mirror of https://github.com/axmolengine/axmol.git
464 lines
15 KiB
C++
464 lines
15 KiB
C++
/// \file
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// Range v3 library
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//
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// Copyright Eric Niebler 2013-present
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//
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// Use, modification and distribution is subject to the
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// Boost Software License, Version 1.0. (See accompanying
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// file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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//
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// Project home: https://github.com/ericniebler/range-v3
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//
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#ifndef RANGES_V3_VIEW_CHUNK_HPP
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#define RANGES_V3_VIEW_CHUNK_HPP
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#include <limits>
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#include <utility>
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#include <meta/meta.hpp>
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#include <range/v3/range_fwd.hpp>
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#include <range/v3/functional/bind_back.hpp>
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#include <range/v3/iterator/default_sentinel.hpp>
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#include <range/v3/iterator/operations.hpp>
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#include <range/v3/range/access.hpp>
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#include <range/v3/range/concepts.hpp>
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#include <range/v3/range/traits.hpp>
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#include <range/v3/utility/box.hpp>
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#include <range/v3/utility/optional.hpp> // for non_propagating_cache
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#include <range/v3/utility/static_const.hpp>
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#include <range/v3/view/adaptor.hpp>
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#include <range/v3/view/all.hpp>
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#include <range/v3/view/facade.hpp>
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#include <range/v3/view/take.hpp>
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#include <range/v3/view/view.hpp>
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#include <range/v3/detail/prologue.hpp>
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namespace ranges
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{
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/// \cond
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namespace detail
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{
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template<typename Rng, bool Const>
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constexpr bool can_sized_sentinel_() noexcept
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{
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using I = iterator_t<meta::const_if_c<Const, Rng>>;
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return (bool)sized_sentinel_for<I, I>;
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}
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template<typename T>
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struct zero
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{
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zero() = default;
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constexpr explicit zero(T const &) noexcept
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{}
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constexpr zero & operator=(T const &) noexcept
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{
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return *this;
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}
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constexpr zero const & operator=(T const &) const noexcept
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{
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return *this;
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}
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constexpr operator T() const
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{
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return T(0);
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}
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constexpr T exchange(T const &) const
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{
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return T(0);
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}
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};
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} // namespace detail
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/// \endcond
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/// \addtogroup group-views
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/// @{
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template<typename Rng, bool IsForwardRange>
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struct chunk_view_
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: view_adaptor<chunk_view_<Rng, IsForwardRange>, Rng,
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is_finite<Rng>::value ? finite : range_cardinality<Rng>::value>
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{
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private:
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friend range_access;
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CPP_assert(forward_range<Rng>);
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template<bool Const>
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using offset_t =
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meta::if_c<bidirectional_range<meta::const_if_c<Const, Rng>> ||
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detail::can_sized_sentinel_<Rng, Const>(),
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range_difference_t<Rng>, detail::zero<range_difference_t<Rng>>>;
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range_difference_t<Rng> n_ = 0;
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template<bool Const>
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struct RANGES_EMPTY_BASES adaptor
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: adaptor_base
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, private box<offset_t<Const>>
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{
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private:
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friend adaptor<!Const>;
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using CRng = meta::const_if_c<Const, Rng>;
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range_difference_t<CRng> n_;
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sentinel_t<CRng> end_;
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constexpr offset_t<Const> const & offset() const
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{
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offset_t<Const> const & result = this->box<offset_t<Const>>::get();
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RANGES_EXPECT(0 <= result && result < n_);
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return result;
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}
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constexpr offset_t<Const> & offset()
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{
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return const_cast<offset_t<Const> &>(
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const_cast<adaptor const &>(*this).offset());
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}
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public:
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adaptor() = default;
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constexpr adaptor(meta::const_if_c<Const, chunk_view_> * cv)
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: box<offset_t<Const>>{0}
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, n_((RANGES_EXPECT(0 < cv->n_), cv->n_))
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, end_(ranges::end(cv->base()))
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{}
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template(bool Other)(
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requires Const AND CPP_NOT(Other)) //
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constexpr adaptor(adaptor<Other> that)
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: box<offset_t<Const>>(that.offset())
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, n_(that.n_)
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, end_(that.end_)
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{}
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constexpr auto read(iterator_t<CRng> const & it) const
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-> decltype(views::take(make_subrange(it, end_), n_))
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{
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RANGES_EXPECT(it != end_);
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RANGES_EXPECT(0 == offset());
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return views::take(make_subrange(it, end_), n_);
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}
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constexpr void next(iterator_t<CRng> & it)
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{
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RANGES_EXPECT(it != end_);
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RANGES_EXPECT(0 == offset());
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offset() = ranges::advance(it, n_, end_);
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}
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CPP_member
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constexpr auto prev(iterator_t<CRng> & it) //
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-> CPP_ret(void)(
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requires bidirectional_range<CRng>)
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{
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ranges::advance(it, -n_ + offset());
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offset() = 0;
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}
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CPP_member
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constexpr auto distance_to(iterator_t<CRng> const & here,
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iterator_t<CRng> const & there,
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adaptor const & that) const
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-> CPP_ret(range_difference_t<Rng>)(
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requires (detail::can_sized_sentinel_<Rng, Const>()))
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{
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auto const delta = (there - here) + (that.offset() - offset());
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// This can fail for cyclic base ranges when the chunk size does not
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// divide the cycle length. Such iterator pairs are NOT in the domain of
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// -.
