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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>
#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 <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.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 <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.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 <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.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 <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.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>
// module includes
#include <AppParCurves.hxx>
#include <AppParCurves_Array1OfConstraintCouple.hxx>
#include <AppParCurves_Array1OfMultiBSpCurve.hxx>
#include <AppParCurves_Array1OfMultiCurve.hxx>
#include <AppParCurves_Array1OfMultiPoint.hxx>
#include <AppParCurves_Constraint.hxx>
#include <AppParCurves_ConstraintCouple.hxx>
#include <AppParCurves_HArray1OfConstraintCouple.hxx>
#include <AppParCurves_HArray1OfMultiBSpCurve.hxx>
#include <AppParCurves_HArray1OfMultiCurve.hxx>
#include <AppParCurves_HArray1OfMultiPoint.hxx>
#include <AppParCurves_MultiBSpCurve.hxx>
#include <AppParCurves_MultiCurve.hxx>
#include <AppParCurves_MultiPoint.hxx>
#include <AppParCurves_SequenceOfMultiBSpCurve.hxx>
#include <AppParCurves_SequenceOfMultiCurve.hxx>
// template related includes
// ./opencascade/AppParCurves_Array1OfConstraintCouple.hxx
#include "NCollection_tmpl.hxx"
// ./opencascade/AppParCurves_Array1OfMultiBSpCurve.hxx
#include "NCollection_tmpl.hxx"
// ./opencascade/AppParCurves_Array1OfMultiCurve.hxx
#include "NCollection_tmpl.hxx"
// ./opencascade/AppParCurves_Array1OfMultiPoint.hxx
#include "NCollection_tmpl.hxx"
// ./opencascade/AppParCurves_SequenceOfMultiBSpCurve.hxx
#include "NCollection_tmpl.hxx"
// ./opencascade/AppParCurves_SequenceOfMultiCurve.hxx
#include "NCollection_tmpl.hxx"
// user-defined pre
#include "OCP_specific.inc"
// user-defined inclusion per module
// Module definiiton
void register_AppParCurves(py::module &main_module) {
py::module m = static_cast<py::module>(main_module.attr("AppParCurves"));
py::object klass;
//Python trampoline classes
// classes
// Class AppParCurves from ./opencascade/AppParCurves.hxx
klass = m.attr("AppParCurves");
// default constructor
register_default_constructor<AppParCurves , shared_ptr<AppParCurves>>(m,"AppParCurves");
// nested enums
static_cast<py::class_<AppParCurves , shared_ptr<AppParCurves> >>(klass)
// constructors
// custom constructors
// methods
// methods using call by reference i.s.o. return
// static methods
.def_static("BernsteinMatrix_s",
(void (*)( const Standard_Integer , const math_VectorBase<double> & , math_Matrix & ) ) static_cast<void (*)( const Standard_Integer , const math_VectorBase<double> & , math_Matrix & ) >(&AppParCurves::BernsteinMatrix),
R"#(None)#" , py::arg("NbPoles"), py::arg("U"), py::arg("A")
)
.def_static("Bernstein_s",
(void (*)( const Standard_Integer , const math_VectorBase<double> & , math_Matrix & , math_Matrix & ) ) static_cast<void (*)( const Standard_Integer , const math_VectorBase<double> & , math_Matrix & , math_Matrix & ) >(&AppParCurves::Bernstein),
R"#(None)#" , py::arg("NbPoles"), py::arg("U"), py::arg("A"), py::arg("DA")
)
.def_static("SecondDerivativeBernstein_s",
(void (*)( const Standard_Real , math_VectorBase<double> & ) ) static_cast<void (*)( const Standard_Real , math_VectorBase<double> & ) >(&AppParCurves::SecondDerivativeBernstein),
R"#(None)#" , py::arg("U"), py::arg("DDA")
)
.def_static("SplineFunction_s",
(void (*)( const Standard_Integer , const Standard_Integer , const math_VectorBase<double> & , const math_VectorBase<double> & , math_Matrix & , math_Matrix & , math_VectorBase<int> & ) ) static_cast<void (*)( const Standard_Integer , const Standard_Integer , const math_VectorBase<double> & , const math_VectorBase<double> & , math_Matrix & , math_Matrix & , math_VectorBase<int> & ) >(&AppParCurves::SplineFunction),
R"#(None)#" , py::arg("NbPoles"), py::arg("Degree"), py::arg("Parameters"), py::arg("FlatKnots"), py::arg("A"), py::arg("DA"), py::arg("Index")
)
// 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 AppParCurves_ConstraintCouple from ./opencascade/AppParCurves_ConstraintCouple.hxx
klass = m.attr("AppParCurves_ConstraintCouple");
// nested enums
static_cast<py::class_<AppParCurves_ConstraintCouple , shared_ptr<AppParCurves_ConstraintCouple> >>(klass)
