///
// expected - An implementation of std::expected with extensions
// Written in 2017 by Sy Brand (tartanllama@gmail.com, @TartanLlama)
//
// Documentation available at http://tl.tartanllama.xyz/
//
// To the extent possible under law, the author(s) have dedicated all
// copyright and related and neighboring rights to this software to the
// public domain worldwide. This software is distributed without any warranty.
//
// You should have received a copy of the CC0 Public Domain Dedication
// along with this software. If not, see
// .
///
#ifndef TL_EXPECTED_HPP
#define TL_EXPECTED_HPP
#define TL_EXPECTED_VERSION_MAJOR 1
#define TL_EXPECTED_VERSION_MINOR 1
#define TL_EXPECTED_VERSION_PATCH 0
#include
#include
#include
#include
#if defined(__EXCEPTIONS) || defined(_CPPUNWIND)
#define TL_EXPECTED_EXCEPTIONS_ENABLED
#endif
#if (defined(_MSC_VER) && _MSC_VER == 1900)
#define TL_EXPECTED_MSVC2015
#define TL_EXPECTED_MSVC2015_CONSTEXPR
#else
#define TL_EXPECTED_MSVC2015_CONSTEXPR constexpr
#endif
#if (defined(__GNUC__) && __GNUC__ == 4 && __GNUC_MINOR__ <= 9 && \
!defined(__clang__))
#define TL_EXPECTED_GCC49
#endif
#if (defined(__GNUC__) && __GNUC__ == 5 && __GNUC_MINOR__ <= 4 && \
!defined(__clang__))
#define TL_EXPECTED_GCC54
#endif
#if (defined(__GNUC__) && __GNUC__ == 5 && __GNUC_MINOR__ <= 5 && \
!defined(__clang__))
#define TL_EXPECTED_GCC55
#endif
#if !defined(TL_ASSERT)
//can't have assert in constexpr in C++11 and GCC 4.9 has a compiler bug
#if (__cplusplus > 201103L) && !defined(TL_EXPECTED_GCC49)
#include
#define TL_ASSERT(x) assert(x)
#else
#define TL_ASSERT(x)
#endif
#endif
#if (defined(__GNUC__) && __GNUC__ == 4 && __GNUC_MINOR__ <= 9 && \
!defined(__clang__))
// GCC < 5 doesn't support overloading on const&& for member functions
#define TL_EXPECTED_NO_CONSTRR
// GCC < 5 doesn't support some standard C++11 type traits
#define TL_EXPECTED_IS_TRIVIALLY_COPY_CONSTRUCTIBLE(T) \
std::has_trivial_copy_constructor
#define TL_EXPECTED_IS_TRIVIALLY_COPY_ASSIGNABLE(T) \
std::has_trivial_copy_assign
// This one will be different for GCC 5.7 if it's ever supported
#define TL_EXPECTED_IS_TRIVIALLY_DESTRUCTIBLE(T) \
std::is_trivially_destructible
// GCC 5 < v < 8 has a bug in is_trivially_copy_constructible which breaks
// std::vector for non-copyable types
#elif (defined(__GNUC__) && __GNUC__ < 8 && !defined(__clang__))
#ifndef TL_GCC_LESS_8_TRIVIALLY_COPY_CONSTRUCTIBLE_MUTEX
#define TL_GCC_LESS_8_TRIVIALLY_COPY_CONSTRUCTIBLE_MUTEX
namespace tl {
namespace detail {
template
struct is_trivially_copy_constructible
: std::is_trivially_copy_constructible {};
#ifdef _GLIBCXX_VECTOR
template
struct is_trivially_copy_constructible> : std::false_type {};
#endif
} // namespace detail
} // namespace tl
#endif
#define TL_EXPECTED_IS_TRIVIALLY_COPY_CONSTRUCTIBLE(T) \
tl::detail::is_trivially_copy_constructible
#define TL_EXPECTED_IS_TRIVIALLY_COPY_ASSIGNABLE(T) \
std::is_trivially_copy_assignable
#define TL_EXPECTED_IS_TRIVIALLY_DESTRUCTIBLE(T) \
std::is_trivially_destructible
#else
#define TL_EXPECTED_IS_TRIVIALLY_COPY_CONSTRUCTIBLE(T) \
std::is_trivially_copy_constructible
#define TL_EXPECTED_IS_TRIVIALLY_COPY_ASSIGNABLE(T) \
std::is_trivially_copy_assignable
#define TL_EXPECTED_IS_TRIVIALLY_DESTRUCTIBLE(T) \
std::is_trivially_destructible
#endif
#if __cplusplus > 201103L
#define TL_EXPECTED_CXX14
#endif
#ifdef TL_EXPECTED_GCC49
#define TL_EXPECTED_GCC49_CONSTEXPR
