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// This file is part of Better Enums, released under the BSD 2-clause license.
// See LICENSE for details, or visit http://github.com/aantron/better-enums.
#pragma once
#ifndef _BETTER_ENUMS_ENUM_H_
#define _BETTER_ENUMS_ENUM_H_
#include <cstddef>
#include <stdexcept>
#ifdef BETTER_ENUMS_EXTRA_INCLUDE
# include BETTER_ENUMS_EXTRA_INCLUDE
#endif
#ifdef BETTER_ENUMS_FORCE_CONSTEXPR
# define _ENUM_COMPILE_TIME
#else
# ifdef __GNUC__
# ifdef __clang__
# if __has_feature(cxx_constexpr)
# define _ENUM_COMPILE_TIME
# endif
# else
# if (__GNUC__ > 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ >= 6))
# if defined(__GXX_EXPERIMENTAL_CXX0X__) || __cplusplus >= 201103L
# define _ENUM_COMPILE_TIME
# endif
# endif
# endif
# endif
#endif
#ifdef BETTER_ENUMS_FORCE_RUNTIME
# if defined(_ENUM_COMPILE_TIME)
# undef _ENUM_COMPILE_TIME
# endif
#endif
#ifdef _ENUM_COMPILE_TIME
# define _ENUM_CONSTEXPR constexpr
#else
# define _ENUM_CONSTEXPR
#endif
#ifndef __GNUC__
# define strcasecmp stricmp
#endif
#ifdef BETTER_ENUMS_MACRO_FILE
# include BETTER_ENUMS_MACRO_FILE
#else
#define _ENUM_PP_MAP(macro, data, ...) \
_ENUM_A(_ENUM_PP_MAP_VAR_COUNT, _ENUM_PP_COUNT(__VA_ARGS__)) \
(macro, data, __VA_ARGS__)
#define _ENUM_PP_MAP_VAR_COUNT(count) _ENUM_M ## count
#define _ENUM_A(macro, ...) macro(__VA_ARGS__)
#define _ENUM_M1(m, d, x) _ENUM_A(m, d, 0, x)
#define _ENUM_M2(m,d,x,...) _ENUM_A(m,d,1,x) _ENUM_M1(m,d,__VA_ARGS__)
#define _ENUM_M3(m,d,x,...) _ENUM_A(m,d,2,x) _ENUM_M2(m,d,__VA_ARGS__)
#define _ENUM_M4(m,d,x,...) _ENUM_A(m,d,3,x) _ENUM_M3(m,d,__VA_ARGS__)
#define _ENUM_M5(m,d,x,...) _ENUM_A(m,d,4,x) _ENUM_M4(m,d,__VA_ARGS__)
#define _ENUM_M6(m,d,x,...) _ENUM_A(m,d,5,x) _ENUM_M5(m,d,__VA_ARGS__)
#define _ENUM_M7(m,d,x,...) _ENUM_A(m,d,6,x) _ENUM_M6(m,d,__VA_ARGS__)
#define _ENUM_M8(m,d,x,...) _ENUM_A(m,d,7,x) _ENUM_M7(m,d,__VA_ARGS__)
#define _ENUM_M9(m,d,x,...) _ENUM_A(m,d,8,x) _ENUM_M8(m,d,__VA_ARGS__)
#define _ENUM_M10(m,d,x,...) _ENUM_A(m,d,9,x) _ENUM_M9(m,d,__VA_ARGS__)
#define _ENUM_M11(m,d,x,...) _ENUM_A(m,d,10,x) _ENUM_M10(m,d,__VA_ARGS__)
#define _ENUM_M12(m,d,x,...) _ENUM_A(m,d,11,x) _ENUM_M11(m,d,__VA_ARGS__)
#define _ENUM_M13(m,d,x,...) _ENUM_A(m,d,12,x) _ENUM_M12(m,d,__VA_ARGS__)
#define _ENUM_M14(m,d,x,...) _ENUM_A(m,d,13,x) _ENUM_M13(m,d,__VA_ARGS__)
#define _ENUM_M15(m,d,x,...) _ENUM_A(m,d,14,x) _ENUM_M14(m,d,__VA_ARGS__)
#define _ENUM_M16(m,d,x,...) _ENUM_A(m,d,15,x) _ENUM_M15(m,d,__VA_ARGS__)
#define _ENUM_M17(m,d,x,...) _ENUM_A(m,d,16,x) _ENUM_M16(m,d,__VA_ARGS__)
#define _ENUM_M18(m,d,x,...) _ENUM_A(m,d,17,x) _ENUM_M17(m,d,__VA_ARGS__)
#define _ENUM_M19(m,d,x,...) _ENUM_A(m,d,18,x) _ENUM_M18(m,d,__VA_ARGS__)
#define _ENUM_M20(m,d,x,...) _ENUM_A(m,d,19,x) _ENUM_M19(m,d,__VA_ARGS__)
