std::string_view{str}) {}
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explicit SettingFieldString(String && str) : value(std::move(str)) {}
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explicit SettingFieldString(const char * str) : SettingFieldString(std::string_view{str}) {}
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explicit SettingFieldString(const Field & f) : SettingFieldString(f.safeGet<const String &>()) {}
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SettingFieldString & operator =(const std::string_view & str) { value = str; changed = true; return *this; }
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SettingFieldString & operator =(const String & str) { *this = std::string_view{str}; return *this; }
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SettingFieldString & operator =(String && str) { value = std::move(str); changed = true; return *this; }
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SettingFieldString & operator =(const char * str) { *this = std::string_view{str}; return *this; }
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SettingFieldString & operator =(const Field & f) { *this = f.safeGet<const String &>(); return *this; }
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operator const String &() const { return value; } /// NOLINT
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explicit operator Field() const { return value; }
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const String & toString() const { return value; }
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void parseFromString(const String & str) { *this = str; }
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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};
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struct SettingFieldChar
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{
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public:
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char value;
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bool changed = false;
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explicit SettingFieldChar(char c = '\0') : value(c) {}
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explicit SettingFieldChar(const Field & f);
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SettingFieldChar & operator =(char c) { value = c; changed = true; return *this; }
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SettingFieldChar & operator =(const Field & f);
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operator char() const { return value; } /// NOLINT
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explicit operator Field() const { return toString(); }
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String toString() const { return String(&value, 1); }
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void parseFromString(const String & str);
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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};
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struct SettingFieldURI
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{
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Poco::URI value;
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bool changed = false;
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explicit SettingFieldURI(const Poco::URI & uri = {}) : value(uri) {}
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explicit SettingFieldURI(const String & str) : SettingFieldURI(Poco::URI{str}) {}
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explicit SettingFieldURI(const char * str) : SettingFieldURI(Poco::URI{str}) {}
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explicit SettingFieldURI(const Field & f) : SettingFieldURI(f.safeGet<String>()) {}
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SettingFieldURI & operator =(const Poco::URI & x) { value = x; changed = true; return *this; }
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SettingFieldURI & operator =(const String & str) { *this = Poco::URI{str}; return *this; }
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SettingFieldURI & operator =(const char * str) { *this = Poco::URI{str}; return *this; }
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SettingFieldURI & operator =(const Field & f) { *this = f.safeGet<const String &>(); return *this; }
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operator const Poco::URI &() const { return value; } /// NOLINT
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explicit operator String() const { return toString(); }
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explicit operator Field() const { return toString(); }
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String toString() const { return value.toString(); }
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void parseFromString(const String & str) { *this = str; }
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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};
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/** Template class to define enum-based settings.
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* Example of usage:
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*
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* mysettings.h:
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* enum Gender { Male, Female };
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* DECLARE_SETTING_ENUM(SettingFieldGender, Gender)
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*
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* mysettings.cpp:
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* IMPLEMENT_SETTING_ENUM(SettingFieldGender, ErrorCodes::BAD_ARGUMENTS,
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* {{"Male", Gender::Male}, {"Female", Gender::Female}})
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*/
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template <typename EnumT, typename Traits>
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struct SettingFieldEnum
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{
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using EnumType = EnumT;
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EnumType value;
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bool changed = false;
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explicit SettingFieldEnum(EnumType x = EnumType{0}) : value(x) {}
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explicit SettingFieldEnum(const Field & f) : SettingFieldEnum(Traits::fromString(f.safeGet<const String &>())) {}
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SettingFieldEnum & operator =(EnumType x) { value = x; changed = true; return *this; }
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SettingFieldEnum & operator =(const Field & f) { *this = Traits::fromString(f.safeGet<const String &>()); return *this; }
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operator EnumType() const { return value; } /// NOLINT