// constructors
.def(py::init< >() )
.def(py::init< const Standard_Integer,const AppParCurves_Constraint >() , py::arg("TheIndex"), py::arg("Cons") )
// custom constructors
// methods
.def("Index",
(Standard_Integer (AppParCurves_ConstraintCouple::*)() const) static_cast<Standard_Integer (AppParCurves_ConstraintCouple::*)() const>(&AppParCurves_ConstraintCouple::Index),
R"#(returns the index of the constraint object.)#"
)
.def("Constraint",
(AppParCurves_Constraint (AppParCurves_ConstraintCouple::*)() const) static_cast<AppParCurves_Constraint (AppParCurves_ConstraintCouple::*)() const>(&AppParCurves_ConstraintCouple::Constraint),
R"#(returns the constraint of the object.)#"
)
.def("SetIndex",
(void (AppParCurves_ConstraintCouple::*)( const Standard_Integer ) ) static_cast<void (AppParCurves_ConstraintCouple::*)( const Standard_Integer ) >(&AppParCurves_ConstraintCouple::SetIndex),
R"#(Changes the index of the constraint object.)#" , py::arg("TheIndex")
)
.def("SetConstraint",
(void (AppParCurves_ConstraintCouple::*)( const AppParCurves_Constraint ) ) static_cast<void (AppParCurves_ConstraintCouple::*)( const AppParCurves_Constraint ) >(&AppParCurves_ConstraintCouple::SetConstraint),
R"#(Changes the constraint of the object.)#" , py::arg("Cons")
)
// 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 AppParCurves_HArray1OfConstraintCouple from ./opencascade/AppParCurves_HArray1OfConstraintCouple.hxx
klass = m.attr("AppParCurves_HArray1OfConstraintCouple");
// nested enums
static_cast<py::class_<AppParCurves_HArray1OfConstraintCouple ,opencascade::handle<AppParCurves_HArray1OfConstraintCouple> , AppParCurves_Array1OfConstraintCouple , Standard_Transient >>(klass)
// constructors
.def(py::init< >() )
.def(py::init< const Standard_Integer,const Standard_Integer >() , py::arg("theLower"), py::arg("theUpper") )
.def(py::init< const Standard_Integer,const Standard_Integer, const AppParCurves_ConstraintCouple & >() , py::arg("theLower"), py::arg("theUpper"), py::arg("theValue") )
.def(py::init< const AppParCurves_ConstraintCouple &,const Standard_Integer,const Standard_Integer,const bool >() , py::arg("theBegin"), py::arg("theLower"), py::arg("theUpper"), py::arg("arg") )
.def(py::init< const NCollection_Array1<AppParCurves_ConstraintCouple> & >() , py::arg("theOther") )
// custom constructors
// methods
// methods using call by reference i.s.o. return
// static methods
.def_static("get_type_name_s",
(const char * (*)() ) static_cast<const char * (*)() >(&AppParCurves_HArray1OfConstraintCouple::get_type_name),
R"#(None)#"
)
.def_static("get_type_descriptor_s",
(const opencascade::handle<Standard_Type> & (*)() ) static_cast<const opencascade::handle<Standard_Type> & (*)() >(&AppParCurves_HArray1OfConstraintCouple::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("Array1",
(const AppParCurves_Array1OfConstraintCouple & (AppParCurves_HArray1OfConstraintCouple::*)() const) static_cast<const AppParCurves_Array1OfConstraintCouple & (AppParCurves_HArray1OfConstraintCouple::*)() const>(&AppParCurves_HArray1OfConstraintCouple::Array1),
R"#(None)#"
)
.def("ChangeArray1",
(AppParCurves_Array1OfConstraintCouple & (AppParCurves_HArray1OfConstraintCouple::*)() ) static_cast<AppParCurves_Array1OfConstraintCouple & (AppParCurves_HArray1OfConstraintCouple::*)() >(&AppParCurves_HArray1OfConstraintCouple::ChangeArray1),
R"#(None)#"
, py::return_value_policy::reference_internal
)
.def("DynamicType",
(const opencascade::handle<Standard_Type> & (AppParCurves_HArray1OfConstraintCouple::*)() const) static_cast<const opencascade::handle<Standard_Type> & (AppParCurves_HArray1OfConstraintCouple::*)() const>(&AppParCurves_HArray1OfConstraintCouple::DynamicType),
R"#(None)#"
)
;
// Class AppParCurves_HArray1OfMultiBSpCurve from ./opencascade/AppParCurves_HArray1OfMultiBSpCurve.hxx
klass = m.attr("AppParCurves_HArray1OfMultiBSpCurve");
// nested enums
static_cast<py::class_<AppParCurves_HArray1OfMultiBSpCurve ,opencascade::handle<AppParCurves_HArray1OfMultiBSpCurve> , AppParCurves_Array1OfMultiBSpCurve , Standard_Transient >>(klass)
// constructors
.def(py::init< >() )
.def(py::init< const Standard_Integer,const Standard_Integer >() , py::arg("theLower"), py::arg("theUpper") )
.def(py::init< const Standard_Integer,const Standard_Integer, const AppParCurves_MultiBSpCurve & >() , py::arg("theLower"), py::arg("theUpper"), py::arg("theValue") )
