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511 lines
19 KiB
C++
511 lines
19 KiB
C++
/*!
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@file
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Forward declares `boost::hana::optional`.
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@copyright Louis Dionne 2013-2016
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Distributed under the Boost Software License, Version 1.0.
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(See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt)
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*/
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#ifndef BOOST_HANA_FWD_OPTIONAL_HPP
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#define BOOST_HANA_FWD_OPTIONAL_HPP
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#include <boost/hana/config.hpp>
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#include <boost/hana/detail/operators/adl.hpp>
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#include <boost/hana/fwd/core/make.hpp>
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BOOST_HANA_NAMESPACE_BEGIN
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//! @ingroup group-datatypes
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//! Optional value whose optional-ness is known at compile-time.
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//!
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//! An `optional` either contains a value (represented as `just(x)`), or
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//! it is empty (represented as `nothing`). In essence, `hana::optional`
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//! is pretty much like a `boost::optional` or the upcoming `std::optional`,
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//! except for the fact that whether a `hana::optional` is empty or not is
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//! known at compile-time. This can be particularly useful for returning
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//! from a function that might fail, but whose reason for failing is not
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//! important. Of course, whether the function will fail has to be known
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//! at compile-time.
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//!
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//! This is really an important difference between `hana::optional` and
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//! `std::optional`. Unlike `std::optional<T>{}` and `std::optional<T>{x}`
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//! who share the same type (`std::optional<T>`), `hana::just(x)` and
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//! `hana::nothing` do not share the same type, since the state of the
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//! optional has to be known at compile-time. Hence, whether a `hana::just`
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//! or a `hana::nothing` will be returned from a function has to be known
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//! at compile-time for the return type of that function to be computable
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//! by the compiler. This makes `hana::optional` well suited for static
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//! metaprogramming tasks, but very poor for anything dynamic.
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//!
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//!
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//! Interoperation with `type`s
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//! ---------------------------
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//! When a `just` contains an object of type `T` which is a `type`,
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//! it has a nested `::%type` alias equivalent to `T::%type`. `nothing`,
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//! however, never has a nested `::%type` alias. If `t` is a `type`,
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//! this allows `decltype(just(t))` to be seen as a nullary metafunction
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//! equivalent to `decltype(t)`. Along with the `sfinae` function,
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//! this allows `hana::optional` to interact seamlessly with
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//! SFINAE-friendly metafunctions.
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//! Example:
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//! @include example/optional/sfinae_friendly_metafunctions.cpp
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//!
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//!
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//! Modeled concepts
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//! ----------------
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//! 1. `Comparable`\n
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//! Two `optional`s are equal if and only if they are both empty or they
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//! both contain a value and those values are equal.
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//! @include example/optional/comparable.cpp
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//!
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//! 2. `Orderable`\n
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//! Optional values can be ordered by considering the value they are
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//! holding, if any. To handle the case of an empty optional value, we
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//! arbitrarily set `nothing` as being less than any other `just`. Hence,
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//! @code
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//! just(x) < just(y) if and only if x < y
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//! nothing < just(anything)
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//! @endcode
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//! Example:
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//! @include example/optional/orderable.cpp
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//!
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//! 3. `Functor`\n
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//! An optional value can be seen as a list containing either one element
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//! (`just(x)`) or no elements at all (`nothing`). As such, mapping
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//! a function over an optional value is equivalent to applying it to
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//! its value if there is one, and to `nothing` otherwise:
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//! @code
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//! transform(just(x), f) == just(f(x))
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//! transform(nothing, f) == nothing
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//! @endcode
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//! Example:
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//! @include example/optional/functor.cpp
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//!
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//! 4. `Applicative`\n
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//! First, a value can be made optional with `lift<optional_tag>`, which
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//! is equivalent to `just`. Second, one can feed an optional value to an
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//! optional function with `ap`, which will return `just(f(x))` if there
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//! is both a function _and_ a value, and `nothing` otherwise:
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//! @code
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//! ap(just(f), just(x)) == just(f(x))
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//! ap(nothing, just(x)) == nothing
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//! ap(just(f), nothing) == nothing
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//! ap(nothing, nothing) == nothing
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//! @endcode
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//! A simple example:
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//! @include example/optional/applicative.cpp
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//! A more complex example:
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//! @include example/optional/applicative.complex.cpp
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//!
