FFmmAlgorithmThread.hpp 17.4 KB
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// ===================================================================================
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// Copyright ScalFmm 2011 INRIA, Olivier Coulaud, Berenger Bramas, Matthias Messner
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// olivier.coulaud@inria.fr, berenger.bramas@inria.fr
// This software is a computer program whose purpose is to compute the FMM.
//
// This software is governed by the CeCILL-C and LGPL licenses and
// abiding by the rules of distribution of free software.  
// 
// This program 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 and CeCILL-C Licenses for more details.
// "http://www.cecill.info". 
// "http://www.gnu.org/licenses".
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// ===================================================================================
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#ifndef FFMMALGORITHMTHREAD_HPP
#define FFMMALGORITHMTHREAD_HPP
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#include "../Utils/FAssert.hpp"
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#include "../Utils/FLog.hpp"
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#include "../Utils/FTic.hpp"
#include "../Utils/FGlobal.hpp"

#include "../Containers/FOctree.hpp"

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#include "FCoreCommon.hpp"
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#include <omp.h>

/**
* @author Berenger Bramas (berenger.bramas@inria.fr)
* @class FFmmAlgorithmThread
* @brief
* Please read the license
*
* This class is a threaded FMM algorithm
* It just iterates on a tree and call the kernels with good arguments.
* It used the inspector-executor model :
* iterates on the tree and builds an array to work in parallel on this array
*
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* Of course this class does not deallocate pointer given in arguments.
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*
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* When using this algorithm the P2P is thread safe.
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*/
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template<class OctreeClass, class CellClass, class ContainerClass, class KernelClass, class LeafClass>
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class FFmmAlgorithmThread : public FAbstractAlgorithm{
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    OctreeClass* const tree;                  //< The octree to work on
    KernelClass** kernels;                    //< The kernels
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    typename OctreeClass::Iterator* iterArray;
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    int leafsNumber;
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    static const int SizeShape = 3*3*3;
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    int shapeLeaf[SizeShape];    

    const int MaxThreads;
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    const int OctreeHeight;

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public:
    /** The constructor need the octree and the kernels used for computation
      * @param inTree the octree to work on
      * @param inKernels the kernels to call
      * An assert is launched if one of the arguments is null
      */
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    FFmmAlgorithmThread(OctreeClass* const inTree, KernelClass* const inKernels)
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        : tree(inTree) , kernels(nullptr), iterArray(nullptr), leafsNumber(0),
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          MaxThreads(omp_get_max_threads()), OctreeHeight(tree->getHeight()) {
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        FAssertLF(tree, "tree cannot be null");
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        this->kernels = new KernelClass*[MaxThreads];
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        #pragma omp parallel for schedule(static)
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        for(int idxThread = 0 ; idxThread < MaxThreads ; ++idxThread){
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            this->kernels[idxThread] = new KernelClass(*inKernels);
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        }

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        FLOG(FLog::Controller << "FFmmAlgorithmThread (Max Thread " << omp_get_max_threads() << ")\n");
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    }

    /** Default destructor */
    virtual ~FFmmAlgorithmThread(){
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        for(int idxThread = 0 ; idxThread < MaxThreads ; ++idxThread){
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            delete this->kernels[idxThread];
        }
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        delete [] this->kernels;
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    }

    /**
      * To execute the fmm algorithm
      * Call this function to run the complete algorithm
      */
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    void execute(const unsigned operationsToProceed = FFmmNearAndFarFields){
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        for(int idxShape = 0 ; idxShape < SizeShape ; ++idxShape){
            this->shapeLeaf[idxShape] = 0;
        }

        // Count leaf
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        leafsNumber = 0;
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        typename OctreeClass::Iterator octreeIterator(tree);
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        octreeIterator.gotoBottomLeft();
        do{
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            ++leafsNumber;
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            const FTreeCoordinate& coord = octreeIterator.getCurrentCell()->getCoordinate();
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            ++this->shapeLeaf[(coord.getX()%3)*9 + (coord.getY()%3)*3 + (coord.getZ()%3)];

        } while(octreeIterator.moveRight());
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        iterArray = new typename OctreeClass::Iterator[leafsNumber];
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        FAssertLF(iterArray, "iterArray bad alloc");
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        if(operationsToProceed & FFmmP2M) bottomPass();
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        if(operationsToProceed & FFmmM2M) upwardPass();
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        if(operationsToProceed & FFmmM2L) transferPass();
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        if(operationsToProceed & FFmmL2L) downardPass();
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        if((operationsToProceed & FFmmP2P) || (operationsToProceed & FFmmL2P)) directPass((operationsToProceed & FFmmP2P),(operationsToProceed & FFmmL2P));
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        delete [] iterArray;
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        iterArray = nullptr;
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    }

