diff options
Initialize at openlb-1-3
Diffstat (limited to 'src/functors/lattice/integral/superPlaneIntegralF2D.hh')
-rw-r--r-- | src/functors/lattice/integral/superPlaneIntegralF2D.hh | 222 |
1 files changed, 222 insertions, 0 deletions
diff --git a/src/functors/lattice/integral/superPlaneIntegralF2D.hh b/src/functors/lattice/integral/superPlaneIntegralF2D.hh new file mode 100644 index 0000000..0927f5d --- /dev/null +++ b/src/functors/lattice/integral/superPlaneIntegralF2D.hh @@ -0,0 +1,222 @@ +/* This file is part of the OpenLB library + * + * Copyright (C) 2018 Adrian Kummerlaender + * E-mail contact: info@openlb.net + * The most recent release of OpenLB can be downloaded at + * <http://www.openlb.net/> + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * 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 License for more details. + * + * You should have received a copy of the GNU General Public + * License along with this program; if not, write to the Free + * Software Foundation, Inc., 51 Franklin Street, Fifth Floor, + * Boston, MA 02110-1301, USA. +*/ + +#ifndef SUPER_PLANE_INTEGRAL_F_2D_HH +#define SUPER_PLANE_INTEGRAL_F_2D_HH + +#include "superPlaneIntegralF2D.h" +#include "utilities/vectorHelpers.h" +#include "utilities/functorPtr.hh" +#include "functors/lattice/indicator/indicator2D.hh" + +namespace olb { + + +template<typename T> +bool SuperPlaneIntegralF2D<T>::isToBeIntegrated(const Vector<T,2>& physR, int iC) +{ + Vector<int,3> latticeR; + //get nearest lattice point + if ( _geometry.getCuboidGeometry().getFloorLatticeR(physR, latticeR) ) { + const int& iX = latticeR[1]; + const int& iY = latticeR[2]; + + // interpolation is possible iff all neighbours are within the indicated subset + return _integrationIndicatorF->operator()( iC, iX, iY ) + && _integrationIndicatorF->operator()(iC, iX, iY+1) + && _integrationIndicatorF->operator()(iC, iX+1, iY ) + && _integrationIndicatorF->operator()(iC, iX+1, iY+1); + } + else { + return false; + } +} + +template<typename T> +SuperPlaneIntegralF2D<T>::SuperPlaneIntegralF2D( + FunctorPtr<SuperF2D<T>>&& f, + SuperGeometry2D<T>& geometry, + const HyperplaneLattice2D<T>& hyperplaneLattice, + FunctorPtr<SuperIndicatorF2D<T>>&& integrationIndicator, + FunctorPtr<IndicatorF2D<T>>&& subplaneIndicator, + BlockDataReductionMode mode) + : SuperF2D<T>(f->getSuperStructure(), 2 + f->getTargetDim()), + _geometry(geometry), + _f(std::move(f)), + _integrationIndicatorF(std::move(integrationIndicator)), + _subplaneIndicatorF(std::move(subplaneIndicator)), + _reductionF(*_f, + hyperplaneLattice, + BlockDataSyncMode::None, + mode), + _origin(hyperplaneLattice.getHyperplane().origin), + _u(hyperplaneLattice.getVectorU()), + _normal(hyperplaneLattice.getHyperplane().normal) +{ + this->getName() = "SuperPlaneIntegralF2D"; + + _normal.normalize(); + _u.normalize(); + + for ( const std::tuple<int,int>& pos : _reductionF.getRankLocalSubplane() ) { + const int& i = std::get<0>(pos); + const int& iC = std::get<1>(pos); + const Vector<T,2> physR = _reductionF.getPhysR(i); + if (isToBeIntegrated(physR, iC)) { + // check if interpolated hyperplane is to be restricted further + // e.g. using IndicatorCircle2D + if ( _subplaneIndicatorF ) { + // determine physical coordinates relative to