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534 lines
18 KiB
C++
534 lines
18 KiB
C++
// -*- C++ -*-
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// Copyright (C) 2007, 2008, 2009, 2010, 2011 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/random_shuffle.h
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* @brief Parallel implementation of std::random_shuffle().
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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 Johannes Singler.
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#ifndef _GLIBCXX_PARALLEL_RANDOM_SHUFFLE_H
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#define _GLIBCXX_PARALLEL_RANDOM_SHUFFLE_H 1
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#include <limits>
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#include <bits/stl_numeric.h>
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#include <parallel/parallel.h>
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#include <parallel/random_number.h>
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namespace __gnu_parallel
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{
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/** @brief Type to hold the index of a bin.
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*
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* Since many variables of this type are allocated, it should be
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* chosen as small as possible.
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*/
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typedef unsigned short _BinIndex;
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/** @brief Data known to every thread participating in
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__gnu_parallel::__parallel_random_shuffle(). */
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template<typename _RAIter>
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struct _DRandomShufflingGlobalData
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{
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typedef std::iterator_traits<_RAIter> _TraitsType;
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typedef typename _TraitsType::value_type _ValueType;
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typedef typename _TraitsType::difference_type _DifferenceType;
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/** @brief Begin iterator of the __source. */
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_RAIter& _M_source;
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/** @brief Temporary arrays for each thread. */
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_ValueType** _M_temporaries;
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/** @brief Two-dimensional array to hold the thread-bin distribution.
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*
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* Dimensions (_M_num_threads + 1) __x (_M_num_bins + 1). */
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_DifferenceType** _M_dist;
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/** @brief Start indexes of the threads' __chunks. */
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_DifferenceType* _M_starts;
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/** @brief Number of the thread that will further process the
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corresponding bin. */
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_ThreadIndex* _M_bin_proc;
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/** @brief Number of bins to distribute to. */
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int _M_num_bins;
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/** @brief Number of bits needed to address the bins. */
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int _M_num_bits;
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/** @brief Constructor. */
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_DRandomShufflingGlobalData(_RAIter& __source)
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: _M_source(__source) { }
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};
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/** @brief Local data for a thread participating in
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__gnu_parallel::__parallel_random_shuffle().
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*/
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template<typename _RAIter, typename _RandomNumberGenerator>
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struct _DRSSorterPU
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{
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/** @brief Number of threads participating in total. */
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int _M_num_threads;
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/** @brief Begin index for bins taken care of by this thread. */
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_BinIndex _M_bins_begin;
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/** @brief End index for bins taken care of by this thread. */
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_BinIndex __bins_end;
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/** @brief Random _M_seed for this thread. */
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uint32_t _M_seed;
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/** @brief Pointer to global data. */
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_DRandomShufflingGlobalData<_RAIter>* _M_sd;
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};
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/** @brief Generate a random number in @c [0,2^__logp).
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* @param __logp Logarithm (basis 2) of the upper range __bound.
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* @param __rng Random number generator to use.
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*/
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template<typename _RandomNumberGenerator>
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inline int
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__random_number_pow2(int __logp, _RandomNumberGenerator& __rng)
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{ return __rng.__genrand_bits(__logp); }
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/** @brief Random shuffle code executed by each thread.
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* @param __pus Array of thread-local data records. */
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template<typename _RAIter, typename _RandomNumberGenerator>
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void
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__parallel_random_shuffle_drs_pu(_DRSSorterPU<_RAIter,
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_RandomNumberGenerator>* __pus)
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{
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typedef std::iterator_traits<_RAIter> _TraitsType;
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typedef typename _TraitsType::value_type _ValueType;
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typedef typename _TraitsType::difference_type _DifferenceType;
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_ThreadIndex __iam = omp_get_thread_num();
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_DRSSorterPU<_RAIter, _RandomNumberGenerator>* __d = &__pus[__iam];
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_DRandomShufflingGlobalData<_RAIter>* __sd = __d->_M_sd;
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// Indexing: _M_dist[bin][processor]
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_DifferenceType __length = (__sd->_M_starts[__iam + 1]
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- __sd->_M_starts[__iam]);
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_BinIndex* __oracles = new _BinIndex[__length];
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_DifferenceType* __dist = new _DifferenceType[__sd->_M_num_bins + 1];
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_BinIndex* __bin_proc = new _BinIndex[__sd->_M_num_bins];
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_ValueType** __temporaries = new _ValueType*[__d->_M_num_threads];
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// Compute oracles and count appearances.
