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

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  1. /// \file

  2. // Range v3 library

  3. //

  4. //  Copyright Eric Niebler 2014-present

  5. //

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

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

  8. //  file LICENSE_1_0.txt or copy at

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

  10. //

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

  12. //

  13. //===-------------------------- algorithm ---------------------------------===//

  14. //

  15. //                     The LLVM Compiler Infrastructure

  16. //

  17. // This file is dual licensed under the MIT and the University of Illinois Open

  18. // Source Licenses. See LICENSE.TXT for details.

  19. //

  20. //===----------------------------------------------------------------------===//

  21. #ifndef RANGES_V3_ALGORITHM_PERMUTATION_HPP

  22. #define RANGES_V3_ALGORITHM_PERMUTATION_HPP

  23. 

  24. #include <meta/meta.hpp>

  25. 

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

  27. 

  28. #include <range/v3/algorithm/reverse.hpp>

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

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

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

  32. #include <range/v3/iterator/concepts.hpp>

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

  34. #include <range/v3/iterator/traits.hpp>

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

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

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

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

  39. #include <range/v3/utility/swap.hpp>

  40. 

  41. namespace ranges

  42. {

  43.     /// \addtogroup group-algorithms

  44.     /// @{

  45. 

  46.     /// \cond

  47.     namespace detail

  48.     {

  49.         template<typename I1, typename S1, typename I2, typename S2, typename C,

  50.                  typename P1, typename P2>

  51.         bool is_permutation_impl(I1 begin1, S1 end1, I2 begin2, S2 end2, C pred, P1 proj1,

  52.                                  P2 proj2)

  53.         {

  54.             // shorten sequences as much as possible by lopping off any equal parts

  55.             for(; begin1 != end1 && begin2 != end2; ++begin1, ++begin2)

  56.                 if(!invoke(pred, invoke(proj1, *begin1), invoke(proj2, *begin2)))

  57.                     goto not_done;

  58.             return begin1 == end1 && begin2 == end2;

  59.         not_done:

  60.             // begin1 != end1 && begin2 != end2 && *begin1 != *begin2

  61.             auto l1 = distance(begin1, end1);

  62.             auto l2 = distance(begin2, end2);

  63.             if(l1 != l2)

  64.                 return false;

  65. 

  66.             // For each element in [f1, l1) see if there are the same number of

  67.             //    equal elements in [f2, l2)

  68.             for(I1 i = begin1; i != end1; ++i)

  69.             {

  70.                 // Have we already counted the number of *i in [f1, l1)?

  71.                 for(I1 j = begin1; j != i; ++j)

  72.                     if(invoke(pred, invoke(proj1, *j), invoke(proj1, *i)))

  73.                         goto next_iter;

  74.                 {

  75.                     // Count number of *i in [f2, l2)

  76.                     iter_difference_t<I2> c2 = 0;

  77.                     for(I2 j = begin2; j != end2; ++j)

  78.                         if(invoke(pred, invoke(proj1, *i), invoke(proj2, *j)))

  79.                             ++c2;

  80.                     if(c2 == 0)

  81.                         return false;

  82.                     // Count number of *i in [i, l1) (we can start with 1)

  83.                     iter_difference_t<I1> c1 = 1;

  84.                     for(I1 j = next(i); j != end1; ++j)

  85.                         if(invoke(pred, invoke(proj1, *i), invoke(proj1, *j)))

  86.                             ++c1;

  87.                     if(c1 != c2)

  88.                         return false;

  89.                 }

  90.             next_iter:;

  91.             }

  92.             return true;

  93.         }

  94.     } // namespace detail

  95.     /// \endcond

  96. 

  97.     RANGES_BEGIN_NIEBLOID(is_permutation)

  98. 

