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webkit / WebKit / 4cc720436197cbbb8e4c48226df34e98d98509ab / . / PerformanceTests / StitchMarker / wtf / Variant.h
blob: f6405aa188d1eaf60c1e554fb5b2fe09c936809b [file] [log] [blame]
// Copyright (c) 2015, Just Software Solutions Ltd
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or
// without modification, are permitted provided that the
// following conditions are met:
//
// 1. Redistributions of source code must retain the above
// copyright notice, this list of conditions and the following
// disclaimer.
//
// 2. Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials
// provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of
// its contributors may be used to endorse or promote products
// derived from this software without specific prior written
// permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
// CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
// INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
// NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
// HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
// OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
// EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// Copied from https://bitbucket.org/anthonyw/variant/src (5bce47fa788648f79e5ea1d77b0eef2e8f0b2999)
// Modified to make it compile with exceptions disabled.
#pragma once
#include <functional>
#include <limits.h>
#include <new>
#include <stddef.h>
#include <stdexcept>
#include <string>
#include <type_traits>
#include <utility>
#include <wtf/Compiler.h>
#include <wtf/StdLibExtras.h>
#if COMPILER(MSVC)
#pragma warning(push)
#pragma warning(disable:4245)
#pragma warning(disable:4521)
#pragma warning(disable:4522)
#pragma warning(disable:4814)
#endif
#if !COMPILER(CLANG) || WTF_CPP_STD_VER >= 14
namespace WTF {
#if COMPILER_SUPPORTS(EXCEPTIONS)
#define __THROW_EXCEPTION(__exception) throw __exception;
#define __NOEXCEPT noexcept
#define __NOEXCEPT_(__exception) noexcept(__exception)
#else
#define __THROW_EXCEPTION(__exception) do { (void)__exception; CRASH(); } while (0);
#define __NOEXCEPT
#define __NOEXCEPT_(...)
#endif
struct __in_place_private{
template<typename>
struct __type_holder;
template<size_t>
struct __value_holder;
};
struct in_place_tag {
in_place_tag() = delete;
};
using in_place_t = in_place_tag(&)(__in_place_private&);
template <class _Type>
using in_place_type_t = in_place_tag(&)(__in_place_private::__type_holder<_Type>&);
template <size_t _Index>
using in_place_index_t = in_place_tag(&)(__in_place_private::__value_holder<_Index>&);
in_place_tag in_place(__in_place_private&);
template <class _Type>
in_place_tag in_place(__in_place_private::__type_holder<_Type> &) {
__THROW_EXCEPTION(__in_place_private());
}
template <size_t _Index>
in_place_tag in_place(__in_place_private::__value_holder<_Index> &) {
__THROW_EXCEPTION(__in_place_private());
}
class bad_variant_access: public std::logic_error{
public:
explicit bad_variant_access(const std::string& what_arg):
std::logic_error(what_arg)
{}
explicit bad_variant_access(const char* what_arg):
std::logic_error(what_arg)
{}
};
template<typename T>
NO_RETURN_DUE_TO_CRASH inline T __throw_bad_variant_access(const char* what_arg){
__THROW_EXCEPTION(bad_variant_access(what_arg))
}
template<ptrdiff_t _Offset,typename _Type,typename ... _Types>
struct __type_index_helper;
template<ptrdiff_t _Offset,typename _Type,typename _Head,typename ... _Rest>
struct __type_index_helper<_Offset,_Type,_Head,_Rest...>{
static constexpr ptrdiff_t __value=
__type_index_helper<_Offset+1,_Type,_Rest...>::__value;
};
template<ptrdiff_t _Offset,typename _Type,typename ... _Rest>
struct __type_index_helper<_Offset,_Type,_Type,_Rest...>{
static constexpr ptrdiff_t __value=_Offset;
};
template<typename _Type,typename ... _Types>
struct __type_index{
static constexpr ptrdiff_t __value=
__type_index_helper<0,_Type,_Types...>::__value;
};
template<ptrdiff_t _Index,typename ... _Types>
struct __indexed_type;
template<typename _Head,typename ... _Rest>
struct __indexed_type<0,_Head,_Rest...>{
typedef _Head __type;
};
template<typename _Head,typename ... _Rest>
struct __indexed_type<-1,_Head,_Rest...>{
typedef void __type;
};
template<ptrdiff_t _Index,typename _Head,typename ... _Rest>
struct __indexed_type<_Index,_Head,_Rest...>{
typedef typename __indexed_type<_Index-1,_Rest...>::__type __type;
};
template<ptrdiff_t _Index,typename ..._Types>
struct __next_index{
static constexpr ptrdiff_t __value=
(_Index>=ptrdiff_t(sizeof...(_Types)-1))?-1:_Index+1;
};
template<typename ... _Types>
class Variant;
template<typename>
struct variant_size;
template <typename _Type>
struct variant_size<const _Type> : variant_size<_Type> {};
template <typename _Type>
struct variant_size<volatile _Type> : variant_size<_Type> {};
template <typename _Type>
struct variant_size<const volatile _Type> : variant_size<_Type> {};
template <typename... _Types>
struct variant_size<Variant<_Types...>>
: std::integral_constant<size_t, sizeof...(_Types)> {};
template<size_t _Index,typename _Type>
struct variant_alternative;
template<size_t _Index,typename _Type>
using variant_alternative_t=typename variant_alternative<_Index,_Type>::type;
template <size_t _Index, typename _Type>
struct variant_alternative<_Index, const _Type>{
using type=std::add_const_t<variant_alternative_t<_Index,_Type>>;
};
template <size_t _Index, typename _Type>
struct variant_alternative<_Index, volatile _Type>{
using type=std::add_volatile_t<variant_alternative_t<_Index,_Type>>;
};
template <size_t _Index, typename _Type>
struct variant_alternative<_Index, volatile const _Type>{
using type=std::add_volatile_t<std::add_const_t<variant_alternative_t<_Index,_Type>>>;
};
template<size_t _Index,typename ... _Types>
struct variant_alternative<_Index,Variant<_Types...>>{
using type=typename __indexed_type<_Index,_Types...>::__type;
};
constexpr size_t variant_npos=-1;
template<typename _Type,typename ... _Types>
constexpr _Type& get(Variant<_Types...>&);
template<typename _Type,typename ... _Types>
constexpr _Type const& get(Variant<_Types...> const&);
template<typename _Type,typename ... _Types>
constexpr _Type&& get(Variant<_Types...>&&);
template<typename _Type,typename ... _Types>
constexpr const _Type&& get(Variant<_Types...> const&&);
template<ptrdiff_t _Index,typename ... _Types>
constexpr typename __indexed_type<_Index,_Types...>::__type& get(Variant<_Types...>&);
template<ptrdiff_t _Index,typename ... _Types>
constexpr typename __indexed_type<_Index,_Types...>::__type&& get(Variant<_Types...>&&);
template<ptrdiff_t _Index,typename ... _Types>
constexpr typename __indexed_type<_Index,_Types...>::__type const& get(
Variant<_Types...> const&);
template <ptrdiff_t _Index, typename... _Types>
constexpr const typename __indexed_type<_Index, _Types...>::__type &&
get(Variant<_Types...> const &&);
template<typename _Type,typename ... _Types>
constexpr std::add_pointer_t<_Type> get_if(Variant<_Types...>&);
template<typename _Type,typename ... _Types>
constexpr std::add_pointer_t<_Type const> get_if(Variant<_Types...> const&);
template<ptrdiff_t _Index,typename ... _Types>
constexpr std::add_pointer_t<typename __indexed_type<_Index,_Types...>::__type> get_if(Variant<_Types...>&);
template<ptrdiff_t _Index,typename ... _Types>
constexpr std::add_pointer_t<typename __indexed_type<_Index,_Types...>::__type const> get_if(
Variant<_Types...> const&);
template<ptrdiff_t _Index,typename ... _Types>
struct __variant_accessor;
template<size_t __count,
bool __larger_than_char=(__count>SCHAR_MAX),
bool __larger_than_short=(__count>SHRT_MAX),
bool __larger_than_int=(__count>INT_MAX)>
struct __discriminator_type{
typedef signed char __type;
};
template<size_t __count>
struct __discriminator_type<__count,true,false,false>{
typedef signed short __type;
};
template<size_t __count>
struct __discriminator_type<__count,true,true,false>{
typedef int __type;
};
template<size_t __count>