#define _ENUM_M21(m,d,x,...) _ENUM_A(m,d,20,x) _ENUM_M20(m,d,__VA_ARGS__)
#define _ENUM_M22(m,d,x,...) _ENUM_A(m,d,21,x) _ENUM_M21(m,d,__VA_ARGS__)
#define _ENUM_M23(m,d,x,...) _ENUM_A(m,d,22,x) _ENUM_M22(m,d,__VA_ARGS__)
#define _ENUM_M24(m,d,x,...) _ENUM_A(m,d,23,x) _ENUM_M23(m,d,__VA_ARGS__)
#define _ENUM_M25(m,d,x,...) _ENUM_A(m,d,24,x) _ENUM_M24(m,d,__VA_ARGS__)
#define _ENUM_M26(m,d,x,...) _ENUM_A(m,d,25,x) _ENUM_M25(m,d,__VA_ARGS__)
#define _ENUM_M27(m,d,x,...) _ENUM_A(m,d,26,x) _ENUM_M26(m,d,__VA_ARGS__)
#define _ENUM_M28(m,d,x,...) _ENUM_A(m,d,27,x) _ENUM_M27(m,d,__VA_ARGS__)
#define _ENUM_M29(m,d,x,...) _ENUM_A(m,d,28,x) _ENUM_M28(m,d,__VA_ARGS__)
#define _ENUM_M30(m,d,x,...) _ENUM_A(m,d,29,x) _ENUM_M29(m,d,__VA_ARGS__)
#define _ENUM_M31(m,d,x,...) _ENUM_A(m,d,30,x) _ENUM_M30(m,d,__VA_ARGS__)
#define _ENUM_M32(m,d,x,...) _ENUM_A(m,d,31,x) _ENUM_M31(m,d,__VA_ARGS__)
#define _ENUM_M33(m,d,x,...) _ENUM_A(m,d,32,x) _ENUM_M32(m,d,__VA_ARGS__)
#define _ENUM_M34(m,d,x,...) _ENUM_A(m,d,33,x) _ENUM_M33(m,d,__VA_ARGS__)
#define _ENUM_M35(m,d,x,...) _ENUM_A(m,d,34,x) _ENUM_M34(m,d,__VA_ARGS__)
#define _ENUM_M36(m,d,x,...) _ENUM_A(m,d,35,x) _ENUM_M35(m,d,__VA_ARGS__)
#define _ENUM_M37(m,d,x,...) _ENUM_A(m,d,36,x) _ENUM_M36(m,d,__VA_ARGS__)
#define _ENUM_M38(m,d,x,...) _ENUM_A(m,d,37,x) _ENUM_M37(m,d,__VA_ARGS__)
#define _ENUM_M39(m,d,x,...) _ENUM_A(m,d,38,x) _ENUM_M38(m,d,__VA_ARGS__)
#define _ENUM_M40(m,d,x,...) _ENUM_A(m,d,39,x) _ENUM_M39(m,d,__VA_ARGS__)
#define _ENUM_M41(m,d,x,...) _ENUM_A(m,d,40,x) _ENUM_M40(m,d,__VA_ARGS__)
#define _ENUM_M42(m,d,x,...) _ENUM_A(m,d,41,x) _ENUM_M41(m,d,__VA_ARGS__)
#define _ENUM_M43(m,d,x,...) _ENUM_A(m,d,42,x) _ENUM_M42(m,d,__VA_ARGS__)
#define _ENUM_M44(m,d,x,...) _ENUM_A(m,d,43,x) _ENUM_M43(m,d,__VA_ARGS__)
#define _ENUM_M45(m,d,x,...) _ENUM_A(m,d,44,x) _ENUM_M44(m,d,__VA_ARGS__)
#define _ENUM_M46(m,d,x,...) _ENUM_A(m,d,45,x) _ENUM_M45(m,d,__VA_ARGS__)
#define _ENUM_M47(m,d,x,...) _ENUM_A(m,d,46,x) _ENUM_M46(m,d,__VA_ARGS__)
#define _ENUM_M48(m,d,x,...) _ENUM_A(m,d,47,x) _ENUM_M47(m,d,__VA_ARGS__)
#define _ENUM_M49(m,d,x,...) _ENUM_A(m,d,48,x) _ENUM_M48(m,d,__VA_ARGS__)
#define _ENUM_M50(m,d,x,...) _ENUM_A(m,d,49,x) _ENUM_M49(m,d,__VA_ARGS__)
#define _ENUM_M51(m,d,x,...) _ENUM_A(m,d,50,x) _ENUM_M50(m,d,__VA_ARGS__)
#define _ENUM_M52(m,d,x,...) _ENUM_A(m,d,51,x) _ENUM_M51(m,d,__VA_ARGS__)
#define _ENUM_M53(m,d,x,...) _ENUM_A(m,d,52,x) _ENUM_M52(m,d,__VA_ARGS__)
#define _ENUM_M54(m,d,x,...) _ENUM_A(m,d,53,x) _ENUM_M53(m,d,__VA_ARGS__)
#define _ENUM_M55(m,d,x,...) _ENUM_A(m,d,54,x) _ENUM_M54(m,d,__VA_ARGS__)
#define _ENUM_M56(m,d,x,...) _ENUM_A(m,d,55,x) _ENUM_M55(m,d,__VA_ARGS__)
#define _ENUM_M57(m,d,x,...) _ENUM_A(m,d,56,x) _ENUM_M56(m,d,__VA_ARGS__)
#define _ENUM_M58(m,d,x,...) _ENUM_A(m,d,57,x) _ENUM_M57(m,d,__VA_ARGS__)
