variant.h 92.7 KB
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// Copy from
// https://github.com/mpark/variant/blob/single-header/v1.4.0/variant.hpp
// Modify the following points:
// 1. modify namespace mpark to namespace paddle

// MPark.Variant
//
// Copyright Michael Park, 2015-2017
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.md or copy at
// http://boost.org/LICENSE_1_0.txt)

#pragma once

/*
   variant synopsis

namespace std {

  // 20.7.2, class template variant
  template <class... Types>
  class variant {
  public:

    // 20.7.2.1, constructors
    constexpr variant() noexcept(see below);
    variant(const variant&);
    variant(variant&&) noexcept(see below);

    template <class T> constexpr variant(T&&) noexcept(see below);

    template <class T, class... Args>
    constexpr explicit variant(in_place_type_t<T>, Args&&...);

    template <class T, class U, class... Args>
    constexpr explicit variant(
        in_place_type_t<T>, initializer_list<U>, Args&&...);

    template <size_t I, class... Args>
    constexpr explicit variant(in_place_index_t<I>, Args&&...);

    template <size_t I, class U, class... Args>
    constexpr explicit variant(
        in_place_index_t<I>, initializer_list<U>, Args&&...);

    // 20.7.2.2, destructor
    ~variant();

    // 20.7.2.3, assignment
    variant& operator=(const variant&);
    variant& operator=(variant&&) noexcept(see below);

    template <class T> variant& operator=(T&&) noexcept(see below);

    // 20.7.2.4, modifiers
    template <class T, class... Args>
    T& emplace(Args&&...);

    template <class T, class U, class... Args>
    T& emplace(initializer_list<U>, Args&&...);

    template <size_t I, class... Args>
    variant_alternative<I, variant>& emplace(Args&&...);

    template <size_t I, class U, class...  Args>
    variant_alternative<I, variant>& emplace(initializer_list<U>, Args&&...);

    // 20.7.2.5, value status
    constexpr bool valueless_by_exception() const noexcept;
    constexpr size_t index() const noexcept;

    // 20.7.2.6, swap
    void swap(variant&) noexcept(see below);
  };

  // 20.7.3, variant helper classes
  template <class T> struct variant_size; // undefined

  template <class T>
  constexpr size_t variant_size_v = variant_size<T>::value;

  template <class T> struct variant_size<const T>;
  template <class T> struct variant_size<volatile T>;
  template <class T> struct variant_size<const volatile T>;

  template <class... Types>
  struct variant_size<variant<Types...>>;

  template <size_t I, class T> struct variant_alternative; // undefined

  template <size_t I, class T>
  using variant_alternative_t = typename variant_alternative<I, T>::type;

  template <size_t I, class T> struct variant_alternative<I, const T>;
  template <size_t I, class T> struct variant_alternative<I, volatile T>;
  template <size_t I, class T> struct variant_alternative<I, const volatile T>;

  template <size_t I, class... Types>
  struct variant_alternative<I, variant<Types...>>;

  constexpr size_t variant_npos = -1;

  // 20.7.4, value access
  template <class T, class... Types>
  constexpr bool holds_alternative(const variant<Types...>&) noexcept;

  template <size_t I, class... Types>
  constexpr variant_alternative_t<I, variant<Types...>>&
  get(variant<Types...>&);

  template <size_t I, class... Types>
  constexpr variant_alternative_t<I, variant<Types...>>&&
  get(variant<Types...>&&);

  template <size_t I, class... Types>
  constexpr variant_alternative_t<I, variant<Types...>> const&
  get(const variant<Types...>&);

  template <size_t I, class... Types>
  constexpr variant_alternative_t<I, variant<Types...>> const&&
  get(const variant<Types...>&&);

  template <class T, class...  Types>
  constexpr T& get(variant<Types...>&);

  template <class T, class... Types>
  constexpr T&& get(variant<Types...>&&);

  template <class T, class... Types>
  constexpr const T& get(const variant<Types...>&);

  template <class T, class... Types>
  constexpr const T&& get(const variant<Types...>&&);

  template <size_t I, class... Types>
  constexpr add_pointer_t<variant_alternative_t<I, variant<Types...>>>
  get_if(variant<Types...>*) noexcept;

  template <size_t I, class... Types>
  constexpr add_pointer_t<const variant_alternative_t<I, variant<Types...>>>
  get_if(const variant<Types...>*) noexcept;

  template <class T, class... Types>
  constexpr add_pointer_t<T>
  get_if(variant<Types...>*) noexcept;

  template <class T, class... Types>
  constexpr add_pointer_t<const T>
  get_if(const variant<Types...>*) noexcept;

  // 20.7.5, relational operators
  template <class... Types>
  constexpr bool operator==(const variant<Types...>&, const variant<Types...>&);

  template <class... Types>
  constexpr bool operator!=(const variant<Types...>&, const variant<Types...>&);

  template <class... Types>
  constexpr bool operator<(const variant<Types...>&, const variant<Types...>&);

  template <class... Types>
  constexpr bool operator>(const variant<Types...>&, const variant<Types...>&);

  template <class... Types>
  constexpr bool operator<=(const variant<Types...>&, const variant<Types...>&);

  template <class... Types>
  constexpr bool operator>=(const variant<Types...>&, const variant<Types...>&);

  // 20.7.6, visitation
  template <class Visitor, class... Variants>
  constexpr see below visit(Visitor&&, Variants&&...);

  // 20.7.7, class monostate
  struct monostate;

  // 20.7.8, monostate relational operators
  constexpr bool operator<(monostate, monostate) noexcept;
  constexpr bool operator>(monostate, monostate) noexcept;
  constexpr bool operator<=(monostate, monostate) noexcept;
  constexpr bool operator>=(monostate, monostate) noexcept;
  constexpr bool operator==(monostate, monostate) noexcept;
  constexpr bool operator!=(monostate, monostate) noexcept;

  // 20.7.9, specialized algorithms
  template <class... Types>
  void swap(variant<Types...>&, variant<Types...>&) noexcept(see below);

  // 20.7.10, class bad_variant_access
  class bad_variant_access;

  // 20.7.11, hash support
  template <class T> struct hash;
  template <class... Types> struct hash<variant<Types...>>;
  template <> struct hash<monostate>;

} // namespace std

*/

#pragma once

#include <cstddef>
#include <exception>
#include <functional>
#include <initializer_list>
#include <new>
#include <type_traits>
#include <utility>

// MPark.Variant
//
// Copyright Michael Park, 2015-2017
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.md or copy at
// http://boost.org/LICENSE_1_0.txt)

#ifndef MPARK_CONFIG_HPP
#define MPARK_CONFIG_HPP

// MSVC 2015 Update 3.
#if __cplusplus < 201103L && (!defined(_MSC_VER) || _MSC_FULL_VER < 190024210)
#error "MPark.Variant requires C++11 support."
#endif

#ifndef __has_attribute
#define __has_attribute(x) 0
#endif

#ifndef __has_builtin
#define __has_builtin(x) 0
#endif

#ifndef __has_include
#define __has_include(x) 0
#endif

#ifndef __has_feature
#define __has_feature(x) 0
#endif

#if __has_attribute(always_inline) || defined(__GNUC__)
#define MPARK_ALWAYS_INLINE __attribute__((__always_inline__)) inline
#elif defined(_MSC_VER)
#define MPARK_ALWAYS_INLINE __forceinline
#else
#define MPARK_ALWAYS_INLINE inline
#endif

#if __has_builtin(__builtin_addressof) || \
    (defined(__GNUC__) && __GNUC__ >= 7) || defined(_MSC_VER)
#define MPARK_BUILTIN_ADDRESSOF
#endif

#if __has_builtin(__builtin_unreachable) || defined(__GNUC__)
#define MPARK_BUILTIN_UNREACHABLE __builtin_unreachable()
#elif defined(_MSC_VER)
#define MPARK_BUILTIN_UNREACHABLE __assume(false)
#else
#define MPARK_BUILTIN_UNREACHABLE
#endif

#if __has_builtin(__type_pack_element)
#define MPARK_TYPE_PACK_ELEMENT
#endif

#if defined(__cpp_constexpr) && __cpp_constexpr >= 200704 && \
    !(defined(__GNUC__) && __GNUC__ == 4 && __GNUC_MINOR__ == 9)
#define MPARK_CPP11_CONSTEXPR
#endif

#if defined(__cpp_constexpr) && __cpp_constexpr >= 201304
#define MPARK_CPP14_CONSTEXPR
#endif

#if __has_feature(cxx_exceptions) || defined(__cpp_exceptions) || \
    (defined(_MSC_VER) && defined(_CPPUNWIND))
#define MPARK_EXCEPTIONS
#endif

#if defined(__cpp_generic_lambdas) || defined(_MSC_VER)
#define MPARK_GENERIC_LAMBDAS
#endif

#if defined(__cpp_lib_integer_sequence)
#define MPARK_INTEGER_SEQUENCE
#endif

#if defined(__cpp_return_type_deduction) || defined(_MSC_VER)
#define MPARK_RETURN_TYPE_DEDUCTION
#endif

#if defined(__cpp_lib_transparent_operators) || defined(_MSC_VER)
#define MPARK_TRANSPARENT_OPERATORS
#endif

#if defined(__cpp_variable_templates) || defined(_MSC_VER)
#define MPARK_VARIABLE_TEMPLATES
#endif

#if !defined(__GLIBCXX__) || __has_include(<codecvt>)  // >= libstdc++-5
#define MPARK_TRIVIALITY_TYPE_TRAITS
#define MPARK_INCOMPLETE_TYPE_TRAITS
#endif

#endif  // MPARK_CONFIG_HPP

// MPark.Variant
//
// Copyright Michael Park, 2015-2017
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.md or copy at
// http://boost.org/LICENSE_1_0.txt)

#ifndef MPARK_IN_PLACE_HPP
#define MPARK_IN_PLACE_HPP

#include <cstddef>

namespace paddle {

struct in_place_t {
  explicit in_place_t() = default;
};

template <std::size_t I>
struct in_place_index_t {
  explicit in_place_index_t() = default;
};

template <typename T>
struct in_place_type_t {
  explicit in_place_type_t() = default;
};

#ifdef MPARK_VARIABLE_TEMPLATES
constexpr in_place_t in_place{};

template <std::size_t I>
constexpr in_place_index_t<I> in_place_index{};

template <typename T>
constexpr in_place_type_t<T> in_place_type{};
#endif

}  // namespace paddle

#endif  // MPARK_IN_PLACE_HPP

// MPark.Variant
//
// Copyright Michael Park, 2015-2017
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.md or copy at
// http://boost.org/LICENSE_1_0.txt)

#ifndef MPARK_LIB_HPP
#define MPARK_LIB_HPP

#include <functional>
#include <memory>
#include <type_traits>
#include <utility>

#define MPARK_RETURN(...) \
  noexcept(noexcept(__VA_ARGS__))->decltype(__VA_ARGS__) { return __VA_ARGS__; }

namespace paddle {
namespace lib {
template <typename T>
struct identity {
  using type = T;
};

inline namespace cpp14 {
template <typename T, std::size_t N>
struct array {
  constexpr const T &operator[](std::size_t index) const { return data[index]; }

  T data[N == 0 ? 1 : N];
};

template <typename T>
using add_pointer_t = typename std::add_pointer<T>::type;

template <typename... Ts>
using common_type_t = typename std::common_type<Ts...>::type;

template <typename T>
using decay_t = typename std::decay<T>::type;

template <bool B, typename T = void>
using enable_if_t = typename std::enable_if<B, T>::type;

template <typename T>
using remove_const_t = typename std::remove_const<T>::type;

template <typename T>
using remove_reference_t = typename std::remove_reference<T>::type;

template <typename T>
inline constexpr T &&forward(remove_reference_t<T> &t) noexcept {
  return static_cast<T &&>(t);
}

template <typename T>
inline constexpr T &&forward(remove_reference_t<T> &&t) noexcept {
  static_assert(!std::is_lvalue_reference<T>::value,
                "can not forward an rvalue as an lvalue");
  return static_cast<T &&>(t);
}

template <typename T>
inline constexpr remove_reference_t<T> &&move(T &&t) noexcept {
  return static_cast<remove_reference_t<T> &&>(t);
}