struct __discriminator_type<__count,true,true,true>{
typedef signed long __type;
};
template<typename _Type>
struct __stored_type{
typedef _Type __type;
};
template<typename _Type>
struct __stored_type<_Type&>{
typedef _Type* __type;
};
template<typename ... _Types>
struct __all_trivially_destructible;
template<>
struct __all_trivially_destructible<> {
static constexpr bool __value=true;
};
template<typename _Type>
struct __all_trivially_destructible<_Type> {
static constexpr bool __value=
std::is_trivially_destructible<typename __stored_type<_Type>::__type>::value;
};
template<typename _Head,typename ... _Rest>
struct __all_trivially_destructible<_Head,_Rest...> {
static constexpr bool __value=
__all_trivially_destructible<_Head>::__value &&
__all_trivially_destructible<_Rest...>::__value;
};
template<typename _Target,typename ... _Args>
struct __storage_nothrow_constructible{
static const bool __value=
std::is_nothrow_constructible<_Target, _Args...>::value;
};
template<typename ... _Types>
struct __storage_nothrow_move_constructible;
template<>
struct __storage_nothrow_move_constructible<> {
static constexpr bool __value=true;
};
template<typename _Type>
struct __storage_nothrow_move_constructible<_Type> {
static constexpr bool __value=
std::is_nothrow_move_constructible<
typename __stored_type<_Type>::__type>::value;
};
template<typename _Head,typename ... _Rest>
struct __storage_nothrow_move_constructible<_Head,_Rest...> {
static constexpr bool __value=
__storage_nothrow_move_constructible<_Head>::__value &&
__storage_nothrow_move_constructible<_Rest...>::__value;
};
template<ptrdiff_t _Index,typename ... _Types>
struct __other_storage_nothrow_move_constructible;
template<typename _Head,typename ... _Rest>
struct __other_storage_nothrow_move_constructible<0,_Head,_Rest...>{
static const bool __value=__storage_nothrow_move_constructible<_Rest...>::__value;
};
template<typename _Head,typename ... _Rest>
struct __other_storage_nothrow_move_constructible<-1,_Head,_Rest...>{
static const bool __value=
__storage_nothrow_move_constructible<_Head,_Rest...>::__value;
};
template<ptrdiff_t _Index,typename _Head,typename ... _Rest>
struct __other_storage_nothrow_move_constructible<_Index,_Head,_Rest...>{
static const bool __value=
__storage_nothrow_move_constructible<_Head>::__value &&
__other_storage_nothrow_move_constructible<_Index-1,_Rest...>::__value;
};
template<ptrdiff_t _Index,typename ... _Types>
struct __backup_storage_required{
static const bool __value=
!__storage_nothrow_move_constructible<
typename __indexed_type<_Index,_Types...>::__type>::__value &&
!__other_storage_nothrow_move_constructible<_Index,_Types...>::__value;
};
template<ptrdiff_t _Index,ptrdiff_t _Count,typename ... _Types>
struct __any_backup_storage_required_impl{
static const bool __value=
__backup_storage_required<_Index,_Types...>::__value ||
__any_backup_storage_required_impl<_Index+1,_Count-1,_Types...>::__value;
};
template<ptrdiff_t _Index,typename ... _Types>
struct __any_backup_storage_required_impl<_Index,0,_Types...>{
static const bool __value=false;
};
template<typename _Variant>
struct __any_backup_storage_required;
template<typename ... _Types>
struct __any_backup_storage_required<Variant<_Types...> >{
static const bool __value=
__any_backup_storage_required_impl<0,sizeof...(_Types),_Types...>::__value;
};
template<typename ... _Types>
union __variant_data;
template<typename _Type,bool=std::is_literal_type<_Type>::value>
struct __variant_storage{
typedef _Type __type;
static constexpr _Type& __get(__type& __val){
return __val;
}
static constexpr _Type&& __get_rref(__type& __val){
return std::move(__val);
}
static constexpr const _Type& __get(__type const& __val){
return __val;
}
static constexpr const _Type&& __get_rref(__type const& __val){
return std::move(__val);
}
static void __destroy(__type&){}
};
template<typename _Type>
struct __storage_wrapper{
typename std::aligned_storage<sizeof(_Type),alignof(_Type)>::type __storage;
template<typename ... _Args>
static constexpr void __construct(void* __p,_Args&& ... __args){
new (__p) _Type(std::forward<_Args>(__args)...);
}
template <typename _Dummy = _Type>
__storage_wrapper(
typename std::enable_if<std::is_default_constructible<_Dummy>::value,
void (__storage_wrapper::*)()>::type = nullptr) {
__construct(&__storage);
}
template <typename _Dummy = _Type>
__storage_wrapper(
typename std::enable_if<!std::is_default_constructible<_Dummy>::value,
void (__storage_wrapper::*)()>::type = nullptr) {
}
template<typename _First,typename ... _Args>
__storage_wrapper(_First&& __first,_Args&& ... __args){
__construct(&__storage,std::forward<_First>(__first),std::forward<_Args>(__args)...);
}
_Type& __get(){
return *static_cast<_Type*>(static_cast<void*>(&__storage));
}
constexpr _Type const& __get() const{
return *static_cast<_Type const*>(static_cast<void const*>(&__storage));
}
void __destroy(){
__get().~_Type();
}
};
template<typename _Type>
struct __storage_wrapper<_Type&>{
_Type* __storage;
template<typename _Arg>
constexpr __storage_wrapper(_Arg& __arg):
__storage(&__arg){}
_Type& __get(){
return *__storage;
}
constexpr _Type const& __get() const{
return *__storage;
}
};
template<typename _Type>
struct __variant_storage<_Type,false>{
typedef __storage_wrapper<_Type> __type;
static constexpr _Type& __get(__type& __val){
return __val.__get();
}
static constexpr _Type&& __get_rref(__type& __val){
return std::move(__val.__get());
}
static constexpr const _Type& __get(__type const& __val){
return __val.__get();
}
static constexpr const _Type&& __get_rref(__type const& __val){
return std::move(__val.__get());
}
static void __destroy(__type& __val){
__val.__destroy();
}
};
template<typename _Type,bool __b>
struct __variant_storage<_Type&,__b>{
typedef _Type* __type;
static constexpr _Type& __get(__type& __val){
return *__val;
}
static constexpr _Type& __get_rref(__type& __val){
return *__val;
}
static constexpr _Type& __get(__type const& __val){
return *__val;
}
static constexpr _Type& __get_rref(__type const& __val){
return *__val;
}
static void __destroy(__type&){}
};
template<typename _Type,bool __b>
struct __variant_storage<_Type&&,__b>{
typedef _Type* __type;
static constexpr _Type&& __get(__type& __val){
return static_cast<_Type&&>(*__val);
}
static constexpr _Type&& __get_rref(__type& __val){
return static_cast<_Type&&>(*__val);
}
static constexpr _Type&& __get(__type const& __val){
return static_cast<_Type&&>(*__val);
}
static constexpr _Type&& __get_rref(__type const& __val){
return static_cast<_Type&&>(*__val);
}
static void __destroy(__type&){}
};
template<>
union __variant_data<>{
constexpr __variant_data(){}
};
template<typename _Type>
union __variant_data<_Type>{
typename __variant_storage<_Type>::__type __val;
struct __dummy_type{} __dummy;
constexpr __variant_data():__dummy(){}
template<typename ... _Args>
constexpr __variant_data(in_place_index_t<0>,_Args&& ... __args):
__val(std::forward<_Args>(__args)...){}
_Type& __get(in_place_index_t<0>){
return __variant_storage<_Type>::__get(__val);
}
/*constexpr*/ _Type&& __get_rref(in_place_index_t<0>){
return __variant_storage<_Type>::__get_rref(__val);
}
constexpr const _Type& __get(in_place_index_t<0>) const{
return __variant_storage<_Type>::__get(__val);
}
constexpr const _Type&& __get_rref(in_place_index_t<0>) const{
return __variant_storage<_Type>::__get_rref(__val);
}
void __destroy(in_place_index_t<0>){
__variant_storage<_Type>::__destroy(__val);
}
};
template<typename _Type>
union __variant_data<_Type&>{
typename __variant_storage<_Type&>::__type __val;
struct __dummy_type{} __dummy;
constexpr __variant_data():__dummy(){}
template<typename ... _Args>
constexpr __variant_data(in_place_index_t<0>,_Args&& ... __args):
__val(&std::forward<_Args>(__args)...){}
_Type& __get(in_place_index_t<0>){
return __variant_storage<_Type&>::__get(__val);
}
constexpr _Type& __get(in_place_index_t<0>) const{
return __variant_storage<_Type&>::__get(__val);
