p0323r5
std::expected

Published Proposal,

This version:
https://wg21.link/P0323r5
Issue Tracking:
Inline In Spec
Authors:
(Nokia)
(Apple)
Audience:
LWG
Project:
ISO JTC1/SC22/WG21: Programming Language C++
Source:
github.com/jfbastien/papers/blob/master/source/P0323r5.bs

Abstract

Utility class to represent expected object: wording and open questions.

This paper revises [P0323r4] by applying feedback obtained from LEWG and EWG. The previous paper contains motivation, design rationale, implementability information, sample usage, history, alternative designs and related types. This update only contains wording and open questions because its purpose is twofold:

1. Wording

Below, substitute the character with a number or name the editor finds appropriate for the sub-section.

1.1. �.� Unexpected objects [unexpected]

1.2. �.�.1 General [unexpected.general]

This subclause describes class template unexpected that represents unexpected objects.

1.3. �.�.2 Header <experimental/unexpected> synopsis [unexpected.synop]

namespace std {
namespace experimental {
inline namespace fundamentals_v3 {
    // �.�.3, Unexpected object type
    template <class E>
      class unexpected;

    // �.�.4, Unexpected equality operators
    template <class E1, class E2>
        constexpr bool
        operator==(const unexpected<E1>&, const unexpected<E2>&);
    template <class E1, class E2>
        constexpr bool
        operator!=(const unexpected<E1>&, const unexpected<E2>&);
        
    // �.�.5,  Specialized algorithms 
    void swap(unexpected& x, unexpected& y) noexcept(noexcept(x.swap(y)));;

}}}

A program that necessitates the instantiation of template unexpected for a non-object type or an object type cv-qualified is ill-formed.

1.4. �.�.3 Unexpected object type [unexpected.object]

template <class E>
class unexpected {
public:
    unexpected() = delete;
    constexpr unexpected(const unexpected&) = default;
    constexpr unexpected(unexpected&&) = default;    
    constexpr unexpected& operator=(const unexpected&) = default;
    constexpr unexpected& operator=(unexpected&&) = default;    
    
    template <class Err>
    constexpr explicit unexpected(Err&&);

    template <class Err>
    constexpr EXPLICIT unexpected(const unexpected<Err>&);
    template <class Err>
    constexpr EXPLICIT unexpected(unexpected<Err>&&);
    
    constexpr const E& value() const& noexcept;
    constexpr E& value() & noexcept;
    constexpr const E&& value() const&& noexcept;
    constexpr E&& value() && noexcept;
private:
    E val; // exposition only
};
template <class Err>
constexpr explicit unexpected(Err&& e);

Effects: Initializes val as if direct-non-list-initializing an object of type E with the expression std::forward<Err>(e).

Remark: This constructor participates in overload resolution if and only if std::is_constructible_v<E, Err&&>

template <class Err>
constexpr EXPLICIT unexpected(const unexpected<Err>& e);

Effects: Initializes val as if direct-non-list-initializing an object of type E with the expression e.val.

Remarks: This constructor participates in overload resolution if and only if std::is_constructible_v<E, Err>. This constructor is explicit if and only if std::is_convertible_v<Err, E> is false.

template <class Err>
constexpr EXPLICIT unexpected(unexpected<Err> && e);

Effects: Initializes val as if direct-non-list-initializing an object of type E with the expression std::move(e.val).

Remarks: This constructor participates in overload resolution if and only if std::is_constructible_v<E, Err&&>. This constructor is explicit if and only if std::is_convertible_v<Err&&, E> is false

constexpr const E& value() const &;
constexpr E& value() &;

Returns: val.

constexpr E&& value() &&;
constexpr E const&& value() const&&;

Returns: std::move(val).

1.5. �.�.4 Unexpected equality operators [unexpected.relational_op]

template <class E, class G>
    constexpr bool operator==(const unexpected<E>& x, const unexpected<G>& y);

Effects: Equivalent to return x.value() == y.value().

template <class E, class G>
    constexpr bool operator!=(const unexpected<E>& x, const unexpected<G>& y);

Effects: Equivalent to return x.value() != y.value().

1.6. �.� Expected objects [expected]

1.7. �.�.1 In general [expected.general]

This subclause describes class template expected that represents expected objects. An expected<T, E> object holds an object of type T or an object of type unexpected<E> and manages the lifetime of the contained object.

