284 lines
11 KiB
C++
284 lines
11 KiB
C++
// Copyright 2009-2020 Intel Corporation
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// SPDX-License-Identifier: Apache-2.0
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#pragma once
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#include "parallel_for.h"
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#include "../math/range.h"
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namespace embree
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{
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/* serial partitioning */
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template<typename T, typename V, typename IsLeft, typename Reduction_T>
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__forceinline size_t serial_partitioning(T* array,
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const size_t begin,
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const size_t end,
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V& leftReduction,
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V& rightReduction,
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const IsLeft& is_left,
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const Reduction_T& reduction_t)
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{
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T* l = array + begin;
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T* r = array + end - 1;
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while(1)
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{
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/* *l < pivot */
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while (likely(l <= r && is_left(*l) ))
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{
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//prefetchw(l+4); // FIXME: enable?
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reduction_t(leftReduction,*l);
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++l;
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}
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/* *r >= pivot) */
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while (likely(l <= r && !is_left(*r)))
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{
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//prefetchw(r-4); FIXME: enable?
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reduction_t(rightReduction,*r);
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--r;
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}
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if (r<l) break;
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reduction_t(leftReduction ,*r);
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reduction_t(rightReduction,*l);
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xchg(*l,*r);
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l++; r--;
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}
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return l - array;
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}
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template<typename T, typename V, typename Vi, typename IsLeft, typename Reduction_T, typename Reduction_V>
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class __aligned(64) parallel_partition_task
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{
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ALIGNED_CLASS_(64);
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private:
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static const size_t MAX_TASKS = 64;
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T* array;
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size_t N;
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const IsLeft& is_left;
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const Reduction_T& reduction_t;
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const Reduction_V& reduction_v;
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const Vi& identity;
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size_t numTasks;
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__aligned(64) size_t counter_start[MAX_TASKS+1];
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__aligned(64) size_t counter_left[MAX_TASKS+1];
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__aligned(64) range<ssize_t> leftMisplacedRanges[MAX_TASKS];
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__aligned(64) range<ssize_t> rightMisplacedRanges[MAX_TASKS];
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__aligned(64) V leftReductions[MAX_TASKS];
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__aligned(64) V rightReductions[MAX_TASKS];
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public:
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__forceinline parallel_partition_task(T* array,
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const size_t N,
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const Vi& identity,
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const IsLeft& is_left,
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const Reduction_T& reduction_t,
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const Reduction_V& reduction_v,
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const size_t BLOCK_SIZE)
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: array(array), N(N), is_left(is_left), reduction_t(reduction_t), reduction_v(reduction_v), identity(identity),
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numTasks(min((N+BLOCK_SIZE-1)/BLOCK_SIZE,min(TaskScheduler::threadCount(),MAX_TASKS))) {}
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__forceinline const range<ssize_t>* findStartRange(size_t& index, const range<ssize_t>* const r, const size_t numRanges)
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{
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size_t i = 0;
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while(index >= (size_t)r[i].size())
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{
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assert(i < numRanges);
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index -= (size_t)r[i].size();
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i++;
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}
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return &r[i];
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}
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__forceinline void swapItemsInMisplacedRanges(const size_t numLeftMisplacedRanges,
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const size_t numRightMisplacedRanges,
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const size_t startID,
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const size_t endID)
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{
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size_t leftLocalIndex = startID;
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size_t rightLocalIndex = startID;
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const range<ssize_t>* l_range = findStartRange(leftLocalIndex,leftMisplacedRanges,numLeftMisplacedRanges);
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const range<ssize_t>* r_range = findStartRange(rightLocalIndex,rightMisplacedRanges,numRightMisplacedRanges);
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size_t l_left = l_range->size() - leftLocalIndex;
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size_t r_left = r_range->size() - rightLocalIndex;
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T *__restrict__ l = &array[l_range->begin() + leftLocalIndex];
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T *__restrict__ r = &array[r_range->begin() + rightLocalIndex];
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size_t size = endID - startID;
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size_t items = min(size,min(l_left,r_left));
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while (size)
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{
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if (unlikely(l_left == 0))
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{
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l_range++;
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l_left = l_range->size();
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l = &array[l_range->begin()];
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items = min(size,min(l_left,r_left));
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}
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if (unlikely(r_left == 0))
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{
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r_range++;
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r_left = r_range->size();
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r = &array[r_range->begin()];
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items = min(size,min(l_left,r_left));
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}
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size -= items;
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l_left -= items;
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r_left -= items;
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while(items) {
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items--;
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xchg(*l++,*r++);
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}
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}
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}
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__forceinline size_t partition(V& leftReduction, V& rightReduction)
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{
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/* partition the individual ranges for each task */
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parallel_for(numTasks,[&] (const size_t taskID) {
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const size_t startID = (taskID+0)*N/numTasks;
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const size_t endID = (taskID+1)*N/numTasks;
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V local_left(identity);
