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dds/external/ranges-v3/include/range/v3/algorithm/equal_range.hpp

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  1. /// \file

  2. // Range v3 library

  3. //

  4. //  Copyright Eric Niebler 2014-present

  5. //  Copyright Casey Carter 2016

  6. //

  7. //  Use, modification and distribution is subject to the

  8. //  Boost Software License, Version 1.0. (See accompanying

  9. //  file LICENSE_1_0.txt or copy at

  10. //  http://www.boost.org/LICENSE_1_0.txt)

  11. //

  12. // Project home: https://github.com/ericniebler/range-v3

  13. //

  14. #ifndef RANGES_V3_ALGORITHM_EQUAL_RANGE_HPP

  15. #define RANGES_V3_ALGORITHM_EQUAL_RANGE_HPP

  16. 

  17. #include <range/v3/range_fwd.hpp>

  18. 

  19. #include <range/v3/algorithm/aux_/equal_range_n.hpp>

  20. #include <range/v3/algorithm/aux_/lower_bound_n.hpp>

  21. #include <range/v3/algorithm/upper_bound.hpp>

  22. #include <range/v3/functional/comparisons.hpp>

  23. #include <range/v3/functional/identity.hpp>

  24. #include <range/v3/functional/invoke.hpp>

  25. #include <range/v3/iterator/operations.hpp>

  26. #include <range/v3/range/access.hpp>

  27. #include <range/v3/range/concepts.hpp>

  28. #include <range/v3/range/traits.hpp>

  29. #include <range/v3/utility/static_const.hpp>

  30. #include <range/v3/view/subrange.hpp>

  31. 

  32. namespace ranges

  33. {

  34.     /// \addtogroup group-algorithms

  35.     /// @{

  36.     RANGES_BEGIN_NIEBLOID(equal_range)

  37. 

  38.         /// \brief function template \c equal_range

  39.         template<typename I,

  40.                  typename S,

  41.                  typename V,

  42.                  typename C = less,

  43.                  typename P = identity>

  44.         auto RANGES_FUN_NIEBLOID(equal_range)(

  45.             I first, S last, V const & val, C pred = C{}, P proj = P{})

  46.             ->CPP_ret(subrange<I>)( //

  47.                 requires forward_iterator<I> && sentinel_for<S, I> &&

  48.                 indirect_strict_weak_order<C, V const *, projected<I, P>>)

  49.         {

  50.             if(RANGES_CONSTEXPR_IF(sized_sentinel_for<S, I>))

  51.             {

  52.                 auto const len = distance(first, last);

  53.                 return aux::equal_range_n(

  54.                     std::move(first), len, val, std::move(pred), std::move(proj));

  55.             }

  56. 

  57.             // Probe exponentially for either end-of-range, an iterator that

  58.             // is past the equal range (i.e., denotes an element greater

  59.             // than val), or is in the equal range (denotes an element equal

  60.             // to val).

  61.             auto dist = iter_difference_t<I>{1};

  62.             while(true)

  63.             {

  64.                 auto mid = first;

  65.                 auto d = advance(mid, dist, last);

  66.                 if(d || mid == last)

  67.                 {

  68.                     // at the end of the input range

  69.                     dist -= d;

  70.                     return aux::equal_range_n(

  71.                         std::move(first), dist, val, std::ref(pred), std::ref(proj));

  72.                 }

  73.                 // if val < *mid, mid is after the target range.

  74.                 auto && v = *mid;

  75.                 auto && pv = invoke(proj, (decltype(v) &&)v);

  76.                 if(invoke(pred, val, pv))

  77.                 {

  78.                     return aux::equal_range_n(

  79.                         std::move(first), dist, val, std::ref(pred), std::ref(proj));

  80.                 }

  81.                 else if(!invoke(pred, pv, val))

  82.                 {

  83.                     // *mid == val: the lower bound is <= mid, and the upper bound is >

  84.                     // mid.

  85.                     return {

  86.                         aux::lower_bound_n(

  87.                             std::move(first), dist, val, std::ref(pred), std::ref(proj)),

  88.                         upper_bound(std::move(mid),

  89.                                     std::move(last),

  90.                                     val,

  91.                                     std::ref(pred),

  92.                                     std::ref(proj))};

  93.                 }

  94.                 // *mid < val, mid is before the target range.

  95.                 first = std::move(mid);

  96.                 ++first;

  97.                 dist *= 2;

  98.             }

  99.         }

  100. 

  101.         /// \overload

  102.         template<typename Rng, typename V, typename C = less, typename P = identity>

  103.         auto RANGES_FUN_NIEBLOID(equal_range)(

  104.             Rng && rng, V const & val, C pred = C{}, P proj = P{}) //

  105.             ->CPP_ret(safe_subrange_t<Rng>)(                       //

  106.                 requires forward_range<Rng> &&

  107.                 indirect_strict_weak_order<C, V const *, projected<iterator_t<Rng>, P>>)

  108.         {

  109.             if(RANGES_CONSTEXPR_IF(sized_range<Rng>))

  110.             {

  111.                 auto const len = distance(rng);

  112.                 return aux::equal_range_n(

  113.                     begin(rng), len, val, std::move(pred), std::move(proj));

  114.             }

  115. 

  116.             return (*this)(begin(rng), end(rng), val, std::move(pred), std::move(proj));

  117.         }

  118. 

  119.     RANGES_END_NIEBLOID(equal_range)

  120. 

  121.     namespace cpp20

  122.     {

  123.         using ranges::equal_range;

  124.     }

  125.     /// @}

  126. } // namespace ranges

  127. 

  128. #endif // include guard