1.8. �.�.2 Header <experimental/expected> synopsis [expected.synop]

namespace std {
namespace experimental {
inline namespace fundamentals_v3 {
    // �.�.4, Expected for object types
    template <class T, class E>
        class expected;

    // �.�.5, unexpect tag
    struct unexpect_t {
       explicit unexpect_t() = default;
    };
    inline constexpr unexpect_t unexpect{};

    // �.�.6, class bad_expected_access
    template <class E>
       class bad_expected_access;

    // �.�.7, Specialization for void
    template <>
       class bad_expected_access<void>;

    // �.�.8, Expected equality operators
    template <class T1, class E1, class T2, class E2>
        constexpr bool operator==(const expected<T1, E1>& x, const expected<T2, E2>& y);
    template <class T1, class E1, class T2, class E2>
        constexpr bool operator!=(const expected<T1, E1>& x, const expected<T2, E2>& y);

    // �.�.9, Comparison with T
    template <class T, class E, class U>
      constexpr bool operator==(const expected<T, E>&, const U&);
    template <class U, class T, class E>
      constexpr bool operator==(const U&, const expected<T, E>&);
    template <class T, class E, class U>
      constexpr bool operator!=(const expected<T, E>&, const U&);
    template <class U, class T, class E>
      constexpr bool operator!=(const U&, const expected<T, E>&);
      
    // �.�.10, Comparison with unexpected<E>
    template <class T, class E, class G>
      constexpr bool operator==(const expected<T, E>&, const unexpected<G>&);
    template <class G, class T, class E>
      constexpr bool operator==(const unexpected<G>&, const expected<T, E>&);
    template <class T, class E, class G>
      constexpr bool operator!=(const expected<T, E>&, const unexpected<G>&);
    template <class G, class T, class E>
      constexpr bool operator!=(const unexpected<G>&, const expected<T, E>&);

    // �.�.11, Specialized algorithms
    template <class T, class E>
    void swap(expected<T, E>&, expected<T, E>&) noexcept(see below);

}}}

A program that necessitates the instantiation of template expected<T, E> for a reference type or for possibly cv-qualified types in_place_t, unexpect_t or unexpected<E> for the T parameter or for a reference type E or for possibly cv-qualified void type for the E parameter is ill-formed.

1.9. �.�.3 Definitions [expected.defs]

An instance of expected<T, E> is said to be valued if it contains a object of type T. An instance of expected<T, E> is said to be unexpected if it contains an object of type unexpected<E>.

1.10. �.�.4 expected for object types [expected.object]

template <class T, class E>
class expected {
public:
    using value_type = T;
    using error_type = E;
    using unexpected_type = unexpected<E>;

    template <class U>
    using rebind = expected<U, error_type>;

    // �.�.4.1, constructors
    constexpr expected();
    constexpr expected(const expected&);
    constexpr expected(expected&&) noexcept(see below);
    template <class U, class G>
        EXPLICIT constexpr expected(const expected<U, G>&);
    template <class U, class G>
        EXPLICIT constexpr expected(expected<U, G>&&);

    template <class U = T>
        EXPLICIT constexpr expected(U&& v);

    template <class... Args>
        constexpr explicit expected(in_place_t, Args&&...);
    template <class U, class... Args>
        constexpr explicit expected(in_place_t, initializer_list<U>, Args&&...);
    template <class G = E>
        constexpr expected(const unexpected<G>&);
    template <class G = E>
        constexpr expected(unexpected<G> &&);
    template <class... Args>
        constexpr explicit expected(unexpect_t, Args&&...);
    template <class U, class... Args>
        constexpr explicit expected(unexpect_t, initializer_list<U>, Args&&...);

    // �.�.4.2, destructor
    ~expected();

    // �.�.4.3, assignment
    expected& operator=(const expected&);
    expected& operator=(expected&&) noexcept(see below);
    template <class U = T> expected& operator=(U&&);
    template <class G = E>
        expected& operator=(const unexpected<G>&);
    template <class G = E>
        expected& operator=(unexpected<G>&&);

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

    // �.�.4.4, swap
    void swap(expected&) noexcept(see below);