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RANGES_ENSURE(0 == delta % n_);
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return delta / n_;
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}
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CPP_member
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constexpr auto advance(iterator_t<CRng> & it, range_difference_t<Rng> n) //
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-> CPP_ret(void)(
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requires random_access_range<CRng>)
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{
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using Limits = std::numeric_limits<range_difference_t<CRng>>;
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if(0 < n)
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{
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RANGES_EXPECT(0 == offset());
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RANGES_EXPECT(n <= Limits::max() / n_);
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auto const remainder = ranges::advance(it, n * n_, end_) % n_;
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RANGES_EXPECT(0 <= remainder && remainder < n_);
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offset() = remainder;
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}
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else if(0 > n)
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{
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RANGES_EXPECT(n >= Limits::min() / n_);
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ranges::advance(it, n * n_ + offset());
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offset() = 0;
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}
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}
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};
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constexpr adaptor<simple_view<Rng>()> begin_adaptor()
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{
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return adaptor<simple_view<Rng>()>{this};
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}
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CPP_member
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constexpr auto begin_adaptor() const //
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-> CPP_ret(adaptor<true>)(
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requires forward_range<Rng const>)
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{
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return adaptor<true>{this};
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}
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template<typename Size>
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constexpr Size size_(Size base_size) const
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{
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auto const n = static_cast<Size>(n_);
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return base_size / n + (0 != (base_size % n));
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}
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public:
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chunk_view_() = default;
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constexpr chunk_view_(Rng rng, range_difference_t<Rng> n)
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: chunk_view_::view_adaptor(detail::move(rng))
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, n_((RANGES_EXPECT(0 < n), n))
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{}
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CPP_auto_member
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constexpr auto CPP_fun(size)()(const
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requires sized_range<Rng const>)
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{
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return size_(ranges::size(this->base()));
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}
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CPP_auto_member
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constexpr auto CPP_fun(size)()(
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requires sized_range<Rng>)
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{
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return size_(ranges::size(this->base()));
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}
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};
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template<typename Rng>
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struct chunk_view_<Rng, false>
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: view_facade<chunk_view_<Rng, false>,
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is_finite<Rng>::value ? finite : range_cardinality<Rng>::value>
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{
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private:
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friend range_access;
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CPP_assert(input_range<Rng> && !forward_range<Rng>);
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using iter_cache_t = detail::non_propagating_cache<iterator_t<Rng>>;
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Rng base_;
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range_difference_t<Rng> n_;
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range_difference_t<Rng> remainder_;
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mutable iter_cache_t it_cache_;
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constexpr iterator_t<Rng> & it() noexcept
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{
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return *it_cache_;
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}
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constexpr iterator_t<Rng> const & it() const noexcept
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{
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return *it_cache_;
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}
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struct outer_cursor
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{
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private:
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struct inner_view : view_facade<inner_view, finite>
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{
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private:
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friend range_access;
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using value_type = range_value_t<Rng>;
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chunk_view_ * rng_ = nullptr;
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constexpr bool done() const noexcept
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{
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RANGES_EXPECT(rng_);
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return rng_->remainder_ == 0;
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}
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constexpr bool equal(default_sentinel_t) const noexcept
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{
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return done();
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}
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constexpr iter_reference_t<iterator_t<Rng>> read() const
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{
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RANGES_EXPECT(!done());
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return *rng_->it();
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}
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constexpr iter_rvalue_reference_t<iterator_t<Rng>> move() const
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{
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RANGES_EXPECT(!done());
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return ranges::iter_move(rng_->it());
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}
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constexpr void next()
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{
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RANGES_EXPECT(!done());
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++rng_->it();
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--rng_->remainder_;
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if(rng_->remainder_ != 0 && rng_->it() == ranges::end(rng_->base_))
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rng_->remainder_ = 0;
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}
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CPP_member
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constexpr auto distance_to(default_sentinel_t) const
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-> CPP_ret(range_difference_t<Rng>)(
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requires sized_sentinel_for<sentinel_t<Rng>, iterator_t<Rng>>)
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{
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RANGES_EXPECT(rng_);
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auto const d = ranges::end(rng_->base_) - rng_->it();
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return ranges::min(d, rng_->remainder_);
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}
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public:
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inner_view() = default;
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constexpr explicit inner_view(chunk_view_ * view) noexcept
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: rng_{view}
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{}
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CPP_auto_member
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constexpr auto CPP_fun(size)()(
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requires sized_sentinel_for<sentinel_t<Rng>, iterator_t<Rng>>)
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{
