libcarla/include/system/boost/sort/common/rearrange.hpp

//----------------------------------------------------------------------------
/// @file rearrange.hpp
/// @brief Indirect algorithm
///
/// @author Copyright (c) 2016 Francisco Jose Tapia (fjtapia@gmail.com )\n
///         Distributed under the Boost Software License, Version 1.0.\n
///         ( See accompanying file LICENSE_1_0.txt or copy at
///           http://www.boost.org/LICENSE_1_0.txt  )
/// @version 0.1
///
/// @remarks
//-----------------------------------------------------------------------------
#ifndef __BOOST_SORT_COMMON_REARRANGE_HPP
#define __BOOST_SORT_COMMON_REARRANGE_HPP

//#include <boost/sort/common/atomic.hpp>
#include <boost/sort/common/util/traits.hpp>
#include <functional>
#include <iterator>
#include <type_traits>
#include <vector>
#include <cassert>

namespace boost
{
namespace sort
{
namespace common
{

template<class Iter_data>
struct filter_iterator
{
    //-----------------------------------------------------------------------
    //                   Variables
    //-----------------------------------------------------------------------
    Iter_data origin;

    //-----------------------------------------------------------------------
    //                   Functions
    //-----------------------------------------------------------------------
    filter_iterator(Iter_data global_first): origin(global_first) { };
    size_t operator ()(Iter_data itx) const
    {
        return size_t(itx - origin);
    }
};

struct filter_pos
{
    size_t operator ()(size_t pos) const {  return pos; };
};

//
//-----------------------------------------------------------------------------
//  function : rearrange
/// @brief This function transform a logical sort of the elements in the index  
///        of iterators in a physical sort. 
//
/// @param global_first : iterator to the first element of the data
/// @param [in] index : vector of the iterators
//-----------------------------------------------------------------------------
template<class Iter_data, class Iter_index, class Filter_pos>
void rearrange(Iter_data global_first, Iter_index itx_first,
               Iter_index itx_last, Filter_pos pos)
{
    //-----------------------------------------------------------------------
    //                    Metaprogramming
    //-----------------------------------------------------------------------
    typedef util::value_iter<Iter_data>     value_data;
    typedef util::value_iter<Iter_index>    value_index;

    //-------------------------------------------------------------------------
    //                     Code
    //-------------------------------------------------------------------------	
    assert((itx_last - itx_first) >= 0);
    size_t pos_dest, pos_src, pos_ini;
    size_t nelem = size_t(itx_last - itx_first);
    Iter_data data = global_first;
    Iter_index index = itx_first;

    pos_ini = 0;
    while (pos_ini < nelem)
    {
        while (pos_ini < nelem and pos(index[pos_ini]) == pos_ini)
            ++pos_ini;
        if (pos_ini == nelem) return;
        pos_dest = pos_src = pos_ini;
        value_data aux = std::move(data[pos_ini]);
        value_index itx_src = std::move(index[pos_ini]);

        while ((pos_src = pos(itx_src)) != pos_ini)
        {
            data[pos_dest] = std::move(data[pos_src]);
            std::swap(itx_src, index[pos_src]);
            pos_dest = pos_src;
        };

        data[pos_dest] = std::move(aux);
        index[pos_ini] = std::move(itx_src);
        ++pos_ini;
    };
};

/*
 //
 //-----------------------------------------------------------------------------
 //  function : rearrange_pos
 /// @brief This function transform a logical sort of the elements in the index  
 ///        of iterators in a physical sort. 
 //
 /// @param global_first : iterator to the first element of the data
 /// @param [in] index : vector of the iterators
 //-----------------------------------------------------------------------------
 template < class Iter_t, class Number >
 void rearrange_pos (Iter_t global_first, std::vector< Number> &index)
 {	
 //-------------------------------------------------------------------------
 //          METAPROGRAMMING AND DEFINITIONS
 //-------------------------------------------------------------------------
 static_assert ( std::is_integral<Number>::value, "Incompatible Types");
 typedef iter_value< Iter_t > value_t;

 //-------------------------------------------------------------------------
 //                     CODE
 //-------------------------------------------------------------------------
 size_t pos_dest = 0;
 size_t pos_src = 0;
 size_t pos_ini = 0;
 size_t nelem = index.size ( );
 Iter_t it_dest (global_first), it_src(global_first);

 while (pos_ini < nelem)
 {
 while (pos_ini < nelem and
 index[pos_ini] == pos_ini)
 {
 ++pos_ini;
 };

 if (pos_ini == nelem) return;
 pos_dest = pos_src = pos_ini;
 it_dest = global_first + pos_dest;
 value_t Aux = std::move (*it_dest);

 while ((pos_src = index[pos_dest]) != pos_ini)
 {
 index[pos_dest] = it_dest - global_first;
 it_src = global_first + pos_src;
 *it_dest = std::move (*it_src);
 it_dest = it_src;
 pos_dest = pos_src;
 };

 *it_dest = std::move (Aux);
 index[pos_dest] = it_dest - global_first;
 ++pos_ini;
 };
 };
 */
//
//****************************************************************************
};//    End namespace common
};//    End namespace sort
};//    End namespace boost
//****************************************************************************
//
#endif
init 2024-10-18 13:19:59 +08:00			`//----------------------------------------------------------------------------`
			`/// @file rearrange.hpp`
			`/// @brief Indirect algorithm`
			`///`
			`/// @author Copyright (c) 2016 Francisco Jose Tapia (fjtapia@gmail.com )\n`
			`/// Distributed under the Boost Software License, Version 1.0.\n`
			`/// ( See accompanying file LICENSE_1_0.txt or copy at`
			`/// http://www.boost.org/LICENSE_1_0.txt )`
			`/// @version 0.1`
			`///`
			`/// @remarks`
			`//-----------------------------------------------------------------------------`
			`#ifndef __BOOST_SORT_COMMON_REARRANGE_HPP`
			`#define __BOOST_SORT_COMMON_REARRANGE_HPP`