#ifdef MPARK_INTEGER_SEQUENCE
using std::integer_sequence;
using std::index_sequence;
using std::make_index_sequence;
using std::index_sequence_for;
#else
template <typename T, T... Is>
struct integer_sequence {
  using value_type = T;
  static constexpr std::size_t size() noexcept { return sizeof...(Is); }
};

template <std::size_t... Is>
using index_sequence = integer_sequence<std::size_t, Is...>;

template <typename Lhs, typename Rhs>
struct make_index_sequence_concat;

template <std::size_t... Lhs, std::size_t... Rhs>
struct make_index_sequence_concat<index_sequence<Lhs...>,
                                  index_sequence<Rhs...>>
    : identity<index_sequence<Lhs..., (sizeof...(Lhs) + Rhs)...>> {};

template <std::size_t N>
struct make_index_sequence_impl;

template <std::size_t N>
using make_index_sequence = typename make_index_sequence_impl<N>::type;

template <std::size_t N>
struct make_index_sequence_impl
    : make_index_sequence_concat<make_index_sequence<N / 2>,
                                 make_index_sequence<N - (N / 2)>> {};

template <>
struct make_index_sequence_impl<0> : identity<index_sequence<>> {};

template <>
struct make_index_sequence_impl<1> : identity<index_sequence<0>> {};

template <typename... Ts>
using index_sequence_for = make_index_sequence<sizeof...(Ts)>;
#endif

// <functional>
#ifdef MPARK_TRANSPARENT_OPERATORS
using equal_to = std::equal_to<>;
#else
struct equal_to {
  template <typename Lhs, typename Rhs>
  inline constexpr auto operator()(Lhs &&lhs, Rhs &&rhs) const
      MPARK_RETURN(lib::forward<Lhs>(lhs) == lib::forward<Rhs>(rhs))
};
#endif

#ifdef MPARK_TRANSPARENT_OPERATORS
using not_equal_to = std::not_equal_to<>;
#else
struct not_equal_to {
  template <typename Lhs, typename Rhs>
  inline constexpr auto operator()(Lhs &&lhs, Rhs &&rhs) const
      MPARK_RETURN(lib::forward<Lhs>(lhs) != lib::forward<Rhs>(rhs))
};
#endif

#ifdef MPARK_TRANSPARENT_OPERATORS
using less = std::less<>;
#else
struct less {
  template <typename Lhs, typename Rhs>
  inline constexpr auto operator()(Lhs &&lhs, Rhs &&rhs) const
      MPARK_RETURN(lib::forward<Lhs>(lhs) < lib::forward<Rhs>(rhs))
};
#endif

#ifdef MPARK_TRANSPARENT_OPERATORS
using greater = std::greater<>;
#else
struct greater {
  template <typename Lhs, typename Rhs>
  inline constexpr auto operator()(Lhs &&lhs, Rhs &&rhs) const
      MPARK_RETURN(lib::forward<Lhs>(lhs) > lib::forward<Rhs>(rhs))
};
#endif

#ifdef MPARK_TRANSPARENT_OPERATORS
using less_equal = std::less_equal<>;
#else
struct less_equal {
  template <typename Lhs, typename Rhs>
  inline constexpr auto operator()(Lhs &&lhs, Rhs &&rhs) const
      MPARK_RETURN(lib::forward<Lhs>(lhs) <= lib::forward<Rhs>(rhs))
};
#endif

#ifdef MPARK_TRANSPARENT_OPERATORS
using greater_equal = std::greater_equal<>;
#else
struct greater_equal {
  template <typename Lhs, typename Rhs>
  inline constexpr auto operator()(Lhs &&lhs, Rhs &&rhs) const
      MPARK_RETURN(lib::forward<Lhs>(lhs) >= lib::forward<Rhs>(rhs))
};
#endif
}  // namespace cpp14

inline namespace cpp17 {
// <type_traits>
template <bool B>
using bool_constant = std::integral_constant<bool, B>;

template <typename...>
struct voider : identity<void> {};

template <typename... Ts>
using void_t = typename voider<Ts...>::type;

namespace detail {
namespace swappable {

using std::swap;

template <typename T>
struct is_swappable {
 private:
  template <typename U,
            typename = decltype(swap(std::declval<U &>(), std::declval<U &>()))>
  inline static std::true_type test(int);

  template <typename U>
  inline static std::false_type test(...);

 public:
  static constexpr bool value = decltype(test<T>(0))::value;
};

template <bool IsSwappable, typename T>
struct is_nothrow_swappable {
  static constexpr bool value =
      noexcept(swap(std::declval<T &>(), std::declval<T &>()));
};

template <typename T>
struct is_nothrow_swappable<false, T> : std::false_type {};

}  // namespace swappable
}  // namespace detail

using detail::swappable::is_swappable;

template <typename T>
using is_nothrow_swappable =
    detail::swappable::is_nothrow_swappable<is_swappable<T>::value, T>;

// <functional>
namespace detail {

template <typename T>
struct is_reference_wrapper : std::false_type {};

template <typename T>
struct is_reference_wrapper<std::reference_wrapper<T>> : std::true_type {};

template <bool, int>
struct Invoke;

template <>
struct Invoke<true /* pmf */, 0 /* is_base_of */> {
  template <typename R, typename T, typename Arg, typename... Args>
  inline static constexpr auto invoke(R T::*pmf, Arg &&arg, Args &&... args)
      MPARK_RETURN((lib::forward<Arg>(arg).*pmf)(lib::forward<Args>(args)...))
};

template <>
struct Invoke<true /* pmf */, 1 /* is_reference_wrapper */> {
  template <typename R, typename T, typename Arg, typename... Args>
  inline static constexpr auto invoke(R T::*pmf, Arg &&arg, Args &&... args)
      MPARK_RETURN((lib::forward<Arg>(arg).get().*
                    pmf)(lib::forward<Args>(args)...))
};

template <>
struct Invoke<true /* pmf */, 2 /* otherwise */> {
  template <typename R, typename T, typename Arg, typename... Args>
  inline static constexpr auto invoke(R T::*pmf, Arg &&arg, Args &&... args)
      MPARK_RETURN(((*lib::forward<Arg>(arg)).*
                    pmf)(lib::forward<Args>(args)...))
};

template <>
struct Invoke<false /* pmo */, 0 /* is_base_of */> {
  template <typename R, typename T, typename Arg>
  inline static constexpr auto invoke(R T::*pmo, Arg &&arg)
      MPARK_RETURN(lib::forward<Arg>(arg).*pmo)
};

template <>
struct Invoke<false /* pmo */, 1 /* is_reference_wrapper */> {
  template <typename R, typename T, typename Arg>
  inline static constexpr auto invoke(R T::*pmo, Arg &&arg)
      MPARK_RETURN(lib::forward<Arg>(arg).get().*pmo)
};

template <>
struct Invoke<false /* pmo */, 2 /* otherwise */> {
  template <typename R, typename T, typename Arg>
  inline static constexpr auto invoke(R T::*pmo, Arg &&arg)
      MPARK_RETURN((*lib::forward<Arg>(arg)).*pmo)
};

template <typename R, typename T, typename Arg, typename... Args>
inline constexpr auto invoke(R T::*f, Arg &&arg, Args &&... args) MPARK_RETURN(
    Invoke<std::is_function<R>::value,
           (std::is_base_of<T, lib::decay_t<Arg>>::value
                ? 0
                : is_reference_wrapper<lib::decay_t<Arg>>::value ? 1 : 2)>::
        invoke(f, lib::forward<Arg>(arg), lib::forward<Args>(args)...))

#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4100)
#endif
    template <typename F, typename... Args>
    inline constexpr auto invoke(F &&f, Args &&... args)
        MPARK_RETURN(lib::forward<F>(f)(lib::forward<Args>(args)...))
#ifdef _MSC_VER
#pragma warning(pop)
#endif
}  // namespace detail

template <typename F, typename... Args>
inline constexpr auto invoke(F &&f, Args &&... args)
    MPARK_RETURN(detail::invoke(lib::forward<F>(f),
                                lib::forward<Args>(args)...))

        namespace detail {
  template <typename Void, typename, typename...>
  struct invoke_result {};

  template <typename F, typename... Args>
  struct invoke_result<
      void_t<decltype(lib::invoke(std::declval<F>(), std::declval<Args>()...))>,
      F,
      Args...> : identity<decltype(lib::invoke(std::declval<F>(),
                                               std::declval<Args>()...))> {};

}  // namespace detail

template <typename F, typename... Args>
using invoke_result = detail::invoke_result<void, F, Args...>;

template <typename F, typename... Args>
using invoke_result_t = typename invoke_result<F, Args...>::type;

namespace detail {

template <typename Void, typename, typename...>
struct is_invocable : std::false_type {};

template <typename F, typename... Args>
struct is_invocable<void_t<invoke_result_t<F, Args...>>, F, Args...>
    : std::true_type {};

template <typename Void, typename, typename, typename...>
struct is_invocable_r : std::false_type {};

template <typename R, typename F, typename... Args>
struct is_invocable_r<void_t<invoke_result_t<F, Args...>>, R, F, Args...>
    : std::is_convertible<invoke_result_t<F, Args...>, R> {};

}  // namespace detail

template <typename F, typename... Args>
using is_invocable = detail::is_invocable<void, F, Args...>;

template <typename R, typename F, typename... Args>
using is_invocable_r = detail::is_invocable_r<void, R, F, Args...>;

namespace detail {

template <bool Invocable, typename F, typename... Args>
struct is_nothrow_invocable {
  static constexpr bool value =
      noexcept(lib::invoke(std::declval<F>(), std::declval<Args>()...));
};

template <typename F, typename... Args>
struct is_nothrow_invocable<false, F, Args...> : std::false_type {};

template <bool Invocable, typename R, typename F, typename... Args>
struct is_nothrow_invocable_r {
 private:
  inline static R impl() {
    return lib::invoke(std::declval<F>(), std::declval<Args>()...);
  }

 public:
  static constexpr bool value = noexcept(impl());
};

template <typename R, typename F, typename... Args>
struct is_nothrow_invocable_r<false, R, F, Args...> : std::false_type {};

}  // namespace detail

template <typename F, typename... Args>
using is_nothrow_invocable =
    detail::is_nothrow_invocable<is_invocable<F, Args...>::value, F, Args...>;

template <typename R, typename F, typename... Args>
using is_nothrow_invocable_r = detail::
    is_nothrow_invocable_r<is_invocable_r<R, F, Args...>::value, R, F, Args...>;

// <memory>
#ifdef MPARK_BUILTIN_ADDRESSOF
template <typename T>
inline constexpr T *addressof(T &arg) noexcept {
  return __builtin_addressof(arg);
}
#else
namespace detail {

namespace has_addressof_impl {

struct fail;

template <typename T>
inline fail operator&(T &&);

template <typename T>
inline static constexpr bool impl() {
  return (std::is_class<T>::value || std::is_union<T>::value) &&
         !std::is_same<decltype(&std::declval<T &>()), fail>::value;
}

}  // namespace has_addressof_impl

template <typename T>
using has_addressof = bool_constant<has_addressof_impl::impl<T>()>;

template <typename T>
inline constexpr T *addressof(T &arg, std::true_type) noexcept {
  return std::addressof(arg);
}

template <typename T>
inline constexpr T *addressof(T &arg, std::false_type) noexcept {
  return &arg;
}

}  // namespace detail

template <typename T>
inline constexpr T *addressof(T &arg) noexcept {
  return detail::addressof(arg, detail::has_addressof<T>{});
}
#endif

template <typename T>
inline constexpr T *addressof(const T &&) = delete;

}  // namespace cpp17

template <typename T>
struct remove_all_extents : identity<T> {};

template <typename T, std::size_t N>
struct remove_all_extents<array<T, N>> : remove_all_extents<T> {};

template <typename T>
using remove_all_extents_t = typename remove_all_extents<T>::type;

template <std::size_t N>
using size_constant = std::integral_constant<std::size_t, N>;

template <std::size_t I, typename T>
struct indexed_type : size_constant<I> {
  using type = T;
};

template <bool... Bs>
using all = std::is_same<integer_sequence<bool, true, Bs...>,
                         integer_sequence<bool, Bs..., true>>;

