180 lines
6.4 KiB
C++
180 lines
6.4 KiB
C++
// -*- C++ -*-
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// Copyright (C) 2007, 2008, 2009 Free Software Foundation, Inc.
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//
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// This file is part of the GNU ISO C++ Library. This library is free
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// software; you can redistribute __it and/or modify __it under the terms
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// of the GNU General Public License as published by the Free Software
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// Foundation; either version 3, or (at your option) any later
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// version.
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// This library is distributed in the hope that __it will be useful, but
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// WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// General Public License for more details.
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// Under Section 7 of GPL version 3, you are granted additional
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// permissions described in the GCC Runtime Library Exception, version
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// 3.1, as published by the Free Software Foundation.
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// You should have received a copy of the GNU General Public License and
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// a copy of the GCC Runtime Library Exception along with this program;
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// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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// <http://www.gnu.org/licenses/>.
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/** @file parallel/list_partition.h
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* @brief _Functionality to split __sequence referenced by only input
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* iterators.
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* This file is a GNU parallel extension to the Standard C++ Library.
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*/
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// Written by Leonor Frias Moya and Johannes Singler.
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#ifndef _GLIBCXX_PARALLEL_LIST_PARTITION_H
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#define _GLIBCXX_PARALLEL_LIST_PARTITION_H 1
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#include <parallel/parallel.h>
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#include <vector>
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namespace __gnu_parallel
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{
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/** @brief Shrinks and doubles the ranges.
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* @param __os_starts Start positions worked on (oversampled).
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* @param __count_to_two Counts up to 2.
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* @param __range_length Current length of a chunk.
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* @param __make_twice Whether the @c __os_starts is allowed to be
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* grown or not
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*/
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template<typename _IIter>
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void
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__shrink_and_double(std::vector<_IIter>& __os_starts,
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size_t& __count_to_two, size_t& __range_length,
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const bool __make_twice)
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{
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++__count_to_two;
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if (!__make_twice || __count_to_two < 2)
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__shrink(__os_starts, __count_to_two, __range_length);
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else
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{
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__os_starts.resize((__os_starts.size() - 1) * 2 + 1);
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__count_to_two = 0;
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}
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}
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/** @brief Combines two ranges into one and thus halves the number of ranges.
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* @param __os_starts Start positions worked on (oversampled).
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* @param __count_to_two Counts up to 2.
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* @param __range_length Current length of a chunk. */
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template<typename _IIter>
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void
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__shrink(std::vector<_IIter>& __os_starts, size_t& __count_to_two,
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size_t& __range_length)
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{
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for (typename std::vector<_IIter>::size_type __i = 0;
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__i <= (__os_starts.size() / 2); ++__i)
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__os_starts[__i] = __os_starts[__i * 2];
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__range_length *= 2;
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}
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/** @brief Splits a sequence given by input iterators into parts of
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* almost equal size
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*
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* The function needs only one pass over the sequence.
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* @param __begin Begin iterator of input sequence.
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* @param __end End iterator of input sequence.
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* @param __starts Start iterators for the resulting parts, dimension
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* @c __num_parts+1. For convenience, @c __starts @c [__num_parts]
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* contains the end iterator of the sequence.
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* @param __lengths Length of the resulting parts.
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* @param __num_parts Number of parts to split the sequence into.
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* @param __f Functor to be applied to each element by traversing __it
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* @param __oversampling Oversampling factor. If 0, then the
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* partitions will differ in at most
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* \sqrt{\mathrm{__end} - \mathrm{__begin}}
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* __elements. Otherwise, the ratio between the
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* longest and the shortest part is bounded by
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* 1/(\mathrm{__oversampling} \cdot \mathrm{num\_parts})
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* @return Length of the whole sequence.
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*/
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template<typename _IIter, typename _FunctorType>
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size_t
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list_partition(const _IIter __begin, const _IIter __end,
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_IIter* __starts, size_t* __lengths, const int __num_parts,
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_FunctorType& __f, int __oversampling = 0)
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{
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bool __make_twice = false;
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// The resizing algorithm is chosen according to the oversampling factor.
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if (__oversampling == 0)
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{
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__make_twice = true;
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__oversampling = 1;
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}
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std::vector<_IIter> __os_starts(2 * __oversampling * __num_parts + 1);
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__os_starts[0] = __begin;
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_IIter __prev = __begin, __it = __begin;
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size_t __dist_limit = 0, __dist = 0;
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size_t __cur = 1, __next = 1;
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size_t __range_length = 1;
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size_t __count_to_two = 0;
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while (__it != __end)
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{
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__cur = __next;
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for (; __cur < __os_starts.size() and __it != __end; ++__cur)
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{
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for (__dist_limit += __range_length;
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__dist < __dist_limit and __it != __end; ++__dist)
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{
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__f(__it);
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++__it;
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}
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__os_starts[__cur] = __it;
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}
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// Must compare for end and not __cur < __os_starts.size() , because
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// __cur could be == __os_starts.size() as well
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if (__it == __end)
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break;
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__shrink_and_double(__os_starts, __count_to_two, __range_length,
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__make_twice);
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__next = __os_starts.size() / 2 + 1;
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}
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// Calculation of the parts (one must be extracted from __current
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// because the partition beginning at end, consists only of
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// itself).
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size_t __size_part = (__cur - 1) / __num_parts;
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int __size_greater = static_cast<int>((__cur - 1) % __num_parts);
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__starts[0] = __os_starts[0];
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size_t __index = 0;
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// Smallest partitions.
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for (int __i = 1; __i < (__num_parts + 1 - __size_greater); ++__i)
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{
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__lengths[__i - 1] = __size_part * __range_length;
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__index += __size_part;
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__starts[__i] = __os_starts[__index];
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}
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// Biggest partitions.
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for (int __i = __num_parts + 1 - __size_greater; __i <= __num_parts;
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++__i)
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{
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__lengths[__i - 1] = (__size_part+1) * __range_length;
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__index += (__size_part+1);
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__starts[__i] = __os_starts[__index];
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}
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// Correction of the end size (the end iteration has not finished).
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__lengths[__num_parts - 1] -= (__dist_limit - __dist);
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return __dist;
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}
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}
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#endif /* _GLIBCXX_PARALLEL_LIST_PARTITION_H */
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