#ifndef ONF_STEPCOMPUTERELATIVEINTENSITYATTRIBUTE_H #define ONF_StepComputeRelativeIntensityAttribute_H #include "ct_step/abstract/ct_abstractstep.h" #include "ct_tools/model/ct_autorenamemodels.h" class ONF_StepComputeRelativeIntensityAttribute : public CT_AbstractStep { Q_OBJECT public: struct CandidatePoint { CandidatePoint(size_t pointIndex, double gpsTime, double intensity) { _pointIndex = pointIndex; _gpsTime = gpsTime; _intensity = intensity; _sumIntensity = 0; } size_t _pointIndex; double _gpsTime; double _intensity; double _sumIntensity; }; static bool sortByGPSTime (CandidatePoint* a, CandidatePoint* b) { return (a->_gpsTime < b->_gpsTime); } /*! \brief Step constructor * * Create a new instance of the step * * \param dataInit Step parameters object */ ONF_StepComputeRelativeIntensityAttribute(CT_StepInitializeData &dataInit); /*! \brief Step description * * Return a description of the step function */ QString getStepDescription() const; /*! \brief Step copy * * Step copy, used when a step is added by step contextual menu */ CT_VirtualAbstractStep* createNewInstance(CT_StepInitializeData &dataInit); protected: /*! \brief Input results specification * * Specification of input results models needed by the step (IN) */ void createInResultModelListProtected(); /*! \brief Parameters DialogBox * * DialogBox asking for step parameters */ void createPreConfigurationDialog(); /*! \brief Output results specification * * Specification of output results models created by the step (OUT) */ void createOutResultModelListProtected(); /*! \brief Algorithm of the step * * Step computation, using input results, and creating output results */ void compute(); private: // Step parameters CT_AutoRenameModels _outRelIntensityAttributeModelName; }; #endif // ONF_StepComputeRelativeIntensityAttribute_H