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for (_BinIndex __b = 0; __b < __sd->_M_num_bins + 1; ++__b)
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__dist[__b] = 0;
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int __num_bits = __sd->_M_num_bits;
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_RandomNumber __rng(__d->_M_seed);
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// First main loop.
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for (_DifferenceType __i = 0; __i < __length; ++__i)
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{
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_BinIndex __oracle = __random_number_pow2(__num_bits, __rng);
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__oracles[__i] = __oracle;
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// To allow prefix (partial) sum.
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++(__dist[__oracle + 1]);
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}
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for (_BinIndex __b = 0; __b < __sd->_M_num_bins + 1; ++__b)
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__sd->_M_dist[__b][__iam + 1] = __dist[__b];
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# pragma omp barrier
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# pragma omp single
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{
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// Sum up bins, __sd->_M_dist[__s + 1][__d->_M_num_threads] now
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// contains the total number of items in bin __s
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for (_BinIndex __s = 0; __s < __sd->_M_num_bins; ++__s)
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__gnu_sequential::partial_sum(__sd->_M_dist[__s + 1],
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__sd->_M_dist[__s + 1]
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+ __d->_M_num_threads + 1,
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__sd->_M_dist[__s + 1]);
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}
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# pragma omp barrier
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_SequenceIndex __offset = 0, __global_offset = 0;
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for (_BinIndex __s = 0; __s < __d->_M_bins_begin; ++__s)
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__global_offset += __sd->_M_dist[__s + 1][__d->_M_num_threads];
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# pragma omp barrier
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for (_BinIndex __s = __d->_M_bins_begin; __s < __d->__bins_end; ++__s)
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{
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for (int __t = 0; __t < __d->_M_num_threads + 1; ++__t)
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__sd->_M_dist[__s + 1][__t] += __offset;
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__offset = __sd->_M_dist[__s + 1][__d->_M_num_threads];
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}
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__sd->_M_temporaries[__iam] = static_cast<_ValueType*>
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(::operator new(sizeof(_ValueType) * __offset));
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# pragma omp barrier
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// Draw local copies to avoid false sharing.
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for (_BinIndex __b = 0; __b < __sd->_M_num_bins + 1; ++__b)
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__dist[__b] = __sd->_M_dist[__b][__iam];
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for (_BinIndex __b = 0; __b < __sd->_M_num_bins; ++__b)
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__bin_proc[__b] = __sd->_M_bin_proc[__b];
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for (_ThreadIndex __t = 0; __t < __d->_M_num_threads; ++__t)
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__temporaries[__t] = __sd->_M_temporaries[__t];
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_RAIter __source = __sd->_M_source;
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_DifferenceType __start = __sd->_M_starts[__iam];
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// Distribute according to oracles, second main loop.
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for (_DifferenceType __i = 0; __i < __length; ++__i)
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{
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_BinIndex __target_bin = __oracles[__i];
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_ThreadIndex __target_p = __bin_proc[__target_bin];
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// Last column [__d->_M_num_threads] stays unchanged.
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::new(&(__temporaries[__target_p][__dist[__target_bin + 1]++]))
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_ValueType(*(__source + __i + __start));
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}
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delete[] __oracles;
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delete[] __dist;
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delete[] __bin_proc;
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delete[] __temporaries;
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# pragma omp barrier
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// Shuffle bins internally.