    // �.�.4.5, observers
    constexpr const T* operator ->() const;
    constexpr T* operator ->();
    constexpr const T& operator *() const&;
    constexpr T& operator *() &;
    constexpr const T&& operator *() const &&;
    constexpr T&& operator *() &&;
    constexpr explicit operator bool() const noexcept;
    constexpr bool has_value() const noexcept;
    constexpr const T& value() const&;
    constexpr T& value() &;
    constexpr const T&& value() const &&;
    constexpr T&& value() &&;
    constexpr const E& error() const&;
    constexpr E& error() &;
    constexpr const E&& error() const &&;
    constexpr E&& error() &&;
    template <class U>
        constexpr T value_or(U&&) const&;
    template <class U>
        constexpr T value_or(U&&) &&;

private:
    bool has_val; // exposition only
    union
    {
        value_type val; // exposition only
        unexpected_type unexpect; // exposition only
    };
};

Any instance of expected<T, E> at any given time either contains a value of type T or a value of type unexpected<E> within their own storage. Implementations are not permitted to use additional storage, such as dynamic memory, to allocate the object of type T or the object of type unexpected<E>. These objects shall be allocated in a region of the expected<T, E> storage suitably aligned for the types T and unexpected<E>. Members has_val, val and unexpect are provided for exposition only. has_val indicates whether the object T has been initialized (and not yet destroyed) or an object of type unexpected<E>has been initialized (and not yet destroyed).

T shall be void or shall be an object type and shall satisfy the requirements of Destructible (Table 27).

E shall be object type and shall satisfy the requirements of Destructible (Table 27).

1.11. �.�.4.1 Constructors [expected.object.ctor]

constexpr expected();

Effects: Value-initializes the contained object as if direct-non-list-initializing an object of type T with the expression T{} (if T is not void).

Postconditions: bool(*this).

Throws: Any exception thrown by the operations specified in the effect clause.

Remarks: If value-initialization of T is a constexpr constructor or T is void this constructor shall be constexpr. This constructor shall be defined as deleted unless is_default_constructible_v<T> or T is void.

constexpr expected(const expected& rhs);

Effects: If bool(rhs), initializes val as if direct-non-list-initializing an object of type T with the expression *rhs (if T is not void).

If !bool(rhs), initializes val as if direct-non-list-initializing an object of type unexpected<E> with the expression unexpected(rhs.error()).

Postconditions: bool(rhs) == bool(*this).

Throws: Any exception thrown by operations specified in the effect clause.

Remarks: This constructor shall be defined as deleted unless is_copy_constructible_v<T> or T is void and is_copy_constructible_v<E>. If is_trivially_copy_constructible_v<T> is true or T is void and is_trivially_copy_constructible_v<E> is true, this constructor shall be a constexpr constructor.

constexpr expected(expected && rhs) noexcept(see below);

Effects: If bool(rhs), initializes val as if direct-non-list-initializing an object of type T with the expression std::move(*rhs) (if T is not void).

If !bool(rhs), initializes val as if direct-non-list-initializing an object of type unexpected<E> with the expression unexpected(std::move(rhs.error())).

bool(rhs) is unchanged.

Postconditions: bool(rhs) == bool(*this).

Throws: Any exception thrown by operations specified in the effect clause.

Remarks: The expression inside noexcept is equivalent to: is_nothrow_move_constructible_v<T> or Tis void and is_nothrow_move_constructible_v<E>. This constructor shall not participate in overload resolution unless is_move_constructible_v<T> and is_move_constructible_v<E>. If is_trivially_move_constructible_v<T> is true or T is void and is_trivially_move_constructible_v<E> is true, this constructor shall be a constexpr constructor.

    template <class U, class G>
    EXPLICIT constexpr expected(const expected<U, G>& rhs);

Effects: If bool(rhs), initializes val as if direct-non-list-initializing an object of type T with the expression *rhs (if T is not void).

If !bool(rhs) initializes unexpect as if direct-non-list-initializing an object of type unexpected<E> with the expression unexpected(rhs.error()).

Postconditions: bool(rhs) == bool(*this).

Throws: Any exception thrown by operations specified in the effect clause.