#define _ENUM_M59(m,d,x,...) _ENUM_A(m,d,58,x) _ENUM_M58(m,d,__VA_ARGS__)
#define _ENUM_M60(m,d,x,...) _ENUM_A(m,d,59,x) _ENUM_M59(m,d,__VA_ARGS__)
#define _ENUM_M61(m,d,x,...) _ENUM_A(m,d,60,x) _ENUM_M60(m,d,__VA_ARGS__)
#define _ENUM_M62(m,d,x,...) _ENUM_A(m,d,61,x) _ENUM_M61(m,d,__VA_ARGS__)
#define _ENUM_M63(m,d,x,...) _ENUM_A(m,d,62,x) _ENUM_M62(m,d,__VA_ARGS__)
#define _ENUM_M64(m,d,x,...) _ENUM_A(m,d,63,x) _ENUM_M63(m,d,__VA_ARGS__)
#define _ENUM_PP_COUNT_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, _31, _32, _33, _34, _35, _36, _37, _38, _39, _40, _41, _42, \
_43, _44, _45, _46, _47, _48, _49, _50, _51, _52, _53, _54, _55, _56, _57, \
_58, _59, _60, _61, _62, _63, _64, count, ...) count
#define _ENUM_PP_COUNT(...) _ENUM_PP_COUNT_IMPL(__VA_ARGS__, 64, 63, 62, 61, \
60, 59, 58, 57, 56, 55, 54, 53, 52, 51, 50, 49, 48, 47, 46, 45, 44, 43, 42,\
41, 40, 39, 38, 37, 36, 35, 34, 33, 32, 31, 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)
#define _ENUM_ITERATE(X, f, l) X(f, l, 0) X(f, l, 1) X(f, l, 2) X(f, l, 3) \
X(f, l, 4) X(f, l, 5) X(f, l, 6) X(f, l, 7) X(f, l, 8) X(f, l, 9) \
X(f, l, 10) X(f, l, 11) X(f, l, 12) X(f, l, 13) X(f, l, 14) X(f, l, 15) \
X(f, l, 16) X(f, l, 17) X(f, l, 18) X(f, l, 19) X(f, l, 20) X(f, l, 21) \
X(f, l, 22) X(f, l, 23)
#endif // #ifdef BETTER_ENUMS_MACRO_FILE
#define _ENUM_EAT_ASSIGN_SINGLE(EnumType, index, expression) \
((_enum::_eat_assign<EnumType>)_Base::expression),
#define _ENUM_EAT_ASSIGN(EnumType, ...) \
_ENUM_PP_MAP(_ENUM_EAT_ASSIGN_SINGLE, EnumType, __VA_ARGS__)
#define _ENUM_NS(EnumType) _enum::_data_ ## EnumType
#define _ENUM_NAME_ENDERS "= \t\n"
namespace better_enums {
#ifdef BETTER_ENUMS_USE_OPTIONAL
template <typename T>
using optional = BETTER_ENUMS_USE_OPTIONAL<T>;
#else
template <typename T>
_ENUM_CONSTEXPR T _default()
{
return (typename T::_enumerated)0;
}
template <>
_ENUM_CONSTEXPR const char* _default<const char*>()
{
return nullptr;
}
template <>
_ENUM_CONSTEXPR size_t _default<size_t>()
{
return 0;
}
template <typename T>
struct optional {
_ENUM_CONSTEXPR optional() : _valid(false), _value(_default<T>()) { }
_ENUM_CONSTEXPR optional(T v) : _valid(true), _value(v) { }
_ENUM_CONSTEXPR const T& operator *() const { return _value; }
_ENUM_CONSTEXPR const T* operator ->() const { return &_value; }
_ENUM_CONSTEXPR operator bool() const { return _valid; }
_ENUM_CONSTEXPR const T& value() const { return _value; }
private:
bool _valid;
T _value;
};
#endif
}
namespace _enum {
template <typename EnumType>
struct _eat_assign {
explicit _ENUM_CONSTEXPR _eat_assign(EnumType value) : _value(value) { }
template <typename Any>
_ENUM_CONSTEXPR const _eat_assign& operator =(Any dummy) const
{ return *this; }
_ENUM_CONSTEXPR operator EnumType () const { return _value; }