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for (_BinIndex __b = __d->_M_bins_begin; __b < __d->__bins_end; ++__b)
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{
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_ValueType* __begin =
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(__sd->_M_temporaries[__iam]
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+ (__b == __d->_M_bins_begin
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? 0 : __sd->_M_dist[__b][__d->_M_num_threads])),
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*__end = (__sd->_M_temporaries[__iam]
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+ __sd->_M_dist[__b + 1][__d->_M_num_threads]);
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__sequential_random_shuffle(__begin, __end, __rng);
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std::copy(__begin, __end, __sd->_M_source + __global_offset
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+ (__b == __d->_M_bins_begin
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? 0 : __sd->_M_dist[__b][__d->_M_num_threads]));
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}
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for (_SequenceIndex __i = 0; __i < __offset; ++__i)
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__sd->_M_temporaries[__iam][__i].~_ValueType();
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::operator delete(__sd->_M_temporaries[__iam]);
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}
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/** @brief Round up to the next greater power of 2.
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* @param __x _Integer to round up */
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template<typename _Tp>
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_Tp
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__round_up_to_pow2(_Tp __x)
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{
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if (__x <= 1)
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return 1;
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else
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return (_Tp)1 << (__rd_log2(__x - 1) + 1);
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}
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/** @brief Main parallel random shuffle step.
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* @param __begin Begin iterator of sequence.
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* @param __end End iterator of sequence.
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* @param __n Length of sequence.
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* @param __num_threads Number of threads to use.
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* @param __rng Random number generator to use.
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*/
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template<typename _RAIter, typename _RandomNumberGenerator>
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void
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__parallel_random_shuffle_drs(_RAIter __begin, _RAIter __end,
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typename std::iterator_traits
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<_RAIter>::difference_type __n,
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_ThreadIndex __num_threads,
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_RandomNumberGenerator& __rng)
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{
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typedef std::iterator_traits<_RAIter> _TraitsType;
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typedef typename _TraitsType::value_type _ValueType;
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typedef typename _TraitsType::difference_type _DifferenceType;
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_GLIBCXX_CALL(__n)
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const _Settings& __s = _Settings::get();
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if (__num_threads > __n)
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__num_threads = static_cast<_ThreadIndex>(__n);
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_BinIndex __num_bins, __num_bins_cache;
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#if _GLIBCXX_RANDOM_SHUFFLE_CONSIDER_L1
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// Try the L1 cache first.
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// Must fit into L1.
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__num_bins_cache =
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std::max<_DifferenceType>(1, __n / (__s.L1_cache_size_lb
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/ sizeof(_ValueType)));
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__num_bins_cache = __round_up_to_pow2(__num_bins_cache);
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// No more buckets than TLB entries, power of 2
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// Power of 2 and at least one element per bin, at most the TLB size.
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__num_bins = std::min<_DifferenceType>(__n, __num_bins_cache);
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#if _GLIBCXX_RANDOM_SHUFFLE_CONSIDER_TLB
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// 2 TLB entries needed per bin.
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__num_bins = std::min<_DifferenceType>(__s.TLB_size / 2, __num_bins);
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#endif
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__num_bins = __round_up_to_pow2(__num_bins);
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if (__num_bins < __num_bins_cache)
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{
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#endif
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// Now try the L2 cache
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// Must fit into L2
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__num_bins_cache = static_cast<_BinIndex>
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(std::max<_DifferenceType>(1, __n / (__s.L2_cache_size
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/ sizeof(_ValueType))));
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__num_bins_cache = __round_up_to_pow2(__num_bins_cache);
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// No more buckets than TLB entries, power of 2.
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__num_bins = static_cast<_BinIndex>
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(std::min(__n, static_cast<_DifferenceType>(__num_bins_cache)));
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// Power of 2 and at least one element per bin, at most the TLB size.
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#if _GLIBCXX_RANDOM_SHUFFLE_CONSIDER_TLB
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// 2 TLB entries needed per bin.
