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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 <LocalAnalysis_SurfaceContinuity.hxx>
#include <LocalAnalysis_CurveContinuity.hxx>
#include <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.hxx>
#include <Geom_Curve.hxx>
#include <GeomLProp_CLProps.hxx>
#include <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.hxx>
#include <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.hxx>
#include <Geom_Surface.hxx>
#include <Geom2d_Curve.hxx>
#include <GeomLProp_SLProps.hxx>
// module includes
#include <LocalAnalysis.hxx>
#include <LocalAnalysis_CurveContinuity.hxx>
#include <LocalAnalysis_StatusErrorType.hxx>
#include <LocalAnalysis_SurfaceContinuity.hxx>
// template related includes
// user-defined pre
#include "OCP_specific.inc"
// user-defined inclusion per module
// Module definiiton
void register_LocalAnalysis(py::module &main_module) {
py::module m = static_cast<py::module>(main_module.attr("LocalAnalysis"));
py::object klass;
//Python trampoline classes
// classes
// Class LocalAnalysis from ./opencascade/LocalAnalysis.hxx
klass = m.attr("LocalAnalysis");
// default constructor
register_default_constructor<LocalAnalysis , shared_ptr<LocalAnalysis>>(m,"LocalAnalysis");
// nested enums
static_cast<py::class_<LocalAnalysis , shared_ptr<LocalAnalysis> >>(klass)
// constructors
// custom constructors
// methods
// methods using call by reference i.s.o. return
// static methods
.def_static("Dump_s",
(void (*)( const LocalAnalysis_SurfaceContinuity & , std::ostream & ) ) static_cast<void (*)( const LocalAnalysis_SurfaceContinuity & , std::ostream & ) >(&LocalAnalysis::Dump),
R"#(This class compute s and gives tools to check the local continuity between two points situated on 2 curves.)#" , py::arg("surfconti"), py::arg("o")
)
.def_static("Dump_s",
(void (*)( const LocalAnalysis_CurveContinuity & , std::ostream & ) ) static_cast<void (*)( const LocalAnalysis_CurveContinuity & , std::ostream & ) >(&LocalAnalysis::Dump),
R"#(This function gives information about a variable SurfaceContinuity)#" , py::arg("curvconti"), py::arg("o")
)
// static methods using call by reference i.s.o. return
// operators
// additional methods and static methods
// properties
// methods returning by ref wrapped as properties
;
// Class LocalAnalysis_CurveContinuity from ./opencascade/LocalAnalysis_CurveContinuity.hxx
klass = m.attr("LocalAnalysis_CurveContinuity");
// nested enums
static_cast<py::class_<LocalAnalysis_CurveContinuity , shared_ptr<LocalAnalysis_CurveContinuity> >>(klass)
// constructors
.def(py::init< const opencascade::handle<Geom_Curve> &,const Standard_Real,const opencascade::handle<Geom_Curve> &,const Standard_Real,const GeomAbs_Shape,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real >() , py::arg("Curv1"), py::arg("u1"), py::arg("Curv2"), py::arg("u2"), py::arg("Order"), py::arg("EpsNul")=static_cast<const Standard_Real>(0.001), py::arg("EpsC0")=static_cast<const Standard_Real>(0.001), py::arg("EpsC1")=static_cast<const Standard_Real>(0.001), py::arg("EpsC2")=static_cast<const Standard_Real>(0.001), py::arg("EpsG1")=static_cast<const Standard_Real>(0.001), py::arg("EpsG2")=static_cast<const Standard_Real>(0.001), py::arg("Percent")=static_cast<const Standard_Real>(0.01), py::arg("Maxlen")=static_cast<const Standard_Real>(10000) )
// custom constructors
// methods
.def("IsDone",
(Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::IsDone),
R"#(None)#"
)
.def("StatusError",
(LocalAnalysis_StatusErrorType (LocalAnalysis_CurveContinuity::*)() const) static_cast<LocalAnalysis_StatusErrorType (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::StatusError),
R"#(None)#"
)
.def("ContinuityStatus",
(GeomAbs_Shape (LocalAnalysis_CurveContinuity::*)() const) static_cast<GeomAbs_Shape (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::ContinuityStatus),
R"#(None)#"
)
.def("C0Value",
(Standard_Real (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::C0Value),
R"#(None)#"
)
.def("C1Angle",
(Standard_Real (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::C1Angle),
R"#(None)#"
)
.def("C1Ratio",
(Standard_Real (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::C1Ratio),
R"#(None)#"
)
.def("C2Angle",
(Standard_Real (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::C2Angle),
R"#(None)#"
)
.def("C2Ratio",
(Standard_Real (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::C2Ratio),
R"#(None)#"
)
.def("G1Angle",
(Standard_Real (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::G1Angle),
R"#(None)#"
)
.def("G2Angle",
(Standard_Real (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::G2Angle),
R"#(None)#"
)
.def("G2CurvatureVariation",
(Standard_Real (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::G2CurvatureVariation),
R"#(None)#"
)
.def("IsC0",
(Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::IsC0),
R"#(None)#"
)
.def("IsC1",
(Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::IsC1),
R"#(None)#"
)
.def("IsC2",
(Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::IsC2),
R"#(None)#"
)
.def("IsG1",
(Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::IsG1),
R"#(None)#"
)
.def("IsG2",
(Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_CurveContinuity::*)() const>(&LocalAnalysis_CurveContinuity::IsG2),
R"#(None)#"
)
// methods using call by reference i.s.o. return
// static methods
// static methods using call by reference i.s.o. return
// operators
// additional methods and static methods
// properties
// methods returning by ref wrapped as properties