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//! 5. `Monad`\n
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//! The `Monad` model makes it easy to compose actions that might fail.
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//! One can feed an optional value if there is one into a function with
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//! `chain`, which will return `nothing` if there is no value. Finally,
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//! optional-optional values can have their redundant level of optionality
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//! removed with `flatten`. Also note that the `|` operator can be used in
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//! place of the `chain` function.
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//! Example:
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//! @include example/optional/monad.cpp
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//!
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//! 6. `MonadPlus`\n
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//! The `MonadPlus` model allows choosing the first valid value out of
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//! two optional values with `concat`. If both optional values are
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//! `nothing`s, `concat` will return `nothing`.
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//! Example:
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//! @include example/optional/monad_plus.cpp
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//!
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//! 7. `Foldable`\n
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//! Folding an optional value is equivalent to folding a list containing
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//! either no elements (for `nothing`) or `x` (for `just(x)`).
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//! Example:
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//! @include example/optional/foldable.cpp
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//!
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//! 8. `Searchable`\n
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//! Searching an optional value is equivalent to searching a list
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//! containing `x` for `just(x)` and an empty list for `nothing`.
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//! Example:
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//! @include example/optional/searchable.cpp
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#ifdef BOOST_HANA_DOXYGEN_INVOKED
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template <typename ...T>
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struct optional {
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// 5.3.1, Constructors
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//! Default-construct an `optional`. Only exists if the optional
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//! contains a value, and if that value is DefaultConstructible.
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constexpr optional() = default;
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//! Copy-construct an `optional`.
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//! An empty optional may only be copy-constructed from another
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//! empty `optional`, and an `optional` with a value may only be
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//! copy-constructed from another `optional` with a value.
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//! Furthermore, this constructor only exists if the value
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//! held in the `optional` is CopyConstructible.
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optional(optional const&) = default;
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//! Move-construct an `optional`.
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//! An empty optional may only be move-constructed from another
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//! empty `optional`, and an `optional` with a value may only be
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//! move-constructed from another `optional` with a value.
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//! Furthermore, this constructor only exists if the value
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//! held in the `optional` is MoveConstructible.
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optional(optional&&) = default;
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//! Construct an `optional` holding a value of type `T` from another
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//! object of type `T`. The value is copy-constructed.
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constexpr optional(T const& t)
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: value_(t)
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{ }
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//! Construct an `optional` holding a value of type `T` from another
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//! object of type `T`. The value is move-constructed.
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constexpr optional(T&& t)
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: value_(static_cast<T&&>(t))
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{ }
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// 5.3.3, Assignment
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//! Copy-assign an `optional`.
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//! An empty optional may only be copy-assigned from another empty
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//! `optional`, and an `optional` with a value may only be copy-assigned
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//! from another `optional` with a value. Furthermore, this assignment
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//! operator only exists if the value held in the `optional` is
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//! CopyAssignable.
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constexpr optional& operator=(optional const&) = default;
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//! Move-assign an `optional`.
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//! An empty optional may only be move-assigned from another empty
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//! `optional`, and an `optional` with a value may only be move-assigned
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//! from another `optional` with a value. Furthermore, this assignment
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//! operator only exists if the value held in the `optional` is
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//! MoveAssignable.
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constexpr optional& operator=(optional&&) = default;
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// 5.3.5, Observers
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//! Returns a pointer to the contained value, or a `nullptr` if the
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//! `optional` is empty.
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//!
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//!
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//! @note Overloads of this method are provided for both the `const`
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//! and the non-`const` cases.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/value.cpp
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constexpr T* operator->();
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//! Extract the content of an `optional`, or fail at compile-time.
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//!
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//! If `*this` contains a value, that value is returned. Otherwise,
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//! a static assertion is triggered.
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//!
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//! @note
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//! Overloads of this method are provided for the cases where `*this`
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//! is a reference, a rvalue-reference and their `const` counterparts.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/value.cpp
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constexpr T& value();
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//! Equivalent to `value()`, provided for convenience.
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//!
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//! @note
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//! Overloads of this method are provided for the cases where `*this`
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//! is a reference, a rvalue-reference and their `const` counterparts.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/value.cpp
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constexpr T& operator*();
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//! Return the contents of an `optional`, with a fallback result.
