/// \file
// Range v3 library
//
// Copyright Eric Niebler 2014-present
//
// Use, modification and distribution is subject to the
// Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at
//
//
#ifndef RANGES_V3_VIEW_COMMON_HPP
#define RANGES_V3_VIEW_COMMON_HPP
#include <type_traits>
#include <range/v3/range_fwd.hpp>
#include <range/v3/iterator/common_iterator.hpp>
#include <range/v3/iterator/concepts.hpp>
#include <range/v3/range/access.hpp>
#include <range/v3/range/concepts.hpp>
#include <range/v3/range/primitives.hpp>
#include <range/v3/range/traits.hpp>
#include <range/v3/utility/static_const.hpp>
#include <range/v3/view/all.hpp>
#include <range/v3/view/interface.hpp>
#include <range/v3/view/view.hpp>
#include <range/v3/detail/prologue.hpp>
namespace ranges
{
/// \addtogroup group-views
/// @{
/// \cond
namespace detail
{
// clang-format off
/// \concept random_access_and_sized_range
/// \brief The \c random_access_and_sized_range concept
template<typename R>
CPP_concept random_access_and_sized_range =
random_access_range<R> && sized_range<R>;
// clang-format on
template<typename R>
using common_view_iterator_t =
meta::if_c<random_access_and_sized_range<R>, iterator_t<R>,
common_iterator_t<iterator_t<R>, sentinel_t<R>>>;
template<typename Rng>
struct is_common_range : meta::bool_<common_range<Rng>>
{};
} // namespace detail
/// \endcond
template<typename Rng, bool = detail::is_common_range<Rng>::value>
struct common_view : view_interface<common_view<Rng>, range_cardinality<Rng>::value>
{
private:
CPP_assert(view_<Rng>);
CPP_assert(!(common_range<Rng> && view_<Rng>));
Rng rng_;
sentinel_t<Rng> end_(std::false_type)
{
return ranges::end(rng_);
}
iterator_t<Rng> end_(std::true_type)
{
return ranges::begin(rng_) + ranges::distance(rng_);
}
template(bool Const = true)(
requires Const AND range<meta::const_if_c<Const, Rng>>)
sentinel_t<meta::const_if_c<Const, Rng>> end_(std::false_type) const
{
return ranges::end(rng_);
}
template(bool Const = true)(
requires Const AND range<meta::const_if_c<Const, Rng>>)
iterator_t<meta::const_if_c<Const, Rng>> end_(std::true_type) const
{
return ranges::begin(rng_) + ranges::distance(rng_);
}
public:
common_view() = default;
explicit common_view(Rng rng)
: rng_(detail::move(rng))
{}
Rng base() const
{
return rng_;
}
detail::common_view_iterator_t<Rng> begin()
{
return detail::common_view_iterator_t<Rng>{ranges::begin(rng_)};
}
detail::common_view_iterator_t<Rng> end()
{
return detail::common_view_iterator_t<Rng>{
end_(meta::bool_<detail::random_access_and_sized_range<Rng>>{})};
}
CPP_auto_member
auto CPP_fun(size)()(
requires sized_range<Rng>)
{
return ranges::size(rng_);
}
template(bool Const = true)(
requires range<meta::const_if_c<Const, Rng>>)
auto begin() const
-> detail::common_view_iterator_t<meta::const_if_c<Const, Rng>>
{
return detail::common_view_iterator_t<meta::const_if_c<Const, Rng>>{
ranges::begin(rng_)};
}
template(bool Const = true)(
requires range<meta::const_if_c<Const, Rng>>)
auto end() const
-> detail::common_view_iterator_t<meta::const_if_c<Const, Rng>>
{
return detail::common_view_iterator_t<meta::const_if_c<Const, Rng>>{
end_(meta::bool_<detail::random_access_and_sized_range<
meta::const_if_c<Const, Rng>>>{})};
}
CPP_auto_member
auto CPP_fun(size)()(const
requires sized_range<Rng const>)
{
return ranges::size(rng_);
}
};
template<typename Rng, bool B>
RANGES_INLINE_VAR constexpr bool enable_borrowed_range<common_view<Rng, B>> = //
enable_borrowed_range<Rng>;
#if RANGES_CXX_DEDUCTION_GUIDES >= RANGES_CXX_DEDUCTION_GUIDES_17
template(typename Rng)(
requires (!common_range<Rng>)) //
common_view(Rng &&)
->common_view<views::all_t<Rng>>;
#endif
template<typename Rng>
struct common_view<Rng, true> : identity_adaptor<Rng>
{
CPP_assert(common_range<Rng>);
using identity_adaptor<Rng>::identity_adaptor;
};
namespace views
{
struct cpp20_common_fn
{
template(typename Rng)(
requires viewable_range<Rng> AND common_range<Rng>)
all_t<Rng> operator()(Rng && rng) const
{
return all(static_cast<Rng &&>(rng));
}
template(typename Rng)(
requires viewable_range<Rng> AND (!common_range<Rng>)) //
common_view<all_t<Rng>> operator()(Rng && rng) const
{
return common_view<all_t<Rng>>{all(static_cast<Rng &&>(rng))};
}
};
struct common_fn
{
template(typename Rng)(
requires viewable_range<Rng>)
common_view<all_t<Rng>> operator()(Rng && rng) const
{
return common_view<all_t<Rng>>{all(static_cast<Rng &&>(rng))};
}
};
/// \relates common_fn
/// \ingroup group-views
RANGES_INLINE_VARIABLE(view_closure<common_fn>, common)
} // namespace views
/// @}
/// \cond
template<typename Rng>
using bounded_view RANGES_DEPRECATED(
"The name bounded_view is deprecated. "
"Please use common_view instead.") = common_view<Rng>;
/// \endcond
namespace views
{
/// \cond
namespace
{
RANGES_DEPRECATED(
"The name views::bounded is deprecated. "
"Please use views::common instead.")
RANGES_INLINE_VAR constexpr auto & bounded = common;
} // namespace
template<typename Rng>
using bounded_t RANGES_DEPRECATED("The name views::bounded_t is deprecated.") =
decltype(common(std::declval<Rng>()));
/// \endcond
} // namespace views
namespace cpp20
{
namespace views
{
RANGES_INLINE_VARIABLE(
ranges::views::view_closure<ranges::views::cpp20_common_fn>, common)
}
template(typename Rng)(
requires view_<Rng> && (!common_range<Rng>)) //
using common_view = ranges::common_view<Rng>;
} // namespace cpp20
} // namespace ranges
#include <range/v3/detail/epilogue.hpp>
#include <range/v3/detail/satisfy_boost_range.hpp>
RANGES_SATISFY_BOOST_RANGE(::ranges::common_view)
#endif