original hyperplane origin + // [!] different from _reductionF._origin in the general case. + const Vector<T,2> physRelativeToOrigin = physR - _origin; + const T physOnHyperplane = physRelativeToOrigin * _u; + + if ( _subplaneIndicatorF->operator()(&physOnHyperplane) ) { + _rankLocalSubplane.emplace_back(i); + } + } + else { + // plane is not restricted further + _rankLocalSubplane.emplace_back(i); + } + } + } +} + +template<typename T> +SuperPlaneIntegralF2D<T>::SuperPlaneIntegralF2D( + FunctorPtr<SuperF2D<T>>&& f, + SuperGeometry2D<T>& geometry, + const Hyperplane2D<T>& hyperplane, + FunctorPtr<SuperIndicatorF2D<T>>&& integrationIndicator, + FunctorPtr<IndicatorF2D<T>>&& subplaneIndicator, + BlockDataReductionMode mode) + : SuperPlaneIntegralF2D( + std::forward<decltype(f)>(f), + geometry, + HyperplaneLattice2D<T>(geometry.getCuboidGeometry(), hyperplane), + std::forward<decltype(integrationIndicator)>(integrationIndicator), + std::forward<decltype(subplaneIndicator)>(subplaneIndicator), + mode) +{ } + +template<typename T> +SuperPlaneIntegralF2D<T>::SuperPlaneIntegralF2D( + FunctorPtr<SuperF2D<T>>&& f, + SuperGeometry2D<T>& geometry, + const Hyperplane2D<T>& hyperplane, + FunctorPtr<SuperIndicatorF2D<T>>&& integrationIndicator, + BlockDataReductionMode mode) + : SuperPlaneIntegralF2D( + std::forward<decltype(f)>(f), + geometry, + hyperplane, + std::forward<decltype(integrationIndicator)>(integrationIndicator), + nullptr, + mode) +{ } + +template<typename T> +SuperPlaneIntegralF2D<T>::SuperPlaneIntegralF2D( + FunctorPtr<SuperF2D<T>>&& f, + SuperGeometry2D<T>& geometry, + const Vector<T,2>& origin, const Vector<T,2>& u, + std::vector<int> materials, + BlockDataReductionMode mode) + : SuperPlaneIntegralF2D( + std::forward<decltype(f)>(f), + geometry, + Hyperplane2D<T>().originAt(origin).parallelTo(u), + geometry.getMaterialIndicator(std::forward<decltype(materials)>(materials)), + mode) +{ } + +template<typename T> +SuperPlaneIntegralF2D<T>::SuperPlaneIntegralF2D( + FunctorPtr<SuperF2D<T>>&& f, + SuperGeometry2D<T>& geometry, + const Vector<T,2>& origin, const Vector<T,2>& u, + BlockDataReductionMode mode) + : SuperPlaneIntegralF2D( + std::forward<decltype(f)>(f), + geometry, + origin, u, + std::vector<int>(1,1), + mode) +{ } + + +template<typename T> +bool SuperPlaneIntegralF2D<T>::operator()(T output[], const int input[]) +{ + this->getSuperStructure().communicate(); + + _reductionF.update(); + + const int flowDim = _reductionF.getTargetDim(); + + std::vector<T> flow(flowDim,0.); + + for ( int pos : _rankLocalSubplane ) { + T outputTmp[flowDim]; + _reductionF(outputTmp, pos); + + for ( int j = 0; j < flowDim; j++ ) { + flow[j] += outputTmp[j]; + } + } + + int vox = _rankLocalSubplane.size(); + +#ifdef PARALLEL_MODE_MPI + for ( int j = 0; j < flowDim; j++ ) { + singleton::mpi().reduceAndBcast(flow[j], MPI_SUM); + } + singleton::mpi().reduceAndBcast(vox, MPI_SUM); +#endif + + const T h = _reductionF.getPhysSpacing(); + + switch ( flowDim ) { + case 1: { + output[0] = flow[0] * h; + break; + } + case 2: { + output[0] = (h * Vector<T,2>(flow)) * _normal; + break; + } + } + + // area + output[1] = vox * h; + // write flow to output[2..] + std::copy_n(flow.cbegin(), flowDim, &output[2]); + + return true; +} + + +} + +#endif |