private:
EnumType _value;
};
template <typename Element>
struct _Iterable {
typedef const Element* iterator;
_ENUM_CONSTEXPR iterator begin() const { return iterator(_array); }
_ENUM_CONSTEXPR iterator end() const { return iterator(_array + _size); }
_ENUM_CONSTEXPR size_t size() const { return _size; }
_ENUM_CONSTEXPR const Element& operator [](size_t index) const
{ return _array[index]; }
_ENUM_CONSTEXPR _Iterable(const Element *array, size_t s) :
_array(array), _size(s) { };
private:
const Element * const _array;
const size_t _size;
};
}
#ifdef _ENUM_COMPILE_TIME
namespace _enum {
template <typename T>
using _optional = better_enums::optional<T>;
template <typename CastTo, typename Element>
constexpr static _optional<CastTo>
_map_index(const Element *array, _optional<size_t> index)
{
return index ? (CastTo)array[*index] : _optional<CastTo>();
}
template <typename T>
constexpr static T _or_throw(_optional<T> maybe, const char *message)
{
return maybe ? *maybe : throw std::runtime_error(message);
}
constexpr bool _endsName(char c, size_t index = 0)
{
return
// First, test whether c is equal to the current character in
// _ENUM_NAME_ENDERS. In the case where c is the null terminator, this
// will cause _endsName to return true when it has exhausted
// _ENUM_NAME_ENDERS.
c == _ENUM_NAME_ENDERS[index] ? true :
// If _ENUM_NAME_ENDERS has been exhausted and c never matched, return
// false.
_ENUM_NAME_ENDERS[index] == '\0' ? false :
// Otherwise, go on to the next character in _ENUM_ENDERS.
_endsName(c, index + 1);
}
constexpr bool _hasExplicitValue(const char *s, size_t index = 0)
{
return
s[index] == '\0' ? false :
s[index] == '=' ? true :
_hasExplicitValue(s, index + 1);
}
constexpr size_t _constantLength(const char *s, size_t index = 0)
{
return _endsName(s[index]) ? index : _constantLength(s, index + 1);
}
constexpr char _select(const char *from, size_t from_length, size_t index)
{
return index >= from_length ? '\0' : from[index];
}
constexpr char _toLowercaseAscii(char c)
{
return c >= 0x41 && c <= 0x5A ? (char) (c + 0x20) : c;
}
constexpr bool _namesMatch(const char *stringizedName,
const char *referenceName,
size_t index = 0)
{
return
// If the current character in the stringized name is a name ender,
// return true if the reference name ends as well, and false otherwise.
_endsName(stringizedName[index]) ? referenceName[index] == '\0' :
// The current character in the stringized name is not a name ender. If
// the reference name ended, then it is too short, so return false.
referenceName[index] == '\0' ? false :
// Neither name has ended. If the two current characters don't match,
// return false.
stringizedName[index] !=
referenceName[index] ? false :
// Otherwise, if the characters match, continue by comparing the rest of
// the names.