.def(py::init< const AppParCurves_MultiBSpCurve &,const Standard_Integer,const Standard_Integer,const bool >() , py::arg("theBegin"), py::arg("theLower"), py::arg("theUpper"), py::arg("arg") )
.def(py::init< const NCollection_Array1<AppParCurves_MultiBSpCurve> & >() , py::arg("theOther") )
// custom constructors
// methods
// methods using call by reference i.s.o. return
// static methods
.def_static("get_type_name_s",
(const char * (*)() ) static_cast<const char * (*)() >(&AppParCurves_HArray1OfMultiBSpCurve::get_type_name),
R"#(None)#"
)
.def_static("get_type_descriptor_s",
(const opencascade::handle<Standard_Type> & (*)() ) static_cast<const opencascade::handle<Standard_Type> & (*)() >(&AppParCurves_HArray1OfMultiBSpCurve::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("Array1",
(const AppParCurves_Array1OfMultiBSpCurve & (AppParCurves_HArray1OfMultiBSpCurve::*)() const) static_cast<const AppParCurves_Array1OfMultiBSpCurve & (AppParCurves_HArray1OfMultiBSpCurve::*)() const>(&AppParCurves_HArray1OfMultiBSpCurve::Array1),
R"#(None)#"
)
.def("ChangeArray1",
(AppParCurves_Array1OfMultiBSpCurve & (AppParCurves_HArray1OfMultiBSpCurve::*)() ) static_cast<AppParCurves_Array1OfMultiBSpCurve & (AppParCurves_HArray1OfMultiBSpCurve::*)() >(&AppParCurves_HArray1OfMultiBSpCurve::ChangeArray1),
R"#(None)#"
, py::return_value_policy::reference_internal
)
.def("DynamicType",
(const opencascade::handle<Standard_Type> & (AppParCurves_HArray1OfMultiBSpCurve::*)() const) static_cast<const opencascade::handle<Standard_Type> & (AppParCurves_HArray1OfMultiBSpCurve::*)() const>(&AppParCurves_HArray1OfMultiBSpCurve::DynamicType),
R"#(None)#"
)
;
// Class AppParCurves_HArray1OfMultiCurve from ./opencascade/AppParCurves_HArray1OfMultiCurve.hxx
klass = m.attr("AppParCurves_HArray1OfMultiCurve");
// nested enums
static_cast<py::class_<AppParCurves_HArray1OfMultiCurve ,opencascade::handle<AppParCurves_HArray1OfMultiCurve> , AppParCurves_Array1OfMultiCurve , Standard_Transient >>(klass)
// constructors
.def(py::init< >() )
.def(py::init< const Standard_Integer,const Standard_Integer >() , py::arg("theLower"), py::arg("theUpper") )
.def(py::init< const Standard_Integer,const Standard_Integer, const AppParCurves_MultiCurve & >() , py::arg("theLower"), py::arg("theUpper"), py::arg("theValue") )
.def(py::init< const AppParCurves_MultiCurve &,const Standard_Integer,const Standard_Integer,const bool >() , py::arg("theBegin"), py::arg("theLower"), py::arg("theUpper"), py::arg("arg") )
.def(py::init< const NCollection_Array1<AppParCurves_MultiCurve> & >() , py::arg("theOther") )
// custom constructors
// methods
// methods using call by reference i.s.o. return
// static methods
.def_static("get_type_name_s",
(const char * (*)() ) static_cast<const char * (*)() >(&AppParCurves_HArray1OfMultiCurve::get_type_name),
R"#(None)#"
)
.def_static("get_type_descriptor_s",
(const opencascade::handle<Standard_Type> & (*)() ) static_cast<const opencascade::handle<Standard_Type> & (*)() >(&AppParCurves_HArray1OfMultiCurve::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("Array1",
(const AppParCurves_Array1OfMultiCurve & (AppParCurves_HArray1OfMultiCurve::*)() const) static_cast<const AppParCurves_Array1OfMultiCurve & (AppParCurves_HArray1OfMultiCurve::*)() const>(&AppParCurves_HArray1OfMultiCurve::Array1),
R"#(None)#"
)
.def("ChangeArray1",
(AppParCurves_Array1OfMultiCurve & (AppParCurves_HArray1OfMultiCurve::*)() ) static_cast<AppParCurves_Array1OfMultiCurve & (AppParCurves_HArray1OfMultiCurve::*)() >(&AppParCurves_HArray1OfMultiCurve::ChangeArray1),
R"#(None)#"
, py::return_value_policy::reference_internal
)
.def("DynamicType",
(const opencascade::handle<Standard_Type> & (AppParCurves_HArray1OfMultiCurve::*)() const) static_cast<const opencascade::handle<Standard_Type> & (AppParCurves_HArray1OfMultiCurve::*)() const>(&AppParCurves_HArray1OfMultiCurve::DynamicType),
R"#(None)#"
)
;
// Class AppParCurves_HArray1OfMultiPoint from ./opencascade/AppParCurves_HArray1OfMultiPoint.hxx
klass = m.attr("AppParCurves_HArray1OfMultiPoint");
// nested enums
static_cast<py::class_<AppParCurves_HArray1OfMultiPoint ,opencascade::handle<AppParCurves_HArray1OfMultiPoint> , AppParCurves_Array1OfMultiPoint , Standard_Transient >>(klass)
// constructors
.def(py::init< >() )
.def(py::init< const Standard_Integer,const Standard_Integer >() , py::arg("theLower"), py::arg("theUpper") )