#ifdef MPARK_TYPE_PACK_ELEMENT
template <std::size_t I, typename... Ts>
using type_pack_element_t = __type_pack_element<I, Ts...>;
#else
template <std::size_t I, typename... Ts>
struct type_pack_element_impl {
 private:
  template <typename>
  struct set;

  template <std::size_t... Is>
  struct set<index_sequence<Is...>> : indexed_type<Is, Ts>... {};

  template <typename T>
  inline static std::enable_if<true, T> impl(indexed_type<I, T>);

  inline static std::enable_if<false> impl(...);

 public:
  using type = decltype(impl(set<index_sequence_for<Ts...>>{}));
};

template <std::size_t I, typename... Ts>
using type_pack_element = typename type_pack_element_impl<I, Ts...>::type;

template <std::size_t I, typename... Ts>
using type_pack_element_t = typename type_pack_element<I, Ts...>::type;
#endif

#ifdef MPARK_TRIVIALITY_TYPE_TRAITS
using std::is_trivially_copy_constructible;
using std::is_trivially_move_constructible;
using std::is_trivially_copy_assignable;
using std::is_trivially_move_assignable;
#else
template <typename T>
struct is_trivially_copy_constructible
    : bool_constant<std::is_copy_constructible<T>::value &&__has_trivial_copy(
          T)> {};

template <typename T>
struct is_trivially_move_constructible : bool_constant<__is_trivial(T)> {};

template <typename T>
struct is_trivially_copy_assignable
    : bool_constant<std::is_copy_assignable<T>::value &&__has_trivial_assign(
          T)> {};

template <typename T>
struct is_trivially_move_assignable : bool_constant<__is_trivial(T)> {};
#endif

template <typename T, bool>
struct dependent_type : T {};

template <typename Is, std::size_t J>
struct push_back;

template <typename Is, std::size_t J>
using push_back_t = typename push_back<Is, J>::type;

template <std::size_t... Is, std::size_t J>
struct push_back<index_sequence<Is...>, J> {
  using type = index_sequence<Is..., J>;
};

}  // namespace lib
}  // namespace paddle

#undef MPARK_RETURN

#endif  // MPARK_LIB_HPP

namespace paddle {

#ifdef MPARK_RETURN_TYPE_DEDUCTION

#define AUTO auto
#define AUTO_RETURN(...) \
  { return __VA_ARGS__; }

#define AUTO_REFREF auto &&
#define AUTO_REFREF_RETURN(...) \
  { return __VA_ARGS__; }

#define DECLTYPE_AUTO decltype(auto)
#define DECLTYPE_AUTO_RETURN(...) \
  { return __VA_ARGS__; }

#else

#define AUTO auto
#define AUTO_RETURN(...) \
  ->lib::decay_t<decltype(__VA_ARGS__)> { return __VA_ARGS__; }

#define AUTO_REFREF auto
#define AUTO_REFREF_RETURN(...)                                           \
  ->decltype((__VA_ARGS__)) {                                             \
    static_assert(std::is_reference<decltype((__VA_ARGS__))>::value, ""); \
    return __VA_ARGS__;                                                   \
  }

#define DECLTYPE_AUTO auto
#define DECLTYPE_AUTO_RETURN(...) \
  ->decltype(__VA_ARGS__) { return __VA_ARGS__; }

#endif

class bad_variant_access : public std::exception {
 public:
  virtual const char *what() const noexcept override {
    return "bad_variant_access";
  }
};

[[noreturn]] inline void throw_bad_variant_access() {
#ifdef MPARK_EXCEPTIONS
  throw bad_variant_access{};
#else
  std::terminate();
  MPARK_BUILTIN_UNREACHABLE;
#endif
}

template <typename... Ts>
class variant;

template <typename T>
struct variant_size;

#ifdef MPARK_VARIABLE_TEMPLATES
template <typename T>
constexpr std::size_t variant_size_v = variant_size<T>::value;
#endif

template <typename T>
struct variant_size<const T> : variant_size<T> {};

template <typename T>
struct variant_size<volatile T> : variant_size<T> {};

template <typename T>
struct variant_size<const volatile T> : variant_size<T> {};

template <typename... Ts>
struct variant_size<variant<Ts...>> : lib::size_constant<sizeof...(Ts)> {};

template <std::size_t I, typename T>
struct variant_alternative;

template <std::size_t I, typename T>
using variant_alternative_t = typename variant_alternative<I, T>::type;

template <std::size_t I, typename T>
struct variant_alternative<I, const T>
    : std::add_const<variant_alternative_t<I, T>> {};

template <std::size_t I, typename T>
struct variant_alternative<I, volatile T>
    : std::add_volatile<variant_alternative_t<I, T>> {};

template <std::size_t I, typename T>
struct variant_alternative<I, const volatile T>
    : std::add_cv<variant_alternative_t<I, T>> {};

template <std::size_t I, typename... Ts>
struct variant_alternative<I, variant<Ts...>> {
  static_assert(I < sizeof...(Ts),
                "index out of bounds in `std::variant_alternative<>`");
  using type = lib::type_pack_element_t<I, Ts...>;
};

constexpr std::size_t variant_npos = static_cast<std::size_t>(-1);

namespace detail {

constexpr std::size_t not_found = static_cast<std::size_t>(-1);
constexpr std::size_t ambiguous = static_cast<std::size_t>(-2);

#ifdef MPARK_CPP14_CONSTEXPR
template <typename T, typename... Ts>
inline constexpr std::size_t find_index() {
  constexpr lib::array<bool, sizeof...(Ts)> matches = {
      {std::is_same<T, Ts>::value...}};
  std::size_t result = not_found;
  for (std::size_t i = 0; i < sizeof...(Ts); ++i) {
    if (matches[i]) {
      if (result != not_found) {
        return ambiguous;
      }
      result = i;
    }
  }
  return result;
}
#else
inline constexpr std::size_t find_index_impl(std::size_t result, std::size_t) {
  return result;
}

template <typename... Bs>
inline constexpr std::size_t find_index_impl(std::size_t result,
                                             std::size_t idx,
                                             bool b,
                                             Bs... bs) {
  return b ? (result != not_found ? ambiguous
                                  : find_index_impl(idx, idx + 1, bs...))
           : find_index_impl(result, idx + 1, bs...);
}

template <typename T, typename... Ts>
inline constexpr std::size_t find_index() {
  return find_index_impl(not_found, 0, std::is_same<T, Ts>::value...);
}
#endif

template <std::size_t I>
using find_index_sfinae_impl =
    lib::enable_if_t<I != not_found && I != ambiguous, lib::size_constant<I>>;

template <typename T, typename... Ts>
using find_index_sfinae = find_index_sfinae_impl<find_index<T, Ts...>()>;

template <std::size_t I>
struct find_index_checked_impl : lib::size_constant<I> {
  static_assert(I != not_found, "the specified type is not found.");
  static_assert(I != ambiguous, "the specified type is ambiguous.");
};

template <typename T, typename... Ts>
using find_index_checked = find_index_checked_impl<find_index<T, Ts...>()>;

struct valueless_t {};

enum class Trait { TriviallyAvailable, Available, Unavailable };

template <typename T,
          template <typename> class IsTriviallyAvailable,
          template <typename> class IsAvailable>
inline constexpr Trait trait() {
  return IsTriviallyAvailable<T>::value
             ? Trait::TriviallyAvailable
             : IsAvailable<T>::value ? Trait::Available : Trait::Unavailable;
}

#ifdef MPARK_CPP14_CONSTEXPR
template <typename... Traits>
inline constexpr Trait common_trait(Traits... traits_) {
  Trait result = Trait::TriviallyAvailable;
  lib::array<Trait, sizeof...(Traits)> traits = {{traits_...}};
  for (std::size_t i = 0; i < sizeof...(Traits); ++i) {
    Trait t = traits[i];
    if (static_cast<int>(t) > static_cast<int>(result)) {
      result = t;
    }
  }
  return result;
}
#else
inline constexpr Trait common_trait_impl(Trait result) { return result; }

template <typename... Traits>
inline constexpr Trait common_trait_impl(Trait result, Trait t, Traits... ts) {
  return static_cast<int>(t) > static_cast<int>(result)
             ? common_trait_impl(t, ts...)
             : common_trait_impl(result, ts...);
}

template <typename... Traits>
inline constexpr Trait common_trait(Traits... ts) {
  return common_trait_impl(Trait::TriviallyAvailable, ts...);
}
#endif

template <typename... Ts>
struct traits {
  static constexpr Trait copy_constructible_trait =
      common_trait(trait<Ts,
                         lib::is_trivially_copy_constructible,
                         std::is_copy_constructible>()...);

  static constexpr Trait move_constructible_trait =
      common_trait(trait<Ts,
                         lib::is_trivially_move_constructible,
                         std::is_move_constructible>()...);

  static constexpr Trait copy_assignable_trait =
      common_trait(copy_constructible_trait,
                   trait<Ts,
                         lib::is_trivially_copy_assignable,
                         std::is_copy_assignable>()...);

  static constexpr Trait move_assignable_trait =
      common_trait(move_constructible_trait,
                   trait<Ts,
                         lib::is_trivially_move_assignable,
                         std::is_move_assignable>()...);

  static constexpr Trait destructible_trait = common_trait(
      trait<Ts, std::is_trivially_destructible, std::is_destructible>()...);
};

namespace access {

struct recursive_union {
#ifdef MPARK_RETURN_TYPE_DEDUCTION
  template <typename V>
  inline static constexpr auto &&get_alt(V &&v, in_place_index_t<0>) {
    return lib::forward<V>(v).head_;
  }

  template <typename V, std::size_t I>
  inline static constexpr auto &&get_alt(V &&v, in_place_index_t<I>) {
    return get_alt(lib::forward<V>(v).tail_, in_place_index_t<I - 1>{});
  }
#else
  template <std::size_t I, bool Dummy = true>
  struct get_alt_impl {
    template <typename V>
    inline constexpr AUTO_REFREF operator()(V &&v) const
        AUTO_REFREF_RETURN(get_alt_impl<I - 1>{}(lib::forward<V>(v).tail_))
  };

  template <bool Dummy>
  struct get_alt_impl<0, Dummy> {
    template <typename V>
    inline constexpr AUTO_REFREF operator()(V &&v) const
        AUTO_REFREF_RETURN(lib::forward<V>(v).head_)
  };

  template <typename V, std::size_t I>
  inline static constexpr AUTO_REFREF get_alt(V &&v, in_place_index_t<I>)
      AUTO_REFREF_RETURN(get_alt_impl<I>{}(lib::forward<V>(v)))
#endif
};

struct base {
  template <std::size_t I, typename V>
  inline static constexpr AUTO_REFREF get_alt(V &&v)
#ifdef _MSC_VER
      AUTO_REFREF_RETURN(recursive_union::get_alt(lib::forward<V>(v).data_,
                                                  in_place_index_t<I>{}))
#else
      AUTO_REFREF_RETURN(recursive_union::get_alt(data(lib::forward<V>(v)),
                                                  in_place_index_t<I>{}))
#endif
};

struct variant {
  template <std::size_t I, typename V>
  inline static constexpr AUTO_REFREF get_alt(V &&v)
      AUTO_REFREF_RETURN(base::get_alt<I>(lib::forward<V>(v).impl_))
};

}  // namespace access

namespace visitation {

#if defined(MPARK_CPP14_CONSTEXPR) && !defined(_MSC_VER)
#define MPARK_VARIANT_SWITCH_VISIT
#endif

struct base {
  template <typename Visitor, typename... Vs>
  using dispatch_result_t =
      decltype(lib::invoke(std::declval<Visitor>(),
                           access::base::get_alt<0>(std::declval<Vs>())...));

  template <typename Expected>
  struct expected {
    template <typename Actual>
    inline static constexpr bool but_got() {
      return std::is_same<Expected, Actual>::value;
    }
  };

  template <typename Expected, typename Actual>
  struct visit_return_type_check {
    static_assert(expected<Expected>::template but_got<Actual>(),
                  "`visit` requires the visitor to have a single return type");

    template <typename Visitor, typename... Alts>
    inline static constexpr DECLTYPE_AUTO invoke(Visitor &&visitor,
                                                 Alts &&... alts)
        DECLTYPE_AUTO_RETURN(lib::invoke(lib::forward<Visitor>(visitor),
                                         lib::forward<Alts>(alts)...))
  };