#else
#define TL_EXPECTED_GCC49_CONSTEXPR constexpr
#endif
#if (__cplusplus == 201103L || defined(TL_EXPECTED_MSVC2015) || \
defined(TL_EXPECTED_GCC49))
#define TL_EXPECTED_11_CONSTEXPR
#else
#define TL_EXPECTED_11_CONSTEXPR constexpr
#endif
namespace tl {
template class expected;
#ifndef TL_MONOSTATE_INPLACE_MUTEX
#define TL_MONOSTATE_INPLACE_MUTEX
class monostate {};
struct in_place_t {
explicit in_place_t() = default;
};
static constexpr in_place_t in_place{};
#endif
template class unexpected {
public:
static_assert(!std::is_same::value, "E must not be void");
unexpected() = delete;
constexpr explicit unexpected(const E &e) : m_val(e) {}
constexpr explicit unexpected(E &&e) : m_val(std::move(e)) {}
template ::value>::type * = nullptr>
constexpr explicit unexpected(Args &&...args)
: m_val(std::forward(args)...) {}
template <
class U, class... Args,
typename std::enable_if &, Args &&...>::value>::type * = nullptr>
constexpr explicit unexpected(std::initializer_list l, Args &&...args)
: m_val(l, std::forward(args)...) {}
constexpr const E &value() const & { return m_val; }
TL_EXPECTED_11_CONSTEXPR E &value() & { return m_val; }
TL_EXPECTED_11_CONSTEXPR E &&value() && { return std::move(m_val); }
constexpr const E &&value() const && { return std::move(m_val); }
private:
E m_val;
};
#ifdef __cpp_deduction_guides
template unexpected(E) -> unexpected;
#endif
template
constexpr bool operator==(const unexpected &lhs, const unexpected &rhs) {
return lhs.value() == rhs.value();
}
template
constexpr bool operator!=(const unexpected &lhs, const unexpected &rhs) {
return lhs.value() != rhs.value();
}
template
constexpr bool operator<(const unexpected &lhs, const unexpected &rhs) {
return lhs.value() < rhs.value();
}
template
constexpr bool operator<=(const unexpected &lhs, const unexpected &rhs) {
return lhs.value() <= rhs.value();
}
template
constexpr bool operator>(const unexpected &lhs, const unexpected &rhs) {
return lhs.value() > rhs.value();
}
template
constexpr bool operator>=(const unexpected &lhs, const unexpected &rhs) {
return lhs.value() >= rhs.value();
}
template
unexpected::type> make_unexpected(E &&e) {
return unexpected::type>(std::forward(e));
}
struct unexpect_t {
unexpect_t() = default;
};
static constexpr unexpect_t unexpect{};
namespace detail {
template
[[noreturn]] TL_EXPECTED_11_CONSTEXPR void throw_exception(E &&e) {
#ifdef TL_EXPECTED_EXCEPTIONS_ENABLED
throw std::forward(e);
#else
(void)e;
#ifdef _MSC_VER
__assume(0);
#else
__builtin_unreachable();
#endif
#endif
}
#ifndef TL_TRAITS_MUTEX
#define TL_TRAITS_MUTEX
// C++14-style aliases for brevity
template using remove_const_t = typename std::remove_const::type;
template
using remove_reference_t = typename std::remove_reference::type;
template using decay_t = typename std::decay::type;
template
using enable_if_t = typename std::enable_if::type;
template
using conditional_t = typename std::conditional::type;
// std::conjunction from C++17
template struct conjunction : std::true_type {};
template struct conjunction : B {};
template
struct conjunction
: std::conditional, B>::type {};
#if defined(_LIBCPP_VERSION) && __cplusplus == 201103L
#define TL_TRAITS_LIBCXX_MEM_FN_WORKAROUND
#endif
// In C++11 mode, there's an issue in libc++'s std::mem_fn
// which results in a hard-error when using it in a noexcept expression
// in some cases. This is a check to workaround the common failing case.