}
_Type& __get_rref(in_place_index_t<0>){
return __variant_storage<_Type&>::__get_rref(__val);
}
constexpr _Type& __get_rref(in_place_index_t<0>) const{
return __variant_storage<_Type&>::__get_rref(__val);
}
void __destroy(in_place_index_t<0>){
__variant_storage<_Type&>::__destroy(__val);
}
};
template<typename _Type>
union __variant_data<_Type&&>{
typename __variant_storage<_Type&&>::__type __val;
struct __dummy_type{} __dummy;
constexpr __variant_data():__dummy(){}
template<typename _Arg>
__variant_data(in_place_index_t<0>,_Arg&& __arg):
__val(&__arg){}
_Type&& __get(in_place_index_t<0>){
return __variant_storage<_Type&&>::__get(__val);
}
constexpr _Type&& __get(in_place_index_t<0>) const{
return __variant_storage<_Type&&>::__get(__val);
}
_Type&& __get_rref(in_place_index_t<0>){
return __variant_storage<_Type&&>::__get_rref(__val);
}
constexpr _Type&& __get_rref(in_place_index_t<0>) const{
return __variant_storage<_Type&&>::__get_rref(__val);
}
void __destroy(in_place_index_t<0>){
__variant_storage<_Type&&>::__destroy(__val);
}
};
template<typename _Head,typename ... _Rest>
union __variant_data<_Head,_Rest...>{
__variant_data<_Head> __head;
__variant_data<_Rest...> __rest;
constexpr __variant_data():
__head(){}
template<typename ... _Args>
constexpr __variant_data(in_place_index_t<0>,_Args&& ... __args):
__head(in_place<0>,std::forward<_Args>(__args)...){}
template<size_t _Index,typename ... _Args>
constexpr __variant_data(in_place_index_t<_Index>,_Args&& ... __args):
__rest(in_place<_Index-1>,std::forward<_Args>(__args)...){}
_Head& __get(in_place_index_t<0>){
return __head.__get(in_place<0>);
}
/*constexpr*/ _Head&& __get_rref(in_place_index_t<0>){
return __head.__get_rref(in_place<0>);
}
constexpr const _Head& __get(in_place_index_t<0>) const{
return __head.__get(in_place<0>);
}
constexpr const _Head&& __get_rref(in_place_index_t<0>) const{
return __head.__get_rref(in_place<0>);
}
template<size_t _Index>
typename __indexed_type<_Index-1,_Rest...>::__type& __get(
in_place_index_t<_Index>){
return __rest.__get(in_place<_Index-1>);
}
template<size_t _Index>
/*constexpr*/ typename __indexed_type<_Index-1,_Rest...>::__type&& __get_rref(
in_place_index_t<_Index>){
return __rest.__get_rref(in_place<_Index-1>);
}
template<size_t _Index>
constexpr const typename __indexed_type<_Index-1,_Rest...>::__type& __get(
in_place_index_t<_Index>) const{
return __rest.__get(in_place<_Index-1>);
}
template<size_t _Index>
constexpr const typename __indexed_type<_Index-1,_Rest...>::__type&& __get_rref(
in_place_index_t<_Index>) const{
return __rest.__get_rref(in_place<_Index-1>);
}
void __destroy(in_place_index_t<0>){
__head.__destroy(in_place<0>);
}
template<size_t _Index>
void __destroy(in_place_index_t<_Index>){
__rest.__destroy(in_place<_Index-1>);
}
};
template<ptrdiff_t... _Indices>
struct __index_sequence{
typedef __index_sequence<_Indices...,sizeof...(_Indices)> __next;
static constexpr size_t __length=sizeof...(_Indices);
};
template<typename ... _Types>
struct __type_indices;
template<>
struct __type_indices<>{
typedef __index_sequence<> __type;
};
template<typename _Type>
struct __type_indices<_Type>{
typedef __index_sequence<0> __type;
};
template<typename _Type,typename ... _Rest>
struct __type_indices<_Type,_Rest...>{
typedef typename __type_indices<_Rest...>::__type::__next __type;
};
template<typename _Variant>
struct __variant_indices;
template<typename ... _Types>
struct __variant_indices<Variant<_Types...>>{
typedef typename __type_indices<_Types...>::__type __type;
};
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __move_construct_op_table;
template<typename _Variant,ptrdiff_t ... _Indices>
struct __move_construct_op_table<_Variant,__index_sequence<_Indices...>>{
typedef void(* const __func_type)(_Variant*,_Variant&);
template<ptrdiff_t _Index>
static void __move_construct_func(
_Variant * __lhs,_Variant& __rhs){
__lhs->template __emplace_construct<_Index>(
std::move(get<_Index>(__rhs)));
}
static const __func_type __apply[sizeof...(_Indices)];
};
template<typename _Variant,ptrdiff_t ... _Indices>
const typename __move_construct_op_table<_Variant,__index_sequence<_Indices...>>::
__func_type
__move_construct_op_table<_Variant,__index_sequence<_Indices...>>::__apply[
sizeof...(_Indices)]={
&__move_construct_func<_Indices>...
};
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __move_assign_op_table;
template<typename _Variant,ptrdiff_t ... _Indices>
struct __move_assign_op_table<_Variant,__index_sequence<_Indices...>>{
typedef void(* const __func_type)(_Variant*,_Variant&);
template<ptrdiff_t _Index>
static void __move_assign_func(
_Variant * __lhs,_Variant& __rhs){
get<_Index>(*__lhs)=std::move(get<_Index>(__rhs));
}
static const __func_type __apply[sizeof...(_Indices)];
};
template<typename _Variant,ptrdiff_t ... _Indices>
const typename __move_assign_op_table<_Variant,__index_sequence<_Indices...>>::
__func_type
__move_assign_op_table<_Variant,__index_sequence<_Indices...>>::__apply[
sizeof...(_Indices)]={
&__move_assign_func<_Indices>...
};
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __copy_construct_op_table;
template<typename _Variant,ptrdiff_t ... _Indices>
struct __copy_construct_op_table<_Variant,__index_sequence<_Indices...>>{
typedef void(* const __func_type)(_Variant*,_Variant const&);
template<ptrdiff_t _Index>
static void __copy_construct_func(
_Variant * __lhs,_Variant const& __rhs){
__lhs->template __emplace_construct<_Index>(
get<_Index>(__rhs));
}
static const __func_type __apply[sizeof...(_Indices)];
};
template<typename _Variant,ptrdiff_t ... _Indices>
const typename __copy_construct_op_table<_Variant,__index_sequence<_Indices...>>::
__func_type
__copy_construct_op_table<_Variant,__index_sequence<_Indices...>>::__apply[
sizeof...(_Indices)]={
&__copy_construct_func<_Indices>...
};
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __copy_assign_op_table;
template<typename _Variant,ptrdiff_t ... _Indices>
struct __copy_assign_op_table<_Variant,__index_sequence<_Indices...>>{
typedef void(* const __func_type)(_Variant*,_Variant const&);
template<ptrdiff_t _Index>
static void __copy_assign_func(
_Variant * __lhs,_Variant const& __rhs){
get<_Index>(*__lhs)=get<_Index>(__rhs);
}
static const __func_type __apply[sizeof...(_Indices)];
};
template<typename _Variant,ptrdiff_t ... _Indices>
const typename __copy_assign_op_table<_Variant,__index_sequence<_Indices...>>::
__func_type
__copy_assign_op_table<_Variant,__index_sequence<_Indices...>>::__apply[
sizeof...(_Indices)]={
&__copy_assign_func<_Indices>...
};
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __destroy_op_table;
template<typename _Variant,ptrdiff_t ... _Indices>
struct __destroy_op_table<_Variant,__index_sequence<_Indices...>>{
typedef void(* const __func_type)(_Variant*);
template<ptrdiff_t _Index>
static void __destroy_func(
_Variant * __self){
if(__self->__index>=0){
__self->__storage.__destroy(in_place<_Index>);
}
}
static const __func_type __apply[sizeof...(_Indices)];
};
template<typename _Variant,ptrdiff_t ... _Indices>
const typename __destroy_op_table<_Variant,__index_sequence<_Indices...>>::
__func_type
__destroy_op_table<_Variant,__index_sequence<_Indices...>>::__apply[
sizeof...(_Indices)]={
&__destroy_func<_Indices>...
};
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __swap_op_table;
template<typename _Variant,ptrdiff_t ... _Indices>
struct __swap_op_table<_Variant,__index_sequence<_Indices...>>{
typedef void(* const __func_type)(_Variant&,_Variant&);
template<ptrdiff_t _Index>
static void __swap_func(
_Variant & __lhs,_Variant & __rhs){
swap(get<_Index>(__lhs),get<_Index>(__rhs));
}
static const __func_type __apply[sizeof...(_Indices)];
};
template<typename _Variant,ptrdiff_t ... _Indices>
const typename __swap_op_table<_Variant,__index_sequence<_Indices...>>::
__func_type
__swap_op_table<_Variant,__index_sequence<_Indices...>>::__apply[
sizeof...(_Indices)]={
&__swap_func<_Indices>...