Remarks: This constructor shall not participate in overload resolution unless: T and U are void or

The constructor is explicit if and only if T is not void and is_convertible_v<U const&, T> is false or is_convertible_v<const G&, E> is false.

template <class U, class G>
    EXPLICIT constexpr expected(expected<U, G>&& rhs);

Effects: If bool(rhs) initializes val as if direct-non-list-initializing an object of type T with the expression std::move(*rhs) or nothing if T is void.

If !bool(rhs), initializes unexpect as if direct-non-list-initializing an object of type unexpected<E> with the expression unexpected(std::move(rhs.error())).

bool(rhs) is unchanged.

Postconditions: bool(rhs) == bool(*this).

Throws: Any exception thrown by operations specified in the effect clause.

Remarks: This constructor shall not participate in overload resolution unless: T and U are void or

The constructor is explicit if and only if is_convertible_v<U, T> is false or is_convertible_v<G, E> is false.

template <class U = T>
    EXPLICIT constexpr expected(U&& v);

Effects: Initializes val as if direct-non-list-initializing an object of type T with the expression std::forward<U>(v).

Postconditions: bool(*this) .

Throws: Any exception thrown by operations specified in the effect clause.

Remarks: If T's selected constructor is a constexpr constructor, this constructor shall be a constexpr constructor. This constructor shall not participate in overload resolution unless T is not void and is_constructible_v<T, U&&> is true, is_same_v<remove_cvref_t<U>, in_place_t> is false, is_same_v<expected<T, E>, remove_cvref_t<U>> is false, and is_same_v<unexpected<E>, remove_cvref_t<U>> is false. The constructor is explicit if and only if is_convertible_v<U&&, T> is false.

template <class... Args>
    constexpr explicit expected(in_place_t, Args&&... args);

Effects: Initializes val as if direct-non-list-initializing an object of type T with the arguments std::forward<Args>(args)... if T is not void.

Postconditions: bool(*this) .

Throws: Any exception thrown by operations specified in the effect clause.

Remarks: If T's constructor selected for the initialization is a constexpr constructor, this constructor shall be a constexpr constructor. This constructor shall not participate in overload resolution unless T is void and sizeof...(Args) == 0 or T is not void and is_constructible_v<T, Args...>.

template <class U, class... Args>
    constexpr explicit expected(in_place_t, initializer_list<U> il, Args&&... args);

Effects: Initializes val as if direct-non-list-initializing an object of type T with the arguments il, std::forward<Args>(args)....

Postconditions: bool(*this) .

Throws: Any exception thrown by the operations specified in the effect clause.

Remarks: If T's constructor selected for the initialization is a constexpr constructor, this constructor shall be a constexpr constructor. This constructor shall not participate in overload resolution unless T is not void and is_constructible_v<T, initializer_list<U>&, Args...>.

template <class G = E>
    EXPLICIT constexpr expected(const unexpected<G>& e);

Effects: Initializes unexpect as if direct-non-list-initializing an object of type unexpected<E> with the expression e.

Postconditions: !bool(*this).

Throws: Any exception thrown by the operations specified in the effect clause.

Remark: If unexpected<E>'s selected constructor is a constexpr constructor, this constructor shall be a constexpr constructor. This constructor shall not participate in overload resolution unless is_constructible_v<E, const G&>. The constructor is explicit if and only if is_convertible_v<const G&, E> is false.

template <class G = E>
    EXPLICIT constexpr expected(unexpected<G>&& e);

Effects: Initializes unexpect as if direct-non-list-initializing an object of type unexpected<E> with the expression std::move(e).

Postconditions: !bool(*this).

Throws: Any exception thrown by the operations specified in the effect clause.

Remark: If unexpected<E>'s selected constructor is a constexpr constructor, this constructor shall be a constexpr constructor. The expression inside noexcept is equivalent to: is_nothrow_constructible_v<E, G&&>. This constructor shall not participate in overload resolution unless is_constructible_v<E, G&&>. The constructor is explicit if and only if is_convertible_v<G&&, E> is false.

template <class... Args>
    constexpr explicit expected(unexpect_t, Args&&... args);

Effects: Initializes unexpect as if direct-non-list-initializing an object of type unexpected<E>with the arguments std::forward<Args>(args)....

Postconditions: !bool(*this).

Throws: Any exception thrown by the operations specified in the effect clause.