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V local_right(identity);
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const size_t mid = serial_partitioning(array,startID,endID,local_left,local_right,is_left,reduction_t);
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counter_start[taskID] = startID;
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counter_left [taskID] = mid-startID;
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leftReductions[taskID] = local_left;
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rightReductions[taskID] = local_right;
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});
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counter_start[numTasks] = N;
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counter_left[numTasks] = 0;
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/* finalize the reductions */
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for (size_t i=0; i<numTasks; i++) {
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reduction_v(leftReduction,leftReductions[i]);
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reduction_v(rightReduction,rightReductions[i]);
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}
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/* calculate mid point for partitioning */
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size_t mid = counter_left[0];
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for (size_t i=1; i<numTasks; i++)
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mid += counter_left[i];
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const range<ssize_t> globalLeft (0,mid);
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const range<ssize_t> globalRight(mid,N);
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/* calculate all left and right ranges that are on the wrong global side */
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size_t numMisplacedRangesLeft = 0;
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size_t numMisplacedRangesRight = 0;
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size_t numMisplacedItemsLeft = 0;
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size_t numMisplacedItemsRight = 0;
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for (size_t i=0; i<numTasks; i++)
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{
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const range<ssize_t> left_range (counter_start[i], counter_start[i] + counter_left[i]);
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const range<ssize_t> right_range(counter_start[i] + counter_left[i], counter_start[i+1]);
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const range<ssize_t> left_misplaced = globalLeft. intersect(right_range);
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const range<ssize_t> right_misplaced = globalRight.intersect(left_range);
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if (!left_misplaced.empty())
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{
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numMisplacedItemsLeft += left_misplaced.size();
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leftMisplacedRanges[numMisplacedRangesLeft++] = left_misplaced;
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}
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if (!right_misplaced.empty())
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{
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numMisplacedItemsRight += right_misplaced.size();
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rightMisplacedRanges[numMisplacedRangesRight++] = right_misplaced;
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}
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}
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assert( numMisplacedItemsLeft == numMisplacedItemsRight );
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/* if no items are misplaced we are done */
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if (numMisplacedItemsLeft == 0)
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return mid;
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/* otherwise we copy the items to the right place in parallel */
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parallel_for(numTasks,[&] (const size_t taskID) {
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const size_t startID = (taskID+0)*numMisplacedItemsLeft/numTasks;
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const size_t endID = (taskID+1)*numMisplacedItemsLeft/numTasks;
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swapItemsInMisplacedRanges(numMisplacedRangesLeft,numMisplacedRangesRight,startID,endID);
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});
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return mid;
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}
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};
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template<typename T, typename V, typename Vi, typename IsLeft, typename Reduction_T, typename Reduction_V>
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__noinline size_t parallel_partitioning(T* array,
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const size_t begin,
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const size_t end,
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const Vi &identity,
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V &leftReduction,
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V &rightReduction,
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const IsLeft& is_left,
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const Reduction_T& reduction_t,
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const Reduction_V& reduction_v,
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size_t BLOCK_SIZE = 128)
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{
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/* fall back to single threaded partitioning for small N */
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if (unlikely(end-begin < BLOCK_SIZE))
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return serial_partitioning(array,begin,end,leftReduction,rightReduction,is_left,reduction_t);
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/* otherwise use parallel code */
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else {
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typedef parallel_partition_task<T,V,Vi,IsLeft,Reduction_T,Reduction_V> partition_task;
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std::unique_ptr<partition_task> p(new partition_task(&array[begin],end-begin,identity,is_left,reduction_t,reduction_v,BLOCK_SIZE));
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return begin+p->partition(leftReduction,rightReduction);
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}
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}
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template<typename T, typename V, typename Vi, typename IsLeft, typename Reduction_T, typename Reduction_V>
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__noinline size_t parallel_partitioning(T* array,
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const size_t begin,
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const size_t end,
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const Vi &identity,
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V &leftReduction,
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V &rightReduction,
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const IsLeft& is_left,
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const Reduction_T& reduction_t,
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const Reduction_V& reduction_v,
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size_t BLOCK_SIZE,
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size_t PARALLEL_THRESHOLD)
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{
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/* fall back to single threaded partitioning for small N */
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if (unlikely(end-begin < PARALLEL_THRESHOLD))
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return serial_partitioning(array,begin,end,leftReduction,rightReduction,is_left,reduction_t);
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/* otherwise use parallel code */
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else {
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typedef parallel_partition_task<T,V,Vi,IsLeft,Reduction_T,Reduction_V> partition_task;
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std::unique_ptr<partition_task> p(new partition_task(&array[begin],end-begin,identity,is_left,reduction_t,reduction_v,BLOCK_SIZE));
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return begin+p->partition(leftReduction,rightReduction);
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}
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}
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template<typename T, typename IsLeft>
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inline size_t parallel_partitioning(T* array,
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const size_t begin,
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const size_t end,
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const IsLeft& is_left,
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size_t BLOCK_SIZE = 128)
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{
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size_t leftReduction = 0;
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size_t rightReduction = 0;
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return parallel_partitioning(
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array,begin,end,0,leftReduction,rightReduction,is_left,
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[] (size_t& t,const T& ref) { },
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[] (size_t& t0,size_t& t1) { },
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BLOCK_SIZE);
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}
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}
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