};
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __equality_op_table;
template<typename _Variant,ptrdiff_t ... _Indices>
struct __equality_op_table<_Variant,__index_sequence<_Indices...>>{
typedef bool(* const __compare_func_type)(_Variant const&,_Variant const&);
template<ptrdiff_t _Index>
static constexpr bool __equality_compare_func(
_Variant const& __lhs,_Variant const& __rhs){
return get<_Index>(__lhs)==get<_Index>(__rhs);
}
static constexpr __compare_func_type __equality_compare[sizeof...(_Indices)]={
&__equality_compare_func<_Indices>...
};
};
template<typename _Variant,ptrdiff_t ... _Indices>
constexpr typename __equality_op_table<_Variant,__index_sequence<_Indices...>>::
__compare_func_type
__equality_op_table<_Variant,__index_sequence<_Indices...>>::__equality_compare[
sizeof...(_Indices)];
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __less_than_op_table;
template<typename _Variant,ptrdiff_t ... _Indices>
struct __less_than_op_table<_Variant,__index_sequence<_Indices...>>{
typedef bool(* const __compare_func_type)(_Variant const&,_Variant const&);
template<ptrdiff_t _Index>
static constexpr bool __less_than_compare_func(
_Variant const& __lhs,_Variant const& __rhs){
return get<_Index>(__lhs)<get<_Index>(__rhs);
}
static constexpr __compare_func_type __less_than_compare[sizeof...(_Indices)]={
&__less_than_compare_func<_Indices>...
};
};
template<typename _Variant,ptrdiff_t ... _Indices>
constexpr typename __less_than_op_table<_Variant,__index_sequence<_Indices...>>::
__compare_func_type
__less_than_op_table<_Variant,__index_sequence<_Indices...>>::__less_than_compare[
sizeof...(_Indices)];
template<typename _Variant>
struct __variant_storage_type;
template<typename _Derived,bool __trivial_destructor>
struct __variant_base
{
~__variant_base(){
static_cast<_Derived*>(this)->__destroy_self();
}
};
template<typename _Derived>
struct __variant_base<_Derived,true>{
};
template<ptrdiff_t _Offset,typename _CurrentSequence,
typename _Type,typename ... _Types>
struct __all_indices_helper;
template<ptrdiff_t _Offset,ptrdiff_t ... _Indices,
typename _Type,typename ... _Rest>
struct __all_indices_helper<
_Offset,__index_sequence<_Indices...>,
_Type,_Type,_Rest...>{
typedef typename __all_indices_helper<
_Offset+1,__index_sequence<_Indices...,_Offset>,_Type,_Rest...>::__type
__type;
};
template<ptrdiff_t _Offset,typename _CurrentSequence,
typename _Type,typename _Head,typename ... _Rest>
struct __all_indices_helper<_Offset,_CurrentSequence,_Type,_Head,_Rest...>{
typedef typename __all_indices_helper<
_Offset+1,_CurrentSequence,_Type,_Rest...>::__type __type;
};
template<ptrdiff_t _Offset,typename _CurrentSequence,typename _Type>
struct __all_indices_helper<_Offset,_CurrentSequence,_Type>{
typedef _CurrentSequence __type;
};
template<typename _Type,typename ... _Types>
struct __all_indices{
typedef typename __all_indices_helper<
0,__index_sequence<>,_Type,_Types...>::__type __type;
};
template<typename ... _Sequences>
struct __combine_sequences;
template<ptrdiff_t ... _Indices1,ptrdiff_t ... _Indices2>
struct __combine_sequences<
__index_sequence<_Indices1...>,__index_sequence<_Indices2...>>{
typedef __index_sequence<_Indices1...,_Indices2...> __type;
};
template<typename _Sequence,typename ... _Rest>
struct __combine_sequences<_Sequence,_Rest...>{
typedef typename __combine_sequences<
_Sequence,
typename __combine_sequences<_Rest...>::__type>::__type __type;
};
template<typename _Indices>
struct __first_index;
template<ptrdiff_t _FirstIndex,ptrdiff_t ... _Rest>
struct __first_index<__index_sequence<_FirstIndex,_Rest...>>{
static constexpr ptrdiff_t __value=_FirstIndex;
};
template<ptrdiff_t _Offset,typename _CurrentSequence,
typename _Type,typename ... _Types>
struct __constructible_matches_helper;
template<ptrdiff_t _Offset,typename _Sequence,typename _Type>
struct __constructible_matches_helper<
_Offset,_Sequence,_Type>{
typedef _Sequence __type;
};
template<bool _Accept,ptrdiff_t _Entry>
struct __sequence_or_empty{
typedef __index_sequence<> __type;
};
template<ptrdiff_t _Entry>
struct __sequence_or_empty<true,_Entry>{
typedef __index_sequence<_Entry> __type;
};
template<ptrdiff_t _Offset,typename _CurrentSequence,
typename _Type,typename _Head,typename ... _Rest>
struct __constructible_matches_helper<
_Offset,_CurrentSequence,_Type,_Head,_Rest...>{
typedef
typename __constructible_matches_helper<
_Offset+1,
typename __combine_sequences<
_CurrentSequence,
typename __sequence_or_empty<
std::is_constructible<_Head,_Type>::value,
_Offset>::__type>::__type,
_Type,_Rest...>::__type __type;
};
template<typename _Type,typename ... _Types>
struct __constructible_matches{
typedef typename __constructible_matches_helper<
0,__index_sequence<>,_Type,_Types...>::__type __type;
};
template<typename _Type,typename ... _Types>
struct __type_index_to_construct{
typedef typename __all_indices<_Type,_Types...>::__type __direct_matches;
typedef typename __all_indices<
typename std::remove_const<
typename std::remove_reference<_Type>::type
>::type,_Types...>::__type __value_matches;
typedef typename __all_indices<
_Type,
typename std::remove_const<
typename std::remove_reference<_Types>::type
>::type...>::__type __rref_matches;
typedef typename __constructible_matches<_Type,_Types...>::__type
__constructibles;
static_assert(
(__direct_matches::__length>0) ||
(__value_matches::__length>0) ||
(__rref_matches::__length>0) ||
(__constructibles::__length==1),
"For conversion construction of variants, exactly one type must be constructible");
typedef typename __combine_sequences<
__direct_matches,__value_matches,__rref_matches,
__constructibles>::__type __all_matches;
static constexpr ptrdiff_t __value=__first_index<__all_matches>::__value;
};
struct __replace_construct_helper{
template<
ptrdiff_t _Index,
bool __construct_directly,
bool __indexed_type_has_nothrow_move,
bool __other_types_have_nothrow_move>
struct __helper;
template<typename _Variant,
typename _Indices=typename __variant_indices<_Variant>::__type>
struct __op_table;
};
template<
ptrdiff_t _Index,
bool __other_types_have_nothrow_move>
struct __replace_construct_helper::__helper<
_Index,false,true,__other_types_have_nothrow_move>{
template<typename _Variant,typename ... _Args>
static void __trampoline(_Variant& __v,_Args&& ... __args){
__v.template __two_stage_replace<_Index>(__args...);
}
};
template<
ptrdiff_t _Index,
bool __indexed_type_has_nothrow_move,
bool __other_types_have_nothrow_move>
struct __replace_construct_helper::__helper<
_Index,true,__indexed_type_has_nothrow_move,
__other_types_have_nothrow_move>{
template<typename _Variant,typename ... _Args>
static void __trampoline(_Variant& __v,_Args&& ... __args){
__v.template __direct_replace<_Index>(std::forward<_Args>(__args)...);
}
};
template<
ptrdiff_t _Index>
struct __replace_construct_helper::__helper<
_Index,false,false,true>{
template<typename _Variant,typename ... _Args>
static void __trampoline(_Variant& __v,_Args&& ... __args){
__v.template __local_backup_replace<_Index>(std::forward<_Args>(__args)...);
}
};
template<
ptrdiff_t _Index>
struct __replace_construct_helper::__helper<
_Index,false,false,false>{
template<typename _Variant,typename ... _Args>
static void __trampoline(_Variant& __v,_Args&& ... __args){
__v.template __direct_replace<_Index>(std::forward<_Args>(__args)...);
}
};
template<typename _Variant,ptrdiff_t ... _Indices>
struct __replace_construct_helper::__op_table<_Variant,__index_sequence<_Indices...>>{
typedef void(* const __move_func_type)(_Variant*,_Variant&);
typedef void(* const __copy_func_type)(_Variant*,_Variant const&);
template<ptrdiff_t _Index>
static void __move_assign_func(
_Variant * __lhs,_Variant& __rhs){
__lhs->template __replace_construct<_Index>(std::move(get<_Index>(__rhs)));
__rhs.__destroy_self();
}
template<ptrdiff_t _Index>
static void __copy_assign_func(
_Variant * __lhs,_Variant const& __rhs){
__lhs->template __replace_construct<_Index>(get<_Index>(__rhs));
}
static const __move_func_type __move_assign[sizeof...(_Indices)];
static const __copy_func_type __copy_assign[sizeof...(_Indices)];
};
template<typename _Variant,ptrdiff_t ... _Indices>
const typename __replace_construct_helper::__op_table<
_Variant,__index_sequence<_Indices...>>::__move_func_type
__replace_construct_helper::__op_table<
_Variant,__index_sequence<_Indices...>>::__move_assign[
sizeof...(_Indices)]={
&__move_assign_func<_Indices>...