.def(py::init< const Standard_Integer,const Standard_Integer, const AppParCurves_MultiPoint & >() , py::arg("theLower"), py::arg("theUpper"), py::arg("theValue") )
.def(py::init< const AppParCurves_MultiPoint &,const Standard_Integer,const Standard_Integer,const bool >() , py::arg("theBegin"), py::arg("theLower"), py::arg("theUpper"), py::arg("arg") )
.def(py::init< const NCollection_Array1<AppParCurves_MultiPoint> & >() , py::arg("theOther") )
// custom constructors
// methods
// methods using call by reference i.s.o. return
// static methods
.def_static("get_type_name_s",
(const char * (*)() ) static_cast<const char * (*)() >(&AppParCurves_HArray1OfMultiPoint::get_type_name),
R"#(None)#"
)
.def_static("get_type_descriptor_s",
(const opencascade::handle<Standard_Type> & (*)() ) static_cast<const opencascade::handle<Standard_Type> & (*)() >(&AppParCurves_HArray1OfMultiPoint::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("Array1",
(const AppParCurves_Array1OfMultiPoint & (AppParCurves_HArray1OfMultiPoint::*)() const) static_cast<const AppParCurves_Array1OfMultiPoint & (AppParCurves_HArray1OfMultiPoint::*)() const>(&AppParCurves_HArray1OfMultiPoint::Array1),
R"#(None)#"
)
.def("ChangeArray1",
(AppParCurves_Array1OfMultiPoint & (AppParCurves_HArray1OfMultiPoint::*)() ) static_cast<AppParCurves_Array1OfMultiPoint & (AppParCurves_HArray1OfMultiPoint::*)() >(&AppParCurves_HArray1OfMultiPoint::ChangeArray1),
R"#(None)#"
, py::return_value_policy::reference_internal
)
.def("DynamicType",
(const opencascade::handle<Standard_Type> & (AppParCurves_HArray1OfMultiPoint::*)() const) static_cast<const opencascade::handle<Standard_Type> & (AppParCurves_HArray1OfMultiPoint::*)() const>(&AppParCurves_HArray1OfMultiPoint::DynamicType),
R"#(None)#"
)
;
// Class AppParCurves_MultiCurve from ./opencascade/AppParCurves_MultiCurve.hxx
klass = m.attr("AppParCurves_MultiCurve");
// nested enums
static_cast<py::class_<AppParCurves_MultiCurve , shared_ptr<AppParCurves_MultiCurve> >>(klass)
// constructors
.def(py::init< >() )
.def(py::init< const Standard_Integer >() , py::arg("NbPol") )
.def(py::init< const NCollection_Array1<AppParCurves_MultiPoint> & >() , py::arg("tabMU") )
// custom constructors
// methods
.def("SetNbPoles",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer ) ) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer ) >(&AppParCurves_MultiCurve::SetNbPoles),
R"#(The number of poles of the MultiCurve will be set to <nbPoles>.)#" , py::arg("nbPoles")
)
.def("SetValue",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const AppParCurves_MultiPoint & ) ) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const AppParCurves_MultiPoint & ) >(&AppParCurves_MultiCurve::SetValue),
R"#(sets the MultiPoint of range Index to the value <MPoint>. An exception is raised if Index <0 or Index >NbMPoint.)#" , py::arg("Index"), py::arg("MPoint")
)
.def("NbCurves",
(Standard_Integer (AppParCurves_MultiCurve::*)() const) static_cast<Standard_Integer (AppParCurves_MultiCurve::*)() const>(&AppParCurves_MultiCurve::NbCurves),
R"#(Returns the number of curves resulting from the approximation of a MultiLine.)#"
)
.def("NbPoles",
(Standard_Integer (AppParCurves_MultiCurve::*)() const) static_cast<Standard_Integer (AppParCurves_MultiCurve::*)() const>(&AppParCurves_MultiCurve::NbPoles),
R"#(Returns the number of poles on curves resulting from the approximation of a MultiLine.)#"
)
.def("Degree",
(Standard_Integer (AppParCurves_MultiCurve::*)() const) static_cast<Standard_Integer (AppParCurves_MultiCurve::*)() const>(&AppParCurves_MultiCurve::Degree),
R"#(returns the degree of the curves.)#"
)
.def("Dimension",
(Standard_Integer (AppParCurves_MultiCurve::*)( const Standard_Integer ) const) static_cast<Standard_Integer (AppParCurves_MultiCurve::*)( const Standard_Integer ) const>(&AppParCurves_MultiCurve::Dimension),
R"#(returns the dimension of the CuIndex curve. An exception is raised if CuIndex<0 or CuIndex>NbCurves.)#" , py::arg("CuIndex")
)
.def("Curve",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , NCollection_Array1<gp_Pnt> & ) const) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , NCollection_Array1<gp_Pnt> & ) const>(&AppParCurves_MultiCurve::Curve),
R"#(returns the Pole array of the curve of range CuIndex. An exception is raised if the dimension of the curve is 2d.)#" , py::arg("CuIndex"), py::arg("TabPnt")