_namesMatch(stringizedName, referenceName, index + 1);
}
constexpr bool _namesMatchNocase(const char *stringizedName,
const char *referenceName,
size_t index = 0)
{
return
_endsName(stringizedName[index]) ? referenceName[index] == '\0' :
referenceName[index] == '\0' ? false :
_toLowercaseAscii(stringizedName[index]) !=
_toLowercaseAscii(referenceName[index]) ? false :
_namesMatchNocase(stringizedName, referenceName, index + 1);
}
} // namespace _enum
#define _ENUM_SELECT_SINGLE_CHARACTER(from, from_length, index) \
_select(from, from_length, index),
#define _ENUM_SELECT_CHARACTERS(from, from_length) \
_ENUM_ITERATE(_ENUM_SELECT_SINGLE_CHARACTER, from, from_length)
#define _ENUM_TRIM_SINGLE_STRING(ignored, index, expression) \
constexpr size_t _length_ ## index = _constantLength(#expression); \
constexpr const char _trimmed_ ## index [] = \
{ _ENUM_SELECT_CHARACTERS(#expression, _length_ ## index) }; \
constexpr const char *_final_ ## index = \
_hasExplicitValue(#expression) ? _trimmed_ ## index : #expression;
#define _ENUM_TRIM_STRINGS(...) \
_ENUM_PP_MAP(_ENUM_TRIM_SINGLE_STRING, ignored, __VA_ARGS__)
#define _ENUM_REFER_TO_SINGLE_STRING(ignored, index, expression) \
_final_ ## index,
#define _ENUM_REFER_TO_STRINGS(...) \
_ENUM_PP_MAP(_ENUM_REFER_TO_SINGLE_STRING, ignored, __VA_ARGS__)
#else // #ifdef _ENUM_COMPILE_TIME
#include <cstring>
#include <map>
#define _ENUM_STRINGIZE_SINGLE(ignored, index, expression) #expression,
#define _ENUM_STRINGIZE(...) \
_ENUM_PP_MAP(_ENUM_STRINGIZE_SINGLE, ignored, __VA_ARGS__)
namespace _enum {
void _trim_names(const char * const *raw_names, const char **trimmed_names,
size_t count)
{
for (size_t index = 0; index < count; ++index) {
size_t length = std::strcspn(raw_names[index], _ENUM_NAME_ENDERS);
char *trimmed = new char[length + 1];
std::strncpy(trimmed, raw_names[index], length);
trimmed[length] = '\0';
trimmed_names[index] = trimmed;
}
}
}
#endif // #ifdef _ENUM_COMPILE_TIME
#ifdef _ENUM_COMPILE_TIME
#define _ENUM_NOT_DEFAULT_CONSTRUCTIBLE(EnumType) \
EnumType() = delete;
#define _ENUM_SIZED(Integral) : Integral
#define _ENUM_REPRESENTATION(Integral) _enumerated
#else
#define _ENUM_NOT_DEFAULT_CONSTRUCTIBLE(EnumType) \
private: \
EnumType() { }
#define _ENUM_SIZED(Integral)
#define _ENUM_REPRESENTATION(Integral) Integral
#endif // #ifdef _ENUM_COMPILE_TIME
#define _ENUM_COMMON_DATA(EnumType, Integral, ...) \
namespace _enum { \
namespace _data_ ## EnumType { \
\
struct _Base { \
enum _enumerated _ENUM_SIZED(Integral) { __VA_ARGS__ }; \
\
_ENUM_CONSTEXPR _Base(_enumerated value) : _value(value) { } \
\
_ENUM_CONSTEXPR bool operator ==(const _Base &other) const \
{ return _value == other._value; } \
_ENUM_CONSTEXPR bool operator ==(_enumerated value) const \
{ return _value == value; } \
_ENUM_CONSTEXPR bool operator !=(const _Base &other) const \
{ return !(*this == other); } \
_ENUM_CONSTEXPR bool operator !=(_enumerated value) const \
{ return !(*this == value); } \
_ENUM_CONSTEXPR bool operator <(const _Base &other) const \
{ return _value < other._value; } \
_ENUM_CONSTEXPR bool operator <(_enumerated value) const \
{ return _value < value; } \
_ENUM_CONSTEXPR bool operator <=(const _Base &other) const \
{ return _value <= other._value; } \
_ENUM_CONSTEXPR bool operator <=(_enumerated value) const \
{ return _value <= value; } \
_ENUM_CONSTEXPR bool operator >(const _Base &other) const \
{ return _value > other._value; } \
_ENUM_CONSTEXPR bool operator >(_enumerated value) const \