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__num_bins = std::min(static_cast<_DifferenceType>(__s.TLB_size / 2),
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__num_bins);
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#endif
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__num_bins = __round_up_to_pow2(__num_bins);
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#if _GLIBCXX_RANDOM_SHUFFLE_CONSIDER_L1
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}
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#endif
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__num_bins = __round_up_to_pow2(
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std::max<_BinIndex>(__num_threads, __num_bins));
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if (__num_threads <= 1)
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{
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_RandomNumber __derived_rng(
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__rng(std::numeric_limits<uint32_t>::max()));
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__sequential_random_shuffle(__begin, __end, __derived_rng);
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return;
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}
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_DRandomShufflingGlobalData<_RAIter> __sd(__begin);
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_DRSSorterPU<_RAIter, _RandomNumber >* __pus;
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_DifferenceType* __starts;
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# pragma omp parallel num_threads(__num_threads)
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{
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_ThreadIndex __num_threads = omp_get_num_threads();
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# pragma omp single
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{
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__pus = new _DRSSorterPU<_RAIter, _RandomNumber>[__num_threads];
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__sd._M_temporaries = new _ValueType*[__num_threads];
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__sd._M_dist = new _DifferenceType*[__num_bins + 1];
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__sd._M_bin_proc = new _ThreadIndex[__num_bins];
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for (_BinIndex __b = 0; __b < __num_bins + 1; ++__b)
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__sd._M_dist[__b] = new _DifferenceType[__num_threads + 1];
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for (_BinIndex __b = 0; __b < (__num_bins + 1); ++__b)
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{
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__sd._M_dist[0][0] = 0;
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__sd._M_dist[__b][0] = 0;
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}
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__starts = __sd._M_starts = new _DifferenceType[__num_threads + 1];
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int __bin_cursor = 0;
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__sd._M_num_bins = __num_bins;
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__sd._M_num_bits = __rd_log2(__num_bins);
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_DifferenceType __chunk_length = __n / __num_threads,
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__split = __n % __num_threads,
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__start = 0;
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_DifferenceType __bin_chunk_length = __num_bins / __num_threads,
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__bin_split = __num_bins % __num_threads;
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for (_ThreadIndex __i = 0; __i < __num_threads; ++__i)
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{
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__starts[__i] = __start;
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__start += (__i < __split
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? (__chunk_length + 1) : __chunk_length);
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int __j = __pus[__i]._M_bins_begin = __bin_cursor;
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// Range of bins for this processor.
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__bin_cursor += (__i < __bin_split
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? (__bin_chunk_length + 1)
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: __bin_chunk_length);
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__pus[__i].__bins_end = __bin_cursor;
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for (; __j < __bin_cursor; ++__j)
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__sd._M_bin_proc[__j] = __i;
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__pus[__i]._M_num_threads = __num_threads;
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__pus[__i]._M_seed = __rng(std::numeric_limits<uint32_t>::max());
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__pus[__i]._M_sd = &__sd;
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}
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__starts[__num_threads] = __start;
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} //single
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// Now shuffle in parallel.
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__parallel_random_shuffle_drs_pu(__pus);
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} // parallel
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delete[] __starts;
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delete[] __sd._M_bin_proc;
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for (int __s = 0; __s < (__num_bins + 1); ++__s)
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delete[] __sd._M_dist[__s];
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delete[] __sd._M_dist;
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delete[] __sd._M_temporaries;
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delete[] __pus;
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}
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/** @brief Sequential cache-efficient random shuffle.
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* @param __begin Begin iterator of sequence.
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* @param __end End iterator of sequence.
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* @param __rng Random number generator to use.
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*/
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template<typename _RAIter, typename _RandomNumberGenerator>
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void
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__sequential_random_shuffle(_RAIter __begin, _RAIter __end,
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_RandomNumberGenerator& __rng)
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{
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typedef std::iterator_traits<_RAIter> _TraitsType;
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typedef typename _TraitsType::value_type _ValueType;
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typedef typename _TraitsType::difference_type _DifferenceType;
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_DifferenceType __n = __end - __begin;
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const _Settings& __s = _Settings::get();
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_BinIndex __num_bins, __num_bins_cache;
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#if _GLIBCXX_RANDOM_SHUFFLE_CONSIDER_L1
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// Try the L1 cache first, must fit into L1.
