Commit 02ce5abe authored by Allison Vacanti's avatar Allison Vacanti Committed by Kitware Robot
Browse files

Merge topic '238-restore_tbb_parallel_sort'

940fb6f0

 Restore TBB parallel_sort.h patch.
Acked-by: Kitware Robot's avatarKitware Robot <kwrobot@kitware.com>
Acked-by: default avatarRobert Maynard <robert.maynard@kitware.com>
Merge-request: !1257
parents 4aa479b0 940fb6f0
......@@ -38,6 +38,7 @@ if (VTKm_ENABLE_TBB)
endif()
vtkm_declare_headers(ParallelSortTBB.hxx
parallel_sort.h
TESTABLE OFF)
vtkm_declare_headers(${headers} TESTABLE ${VTKm_ENABLE_TBB})
......
/*
Copyright 2005-2013 Intel Corporation. All Rights Reserved.
This file is part of Threading Building Blocks.
Threading Building Blocks is free software; you can redistribute it
and/or modify it under the terms of the GNU General Public License
version 2 as published by the Free Software Foundation.
Threading Building Blocks is distributed in the hope that it will be
useful, but WITHOUT ANY WARRANTY; without even the implied warranty
of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Threading Building Blocks; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
As a special exception, you may use this file as part of a free software
library without restriction. Specifically, if other files instantiate
templates or use macros or inline functions from this file, or you compile
this file and link it with other files to produce an executable, this
file does not by itself cause the resulting executable to be covered by
the GNU General Public License. This exception does not however
invalidate any other reasons why the executable file might be covered by
the GNU General Public License.
*/
#ifndef __TBB_parallel_sort_H
#define __TBB_parallel_sort_H
#include <tbb/blocked_range.h>
#include <tbb/parallel_for.h>
#include <algorithm>
#include <functional>
#include <iterator>
namespace tbb
{
//! @cond INTERNAL
namespace internal
{
//! Range used in quicksort to split elements into subranges based on a value.
/** The split operation selects a splitter and places all elements less than or equal
to the value in the first range and the remaining elements in the second range.
@ingroup algorithms */
template <typename RandomAccessIterator, typename Compare>
class quick_sort_range : private no_assign
{
inline size_t median_of_three(const RandomAccessIterator& array,
size_t l,
size_t m,
size_t r) const
{
return comp(array[l], array[m])
? (comp(array[m], array[r]) ? m : (comp(array[l], array[r]) ? r : l))
: (comp(array[r], array[m]) ? m : (comp(array[r], array[l]) ? r : l));
}
inline size_t pseudo_median_of_nine(const RandomAccessIterator& array,
const quick_sort_range& range) const
{
size_t offset = range.size / 8u;
return median_of_three(array,
median_of_three(array, 0, offset, offset * 2),
median_of_three(array, offset * 3, offset * 4, offset * 5),
median_of_three(array, offset * 6, offset * 7, range.size - 1));
}
public:
static const size_t grainsize = 500;
const Compare& comp;
RandomAccessIterator begin;
size_t size;
quick_sort_range(RandomAccessIterator begin_, size_t size_, const Compare& comp_)
: comp(comp_)
, begin(begin_)
, size(size_)
{
}
bool empty() const { return size == 0; }
bool is_divisible() const { return size >= grainsize; }
quick_sort_range(quick_sort_range& range, split)
: comp(range.comp)
{
using std::swap;
RandomAccessIterator array = range.begin;
RandomAccessIterator key0 = range.begin;
size_t m = pseudo_median_of_nine(array, range);
if (m)
swap(array[0], array[m]);
size_t i = 0;
size_t j = range.size;
// Partition interval [i+1,j-1] with key *key0.
for (;;)
{
__TBB_ASSERT(i < j, nullptr);
// Loop must terminate since array[l]==*key0.
do
{
--j;
__TBB_ASSERT(i <= j, "bad ordering relation?");
} while (comp(*key0, array[j]));
do
{
__TBB_ASSERT(i <= j, nullptr);
if (i == j)
goto partition;
++i;
} while (comp(array[i], *key0));
if (i == j)
goto partition;
swap(array[i], array[j]);
}
partition:
// Put the partition key were it belongs
swap(array[j], *key0);
// array[l..j) is less or equal to key.
// array(j..r) is greater or equal to key.
