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// std lib related includes
#include <tuple>
// pybind 11 related includes
#include <pybind11/pybind11.h>
#include <pybind11/stl.h>
namespace py = pybind11;
// Standard Handle
#include <Standard_Handle.hxx>
// includes to resolve forward declarations
#include <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.hxx>
#include <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.hxx>
// module includes
#include <IVtkVTK_ShapeData.hxx>
#include <IVtkVTK_View.hxx>
// template related includes
// user-defined pre
#include "OCP_specific.inc"
// user-defined inclusion per module
#include <vtkRenderer.h>
#include "vtk_pybind.h"
// Module definiiton
void register_IVtkVTK(py::module &main_module) {
py::module m = static_cast<py::module>(main_module.attr("IVtkVTK"));
py::object klass;
//Python trampoline classes
// classes
// Class IVtkVTK_ShapeData from ./opencascade/IVtkVTK_ShapeData.hxx
klass = m.attr("IVtkVTK_ShapeData");
// nested enums
static_cast<py::class_<IVtkVTK_ShapeData ,opencascade::handle<IVtkVTK_ShapeData> , IVtk_IShapeData >>(klass)
// constructors
.def(py::init< >() )
// custom constructors
// methods
.def("InsertPoint",
(IVtk_PointId (IVtkVTK_ShapeData::*)( const gp_Pnt & , const NCollection_Vec3<float> & ) ) static_cast<IVtk_PointId (IVtkVTK_ShapeData::*)( const gp_Pnt & , const NCollection_Vec3<float> & ) >(&IVtkVTK_ShapeData::InsertPoint),
R"#(Insert a coordinate)#" , py::arg("thePnt"), py::arg("theNorm")
)
.def("InsertVertex",
(void (IVtkVTK_ShapeData::*)( const IVtk_IdType , const IVtk_PointId , const IVtk_MeshType ) ) static_cast<void (IVtkVTK_ShapeData::*)( const IVtk_IdType , const IVtk_PointId , const IVtk_MeshType ) >(&IVtkVTK_ShapeData::InsertVertex),
R"#(Insert a vertex.)#" , py::arg("theShapeID"), py::arg("thePointId"), py::arg("theMeshType")
)
.def("InsertLine",
(void (IVtkVTK_ShapeData::*)( const IVtk_IdType , const IVtk_PointId , const IVtk_PointId , const IVtk_MeshType ) ) static_cast<void (IVtkVTK_ShapeData::*)( const IVtk_IdType , const IVtk_PointId , const IVtk_PointId , const IVtk_MeshType ) >(&IVtkVTK_ShapeData::InsertLine),
R"#(Insert a line.)#" , py::arg("theShapeID"), py::arg("thePointId1"), py::arg("thePointId2"), py::arg("theMeshType")
)
.def("InsertLine",
(void (IVtkVTK_ShapeData::*)( const IVtk_IdType , const NCollection_List<IVtk_PointId> * , const IVtk_MeshType ) ) static_cast<void (IVtkVTK_ShapeData::*)( const IVtk_IdType , const NCollection_List<IVtk_PointId> * , const IVtk_MeshType ) >(&IVtkVTK_ShapeData::InsertLine),
R"#(Insert a poly-line.)#" , py::arg("theShapeID"), py::arg("thePointIds"), py::arg("theMeshType")
)
.def("InsertTriangle",
(void (IVtkVTK_ShapeData::*)( const IVtk_IdType , const IVtk_PointId , const IVtk_PointId , const IVtk_PointId , const IVtk_MeshType ) ) static_cast<void (IVtkVTK_ShapeData::*)( const IVtk_IdType , const IVtk_PointId , const IVtk_PointId , const IVtk_PointId , const IVtk_MeshType ) >(&IVtkVTK_ShapeData::InsertTriangle),
R"#(Insert a triangle)#" , py::arg("theShapeID"), py::arg("thePointId1"), py::arg("thePointId2"), py::arg("thePointId3"), py::arg("theMeshType")
)
.def("getVtkPolyData",
(vtkPolyData * (IVtkVTK_ShapeData::*)() const) static_cast<vtkPolyData * (IVtkVTK_ShapeData::*)() const>(&IVtkVTK_ShapeData::getVtkPolyData),
R"#(Get VTK PolyData.)#"
)
// methods using call by reference i.s.o. return
// static methods