  99.         /// \brief function template \c is_permutation

  100.         template<typename I1,

  101.                  typename S1,

  102.                  typename I2,

  103.                  typename C = equal_to,

  104.                  typename P1 = identity,

  105.                  typename P2 = identity>

  106.         RANGES_DEPRECATED(

  107.             "Use the variant of ranges::is_permutation that takes an upper bound "

  108.             "for both sequences")

  109.         auto RANGES_FUN_NIEBLOID(is_permutation)(I1 begin1,

  110.                                                  S1 end1,

  111.                                                  I2 begin2,

  112.                                                  C pred = C{},

  113.                                                  P1 proj1 = P1{},

  114.                                                  P2 proj2 = P2{}) //

  115.             ->CPP_ret(bool)(                                      //

  116.                 requires forward_iterator<I1> && sentinel_for<S1, I1> &&

  117.                 forward_iterator<I2> && indirectly_comparable<I1, I2, C, P1, P2>)

  118.         {

  119.             // shorten sequences as much as possible by lopping off any equal parts

  120.             for(; begin1 != end1; ++begin1, ++begin2)

  121.                 if(!invoke(pred, invoke(proj1, *begin1), invoke(proj2, *begin2)))

  122.                     goto not_done;

  123.             return true;

  124.         not_done:

  125.             // begin1 != end1 && *begin1 != *begin2

  126.             auto l1 = distance(begin1, end1);

  127.             if(l1 == 1)

  128.                 return false;

  129.             I2 end2 = next(begin2, l1);

  130.             // For each element in [f1, l1) see if there are the same number of

  131.             //    equal elements in [f2, l2)

  132.             for(I1 i = begin1; i != end1; ++i)

  133.             {

  134.                 // Have we already counted the number of *i in [f1, l1)?

  135.                 for(I1 j = begin1; j != i; ++j)

  136.                     if(invoke(pred, invoke(proj1, *j), invoke(proj1, *i)))

  137.                         goto next_iter;

  138.                 {

  139.                     // Count number of *i in [f2, l2)

  140.                     iter_difference_t<I2> c2 = 0;

  141.                     for(I2 j = begin2; j != end2; ++j)

  142.                         if(invoke(pred, invoke(proj1, *i), invoke(proj2, *j)))

  143.                             ++c2;

  144.                     if(c2 == 0)

  145.                         return false;

  146.                     // Count number of *i in [i, l1) (we can start with 1)

  147.                     iter_difference_t<I1> c1 = 1;

  148.                     for(I1 j = next(i); j != end1; ++j)

  149.                         if(invoke(pred, invoke(proj1, *i), invoke(proj1, *j)))

  150.                             ++c1;

  151.                     if(c1 != c2)

  152.                         return false;

  153.                 }

  154.             next_iter:;

  155.             }

  156.             return true;

  157.         }

  158. 

  159.         /// \overload

  160.         template<typename I1,

  161.                  typename S1,

  162.                  typename I2,

  163.                  typename S2,

  164.                  typename C = equal_to,

  165.                  typename P1 = identity,

  166.                  typename P2 = identity>

  167.         auto RANGES_FUN_NIEBLOID(is_permutation)(I1 begin1,

  168.                                                  S1 end1,

  169.                                                  I2 begin2,

  170.                                                  S2 end2,

  171.                                                  C pred = C{},

  172.                                                  P1 proj1 = P1{},

  173.                                                  P2 proj2 = P2{}) //

  174.             ->CPP_ret(bool)(                                      //

  175.                 requires forward_iterator<I1> && sentinel_for<S1, I1> &&

  176.                 forward_iterator<I2> && sentinel_for<S2, I2> &&

  177.                 indirectly_comparable<I1, I2, C, P1, P2>)

  178.         {

  179.             if(RANGES_CONSTEXPR_IF(sized_sentinel_for<S1, I1> &&

  180.                                    sized_sentinel_for<S2, I2>))

