// Copyright (C) 2007-2013 CEA/DEN, EDF R&D // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // // Author : Anthony Geay (CEA/DEN) #ifndef __BARYCENTRIC3DINTERSECTORP1P1_TXX__ #define __BARYCENTRIC3DINTERSECTORP1P1_TXX__ #include "Barycentric3DIntersectorP1P1.hxx" #include "Intersector3DP1P1.txx" #include "MeshUtils.hxx" namespace INTERP_KERNEL { /** * Constructor creating object from target cell global number * * @param targetMesh mesh containing the target elements * @param srcMesh mesh containing the source elements * @param policy splitting policy to be used */ template Barycentric3DIntersectorP1P1::Barycentric3DIntersectorP1P1(const MyMeshType& targetMesh, const MyMeshType& srcMesh, double precision): Intersector3DP1P1(targetMesh,srcMesh),_precision(precision) { } template Barycentric3DIntersectorP1P1::~Barycentric3DIntersectorP1P1() { } /** * @param targetCell in C mode. * @param srcCells in C mode. */ template void Barycentric3DIntersectorP1P1::intersectCells(ConnType targetCell, const std::vector& srcCells, MyMatrix& res) { std::vector CoordsT; const ConnType *startOfCellNodeConnT=Intersector3DP1P1::getStartConnOfTargetCell(targetCell); Intersector3DP1P1::getRealTargetCoordinates(OTT::indFC(targetCell),CoordsT); int nbOfNodesT=CoordsT.size()/SPACEDIM; const double *coordsS=Intersector3DP1P1::_src_mesh.getCoordinatesPtr(); for(int nodeIdT=0;nodeIdT::ind2C(startOfCellNodeConnT[nodeIdT])]; if(!resRow.empty()) continue; for(typename std::vector::const_iterator iterCellS=srcCells.begin();iterCellS!=srcCells.end();iterCellS++) { NormalizedCellType tS=Intersector3DP1P1::_src_mesh.getTypeOfElement(OTT::indFC(*iterCellS)); if(tS!=NORM_TETRA4) throw INTERP_KERNEL::Exception("Invalid source cell detected for meshdim==3. Only TETRA4 supported !"); const CellModel& cmTypeS=CellModel::GetCellModel(tS); // std::vector connOfCurCellS; Intersector3DP1P1::getConnOfSourceCell(OTT::indFC(*iterCellS),connOfCurCellS); if( PointLocatorAlgos::isElementContainsPointAlg3D(&CoordsT[nodeIdT*SPACEDIM],&connOfCurCellS[0],connOfCurCellS.size(),coordsS,cmTypeS,_precision) ) { double resLoc[4]; std::vector localCoordsS; Intersector3DP1P1::getRealSourceCoordinates(OTT::indFC(*iterCellS),localCoordsS); std::vector eap(4); eap[0]=&localCoordsS[0]; eap[1]=&localCoordsS[3]; eap[2]=&localCoordsS[6]; eap[3]=&localCoordsS[9]; barycentric_coords(eap,&CoordsT[nodeIdT*SPACEDIM],resLoc); const ConnType *startOfCellNodeConnS=Intersector3DP1P1::getStartConnOfSourceCell(*iterCellS); for(int nodeIdS=0;nodeIdS<4;nodeIdS++) { if(fabs(resLoc[nodeIdS])>_precision) { ConnType curNodeSInCmode=OTT::coo2C(startOfCellNodeConnS[nodeIdS]); resRow.insert(std::make_pair(OTT::indFC(curNodeSInCmode),resLoc[nodeIdS])); } } } } } } } #endif