#ifdef TL_TRAITS_LIBCXX_MEM_FN_WORKAROUND
template
struct is_pointer_to_non_const_member_func : std::false_type {};
template
struct is_pointer_to_non_const_member_func
: std::true_type {};
template
struct is_pointer_to_non_const_member_func
: std::true_type {};
template
struct is_pointer_to_non_const_member_func
: std::true_type {};
template
struct is_pointer_to_non_const_member_func
: std::true_type {};
template
struct is_pointer_to_non_const_member_func
: std::true_type {};
template
struct is_pointer_to_non_const_member_func
: std::true_type {};
template struct is_const_or_const_ref : std::false_type {};
template struct is_const_or_const_ref : std::true_type {};
template struct is_const_or_const_ref : std::true_type {};
#endif
// std::invoke from C++17
// https://stackoverflow.com/questions/38288042/c11-14-invoke-workaround
template <
typename Fn, typename... Args,
#ifdef TL_TRAITS_LIBCXX_MEM_FN_WORKAROUND
typename = enable_if_t::value &&
is_const_or_const_ref::value)>,
#endif
typename = enable_if_t>::value>, int = 0>
constexpr auto invoke(Fn &&f, Args &&...args) noexcept(
noexcept(std::mem_fn(f)(std::forward(args)...)))
-> decltype(std::mem_fn(f)(std::forward(args)...)) {
return std::mem_fn(f)(std::forward(args)...);
}
template >::value>>
constexpr auto invoke(Fn &&f, Args &&...args) noexcept(
noexcept(std::forward(f)(std::forward(args)...)))
-> decltype(std::forward(f)(std::forward(args)...)) {
return std::forward(f)(std::forward(args)...);
}
// std::invoke_result from C++17
template struct invoke_result_impl;
template
struct invoke_result_impl<
F,
decltype(detail::invoke(std::declval(), std::declval()...), void()),
Us...> {
using type =
decltype(detail::invoke(std::declval(), std::declval()...));
};
template
using invoke_result = invoke_result_impl;
template
using invoke_result_t = typename invoke_result::type;
#if defined(_MSC_VER) && _MSC_VER <= 1900
// TODO make a version which works with MSVC 2015
template struct is_swappable : std::true_type {};
template struct is_nothrow_swappable : std::true_type {};
#else
// https://stackoverflow.com/questions/26744589/what-is-a-proper-way-to-implement-is-swappable-to-test-for-the-swappable-concept
namespace swap_adl_tests {
// if swap ADL finds this then it would call std::swap otherwise (same
// signature)
struct tag {};
template tag swap(T &, T &);
template tag swap(T (&a)[N], T (&b)[N]);
// helper functions to test if an unqualified swap is possible, and if it
// becomes std::swap
template std::false_type can_swap(...) noexcept(false);
template (), std::declval()))>
std::true_type can_swap(int) noexcept(noexcept(swap(std::declval(),
std::declval())));
template std::false_type uses_std(...);
template
std::is_same(), std::declval())), tag>
uses_std(int);
template
struct is_std_swap_noexcept
: std::integral_constant::value &&
std::is_nothrow_move_assignable::value> {};
template
struct is_std_swap_noexcept : is_std_swap_noexcept {};
template
struct is_adl_swap_noexcept
: std::integral_constant(0))> {};
} // namespace swap_adl_tests
template
struct is_swappable
: std::integral_constant<
bool,
decltype(detail::swap_adl_tests::can_swap(0))::value &&
(!decltype(detail::swap_adl_tests::uses_std(0))::value ||
(std::is_move_assignable::value &&
std::is_move_constructible::value))> {};
template
struct is_swappable
: std::integral_constant<
bool,
decltype(detail::swap_adl_tests::can_swap(0))::value &&
(!decltype(detail::swap_adl_tests::uses_std(
0))::value ||
is_swappable::value)> {};
template
struct is_nothrow_swappable
: std::integral_constant<
bool,
is_swappable::value &&
((decltype(detail::swap_adl_tests::uses_std(0))::value &&
detail::swap_adl_tests::is_std_swap_noexcept::value) ||
(!decltype(detail::swap_adl_tests::uses_std(0))::value &&
detail::swap_adl_tests::is_adl_swap_noexcept::value))> {};
#endif
#endif
// Trait for checking if a type is a tl::expected
template struct is_expected_impl : std::false_type {};
template
struct is_expected_impl> : std::true_type {};
template using is_expected = is_expected_impl>;
template
using expected_enable_forward_value = detail::enable_if_t<
std::is_constructible::value &&
!std::is_same, in_place_t>::value &&
!std::is_same, detail::decay_t>::value &&
!std::is_same, detail::decay_t>::value>;
template
using expected_enable_from_other = detail::enable_if_t<
std::is_constructible::value &&
std::is_constructible::value &&
!std::is_constructible &>::value &&
!std::is_constructible &&>::value &&
!std::is_constructible &>::value &&
!std::is_constructible &&>::value &&
!std::is_convertible &, T>::value &&
!std::is_convertible &&, T>::value &&
!std::is_convertible &, T>::value &&
!std::is_convertible &&, T>::value>;
template
using is_void_or = conditional_t::value, std::true_type, U>;
template
using is_copy_constructible_or_void =
is_void_or>;
template
using is_move_constructible_or_void =
is_void_or>;
template
using is_copy_assignable_or_void = is_void_or>;
template
using is_move_assignable_or_void = is_void_or>;
} // namespace detail
namespace detail {
struct no_init_t {};
static constexpr no_init_t no_init{};
// Implements the storage of the values, and ensures that the destructor is
// trivial if it can be.