)
.def("Curve",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , NCollection_Array1<gp_Pnt2d> & ) const) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , NCollection_Array1<gp_Pnt2d> & ) const>(&AppParCurves_MultiCurve::Curve),
R"#(returns the Pole array of the curve of range CuIndex. An exception is raised if the dimension of the curve is 3d.)#" , py::arg("CuIndex"), py::arg("TabPnt")
)
.def("Value",
(const AppParCurves_MultiPoint & (AppParCurves_MultiCurve::*)( const Standard_Integer ) const) static_cast<const AppParCurves_MultiPoint & (AppParCurves_MultiCurve::*)( const Standard_Integer ) const>(&AppParCurves_MultiCurve::Value),
R"#(returns the Index MultiPoint. An exception is raised if Index <0 or Index >Degree+1.)#" , py::arg("Index")
)
.def("Pole",
(const gp_Pnt & (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Integer ) const) static_cast<const gp_Pnt & (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Integer ) const>(&AppParCurves_MultiCurve::Pole),
R"#(returns the Nieme pole of the CuIndex curve. the curve must be a 3D curve.)#" , py::arg("CuIndex"), py::arg("Nieme")
)
.def("Pole2d",
(const gp_Pnt2d & (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Integer ) const) static_cast<const gp_Pnt2d & (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Integer ) const>(&AppParCurves_MultiCurve::Pole2d),
R"#(returns the Nieme pole of the CuIndex curve. the curve must be a 2D curve.)#" , py::arg("CuIndex"), py::arg("Nieme")
)
.def("Transform",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) ) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) >(&AppParCurves_MultiCurve::Transform),
R"#(Applies a transformation to the curve of range <CuIndex>. newx = x + dx*oldx newy = y + dy*oldy for all points of the curve. newz = z + dz*oldz)#" , py::arg("CuIndex"), py::arg("x"), py::arg("dx"), py::arg("y"), py::arg("dy"), py::arg("z"), py::arg("dz")
)
.def("Transform2d",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) ) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) >(&AppParCurves_MultiCurve::Transform2d),
R"#(Applies a transformation to the Curve of range <CuIndex>. newx = x + dx*oldx newy = y + dy*oldy for all points of the curve.)#" , py::arg("CuIndex"), py::arg("x"), py::arg("dx"), py::arg("y"), py::arg("dy")
)
.def("Value",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & ) const) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & ) const>(&AppParCurves_MultiCurve::Value),
R"#(returns the value of the point with a parameter U on the Bezier curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 2d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt")
)
.def("Value",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & ) const) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & ) const>(&AppParCurves_MultiCurve::Value),
R"#(returns the value of the point with a parameter U on the Bezier curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 3d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt")
)
.def("D1",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & , gp_Vec & ) const) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & , gp_Vec & ) const>(&AppParCurves_MultiCurve::D1),
R"#(returns the value of the point with a parameter U on the Bezier curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 3d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt"), py::arg("V1")
)
.def("D1",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & , gp_Vec2d & ) const) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & , gp_Vec2d & ) const>(&AppParCurves_MultiCurve::D1),
R"#(returns the value of the point with a parameter U on the Bezier curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 2d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt"), py::arg("V1")
)
.def("D2",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & , gp_Vec & , gp_Vec & ) const) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & , gp_Vec & , gp_Vec & ) const>(&AppParCurves_MultiCurve::D2),
R"#(returns the value of the point with a parameter U on the Bezier curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 3d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt"), py::arg("V1"), py::arg("V2")
)
.def("D2",
(void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & , gp_Vec2d & , gp_Vec2d & ) const) static_cast<void (AppParCurves_MultiCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & , gp_Vec2d & , gp_Vec2d & ) const>(&AppParCurves_MultiCurve::D2),