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private:
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    /////////////////////////////////////////////////////////////////////////////
    // P2M
    /////////////////////////////////////////////////////////////////////////////

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    /** P2M */
    void bottomPass(){
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        FLOG( FLog::Controller.write("\tStart Bottom Pass\n").write(FLog::Flush) );
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        FLOG(FTic counterTime);
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        typename OctreeClass::Iterator octreeIterator(tree);
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        int leafs = 0;
        // Iterate on leafs
        octreeIterator.gotoBottomLeft();
        do{
            iterArray[leafs] = octreeIterator;
            ++leafs;
        } while(octreeIterator.moveRight());

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        const int chunkSize = FMath::Max(1 , leafs/(omp_get_max_threads()*omp_get_max_threads()));

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        FLOG(FTic computationCounter);
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        #pragma omp parallel
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        {
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            KernelClass * const myThreadkernels = kernels[omp_get_thread_num()];
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            #pragma omp for nowait schedule(dynamic, chunkSize)
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            for(int idxLeafs = 0 ; idxLeafs < leafs ; ++idxLeafs){
                // We need the current cell that represent the leaf
                // and the list of particles
                myThreadkernels->P2M( iterArray[idxLeafs].getCurrentCell() , iterArray[idxLeafs].getCurrentListSrc());
            }
        }
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        FLOG(computationCounter.tac() );
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        FLOG( FLog::Controller << "\tFinished (@Bottom Pass (P2M) = "  << counterTime.tacAndElapsed() << "s)\n" );
        FLOG( FLog::Controller << "\t\t Computation : " << computationCounter.elapsed() << " s\n" );
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    }

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    /////////////////////////////////////////////////////////////////////////////
    // Upward
    /////////////////////////////////////////////////////////////////////////////

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    /** M2M */
    void upwardPass(){
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        FLOG( FLog::Controller.write("\tStart Upward Pass\n").write(FLog::Flush); );
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        FLOG(FTic counterTime);
        FLOG(FTic computationCounter);
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        // Start from leal level - 1
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        typename OctreeClass::Iterator octreeIterator(tree);
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        octreeIterator.gotoBottomLeft();
        octreeIterator.moveUp();
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        typename OctreeClass::Iterator avoidGotoLeftIterator(octreeIterator);
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        // for each levels
        for(int idxLevel = OctreeHeight - 2 ; idxLevel > 1 ; --idxLevel ){
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            FLOG(FTic counterTimeLevel);
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            int numberOfCells = 0;
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            // for each cells
            do{
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                iterArray[numberOfCells] = octreeIterator;
                ++numberOfCells;
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            } while(octreeIterator.moveRight());
            avoidGotoLeftIterator.moveUp();
            octreeIterator = avoidGotoLeftIterator;// equal octreeIterator.moveUp(); octreeIterator.gotoLeft();

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            const int chunkSize = FMath::Max(1 , numberOfCells/(omp_get_max_threads()*omp_get_max_threads()));

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            FLOG(computationCounter.tic());
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            #pragma omp parallel
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            {
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                KernelClass * const myThreadkernels = kernels[omp_get_thread_num()];
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                #pragma omp for nowait  schedule(dynamic, chunkSize)
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                for(int idxCell = 0 ; idxCell < numberOfCells ; ++idxCell){
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                    // We need the current cell and the child
                    // child is an array (of 8 child) that may be null
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                    myThreadkernels->M2M( iterArray[idxCell].getCurrentCell() , iterArray[idxCell].getCurrentChild(), idxLevel);
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                }
            }
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            FLOG(computationCounter.tac());
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            FLOG( FLog::Controller << "\t\t>> Level " << idxLevel << " = "  << counterTimeLevel.tacAndElapsed() << "s\n" );
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        }

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        FLOG( FLog::Controller << "\tFinished (@Upward Pass (M2M) = "  << counterTime.tacAndElapsed() << "s)\n" );
        FLOG( FLog::Controller << "\t\t Computation : " << computationCounter.cumulated() << " s\n" );
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    }

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    /////////////////////////////////////////////////////////////////////////////
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    // Transfer
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    /////////////////////////////////////////////////////////////////////////////

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    /** M2L L2L */
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    void transferPass(){
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        FLOG( FLog::Controller.write("\tStart Downward Pass (M2L)\n").write(FLog::Flush); );
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        FLOG(FTic counterTime);
        FLOG(FTic computationCounter);
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        typename OctreeClass::Iterator octreeIterator(tree);
        octreeIterator.moveDown();
        typename OctreeClass::Iterator avoidGotoLeftIterator(octreeIterator);