.def_static("ARRNAME_SUBSHAPE_IDS_s",
(const char * (*)() ) static_cast<const char * (*)() >(&IVtkVTK_ShapeData::ARRNAME_SUBSHAPE_IDS),
R"#(None)#"
)
.def_static("ARRNAME_MESH_TYPES_s",
(const char * (*)() ) static_cast<const char * (*)() >(&IVtkVTK_ShapeData::ARRNAME_MESH_TYPES),
R"#(None)#"
)
.def_static("get_type_name_s",
(const char * (*)() ) static_cast<const char * (*)() >(&IVtkVTK_ShapeData::get_type_name),
R"#(None)#"
)
.def_static("get_type_descriptor_s",
(const opencascade::handle<Standard_Type> & (*)() ) static_cast<const opencascade::handle<Standard_Type> & (*)() >(&IVtkVTK_ShapeData::get_type_descriptor),
R"#(None)#"
)
// static methods using call by reference i.s.o. return
// operators
// additional methods and static methods
// properties
// methods returning by ref wrapped as properties
.def("DynamicType",
(const opencascade::handle<Standard_Type> & (IVtkVTK_ShapeData::*)() const) static_cast<const opencascade::handle<Standard_Type> & (IVtkVTK_ShapeData::*)() const>(&IVtkVTK_ShapeData::DynamicType),
R"#(None)#"
)
;
// Class IVtkVTK_View from ./opencascade/IVtkVTK_View.hxx
klass = m.attr("IVtkVTK_View");
// nested enums
static_cast<py::class_<IVtkVTK_View ,opencascade::handle<IVtkVTK_View> , IVtk_IView >>(klass)
// constructors
.def(py::init< vtkRenderer * >() , py::arg("theRenderer") )
// custom constructors
// methods
.def("IsPerspective",
(bool (IVtkVTK_View::*)() const) static_cast<bool (IVtkVTK_View::*)() const>(&IVtkVTK_View::IsPerspective),
R"#(Returns true if this is a perspective view, and false otherwise.)#"
)
.def("GetDistance",
(double (IVtkVTK_View::*)() const) static_cast<double (IVtkVTK_View::*)() const>(&IVtkVTK_View::GetDistance),
R"#(Returns The focal distance of the view)#"
)
.def("GetEyePosition",
(void (IVtkVTK_View::*)( double & , double & , double & ) const) static_cast<void (IVtkVTK_View::*)( double & , double & , double & ) const>(&IVtkVTK_View::GetEyePosition),
R"#(Returns The world coordinates of the camera position)#" , py::arg("theX"), py::arg("theY"), py::arg("theZ")
)
.def("GetPosition",
(void (IVtkVTK_View::*)( double & , double & , double & ) const) static_cast<void (IVtkVTK_View::*)( double & , double & , double & ) const>(&IVtkVTK_View::GetPosition),
R"#(Returns The world coordinates of the view position)#" , py::arg("theX"), py::arg("theY"), py::arg("theZ")
)
.def("GetViewUp",
(void (IVtkVTK_View::*)( double & , double & , double & ) const) static_cast<void (IVtkVTK_View::*)( double & , double & , double & ) const>(&IVtkVTK_View::GetViewUp),
R"#(Returns The "view up" direction of the view)#" , py::arg("theDx"), py::arg("theDy"), py::arg("theDz")
)
.def("GetDirectionOfProjection",
(void (IVtkVTK_View::*)( double & , double & , double & ) const) static_cast<void (IVtkVTK_View::*)( double & , double & , double & ) const>(&IVtkVTK_View::GetDirectionOfProjection),
R"#(Returns The projection direction vector of this view)#" , py::arg("theDx"), py::arg("theDy"), py::arg("theDz")
)
.def("GetScale",
(void (IVtkVTK_View::*)( double & , double & , double & ) const) static_cast<void (IVtkVTK_View::*)( double & , double & , double & ) const>(&IVtkVTK_View::GetScale),
R"#(Returns Three doubles containing scale components of the view transformation)#" , py::arg("theX"), py::arg("theY"), py::arg("theZ")
)
.def("GetParallelScale",
(double (IVtkVTK_View::*)() const) static_cast<double (IVtkVTK_View::*)() const>(&IVtkVTK_View::GetParallelScale),