Remarks: If unexpected<E>'s constructor selected for the initialization is a constexpr constructor, this constructor shall be a constexpr constructor. This constructor shall not participate in overload resolution unless is_constructible_v<E, Args&&...>.

template <class U, class... Args>
    constexpr explicit expected(unexpect_t, initializer_list<U> il, Args&&... args);

Effects: Initializes unexpect as if direct-non-list-initializing an object of type unexpected<E> with the arguments il, std::forward<Args>(args)....

Postconditions: !bool(*this).

Throws: Any exception thrown by the operations specified in the effect clause.

Remarks: If unexpected<E>'s constructor selected for the initialization is a constexpr constructor, this constructor shall be a constexpr constructor. This constructor shall not participate in overload resolution unless is_constructible_v<E, initializer_list<U>&, Args&&...>.

1.12. �.�.4.2 Destructor [expected.object.dtor]

~expected();

Effects: If T is not void and is_trivially_destructible_v<T> != true and bool(*this), calls val.~T(). If is_trivially_destructible_v<E> != true and !bool(*this), calls unexpect.~unexpected<E>().

Remarks: If T is void or is_trivially_destructible_v<T> is true and is_trivially_destructible_v<E> is true then this destructor shall be a trivial destructor.

1.13. �.�.4.3 Assignment [expected.object.assign]

expected& operator=(const expected& rhs) noexcept(see below);

Effects:

If bool(*this) and bool(rhs),

otherwise if !bool(*this) and !bool(rhs),

otherwise if bool(*this) and !bool(rhs),

otherwise

otherwise

Returns: *this.

Postconditions: bool(rhs) == bool(*this).

Throws: Any exception thrown by the operations specified in the effect clause.

Remarks: If any exception is thrown, bool(*this) and bool(rhs) remain unchanged.

If an exception is thrown during the call to T's or unexpected<E>'s copy constructor, no effect. If an exception is thrown during the call to T's or unexpected<E>'s copy assignment, the state of its contained value is as defined by the exception safety guarantee of T's or unexpected<E>'s copy assignment.

This operator shall be defined as deleted unless

Effects:

If bool(*this) and bool(rhs),

otherwise if !bool(*this) and !bool(rhs),

otherwise if bool(*this) and !bool(rhs),

otherwise !bool(*this) and bool(rhs),

Returns: *this.

Postconditions: bool(rhs) == bool(*this).

Remarks: The expression inside noexcept is equivalent to: is_nothrow_move_assignable_v<T> && is_nothrow_move_constructible_v<T>.

If any exception is thrown, bool(*this) and bool(rhs) remain unchanged. If an exception is thrown during the call to T's copy constructor, no effect. If an exception is thrown during the call to T's copy assignment, the state of its contained value is as defined by the exception safety guarantee of T's copy assignment. If an exception is thrown during the call to E's copy assignment, the state of its contained unexpect is as defined by the exception safety guarantee of E's copy assignment.

This operator shall be defined as deleted unless

or

Effects:

If bool(*this), assigns std::forward<U>(v) to val;

otherwise if is_nothrow_constructible_v<T, U&&>

otherwise

Returns: *this.

Postconditions: bool(*this) .

Remarks: If any exception is thrown, bool(*this) remains unchanged. If an exception is thrown during the call to T's constructor, no effect. If an exception is thrown during the call to T's copy assignment, the state of its contained value is as defined by the exception safety guarantee of T's copy assignment.

This function shall not participate in overload resolution unless:

Effects:

If !bool(*this), assigns unexpected(e.error()) to unexpect;

otherwise

Returns: *this.

Postconditions: !bool(*this).

Remarks: If any exception is thrown, bool(*this) remains unchanged.

This signature shall not participate in overload resolution unless is_nothrow_copy_constructible_v<E> and is_move_assignable_v<E>.

expected<T, E>& operator=(unexpected<G> && e);

Effects:

If !bool(*this), move assign unexpected(e.error()) to unexpect;

otherwise

Returns: *this.

Postconditions: !bool(*this).

Remarks: If any exception is thrown, bool(*this) remains unchanged.

This signature shall not participate in overload resolution unless is_nothrow_move_constructible_v<E> and is_move_assignable_v<E>.

void expected<void,E>::emplace();

Effects:

If !bool(*this)

Postconditions: bool(*this) .

