#ifndef ONF_STEPCONVERTRASTERTOVECTOR_H #define ONF_STEPCONVERTRASTERTOVECTOR_H #include "ct_step/abstract/ct_abstractstep.h" #include "ct_itemdrawable/ct_image2d.h" #include "ct_itemdrawable/ct_polygon2d.h" class ONF_StepConvertRasterToVector: public CT_AbstractStep { Q_OBJECT using SuperClass = CT_AbstractStep; public: ONF_StepConvertRasterToVector(); QString description() const override; QString detailledDescription() const override; QString inputDescription() const override; QString outputDescription() const override; QString detailsDescription() const override; QString URL() const override; CT_VirtualAbstractStep* createNewInstance() const final; protected: void declareInputModels(CT_StepInModelStructureManager& manager) final; void declareOutputModels(CT_StepOutModelStructureManager& manager) final; void fillPostInputConfigurationDialog(CT_StepConfigurableDialog* postInputConfigDialog) final; void compute() final; private: bool _filter; double _surfaceThreshold; CT_HandleInResultGroupCopy<> _inResult; CT_HandleInStdZeroOrMoreGroup _inZeroOrMoreRootGroup; CT_HandleInStdGroup<> _inGroup; CT_HandleInSingularItem _inClusters; CT_HandleOutStdGroup _groupCluster; CT_HandleOutSingularItem _outPolygon; CT_HandleOutStdItemAttribute _outPolygonIDAtt; struct pixelsArea { pixelsArea() { _xmin = std::numeric_limits::max(); _xmax = std::numeric_limits::min(); _ymin = std::numeric_limits::max(); _ymax = std::numeric_limits::min(); } int _xmin; int _xmax; int _ymin; int _ymax; }; }; #endif // ONF_STEPCONVERTRASTERTOVECTOR_H