#ifdef MPARK_VARIANT_SWITCH_VISIT
  template <bool B, typename R, typename... ITs>
  struct dispatcher;

  template <typename R, typename... ITs>
  struct dispatcher<false, R, ITs...> {
    template <std::size_t B, typename F, typename... Vs>
    MPARK_ALWAYS_INLINE static constexpr R dispatch(F &&,
                                                    typename ITs::type &&...,
                                                    Vs &&...) {
      MPARK_BUILTIN_UNREACHABLE;
    }

    template <std::size_t I, typename F, typename... Vs>
    MPARK_ALWAYS_INLINE static constexpr R dispatch_case(F &&, Vs &&...) {
      MPARK_BUILTIN_UNREACHABLE;
    }

    template <std::size_t B, typename F, typename... Vs>
    MPARK_ALWAYS_INLINE static constexpr R dispatch_at(std::size_t,
                                                       F &&,
                                                       Vs &&...) {
      MPARK_BUILTIN_UNREACHABLE;
    }
  };

  template <typename R, typename... ITs>
  struct dispatcher<true, R, ITs...> {
    template <std::size_t B, typename F>
    MPARK_ALWAYS_INLINE static constexpr R dispatch(
        F &&f, typename ITs::type &&... visited_vs) {
      using Expected = R;
      using Actual = decltype(
          lib::invoke(lib::forward<F>(f),
                      access::base::get_alt<ITs::value>(
                          lib::forward<typename ITs::type>(visited_vs))...));
      return visit_return_type_check<Expected, Actual>::invoke(
          lib::forward<F>(f),
          access::base::get_alt<ITs::value>(
              lib::forward<typename ITs::type>(visited_vs))...);
    }

    template <std::size_t B, typename F, typename V, typename... Vs>
    MPARK_ALWAYS_INLINE static constexpr R dispatch(
        F &&f, typename ITs::type &&... visited_vs, V &&v, Vs &&... vs) {
#define MPARK_DISPATCH(I)                                                   \
  dispatcher<(I < lib::decay_t<V>::size()),                                 \
             R,                                                             \
             ITs...,                                                        \
             lib::indexed_type<I, V>>::                                     \
      template dispatch<0>(lib::forward<F>(f),                              \
                           lib::forward<typename ITs::type>(visited_vs)..., \
                           lib::forward<V>(v),                              \
                           lib::forward<Vs>(vs)...)

#define MPARK_DEFAULT(I)                                                      \
  dispatcher<(I < lib::decay_t<V>::size()), R, ITs...>::template dispatch<I>( \
      lib::forward<F>(f),                                                     \
      lib::forward<typename ITs::type>(visited_vs)...,                        \
      lib::forward<V>(v),                                                     \
      lib::forward<Vs>(vs)...)

      switch (v.index()) {
        case B + 0:
          return MPARK_DISPATCH(B + 0);
        case B + 1:
          return MPARK_DISPATCH(B + 1);
        case B + 2:
          return MPARK_DISPATCH(B + 2);
        case B + 3:
          return MPARK_DISPATCH(B + 3);
        case B + 4:
          return MPARK_DISPATCH(B + 4);
        case B + 5:
          return MPARK_DISPATCH(B + 5);
        case B + 6:
          return MPARK_DISPATCH(B + 6);
        case B + 7:
          return MPARK_DISPATCH(B + 7);
        case B + 8:
          return MPARK_DISPATCH(B + 8);
        case B + 9:
          return MPARK_DISPATCH(B + 9);
        case B + 10:
          return MPARK_DISPATCH(B + 10);
        case B + 11:
          return MPARK_DISPATCH(B + 11);
        case B + 12:
          return MPARK_DISPATCH(B + 12);
        case B + 13:
          return MPARK_DISPATCH(B + 13);
        case B + 14:
          return MPARK_DISPATCH(B + 14);
        case B + 15:
          return MPARK_DISPATCH(B + 15);
        case B + 16:
          return MPARK_DISPATCH(B + 16);
        case B + 17:
          return MPARK_DISPATCH(B + 17);
        case B + 18:
          return MPARK_DISPATCH(B + 18);
        case B + 19:
          return MPARK_DISPATCH(B + 19);
        case B + 20:
          return MPARK_DISPATCH(B + 20);
        case B + 21:
          return MPARK_DISPATCH(B + 21);
        case B + 22:
          return MPARK_DISPATCH(B + 22);
        case B + 23:
          return MPARK_DISPATCH(B + 23);
        case B + 24:
          return MPARK_DISPATCH(B + 24);
        case B + 25:
          return MPARK_DISPATCH(B + 25);
        case B + 26:
          return MPARK_DISPATCH(B + 26);
        case B + 27:
          return MPARK_DISPATCH(B + 27);
        case B + 28:
          return MPARK_DISPATCH(B + 28);
        case B + 29:
          return MPARK_DISPATCH(B + 29);
        case B + 30:
          return MPARK_DISPATCH(B + 30);
        case B + 31:
          return MPARK_DISPATCH(B + 31);
        default:
          return MPARK_DEFAULT(B + 32);
      }

#undef MPARK_DEFAULT
#undef MPARK_DISPATCH
    }

    template <std::size_t I, typename F, typename... Vs>
    MPARK_ALWAYS_INLINE static constexpr R dispatch_case(F &&f, Vs &&... vs) {
      using Expected = R;
      using Actual = decltype(
          lib::invoke(lib::forward<F>(f),
                      access::base::get_alt<I>(lib::forward<Vs>(vs))...));
      return visit_return_type_check<Expected, Actual>::invoke(
          lib::forward<F>(f),
          access::base::get_alt<I>(lib::forward<Vs>(vs))...);
    }

    template <std::size_t B, typename F, typename V, typename... Vs>
    MPARK_ALWAYS_INLINE static constexpr R dispatch_at(std::size_t index,
                                                       F &&f,
                                                       V &&v,
                                                       Vs &&... vs) {
      static_assert(lib::all<(lib::decay_t<V>::size() ==
                              lib::decay_t<Vs>::size())...>::value,
                    "all of the variants must be the same size.");
#define MPARK_DISPATCH_AT(I)                                               \
  dispatcher<(I < lib::decay_t<V>::size()), R>::template dispatch_case<I>( \
      lib::forward<F>(f), lib::forward<V>(v), lib::forward<Vs>(vs)...)

#define MPARK_DEFAULT(I)                                                 \
  dispatcher<(I < lib::decay_t<V>::size()), R>::template dispatch_at<I>( \
      index, lib::forward<F>(f), lib::forward<V>(v), lib::forward<Vs>(vs)...)

      switch (index) {
        case B + 0:
          return MPARK_DISPATCH_AT(B + 0);
        case B + 1:
          return MPARK_DISPATCH_AT(B + 1);
        case B + 2:
          return MPARK_DISPATCH_AT(B + 2);
        case B + 3:
          return MPARK_DISPATCH_AT(B + 3);
        case B + 4:
          return MPARK_DISPATCH_AT(B + 4);
        case B + 5:
          return MPARK_DISPATCH_AT(B + 5);
        case B + 6:
          return MPARK_DISPATCH_AT(B + 6);
        case B + 7:
          return MPARK_DISPATCH_AT(B + 7);
        case B + 8:
          return MPARK_DISPATCH_AT(B + 8);
        case B + 9:
          return MPARK_DISPATCH_AT(B + 9);
        case B + 10:
          return MPARK_DISPATCH_AT(B + 10);
        case B + 11:
          return MPARK_DISPATCH_AT(B + 11);
        case B + 12:
          return MPARK_DISPATCH_AT(B + 12);
        case B + 13:
          return MPARK_DISPATCH_AT(B + 13);
        case B + 14:
          return MPARK_DISPATCH_AT(B + 14);
        case B + 15:
          return MPARK_DISPATCH_AT(B + 15);
        case B + 16:
          return MPARK_DISPATCH_AT(B + 16);
        case B + 17:
          return MPARK_DISPATCH_AT(B + 17);
        case B + 18:
          return MPARK_DISPATCH_AT(B + 18);
        case B + 19:
          return MPARK_DISPATCH_AT(B + 19);
        case B + 20:
          return MPARK_DISPATCH_AT(B + 20);
        case B + 21:
          return MPARK_DISPATCH_AT(B + 21);
        case B + 22:
          return MPARK_DISPATCH_AT(B + 22);
        case B + 23:
          return MPARK_DISPATCH_AT(B + 23);
        case B + 24:
          return MPARK_DISPATCH_AT(B + 24);
        case B + 25:
          return MPARK_DISPATCH_AT(B + 25);
        case B + 26:
          return MPARK_DISPATCH_AT(B + 26);
        case B + 27:
          return MPARK_DISPATCH_AT(B + 27);
        case B + 28:
          return MPARK_DISPATCH_AT(B + 28);
        case B + 29:
          return MPARK_DISPATCH_AT(B + 29);
        case B + 30:
          return MPARK_DISPATCH_AT(B + 30);
        case B + 31:
          return MPARK_DISPATCH_AT(B + 31);
        default:
          return MPARK_DEFAULT(B + 32);
      }

#undef MPARK_DEFAULT
#undef MPARK_DISPATCH_AT
    }
  };
#else
  template <typename T>
  inline static constexpr const T &at(const T &elem) noexcept {
    return elem;
  }

  template <typename T, std::size_t N, typename... Is>
  inline static constexpr const lib::remove_all_extents_t<T> &at(
      const lib::array<T, N> &elems, std::size_t i, Is... is) noexcept {
    return at(elems[i], is...);
  }

  template <typename F, typename... Fs>
  inline static constexpr lib::array<lib::decay_t<F>, sizeof...(Fs) + 1>
  make_farray(F &&f, Fs &&... fs) {
    return {{lib::forward<F>(f), lib::forward<Fs>(fs)...}};
  }

  template <typename F, typename... Vs>
  struct make_fmatrix_impl {
    template <std::size_t... Is>
    inline static constexpr dispatch_result_t<F, Vs...> dispatch(F &&f,
                                                                 Vs &&... vs) {
      using Expected = dispatch_result_t<F, Vs...>;
      using Actual = decltype(
          lib::invoke(lib::forward<F>(f),
                      access::base::get_alt<Is>(lib::forward<Vs>(vs))...));
      return visit_return_type_check<Expected, Actual>::invoke(
          lib::forward<F>(f),
          access::base::get_alt<Is>(lib::forward<Vs>(vs))...);
    }

#ifdef MPARK_RETURN_TYPE_DEDUCTION
    template <std::size_t... Is>
    inline static constexpr auto impl(lib::index_sequence<Is...>) {
      return &dispatch<Is...>;
    }

    template <typename Is, std::size_t... Js, typename... Ls>
    inline static constexpr auto impl(Is,
                                      lib::index_sequence<Js...>,
                                      Ls... ls) {
      return make_farray(impl(lib::push_back_t<Is, Js>{}, ls...)...);
    }
#else
    template <typename...>
    struct impl;

    template <std::size_t... Is>
    struct impl<lib::index_sequence<Is...>> {
      inline constexpr AUTO operator()() const AUTO_RETURN(&dispatch<Is...>)
    };

    template <typename Is, std::size_t... Js, typename... Ls>
    struct impl<Is, lib::index_sequence<Js...>, Ls...> {
      inline constexpr AUTO operator()() const
          AUTO_RETURN(make_farray(impl<lib::push_back_t<Is, Js>, Ls...>{}()...))
    };
#endif
  };