//
// This specialization is for where neither `T` or `E` is trivially
// destructible, so the destructors must be called on destruction of the
// `expected`
template ::value,
bool = std::is_trivially_destructible::value>
struct expected_storage_base {
constexpr expected_storage_base() : m_val(T{}), m_has_val(true) {}
constexpr expected_storage_base(no_init_t) : m_no_init(), m_has_val(false) {}
template ::value> * =
nullptr>
constexpr expected_storage_base(in_place_t, Args &&...args)
: m_val(std::forward(args)...), m_has_val(true) {}
template &, Args &&...>::value> * = nullptr>
constexpr expected_storage_base(in_place_t, std::initializer_list il,
Args &&...args)
: m_val(il, std::forward(args)...), m_has_val(true) {}
template ::value> * =
nullptr>
constexpr explicit expected_storage_base(unexpect_t, Args &&...args)
: m_unexpect(std::forward(args)...), m_has_val(false) {}
template &, Args &&...>::value> * = nullptr>
constexpr explicit expected_storage_base(unexpect_t,
std::initializer_list il,
Args &&...args)
: m_unexpect(il, std::forward(args)...), m_has_val(false) {}
~expected_storage_base() {
if (m_has_val) {
m_val.~T();
} else {
m_unexpect.~unexpected();
}
}
union {
T m_val;
unexpected m_unexpect;
char m_no_init;
};
bool m_has_val;
};
// This specialization is for when both `T` and `E` are trivially-destructible,
// so the destructor of the `expected` can be trivial.
template struct expected_storage_base {
constexpr expected_storage_base() : m_val(T{}), m_has_val(true) {}
constexpr expected_storage_base(no_init_t) : m_no_init(), m_has_val(false) {}
template ::value> * =
nullptr>
constexpr expected_storage_base(in_place_t, Args &&...args)
: m_val(std::forward(args)...), m_has_val(true) {}
template &, Args &&...>::value> * = nullptr>
constexpr expected_storage_base(in_place_t, std::initializer_list il,
Args &&...args)
: m_val(il, std::forward(args)...), m_has_val(true) {}
template ::value> * =
nullptr>
constexpr explicit expected_storage_base(unexpect_t, Args &&...args)
: m_unexpect(std::forward(args)...), m_has_val(false) {}
template &, Args &&...>::value> * = nullptr>
constexpr explicit expected_storage_base(unexpect_t,
std::initializer_list il,
Args &&...args)
: m_unexpect(il, std::forward(args)...), m_has_val(false) {}
~expected_storage_base() = default;
union {
T m_val;
unexpected m_unexpect;
char m_no_init;
};
bool m_has_val;
};
// T is trivial, E is not.