			`//#include <boost/sort/common/atomic.hpp>`
			`#include <boost/sort/common/util/traits.hpp>`
			`#include <functional>`
			`#include <iterator>`
			`#include <type_traits>`
			`#include <vector>`
			`#include <cassert>`

			`namespace boost`
			`{`
			`namespace sort`
			`{`
			`namespace common`
			`{`

			`template<class Iter_data>`
			`struct filter_iterator`
			`{`
			`//-----------------------------------------------------------------------`
			`// Variables`
			`//-----------------------------------------------------------------------`
			`Iter_data origin;`

			`//-----------------------------------------------------------------------`
			`// Functions`
			`//-----------------------------------------------------------------------`
			`filter_iterator(Iter_data global_first): origin(global_first) { };`
			`size_t operator ()(Iter_data itx) const`
			`{`
			`return size_t(itx - origin);`
			`}`
			`};`

			`struct filter_pos`
			`{`
			`size_t operator ()(size_t pos) const { return pos; };`
			`};`

			`//`
			`//-----------------------------------------------------------------------------`
			`// function : rearrange`
			`/// @brief This function transform a logical sort of the elements in the index`
			`/// of iterators in a physical sort.`
			`//`
			`/// @param global_first : iterator to the first element of the data`
			`/// @param [in] index : vector of the iterators`
			`//-----------------------------------------------------------------------------`
			`template<class Iter_data, class Iter_index, class Filter_pos>`
			`void rearrange(Iter_data global_first, Iter_index itx_first,`
			`Iter_index itx_last, Filter_pos pos)`
			`{`
			`//-----------------------------------------------------------------------`
			`// Metaprogramming`
			`//-----------------------------------------------------------------------`
			`typedef util::value_iter<Iter_data> value_data;`
			`typedef util::value_iter<Iter_index> value_index;`

			`//-------------------------------------------------------------------------`
			`// Code`
			`//-------------------------------------------------------------------------`
			`assert((itx_last - itx_first) >= 0);`
			`size_t pos_dest, pos_src, pos_ini;`
			`size_t nelem = size_t(itx_last - itx_first);`
			`Iter_data data = global_first;`
			`Iter_index index = itx_first;`

			`pos_ini = 0;`
			`while (pos_ini < nelem)`
			`{`
			`while (pos_ini < nelem and pos(index[pos_ini]) == pos_ini)`
			`++pos_ini;`
			`if (pos_ini == nelem) return;`
			`pos_dest = pos_src = pos_ini;`
			`value_data aux = std::move(data[pos_ini]);`
			`value_index itx_src = std::move(index[pos_ini]);`

			`while ((pos_src = pos(itx_src)) != pos_ini)`
			`{`
			`data[pos_dest] = std::move(data[pos_src]);`
			`std::swap(itx_src, index[pos_src]);`
			`pos_dest = pos_src;`
			`};`

			`data[pos_dest] = std::move(aux);`
			`index[pos_ini] = std::move(itx_src);`
			`++pos_ini;`
			`};`
			`};`

			`/*`
			`//`
			`//-----------------------------------------------------------------------------`
			`// function : rearrange_pos`
			`/// @brief This function transform a logical sort of the elements in the index`
			`/// of iterators in a physical sort.`
			`//`
			`/// @param global_first : iterator to the first element of the data`
			`/// @param [in] index : vector of the iterators`
			`//-----------------------------------------------------------------------------`
			`template < class Iter_t, class Number >`
			`void rearrange_pos (Iter_t global_first, std::vector< Number> &index)`
			`{`
			`//-------------------------------------------------------------------------`
			`// METAPROGRAMMING AND DEFINITIONS`
			`//-------------------------------------------------------------------------`
			`static_assert ( std::is_integral<Number>::value, "Incompatible Types");`
			`typedef iter_value< Iter_t > value_t;`

			`//-------------------------------------------------------------------------`
			`// CODE`
			`//-------------------------------------------------------------------------`
			`size_t pos_dest = 0;`
			`size_t pos_src = 0;`
			`size_t pos_ini = 0;`
			`size_t nelem = index.size ( );`
			`Iter_t it_dest (global_first), it_src(global_first);`

			`while (pos_ini < nelem)`
			`{`
			`while (pos_ini < nelem and`
			`index[pos_ini] == pos_ini)`
			`{`
			`++pos_ini;`
			`};`

			`if (pos_ini == nelem) return;`
			`pos_dest = pos_src = pos_ini;`
			`it_dest = global_first + pos_dest;`
			`value_t Aux = std::move (*it_dest);`

			`while ((pos_src = index[pos_dest]) != pos_ini)`
			`{`
			`index[pos_dest] = it_dest - global_first;`
			`it_src = global_first + pos_src;`
			`it_dest = std::move (it_src);`
			`it_dest = it_src;`
			`pos_dest = pos_src;`
			`};`

			`*it_dest = std::move (Aux);`
			`index[pos_dest] = it_dest - global_first;`
			`++pos_ini;`
			`};`
			`};`
			`*/`
			`//`
			`//****************************************************************************`
			`};// End namespace common`
			`};// End namespace sort`
			`};// End namespace boost`
			`//****************************************************************************`
			`//`
			`#endif`