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#pragma once
#include "preprocessor.h"
#include <util/generic/strbuf.h>
#include <array>
#include <optional>
#include <type_traits>
#include <vector>
#include <library/cpp/yt/exception/exception.h>
namespace NYT {
////////////////////////////////////////////////////////////////////////////////
/*
* Smart enumerations augment C++ enum classes with a bunch of reflection
* capabilities accessible via TEnumTraits class specialization.
*
* Please refer to the unit test for an actual example of usage
* (unittests/enum_ut.cpp).
*/
// The actual overload must be provided with DEFINE_ENUM* (see below).
template <class T>
void GetEnumTraitsImpl(T);
template <class T>
using TEnumTraitsImpl = decltype(GetEnumTraitsImpl(T()));
template <class T>
constexpr bool IsEnumDomainSizeKnown()
{
if constexpr(requires{ TEnumTraitsImpl<T>::DomainSize; }) {
return true;
} else {
return false;
}
}
template <
class T,
bool = IsEnumDomainSizeKnown<T>()
>
struct TEnumTraitsWithKnownDomain
{ };
template <
class T,
bool = std::is_enum_v<T> && !std::is_same_v<TEnumTraitsImpl<T>, void>
>
struct TEnumTraits
{
static constexpr bool IsEnum = false;
static constexpr bool IsBitEnum = false;
static constexpr bool IsStringSerializableEnum = false;
static constexpr bool IsMonotonic = false;
};
template <class T>
struct TEnumTraitsWithKnownDomain<T, true>
{
static constexpr int GetDomainSize();
static constexpr const std::array<TStringBuf, GetDomainSize()>& GetDomainNames();
static constexpr const std::array<T, GetDomainSize()>& GetDomainValues();
// For non-bit enums only.
static constexpr T GetMinValue()
requires (!TEnumTraitsImpl<T>::IsBitEnum);
static constexpr T GetMaxValue()
requires (!TEnumTraitsImpl<T>::IsBitEnum);
// For bit enums only.
static std::vector<T> Decompose(T value)
requires (TEnumTraitsImpl<T>::IsBitEnum);
};
template <class T>
struct TEnumTraits<T, true>
: public TEnumTraitsWithKnownDomain<T>
{
static constexpr bool IsEnum = true;
static constexpr bool IsBitEnum = TEnumTraitsImpl<T>::IsBitEnum;
static constexpr bool IsStringSerializableEnum = TEnumTraitsImpl<T>::IsStringSerializableEnum;
static constexpr bool IsMonotonic = TEnumTraitsImpl<T>::IsMonotonic;
static TStringBuf GetTypeName();
static std::optional<TStringBuf> FindLiteralByValue(T value);
static std::optional<T> FindValueByLiteral(TStringBuf literal);
static TString ToString(T value);
static T FromString(TStringBuf literal);
};
////////////////////////////////////////////////////////////////////////////////
//! Defines a smart enumeration with a specific underlying type.
/*!
* \param enumType Enumeration enumType.
* \param seq Enumeration domain encoded as a <em>sequence</em>.
* \param underlyingType Underlying type.
*/
#define DEFINE_ENUM_WITH_UNDERLYING_TYPE(enumType, underlyingType, seq) \
ENUM__CLASS(enumType, underlyingType, seq) \
ENUM__BEGIN_TRAITS(enumType, underlyingType, false, false, seq) \
ENUM__VALIDATE_UNIQUE(enumType) \
ENUM__END_TRAITS(enumType) \
static_assert(true)
//! Defines a smart enumeration with a specific underlying type.
//! Duplicate enumeration values are allowed.
#define DEFINE_AMBIGUOUS_ENUM_WITH_UNDERLYING_TYPE(enumType, underlyingType, seq) \
ENUM__CLASS(enumType, underlyingType, seq) \
ENUM__BEGIN_TRAITS(enumType, underlyingType, false, false, seq) \
ENUM__END_TRAITS(enumType) \
static_assert(true)
//! Defines a smart enumeration with the default |int| underlying type.
#define DEFINE_ENUM(enumType, seq) \
DEFINE_ENUM_WITH_UNDERLYING_TYPE(enumType, int, seq)
//! Defines a smart enumeration with a specific underlying type.
/*!
* \param enumType Enumeration enumType.
* \param seq Enumeration domain encoded as a <em>sequence</em>.
* \param underlyingType Underlying type.
*/
#define DEFINE_BIT_ENUM_WITH_UNDERLYING_TYPE(enumType, underlyingType, seq) \
ENUM__CLASS(enumType, underlyingType, seq) \
ENUM__BEGIN_TRAITS(enumType, underlyingType, true, false, seq) \
ENUM__VALIDATE_UNIQUE(enumType) \
ENUM__END_TRAITS(enumType) \
ENUM__BITWISE_OPS(enumType) \
static_assert(true)
//! Defines a smart enumeration with a specific underlying type.
