/****************************************************************************** * * Copyright (C) 2021 by * The Salk Institute for Biological Studies * * Use of this source code is governed by an MIT-style * license that can be found in the LICENSE file or at * https://opensource.org/licenses/MIT. * ******************************************************************************/ #ifndef API_GEN_REGION_H #define API_GEN_REGION_H #include "api/api_common.h" #include "api/base_data_class.h" namespace MCell { namespace API { class Region; class PythonExportContext; #define REGION_CTOR() \ Region( \ const RegionNodeType node_type_ = RegionNodeType::UNSET, \ std::shared_ptr left_node_ = nullptr, \ std::shared_ptr right_node_ = nullptr \ ) { \ class_name = "Region"; \ node_type = node_type_; \ left_node = left_node_; \ right_node = right_node_; \ postprocess_in_ctor(); \ check_semantics(); \ } \ Region(DefaultCtorArgType) : \ GenRegion(DefaultCtorArgType()) { \ set_all_attributes_as_default_or_unset(); \ set_all_custom_attributes_to_default(); \ } class GenRegion: public BaseDataClass { public: GenRegion() { } GenRegion(DefaultCtorArgType) { } void postprocess_in_ctor() override {} void check_semantics() const override; void set_initialized() override; void set_all_attributes_as_default_or_unset() override; std::shared_ptr copy_region() const; std::shared_ptr deepcopy_region(py::dict = py::dict()) const; virtual bool __eq__(const Region& other) const; virtual bool eq_nonarray_attributes(const Region& other, const bool ignore_name = false) const; bool operator == (const Region& other) const { return __eq__(other);} bool operator != (const Region& other) const { return !__eq__(other);} std::string to_str(const bool all_details=false, const std::string ind="") const override; std::string export_to_python(std::ostream& out, PythonExportContext& ctx) override; // --- attributes --- RegionNodeType node_type; virtual void set_node_type(const RegionNodeType new_node_type_) { if (initialized) { throw RuntimeError("Value 'node_type' of object with name " + name + " (class " + class_name + ") " "cannot be set after model was initialized."); } cached_data_are_uptodate = false; node_type = new_node_type_; } virtual RegionNodeType get_node_type() const { cached_data_are_uptodate = false; // arrays and other data can be modified through getters return node_type; } std::shared_ptr left_node; virtual void set_left_node(std::shared_ptr new_left_node_) { if (initialized) { throw RuntimeError("Value 'left_node' of object with name " + name + " (class " + class_name + ") " "cannot be set after model was initialized."); } cached_data_are_uptodate = false; left_node = new_left_node_; } virtual std::shared_ptr get_left_node() const { cached_data_are_uptodate = false; // arrays and other data can be modified through getters return left_node; } std::shared_ptr right_node; virtual void set_right_node(std::shared_ptr new_right_node_) { if (initialized) { throw RuntimeError("Value 'right_node' of object with name " + name + " (class " + class_name + ") " "cannot be set after model was initialized."); } cached_data_are_uptodate = false; right_node = new_right_node_; } virtual std::shared_ptr get_right_node() const { cached_data_are_uptodate = false; // arrays and other data can be modified through getters return right_node; } // --- methods --- virtual std::shared_ptr __add__(std::shared_ptr other) = 0; virtual std::shared_ptr __sub__(std::shared_ptr other) = 0; virtual std::shared_ptr __mul__(std::shared_ptr other) = 0; }; // GenRegion class Region; py::class_ define_pybinding_Region(py::module& m); } // namespace API } // namespace MCell #endif // API_GEN_REGION_H