  181.             {

  182.                 RANGES_DIAGNOSTIC_PUSH

  183.                 RANGES_DIAGNOSTIC_IGNORE_DEPRECATED_DECLARATIONS

  184.                 return distance(begin1, end1) == distance(begin2, end2) &&

  185.                        (*this)(std::move(begin1),

  186.                                std::move(end1),

  187.                                std::move(begin2),

  188.                                std::move(pred),

  189.                                std::move(proj1),

  190.                                std::move(proj2));

  191.                 RANGES_DIAGNOSTIC_POP

  192.             }

  193.             return detail::is_permutation_impl(std::move(begin1),

  194.                                                std::move(end1),

  195.                                                std::move(begin2),

  196.                                                std::move(end2),

  197.                                                std::move(pred),

  198.                                                std::move(proj1),

  199.                                                std::move(proj2));

  200.         }

  201. 

  202.         /// \overload

  203.         template<typename Rng1,

  204.                  typename I2Ref,

  205.                  typename C = equal_to,

  206.                  typename P1 = identity,

  207.                  typename P2 = identity>

  208.         RANGES_DEPRECATED(

  209.             "Use the variant of ranges::is_permutation that takes an upper bound "

  210.             "for both sequences")

  211.         auto RANGES_FUN_NIEBLOID(is_permutation)(Rng1 && rng1,

  212.                                                  I2Ref && begin2,

  213.                                                  C pred = C{},

  214.                                                  P1 proj1 = P1{},

  215.                                                  P2 proj2 = P2{}) //

  216.             ->CPP_ret(bool)(                                      //

  217.                 requires forward_range<Rng1> && forward_iterator<uncvref_t<I2Ref>> &&

  218.                 indirectly_comparable<iterator_t<Rng1>, uncvref_t<I2Ref>, C, P1, P2>)

  219.         {

  220.             RANGES_DIAGNOSTIC_PUSH

  221.             RANGES_DIAGNOSTIC_IGNORE_DEPRECATED_DECLARATIONS

  222.             return (*this)(begin(rng1),

  223.                            end(rng1),

  224.                            (I2Ref &&) begin2,

  225.                            std::move(pred),

  226.                            std::move(proj1),

  227.                            std::move(proj2));

  228.             RANGES_DIAGNOSTIC_POP

  229.         }

  230. 

  231.         /// \overload

  232.         template<typename Rng1,

  233.                  typename Rng2,

  234.                  typename C = equal_to,

  235.                  typename P1 = identity,

  236.                  typename P2 = identity>

  237.         auto RANGES_FUN_NIEBLOID(is_permutation)(

  238.             Rng1 && rng1, Rng2 && rng2, C pred = C{}, P1 proj1 = P1{}, P2 proj2 = P2{}) //

  239.             ->CPP_ret(bool)(                                                            //

  240.                 requires forward_range<Rng1> && forward_range<Rng2> &&

  241.                 indirectly_comparable<iterator_t<Rng1>, iterator_t<Rng2>, C, P1, P2>)

  242.         {

  243.             if(RANGES_CONSTEXPR_IF(sized_range<Rng1> && sized_range<Rng2>))

  244.             {

  245.                 RANGES_DIAGNOSTIC_PUSH

  246.                 RANGES_DIAGNOSTIC_IGNORE_DEPRECATED_DECLARATIONS

  247.                 return distance(rng1) == distance(rng2) && (*this)(begin(rng1),

  248.                                                                    end(rng1),

  249.                                                                    begin(rng2),

  250.                                                                    std::move(pred),

  251.                                                                    std::move(proj1),

  252.                                                                    std::move(proj2));

  253.                 RANGES_DIAGNOSTIC_POP

  254.             }

  255.             return detail::is_permutation_impl(begin(rng1),

  256.                                                end(rng1),

  257.                                                begin(rng2),

  258.                                                end(rng2),

  259.                                                std::move(pred),

  260.                                                std::move(proj1),

  261.                                                std::move(proj2));

  262.         }

  263. 

  264.     RANGES_END_NIEBLOID(is_permutation)

  265. 

  266.     RANGES_BEGIN_NIEBLOID(next_permutation)

  267. 