#ifdef MPARK_RETURN_TYPE_DEDUCTION
  template <typename F, typename... Vs>
  inline static constexpr auto make_fmatrix() {
    return make_fmatrix_impl<F, Vs...>::impl(
        lib::index_sequence<>{},
        lib::make_index_sequence<lib::decay_t<Vs>::size()>{}...);
  }
#else
  template <typename F, typename... Vs>
  inline static constexpr AUTO make_fmatrix()
      AUTO_RETURN(typename make_fmatrix_impl<F, Vs...>::template impl<
                  lib::index_sequence<>,
                  lib::make_index_sequence<lib::decay_t<Vs>::size()>...>{}())
#endif

  template <typename F, typename... Vs>
  struct make_fdiagonal_impl {
    template <std::size_t I>
    inline static constexpr dispatch_result_t<F, Vs...> dispatch(F &&f,
                                                                 Vs &&... vs) {
      using Expected = dispatch_result_t<F, Vs...>;
      using Actual = decltype(
          lib::invoke(lib::forward<F>(f),
                      access::base::get_alt<I>(lib::forward<Vs>(vs))...));
      return visit_return_type_check<Expected, Actual>::invoke(
          lib::forward<F>(f),
          access::base::get_alt<I>(lib::forward<Vs>(vs))...);
    }

    template <std::size_t... Is>
    inline static constexpr AUTO impl(lib::index_sequence<Is...>)
        AUTO_RETURN(make_farray(&dispatch<Is>...))
  };

  template <typename F, typename V, typename... Vs>
  inline static constexpr auto make_fdiagonal()
      -> decltype(make_fdiagonal_impl<F, V, Vs...>::impl(
          lib::make_index_sequence<lib::decay_t<V>::size()>{})) {
    static_assert(lib::all<(lib::decay_t<V>::size() ==
                            lib::decay_t<Vs>::size())...>::value,
                  "all of the variants must be the same size.");
    return make_fdiagonal_impl<F, V, Vs...>::impl(
        lib::make_index_sequence<lib::decay_t<V>::size()>{});
  }
#endif
};

#if !defined(MPARK_VARIANT_SWITCH_VISIT) && \
    (!defined(_MSC_VER) || _MSC_VER >= 1910)
template <typename F, typename... Vs>
using fmatrix_t = decltype(base::make_fmatrix<F, Vs...>());

template <typename F, typename... Vs>
struct fmatrix {
  static constexpr fmatrix_t<F, Vs...> value = base::make_fmatrix<F, Vs...>();
};

template <typename F, typename... Vs>
constexpr fmatrix_t<F, Vs...> fmatrix<F, Vs...>::value;

template <typename F, typename... Vs>
using fdiagonal_t = decltype(base::make_fdiagonal<F, Vs...>());

template <typename F, typename... Vs>
struct fdiagonal {
  static constexpr fdiagonal_t<F, Vs...> value =
      base::make_fdiagonal<F, Vs...>();
};

template <typename F, typename... Vs>
constexpr fdiagonal_t<F, Vs...> fdiagonal<F, Vs...>::value;
#endif

struct alt {
  template <typename Visitor, typename... Vs>
  inline static constexpr DECLTYPE_AUTO visit_alt(Visitor &&visitor,
                                                  Vs &&... vs)
#ifdef MPARK_VARIANT_SWITCH_VISIT
      DECLTYPE_AUTO_RETURN(
          base::dispatcher<true,
                           base::dispatch_result_t<
                               Visitor,
                               decltype(as_base(lib::forward<Vs>(vs)))...>>::
              template dispatch<0>(lib::forward<Visitor>(visitor),
                                   as_base(lib::forward<Vs>(vs))...))
#elif !defined(_MSC_VER) || _MSC_VER >= 1910
      DECLTYPE_AUTO_RETURN(
          base::at(fmatrix<Visitor &&,
                           decltype(as_base(lib::forward<Vs>(vs)))...>::value,
                   vs.index()...)(lib::forward<Visitor>(visitor),
                                  as_base(lib::forward<Vs>(vs))...))
#else
      DECLTYPE_AUTO_RETURN(base::at(
          base::make_fmatrix<Visitor &&,
                             decltype(as_base(lib::forward<Vs>(vs)))...>(),
          vs.index()...)(lib::forward<Visitor>(visitor),
                         as_base(lib::forward<Vs>(vs))...))
#endif

          template <typename Visitor, typename... Vs>
          inline static constexpr DECLTYPE_AUTO
      visit_alt_at(std::size_t index, Visitor &&visitor, Vs &&... vs)
#ifdef MPARK_VARIANT_SWITCH_VISIT
          DECLTYPE_AUTO_RETURN(
              base::dispatcher<
                  true,
                  base::dispatch_result_t<
                      Visitor,
                      decltype(as_base(lib::forward<Vs>(vs)))...>>::
                  template dispatch_at<0>(index,
                                          lib::forward<Visitor>(visitor),
                                          as_base(lib::forward<Vs>(vs))...))
#elif !defined(_MSC_VER) || _MSC_VER >= 1910
          DECLTYPE_AUTO_RETURN(base::at(
              fdiagonal<Visitor &&,
                        decltype(as_base(lib::forward<Vs>(vs)))...>::value,
              index)(lib::forward<Visitor>(visitor),
                     as_base(lib::forward<Vs>(vs))...))
#else
          DECLTYPE_AUTO_RETURN(
              base::at(base::make_fdiagonal<
                           Visitor &&,
                           decltype(as_base(lib::forward<Vs>(vs)))...>(),
                       index)(lib::forward<Visitor>(visitor),
                              as_base(lib::forward<Vs>(vs))...))
#endif
};

struct variant {
 private:
  template <typename Visitor>
  struct visitor {
    template <typename... Values>
    inline static constexpr bool does_not_handle() {
      return lib::is_invocable<Visitor, Values...>::value;
    }
  };

  template <typename Visitor, typename... Values>
  struct visit_exhaustiveness_check {
    static_assert(visitor<Visitor>::template does_not_handle<Values...>(),
                  "`visit` requires the visitor to be exhaustive.");

    inline static constexpr DECLTYPE_AUTO invoke(Visitor &&visitor,
                                                 Values &&... values)
        DECLTYPE_AUTO_RETURN(lib::invoke(lib::forward<Visitor>(visitor),
                                         lib::forward<Values>(values)...))
  };

  template <typename Visitor>
  struct value_visitor {
    Visitor &&visitor_;

    template <typename... Alts>
    inline constexpr DECLTYPE_AUTO operator()(Alts &&... alts) const
        DECLTYPE_AUTO_RETURN(visit_exhaustiveness_check<
                             Visitor,
                             decltype((lib::forward<Alts>(alts).value))...>::
                                 invoke(lib::forward<Visitor>(visitor_),
                                        lib::forward<Alts>(alts).value...))
  };

  template <typename Visitor>
  inline static constexpr AUTO make_value_visitor(Visitor &&visitor)
      AUTO_RETURN(value_visitor<Visitor>{lib::forward<Visitor>(visitor)})

          public
      : template <typename Visitor, typename... Vs>
        inline static constexpr DECLTYPE_AUTO
        visit_alt(Visitor &&visitor, Vs &&... vs)
            DECLTYPE_AUTO_RETURN(alt::visit_alt(lib::forward<Visitor>(visitor),
                                                lib::forward<Vs>(vs).impl_...))

                template <typename Visitor, typename... Vs>
                inline static constexpr DECLTYPE_AUTO
        visit_alt_at(std::size_t index, Visitor &&visitor, Vs &&... vs)
            DECLTYPE_AUTO_RETURN(
                alt::visit_alt_at(index,
                                  lib::forward<Visitor>(visitor),
                                  lib::forward<Vs>(vs).impl_...))

                template <typename Visitor, typename... Vs>
                inline static constexpr DECLTYPE_AUTO
        visit_value(Visitor &&visitor, Vs &&... vs) DECLTYPE_AUTO_RETURN(
            visit_alt(make_value_visitor(lib::forward<Visitor>(visitor)),
                      lib::forward<Vs>(vs)...))

            template <typename Visitor, typename... Vs>
            inline static constexpr DECLTYPE_AUTO
        visit_value_at(std::size_t index, Visitor &&visitor, Vs &&... vs)
            DECLTYPE_AUTO_RETURN(
                visit_alt_at(index,
                             make_value_visitor(lib::forward<Visitor>(visitor)),
                             lib::forward<Vs>(vs)...))
};

}  // namespace visitation

template <std::size_t Index, typename T>
struct alt {
  using value_type = T;

#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4244)
#endif
  template <typename... Args>
  inline explicit constexpr alt(in_place_t, Args &&... args)
      : value(lib::forward<Args>(args)...) {}
#ifdef _MSC_VER
#pragma warning(pop)
#endif

  T value;
};

template <Trait DestructibleTrait, std::size_t Index, typename... Ts>
union recursive_union;

template <Trait DestructibleTrait, std::size_t Index>
union recursive_union<DestructibleTrait, Index> {};

#define MPARK_VARIANT_RECURSIVE_UNION(destructible_trait, destructor)      \
  template <std::size_t Index, typename T, typename... Ts>                 \
  union recursive_union<destructible_trait, Index, T, Ts...> {             \
   public:                                                                 \
    inline explicit constexpr recursive_union(valueless_t) noexcept        \
        : dummy_{} {}                                                      \
                                                                           \
    template <typename... Args>                                            \
    inline explicit constexpr recursive_union(in_place_index_t<0>,         \
                                              Args &&... args)             \
        : head_(in_place_t{}, lib::forward<Args>(args)...) {}              \
                                                                           \
    template <std::size_t I, typename... Args>                             \
    inline explicit constexpr recursive_union(in_place_index_t<I>,         \
                                              Args &&... args)             \
        : tail_(in_place_index_t<I - 1>{}, lib::forward<Args>(args)...) {} \
                                                                           \
    recursive_union(const recursive_union &) = default;                    \
    recursive_union(recursive_union &&) = default;                         \
                                                                           \
    destructor                                                             \
                                                                           \
        recursive_union &                                                  \
        operator=(const recursive_union &) = default;                      \
    recursive_union &operator=(recursive_union &&) = default;              \
                                                                           \
   private:                                                                \
    char dummy_;                                                           \
    alt<Index, T> head_;                                                   \
    recursive_union<destructible_trait, Index + 1, Ts...> tail_;           \
                                                                           \
    friend struct access::recursive_union;                                 \
  }

MPARK_VARIANT_RECURSIVE_UNION(Trait::TriviallyAvailable,
                              ~recursive_union() = default;);
MPARK_VARIANT_RECURSIVE_UNION(Trait::Available, ~recursive_union(){});
MPARK_VARIANT_RECURSIVE_UNION(Trait::Unavailable, ~recursive_union() = delete;);

#undef MPARK_VARIANT_RECURSIVE_UNION

using index_t = unsigned int;

template <Trait DestructibleTrait, typename... Ts>
class base {
 public:
  inline explicit constexpr base(valueless_t tag) noexcept
      : data_(tag),
        index_(static_cast<index_t>(-1)) {}

  template <std::size_t I, typename... Args>
  inline explicit constexpr base(in_place_index_t<I>, Args &&... args)
      : data_(in_place_index_t<I>{}, lib::forward<Args>(args)...), index_(I) {}

  inline constexpr bool valueless_by_exception() const noexcept {
    return index_ == static_cast<index_t>(-1);
  }

  inline constexpr std::size_t index() const noexcept {
    return valueless_by_exception() ? variant_npos : index_;
  }

 protected:
  using data_t = recursive_union<DestructibleTrait, 0, Ts...>;

  friend inline constexpr base &as_base(base &b) { return b; }
  friend inline constexpr const base &as_base(const base &b) { return b; }
  friend inline constexpr base &&as_base(base &&b) { return lib::move(b); }
  friend inline constexpr const base &&as_base(const base &&b) {
    return lib::move(b);
  }

  friend inline constexpr data_t &data(base &b) { return b.data_; }
  friend inline constexpr const data_t &data(const base &b) { return b.data_; }
  friend inline constexpr data_t &&data(base &&b) { return lib::move(b).data_; }
  friend inline constexpr const data_t &&data(const base &&b) {
    return lib::move(b).data_;
  }

  inline static constexpr std::size_t size() { return sizeof...(Ts); }

  data_t data_;
  index_t index_;

  friend struct access::base;
  friend struct visitation::base;
};

struct dtor {
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4100)
#endif
  template <typename Alt>
  inline void operator()(Alt &alt) const noexcept {
    alt.~Alt();
  }
#ifdef _MSC_VER
#pragma warning(pop)
#endif
};

#if !defined(_MSC_VER) || _MSC_VER >= 1910
#define MPARK_INHERITING_CTOR(type, base) using base::base;
#else
#define MPARK_INHERITING_CTOR(type, base)         \
  template <typename... Args>                     \
  inline explicit constexpr type(Args &&... args) \
      : base(lib::forward<Args>(args)...) {}
#endif

template <typename Traits, Trait = Traits::destructible_trait>
class destructor;

