/* * SumIntoTableRange.hh * * Created on: Oct 6, 2016 * Author: AKKA IS */ #ifndef SUMINTOTABLERANGE_HH_ #define SUMINTOTABLERANGE_HH_ #include "Parameter.hh" #include "ParamData.hh" #include "DataTypeMath.hh" #include "Operation.hh" namespace AMDA { namespace Parameters { namespace SumIntoTableRange { namespace Base { class TableDataTransform { public: virtual ~TableDataTransform() {} virtual std::vector transformData(unsigned int /*index*/) = 0; }; } template class TableDataTransform : public Base::TableDataTransform { public: /** * @brief Constructor */ TableDataTransform(ParamInput& pParamInput) : _paramInput(pParamInput) {} private: /** * @brief paramData Input */ ParamInput& _paramInput; }; template class TableDataTransform >> : public Base::TableDataTransform { public: typedef ParamDataSpec > ParamInput; /** * @brief Constructor */ TableDataTransform(ParamInput& pParamInput) : _paramInput(pParamInput) {} /** * @overload Base::TableDataTransform::transformData(unsigned int index) */ std::vector transformData(unsigned int index) { const std::vector& lData = _paramInput.getDataList()[index]; std::vector transData; for (typename std::vector::const_iterator it = lData.begin(); it != lData.end(); ++it) { transData.push_back((double)*it); } return transData; } private: ParamInput& _paramInput; }; class TableParamDataVisitor : public VisitorOfParamData { public: /** * @brief Constructor. */ TableParamDataVisitor(ParamData& pInputParamData) : _dataTransform(NULL) { pInputParamData.accept(*this); } /** * @overload VisitorOfParamData::visit(ParamDataScalaireShort *) */ void visit(ParamDataScalaireShort *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataScalaireFloat *) */ void visit(ParamDataScalaireFloat *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataScalaireDouble *) */ void visit(ParamDataScalaireDouble *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataScalaireLongDouble *) */ void visit(ParamDataScalaireLongDouble *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataScalaireInt *) */ void visit(ParamDataScalaireInt *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataLogicalData *) */ void visit(ParamDataLogicalData *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataTab1DShort *) */ void visit(ParamDataTab1DShort *pInputParamData) { _dataTransform = new TableDataTransform(*pInputParamData); } /** * @overload VisitorOfParamData::visit(ParamDataTab1DFloat *) */ void visit(ParamDataTab1DFloat *pInputParamData) { _dataTransform = new TableDataTransform(*pInputParamData); } /** * @overload VisitorOfParamData::visit(ParamDataTab1DDouble *) */ void visit(ParamDataTab1DDouble *pInputParamData) { _dataTransform = new TableDataTransform(*pInputParamData); } /** * @overload VisitorOfParamData::visit(ParamDataTab1DLongDouble *) */ void visit(ParamDataTab1DLongDouble *pInputParamData) { _dataTransform = new TableDataTransform(*pInputParamData); } /** * @overload VisitorOfParamData::visit(ParamDataTab1DInt *) */ void visit(ParamDataTab1DInt *pInputParamData) { _dataTransform = new TableDataTransform(*pInputParamData); } /** * @overload VisitorOfParamData::visit(ParamDataTab1DLogicalData *) */ void visit(ParamDataTab1DLogicalData *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataTab2DShort *) */ void visit(ParamDataTab2DShort *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataTab2DFloat *) */ void visit(ParamDataTab2DFloat *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataTab2DDouble *) */ void visit(ParamDataTab2DDouble *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataTab2DLongDouble *) */ void visit(ParamDataTab2DLongDouble *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataTab2DInt *) */ void visit(ParamDataTab2DInt *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @overload