/*! \file scalar_algorithm_reduce_scalar.cpp \author Ha NGUYEN \since 23 June 2016 \date 23 June 2016 \brief Algorithm for reduce an axis to a scalar */ #include "scalar_algorithm_reduce_axis.hpp" #include "axis.hpp" #include "scalar.hpp" #include "reduce_axis_to_scalar.hpp" #include "grid.hpp" #include "grid_transformation_factory_impl.hpp" #include "reduction.hpp" #include "reduction.hpp" namespace xios { CGenericAlgorithmTransformation* CScalarAlgorithmReduceScalar::create(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) { std::vector scalarListDestP = gridDst->getScalars(); std::vector axisListSrcP = gridSrc->getAxis(); CReduceAxisToScalar* reduceAxis = dynamic_cast (transformation); int scalarDstIndex = elementPositionInGridDst2ScalarPosition[elementPositionInGrid]; int axisSrcIndex = elementPositionInGridSrc2AxisPosition[elementPositionInGrid]; return (new CScalarAlgorithmReduceScalar(scalarListDestP[scalarDstIndex], axisListSrcP[axisSrcIndex], reduceAxis)); } bool CScalarAlgorithmReduceScalar::registerTrans() { CGridTransformationFactory::registerTransformation(TRANS_REDUCE_AXIS_TO_SCALAR, create); } CScalarAlgorithmReduceScalar::CScalarAlgorithmReduceScalar(CScalar* scalarDestination, CAxis* axisSource, CReduceAxisToScalar* algo) : CScalarAlgorithmTransformation(scalarDestination, axisSource), reduction_(0) { if (algo->operation.isEmpty()) ERROR("CScalarAlgorithmReduceScalar::CScalarAlgorithmReduceScalar(CAxis* axisDestination, CAxis* axisSource, CReduceAxisToScalar* algo)", << "Operation must be defined." << "Axis source " <getId() << std::endl << "Scalar destination " << scalarDestination->getId()); StdString op = algo->operation; if (CReductionAlgorithm::ReductionOperations.end() == CReductionAlgorithm::ReductionOperations.find(op)) ERROR("CScalarAlgorithmReduceScalar::CScalarAlgorithmReduceScalar(CAxis* axisDestination, CAxis* axisSource, CReduceAxisToScalar* algo)", << "Operation '" << op << "' not found. Please make sure to use a supported one" << "Axis source " <getId() << std::endl << "Scalar destination " << scalarDestination->getId()); reduction_ = CReductionAlgorithm::createOperation(CReductionAlgorithm::ReductionOperations[op]); } void CScalarAlgorithmReduceScalar::apply(const std::vector >& localIndex, const double* dataInput, CArray& dataOut, std::vector& flagInitial, const double& defaultValue) { reduction_->apply(localIndex, dataInput, dataOut, flagInitial); } void CScalarAlgorithmReduceScalar::updateData(CArray& dataOut) { reduction_->updateData(dataOut); } CScalarAlgorithmReduceScalar::~CScalarAlgorithmReduceScalar() { if (0 != reduction_) delete reduction_; } void CScalarAlgorithmReduceScalar::computeIndexSourceMapping_(const std::vector* >& dataAuxInputs) { this->transformationMapping_.resize(1); this->transformationWeight_.resize(1); TransformationIndexMap& transMap = this->transformationMapping_[0]; TransformationWeightMap& transWeight = this->transformationWeight_[0]; CArray& axisSrcIndex = axisSrc_->index; int globalIndexSize = axisSrcIndex.numElements(); for (int idx = 0; idx < globalIndexSize; ++idx) { transMap[0].push_back(axisSrcIndex(idx)); transWeight[0].push_back(1.0); } } }