{ return _value > value; } \
_ENUM_CONSTEXPR bool operator >=(const _Base &other) const \
{ return _value >= other._value; } \
_ENUM_CONSTEXPR bool operator >=(_enumerated value) const \
{ return _value >= value; } \
\
_ENUM_REPRESENTATION(Integral) _value; \
\
_ENUM_NOT_DEFAULT_CONSTRUCTIBLE(_Base) \
}; \
\
enum _Names { __VA_ARGS__ }; \
\
_ENUM_CONSTEXPR const _Base _value_array[] = \
{ _ENUM_EAT_ASSIGN(_Base, __VA_ARGS__) }; \
\
_ENUM_CONSTEXPR const size_t _size = \
sizeof(_value_array) / sizeof(_Base::_enumerated); \
\
} \
}
#ifdef _ENUM_COMPILE_TIME
#define _ENUM_DATA(EnumType, Integral, ...) \
_ENUM_COMMON_DATA(EnumType, Integral, __VA_ARGS__) \
\
namespace _enum { \
namespace _data_ ## EnumType { \
\
enum class _Case : Integral { __VA_ARGS__ }; \
\
static_assert(_size > 0, "no constants defined in enum type"); \
\
_ENUM_TRIM_STRINGS(__VA_ARGS__) \
\
constexpr const char * const _name_array[] = \
{ _ENUM_REFER_TO_STRINGS(__VA_ARGS__) }; \
\
constexpr const _Iterable<_Base> _values{_value_array, _size}; \
constexpr const _Iterable<const char*> _names{_name_array, _size}; \
\
} \
}
#else
#define _ENUM_DATA(EnumType, Integral, ...) \
_ENUM_COMMON_DATA(EnumType, Integral, __VA_ARGS__) \
\
namespace _enum { \
namespace _data_ ## EnumType { \
\
const char *_raw_names[] = { _ENUM_STRINGIZE(__VA_ARGS__) }; \
const char **_trimmed_names; \
\
std::map<Integral, size_t> _indices_by_value; \
\
bool _initialized = false; \
\
} \
}
#endif
#ifdef _ENUM_COMPILE_TIME
#define _ENUM_TYPE(EnumType, Integral, ...) \
class EnumType : public _ENUM_NS(EnumType)::_Base { \
protected: \
constexpr static auto _value_array = _ENUM_NS(EnumType)::_value_array; \
constexpr static auto _name_array = _ENUM_NS(EnumType)::_name_array; \
\
template <typename T> \
using _optional = better_enums::optional<T>; \
\
public: \
using _integral = Integral; \
\
constexpr static const char *_name = #EnumType; \
constexpr static const size_t _size = _ENUM_NS(EnumType)::_size; \
\
constexpr static const char* _name_() \
{ \
return _name; \
} \
\
EnumType() = delete; \
constexpr EnumType(_enumerated value) : _Base(value) { } \
constexpr EnumType(_ENUM_NS(EnumType)::_Base value) : _Base(value) { } \
\
constexpr _integral _to_integral() const \
{ \
return _value; \
} \
\
constexpr static const _optional<EnumType> \
_from_integral_nothrow(_integral value) \
{ \
return \
_enum::_map_index<EnumType>(_value_array, _from_int_loop(value)); \
} \
\
constexpr static const EnumType _from_integral(_integral value) \
{ \
return \
_enum::_or_throw(_from_integral_nothrow(value), \
"Enum::_from_integral: invalid argument"); \
} \
\
constexpr static const EnumType _from_integral_unchecked(_integral value) \
{ \
return (_enumerated)value; \
} \
\
constexpr const char* _to_string() const \
{ \
return \
_enum::_or_throw( \
_enum::_map_index<const char*>(_name_array, \
_from_int_loop(_value)), \
"Enum::to_string: invalid enum value"); \
} \
\
constexpr static const _optional<EnumType> \
_from_string_nothrow(const char *name) \
{ \
return \
_enum::_map_index<EnumType>(_value_array, _from_string_loop(name));\
} \
\
constexpr static const EnumType _from_string(const char *name) \
{ \
return \
_enum::_or_throw(_from_string_nothrow(name), \
"Enum::_from_string: invalid argument"); \
} \
\
constexpr static const _optional<EnumType> \
_from_string_nocase_nothrow(const char *name) \
{ \
return \
_enum::_map_index<EnumType>(_value_array, \
_from_string_nocase_loop(name)); \
} \
\
