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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 <ShapeAlgo_AlgoContainer.hxx>
#include <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.hxx>
#include <ShapeAlgo_ToolContainer.hxx>
#include <ShapeAnalysis_Wire.hxx>
#include <ShapeExtend_WireData.hxx>
#include <Geom_BSplineCurve.hxx>
#include <Geom2d_BSplineCurve.hxx>
#include <TopoDS_Shape.hxx>
#include <Geom_BSplineSurface.hxx>
#include <Geom_Surface.hxx>
#include <TopoDS_Wire.hxx>
#include <TopoDS_Face.hxx>
#include <Adaptor2d_Curve2d.hxx>
#include <Adaptor3d_Curve.hxx>
#include <Adaptor3d_Surface.hxx>
#include <ShapeFix_Shape.hxx>
#include <ShapeFix_EdgeProjAux.hxx>
// module includes
#include <ShapeAlgo.hxx>
#include <ShapeAlgo_AlgoContainer.hxx>
#include <ShapeAlgo_ToolContainer.hxx>
// template related includes
// user-defined pre
#include "OCP_specific.inc"
// user-defined inclusion per module
// Module definiiton
void register_ShapeAlgo(py::module &main_module) {
py::module m = static_cast<py::module>(main_module.attr("ShapeAlgo"));
py::object klass;
//Python trampoline classes
// classes
// Class ShapeAlgo from ./opencascade/ShapeAlgo.hxx
klass = m.attr("ShapeAlgo");
// default constructor
register_default_constructor<ShapeAlgo , shared_ptr<ShapeAlgo>>(m,"ShapeAlgo");
// nested enums
static_cast<py::class_<ShapeAlgo , shared_ptr<ShapeAlgo> >>(klass)
// constructors
// custom constructors
// methods
// methods using call by reference i.s.o. return
// static methods
.def_static("Init_s",
(void (*)() ) static_cast<void (*)() >(&ShapeAlgo::Init),
R"#(Provides initerface to the algorithms from Shape Healing. Creates and initializes default AlgoContainer.)#"
)
.def_static("SetAlgoContainer_s",
(void (*)( const opencascade::handle<ShapeAlgo_AlgoContainer> & ) ) static_cast<void (*)( const opencascade::handle<ShapeAlgo_AlgoContainer> & ) >(&ShapeAlgo::SetAlgoContainer),
R"#(Sets default AlgoContainer)#" , py::arg("aContainer")
)
.def_static("AlgoContainer_s",
(opencascade::handle<ShapeAlgo_AlgoContainer> (*)() ) static_cast<opencascade::handle<ShapeAlgo_AlgoContainer> (*)() >(&ShapeAlgo::AlgoContainer),
R"#(Returns default AlgoContainer)#"
)
// 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 ShapeAlgo_AlgoContainer from ./opencascade/ShapeAlgo_AlgoContainer.hxx
klass = m.attr("ShapeAlgo_AlgoContainer");
// nested enums
static_cast<py::class_<ShapeAlgo_AlgoContainer ,opencascade::handle<ShapeAlgo_AlgoContainer> , Standard_Transient >>(klass)
// constructors
.def(py::init< >() )
// custom constructors
// methods
.def("SetToolContainer",
(void (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<ShapeAlgo_ToolContainer> & ) ) static_cast<void (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<ShapeAlgo_ToolContainer> & ) >(&ShapeAlgo_AlgoContainer::SetToolContainer),
R"#(Sets ToolContainer)#" , py::arg("TC")
)
.def("ToolContainer",
(opencascade::handle<ShapeAlgo_ToolContainer> (ShapeAlgo_AlgoContainer::*)() const) static_cast<opencascade::handle<ShapeAlgo_ToolContainer> (ShapeAlgo_AlgoContainer::*)() const>(&ShapeAlgo_AlgoContainer::ToolContainer),
R"#(Returns ToolContainer)#"
)
.def("ConnectNextWire",