//! Duplicate enumeration values are allowed.
/*!
* \param enumType Enumeration enumType.
* \param seq Enumeration domain encoded as a <em>sequence</em>.
* \param underlyingType Underlying type.
*/
#define DEFINE_AMBIGUOUS_BIT_ENUM_WITH_UNDERLYING_TYPE(enumType, underlyingType, seq) \
ENUM__CLASS(enumType, underlyingType, seq) \
ENUM__BEGIN_TRAITS(enumType, underlyingType, true, false, seq) \
ENUM__END_TRAITS(enumType) \
ENUM__BITWISE_OPS(enumType) \
static_assert(true)
//! Defines a smart enumeration with the default |unsigned int| underlying type.
/*!
* \param enumType Enumeration enumType.
* \param seq Enumeration domain encoded as a <em>sequence</em>.
*/
#define DEFINE_BIT_ENUM(enumType, seq) \
DEFINE_BIT_ENUM_WITH_UNDERLYING_TYPE(enumType, unsigned int, seq)
//! Defines a smart enumeration with a specific underlying type and IsStringSerializable attribute.
/*!
* \param enumType Enumeration enumType.
* \param seq Enumeration domain encoded as a <em>sequence</em>.
* \param underlyingType Underlying type.
*/
#define DEFINE_STRING_SERIALIZABLE_ENUM_WITH_UNDERLYING_TYPE(enumType, underlyingType, seq) \
ENUM__CLASS(enumType, underlyingType, seq) \
ENUM__BEGIN_TRAITS(enumType, underlyingType, false, true, seq) \
ENUM__VALIDATE_UNIQUE(enumType) \
ENUM__END_TRAITS(enumType) \
static_assert(true)
//! Defines a smart enumeration with a specific underlying type and IsStringSerializable attribute.
//! Duplicate enumeration values are allowed.
#define DEFINE_AMBIGUOUS_STRING_SERIALIZABLE_ENUM_WITH_UNDERLYING_TYPE(enumType, underlyingType, seq) \
ENUM__CLASS(enumType, underlyingType, seq) \
ENUM__BEGIN_TRAITS(enumType, underlyingType, false, true, seq) \
ENUM__END_TRAITS(enumType) \
static_assert(true)
//! Defines a smart enumeration with the default |int| underlying type and IsStringSerializable attribute.
#define DEFINE_STRING_SERIALIZABLE_ENUM(enumType, seq) \
DEFINE_STRING_SERIALIZABLE_ENUM_WITH_UNDERLYING_TYPE(enumType, int, seq)
////////////////////////////////////////////////////////////////////////////////
//! A statically sized vector with elements of type |T| indexed by
//! the items of enumeration type |E|.
/*!
* Items are value-initialized on construction.
*/
template <
class E,
class T,
E Min = TEnumTraits<E>::GetMinValue(),
E Max = TEnumTraits<E>::GetMaxValue()
>
class TEnumIndexedVector
{
public:
using TIndex = E;
using TValue = T;
constexpr TEnumIndexedVector();
constexpr TEnumIndexedVector(std::initializer_list<T> elements);
constexpr TEnumIndexedVector(const TEnumIndexedVector&) = default;
constexpr TEnumIndexedVector(TEnumIndexedVector&&) noexcept = default;
constexpr TEnumIndexedVector& operator=(const TEnumIndexedVector&) = default;
constexpr TEnumIndexedVector& operator=(TEnumIndexedVector&&) noexcept = default;
T& operator[] (E index);
const T& operator[] (E index) const;
// STL interop.
T* begin();
const T* begin() const;
T* end();
const T* end() const;
static bool IsDomainValue(E value);
private:
using TUnderlying = std::underlying_type_t<E>;
static constexpr int N = static_cast<TUnderlying>(Max) - static_cast<TUnderlying>(Min) + 1;
std::array<T, N> Items_;
};
////////////////////////////////////////////////////////////////////////////////
//! Returns |true| iff the enumeration value is not bitwise zero.
template <typename E>
requires TEnumTraits<E>::IsBitEnum
constexpr bool Any(E value) noexcept;
//! Returns |true| iff the enumeration value is bitwise zero.
template <typename E>
requires TEnumTraits<E>::IsBitEnum
constexpr bool None(E value) noexcept;
////////////////////////////////////////////////////////////////////////////////
} // namespace NYT
#define ENUM_INL_H_
#include "enum-inl.h"
#undef ENUM_INL_H_
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