#define MPARK_VARIANT_DESTRUCTOR(destructible_trait, definition, destroy) \
  template <typename... Ts>                                               \
  class destructor<traits<Ts...>, destructible_trait>                     \
      : public base<destructible_trait, Ts...> {                          \
    using super = base<destructible_trait, Ts...>;                        \
                                                                          \
   public:                                                                \
    MPARK_INHERITING_CTOR(destructor, super)                              \
    using super::operator=;                                               \
                                                                          \
    destructor(const destructor &) = default;                             \
    destructor(destructor &&) = default;                                  \
    definition destructor &operator=(const destructor &) = default;       \
    destructor &operator=(destructor &&) = default;                       \
                                                                          \
   protected:                                                             \
    destroy                                                               \
  }

MPARK_VARIANT_DESTRUCTOR(Trait::TriviallyAvailable, ~destructor() = default;
                         , inline void destroy() noexcept {
                           this->index_ = static_cast<index_t>(-1);
                         });

MPARK_VARIANT_DESTRUCTOR(Trait::Available,
                         ~destructor() { destroy(); },
                         inline void destroy() noexcept {
                           if (!this->valueless_by_exception()) {
                             visitation::alt::visit_alt(dtor{}, *this);
                           }
                           this->index_ = static_cast<index_t>(-1);
                         });

MPARK_VARIANT_DESTRUCTOR(Trait::Unavailable, ~destructor() = delete;
                         , inline void destroy() noexcept = delete;);

#undef MPARK_VARIANT_DESTRUCTOR

template <typename Traits>
class constructor : public destructor<Traits> {
  using super = destructor<Traits>;

 public:
  MPARK_INHERITING_CTOR(constructor, super)
  using super::operator=;

 protected:
#ifndef MPARK_GENERIC_LAMBDAS
  struct ctor {
    template <typename LhsAlt, typename RhsAlt>
    inline void operator()(LhsAlt &lhs_alt, RhsAlt &&rhs_alt) const {
      constructor::construct_alt(lhs_alt, lib::forward<RhsAlt>(rhs_alt).value);
    }
  };
#endif

  template <std::size_t I, typename T, typename... Args>
  inline static T &construct_alt(alt<I, T> &a, Args &&... args) {
    auto *result = ::new (static_cast<void *>(lib::addressof(a)))
        alt<I, T>(in_place_t{}, lib::forward<Args>(args)...);
    return result->value;
  }

  template <typename Rhs>
  inline static void generic_construct(constructor &lhs, Rhs &&rhs) {
    lhs.destroy();
    if (!rhs.valueless_by_exception()) {
      visitation::alt::visit_alt_at(
          rhs.index(),
#ifdef MPARK_GENERIC_LAMBDAS
          [](auto &lhs_alt, auto &&rhs_alt) {
            constructor::construct_alt(
                lhs_alt, lib::forward<decltype(rhs_alt)>(rhs_alt).value);
          }
#else
          ctor {}
#endif
          ,
          lhs,
          lib::forward<Rhs>(rhs));
      lhs.index_ = rhs.index_;
    }
  }
};

template <typename Traits, Trait = Traits::move_constructible_trait>
class move_constructor;

#define MPARK_VARIANT_MOVE_CONSTRUCTOR(move_constructible_trait, definition) \
  template <typename... Ts>                                                  \
  class move_constructor<traits<Ts...>, move_constructible_trait>            \
      : public constructor<traits<Ts...>> {                                  \
    using super = constructor<traits<Ts...>>;                                \
                                                                             \
   public:                                                                   \
    MPARK_INHERITING_CTOR(move_constructor, super)                           \
    using super::operator=;                                                  \
                                                                             \
    move_constructor(const move_constructor &) = default;                    \
    definition ~move_constructor() = default;                                \
    move_constructor &operator=(const move_constructor &) = default;         \
    move_constructor &operator=(move_constructor &&) = default;              \
  }

MPARK_VARIANT_MOVE_CONSTRUCTOR(
    Trait::TriviallyAvailable,
    move_constructor(move_constructor &&that) = default;);

MPARK_VARIANT_MOVE_CONSTRUCTOR(
    Trait::Available,
    move_constructor(move_constructor &&that) noexcept(
        lib::all<std::is_nothrow_move_constructible<Ts>::value...>::value)
    : move_constructor(valueless_t{}) {
      this->generic_construct(*this, lib::move(that));
    });

MPARK_VARIANT_MOVE_CONSTRUCTOR(Trait::Unavailable,
                               move_constructor(move_constructor &&) = delete;);

#undef MPARK_VARIANT_MOVE_CONSTRUCTOR

template <typename Traits, Trait = Traits::copy_constructible_trait>
class copy_constructor;

#define MPARK_VARIANT_COPY_CONSTRUCTOR(copy_constructible_trait, definition) \
  template <typename... Ts>                                                  \
  class copy_constructor<traits<Ts...>, copy_constructible_trait>            \
      : public move_constructor<traits<Ts...>> {                             \
    using super = move_constructor<traits<Ts...>>;                           \
                                                                             \
   public:                                                                   \
    MPARK_INHERITING_CTOR(copy_constructor, super)                           \
    using super::operator=;                                                  \
                                                                             \
    definition copy_constructor(copy_constructor &&) = default;              \
    ~copy_constructor() = default;                                           \
    copy_constructor &operator=(const copy_constructor &) = default;         \
    copy_constructor &operator=(copy_constructor &&) = default;              \
  }

MPARK_VARIANT_COPY_CONSTRUCTOR(
    Trait::TriviallyAvailable,
    copy_constructor(const copy_constructor &that) = default;);

MPARK_VARIANT_COPY_CONSTRUCTOR(Trait::Available,
                               copy_constructor(const copy_constructor &that)
                               : copy_constructor(valueless_t{}) {
                                 this->generic_construct(*this, that);
                               });

MPARK_VARIANT_COPY_CONSTRUCTOR(
    Trait::Unavailable, copy_constructor(const copy_constructor &) = delete;);

#undef MPARK_VARIANT_COPY_CONSTRUCTOR

template <typename Traits>
class assignment : public copy_constructor<Traits> {
  using super = copy_constructor<Traits>;

 public:
  MPARK_INHERITING_CTOR(assignment, super)
  using super::operator=;

  template <std::size_t I, typename... Args>
  inline /* auto & */ auto emplace(Args &&... args)
      -> decltype(this->construct_alt(access::base::get_alt<I>(*this),
                                      lib::forward<Args>(args)...)) {
    this->destroy();
    auto &result = this->construct_alt(access::base::get_alt<I>(*this),
                                       lib::forward<Args>(args)...);
    this->index_ = I;
    return result;
  }

 protected:
#ifndef MPARK_GENERIC_LAMBDAS
  template <typename That>
  struct assigner {
    template <typename ThisAlt, typename ThatAlt>
    inline void operator()(ThisAlt &this_alt, ThatAlt &&that_alt) const {
      self->assign_alt(this_alt, lib::forward<ThatAlt>(that_alt).value);
    }
    assignment *self;
  };
#endif

  template <std::size_t I, typename T, typename Arg>
  inline void assign_alt(alt<I, T> &a, Arg &&arg) {
    if (this->index() == I) {
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4244)
#endif
      a.value = lib::forward<Arg>(arg);
#ifdef _MSC_VER
#pragma warning(pop)
#endif
    } else {
      struct {
        void operator()(std::true_type) const {
          this_->emplace<I>(lib::forward<Arg>(arg_));
        }
        void operator()(std::false_type) const {
          this_->emplace<I>(T(lib::forward<Arg>(arg_)));
        }
        assignment *this_;
        Arg &&arg_;
      } impl{this, lib::forward<Arg>(arg)};
      impl(lib::bool_constant < std::is_nothrow_constructible<T, Arg>::value ||
           !std::is_nothrow_move_constructible<T>::value > {});
    }
  }

  template <typename That>
  inline void generic_assign(That &&that) {
    if (this->valueless_by_exception() && that.valueless_by_exception()) {
      // do nothing.
    } else if (that.valueless_by_exception()) {
      this->destroy();
    } else {
      visitation::alt::visit_alt_at(
          that.index(),
#ifdef MPARK_GENERIC_LAMBDAS
          [this](auto &this_alt, auto &&that_alt) {
            this->assign_alt(this_alt,
                             lib::forward<decltype(that_alt)>(that_alt).value);
          }
#else
          assigner<That> { this }
#endif
          ,
          *this,
          lib::forward<That>(that));
    }
  }
};

template <typename Traits, Trait = Traits::move_assignable_trait>
class move_assignment;

#define MPARK_VARIANT_MOVE_ASSIGNMENT(move_assignable_trait, definition) \
  template <typename... Ts>                                              \
  class move_assignment<traits<Ts...>, move_assignable_trait>            \
      : public assignment<traits<Ts...>> {                               \
    using super = assignment<traits<Ts...>>;                             \
                                                                         \
   public:                                                               \
    MPARK_INHERITING_CTOR(move_assignment, super)                        \
    using super::operator=;                                              \
                                                                         \
    move_assignment(const move_assignment &) = default;                  \
    move_assignment(move_assignment &&) = default;                       \
    ~move_assignment() = default;                                        \
    move_assignment &operator=(const move_assignment &) = default;       \
    definition                                                           \
  }

MPARK_VARIANT_MOVE_ASSIGNMENT(
    Trait::TriviallyAvailable,
    move_assignment &operator=(move_assignment &&that) = default;);

MPARK_VARIANT_MOVE_ASSIGNMENT(
    Trait::Available,
    move_assignment &
    operator=(move_assignment &&that) noexcept(
        lib::all<(std::is_nothrow_move_constructible<Ts>::value &&
                  std::is_nothrow_move_assignable<Ts>::value)...>::value) {
      this->generic_assign(lib::move(that));
      return *this;
    });

MPARK_VARIANT_MOVE_ASSIGNMENT(
    Trait::Unavailable,
    move_assignment &operator=(move_assignment &&) = delete;);

#undef MPARK_VARIANT_MOVE_ASSIGNMENT

template <typename Traits, Trait = Traits::copy_assignable_trait>
class copy_assignment;

#define MPARK_VARIANT_COPY_ASSIGNMENT(copy_assignable_trait, definition) \
  template <typename... Ts>                                              \
  class copy_assignment<traits<Ts...>, copy_assignable_trait>            \
      : public move_assignment<traits<Ts...>> {                          \
    using super = move_assignment<traits<Ts...>>;                        \
                                                                         \
   public:                                                               \
    MPARK_INHERITING_CTOR(copy_assignment, super)                        \
    using super::operator=;                                              \
                                                                         \
    copy_assignment(const copy_assignment &) = default;                  \
    copy_assignment(copy_assignment &&) = default;                       \
    ~copy_assignment() = default;                                        \
    definition copy_assignment &operator=(copy_assignment &&) = default; \
  }

MPARK_VARIANT_COPY_ASSIGNMENT(
    Trait::TriviallyAvailable,
    copy_assignment &operator=(const copy_assignment &that) = default;);

MPARK_VARIANT_COPY_ASSIGNMENT(
    Trait::Available, copy_assignment &operator=(const copy_assignment &that) {
      this->generic_assign(that);
      return *this;
    });

MPARK_VARIANT_COPY_ASSIGNMENT(
    Trait::Unavailable,
    copy_assignment &operator=(const copy_assignment &) = delete;);

