/*! \file scalar_algorithm_reduce_domain.cpp \author Ha NGUYEN \since 23 June 2016 \date 23 June 2016 \brief Algorithm for reduce a domain to a scalar */ #include "scalar_algorithm_reduce_domain.hpp" #include "domain.hpp" #include "scalar.hpp" #include "reduce_domain_to_scalar.hpp" #include "grid.hpp" #include "grid_transformation_factory_impl.hpp" namespace xios { CGenericAlgorithmTransformation* CScalarAlgorithmReduceDomain::create(bool isSource, CGrid* gridDst, CGrid* gridSrc, CTransformation* transformation, int elementPositionInGrid, std::map& elementPositionInGridSrc2ScalarPosition, std::map& elementPositionInGridSrc2AxisPosition, std::map& elementPositionInGridSrc2DomainPosition, std::map& elementPositionInGridDst2ScalarPosition, std::map& elementPositionInGridDst2AxisPosition, std::map& elementPositionInGridDst2DomainPosition) TRY { std::vector scalarListDestP = gridDst->getScalars(); std::vector domainListSrcP = gridSrc->getDomains(); CReduceDomainToScalar* reduceDomain = dynamic_cast (transformation); int scalarDstIndex = elementPositionInGridDst2ScalarPosition[elementPositionInGrid]; int domainSrcIndex = elementPositionInGridSrc2DomainPosition[elementPositionInGrid]; return (new CScalarAlgorithmReduceDomain(isSource, scalarListDestP[scalarDstIndex], domainListSrcP[domainSrcIndex], reduceDomain)); } CATCH bool CScalarAlgorithmReduceDomain::dummyRegistered_ = CScalarAlgorithmReduceDomain::registerTrans(); bool CScalarAlgorithmReduceDomain::registerTrans() TRY { return CGridTransformationFactory::registerTransformation(TRANS_REDUCE_DOMAIN_TO_SCALAR, create); } CATCH CScalarAlgorithmReduceDomain::CScalarAlgorithmReduceDomain(bool isSource, CScalar* scalarDestination, CDomain* domainSource, CReduceDomainToScalar* algo) : CAlgorithmTransformationReduce(isSource), domainSrc_(domainSource) TRY { algo->checkValid(scalarDestination, domainSource); StdString op; switch (algo->operation) { case CReduceDomainToScalar::operation_attr::sum: operator_ = EReduction::sum; break; case CReduceDomainToScalar::operation_attr::min: operator_ = EReduction::min; break; case CReduceDomainToScalar::operation_attr::max: operator_ = EReduction::max; break; case CReduceDomainToScalar::operation_attr::average: operator_ = EReduction::average; break; default: ERROR("CScalarAlgorithmReduceDomain::CScalarAlgorithmReduceDomain(CDomain* domainDestination, CDomain* domainSource, CReduceDomainToScalar* algo)", << "Operation must be defined." << "Domain source " <getId() << std::endl << "Scalar destination " << scalarDestination->getId()); } TransformationIndexMap& transMap = this->transformationMapping_; int ni_glo = domainSrc_->ni_glo ; int nj_glo = domainSrc_->nj_glo ; int nbDomainIdx ; bool local = algo->local ; if (local) { const CArray& i_index = domainSrc_-> i_index.getValue() ; const CArray& j_index = domainSrc_-> j_index.getValue() ; const CArray& localMask = domainSrc_-> localMask ; int nbDomainIdx = i_index.numElements(); for (int idxDomain = 0; idxDomain < nbDomainIdx; ++idxDomain) { if (localMask(idxDomain)) { transMap[0].push_back(j_index(idxDomain)* ni_glo + i_index(idxDomain)); } } } else { nbDomainIdx = ni_glo * nj_glo; for (int idxDomain = 0; idxDomain < nbDomainIdx; ++idxDomain) transMap[0].push_back(idxDomain); } scalarDestination->checkAttributes() ; this->computeAlgorithm(domainSource->getLocalView(CElementView::WORKFLOW), scalarDestination->getLocalView(CElementView::WORKFLOW)) ; } CATCH CScalarAlgorithmReduceDomain::~CScalarAlgorithmReduceDomain() TRY { } CATCH }