  268.         /// \brief function template \c next_permutation

  269.         template<typename I, typename S, typename C = less, typename P = identity>

  270.         auto RANGES_FUN_NIEBLOID(next_permutation)(

  271.             I first, S end_, C pred = C{}, P proj = P{}) //

  272.             ->CPP_ret(bool)(                             //

  273.                 requires bidirectional_iterator<I> && sentinel_for<S, I> &&

  274.                 sortable<I, C, P>)

  275.         {

  276.             if(first == end_)

  277.                 return false;

  278.             I last = ranges::next(first, end_), i = last;

  279.             if(first == --i)

  280.                 return false;

  281.             while(true)

  282.             {

  283.                 I ip1 = i;

  284.                 if(invoke(pred, invoke(proj, *--i), invoke(proj, *ip1)))

  285.                 {

  286.                     I j = last;

  287.                     while(!invoke(pred, invoke(proj, *i), invoke(proj, *--j)))

  288.                         ;

  289.                     ranges::iter_swap(i, j);

  290.                     ranges::reverse(ip1, last);

  291.                     return true;

  292.                 }

  293.                 if(i == first)

  294.                 {

  295.                     ranges::reverse(first, last);

  296.                     return false;

  297.                 }

  298.             }

  299.         }

  300. 

  301.         /// \overload

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

  303.         auto RANGES_FUN_NIEBLOID(next_permutation)(

  304.             Rng && rng, C pred = C{}, P proj = P{}) //

  305.             ->CPP_ret(bool)(                        //

  306.                 requires bidirectional_range<Rng> && sortable<iterator_t<Rng>, C, P>)

  307.         {

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

  309.         }

  310. 

  311.     RANGES_END_NIEBLOID(next_permutation)

  312. 

  313.     RANGES_BEGIN_NIEBLOID(prev_permutation)

  314. 

  315.         /// \brief function template \c prev_permutation

  316.         template<typename I, typename S, typename C = less, typename P = identity>

  317.         auto RANGES_FUN_NIEBLOID(prev_permutation)(

  318.             I first, S end_, C pred = C{}, P proj = P{}) //

  319.             ->CPP_ret(bool)(                             //

  320.                 requires bidirectional_iterator<I> && sentinel_for<S, I> &&

  321.                 sortable<I, C, P>)

  322.         {

  323.             if(first == end_)

  324.                 return false;

  325.             I last = ranges::next(first, end_), i = last;

  326.             if(first == --i)

  327.                 return false;

  328.             while(true)

  329.             {

  330.                 I ip1 = i;

  331.                 if(invoke(pred, invoke(proj, *ip1), invoke(proj, *--i)))

  332.                 {

  333.                     I j = last;

  334.                     while(!invoke(pred, invoke(proj, *--j), invoke(proj, *i)))

  335.                         ;

  336.                     ranges::iter_swap(i, j);

  337.                     ranges::reverse(ip1, last);

  338.                     return true;

  339.                 }

  340.                 if(i == first)

  341.                 {

  342.                     ranges::reverse(first, last);

  343.                     return false;

  344.                 }

  345.             }

  346.         }

  347. 

  348.         /// \overload

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

  350.         auto RANGES_FUN_NIEBLOID(prev_permutation)(

  351.             Rng && rng, C pred = C{}, P proj = P{}) //

  352.             ->CPP_ret(bool)(                        //

  353.                 requires bidirectional_range<Rng> && sortable<iterator_t<Rng>, C, P>)

  354.         {

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

  356.         }

  357. 

  358.     RANGES_END_NIEBLOID(prev_permutation)

  359. 

  360.     namespace cpp20

  361.     {

  362.         using ranges::is_permutation;

  363.         using ranges::next_permutation;

  364.         using ranges::prev_permutation;

  365.     } // namespace cpp20

  366.     /// @}

  367. } // namespace ranges

  368. 

  369. #endif // include guard