/*------------------------------- phasicFlow --------------------------------- O C enter of O O E ngineering and O O M ultiscale modeling of OOOOOOO F luid flow ------------------------------------------------------------------------------ Copyright (C): www.cemf.ir email: hamid.r.norouzi AT gmail.com ------------------------------------------------------------------------------ Licence: This file is part of phasicFlow code. It is a free software for simulating granular and multiphase flows. You can redistribute it and/or modify it under the terms of GNU General Public License v3 or any other later versions. phasicFlow is distributed to help others in their research in the field of granular and multiphase flows, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. -----------------------------------------------------------------------------*/ #ifndef __cellsWallLevel0_hpp__ #define __cellsWallLevel0_hpp__ #include "types.hpp" #include "KokkosTypes.hpp" #include "cells.hpp" #include "iBox.hpp" namespace pFlow { template< typename executionSpace > class cellsWallLevel0 : public cells { public: using IdType = int32; using IndexType = int32; using Cells = cells; using CellType = typename Cells::CellType; using execution_space = executionSpace; using memory_space = typename execution_space::memory_space; using iBoxType = iBox; class TagFindCellRange2{}; protected: // - box extent real cellExtent_ = 0.5; // - number of triangle elements int32 numElements_ = 0; // - number of points int32 numPoints_ = 0; // - ref to vectices (borrowed) ViewType1D vertices_; // - ref to points in the trisurface (borrowed) ViewType1D points_; // cell range of element/triangle bounding box ViewType1D elementBox_; using tpPWContactSearch = Kokkos::TeamPolicy< execution_space, Kokkos::Schedule, Kokkos::IndexType >; using rpFindCellRange2Type = Kokkos::RangePolicy>; FUNCTION_H void allocateArrays() { reallocNoInit( elementBox_, numElements_); } public: TypeInfoNV("cellsWallLevel0"); INLINE_FUNCTION_HD cellsWallLevel0(){} FUNCTION_H cellsWallLevel0( const Cells& ppCells, real cellExtent, int32 numPoints, int32 numElements, const ViewType1D& points, const ViewType1D& vertices ) : Cells(ppCells), cellExtent_( max(cellExtent, 0.5 ) ), numElements_(numElements), numPoints_(numPoints), vertices_(vertices), points_(points) { allocateArrays(); } // - host call // reset triangle elements if they have changed bool resetElements( int32 numElements, int32 numPoints, ViewType1D& points, ViewType1D& vertices ) { numElements_ = numElements; numPoints_ = numPoints; points_ = points; vertices_ = vertices; allocateArrays(); return true; } INLINE_FUNCTION_HD iBoxType elementBox(int32 i)const { return elementBox_[i]; } INLINE_FUNCTION_HD int32 numElements()const { return numElements_; } template bool broadSearch(PairsContainer& pairs, particleMapType& particleMap) { // map walls onto the cells this->build(); this->particleWallFindPairs(pairs, particleMap); return true; } bool build() { Kokkos::parallel_for( "cellsSimple::findcellrange2", rpFindCellRange2Type(0,numElements_), *this); Kokkos::fence(); return true; } template bool particleWallFindPairs(PairsContainer& pairs, particleMapType& particleMap) { int32 getFull = 1; while (getFull) { getFull = findPairsElementRangeCount(pairs, particleMap.getCellIterator(0)); if(getFull) { // - resize the container // note that getFull now shows the number of failed insertions. uint32 len = max(getFull, 50); auto oldCap = pairs.capacity(); pairs.increaseCapacityBy(len); INFORMATION<<"Contact pair container capacity increased from "<< oldCap << " to " << pairs.capacity() <<" in cellsWallLevel0."< int32 findPairsElementRangeCount(PairsContainer& pairs, CellIteratorType cellIter) { int32 getFull =0; const auto pwPairs = pairs; const auto elementBox = elementBox_; Kokkos::parallel_reduce( "cellsSimple::findPairsElementRangeModified2", tpPWContactSearch(numElements_, Kokkos::AUTO), LAMBDA_HD( const typename tpPWContactSearch::member_type & teamMember, int32& valueToUpdate){ const int32 iTri = teamMember.league_rank(); const auto triBox = elementBox[iTri]; int32 getFull2 = 0; auto bExtent = boxExtent(triBox); int32 numCellBox = bExtent.x()*bExtent.y()*bExtent.z(); Kokkos::parallel_reduce( Kokkos::TeamThreadRange( teamMember, numCellBox ), [&] ( const int32 linIndex, int32 &innerUpdate ) { CellType cell; indexToCell(linIndex, triBox, cell); int32 n = cellIter.start(cell.x(),cell.y(),cell.z()); while( n>-1) { // id is wall id the pair is (particle id, wall id) if( pairs.insert(static_cast(n), iTri) < 0 ) innerUpdate++; n = cellIter.getNext(n); } }, getFull2 ); if ( teamMember.team_rank() == 0 ) valueToUpdate += getFull2; }, getFull ); return getFull; } INLINE_FUNCTION_HD void operator()(TagFindCellRange2, int32 i) const { auto v = vertices_[i]; auto p1 = points_[v.x()]; auto p2 = points_[v.y()]; auto p3 = points_[v.z()]; realx3 minP, maxP; this->extendBox(p1, p2, p3, cellExtent_, minP, maxP); elementBox_[i] = iBoxType(this->pointIndex(minP), this->pointIndex(maxP)); } }; // cellsWallLevel0 } // pFlow #endif // __cellsWallLevel0_hpp__