R"#(returns the value of the point with a parameter U on the Bezier curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 2d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt"), py::arg("V1"), py::arg("V2")
)
.def("Dump",
(void (AppParCurves_MultiCurve::*)( std::ostream & ) const) static_cast<void (AppParCurves_MultiCurve::*)( std::ostream & ) const>(&AppParCurves_MultiCurve::Dump),
R"#(Prints on the stream o information on the current state of the object. Is used to redefine the operator <<.)#" , py::arg("o")
)
// 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 AppParCurves_MultiPoint from ./opencascade/AppParCurves_MultiPoint.hxx
klass = m.attr("AppParCurves_MultiPoint");
// nested enums
static_cast<py::class_<AppParCurves_MultiPoint , shared_ptr<AppParCurves_MultiPoint> >>(klass)
// constructors
.def(py::init< >() )
.def(py::init< const Standard_Integer,const Standard_Integer >() , py::arg("NbPoints"), py::arg("NbPoints2d") )
.def(py::init< const NCollection_Array1<gp_Pnt> & >() , py::arg("tabP") )
.def(py::init< const NCollection_Array1<gp_Pnt2d> & >() , py::arg("tabP2d") )
.def(py::init< const NCollection_Array1<gp_Pnt> &, const NCollection_Array1<gp_Pnt2d> & >() , py::arg("tabP"), py::arg("tabP2d") )
// custom constructors
// methods
.def("SetPoint",
(void (AppParCurves_MultiPoint::*)( const Standard_Integer , const gp_Pnt & ) ) static_cast<void (AppParCurves_MultiPoint::*)( const Standard_Integer , const gp_Pnt & ) >(&AppParCurves_MultiPoint::SetPoint),
R"#(the 3d Point of range Index of this MultiPoint is set to <Point>. An exception is raised if Index < 0 or Index > number of 3d Points.)#" , py::arg("Index"), py::arg("Point")
)
.def("Point",
(const gp_Pnt & (AppParCurves_MultiPoint::*)( const Standard_Integer ) const) static_cast<const gp_Pnt & (AppParCurves_MultiPoint::*)( const Standard_Integer ) const>(&AppParCurves_MultiPoint::Point),
R"#(returns the 3d Point of range Index. An exception is raised if Index < 0 or Index < number of 3d Points.)#" , py::arg("Index")
)
.def("SetPoint2d",
(void (AppParCurves_MultiPoint::*)( const Standard_Integer , const gp_Pnt2d & ) ) static_cast<void (AppParCurves_MultiPoint::*)( const Standard_Integer , const gp_Pnt2d & ) >(&AppParCurves_MultiPoint::SetPoint2d),
R"#(The 2d Point of range Index is set to <Point>. An exception is raised if Index > 3d Points or Index > total number of Points.)#" , py::arg("Index"), py::arg("Point")
)
.def("Point2d",
(const gp_Pnt2d & (AppParCurves_MultiPoint::*)( const Standard_Integer ) const) static_cast<const gp_Pnt2d & (AppParCurves_MultiPoint::*)( const Standard_Integer ) const>(&AppParCurves_MultiPoint::Point2d),
R"#(returns the 2d Point of range Index. An exception is raised if index <= number of 3d Points or Index > total number of Points.)#" , py::arg("Index")
)
.def("Dimension",
(Standard_Integer (AppParCurves_MultiPoint::*)( const Standard_Integer ) const) static_cast<Standard_Integer (AppParCurves_MultiPoint::*)( const Standard_Integer ) const>(&AppParCurves_MultiPoint::Dimension),
R"#(returns the dimension of the point of range Index. An exception is raised if Index <0 or Index > NbCurves.)#" , py::arg("Index")
)
.def("NbPoints",
(Standard_Integer (AppParCurves_MultiPoint::*)() const) static_cast<Standard_Integer (AppParCurves_MultiPoint::*)() const>(&AppParCurves_MultiPoint::NbPoints),
R"#(returns the number of points of dimension 3D.)#"
)
.def("NbPoints2d",
(Standard_Integer (AppParCurves_MultiPoint::*)() const) static_cast<Standard_Integer (AppParCurves_MultiPoint::*)() const>(&AppParCurves_MultiPoint::NbPoints2d),
R"#(returns the number of points of dimension 2D.)#"
)
.def("Transform",
(void (AppParCurves_MultiPoint::*)( const Standard_Integer , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) ) static_cast<void (AppParCurves_MultiPoint::*)( const Standard_Integer , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) >(&AppParCurves_MultiPoint::Transform),
R"#(Applies a transformation to the curve of range <CuIndex>. newx = x + dx*oldx newy = y + dy*oldy for all points of the curve. newz = z + dz*oldz)#" , py::arg("CuIndex"), py::arg("x"), py::arg("dx"), py::arg("y"), py::arg("dy"), py::arg("z"), py::arg("dz")
)
.def("Transform2d",