Throws: Nothing

template <class... Args>
    void emplace(Args&&... args);

Effects:

If bool(*this), assigns val as if constructing an object of type T with the arguments std::forward<Args>(args)...

otherwise if is_nothrow_constructible_v<T, Args&&...>

otherwise if is_nothrow_move_constructible_v<T>

otherwise

Postconditions: bool(*this) .

Throws: Any exception thrown by the operations specified in the effect clause.

Remarks: If an exception is thrown during the call to T's assignment, nothing changes.

This signature shall not participate in overload resolution unless is_nothrow_constructible_v<T, Args&&...>.

template <class U, class... Args>
    void emplace(initializer_list<U> il, Args&&... args);

Effects: if bool(*this), assigns val as if constructing an object of type T with the arguments il, std::forward<Args>(args)..., otherwise destroys unexpect by calling unexpect.~unexpected<E>() and initializes val as if constructing an object of type T with the arguments il, std::forward<Args>(args)....

Postconditions: bool(*this) .

Throws: Any exception thrown by the operations specified in the effect clause.

Remarks: If an exception is thrown during the call to T's assignment nothing changes.

The function shall not participate in overload resolution unless: T is not void and is_nothrow_constructible_v<T, initializer_list<U>&, Args&&...>.

1.14. �.�.4.4 Swap [expected.object.swap]

void swap(expected<T, E>& rhs) noexcept(see below);

Check swap Effects.

Effects: if bool(*this) and bool(rhs),

otherwise if !bool(*this) and !bool(rhs),

otherwise if !bool(*this) and bool(rhs),

otherwise

Throws: Any exceptions that the expressions in the Effects clause throw.

Adapt swap Remarks once Effects are good.

Remarks: The expression inside noexcept is equivalent to: is_nothrow_move_constructible_v<T> && noexcept(swap(declval<T&>(), declval<T&>())) && is_nothrow_move_constructible_v<E> && noexcept(swap(declval<E&>(), declval<E&>())). The function shall not participate in overload resolution unless: Lvalues of type T shall be Swappable, Lvalues of type E shall be Swappable and is_move_constructible_v<E> is_move_constructible_v<E> is_move_constructible_v<E> or is_move_constructible_v<T>.

1.15. �.�.4.5 Observers [expected.object.observe]

constexpr const T* operator->() const;
T* operator->();

Requires: bool(*this) .

Returns: addressof(val).

Remarks: Unless T is a user-defined type with overloaded unary operator&, the first operator shall be a constexpr function. The operator shall not participate in overload resolution unless: T is not void.

constexpr const T& operator *() const&;
T& operator *() &;

Requires: bool(*this) .

Returns: val.

Remarks: The first operator shall be a constexpr function. The operator shall not participate in overload resolution unless: T is not void.

constexpr T&& operator *() &&;
constexpr const T&& operator *() const&&;

Requires: bool(*this) .

Returns: std::move(val).

Remarks: This operator shall be a constexpr function. The operator shall not participate in overload resolution unless: T is not void.

constexpr explicit operator bool() noexcept;

Returns: has_val.

Remarks: This operator shall be a constexpr function.

constexpr bool has_value() const noexcept;

Returns: has_val.

Remarks: This function shall be a constexpr function.

constexpr void expected<void, E>::value() const;

Throws: bad_expected_access(error()) if !bool(*this).

constexpr const T& expected::value() const&;
constexpr T& expected::value() &;

Returns: val, if bool(*this) .

Throws: bad_expected_access(error()) if !bool(*this).

Remarks: These functions shall be constexpr functions. The operator shall not participate in overload resolution unless: T is not void.

constexpr T&& expected::value() &&;
constexpr const T&& expected::value() const&&;

Returns: std::move(val), if bool(*this) .

Throws: bad_expected_access(error()) if !bool(*this).

Remarks: These functions shall be constexpr functions. The operator shall not participate in overload resolution unless: T is not void.

constexpr const E& error() const&;
constexpr E& error() &;

Requires: !bool(*this).

Returns: unexpect.value().

Remarks: The first function shall be a constexpr function.

constexpr E&& error() &&;
constexpr const E&& error() const &&;

Requires: !bool(*this).

Returns: std::move(unexpect.value()).

Remarks: The first function shall be a constexpr function.

template <class U>
    constexpr T value_or(U&& v) const&;

Effects: Equivalent to return bool(*this) ? **this : static_cast<T>(std::forward<U>(v));.