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//!
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//! If `*this` contains a value, that value is returned. Otherwise,
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//! the default value provided is returned.
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//!
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//! @note
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//! Overloads of this method are provided for the cases where `*this`
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//! is a reference, a rvalue-reference and their `const` counterparts.
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//!
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//!
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//! @param default_
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//! The default value to return if `*this` does not contain a value.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/value_or.cpp
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template <typename U>
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constexpr decltype(auto) value_or(U&& default_);
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//! Equivalent to `hana::chain`.
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template <typename ...T, typename F>
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friend constexpr auto operator|(optional<T...>, F);
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//! Equivalent to `hana::equal`
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template <typename X, typename Y>
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friend constexpr auto operator==(X&& x, Y&& y);
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//! Equivalent to `hana::not_equal`
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template <typename X, typename Y>
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friend constexpr auto operator!=(X&& x, Y&& y);
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//! Equivalent to `hana::less`
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template <typename X, typename Y>
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friend constexpr auto operator<(X&& x, Y&& y);
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//! Equivalent to `hana::greater`
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template <typename X, typename Y>
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friend constexpr auto operator>(X&& x, Y&& y);
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//! Equivalent to `hana::less_equal`
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template <typename X, typename Y>
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friend constexpr auto operator<=(X&& x, Y&& y);
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//! Equivalent to `hana::greater_equal`
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template <typename X, typename Y>
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friend constexpr auto operator>=(X&& x, Y&& y);
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};
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#else
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template <typename ...T>
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struct optional;
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#endif
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//! Tag representing a `hana::optional`.
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//! @relates hana::optional
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struct optional_tag { };
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//! Create an optional value.
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//! @relates hana::optional
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//!
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//! Specifically, `make<optional_tag>()` is equivalent to `nothing`, and
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//! `make<optional_tag>(x)` is equivalent to `just(x)`. This is provided
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//! for consistency with the other `make<...>` functions.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/make.cpp
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#ifdef BOOST_HANA_DOXYGEN_INVOKED
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template <>
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constexpr auto make<optional_tag> = []([auto&& x]) {
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return optional<std::decay<decltype(x)>::type>{forwarded(x)};
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};
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#endif
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//! Alias to `make<optional_tag>`; provided for convenience.
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//! @relates hana::optional
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/make.cpp
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constexpr auto make_optional = make<optional_tag>;
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//! Create an optional value containing `x`.
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//! @relates hana::optional
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/just.cpp
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#ifdef BOOST_HANA_DOXYGEN_INVOKED
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constexpr auto just = [](auto&& x) {
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return optional<std::decay<decltype(x)>::type>{forwarded(x)};
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};
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#else
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struct make_just_t {
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template <typename T>
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constexpr auto operator()(T&&) const;
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};
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constexpr make_just_t just{};
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#endif
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//! An empty optional value.
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//! @relates hana::optional
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/nothing.cpp
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#ifdef BOOST_HANA_DOXYGEN_INVOKED
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constexpr optional<> nothing{};
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#else
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template <>
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struct optional<> : detail::operators::adl<optional<>> {
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// 5.3.1, Constructors
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constexpr optional() = default;
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constexpr optional(optional const&) = default;
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constexpr optional(optional&&) = default;
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// 5.3.3, Assignment
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constexpr optional& operator=(optional const&) = default;
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constexpr optional& operator=(optional&&) = default;
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// 5.3.5, Observers
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constexpr decltype(nullptr) operator->() const { return nullptr; }
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template <typename ...dummy>
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constexpr auto value() const;
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template <typename ...dummy>
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constexpr auto operator*() const;
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template <typename U>
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constexpr U&& value_or(U&& u) const;
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};
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constexpr optional<> nothing{};
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#endif
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//! Apply a function to the contents of an optional, with a fallback
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//! result.
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//! @relates hana::optional
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//!
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//! Specifically, `maybe` takes a default value, a function and an
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//! optional value. If the optional value is `nothing`, the default
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//! value is returned. Otherwise, the function is applied to the
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//! content of the `just`.
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//!
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//!
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//! @param default_
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//! A default value returned if `m` is `nothing`.
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//!