constexpr static const EnumType _from_string_nocase(const char *name) \
{ \
return \
_enum::_or_throw(_from_string_nocase_nothrow(name), \
"Enum::_from_string_nocase: invalid argument"); \
} \
\
constexpr static bool _is_valid(_integral value) \
{ \
return _from_int_loop(value); \
} \
\
constexpr static bool _is_valid(const char *name) \
{ \
return _from_string_loop(name); \
} \
\
constexpr static bool _is_valid_nocase(const char *name) \
{ \
return _from_string_nocase_loop(name); \
} \
\
constexpr operator _ENUM_NS(EnumType)::_Case() const \
{ \
return (_ENUM_NS(EnumType)::_Case)_value; \
} \
\
using _value_iterable = _enum::_Iterable<_ENUM_NS(EnumType)::_Base>; \
using _name_iterable = _enum::_Iterable<const char*>; \
\
using _value_iterator = _value_iterable::iterator; \
using _name_iterator = _name_iterable::iterator; \
\
constexpr static const _value_iterable &_values = \
_ENUM_NS(EnumType)::_values; \
constexpr static const _name_iterable &_names = \
_ENUM_NS(EnumType)::_names; \
\
constexpr static const _value_iterable& _values_() \
{ \
return _values; \
} \
\
constexpr static const _name_iterable& _names_() \
{ \
return _names; \
} \
\
protected: \
constexpr static _optional<size_t> _from_int_loop(_integral value, \
size_t index = 0) \
{ \
return \
index == _size ? _optional<size_t>() : \
_value_array[index]._value == value ? _optional<size_t>(index) : \
_from_int_loop(value, index + 1); \
} \
\
constexpr static _optional<size_t> _from_string_loop(const char *name, \
size_t index = 0) \
{ \
return \
index == _size ? _optional<size_t>() : \
_enum::_namesMatch(_name_array[index], name) ? \
_optional<size_t>(index) : \
_from_string_loop(name, index + 1); \
} \
\
constexpr static _optional<size_t> \
_from_string_nocase_loop(const char *name, size_t index = 0) \
{ \
return \
index == _size ? _optional<size_t>() : \
_enum::_namesMatchNocase(_name_array[index], name) ? \
_optional<size_t>(index) : \
_from_string_nocase_loop(name, index + 1); \
} \
};
#else // #ifdef _ENUM_COMPILE_TIME
#define _ENUM_TYPE(EnumType, Integral, ...) \
class EnumType : public _ENUM_NS(EnumType)::_Base { \
protected: \
typedef better_enums::optional<EnumType> _optional; \
typedef better_enums::optional<size_t> _optional_index; \
\
public: \
typedef Integral _integral; \
\
EnumType(_enumerated value) : _Base(value) { } \
EnumType(_ENUM_NS(EnumType)::_Base value) : _Base(value) { } \
\
static const char* _name_() \
{ \
return #EnumType; \
} \
\
static const size_t _size = _ENUM_NS(EnumType)::_size; \
\
_integral _to_integral() const \
{ \
return _value; \
} \
\
static _optional _from_integral_nothrow(_integral value) \
{ \
_optional_index index = _value_to_index(value); \
if (!index) \
return _optional(); \
\
return EnumType((_enumerated)value); \
} \
\
static EnumType _from_integral(_integral value) \
{ \
_optional maybe = _from_integral_nothrow(value); \
if (!maybe) \
throw std::runtime_error("Enum::_from_integral: invalid argument");\
\
return *maybe; \
} \
\
static EnumType _from_integral_unchecked(_integral value) \
{ \
return (_enumerated)value; \
} \
\
const char* _to_string() const \
{ \
_optional_index index = _value_to_index(_value); \
if (!index) \
throw std::runtime_error("Enum::to_string: invalid enum value"); \
\
return _ENUM_NS(EnumType)::_trimmed_names[*index]; \
} \
\
operator _enumerated() const \
{ \
return (_enumerated)_value; \
} \
\
static _optional _from_string_nothrow(const char *name) \
{ \
_optional_index index = _string_to_index(name); \