Remarks: If is_copy_constructible_v<T> && is_convertible_v<U&&, T> is false the program is ill-formed.

template <class U>
    constexpr T value_or(U&& v) &&;

Effects: Equivalent to return bool(*this) ? std::move(**this) : static_cast<T>(std::forward<U>(v));.

Remarks: If is_move_constructible_v<T> and is_convertible_v<U&&, T> is false the program is ill-formed.

1.16. �.�.5 unexpect tag [expected.unexpect]

struct unexpect_t {
    explicit unexpect_t() = default;
};
inline constexpr unexpect_t unexpect{};

1.17. �.�.6 Template Class bad_expected_access [expected.bad_expected_access]

template <class E>
class bad_expected_access : public bad_expected_access<void> {
public:
    explicit bad_expected_access(E);
    virtual const char* what() const noexcept override;
    E& error() &;
    const E& error() const&;
    E&& error() &&;
    const E&&  error() const&&;
private:
    E val; // exposition only
};

Wondering if we just need an const & overload as we do for system_error.

The template class bad_expected_access defines the type of objects thrown as exceptions to report the situation where an attempt is made to access the value of expected object that contains an unexpected<E>.

bad_expected_access::bad_expected_access(E e);

Effects: Initialize val with e.

Postconditions: what() returns an implementation-defined NTBS.

const E& error() const&;
E& error() &;

Effects: Equivalent to: return val;

E&& error() &&;
const E&& error() const &&;

Effects: Equivalent to: return std::move(val);

virtual const char* what() const noexcept override;

Returns: An implementation-defined NTBS.

1.18. �.�.7 Class bad_expected_access<void> [expected.bad_expected_access_base]

template <>
class bad_expected_access<void> : public exception {
public:
    explicit bad_expected_access();
};

1.19. �.�.8 Expected Equality operators [expected.relational_op]

template <class T1, class E1, class T2, class E2>
    constexpr bool operator==(const expected<T1, E1>& x, const expected<T2, E2>& y);

Requires: The expressions *x == *y and unexpected(x.error()) == unexpected(y.error()) shall be well-formed and its result shall be convertible to bool.

Returns: If bool(x) != bool(y), false; otherwise if bool(x) == false, x.error() == y.error(); otherwise true if T is void or *x == *y otherwise.

Remarks: Specializations of this function template, for which T is void or *x == *y and x.error() == y.error() are core constant expression, shall be constexpr functions.

template <class T1, class E1, class T2, class E2>
    constexpr bool operator!=(const expected<T1, E1>& x, const expected<T2, E2>& y);

Requires: The expressions *x != *y and x.error() != y.error() shall be well-formed and its result shall be convertible to bool.

Returns: If bool(x) != bool(y), true; otherwise if bool(x) == false, x.error() != y.error(); otherwise true if T is void or *x != *y.

Remarks: Specializations of this function template, for which T is void or *x != *y and x.error() != y.error() are core constant expression, shall be constexpr functions.

1.20. �.�.9 Comparison with T [expected.comparison_T]

template <class T, class E, class U> constexpr bool operator==(const expected<T, E>& x, const U& v);
template <class U, class T, class E> constexpr bool operator==(const U& v, const expected<T, E>& x);

Requires: T is not void and the expression *x == v shall be well-formed and its result shall be convertible to bool. [ Note: T need not be EqualityComparable. - end note]

Effects: Equivalent to: return bool(x) ? *x == v : false;.

template <class T, class E, class U> constexpr bool operator!=(const expected<T, E>& x, const U& v);
template <class U, class T, class E> constexpr bool operator!=(const U& v, const expected<T, E>& x);

Requires: T is not void and the expression *x == v shall be well-formed and its result shall be convertible to bool. [ Note: T need not be EqualityComparable. - end note]

Effects: Equivalent to: return bool(x) ? *x != v : false;.

1.21. �.�.10 Comparison with unexpected<E> [expected.comparison_unexpected_E]

template <class T, class E, class G> constexpr bool operator==(const expected<T, E>& x, const unexpected<G>& e);
template <class G, class T, class E> constexpr bool operator==(const unexpected<G>& e, const expected<T, E>& x);

Requires: The expression unexpected(x.error()) == e shall be well-formed and its result shall be convertible to bool.