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explicit operator Field() const { return toString(); }
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String toString() const { return Traits::toString(value); }
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void parseFromString(const String & str) { *this = Traits::fromString(str); }
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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};
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struct SettingFieldEnumHelpers
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{
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static void writeBinary(const std::string_view & str, WriteBuffer & out);
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static String readBinary(ReadBuffer & in);
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};
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template <typename EnumT, typename Traits>
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void SettingFieldEnum<EnumT, Traits>::writeBinary(WriteBuffer & out) const
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{
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SettingFieldEnumHelpers::writeBinary(toString(), out);
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}
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template <typename EnumT, typename Traits>
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void SettingFieldEnum<EnumT, Traits>::readBinary(ReadBuffer & in)
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{
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*this = Traits::fromString(SettingFieldEnumHelpers::readBinary(in));
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}
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/// NOLINTNEXTLINE
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#define DECLARE_SETTING_ENUM(ENUM_TYPE) \
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DECLARE_SETTING_ENUM_WITH_RENAME(ENUM_TYPE, ENUM_TYPE)
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/// NOLINTNEXTLINE
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#define IMPLEMENT_SETTING_ENUM(ENUM_TYPE, ERROR_CODE_FOR_UNEXPECTED_NAME, ...) \
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IMPLEMENT_SETTING_ENUM_WITH_RENAME(ENUM_TYPE, ERROR_CODE_FOR_UNEXPECTED_NAME, __VA_ARGS__)
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/// NOLINTNEXTLINE
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#define DECLARE_SETTING_ENUM_WITH_RENAME(NEW_NAME, ENUM_TYPE) \
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struct SettingField##NEW_NAME##Traits \
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{ \
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using EnumType = ENUM_TYPE; \
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static const String & toString(EnumType value); \
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static EnumType fromString(const std::string_view & str); \
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}; \
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\
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using SettingField##NEW_NAME = SettingFieldEnum<ENUM_TYPE, SettingField##NEW_NAME##Traits>;
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/// NOLINTNEXTLINE
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#define IMPLEMENT_SETTING_ENUM_WITH_RENAME(NEW_NAME, ERROR_CODE_FOR_UNEXPECTED_NAME, ...) \
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const String & SettingField##NEW_NAME##Traits::toString(typename SettingField##NEW_NAME::EnumType value) \
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{ \
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static const std::unordered_map<EnumType, String> map = [] { \
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std::unordered_map<EnumType, String> res; \
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constexpr std::pair<const char *, EnumType> pairs[] = __VA_ARGS__; \
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for (const auto & [name, val] : pairs) \
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res.emplace(val, name); \
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return res; \
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}(); \
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auto it = map.find(value); \
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if (it != map.end()) \
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return it->second; \
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throw Exception( \
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"Unexpected value of " #NEW_NAME ":" + std::to_string(std::underlying_type<EnumType>::type(value)), \
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ERROR_CODE_FOR_UNEXPECTED_NAME); \
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} \
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\
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typename SettingField##NEW_NAME::EnumType SettingField##NEW_NAME##Traits::fromString(const std::string_view & str) \
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{ \
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static const std::unordered_map<std::string_view, EnumType> map = [] { \
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std::unordered_map<std::string_view, EnumType> res; \
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constexpr std::pair<const char *, EnumType> pairs[] = __VA_ARGS__; \
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for (const auto & [name, val] : pairs) \
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res.emplace(name, val); \
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return res; \
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}(); \
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auto it = map.find(str); \
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if (it != map.end()) \
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return it->second; \
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String msg = "Unexpected value of " #NEW_NAME ": '" + String{str} + "'. Must be one of ["; \
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bool need_comma = false; \
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for (auto & name : map | boost::adaptors::map_keys) \
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{ \
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if (std::exchange(need_comma, true)) \
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msg += ", "; \
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msg += "'" + String{name} + "'"; \
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} \
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msg += "]"; \
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throw Exception(msg, ERROR_CODE_FOR_UNEXPECTED_NAME); \
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}
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// Mostly like SettingFieldEnum, but can have multiple enum values (or none) set at once.