if (!index) \
return _optional(); \
\
return (EnumType)_ENUM_NS(EnumType)::_value_array[*index]; \
} \
\
static EnumType _from_string(const char *name) \
{ \
_optional maybe = _from_string_nothrow(name); \
if (!maybe) \
throw std::runtime_error("Enum::_from_string: invalid argument"); \
\
return *maybe; \
} \
\
static _optional _from_string_nocase_nothrow(const char *name) \
{ \
_optional_index index = _string_to_index_nocase(name); \
if (!index) \
return _optional(); \
\
return (EnumType)_ENUM_NS(EnumType)::_value_array[*index]; \
} \
\
static EnumType _from_string_nocase(const char *name) \
{ \
_optional maybe = _from_string_nocase_nothrow(name); \
if (!maybe) { \
throw std::runtime_error( \
"Enum::_from_string_nocase: invalid argument"); \
} \
\
return *maybe; \
} \
\
static bool _is_valid(_integral value) \
{ \
return _value_to_index(value); \
} \
\
static bool _is_valid(const char *name) \
{ \
return _string_to_index(name); \
} \
\
static bool _is_valid_nocase(const char *name) \
{ \
return _string_to_index_nocase(name); \
} \
\
typedef _enum::_Iterable<_ENUM_NS(EnumType)::_Base> _value_iterable; \
typedef _enum::_Iterable<const char*> _name_iterable; \
\
typedef _value_iterable::iterator _value_iterator; \
typedef _name_iterable::iterator _name_iterator; \
\
static _value_iterable _values_() \
{ \
return _value_iterable(_ENUM_NS(EnumType)::_value_array, _size); \
} \
\
static _name_iterable _names_() \
{ \
_initialize(); \
return _name_iterable(_ENUM_NS(EnumType)::_trimmed_names, _size); \
} \
\
protected: \
static void _initialize() \
{ \
if (_ENUM_NS(EnumType)::_initialized) \
return; \
\
for (size_t index = 0; index < _size; ++index) { \
_ENUM_NS(EnumType)::_indices_by_value[ \
_ENUM_NS(EnumType)::_value_array[index]._value] = index; \
} \
\
_ENUM_NS(EnumType)::_trimmed_names = new const char*[_size]; \
_enum::_trim_names(_ENUM_NS(EnumType)::_raw_names, \
_ENUM_NS(EnumType)::_trimmed_names, _size); \
\
_ENUM_NS(EnumType)::_initialized = true; \
} \
\
static _optional_index _value_to_index(_integral value) \
{ \
_initialize(); \
\
std::map<Integral, size_t>::iterator iterator = \
_ENUM_NS(EnumType)::_indices_by_value.find(value); \
\
if (iterator == _ENUM_NS(EnumType)::_indices_by_value.end()) \
return _optional_index(); \
\
return iterator->second; \
} \
\
static _optional_index _string_to_index(const char *s) \
{ \
_initialize(); \
\
for (size_t index = 0; index < _size; ++index) { \
if (std::strcmp(s, _ENUM_NS(EnumType)::_trimmed_names[index]) == 0)\
return index; \
} \
\
return _optional_index(); \
} \
\
static _optional_index _string_to_index_nocase(const char *s) \
{ \
_initialize(); \
\
for (size_t index = 0; index < _size; ++index) { \
if (strcasecmp(s, _ENUM_NS(EnumType)::_trimmed_names[index]) == 0) \
return index; \
} \
\
return _optional_index(); \
} \
\
private: \
EnumType() : _Base((_enumerated)0) { } \
};
#endif // #ifdef _ENUM_COMPILE_TIME
#define _ENUM_OPERATORS(EnumType) \
_ENUM_CONSTEXPR const EnumType operator +(EnumType::_enumerated enumerated) \
{ return (EnumType)enumerated; } \
\
namespace _enum { \
namespace _data_ ## EnumType { \
\
_ENUM_CONSTEXPR const EnumType operator +(_ENUM_NS(EnumType)::_Base base) \
{ return (EnumType)base; } \
\
} \
}
#define ENUM(EnumType, Integral, ...) \
_ENUM_DATA(EnumType, Integral, __VA_ARGS__) \
_ENUM_TYPE(EnumType, Integral, __VA_ARGS__) \
_ENUM_OPERATORS(EnumType)
#endif // #ifndef _BETTER_ENUMS_ENUM_H_
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