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using size_type = detail::iter_size_t<iterator_t<Rng>>;
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return static_cast<size_type>(distance_to(default_sentinel_t{}));
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}
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};
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chunk_view_ * rng_ = nullptr;
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public:
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using value_type = inner_view;
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outer_cursor() = default;
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constexpr explicit outer_cursor(chunk_view_ * view) noexcept
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: rng_{view}
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{}
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constexpr inner_view read() const
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{
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RANGES_EXPECT(!done());
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return inner_view{rng_};
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}
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constexpr bool done() const
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{
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RANGES_EXPECT(rng_);
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return rng_->it() == ranges::end(rng_->base_) && rng_->remainder_ != 0;
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}
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constexpr bool equal(default_sentinel_t) const
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{
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return done();
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}
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constexpr void next()
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{
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RANGES_EXPECT(!done());
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ranges::advance(rng_->it(), rng_->remainder_, ranges::end(rng_->base_));
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rng_->remainder_ = rng_->n_;
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}
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CPP_member
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constexpr auto distance_to(default_sentinel_t) const
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-> CPP_ret(range_difference_t<Rng>)(
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requires sized_sentinel_for<sentinel_t<Rng>, iterator_t<Rng>>)
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{
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RANGES_EXPECT(rng_);
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auto d = ranges::end(rng_->base_) - rng_->it();
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if(d < rng_->remainder_)
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return 1;
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d -= rng_->remainder_;
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d = (d + rng_->n_ - 1) / rng_->n_;
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d += (rng_->remainder_ != 0);
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return d;
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}
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};
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constexpr outer_cursor begin_cursor() noexcept
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{
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it_cache_ = ranges::begin(base_);
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return outer_cursor{this};
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}
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template<typename Size>
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constexpr Size size_(Size base_size) const
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{
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auto const n = static_cast<Size>(this->n_);
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return base_size / n + (0 != base_size % n);
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}
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public:
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chunk_view_() = default;
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constexpr chunk_view_(Rng rng, range_difference_t<Rng> n)
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: base_(detail::move(rng))
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, n_((RANGES_EXPECT(0 < n), n))
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, remainder_(n)
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, it_cache_{nullopt}
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{}
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CPP_auto_member
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constexpr auto CPP_fun(size)()(const
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requires sized_range<Rng const>)
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{
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return size_(ranges::size(base_));
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}
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CPP_auto_member
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constexpr auto CPP_fun(size)()(
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requires sized_range<Rng>)
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{
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return size_(ranges::size(base_));
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}
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Rng base() const
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{
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return base_;
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}
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};
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template<typename Rng>
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struct chunk_view : chunk_view_<Rng, (bool)forward_range<Rng>>
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{
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chunk_view() = default;
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constexpr chunk_view(Rng rng, range_difference_t<Rng> n)
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: chunk_view_<Rng, (bool)forward_range<Rng>>(static_cast<Rng &&>(rng), n)
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{}
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};
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// Need to keep extra state for input_range, but forward_range is transparent
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template<typename Rng>
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RANGES_INLINE_VAR constexpr bool enable_borrowed_range<chunk_view<Rng>> =
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enable_borrowed_range<Rng> && forward_range<Rng>;
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#if RANGES_CXX_DEDUCTION_GUIDES >= RANGES_CXX_DEDUCTION_GUIDES_17
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template<typename Rng>
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chunk_view(Rng &&, range_difference_t<Rng>)
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-> chunk_view<views::all_t<Rng>>;
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#endif
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namespace views
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{
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// In: range<T>
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// Out: range<range<T>>, where each inner range has $n$ elements.
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// The last range may have fewer.
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struct chunk_base_fn
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{
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template(typename Rng)(
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requires viewable_range<Rng> AND input_range<Rng>)
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constexpr chunk_view<all_t<Rng>> //
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operator()(Rng && rng, range_difference_t<Rng> n) const
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{
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return {all(static_cast<Rng &&>(rng)), n};
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}
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};
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struct chunk_fn : chunk_base_fn
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{
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using chunk_base_fn::operator();
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template(typename Int)(
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requires detail::integer_like_<Int>)
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constexpr auto operator()(Int n) const
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{
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return make_view_closure(bind_back(chunk_base_fn{}, n));
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}
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};
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/// \relates chunk_fn
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/// \ingroup group-views
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RANGES_INLINE_VARIABLE(chunk_fn, chunk)
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} // namespace views
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/// @}
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} // namespace ranges
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#include <range/v3/detail/epilogue.hpp>
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#include <range/v3/detail/satisfy_boost_range.hpp>
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RANGES_SATISFY_BOOST_RANGE(::ranges::chunk_view)
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#endif
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