};
template<typename _Variant,ptrdiff_t ... _Indices>
const typename __replace_construct_helper::__op_table<
_Variant,__index_sequence<_Indices...>>::__copy_func_type
__replace_construct_helper::__op_table<
_Variant,__index_sequence<_Indices...>>::__copy_assign[
sizeof...(_Indices)]={
&__copy_assign_func<_Indices>...
};
template<ptrdiff_t _Index,ptrdiff_t _MaskIndex,typename _Storage>
struct __backup_storage_ops{
static void __move_construct_func(
_Storage * __dest,_Storage& __source){
new(__dest) _Storage(
in_place<_Index>,
std::move(__source.__get(in_place<_Index>)));
}
static void __destroy_func(_Storage * __obj){
__obj->__destroy(in_place<_Index>);
};
};
template<ptrdiff_t _Index,typename _Storage>
struct __backup_storage_ops<_Index,_Index,_Storage>{
static void __move_construct_func(_Storage *,_Storage&){
__THROW_EXCEPTION(std::bad_alloc());
};
static void __destroy_func(_Storage *){
__THROW_EXCEPTION(std::bad_alloc());
};
};
template<ptrdiff_t _MaskIndex,typename _Storage,typename _Indices>
struct __backup_storage_op_table;
template<ptrdiff_t _MaskIndex,typename _Storage,ptrdiff_t ... _Indices>
struct __backup_storage_op_table<
_MaskIndex,_Storage,__index_sequence<_Indices...> >
{
typedef void (*__move_func_type)(_Storage * __dest,_Storage& __source);
typedef void (*__destroy_func_type)(_Storage * __obj);
template<size_t _Index>
struct __helper{
typedef __backup_storage_ops<_Index,_MaskIndex,_Storage> __ops;
};
static const __move_func_type __move_ops[sizeof...(_Indices)];
static const __destroy_func_type __destroy_ops[sizeof...(_Indices)];
};
template<ptrdiff_t _MaskIndex,typename _Storage,ptrdiff_t ... _Indices>
const typename __backup_storage_op_table<
_MaskIndex,_Storage,__index_sequence<_Indices...> >::__move_func_type
__backup_storage_op_table<
_MaskIndex,_Storage,__index_sequence<_Indices...> >::__move_ops[
sizeof...(_Indices)]={
&__helper<_Indices>::__ops::__move_construct_func...
};
template<ptrdiff_t _MaskIndex,typename _Storage,ptrdiff_t ... _Indices>
const typename __backup_storage_op_table<
_MaskIndex,_Storage,__index_sequence<_Indices...> >::__destroy_func_type
__backup_storage_op_table<
_MaskIndex,_Storage,__index_sequence<_Indices...> >::__destroy_ops[
sizeof...(_Indices)]={
&__helper<_Indices>::__ops::__destroy_func...
};
template<ptrdiff_t _Index,typename ... _Types>
struct __backup_storage{
typedef __variant_data<_Types...> __storage_type;
typedef __backup_storage_op_table<
_Index,__storage_type,typename __type_indices<_Types...>::__type>
__op_table_type;
ptrdiff_t __backup_index;
__storage_type& __live_storage;
__storage_type __backup;
__backup_storage(ptrdiff_t __live_index_,__storage_type& __live_storage_):
__backup_index(__live_index_),__live_storage(__live_storage_){
if(__backup_index>=0){
__op_table_type::__move_ops[__backup_index](
&__backup,__live_storage);
__op_table_type::__destroy_ops[__backup_index](
&__live_storage);
}
}
void __destroy(){
if(__backup_index>=0)
__op_table_type::__destroy_ops[__backup_index](
&__backup);
__backup_index=-1;
}
~__backup_storage(){
if(__backup_index>=0){
__op_table_type::__move_ops[__backup_index](
&__live_storage,__backup);
__destroy();
}
}
};
template<typename ... _Types>
struct __all_move_constructible;
template<typename _Head,typename ... _Rest>
struct __all_move_constructible<_Head,_Rest...>
{
static constexpr bool value=std::is_move_constructible<_Head>::value && __all_move_constructible<_Rest...>::value;
};
template<>
struct __all_move_constructible<>:
std::true_type{};
template<typename ... _Types>
struct __all_move_assignable;
template<typename _Head,typename ... _Rest>
struct __all_move_assignable<_Head,_Rest...>
{
static constexpr bool value=std::is_move_assignable<_Head>::value && __all_move_assignable<_Rest...>::value;
};
template<>
struct __all_move_assignable<>:
std::true_type{};
template<typename ... _Types>
struct __all_copy_assignable;
template<typename _Head,typename ... _Rest>
struct __all_copy_assignable<_Head,_Rest...>
{
static constexpr bool value=std::is_copy_assignable<_Head>::value && __all_copy_assignable<_Rest...>::value;
};
template<>
struct __all_copy_assignable<>:
std::true_type{};
namespace __swap_test_detail{
using std::swap;
template<typename _Other>
struct __swap_result{};
template<typename>
static char __test(...);
template <typename _Other>
static std::pair<char, std::pair<char, __swap_result<decltype(
swap(std::declval<_Other &>(),std::declval<_Other &>()))>>>
__test(_Other *);
}
template <typename _Type> struct __is_swappable {
static constexpr bool value =
sizeof(__swap_test_detail::__test<_Type>(0)) != 1;
};
template<typename ... _Types>
struct __all_swappable;
template<typename _Head,typename ... _Rest>
struct __all_swappable<_Head,_Rest...>
{
static constexpr bool value=__is_swappable<_Head>::value && __all_swappable<_Rest...>::value;
};
template<>
struct __all_swappable<>:
std::true_type{};
template<bool _MoveConstructible,typename ... _Types>
struct __noexcept_variant_move_construct_impl{};
template<typename _Head,typename ... _Rest>
struct __noexcept_variant_move_construct_impl<true,_Head,_Rest...>{
static constexpr bool value=noexcept(_Head(std::declval<_Head&&>())) && __noexcept_variant_move_construct_impl<true,_Rest...>::value;
};
template<>
struct __noexcept_variant_move_construct_impl<true>{
static constexpr bool value=true;
};
template<typename ... _Types>
struct __noexcept_variant_move_construct:
__noexcept_variant_move_construct_impl<__all_move_constructible<_Types...>::value,_Types...>
{};
template<bool _MoveAssignable,typename ... _Types>
struct __noexcept_variant_move_assign_impl{};
template <typename _Head, typename... _Rest>
struct __noexcept_variant_move_assign_impl<true, _Head, _Rest...> {
static constexpr bool value =
std::is_nothrow_move_assignable<_Head>::value &&
std::is_nothrow_move_constructible<_Head>::value &&
__noexcept_variant_move_assign_impl<true, _Rest...>::value;
};
template<>
struct __noexcept_variant_move_assign_impl<true>{
static constexpr bool value=true;
};
template <typename... _Types>
struct __noexcept_variant_move_assign
: __noexcept_variant_move_assign_impl<
__all_move_assignable<_Types...>::value &&
__all_move_constructible<_Types...>::value,
_Types...> {};
template<typename ... _Types>
struct __all_copy_constructible;
template<typename _Head,typename ... _Rest>
struct __all_copy_constructible<_Head,_Rest...>
{
static constexpr bool value=std::is_copy_constructible<_Head>::value && __all_copy_constructible<_Rest...>::value;
};
template<>
struct __all_copy_constructible<>:
std::true_type{};
template<bool _CopyConstructible,typename ... _Types>
struct __noexcept_variant_const_copy_construct_impl{};
template<typename _Head,typename ... _Rest>
struct __noexcept_variant_const_copy_construct_impl<true,_Head,_Rest...>{
static constexpr bool value=noexcept(_Head(std::declval<_Head const&>())) && __noexcept_variant_const_copy_construct_impl<true,_Rest...>::value;
};
template<>
struct __noexcept_variant_const_copy_construct_impl<true>{
static constexpr bool value=true;
};
template<typename ... _Types>
struct __noexcept_variant_const_copy_construct:
__noexcept_variant_const_copy_construct_impl<__all_copy_constructible<_Types...>::value,_Types...>
{};
template<bool _CopyNon_Constructible,typename ... _Types>
struct __noexcept_variant_non_const_copy_construct_impl{};
template<typename _Head,typename ... _Rest>
struct __noexcept_variant_non_const_copy_construct_impl<true,_Head,_Rest...>{
static constexpr bool value=noexcept(_Head(std::declval<_Head&>())) && __noexcept_variant_non_const_copy_construct_impl<true,_Rest...>::value;