#undef MPARK_VARIANT_COPY_ASSIGNMENT

template <typename... Ts>
class impl : public copy_assignment<traits<Ts...>> {
  using super = copy_assignment<traits<Ts...>>;

 public:
  MPARK_INHERITING_CTOR(impl, super)
  using super::operator=;

  template <std::size_t I, typename Arg>
  inline void assign(Arg &&arg) {
    this->assign_alt(access::base::get_alt<I>(*this), lib::forward<Arg>(arg));
  }

  inline void swap(impl &that) {
    if (this->valueless_by_exception() && that.valueless_by_exception()) {
      // do nothing.
    } else if (this->index() == that.index()) {
      visitation::alt::visit_alt_at(this->index(),
#ifdef MPARK_GENERIC_LAMBDAS
                                    [](auto &this_alt, auto &that_alt) {
                                      using std::swap;
                                      swap(this_alt.value, that_alt.value);
                                    }
#else
                                    swapper {}
#endif
                                    ,
                                    *this,
                                    that);
    } else {
      impl *lhs = this;
      impl *rhs = lib::addressof(that);
      if (lhs->move_nothrow() && !rhs->move_nothrow()) {
        std::swap(lhs, rhs);
      }
      impl tmp(lib::move(*rhs));
#ifdef MPARK_EXCEPTIONS
      // EXTENSION: When the move construction of `lhs` into `rhs` throws
      // and `tmp` is nothrow move constructible then we move `tmp` back
      // into `rhs` and provide the strong exception safety guarantee.
      try {
        this->generic_construct(*rhs, lib::move(*lhs));
      } catch (...) {
        if (tmp.move_nothrow()) {
          this->generic_construct(*rhs, lib::move(tmp));
        }
        throw;
      }
#else
      this->generic_construct(*rhs, lib::move(*lhs));
#endif
      this->generic_construct(*lhs, lib::move(tmp));
    }
  }

 private:
#ifndef MPARK_GENERIC_LAMBDAS
  struct swapper {
    template <typename ThisAlt, typename ThatAlt>
    inline void operator()(ThisAlt &this_alt, ThatAlt &that_alt) const {
      using std::swap;
      swap(this_alt.value, that_alt.value);
    }
  };
#endif

  inline constexpr bool move_nothrow() const {
    return this->valueless_by_exception() ||
           lib::array<bool, sizeof...(Ts)>{{std::is_nothrow_move_constructible<
               Ts>::value...}}[this->index()];
  }
};

#undef MPARK_INHERITING_CTOR

template <std::size_t I, typename T>
struct overload_leaf {
  using F = lib::size_constant<I> (*)(T);
  operator F() const { return nullptr; }
};

template <typename... Ts>
struct overload_impl {
 private:
  template <typename>
  struct impl;

  template <std::size_t... Is>
  struct impl<lib::index_sequence<Is...>> : overload_leaf<Is, Ts>... {};

 public:
  using type = impl<lib::index_sequence_for<Ts...>>;
};

template <typename... Ts>
using overload = typename overload_impl<Ts...>::type;

template <typename T, typename... Ts>
using best_match = lib::invoke_result_t<overload<Ts...>, T &&>;

template <typename T>
struct is_in_place_index : std::false_type {};

template <std::size_t I>
struct is_in_place_index<in_place_index_t<I>> : std::true_type {};

template <typename T>
struct is_in_place_type : std::false_type {};

template <typename T>
struct is_in_place_type<in_place_type_t<T>> : std::true_type {};

}  // detail

template <typename... Ts>
class variant {
  static_assert(0 < sizeof...(Ts),
                "variant must consist of at least one alternative.");

  static_assert(lib::all<!std::is_array<Ts>::value...>::value,
                "variant can not have an array type as an alternative.");

  static_assert(lib::all<!std::is_reference<Ts>::value...>::value,
                "variant can not have a reference type as an alternative.");

  static_assert(lib::all<!std::is_void<Ts>::value...>::value,
                "variant can not have a void type as an alternative.");

 public:
  template <
      typename Front = lib::type_pack_element_t<0, Ts...>,
      lib::enable_if_t<std::is_default_constructible<Front>::value, int> = 0>
  inline constexpr variant() noexcept(
      std::is_nothrow_default_constructible<Front>::value)
      : impl_(in_place_index_t<0>{}) {}

  variant(const variant &) = default;
  variant(variant &&) = default;

  template <
      typename Arg,
      typename Decayed = lib::decay_t<Arg>,
      lib::enable_if_t<!std::is_same<Decayed, variant>::value, int> = 0,
      lib::enable_if_t<!detail::is_in_place_index<Decayed>::value, int> = 0,
      lib::enable_if_t<!detail::is_in_place_type<Decayed>::value, int> = 0,
      std::size_t I = detail::best_match<Arg, Ts...>::value,
      typename T = lib::type_pack_element_t<I, Ts...>,
      lib::enable_if_t<std::is_constructible<T, Arg>::value, int> = 0>
  inline constexpr variant(Arg &&arg) noexcept(
      std::is_nothrow_constructible<T, Arg>::value)
      : impl_(in_place_index_t<I>{}, lib::forward<Arg>(arg)) {}

  template <std::size_t I,
            typename... Args,
            typename T = lib::type_pack_element_t<I, Ts...>,
            lib::enable_if_t<std::is_constructible<T, Args...>::value, int> = 0>
  inline explicit constexpr variant(
      in_place_index_t<I>,
      Args
          &&... args) noexcept(std::is_nothrow_constructible<T, Args...>::value)
      : impl_(in_place_index_t<I>{}, lib::forward<Args>(args)...) {}

  template <
      std::size_t I,
      typename Up,
      typename... Args,
      typename T = lib::type_pack_element_t<I, Ts...>,
      lib::enable_if_t<
          std::is_constructible<T, std::initializer_list<Up> &, Args...>::value,
          int> = 0>
  inline explicit constexpr variant(
      in_place_index_t<I>,
      std::initializer_list<Up> il,
      Args &&... args) noexcept(std::
                                    is_nothrow_constructible<
                                        T,
                                        std::initializer_list<Up> &,
                                        Args...>::value)
      : impl_(in_place_index_t<I>{}, il, lib::forward<Args>(args)...) {}

  template <typename T,
            typename... Args,
            std::size_t I = detail::find_index_sfinae<T, Ts...>::value,
            lib::enable_if_t<std::is_constructible<T, Args...>::value, int> = 0>
  inline explicit constexpr variant(
      in_place_type_t<T>,
      Args
          &&... args) noexcept(std::is_nothrow_constructible<T, Args...>::value)
      : impl_(in_place_index_t<I>{}, lib::forward<Args>(args)...) {}

  template <
      typename T,
      typename Up,
      typename... Args,
      std::size_t I = detail::find_index_sfinae<T, Ts...>::value,
      lib::enable_if_t<
          std::is_constructible<T, std::initializer_list<Up> &, Args...>::value,
          int> = 0>
  inline explicit constexpr variant(
      in_place_type_t<T>,
      std::initializer_list<Up> il,
      Args &&... args) noexcept(std::
                                    is_nothrow_constructible<
                                        T,
                                        std::initializer_list<Up> &,
                                        Args...>::value)
      : impl_(in_place_index_t<I>{}, il, lib::forward<Args>(args)...) {}

  ~variant() = default;

  variant &operator=(const variant &) = default;
  variant &operator=(variant &&) = default;

  template <typename Arg,
            lib::enable_if_t<!std::is_same<lib::decay_t<Arg>, variant>::value,
                             int> = 0,
            std::size_t I = detail::best_match<Arg, Ts...>::value,
            typename T = lib::type_pack_element_t<I, Ts...>,
            lib::enable_if_t<(std::is_assignable<T &, Arg>::value &&
                              std::is_constructible<T, Arg>::value),
                             int> = 0>
  inline variant &operator=(Arg &&arg) noexcept(
      (std::is_nothrow_assignable<T &, Arg>::value &&
       std::is_nothrow_constructible<T, Arg>::value)) {
    impl_.template assign<I>(lib::forward<Arg>(arg));
    return *this;
  }

  template <std::size_t I,
            typename... Args,
            typename T = lib::type_pack_element_t<I, Ts...>,
            lib::enable_if_t<std::is_constructible<T, Args...>::value, int> = 0>
  inline T &emplace(Args &&... args) {
    return impl_.template emplace<I>(lib::forward<Args>(args)...);
  }

  template <
      std::size_t I,
      typename Up,
      typename... Args,
      typename T = lib::type_pack_element_t<I, Ts...>,
      lib::enable_if_t<
          std::is_constructible<T, std::initializer_list<Up> &, Args...>::value,
          int> = 0>
  inline T &emplace(std::initializer_list<Up> il, Args &&... args) {
    return impl_.template emplace<I>(il, lib::forward<Args>(args)...);
  }

  template <typename T,
            typename... Args,
            std::size_t I = detail::find_index_sfinae<T, Ts...>::value,
            lib::enable_if_t<std::is_constructible<T, Args...>::value, int> = 0>
  inline T &emplace(Args &&... args) {
    return impl_.template emplace<I>(lib::forward<Args>(args)...);
  }

  template <
      typename T,
      typename Up,
      typename... Args,
      std::size_t I = detail::find_index_sfinae<T, Ts...>::value,
      lib::enable_if_t<
          std::is_constructible<T, std::initializer_list<Up> &, Args...>::value,
          int> = 0>
  inline T &emplace(std::initializer_list<Up> il, Args &&... args) {
    return impl_.template emplace<I>(il, lib::forward<Args>(args)...);
  }

  inline constexpr bool valueless_by_exception() const noexcept {
    return impl_.valueless_by_exception();
  }

  inline constexpr std::size_t index() const noexcept { return impl_.index(); }

  template <bool Dummy = true,
            lib::enable_if_t<
                lib::all<Dummy,
                         (lib::dependent_type<std::is_move_constructible<Ts>,
                                              Dummy>::value &&
                          lib::dependent_type<lib::is_swappable<Ts>,
                                              Dummy>::value)...>::value,
                int> = 0>
  inline void swap(variant &that) noexcept(
      lib::all<(std::is_nothrow_move_constructible<Ts>::value &&
                lib::is_nothrow_swappable<Ts>::value)...>::value) {
    impl_.swap(that.impl_);
  }

 private:
  detail::impl<Ts...> impl_;

  friend struct detail::access::variant;
  friend struct detail::visitation::variant;
};

template <std::size_t I, typename... Ts>
inline constexpr bool holds_alternative(const variant<Ts...> &v) noexcept {
  return v.index() == I;
}

template <typename T, typename... Ts>
inline constexpr bool holds_alternative(const variant<Ts...> &v) noexcept {
  return holds_alternative<detail::find_index_checked<T, Ts...>::value>(v);
}

namespace detail {
template <std::size_t I, typename V>
struct generic_get_impl {
  constexpr generic_get_impl(int) noexcept {}

  constexpr AUTO_REFREF operator()(V &&v) const
      AUTO_REFREF_RETURN(access::variant::get_alt<I>(lib::forward<V>(v)).value)
};

template <std::size_t I, typename V>
inline constexpr AUTO_REFREF generic_get(V &&v)
    AUTO_REFREF_RETURN(generic_get_impl<I, V>(holds_alternative<I>(v)
                                                  ? 0
                                                  : (throw_bad_variant_access(),
                                                     0))(lib::forward<V>(v)))
}  // namespace detail

template <std::size_t I, typename... Ts>
inline constexpr variant_alternative_t<I, variant<Ts...>> &get(
    variant<Ts...> &v) {
  return detail::generic_get<I>(v);
}

template <std::size_t I, typename... Ts>
inline constexpr variant_alternative_t<I, variant<Ts...>> &&get(
    variant<Ts...> &&v) {
  return detail::generic_get<I>(lib::move(v));
}

template <std::size_t I, typename... Ts>
inline constexpr const variant_alternative_t<I, variant<Ts...>> &get(
    const variant<Ts...> &v) {
  return detail::generic_get<I>(v);
}

template <std::size_t I, typename... Ts>
inline constexpr const variant_alternative_t<I, variant<Ts...>> &&get(
    const variant<Ts...> &&v) {
  return detail::generic_get<I>(lib::move(v));
}

template <typename T, typename... Ts>
inline constexpr T &get(variant<Ts...> &v) {
  return get<detail::find_index_checked<T, Ts...>::value>(v);
}

template <typename T, typename... Ts>
inline constexpr T &&get(variant<Ts...> &&v) {
  return get<detail::find_index_checked<T, Ts...>::value>(lib::move(v));
}

template <typename T, typename... Ts>
inline constexpr const T &get(const variant<Ts...> &v) {
  return get<detail::find_index_checked<T, Ts...>::value>(v);
}

template <typename T, typename... Ts>
inline constexpr const T &&get(const variant<Ts...> &&v) {
  return get<detail::find_index_checked<T, Ts...>::value>(lib::move(v));
}

namespace detail {

template <std::size_t I, typename V>
inline constexpr /* auto * */ AUTO generic_get_if(V *v) noexcept AUTO_RETURN(
    v &&holds_alternative<I>(*v)
        ? lib::addressof(access::variant::get_alt<I>(*v).value)
        : nullptr)