// array[j] is equal to key
i = j + 1;
begin = array + i;
size = range.size - i;
range.size = j;
}
};
#if __TBB_TASK_GROUP_CONTEXT
//! Body class used to test if elements in a range are presorted
/** @ingroup algorithms */
template <typename RandomAccessIterator, typename Compare>
class quick_sort_pretest_body : internal::no_assign
{
const Compare& comp;
public:
quick_sort_pretest_body(const Compare& _comp)
: comp(_comp)
{
}
void operator()(const blocked_range<RandomAccessIterator>& range) const
{
task& my_task = task::self();
RandomAccessIterator my_end = range.end();
int i = 0;
for (RandomAccessIterator k = range.begin(); k != my_end; ++k, ++i)
{
if (i % 64 == 0 && my_task.is_cancelled())
break;
// The k-1 is never out-of-range because the first chunk starts at begin+serial_cutoff+1
if (comp(*(k), *(k - 1)))
{
my_task.cancel_group_execution();
break;
}
}
}
};
#endif /* __TBB_TASK_GROUP_CONTEXT */
//! Body class used to sort elements in a range that is smaller than the grainsize.
/** @ingroup algorithms */
template <typename RandomAccessIterator, typename Compare>
struct quick_sort_body
{
void operator()(const quick_sort_range<RandomAccessIterator, Compare>& range) const
{
//SerialQuickSort( range.begin, range.size, range.comp );
std::sort(range.begin, range.begin + range.size, range.comp);
}
};
//! Wrapper method to initiate the sort by calling parallel_for.
/** @ingroup algorithms */
template <typename RandomAccessIterator, typename Compare>
void parallel_quick_sort(RandomAccessIterator begin, RandomAccessIterator end, const Compare& comp)
{
#if __TBB_TASK_GROUP_CONTEXT
task_group_context my_context;
const int serial_cutoff = 9;
__TBB_ASSERT(begin + serial_cutoff < end, "min_parallel_size is smaller than serial cutoff?");
RandomAccessIterator k;
for (k = begin; k != begin + serial_cutoff; ++k)
{
if (comp(*(k + 1), *k))
{
goto do_parallel_quick_sort;
}
}
parallel_for(blocked_range<RandomAccessIterator>(k + 1, end),
quick_sort_pretest_body<RandomAccessIterator, Compare>(comp),
auto_partitioner(),
my_context);
if (my_context.is_group_execution_cancelled())
do_parallel_quick_sort:
#endif /* __TBB_TASK_GROUP_CONTEXT */
parallel_for(quick_sort_range<RandomAccessIterator, Compare>(begin, end - begin, comp),
quick_sort_body<RandomAccessIterator, Compare>(),
auto_partitioner());
}
} // namespace internal
//! @endcond
//! @cond INTERNAL
/** \page parallel_sort_iter_req Requirements on iterators for parallel_sort
Requirements on value type \c T of \c RandomAccessIterator for \c parallel_sort:
- \code void swap( T& x, T& y ) \endcode Swaps \c x and \c y
- \code bool Compare::operator()( const T& x, const T& y ) \endcode
True if x comes before y;
**/
/** \name parallel_sort
See also requirements on \ref parallel_sort_iter_req "iterators for parallel_sort". **/
//@{
//! Sorts the data in [begin,end) using the given comparator
/** The compare function object is used for all comparisons between elements during sorting.
The compare object must define a bool operator() function.
@ingroup algorithms **/
//! @endcond
template <typename RandomAccessIterator, typename Compare>
void parallel_sort(RandomAccessIterator begin, RandomAccessIterator end, const Compare& comp)
{
const int min_parallel_size = 500;
if (end > begin)
{
if (end - begin < min_parallel_size)
{
std::sort(begin, end, comp);
}
else
{
internal::parallel_quick_sort(begin, end, comp);
}
}
}
//! Sorts the data in [begin,end) with a default comparator \c std::less<RandomAccessIterator>
/** @ingroup algorithms **/
template <typename RandomAccessIterator>
inline void parallel_sort(RandomAccessIterator begin, RandomAccessIterator end)
{
parallel_sort(
begin, end, std::less<typename std::iterator_traits<RandomAccessIterator>::value_type>());
}
//! Sorts the data in the range \c [begin,end) with a default comparator \c std::less<T>
/** @ingroup algorithms **/
template <typename T>
inline void parallel_sort(T* begin, T* end)
{
parallel_sort(begin, end, std::less<T>());
}
//@}
} // namespace tbb
#endif
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