R"#(Returns The current view's zoom factor (for parallel projection))#"
)
.def("GetViewAngle",
(double (IVtkVTK_View::*)() const) static_cast<double (IVtkVTK_View::*)() const>(&IVtkVTK_View::GetViewAngle),
R"#(Returns The current view angle (for perspective projection))#"
)
.def("GetClippingRange",
(void (IVtkVTK_View::*)( double & , double & ) const) static_cast<void (IVtkVTK_View::*)( double & , double & ) const>(&IVtkVTK_View::GetClippingRange),
R"#(Returns The location of the near and far clipping planes along the direction of projection)#" , py::arg("theZNear"), py::arg("theZFar")
)
.def("GetAspectRatio",
(double (IVtkVTK_View::*)() const) static_cast<double (IVtkVTK_View::*)() const>(&IVtkVTK_View::GetAspectRatio),
R"#(Returns The current view the aspect ratio)#"
)
.def("GetViewCenter",
(void (IVtkVTK_View::*)( double & , double & ) const) static_cast<void (IVtkVTK_View::*)( double & , double & ) const>(&IVtkVTK_View::GetViewCenter),
R"#(Returns Two doubles containing the display coordinates of the view window center)#" , py::arg("theX"), py::arg("theY")
)
.def("GetWindowSize",
(void (IVtkVTK_View::*)( int & , int & ) const) static_cast<void (IVtkVTK_View::*)( int & , int & ) const>(&IVtkVTK_View::GetWindowSize),
R"#(Gets window size in screen coordinates in pixels)#" , py::arg("theX"), py::arg("theY")
)
.def("DisplayToWorld",
(bool (IVtkVTK_View::*)( const gp_XY & , gp_XYZ & ) const) static_cast<bool (IVtkVTK_View::*)( const gp_XY & , gp_XYZ & ) const>(&IVtkVTK_View::DisplayToWorld),
R"#(Converts 3D display coordinates into 3D world coordinates.)#" , py::arg("theDisplayPnt"), py::arg("theWorldPnt")
)
// methods using call by reference i.s.o. return
.def("GetCamera",
[]( IVtkVTK_View &self , NCollection_Mat4<Standard_Real> & theProj,NCollection_Mat4<Standard_Real> & theOrient ){
Standard_Boolean theIsOrtho;
self.GetCamera(theProj,theOrient,theIsOrtho);
return std::make_tuple(theIsOrtho); },
R"#(Gets camera projection and orientation matrices)#" , py::arg("theProj"), py::arg("theOrient")
)
.def("GetViewport",
[]( IVtkVTK_View &self ){
Standard_Real theX;
Standard_Real theY;
Standard_Real theWidth;
Standard_Real theHeight;
self.GetViewport(theX,theY,theWidth,theHeight);
return std::make_tuple(theX,theY,theWidth,theHeight); },
R"#(Gets viewport coordinates)#"
)
// static methods
.def_static("get_type_name_s",
(const char * (*)() ) static_cast<const char * (*)() >(&IVtkVTK_View::get_type_name),
R"#(None)#"
)
.def_static("get_type_descriptor_s",
(const opencascade::handle<Standard_Type> & (*)() ) static_cast<const opencascade::handle<Standard_Type> & (*)() >(&IVtkVTK_View::get_type_descriptor),
R"#(None)#"
)
// static methods using call by reference i.s.o. return
// operators
// additional methods and static methods
// properties
// methods returning by ref wrapped as properties
.def("DynamicType",
(const opencascade::handle<Standard_Type> & (IVtkVTK_View::*)() const) static_cast<const opencascade::handle<Standard_Type> & (IVtkVTK_View::*)() const>(&IVtkVTK_View::DynamicType),
R"#(None)#"
)
;
// functions
// ./opencascade/IVtkVTK_ShapeData.hxx
// ./opencascade/IVtkVTK_View.hxx
// Additional functions
// operators
// register typdefs
// exceptions
// user-defined post-inclusion per module in the body
};
// user-defined post-inclusion per module
// user-defined post
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