}  // namespace detail

template <std::size_t I, typename... Ts>
inline constexpr lib::add_pointer_t<variant_alternative_t<I, variant<Ts...>>>
get_if(variant<Ts...> *v) noexcept {
  return detail::generic_get_if<I>(v);
}

template <std::size_t I, typename... Ts>
inline constexpr lib::add_pointer_t<
    const variant_alternative_t<I, variant<Ts...>>>
get_if(const variant<Ts...> *v) noexcept {
  return detail::generic_get_if<I>(v);
}

template <typename T, typename... Ts>
inline constexpr lib::add_pointer_t<T> get_if(variant<Ts...> *v) noexcept {
  return get_if<detail::find_index_checked<T, Ts...>::value>(v);
}

template <typename T, typename... Ts>
inline constexpr lib::add_pointer_t<const T> get_if(
    const variant<Ts...> *v) noexcept {
  return get_if<detail::find_index_checked<T, Ts...>::value>(v);
}

namespace detail {
template <typename RelOp>
struct convert_to_bool {
  template <typename Lhs, typename Rhs>
  inline constexpr bool operator()(Lhs &&lhs, Rhs &&rhs) const {
    static_assert(
        std::is_convertible<lib::invoke_result_t<RelOp, Lhs, Rhs>, bool>::value,
        "relational operators must return a type"
        " implicitly convertible to bool");
    return lib::invoke(RelOp{}, lib::forward<Lhs>(lhs), lib::forward<Rhs>(rhs));
  }
};
}  // namespace detail

template <typename... Ts>
inline constexpr bool operator==(const variant<Ts...> &lhs,
                                 const variant<Ts...> &rhs) {
  using detail::visitation::variant;
  using equal_to = detail::convert_to_bool<lib::equal_to>;
#ifdef MPARK_CPP14_CONSTEXPR
  if (lhs.index() != rhs.index()) return false;
  if (lhs.valueless_by_exception()) return true;
  return variant::visit_value_at(lhs.index(), equal_to{}, lhs, rhs);
#else
  return lhs.index() == rhs.index() &&
         (lhs.valueless_by_exception() ||
          variant::visit_value_at(lhs.index(), equal_to{}, lhs, rhs));
#endif
}

template <typename... Ts>
inline constexpr bool operator!=(const variant<Ts...> &lhs,
                                 const variant<Ts...> &rhs) {
  using detail::visitation::variant;
  using not_equal_to = detail::convert_to_bool<lib::not_equal_to>;
#ifdef MPARK_CPP14_CONSTEXPR
  if (lhs.index() != rhs.index()) return true;
  if (lhs.valueless_by_exception()) return false;
  return variant::visit_value_at(lhs.index(), not_equal_to{}, lhs, rhs);
#else
  return lhs.index() != rhs.index() ||
         (!lhs.valueless_by_exception() &&
          variant::visit_value_at(lhs.index(), not_equal_to{}, lhs, rhs));
#endif
}

template <typename... Ts>
inline constexpr bool operator<(const variant<Ts...> &lhs,
                                const variant<Ts...> &rhs) {
  using detail::visitation::variant;
  using less = detail::convert_to_bool<lib::less>;
#ifdef MPARK_CPP14_CONSTEXPR
  if (rhs.valueless_by_exception()) return false;
  if (lhs.valueless_by_exception()) return true;
  if (lhs.index() < rhs.index()) return true;
  if (lhs.index() > rhs.index()) return false;
  return variant::visit_value_at(lhs.index(), less{}, lhs, rhs);
#else
  return !rhs.valueless_by_exception() &&
         (lhs.valueless_by_exception() || lhs.index() < rhs.index() ||
          (lhs.index() == rhs.index() &&
           variant::visit_value_at(lhs.index(), less{}, lhs, rhs)));
#endif
}

template <typename... Ts>
inline constexpr bool operator>(const variant<Ts...> &lhs,
                                const variant<Ts...> &rhs) {
  using detail::visitation::variant;
  using greater = detail::convert_to_bool<lib::greater>;
#ifdef MPARK_CPP14_CONSTEXPR
  if (lhs.valueless_by_exception()) return false;
  if (rhs.valueless_by_exception()) return true;
  if (lhs.index() > rhs.index()) return true;
  if (lhs.index() < rhs.index()) return false;
  return variant::visit_value_at(lhs.index(), greater{}, lhs, rhs);
#else
  return !lhs.valueless_by_exception() &&
         (rhs.valueless_by_exception() || lhs.index() > rhs.index() ||
          (lhs.index() == rhs.index() &&
           variant::visit_value_at(lhs.index(), greater{}, lhs, rhs)));
#endif
}

template <typename... Ts>
inline constexpr bool operator<=(const variant<Ts...> &lhs,
                                 const variant<Ts...> &rhs) {
  using detail::visitation::variant;
  using less_equal = detail::convert_to_bool<lib::less_equal>;
#ifdef MPARK_CPP14_CONSTEXPR
  if (lhs.valueless_by_exception()) return true;
  if (rhs.valueless_by_exception()) return false;
  if (lhs.index() < rhs.index()) return true;
  if (lhs.index() > rhs.index()) return false;
  return variant::visit_value_at(lhs.index(), less_equal{}, lhs, rhs);
#else
  return lhs.valueless_by_exception() ||
         (!rhs.valueless_by_exception() &&
          (lhs.index() < rhs.index() ||
           (lhs.index() == rhs.index() &&
            variant::visit_value_at(lhs.index(), less_equal{}, lhs, rhs))));
#endif
}

template <typename... Ts>
inline constexpr bool operator>=(const variant<Ts...> &lhs,
                                 const variant<Ts...> &rhs) {
  using detail::visitation::variant;
  using greater_equal = detail::convert_to_bool<lib::greater_equal>;
#ifdef MPARK_CPP14_CONSTEXPR
  if (rhs.valueless_by_exception()) return true;
  if (lhs.valueless_by_exception()) return false;
  if (lhs.index() > rhs.index()) return true;
  if (lhs.index() < rhs.index()) return false;
  return variant::visit_value_at(lhs.index(), greater_equal{}, lhs, rhs);
#else
  return rhs.valueless_by_exception() ||
         (!lhs.valueless_by_exception() &&
          (lhs.index() > rhs.index() ||
           (lhs.index() == rhs.index() &&
            variant::visit_value_at(lhs.index(), greater_equal{}, lhs, rhs))));
#endif
}

struct monostate {};

inline constexpr bool operator<(monostate, monostate) noexcept { return false; }

inline constexpr bool operator>(monostate, monostate) noexcept { return false; }

inline constexpr bool operator<=(monostate, monostate) noexcept { return true; }

inline constexpr bool operator>=(monostate, monostate) noexcept { return true; }

inline constexpr bool operator==(monostate, monostate) noexcept { return true; }

inline constexpr bool operator!=(monostate, monostate) noexcept {
  return false;
}

#ifdef MPARK_CPP14_CONSTEXPR
namespace detail {

inline constexpr bool all(std::initializer_list<bool> bs) {
  for (bool b : bs) {
    if (!b) {
      return false;
    }
  }
  return true;
}

}  // namespace detail

template <typename Visitor, typename... Vs>
inline constexpr decltype(auto) visit(Visitor &&visitor, Vs &&... vs) {
2694 2695
  return (detail::all(
              lib::array<bool, sizeof...(Vs)>{!vs.valueless_by_exception()...})
2696 2697 2698 2699 2700 2701 2702 2703 2704 2705 2706 2707 2708 2709 2710 2711 2712 2713 2714 2715 2716 2717 2718 2719 2720 2721 2722 2723 2724 2725 2726 2727 2728 2729 2730 2731 2732 2733 2734 2735 2736 2737 2738 2739 2740 2741 2742 2743 2744 2745 2746 2747 2748 2749 2750 2751 2752 2753 2754 2755 2756 2757 2758 2759 2760 2761 2762 2763 2764 2765 2766 2767 2768 2769 2770 2771 2772 2773 2774 2775 2776 2777 2778 2779 2780 2781 2782 2783 2784 2785 2786 2787 2788 2789 2790 2791 2792 2793 2794 2795 2796 2797 2798 2799 2800 2801 2802 2803 2804 2805 2806 2807 2808 2809 2810 2811 2812 2813 2814 2815 2816 2817 2818 2819 2820 2821 2822 2823 2824 2825 2826 2827 2828 2829 2830
              ? (void)0
              : throw_bad_variant_access()),
         detail::visitation::variant::visit_value(
             lib::forward<Visitor>(visitor), lib::forward<Vs>(vs)...);
}
#else
namespace detail {

template <std::size_t N>
inline constexpr bool all_impl(const lib::array<bool, N> &bs, std::size_t idx) {
  return idx >= N || (bs[idx] && all_impl(bs, idx + 1));
}

template <std::size_t N>
inline constexpr bool all(const lib::array<bool, N> &bs) {
  return all_impl(bs, 0);
}

}  // namespace detail

template <typename Visitor, typename... Vs>
inline constexpr DECLTYPE_AUTO visit(Visitor &&visitor, Vs &&... vs)
    DECLTYPE_AUTO_RETURN(
        (detail::all(lib::array<bool, sizeof...(Vs)>{
             {!vs.valueless_by_exception()...}})
             ? (void)0
             : throw_bad_variant_access()),
        detail::visitation::variant::visit_value(lib::forward<Visitor>(visitor),
                                                 lib::forward<Vs>(vs)...))
#endif

template <typename... Ts>
inline auto swap(variant<Ts...> &lhs,
                 variant<Ts...> &rhs) noexcept(noexcept(lhs.swap(rhs)))
    -> decltype(lhs.swap(rhs)) {
  lhs.swap(rhs);
}

namespace detail {

template <typename T, typename...>
using enabled_type = T;

namespace hash {

template <typename H, typename K>
constexpr bool meets_requirements() noexcept {
  return std::is_copy_constructible<H>::value &&
         std::is_move_constructible<H>::value &&
         lib::is_invocable_r<std::size_t, H, const K &>::value;
}

template <typename K>
constexpr bool is_enabled() noexcept {
  using H = std::hash<K>;
  return meets_requirements<H, K>() &&
         std::is_default_constructible<H>::value &&
         std::is_copy_assignable<H>::value && std::is_move_assignable<H>::value;
}

}  // namespace hash

}  // namespace detail

#undef AUTO
#undef AUTO_RETURN

#undef AUTO_REFREF
#undef AUTO_REFREF_RETURN

#undef DECLTYPE_AUTO
#undef DECLTYPE_AUTO_RETURN

}  // namespace paddle

namespace std {

template <typename... Ts>
struct hash<paddle::detail::enabled_type<
    paddle::variant<Ts...>,
    paddle::lib::enable_if_t<paddle::lib::all<paddle::detail::hash::is_enabled<
        paddle::lib::remove_const_t<Ts>>()...>::value>>> {
  using argument_type = paddle::variant<Ts...>;
  using result_type = std::size_t;

  inline result_type operator()(const argument_type &v) const {
    using paddle::detail::visitation::variant;
    std::size_t result =
        v.valueless_by_exception()
            ? 299792458  // Random value chosen by the universe upon creation
            : variant::visit_alt(
#ifdef MPARK_GENERIC_LAMBDAS
                  [](const auto &alt) {
                    using alt_type = paddle::lib::decay_t<decltype(alt)>;
                    using value_type = paddle::lib::remove_const_t<
                        typename alt_type::value_type>;
                    return hash<value_type>{}(alt.value);
                  }
#else
                  hasher {}
#endif
                  ,
                  v);
    return hash_combine(result, hash<std::size_t>{}(v.index()));
  }

 private:
#ifndef MPARK_GENERIC_LAMBDAS
  struct hasher {
    template <typename Alt>
    inline std::size_t operator()(const Alt &alt) const {
      using alt_type = paddle::lib::decay_t<Alt>;
      using value_type =
          paddle::lib::remove_const_t<typename alt_type::value_type>;
      return hash<value_type>{}(alt.value);
    }
  };
#endif

  static std::size_t hash_combine(std::size_t lhs, std::size_t rhs) {
    return lhs ^= rhs + 0x9e3779b9 + (lhs << 6) + (lhs >> 2);
  }
};

template <>
struct hash<paddle::monostate> {
  using argument_type = paddle::monostate;
  using result_type = std::size_t;

  inline result_type operator()(const argument_type &) const noexcept {
    return 66740831;  // return a fundamentally attractive random value.
  }
};

}  // namespace std