};
template<>
struct __noexcept_variant_non_const_copy_construct_impl<true>{
static constexpr bool value=true;
};
template<typename ... _Types>
struct __noexcept_variant_non_const_copy_construct:
__noexcept_variant_non_const_copy_construct_impl<__all_copy_constructible<_Types...>::value,_Types...>
{};
template<bool _Swappable,typename ... _Types>
struct __noexcept_variant_swap_impl{};
template <typename _Head, typename... _Rest>
struct __noexcept_variant_swap_impl<true, _Head, _Rest...> {
static constexpr bool value =
noexcept(swap(std::declval<_Head&>(),std::declval<_Head&>())) &&
__noexcept_variant_swap_impl<true, _Rest...>::value;
};
template<>
struct __noexcept_variant_swap_impl<true>{
static constexpr bool value=true;
};
template<typename ... _Types>
struct __noexcept_variant_swap:
__noexcept_variant_swap_impl<__all_swappable<_Types...>::value,_Types...>
{};
template<typename ... _Types>
class Variant:
private __variant_base<
Variant<_Types...>,__all_trivially_destructible<_Types...>::__value>
{
typedef __variant_base<Variant<_Types...>,__all_trivially_destructible<_Types...>::__value> __base_type;
friend __base_type;
friend struct __copy_construct_op_table<Variant>;
friend struct __copy_assign_op_table<Variant>;
friend struct __move_construct_op_table<Variant>;
friend struct __move_assign_op_table<Variant>;
friend struct __destroy_op_table<Variant>;
template<ptrdiff_t _Index,typename ... _Types2>
friend struct __variant_accessor;
friend struct __replace_construct_helper;
typedef __variant_data<_Types...> __storage_type;
__storage_type __storage;
typename __discriminator_type<sizeof ... (_Types)>::__type __index;
template<size_t _Index,typename ... _Args>
size_t __emplace_construct(_Args&& ... __args){
new(&__storage) __storage_type(
in_place<_Index>,std::forward<_Args>(__args)...);
return _Index;
}
void __destroy_self(){
if(valueless_by_exception())
return;
__destroy_op_table<Variant>::__apply[index()](this);
__index=-1;
}
ptrdiff_t __move_construct(Variant& __other){
ptrdiff_t const __other_index=__other.index();
if(__other_index==-1)
return -1;
__move_construct_op_table<Variant>::__apply[__other_index](this,__other);
__other.__destroy_self();
return __other_index;
}
ptrdiff_t __copy_construct(Variant const& __other){
ptrdiff_t const __other_index=__other.index();
if(__other_index==-1)
return -1;
__copy_construct_op_table<Variant>::__apply[__other_index](this,__other);
return __other_index;
}
template<size_t _Index,typename ... _Args>
void __replace_construct(_Args&& ... __args){
typedef typename __indexed_type<_Index,_Types...>::__type __this_type;
__replace_construct_helper::__helper<
_Index,
__storage_nothrow_constructible<__this_type,_Args...>::__value ||
(sizeof...(_Types)==1),
__storage_nothrow_move_constructible<__this_type>::__value,
__other_storage_nothrow_move_constructible<
_Index,_Types...>::__value
>::__trampoline(*this,std::forward<_Args>(__args)...);
}
template<size_t _Index,typename ... _Args>
void __two_stage_replace(_Args&& ... __args){
typedef typename __indexed_type<_Index,_Types...>::__type __type;
__variant_data<__type> __local(
in_place<0>,std::forward<_Args>(__args)...);
__destroy_self();
__emplace_construct<_Index>(
std::move(__local.__get(in_place<0>)));
__index=_Index;
__local.__destroy(in_place<0>);
}
template<size_t _Index,typename ... _Args>
void __local_backup_replace(_Args&& ... __args){
__backup_storage<_Index,_Types...> __backup(__index,__storage);
__emplace_construct<_Index>(std::forward<_Args>(__args)...);
__index=_Index;
__backup.__destroy();
}
template<size_t _Index,typename ... _Args>
void __direct_replace(_Args&& ... __args) {
__destroy_self();
__emplace_construct<_Index>(std::forward<_Args>(__args)...);
__index=_Index;
}
struct __private_type{};
public:
constexpr Variant()
__NOEXCEPT_(noexcept(typename __indexed_type<0,_Types...>::__type())):
__storage(in_place<0>),
__index(0)
{}
constexpr Variant(typename std::conditional<__all_move_constructible<_Types...>::value,Variant,__private_type>::type&& __other)
__NOEXCEPT_(__noexcept_variant_move_construct<_Types...>::value):
__index(__move_construct(__other))
{}
constexpr Variant(typename std::conditional<!__all_move_constructible<_Types...>::value,Variant,__private_type>::type&& __other)=delete;
constexpr Variant(typename std::conditional<__all_copy_constructible<_Types...>::value,Variant,__private_type>::type& __other)
__NOEXCEPT_(__noexcept_variant_non_const_copy_construct<_Types...>::value):
__index(__copy_construct(__other))
{}
constexpr Variant(typename std::conditional<!__all_copy_constructible<_Types...>::value,Variant,__private_type>::type& __other)=delete;
constexpr Variant(typename std::conditional<__all_copy_constructible<_Types...>::value,Variant,__private_type>::type const& __other)
__NOEXCEPT_(__noexcept_variant_const_copy_construct<_Types...>::value):
__index(__copy_construct(__other))
{}
constexpr Variant(typename std::conditional<!__all_copy_constructible<_Types...>::value,Variant,__private_type>::type const& __other)=delete;
template<typename _Type,typename ... _Args>
explicit constexpr Variant(in_place_type_t<_Type>,_Args&& ... __args):
__storage(
in_place<__type_index<_Type,_Types...>::__value>,
std::forward<_Args>(__args)...),
__index(__type_index<_Type,_Types...>::__value)
{
static_assert(std::is_constructible<_Type,_Args...>::value,"Type must be constructible from args");
}
template<size_t _Index,typename ... _Args>
explicit constexpr Variant(in_place_index_t<_Index>,_Args&& ... __args):
__storage(in_place<_Index>,std::forward<_Args>(__args)...),
__index(_Index)
{
static_assert(std::is_constructible<typename __indexed_type<_Index,_Types...>::__type,_Args...>::value,"Type must be constructible from args");
}
template<typename _Type>
constexpr Variant(_Type&& __x):
__storage(
in_place<
__type_index_to_construct<_Type,_Types...>::__value>,
std::forward<_Type>(__x)),
__index(__type_index_to_construct<_Type,_Types...>::__value)
{}
template<typename _Type,
typename _Enable=
typename std::enable_if<
(__constructible_matches<std::initializer_list<_Type>,_Types...>::__type::__length>0)
>::type>
constexpr Variant(std::initializer_list<_Type> __x):
__storage(
in_place<
__type_index_to_construct<std::initializer_list<_Type>,_Types...>::__value>,
__x),
__index(__type_index_to_construct<std::initializer_list<_Type>,_Types...>::__value)
{}
template<typename _Type>
Variant& operator=(_Type&& __x){
constexpr size_t _Index=
__type_index_to_construct<_Type,_Types...>::__value;
if(_Index==__index){
get<_Index>(*this)=std::forward<_Type>(__x);
}
else{
__replace_construct<_Index>(std::forward<_Type>(__x));
}
return *this;
}
Variant &operator=(
typename std::conditional<
!(__all_copy_constructible<_Types...>::value &&
__all_move_constructible<_Types...>::value &&
__all_copy_assignable<_Types...>::value),
Variant, __private_type>::type const &__other) = delete;
Variant &operator=(
typename std::conditional<
__all_copy_constructible<_Types...>::value &&
__all_move_constructible<_Types...>::value &&
__all_copy_assignable<_Types...>::value,
Variant, __private_type>::type const &__other) {
if (__other.valueless_by_exception()) {
__destroy_self();
}
else if(__other.index()==index()){
__copy_assign_op_table<Variant>::__apply[index()](this,__other);
}
else{
__replace_construct_helper::__op_table<Variant>::__copy_assign[
__other.index()](this,__other);
}
return *this;
}
Variant &operator=(
typename std::conditional<
!(__all_copy_constructible<_Types...>::value &&
__all_move_constructible<_Types...>::value &&
__all_copy_assignable<_Types...>::value),
Variant, __private_type>::type &__other) = delete;