        // for each levels
        for(int idxLevel = 2 ; idxLevel < OctreeHeight ; ++idxLevel ){
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            FLOG(FTic counterTimeLevel);
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            int numberOfCells = 0;
            // for each cells
            do{
                iterArray[numberOfCells] = octreeIterator;
                ++numberOfCells;
            } while(octreeIterator.moveRight());
            avoidGotoLeftIterator.moveDown();
            octreeIterator = avoidGotoLeftIterator;

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            const int chunkSize = FMath::Max(1 , numberOfCells/(omp_get_max_threads()*omp_get_max_threads()));

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            FLOG(computationCounter.tic());
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            #pragma omp parallel
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            {
                KernelClass * const myThreadkernels = kernels[omp_get_thread_num()];
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                const CellClass* neighbors[343];
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                #pragma omp for  schedule(dynamic, chunkSize) nowait
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                for(int idxCell = 0 ; idxCell < numberOfCells ; ++idxCell){
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                    const int counter = tree->getInteractionNeighbors(neighbors,  iterArray[idxCell].getCurrentGlobalCoordinate(),idxLevel);
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                    if(counter) myThreadkernels->M2L( iterArray[idxCell].getCurrentCell() , neighbors, counter, idxLevel);
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                }
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                myThreadkernels->finishedLevelM2L(idxLevel);
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            }
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            FLOG(computationCounter.tac());
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            FLOG( FLog::Controller << "\t\t>> Level " << idxLevel << " = "  << counterTimeLevel.tacAndElapsed() << "s\n" );
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        }

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        FLOG( FLog::Controller << "\tFinished (@Downward Pass (M2L) = "  << counterTime.tacAndElapsed() << "s)\n" );
        FLOG( FLog::Controller << "\t\t Computation : " << computationCounter.cumulated() << " s\n" );
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    }
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    /////////////////////////////////////////////////////////////////////////////
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    // Downward
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    /////////////////////////////////////////////////////////////////////////////

    void downardPass(){ // second L2L

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        FLOG( FLog::Controller.write("\tStart Downward Pass (L2L)\n").write(FLog::Flush); );
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        FLOG(FTic counterTime);
        FLOG(FTic computationCounter);
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        typename OctreeClass::Iterator octreeIterator(tree);
        octreeIterator.moveDown();

        typename OctreeClass::Iterator avoidGotoLeftIterator(octreeIterator);

        const int heightMinusOne = OctreeHeight - 1;
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        // for each levels excepted leaf level
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        for(int idxLevel = 2 ; idxLevel < heightMinusOne ; ++idxLevel ){
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            FLOG(FTic counterTimeLevel);
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            int numberOfCells = 0;
            // for each cells
            do{
                iterArray[numberOfCells] = octreeIterator;
                ++numberOfCells;
            } while(octreeIterator.moveRight());
            avoidGotoLeftIterator.moveDown();
            octreeIterator = avoidGotoLeftIterator;

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            FLOG(computationCounter.tic());
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            const int chunkSize = FMath::Max(1 , numberOfCells/(omp_get_max_threads()*omp_get_max_threads()));
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            #pragma omp parallel
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            {
                KernelClass * const myThreadkernels = kernels[omp_get_thread_num()];
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                #pragma omp for nowait schedule(dynamic, chunkSize)
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                for(int idxCell = 0 ; idxCell < numberOfCells ; ++idxCell){
                    myThreadkernels->L2L( iterArray[idxCell].getCurrentCell() , iterArray[idxCell].getCurrentChild(), idxLevel);
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                }
            }
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            FLOG(computationCounter.tac());
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            FLOG( FLog::Controller << "\t\t>> Level " << idxLevel << " = "  << counterTimeLevel.tacAndElapsed() << "s\n" );
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        }

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        FLOG( FLog::Controller << "\tFinished (@Downward Pass (L2L) = "  << counterTime.tacAndElapsed() << "s)\n" );
        FLOG( FLog::Controller << "\t\t Computation : " << computationCounter.cumulated() << " s\n" );
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    }

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    /////////////////////////////////////////////////////////////////////////////
    // Direct
    /////////////////////////////////////////////////////////////////////////////

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    /** P2P */
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    void directPass(const bool p2pEnabled, const bool l2pEnabled){
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        FLOG( FLog::Controller.write("\tStart Direct Pass\n").write(FLog::Flush); );
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        FLOG(FTic counterTime);
        FLOG(FTic computationCounter);
        FLOG(FTic computationCounterP2P);
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        omp_lock_t lockShape[SizeShape];
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        for(int idxShape = 0 ; idxShape < SizeShape ; ++idxShape){
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            omp_init_lock(&lockShape[idxShape]);
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        }