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template <typename Enum, typename Traits>
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struct SettingFieldMultiEnum
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{
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using EnumType = Enum;
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using ValueType = MultiEnum<Enum>;
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using StorageType = typename ValueType::StorageType;
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ValueType value;
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bool changed = false;
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explicit SettingFieldMultiEnum(ValueType v = ValueType{}) : value{v} {}
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explicit SettingFieldMultiEnum(EnumType e) : value{e} {}
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explicit SettingFieldMultiEnum(StorageType s) : value(s) {}
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explicit SettingFieldMultiEnum(const Field & f) : value(parseValueFromString(f.safeGet<const String &>())) {}
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operator ValueType() const { return value; } /// NOLINT
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explicit operator StorageType() const { return value.getValue(); }
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explicit operator Field() const { return toString(); }
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SettingFieldMultiEnum & operator= (StorageType x) { changed = x != value.getValue(); value.setValue(x); return *this; }
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SettingFieldMultiEnum & operator= (ValueType x) { changed = !(x == value); value = x; return *this; }
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SettingFieldMultiEnum & operator= (const Field & x) { parseFromString(x.safeGet<const String &>()); return *this; }
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String toString() const
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{
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static const String separator = ",";
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String result;
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for (StorageType i = 0; i < Traits::getEnumSize(); ++i)
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{
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const auto v = static_cast<Enum>(i);
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if (value.isSet(v))
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{
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result += Traits::toString(v);
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result += separator;
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}
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}
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if (!result.empty())
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result.erase(result.size() - separator.size());
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return result;
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}
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void parseFromString(const String & str) { *this = parseValueFromString(str); }
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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private:
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static ValueType parseValueFromString(const std::string_view str)
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{
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static const String separators=", ";
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ValueType result;
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//to avoid allocating memory on substr()
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const std::string_view str_view{str};
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auto value_start = str_view.find_first_not_of(separators);
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while (value_start != std::string::npos)
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{
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auto value_end = str_view.find_first_of(separators, value_start + 1);
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if (value_end == std::string::npos)
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value_end = str_view.size();
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result.set(Traits::fromString(str_view.substr(value_start, value_end - value_start)));
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value_start = str_view.find_first_not_of(separators, value_end);
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}
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return result;
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}
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};
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template <typename EnumT, typename Traits>
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void SettingFieldMultiEnum<EnumT, Traits>::writeBinary(WriteBuffer & out) const
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{
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SettingFieldEnumHelpers::writeBinary(toString(), out);
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}
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template <typename EnumT, typename Traits>
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void SettingFieldMultiEnum<EnumT, Traits>::readBinary(ReadBuffer & in)
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{
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parseFromString(SettingFieldEnumHelpers::readBinary(in));
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}
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/// NOLINTNEXTLINE
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#define DECLARE_SETTING_MULTI_ENUM(ENUM_TYPE) \
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DECLARE_SETTING_MULTI_ENUM_WITH_RENAME(ENUM_TYPE, ENUM_TYPE)
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/// NOLINTNEXTLINE
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#define DECLARE_SETTING_MULTI_ENUM_WITH_RENAME(ENUM_TYPE, NEW_NAME) \
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struct SettingField##NEW_NAME##Traits \
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{ \
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using EnumType = ENUM_TYPE; \
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static size_t getEnumSize(); \
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static const String & toString(EnumType value); \
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static EnumType fromString(const std::string_view & str); \
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}; \
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\
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using SettingField##NEW_NAME = SettingFieldMultiEnum<ENUM_TYPE, SettingField##NEW_NAME##Traits>;
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/// NOLINTNEXTLINE
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#define IMPLEMENT_SETTING_MULTI_ENUM(ENUM_TYPE, ERROR_CODE_FOR_UNEXPECTED_NAME, ...) \
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IMPLEMENT_SETTING_MULTI_ENUM_WITH_RENAME(ENUM_TYPE, ERROR_CODE_FOR_UNEXPECTED_NAME, __VA_ARGS__)
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/// NOLINTNEXTLINE
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#define IMPLEMENT_SETTING_MULTI_ENUM_WITH_RENAME(NEW_NAME, ERROR_CODE_FOR_UNEXPECTED_NAME, ...) \
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IMPLEMENT_SETTING_ENUM_WITH_RENAME(NEW_NAME, ERROR_CODE_FOR_UNEXPECTED_NAME, __VA_ARGS__)\
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size_t SettingField##NEW_NAME##Traits::getEnumSize() {\
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return std::initializer_list<std::pair<const char*, NEW_NAME>> __VA_ARGS__ .size();\
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}
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/// Can keep a value of any type. Used for user-defined settings.
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struct SettingFieldCustom
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{
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Field value;
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bool changed = false;
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explicit SettingFieldCustom(const Field & f = {}) : value(f) {}
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SettingFieldCustom & operator =(const Field & f) { value = f; changed = true; return *this; }
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explicit operator Field() const { return value; }
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String toString() const;
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void parseFromString(const String & str);
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void writeBinary(WriteBuffer & out) const;
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void readBinary(ReadBuffer & in);
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};
|
|
|
|
}
|