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//! @param f
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//! A function called as `f(x)` if and only if `m` is an optional value
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//! of the form `just(x)`. In that case, the result returend by `maybe`
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//! is the result of `f`.
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//!
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//! @param m
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//! An optional value.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/maybe.cpp
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#ifdef BOOST_HANA_DOXYGEN_INVOKED
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constexpr auto maybe = [](auto&& default_, auto&& f, auto&& m) -> decltype(auto) {
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if (m is a just(x)) {
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return forwarded(f)(forwarded(x));
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else
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return forwarded(default_);
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}
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};
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#else
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struct maybe_t {
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template <typename Def, typename F, typename T>
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constexpr decltype(auto) operator()(Def&&, F&& f, optional<T> const& m) const
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{ return static_cast<F&&>(f)(m.value_); }
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template <typename Def, typename F, typename T>
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constexpr decltype(auto) operator()(Def&&, F&& f, optional<T>& m) const
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{ return static_cast<F&&>(f)(m.value_); }
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template <typename Def, typename F, typename T>
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constexpr decltype(auto) operator()(Def&&, F&& f, optional<T>&& m) const
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{ return static_cast<F&&>(f)(static_cast<optional<T>&&>(m).value_); }
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template <typename Def, typename F>
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constexpr Def operator()(Def&& def, F&&, optional<> const&) const
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{ return static_cast<Def&&>(def); }
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};
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constexpr maybe_t maybe{};
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#endif
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//! Calls a function if the call expression is well-formed.
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//! @relates hana::optional
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//!
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//! Given a function `f`, `sfinae` returns a new function applying `f`
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//! to its arguments and returning `just` the result if the call is
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//! well-formed, and `nothing` otherwise. In other words, `sfinae(f)(x...)`
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//! is `just(f(x...))` if that expression is well-formed, and `nothing`
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//! otherwise. Note, however, that it is possible for an expression
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//! `f(x...)` to be well-formed as far as SFINAE is concerned, but
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//! trying to actually compile `f(x...)` still fails. In this case,
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//! `sfinae` won't be able to detect it and a hard failure is likely
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//! to happen.
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//!
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//!
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//! @note
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//! The function given to `sfinae` must not return `void`, since
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//! `just(void)` does not make sense. A compilation error is
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//! triggered if the function returns void.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/sfinae.cpp
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#ifdef BOOST_HANA_DOXYGEN_INVOKED
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auto sfinae = [](auto&& f) {
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return [perfect-capture](auto&& ...x) {
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if (decltype(forwarded(f)(forwarded(x)...)) is well-formed)
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return just(forwarded(f)(forwarded(x)...));
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else
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return nothing;
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};
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};
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#else
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struct sfinae_t {
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template <typename F>
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constexpr decltype(auto) operator()(F&& f) const;
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};
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constexpr sfinae_t sfinae{};
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#endif
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//! Return whether an `optional` contains a value.
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//! @relates hana::optional
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//!
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//! Specifically, returns a compile-time true-valued `Logical` if `m` is
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//! of the form `just(x)` for some `x`, and a false-valued one otherwise.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/is_just.cpp
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#ifdef BOOST_HANA_DOXYGEN_INVOKED
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constexpr auto is_just = [](auto const& m) {
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return m is a just(x);
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};
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#else
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struct is_just_t {
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template <typename ...T>
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constexpr auto operator()(optional<T...> const&) const;
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};
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constexpr is_just_t is_just{};
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#endif
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//! Return whether an `optional` is empty.
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//! @relates hana::optional
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//!
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//! Specifically, returns a compile-time true-valued `Logical` if `m` is
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//! a `nothing`, and a false-valued one otherwise.
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//!
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//!
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//! Example
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//! -------
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//! @include example/optional/is_nothing.cpp
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#ifdef BOOST_HANA_DOXYGEN_INVOKED
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constexpr auto is_nothing = [](auto const& m) {
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return m is a nothing;
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};
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#else
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struct is_nothing_t {
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template <typename ...T>
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constexpr auto operator()(optional<T...> const&) const;
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};
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constexpr is_nothing_t is_nothing{};
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#endif
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BOOST_HANA_NAMESPACE_END
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#endif // !BOOST_HANA_FWD_OPTIONAL_HPP
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