Effects: Equivalent to: return bool(x) ? false : unexpected(x.error()) == e;.

template <class T, class E, class G> constexpr bool operator!=(const expected<T, E>& x, const unexpected<G>& e);
template <class G, class T, class E> constexpr bool operator!=(const unexpected<G>& e, const expected<T, E>& x);

Requires: The expression unexpected(x.error()) != e shall be well-formed and its result shall be convertible to bool. Effects: Equivalent to: return bool(x) ? true : unexpected(x.error()) != e;.

1.22. �.�.11 Specialized algorithms [expected.specalg]

template <class T, class E>
void swap(expected<T, E>& x, expected<T, E>& y) noexcept(noexcept(x.swap(y)));

Effects: Calls x.swap(y).

Remarks: This function shall not participate in overload resolution unless T is void or is_move_constructible_v<T> is true, is_swappable_v<T> is true and is_move_constructible_v<E> is true and is_swappable_v<E> is true.

2. Open Questions

std::expected is a vocabulary type with an opinionated design and a proven record under varied forms in a multitude of codebases. Its current form has undergone multiple revisions and received substantial feedback, falling roughly in the following categories:

  1. Ergonomics: is this the right way to expose such functionality?

  2. Disappointment: should we expose this in the Standard, given C++'s existing error handling mechanisms?

  3. STL usage: should the Standard Template Library adopt this class, at which pace, and where?

LEWG and EWG have nonetheless reached consensus that a class of this general approach is probably desirable, and the only way to truly answer these questions is to try it out in a TS and ask for explicit feedback from developers. The authors hope that developers will provide new information which they’ll be able to communicate to the Committee.

Here are open questions, and questions which the Committee thinks are settled and which new information can justify revisiting.

2.1. Ergonomics

  1. Name:

    • Is expected the right name?

    • Does it express intent both as a consumer and a producer?

  2. Is E a salient property of expected?

  3. Is expected<void, E> clear on what it expresses as a return type?

  4. Would it make sense for expected to support containing both T and E (in some designs, either one of them being optional), or is this use case better handled by a separate proposal?

  5. Is the order of parameters <T, E> appropriate?

  6. Is usage of expected "viral" in a codebase, or can it be adopted incrementally?

  7. Comparisons:

    • Are == and != useful?

    • Should other comparisons be provided?

    • What usages of expected mandate putting instances in a map, or other such container?

    • Should hash be provided?

    • What usages of expected mandate putting instances in an unordered_map, or other such container?

    • Should expected<T, E> always be comparable if T is comparable, even if E is not comparable?

  8. Error type E:

    • E has no default. Should it?

    • Should expected be specialized for particular E types such as exception_ptr and how?

    • Should expected handle E types with a built-in "success" value any differently and how?

    • expected is not implicitly constructible from an E, even when unambiguous from T, because as a vocabulary type it wants unexpected error construction to be verbose, and require hopping through an unexpected. Is the verbosity extraneous?

  9. Does usage of this class cause a meaningful performance impact compared to using error codes?

  10. The accessor design offers a terse unchecked dereference operator (expected to be used alongside the implicit bool conversion), as well as value() and error() accessors which are checked. Is that a gotcha, or is it similar enough to classes such as optional to be unsurprising?

  11. Is bad_expected_access the right thing to throw?

  12. Should some members be nodiscard?

2.2. Disappointment

C++ already supports exceptions and error codes, expected would be a third kind of error handling.

  1. where does expected work better than either exceptions or error handling?

  2. expected was designed to be particularly well suited to APIs which require their immediate caller to consider an error scenario. Do it succeed in that purpose?

  3. Do codebases successfully compose these three types of error handling?

  4. Is debuggability any harder?

  5. Is it easy to teach C++ as a whole with a third type of error handling?

2.3. STL Usage

  1. Should expected be used in the STL at the same time as it gets standardized?

  2. Where, considering std2 may be a good place to change APIs?

References

Informative References

[P0323r4]
Vicente Botet, JF Bastien. std::expected. URL: https://wg21.link/p0323r4

Issues Index

Check swap Effects.
Adapt swap Remarks once Effects are good.
Wondering if we just need an const & overload as we do for system_error.