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__num_bins_cache = std::max<_DifferenceType>
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(1, __n / (__s.L1_cache_size_lb / sizeof(_ValueType)));
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__num_bins_cache = __round_up_to_pow2(__num_bins_cache);
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// No more buckets than TLB entries, power of 2
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// Power of 2 and at least one element per bin, at most the TLB size
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__num_bins = std::min(__n, (_DifferenceType)__num_bins_cache);
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#if _GLIBCXX_RANDOM_SHUFFLE_CONSIDER_TLB
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// 2 TLB entries needed per bin
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__num_bins = std::min((_DifferenceType)__s.TLB_size / 2, __num_bins);
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#endif
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__num_bins = __round_up_to_pow2(__num_bins);
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if (__num_bins < __num_bins_cache)
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{
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#endif
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// Now try the L2 cache, must fit into L2.
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__num_bins_cache = static_cast<_BinIndex>
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(std::max<_DifferenceType>(1, __n / (__s.L2_cache_size
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/ sizeof(_ValueType))));
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__num_bins_cache = __round_up_to_pow2(__num_bins_cache);
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// No more buckets than TLB entries, power of 2
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// Power of 2 and at least one element per bin, at most the TLB size.
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__num_bins = static_cast<_BinIndex>
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(std::min(__n, static_cast<_DifferenceType>(__num_bins_cache)));
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#if _GLIBCXX_RANDOM_SHUFFLE_CONSIDER_TLB
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// 2 TLB entries needed per bin
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__num_bins = std::min<_DifferenceType>(__s.TLB_size / 2, __num_bins);
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#endif
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__num_bins = __round_up_to_pow2(__num_bins);
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#if _GLIBCXX_RANDOM_SHUFFLE_CONSIDER_L1
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}
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#endif
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int __num_bits = __rd_log2(__num_bins);
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if (__num_bins > 1)
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{
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_ValueType* __target =
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static_cast<_ValueType*>(::operator new(sizeof(_ValueType) * __n));
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_BinIndex* __oracles = new _BinIndex[__n];
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_DifferenceType* __dist0 = new _DifferenceType[__num_bins + 1],
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* __dist1 = new _DifferenceType[__num_bins + 1];
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for (int __b = 0; __b < __num_bins + 1; ++__b)
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__dist0[__b] = 0;
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_RandomNumber __bitrng(__rng(0xFFFFFFFF));
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for (_DifferenceType __i = 0; __i < __n; ++__i)
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{
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_BinIndex __oracle = __random_number_pow2(__num_bits, __bitrng);
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__oracles[__i] = __oracle;
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// To allow prefix (partial) sum.
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++(__dist0[__oracle + 1]);
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}
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// Sum up bins.
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__gnu_sequential::partial_sum(__dist0, __dist0 + __num_bins + 1,
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__dist0);
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for (int __b = 0; __b < __num_bins + 1; ++__b)
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__dist1[__b] = __dist0[__b];
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// Distribute according to oracles.
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for (_DifferenceType __i = 0; __i < __n; ++__i)
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::new(&(__target[(__dist0[__oracles[__i]])++]))
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_ValueType(*(__begin + __i));
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for (int __b = 0; __b < __num_bins; ++__b)
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__sequential_random_shuffle(__target + __dist1[__b],
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__target + __dist1[__b + 1], __rng);
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// Copy elements back.
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std::copy(__target, __target + __n, __begin);
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delete[] __dist0;
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delete[] __dist1;
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delete[] __oracles;
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for (_DifferenceType __i = 0; __i < __n; ++__i)
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__target[__i].~_ValueType();
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::operator delete(__target);
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}
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else
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__gnu_sequential::random_shuffle(__begin, __end, __rng);
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}
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/** @brief Parallel random public call.
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* @param __begin Begin iterator of sequence.
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* @param __end End iterator of sequence.
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* @param __rng Random number generator to use.
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*/
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template<typename _RAIter, typename _RandomNumberGenerator>
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inline void
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__parallel_random_shuffle(_RAIter __begin, _RAIter __end,
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_RandomNumberGenerator __rng = _RandomNumber())
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{
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typedef std::iterator_traits<_RAIter> _TraitsType;
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typedef typename _TraitsType::difference_type _DifferenceType;
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_DifferenceType __n = __end - __begin;
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__parallel_random_shuffle_drs(__begin, __end, __n,
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__get_max_threads(), __rng);
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}
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}
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#endif /* _GLIBCXX_PARALLEL_RANDOM_SHUFFLE_H */
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