Variant &operator=(
typename std::conditional<
__all_copy_constructible<_Types...>::value &&
__all_move_constructible<_Types...>::value &&
__all_copy_assignable<_Types...>::value,
Variant, __private_type>::type &__other) {
if(__other.valueless_by_exception()){
__destroy_self();
}
else if(__other.index()==index()){
__copy_assign_op_table<Variant>::__apply[index()](this,__other);
}
else{
__replace_construct_helper::__op_table<Variant>::__copy_assign[
__other.index()](this,__other);
}
return *this;
}
Variant &operator=(
typename std::conditional<
!(__all_move_constructible<_Types...>::value &&
__all_move_assignable<_Types...>::value),
Variant, __private_type>::type &&__other) = delete;
Variant &operator=(
typename std::conditional<__all_move_constructible<_Types...>::value &&
__all_move_assignable<_Types...>::value,
Variant, __private_type>::type &&
__other) __NOEXCEPT_(__noexcept_variant_move_assign<_Types...>::value) {
if (__other.valueless_by_exception()) {
__destroy_self();
}
else if(__other.index()==index()){
__move_assign_op_table<Variant>::__apply[index()](this,__other);
__other.__destroy_self();
}
else{
__replace_construct_helper::__op_table<Variant>::__move_assign[
__other.index()](this,__other);
}
return *this;
}
template<typename _Type,typename ... _Args>
void emplace(_Args&& ... __args){
__direct_replace<__type_index<_Type,_Types...>::__value>(
std::forward<_Args>(__args)...);
}
template<size_t _Index,typename ... _Args>
void emplace(_Args&& ... __args){
__direct_replace<_Index>(std::forward<_Args>(__args)...);
}
constexpr bool valueless_by_exception() const __NOEXCEPT{
return __index==-1;
}
constexpr ptrdiff_t index() const __NOEXCEPT{
return __index;
}
void swap(
typename std::conditional<
__all_swappable<_Types...>::value &&
__all_move_constructible<_Types...>::value,
Variant, __private_type>::type
&__other) __NOEXCEPT_(__noexcept_variant_swap<_Types...>::value) {
if (__other.index() == index()) {
if(!valueless_by_exception())
__swap_op_table<Variant>::__apply[index()](*this,__other);
}
else{
Variant __temp(std::move(__other));
__other.__index=__other.__move_construct(*this);
__index=__move_construct(__temp);
}
}
};
template<>
class Variant<>{
public:
Variant()=delete;
constexpr bool valueless_by_exception() const __NOEXCEPT{
return true;
}
constexpr ptrdiff_t index() const __NOEXCEPT{
return -1;
}
void swap(Variant&){}
};
template <typename... _Types>
typename std::enable_if<__all_swappable<_Types...>::value &&
__all_move_constructible<_Types...>::value,
void>::type
swap(Variant<_Types...> &__lhs, Variant<_Types...> &__rhs) __NOEXCEPT_(
__noexcept_variant_swap<_Types...>::value) {
__lhs.swap(__rhs);
}
template<ptrdiff_t _Index,typename ... _Types>
struct __variant_accessor{
typedef typename __indexed_type<_Index,_Types...>::__type __type;
static constexpr __type& get(Variant<_Types...>& __v){
return __v.__storage.__get(in_place<_Index>);
}
static constexpr __type const& get(Variant<_Types...> const& __v){
return __v.__storage.__get(in_place<_Index>);
}
static constexpr __type&& get(Variant<_Types...>&& __v){
return __v.__storage.__get_rref(in_place<_Index>);
}
static constexpr const __type&& get(Variant<_Types...> const&& __v){
return __v.__storage.__get_rref(in_place<_Index>);
}
};
template<typename _Type,typename ... _Types>
constexpr _Type& get(Variant<_Types...>& __v){
return get<__type_index<_Type,_Types...>::__value>(__v);
}
template<typename _Type,typename ... _Types>
constexpr _Type&& get(Variant<_Types...>&& __v){
return get<__type_index<_Type,_Types...>::__value>(std::move(__v));
}
template<typename _Type,typename ... _Types>
constexpr _Type const& get(Variant<_Types...> const& __v){
return get<__type_index<_Type,_Types...>::__value>(__v);
}
template<typename _Type,typename ... _Types>
constexpr const _Type&& get(Variant<_Types...> const&& __v){
return get<__type_index<_Type,_Types...>::__value>(std::move(__v));
}
template<ptrdiff_t _Index,typename ... _Types>
constexpr typename __indexed_type<_Index,_Types...>::__type const& get(Variant<_Types...> const& __v){
return *(
(_Index!=__v.index())
? std::addressof(__throw_bad_variant_access<typename __indexed_type<_Index,_Types...>::__type const&>("Bad Variant index in get"))
: std::addressof(__variant_accessor<_Index,_Types...>::get(__v))
);
}
template<ptrdiff_t _Index,typename ... _Types>
constexpr typename __indexed_type<_Index,_Types...>::__type& get(Variant<_Types...>& __v){
return *(
(_Index!=__v.index())
? std::addressof(__throw_bad_variant_access<typename __indexed_type<_Index,_Types...>::__type&>("Bad Variant index in get"))
: std::addressof(__variant_accessor<_Index,_Types...>::get(__v))
);
}
template<ptrdiff_t _Index,typename ... _Types>
constexpr typename __indexed_type<_Index,_Types...>::__type&& get(Variant<_Types...>&& __v){
return __variant_accessor<_Index,_Types...>::get(
(((_Index!=__v.index()) ? __throw_bad_variant_access<int>("Bad Variant index in get") : 0), std::move(__v))
);
}
template<ptrdiff_t _Index,typename ... _Types>
constexpr const typename __indexed_type<_Index,_Types...>::__type&& get(Variant<_Types...> const&& __v){
return __variant_accessor<_Index,_Types...>::get(
(((_Index!=__v.index()) ? __throw_bad_variant_access<int>("Bad Variant index in get") : 0), std::move(__v))
);
}
template<typename _Type,typename ... _Types>
constexpr std::add_pointer_t<_Type> get_if(Variant<_Types...>& __v){
return (__type_index<_Type,_Types...>::__value!=__v.index())?nullptr:std::addressof(get<_Type>(__v));
}
template<typename _Type,typename ... _Types>
constexpr std::add_pointer_t<_Type const> get_if(Variant<_Types...> const& __v){
return (__type_index<_Type,_Types...>::__value!=__v.index())?nullptr:std::addressof(get<_Type>(__v));
}
template<ptrdiff_t _Index,typename ... _Types>
constexpr std::add_pointer_t<typename __indexed_type<_Index,_Types...>::__type> get_if(Variant<_Types...>& __v){
return ((_Index!=__v.index())?nullptr:
std::addressof(__variant_accessor<_Index,_Types...>::get(__v)));
}
template<ptrdiff_t _Index,typename ... _Types>
constexpr std::add_pointer_t<typename __indexed_type<_Index,_Types...>::__type const> get_if(
Variant<_Types...> const& __v){
return ((_Index!=__v.index())?nullptr:
std::addressof(__variant_accessor<_Index,_Types...>::get(__v)));
}
template<typename _Type,typename ... _Types>
constexpr bool holds_alternative(Variant<_Types...> const& __v) __NOEXCEPT{
return __v.index()==__type_index<_Type,_Types...>::__value;
}
template<typename _Visitor,typename ... _Types>
struct __visitor_return_type;
template<typename _Visitor>
struct __visitor_return_type<_Visitor>{
typedef decltype(std::declval<_Visitor&>()()) __type;
};
template<typename _Visitor,typename _Head,typename ... _Rest>
struct __visitor_return_type<_Visitor,_Head,_Rest...>{
typedef decltype(std::declval<_Visitor&>()(std::declval<_Head&>())) __type;
};
template<typename _Visitor,typename ... _Types>
struct __visitor_table{
typedef Variant<_Types...> __variant_type;
typedef typename __visitor_return_type<_Visitor,_Types...>::__type __return_type;
typedef __return_type (*__func_type)(_Visitor&,__variant_type&);
template<typename _Type>
static __return_type __trampoline_func(_Visitor& __visitor,__variant_type& __v){
return __visitor(get<_Type>(__v));
}
static const __func_type __trampoline[sizeof...(_Types)];
};
template<typename _Visitor,typename ... _Types>
const typename __visitor_table<_Visitor,_Types...>::__func_type __visitor_table<_Visitor,_Types...>::__trampoline[sizeof...(_Types)]={
&__trampoline_func<_Types>...