(void (AppParCurves_MultiPoint::*)( const Standard_Integer , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) ) static_cast<void (AppParCurves_MultiPoint::*)( const Standard_Integer , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) >(&AppParCurves_MultiPoint::Transform2d),
R"#(Applies a transformation to the Curve of range <CuIndex>. newx = x + dx*oldx newy = y + dy*oldy for all points of the curve.)#" , py::arg("CuIndex"), py::arg("x"), py::arg("dx"), py::arg("y"), py::arg("dy")
)
.def("Dump",
(void (AppParCurves_MultiPoint::*)( std::ostream & ) const) static_cast<void (AppParCurves_MultiPoint::*)( std::ostream & ) const>(&AppParCurves_MultiPoint::Dump),
R"#(Prints on the stream o information on the current state of the object. Is used to redefine the operator <<.)#" , py::arg("o")
)
.def("NbPoints",
(Standard_Integer (AppParCurves_MultiPoint::*)() const) static_cast<Standard_Integer (AppParCurves_MultiPoint::*)() const>(&AppParCurves_MultiPoint::NbPoints),
R"#(returns the number of points of dimension 3D.)#"
)
.def("NbPoints2d",
(Standard_Integer (AppParCurves_MultiPoint::*)() const) static_cast<Standard_Integer (AppParCurves_MultiPoint::*)() const>(&AppParCurves_MultiPoint::NbPoints2d),
R"#(returns the number of points of dimension 2D.)#"
)
.def("Dimension",
(Standard_Integer (AppParCurves_MultiPoint::*)( const Standard_Integer ) const) static_cast<Standard_Integer (AppParCurves_MultiPoint::*)( const Standard_Integer ) const>(&AppParCurves_MultiPoint::Dimension),
R"#(returns the dimension of the point of range Index. An exception is raised if Index <0 or Index > NbCurves.)#" , py::arg("Index")
)
// 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 AppParCurves_MultiBSpCurve from ./opencascade/AppParCurves_MultiBSpCurve.hxx
klass = m.attr("AppParCurves_MultiBSpCurve");
// nested enums
static_cast<py::class_<AppParCurves_MultiBSpCurve , shared_ptr<AppParCurves_MultiBSpCurve> , AppParCurves_MultiCurve >>(klass)
// constructors
.def(py::init< >() )
.def(py::init< const Standard_Integer >() , py::arg("NbPol") )
.def(py::init< const NCollection_Array1<AppParCurves_MultiPoint> &, const NCollection_Array1<Standard_Real> &, const NCollection_Array1<Standard_Integer> & >() , py::arg("tabMU"), py::arg("Knots"), py::arg("Mults") )
.def(py::init< const AppParCurves_MultiCurve &, const NCollection_Array1<Standard_Real> &, const NCollection_Array1<Standard_Integer> & >() , py::arg("SC"), py::arg("Knots"), py::arg("Mults") )
// custom constructors
// methods
.def("SetKnots",
(void (AppParCurves_MultiBSpCurve::*)( const NCollection_Array1<Standard_Real> & ) ) static_cast<void (AppParCurves_MultiBSpCurve::*)( const NCollection_Array1<Standard_Real> & ) >(&AppParCurves_MultiBSpCurve::SetKnots),
R"#(Knots of the multiBSpCurve are assigned to <theknots>.)#" , py::arg("theKnots")
)
.def("SetMultiplicities",
(void (AppParCurves_MultiBSpCurve::*)( const NCollection_Array1<Standard_Integer> & ) ) static_cast<void (AppParCurves_MultiBSpCurve::*)( const NCollection_Array1<Standard_Integer> & ) >(&AppParCurves_MultiBSpCurve::SetMultiplicities),
R"#(Multiplicities of the multiBSpCurve are assigned to <theMults>.)#" , py::arg("theMults")
)
.def("Degree",
(Standard_Integer (AppParCurves_MultiBSpCurve::*)() const) static_cast<Standard_Integer (AppParCurves_MultiBSpCurve::*)() const>(&AppParCurves_MultiBSpCurve::Degree),
R"#(returns the degree of the curve(s).)#"
)
.def("Value",
(void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & ) const) static_cast<void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & ) const>(&AppParCurves_MultiBSpCurve::Value),
R"#(returns the value of the point with a parameter U on the BSpline curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 2d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt")
)
.def("Value",
(void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & ) const) static_cast<void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & ) const>(&AppParCurves_MultiBSpCurve::Value),
R"#(returns the value of the point with a parameter U on the BSpline curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 3d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt")
)
.def("D1",
(void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & , gp_Vec & ) const) static_cast<void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & , gp_Vec & ) const>(&AppParCurves_MultiBSpCurve::D1),