VisitorOfParamData::visit(ParamDataTab2DLogicalData *) */ void visit(ParamDataTab2DLogicalData *) { BOOST_THROW_EXCEPTION(AMDA::AMDA_exception() << AMDA::errno_code(AMDA_ERROR_UNKNOWN) << AMDA::ex_msg("TableParamDataPusher operation not supported")); } /** * @brief get the Deriv parameterized operation. */ std::vector transformData(unsigned int index) { return _dataTransform->transformData(index); } private: Base::TableDataTransform* _dataTransform; }; /** * @class SumIntoTableRange * @brief It is responsible to compute the sum of parameter data into a table range. * @details This class implement the interface Operation. */ template class SumIntoTableRange : public Operation { public: /** * @brief Constructor. * @details Create the ParamData type of the input ParamData. */ SumIntoTableRange(Process& pProcess, ParamDataSpec >& paramInput, double minRange, double maxRange, AMDA::Info::ParamTable* tablePtr) : Operation(pProcess), _paramInput(paramInput), _paramOutput(new ParamDataSpec()), _minRange(minRange), _maxRange(maxRange), _tablePtr(tablePtr) { _paramDataOutput=_paramOutput; } virtual ~SumIntoTableRange() { for (std::map::iterator it = _tableParamDataVisitor.begin(); it != _tableParamDataVisitor.end(); ++it) delete it->second; _tableParamDataVisitor.clear(); } /** * @overload Operation::write(ParamDataIndexInfo &pParamDataIndexInfo) */ void write(ParamDataIndexInfo &pParamDataIndexInfo) { for (unsigned int _index = pParamDataIndexInfo._startIndex ; _index < pParamDataIndexInfo._startIndex + pParamDataIndexInfo._nbDataToProcess; ++_index) { double crtTime = _paramInput.getTime(_index); std::vector inputElt = _paramInput.get(_index); //Get list of indexes included in the range std::list _indexes; if (!_tablePtr->isVariable()) { AMDA::Info::t_TableBound crtBound; for (unsigned int i = 0; i < inputElt.size(); ++i) { crtBound = _tablePtr->getBound(&_process.getParameterManager(), i); if (crtBound.min >= _minRange && crtBound.max <= _maxRange) _indexes.push_back(i); } } else { //Variable table std::map> paramsTableData; for (std::map::iterator it = _tablePtr->getTableParams().begin(); it != _tablePtr->getTableParams().end(); ++it) { ParameterSPtr crtParam = _process.getParameterManager().getParameter(it->second); ParamData* ltableParamInput = crtParam->getParamData(&_process).get(); //Retrieve related index for this "table" parameter unsigned int crtTimeTableParamIndex = 0; for (unsigned int tableParamindex = 0 ; tableParamindex < ltableParamInput->getDataNumber(); ++tableParamindex) { if (crtTime < ltableParamInput->getTime(tableParamindex)) break; crtTimeTableParamIndex = tableParamindex; } if (_tableParamDataVisitor.find(it->first) == _tableParamDataVisitor.end()) { _tableParamDataVisitor[it->first] = new TableParamDataVisitor(*ltableParamInput); } paramsTableData[it->first] = _tableParamDataVisitor[it->first]->transformData(crtTimeTableParamIndex); } AMDA::Info::t_TableBound crtBound; for (unsigned int i = 0; i < inputElt.size(); ++i) { crtBound = _tablePtr->getBound(&_process.getParameterManager(), i, ¶msTableData); if ((crtBound.min >= _minRange) && (crtBound.max <= _maxRange)) { _indexes.push_back(i); } } } DataType output = 0; for (std::list::iterator it = _indexes.begin(); it != _indexes.end(); ++it) { if (isNAN(inputElt[*it])) continue; output += inputElt[*it]; } _paramOutput->pushTime(crtTime); _paramOutput->getDataList().push_back(output); } } private: /**< * @brief It is the channel of data derived */ ParamDataSpec > &_paramInput; /**< * @brief It is the channel of the data derived */ ParamDataSpec *_paramOutput; double _minRange; double _maxRange; AMDA::Info::ParamTable* _tablePtr; std::map _tableParamDataVisitor; }; } /* namespace SumIntoTableRange */ } /* namespace Parameters */ } /* namespace AMDA */ #endif /* SUMINTOTABLERANGE_HH_ */