template struct expected_storage_base {
constexpr expected_storage_base() : m_val(T{}), m_has_val(true) {}
TL_EXPECTED_MSVC2015_CONSTEXPR expected_storage_base(no_init_t)
: m_no_init(), m_has_val(false) {}
template ::value> * =
nullptr>
constexpr expected_storage_base(in_place_t, Args &&...args)
: m_val(std::forward(args)...), m_has_val(true) {}
template &, Args &&...>::value> * = nullptr>
constexpr expected_storage_base(in_place_t, std::initializer_list il,
Args &&...args)
: m_val(il, std::forward(args)...), m_has_val(true) {}
template ::value> * =
nullptr>
constexpr explicit expected_storage_base(unexpect_t, Args &&...args)
: m_unexpect(std::forward(args)...), m_has_val(false) {}
template &, Args &&...>::value> * = nullptr>
constexpr explicit expected_storage_base(unexpect_t,
std::initializer_list il,
Args &&...args)
: m_unexpect(il, std::forward(args)...), m_has_val(false) {}
~expected_storage_base() {
if (!m_has_val) {
m_unexpect.~unexpected();
}
}
union {
T m_val;
unexpected m_unexpect;
char m_no_init;
};
bool m_has_val;
};
// E is trivial, T is not.
template struct expected_storage_base {
constexpr expected_storage_base() : m_val(T{}), m_has_val(true) {}
constexpr expected_storage_base(no_init_t) : m_no_init(), m_has_val(false) {}
template ::value> * =
nullptr>
constexpr expected_storage_base(in_place_t, Args &&...args)
: m_val(std::forward(args)...), m_has_val(true) {}
template &, Args &&...>::value> * = nullptr>
constexpr expected_storage_base(in_place_t, std::initializer_list il,
Args &&...args)
: m_val(il, std::forward(args)...), m_has_val(true) {}
template ::value> * =
nullptr>
constexpr explicit expected_storage_base(unexpect_t, Args &&...args)
: m_unexpect(std::forward(args)...), m_has_val(false) {}
template &, Args &&...>::value> * = nullptr>
constexpr explicit expected_storage_base(unexpect_t,
std::initializer_list il,
Args &&...args)
: m_unexpect(il, std::forward(args)...), m_has_val(false) {}
~expected_storage_base() {
if (m_has_val) {
m_val.~T();
}
}
union {
T m_val;
unexpected m_unexpect;
char m_no_init;
};
bool m_has_val;
};
// `T` is `void`, `E` is trivially-destructible
template struct expected_storage_base {
#if __GNUC__ <= 5
//no constexpr for GCC 4/5 bug
#else
TL_EXPECTED_MSVC2015_CONSTEXPR
#endif
expected_storage_base() : m_has_val(true) {}
constexpr expected_storage_base(no_init_t) : m_val(), m_has_val(false) {}
constexpr expected_storage_base(in_place_t) : m_has_val(true) {}
template ::value> * =
nullptr>
constexpr explicit expected_storage_base(unexpect_t, Args &&...args)
: m_unexpect(std::forward(args)...), m_has_val(false) {}
template &, Args &&...>::value> * = nullptr>
constexpr explicit expected_storage_base(unexpect_t,
std::initializer_list il,
Args &&...args)
: m_unexpect(il, std::forward(args)...), m_has_val(false) {}
~expected_storage_base() = default;
struct dummy {};
union {
unexpected m_unexpect;
dummy m_val;
};
bool m_has_val;
};
// `T` is `void`, `E` is not trivially-destructible
template struct expected_storage_base {
constexpr expected_storage_base() : m_dummy(), m_has_val(true) {}
constexpr expected_storage_base(no_init_t) : m_dummy(), m_has_val(false) {}
constexpr expected_storage_base(in_place_t) : m_dummy(), m_has_val(true) {}
template ::value> * =
nullptr>
constexpr explicit expected_storage_base(unexpect_t, Args &&...args)
: m_unexpect(std::forward(args)...), m_has_val(false) {}
template &, Args &&...>::value> * = nullptr>
constexpr explicit expected_storage_base(unexpect_t,
std::initializer_list il,
Args &&...args)
: m_unexpect(il, std::forward(args)...), m_has_val(false) {}
~expected_storage_base() {
if (!m_has_val) {
m_unexpect.~unexpected();
}
}
union {
unexpected m_unexpect;
char m_dummy;
};
bool m_has_val;
};
// This base class provides some handy member functions which can be used in
// further derived classes
template
struct expected_operations_base : expected_storage_base {
using expected_storage_base::expected_storage_base;
template void construct(Args &&...args) noexcept {
new (std::addressof(this->m_val)) T(std::forward(args)...);
this->m_has_val = true;
}
template