;
// Class LocalAnalysis_SurfaceContinuity from ./opencascade/LocalAnalysis_SurfaceContinuity.hxx
klass = m.attr("LocalAnalysis_SurfaceContinuity");
// nested enums
static_cast<py::class_<LocalAnalysis_SurfaceContinuity , shared_ptr<LocalAnalysis_SurfaceContinuity> >>(klass)
// constructors
.def(py::init< const opencascade::handle<Geom_Surface> &,const Standard_Real,const Standard_Real,const opencascade::handle<Geom_Surface> &,const Standard_Real,const Standard_Real,const GeomAbs_Shape,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real >() , py::arg("Surf1"), py::arg("u1"), py::arg("v1"), py::arg("Surf2"), py::arg("u2"), py::arg("v2"), py::arg("Order"), py::arg("EpsNul")=static_cast<const Standard_Real>(0.001), py::arg("EpsC0")=static_cast<const Standard_Real>(0.001), py::arg("EpsC1")=static_cast<const Standard_Real>(0.001), py::arg("EpsC2")=static_cast<const Standard_Real>(0.001), py::arg("EpsG1")=static_cast<const Standard_Real>(0.001), py::arg("Percent")=static_cast<const Standard_Real>(0.01), py::arg("Maxlen")=static_cast<const Standard_Real>(10000) )
.def(py::init< const opencascade::handle<Geom2d_Curve> &,const opencascade::handle<Geom2d_Curve> &,const Standard_Real,const opencascade::handle<Geom_Surface> &,const opencascade::handle<Geom_Surface> &,const GeomAbs_Shape,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real >() , py::arg("curv1"), py::arg("curv2"), py::arg("U"), py::arg("Surf1"), py::arg("Surf2"), py::arg("Order"), py::arg("EpsNul")=static_cast<const Standard_Real>(0.001), py::arg("EpsC0")=static_cast<const Standard_Real>(0.001), py::arg("EpsC1")=static_cast<const Standard_Real>(0.001), py::arg("EpsC2")=static_cast<const Standard_Real>(0.001), py::arg("EpsG1")=static_cast<const Standard_Real>(0.001), py::arg("Percent")=static_cast<const Standard_Real>(0.01), py::arg("Maxlen")=static_cast<const Standard_Real>(10000) )
.def(py::init< const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real,const Standard_Real >() , py::arg("EpsNul")=static_cast<const Standard_Real>(0.001), py::arg("EpsC0")=static_cast<const Standard_Real>(0.001), py::arg("EpsC1")=static_cast<const Standard_Real>(0.001), py::arg("EpsC2")=static_cast<const Standard_Real>(0.001), py::arg("EpsG1")=static_cast<const Standard_Real>(0.001), py::arg("Percent")=static_cast<const Standard_Real>(0.01), py::arg("Maxlen")=static_cast<const Standard_Real>(10000) )
// custom constructors
// methods
.def("ComputeAnalysis",
(void (LocalAnalysis_SurfaceContinuity::*)( GeomLProp_SLProps & , GeomLProp_SLProps & , const GeomAbs_Shape ) ) static_cast<void (LocalAnalysis_SurfaceContinuity::*)( GeomLProp_SLProps & , GeomLProp_SLProps & , const GeomAbs_Shape ) >(&LocalAnalysis_SurfaceContinuity::ComputeAnalysis),
R"#(None)#" , py::arg("Surf1"), py::arg("Surf2"), py::arg("Order")
)
.def("IsDone",
(Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::IsDone),
R"#(None)#"
)
.def("ContinuityStatus",
(GeomAbs_Shape (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<GeomAbs_Shape (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::ContinuityStatus),
R"#(None)#"
)
.def("StatusError",
(LocalAnalysis_StatusErrorType (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<LocalAnalysis_StatusErrorType (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::StatusError),
R"#(None)#"
)
.def("C0Value",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C0Value),
R"#(None)#"
)
.def("C1UAngle",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C1UAngle),
R"#(None)#"
)
.def("C1URatio",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C1URatio),
R"#(None)#"
)
.def("C1VAngle",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C1VAngle),
R"#(None)#"
)
.def("C1VRatio",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C1VRatio),
R"#(None)#"
)
.def("C2UAngle",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C2UAngle),
R"#(None)#"
)
.def("C2URatio",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C2URatio),
R"#(None)#"
)
.def("C2VAngle",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C2VAngle),
R"#(None)#"
)
.def("C2VRatio",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::C2VRatio),
R"#(None)#"
)
.def("G1Angle",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::G1Angle),
R"#(None)#"
)
.def("G2CurvatureGap",
(Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Real (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::G2CurvatureGap),
R"#(None)#"
)
.def("IsC0",
(Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::IsC0),
R"#(None)#"
)
.def("IsC1",
(Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::IsC1),
R"#(None)#"
)
.def("IsC2",
(Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::IsC2),
R"#(None)#"
)
.def("IsG1",
(Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::IsG1),
R"#(None)#"
)
.def("IsG2",
(Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const) static_cast<Standard_Boolean (LocalAnalysis_SurfaceContinuity::*)() const>(&LocalAnalysis_SurfaceContinuity::IsG2),
R"#(None)#"
)
// methods using call by reference i.s.o. return
// static methods
// static methods using call by reference i.s.o. return
// operators
// additional methods and static methods
// properties
// methods returning by ref wrapped as properties
;
// functions
// ./opencascade/LocalAnalysis.hxx
// ./opencascade/LocalAnalysis_CurveContinuity.hxx
// ./opencascade/LocalAnalysis_StatusErrorType.hxx
// ./opencascade/LocalAnalysis_SurfaceContinuity.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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