R"#(returns the value of the point with a parameter U on the BSpline curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 3d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt"), py::arg("V1")
)
.def("D1",
(void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & , gp_Vec2d & ) const) static_cast<void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & , gp_Vec2d & ) const>(&AppParCurves_MultiBSpCurve::D1),
R"#(returns the value of the point with a parameter U on the BSpline curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 2d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt"), py::arg("V1")
)
.def("D2",
(void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & , gp_Vec & , gp_Vec & ) const) static_cast<void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt & , gp_Vec & , gp_Vec & ) const>(&AppParCurves_MultiBSpCurve::D2),
R"#(returns the value of the point with a parameter U on the BSpline curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 3d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt"), py::arg("V1"), py::arg("V2")
)
.def("D2",
(void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & , gp_Vec2d & , gp_Vec2d & ) const) static_cast<void (AppParCurves_MultiBSpCurve::*)( const Standard_Integer , const Standard_Real , gp_Pnt2d & , gp_Vec2d & , gp_Vec2d & ) const>(&AppParCurves_MultiBSpCurve::D2),
R"#(returns the value of the point with a parameter U on the BSpline curve number CuIndex. An exception is raised if CuIndex <0 or > NbCurves. An exception is raised if the curve dimension is 2d.)#" , py::arg("CuIndex"), py::arg("U"), py::arg("Pt"), py::arg("V1"), py::arg("V2")
)
.def("Dump",
(void (AppParCurves_MultiBSpCurve::*)( std::ostream & ) const) static_cast<void (AppParCurves_MultiBSpCurve::*)( std::ostream & ) const>(&AppParCurves_MultiBSpCurve::Dump),
R"#(Prints on the stream o information on the current state of the object. Is used to redefine the operator <<.)#" , py::arg("o")
)
// 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
.def("Knots",
(const TColStd_Array1OfReal & (AppParCurves_MultiBSpCurve::*)() const) static_cast<const TColStd_Array1OfReal & (AppParCurves_MultiBSpCurve::*)() const>(&AppParCurves_MultiBSpCurve::Knots),
R"#(Returns an array of Reals containing the multiplicities of curves resulting from the approximation.)#"
, py::return_value_policy::reference_internal
)
.def("Multiplicities",
(const TColStd_Array1OfInteger & (AppParCurves_MultiBSpCurve::*)() const) static_cast<const TColStd_Array1OfInteger & (AppParCurves_MultiBSpCurve::*)() const>(&AppParCurves_MultiBSpCurve::Multiplicities),
R"#(Returns an array of Reals containing the multiplicities of curves resulting from the approximation.)#"
, py::return_value_policy::reference_internal
)
;
// functions
// ./opencascade/AppParCurves.hxx
// ./opencascade/AppParCurves_Array1OfConstraintCouple.hxx
// ./opencascade/AppParCurves_Array1OfMultiBSpCurve.hxx
// ./opencascade/AppParCurves_Array1OfMultiCurve.hxx
// ./opencascade/AppParCurves_Array1OfMultiPoint.hxx
// ./opencascade/AppParCurves_Constraint.hxx
// ./opencascade/AppParCurves_ConstraintCouple.hxx
// ./opencascade/AppParCurves_HArray1OfConstraintCouple.hxx
// ./opencascade/AppParCurves_HArray1OfMultiBSpCurve.hxx
// ./opencascade/AppParCurves_HArray1OfMultiCurve.hxx
// ./opencascade/AppParCurves_HArray1OfMultiPoint.hxx
// ./opencascade/AppParCurves_MultiBSpCurve.hxx
// ./opencascade/AppParCurves_MultiCurve.hxx
// ./opencascade/AppParCurves_MultiPoint.hxx
// ./opencascade/AppParCurves_SequenceOfMultiBSpCurve.hxx
// ./opencascade/AppParCurves_SequenceOfMultiCurve.hxx
// Additional functions
// operators
// register typdefs
register_template_NCollection_Array1<AppParCurves_ConstraintCouple>(m,"AppParCurves_Array1OfConstraintCouple");
register_template_NCollection_Array1<AppParCurves_MultiBSpCurve>(m,"AppParCurves_Array1OfMultiBSpCurve");
register_template_NCollection_Array1<AppParCurves_MultiCurve>(m,"AppParCurves_Array1OfMultiCurve");
register_template_NCollection_Array1<AppParCurves_MultiPoint>(m,"AppParCurves_Array1OfMultiPoint");
register_template_NCollection_Sequence<AppParCurves_MultiBSpCurve>(m,"AppParCurves_SequenceOfMultiBSpCurve");
register_template_NCollection_Sequence<AppParCurves_MultiCurve>(m,"AppParCurves_SequenceOfMultiCurve");
// exceptions
// user-defined post-inclusion per module in the body
};
// user-defined post-inclusion per module
// user-defined post
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