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        struct LeafData{
            MortonIndex index;
            CellClass* cell;
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            ContainerClass* targets;
            ContainerClass* sources;
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        };
        LeafData* const leafsDataArray = new LeafData[this->leafsNumber];

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        const int LeafIndex = OctreeHeight - 1;
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        int startPosAtShape[SizeShape];
        startPosAtShape[0] = 0;
        for(int idxShape = 1 ; idxShape < SizeShape ; ++idxShape){
            startPosAtShape[idxShape] = startPosAtShape[idxShape-1] + this->shapeLeaf[idxShape-1];
        }

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        #pragma omp parallel
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        {
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            const float step = float(this->leafsNumber) / float(omp_get_num_threads());
            const int start = int(FMath::Ceil(step * float(omp_get_thread_num())));
            const int tempEnd = int(FMath::Ceil(step * float(omp_get_thread_num()+1)));
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            const int end = (tempEnd > this->leafsNumber ? this->leafsNumber : tempEnd);
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            typename OctreeClass::Iterator octreeIterator(tree);
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            octreeIterator.gotoBottomLeft();
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            for(int idxPreLeaf = 0 ; idxPreLeaf < start ; ++idxPreLeaf){
                octreeIterator.moveRight();
            }

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            // for each leafs
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            for(int idxMyLeafs = start ; idxMyLeafs < end ; ++idxMyLeafs){
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                //iterArray[leafs] = octreeIterator;
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                //++leafs;
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                const FTreeCoordinate& coord = octreeIterator.getCurrentGlobalCoordinate();
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                const int shapePosition = (coord.getX()%3)*9 + (coord.getY()%3)*3 + (coord.getZ()%3);
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                omp_set_lock(&lockShape[shapePosition]);
                const int positionToWork = startPosAtShape[shapePosition]++;
                omp_unset_lock(&lockShape[shapePosition]);
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                leafsDataArray[positionToWork].index   = octreeIterator.getCurrentGlobalIndex();
                leafsDataArray[positionToWork].cell    = octreeIterator.getCurrentCell();
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                leafsDataArray[positionToWork].targets = octreeIterator.getCurrentListTargets();
                leafsDataArray[positionToWork].sources = octreeIterator.getCurrentListSrc();
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                octreeIterator.moveRight();
            }
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            #pragma omp barrier
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            FLOG(if(!omp_get_thread_num()) computationCounter.tic());
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            KernelClass& myThreadkernels = (*kernels[omp_get_thread_num()]);
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            // There is a maximum of 26 neighbors
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            ContainerClass* neighbors[27];
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            int previous = 0;
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            for(int idxShape = 0 ; idxShape < SizeShape ; ++idxShape){
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                const int endAtThisShape = this->shapeLeaf[idxShape] + previous;
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                const int chunkSize = FMath::Max(1 , endAtThisShape/(omp_get_num_threads()*omp_get_num_threads()));
                #pragma omp for schedule(dynamic, chunkSize)
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                for(int idxLeafs = previous ; idxLeafs < endAtThisShape ; ++idxLeafs){
                    LeafData& currentIter = leafsDataArray[idxLeafs];
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                    if(l2pEnabled){
                        myThreadkernels.L2P(currentIter.cell, currentIter.targets);
                    }
                    if(p2pEnabled){
                        // need the current particles and neighbors particles
                        FLOG(if(!omp_get_thread_num()) computationCounterP2P.tic());
                        const int counter = tree->getLeafsNeighbors(neighbors, currentIter.cell->getCoordinate(), LeafIndex);
                        myThreadkernels.P2P(currentIter.cell->getCoordinate(), currentIter.targets,
                                            currentIter.sources, neighbors, counter);
                        FLOG(if(!omp_get_thread_num()) computationCounterP2P.tac());
                    }
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                }
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                previous = endAtThisShape;
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            }
        }
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        FLOG(computationCounter.tac());
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        delete [] leafsDataArray;
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        for(int idxShape = 0 ; idxShape < SizeShape ; ++idxShape){
            omp_destroy_lock(&lockShape[idxShape]);
        }

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        FLOG( FLog::Controller << "\tFinished (@Direct Pass (L2P + P2P) = "  << counterTime.tacAndElapsed() << "s)\n" );
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        FLOG( FLog::Controller << "\t\t Computation L2P + P2P : " << computationCounter.cumulated()    << " s\n" );
        FLOG( FLog::Controller << "\t\t Computation P2P :       " << computationCounterP2P.cumulated() << " s\n" );
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    }

};


#endif //FFMMALGORITHMTHREAD_HPP

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