};
template<typename _Visitor,typename ... _Types>
constexpr typename __visitor_return_type<_Visitor,_Types...>::__type
visit(_Visitor&& __visitor,Variant<_Types...>& __v){
return (__v.valueless_by_exception())
? __throw_bad_variant_access<typename __visitor_return_type<_Visitor,_Types...>::__type>("Visiting of empty Variant")
: __visitor_table<_Visitor,_Types...>::__trampoline[__v.index()](__visitor,__v);
}
template<typename _Visitor,typename ... _Variants>
struct __multi_visitor_return_type{
typedef decltype(std::declval<_Visitor&>()(get<0>(std::declval<_Variants>())...))
__type;
};
template<size_t _VariantIndex,typename _Indices>
struct __visit_helper;
template<ptrdiff_t ... _Indices>
struct __visit_helper<0,__index_sequence<_Indices...>>{
template<typename _Visitor,typename ... _Variants>
static constexpr typename __multi_visitor_return_type<_Visitor,_Variants...>::__type
__visit(_Visitor& __visitor,_Variants& ... __v){
return __visitor(get<_Indices>(__v)...);
}
};
template<size_t _Index,typename ... _Args>
struct __arg_selector_t;
template<typename _Head,typename ... _Rest>
struct __arg_selector_t<0,_Head,_Rest...>{
typedef _Head __type;
static constexpr __type& __select(_Head& __head,_Rest& ...){
return __head;
}
};
template<size_t _Index,typename _Head,typename ... _Rest>
struct __arg_selector_t<_Index,_Head,_Rest...>{
typedef typename __arg_selector_t<_Index-1,_Rest...>::__type __type;
static constexpr __type& __select(_Head&,_Rest& ... __rest){
return __arg_selector_t<_Index-1,_Rest...>::__select(__rest...);
}
};
template<size_t _Index,typename ... _Args>
constexpr typename __arg_selector_t<_Index,_Args...>::__type&& __arg_selector(_Args&& ... __args){
return std::forward<typename __arg_selector_t<_Index,_Args...>::__type>(
__arg_selector_t<_Index,_Args...>::__select(__args...));
}
template<ptrdiff_t _Index,size_t _VariantIndex,ptrdiff_t ... _Indices>
struct __visit_helper2{
template<typename _Visitor,typename ... _Variants>
static constexpr typename __multi_visitor_return_type<_Visitor,_Variants...>::__type
__visit(_Visitor& __visitor,_Variants&& ... __v){
return (__arg_selector<_VariantIndex-1>(__v...).index()==_Index)
? __visit_helper<_VariantIndex-1,__index_sequence<_Index,_Indices...>>::__visit(__visitor,std::forward<_Variants>(__v)...)
: __visit_helper2<_Index-1,_VariantIndex,_Indices...>::__visit(__visitor,std::forward<_Variants>(__v)...);
}
};
template<size_t _VariantIndex,ptrdiff_t ... _Indices>
struct __visit_helper2<-1,_VariantIndex,_Indices...>{
template<typename _Visitor,typename ... _Variants>
static constexpr typename __multi_visitor_return_type<_Visitor,_Variants...>::__type
__visit(_Visitor&,_Variants&& ...){
return __throw_bad_variant_access<typename __multi_visitor_return_type<_Visitor,_Variants...>::__type>("Visiting of empty Variant");
}
};
template<typename _Variant>
struct __variant_type_count;
template<typename ... _Types>
struct __variant_type_count<Variant<_Types...>>{
static constexpr size_t __value=sizeof...(_Types);
};
template<typename _Variant>
struct __variant_type_count<_Variant&>{
static constexpr size_t __value=__variant_type_count<_Variant>::__value;
};
template<typename _Variant>
struct __variant_type_count<_Variant const&>{
static constexpr size_t __value=__variant_type_count<_Variant>::__value;
};
template<size_t _VariantIndex,ptrdiff_t ... _Indices>
struct __visit_helper<_VariantIndex,__index_sequence<_Indices...>>{
template<typename _Visitor,typename ... _Variants>
static constexpr typename __multi_visitor_return_type<_Visitor,_Variants...>::__type
__visit(_Visitor& __visitor,_Variants&& ... __v){
return __visit_helper2<
__variant_type_count<
typename __arg_selector_t<
_VariantIndex-1,_Variants...>::__type>::__value-1,
_VariantIndex,_Indices...>::__visit(
__visitor,std::forward<_Variants&&>(__v)...);
}
};
template<typename _Visitor,typename ... _Variants>
constexpr typename __multi_visitor_return_type<_Visitor,_Variants...>::__type
visit(_Visitor&& __visitor,_Variants&& ... __v){
return __visit_helper<sizeof...(_Variants),__index_sequence<>>::__visit(
__visitor,std::forward<_Variants>(__v)...);
}
template<typename ... _Types>
constexpr bool operator==(Variant<_Types...> const& __lhs,Variant<_Types...> const& __rhs){
return (__lhs.index()==__rhs.index()) &&
((__lhs.index()==-1) ||
__equality_op_table<Variant<_Types...>>::__equality_compare[__lhs.index()](
__lhs,__rhs));
}
template<typename ... _Types>
constexpr bool operator!=(Variant<_Types...> const& __lhs,Variant<_Types...> const& __rhs){
return !(__lhs==__rhs);
}
template<typename ... _Types>
constexpr bool operator<(Variant<_Types...> const& __lhs,Variant<_Types...> const& __rhs){
return (__lhs.index()<__rhs.index()) ||
((__lhs.index()==__rhs.index()) &&
((__lhs.index()!=-1) &&
__less_than_op_table<Variant<_Types...>>::
__less_than_compare[__lhs.index()](__lhs,__rhs)));
}
template<typename ... _Types>
constexpr bool operator>(Variant<_Types...> const& __lhs,Variant<_Types...> const& __rhs){
return __rhs<__lhs;
}
template<typename ... _Types>
constexpr bool operator>=(Variant<_Types...> const& __lhs,Variant<_Types...> const& __rhs){
return !(__lhs<__rhs);
}
template<typename ... _Types>
constexpr bool operator<=(Variant<_Types...> const& __lhs,Variant<_Types...> const& __rhs){
return !(__lhs>__rhs);
}
struct Monostate{};
constexpr inline bool operator==(Monostate const&,Monostate const&){ return true;}
constexpr inline bool operator!=(Monostate const&,Monostate const&){ return false;}
constexpr inline bool operator>=(Monostate const&,Monostate const&){ return true;}
constexpr inline bool operator<=(Monostate const&,Monostate const&){ return true;}
constexpr inline bool operator>(Monostate const&,Monostate const&){ return false;}
constexpr inline bool operator<(Monostate const&,Monostate const&){ return false;}
struct __hash_visitor{
template<typename _Type>
size_t operator()(_Type const& __x){
return std::hash<_Type>()(__x);
}
};
// -- WebKit Additions --
template<class V, class... F>
auto switchOn(V&& v, F&&... f) -> decltype(visit(makeVisitor(std::forward<F>(f)...), std::forward<V>(v)))
{
return visit(makeVisitor(std::forward<F>(f)...), std::forward<V>(v));
}
} // namespace WTF
namespace std {
template<>
struct hash<WTF::Monostate>{
size_t operator()(WTF::Monostate) __NOEXCEPT{
return 42;
}
};
template<typename ... _Types>
struct hash<WTF::Variant<_Types...>>{
size_t operator()(WTF::Variant<_Types...> const &v) __NOEXCEPT {
return std::hash<ptrdiff_t>()(v.index()) ^ WTF::visit(WTF::__hash_visitor(), v);
}
};
} // namespace std
using WTF::Monostate;
using WTF::Variant;
#endif // !COMPILER(CLANG) || WTF_CPP_STD_VER >= 14
#if COMPILER(MSVC)
#pragma warning(pop)
#endif