(Standard_Boolean (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<ShapeAnalysis_Wire> & , const opencascade::handle<ShapeExtend_WireData> & , const Standard_Real , Standard_Real & , Standard_Boolean & , Standard_Boolean & ) const) static_cast<Standard_Boolean (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<ShapeAnalysis_Wire> & , const opencascade::handle<ShapeExtend_WireData> & , const Standard_Real , Standard_Real & , Standard_Boolean & , Standard_Boolean & ) const>(&ShapeAlgo_AlgoContainer::ConnectNextWire),
R"#(Finds the best way to connect and connects <nextsewd> to already built <sewd> (in <saw>). Returns False if <nextsewd> cannot be connected, otherwise - True. <maxtol> specifies the maximum tolerance with which <nextsewd> can be added. <distmin> is used to receive the minimum distance between <nextsewd> and <sewd>. <revsewd> is True if <sewd> has been reversed before connecting. <revnextwd> is True if <nextsewd> has been reversed before connecting. Uses functionality of ShapeAnalysis_Wire.)#" , py::arg("saw"), py::arg("nextsewd"), py::arg("maxtol"), py::arg("distmin"), py::arg("revsewd"), py::arg("revnextsewd")
)
.def("ApproxBSplineCurve",
(void (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_BSplineCurve> & , NCollection_Sequence<opencascade::handle<Geom_Curve>> & ) const) static_cast<void (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_BSplineCurve> & , NCollection_Sequence<opencascade::handle<Geom_Curve>> & ) const>(&ShapeAlgo_AlgoContainer::ApproxBSplineCurve),
R"#(None)#" , py::arg("bspline"), py::arg("seq")
)
.def("ApproxBSplineCurve",
(void (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom2d_BSplineCurve> & , NCollection_Sequence<opencascade::handle<Geom2d_Curve>> & ) const) static_cast<void (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom2d_BSplineCurve> & , NCollection_Sequence<opencascade::handle<Geom2d_Curve>> & ) const>(&ShapeAlgo_AlgoContainer::ApproxBSplineCurve),
R"#(None)#" , py::arg("bspline"), py::arg("seq")
)
.def("C0BSplineToSequenceOfC1BSplineCurve",
(Standard_Boolean (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_BSplineCurve> & , opencascade::handle<TColGeom_HSequenceOfBoundedCurve> & ) const) static_cast<Standard_Boolean (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_BSplineCurve> & , opencascade::handle<TColGeom_HSequenceOfBoundedCurve> & ) const>(&ShapeAlgo_AlgoContainer::C0BSplineToSequenceOfC1BSplineCurve),
R"#(None)#" , py::arg("BS"), py::arg("seqBS")
)
.def("C0BSplineToSequenceOfC1BSplineCurve",
(Standard_Boolean (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom2d_BSplineCurve> & , opencascade::handle<TColGeom2d_HSequenceOfBoundedCurve> & ) const) static_cast<Standard_Boolean (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom2d_BSplineCurve> & , opencascade::handle<TColGeom2d_HSequenceOfBoundedCurve> & ) const>(&ShapeAlgo_AlgoContainer::C0BSplineToSequenceOfC1BSplineCurve),
R"#(Converts C0 B-Spline curve into sequence of C1 B-Spline curves. Calls ShapeUpgrade::C0BSplineToSequenceOfC1BSplineCurve.)#" , py::arg("BS"), py::arg("seqBS")
)
.def("C0ShapeToC1Shape",
(TopoDS_Shape (ShapeAlgo_AlgoContainer::*)( const TopoDS_Shape & , const Standard_Real ) const) static_cast<TopoDS_Shape (ShapeAlgo_AlgoContainer::*)( const TopoDS_Shape & , const Standard_Real ) const>(&ShapeAlgo_AlgoContainer::C0ShapeToC1Shape),
R"#(Converts a shape on C0 geometry into the shape on C1 geometry.)#" , py::arg("shape"), py::arg("tol")
)
.def("ConvertSurfaceToBSpline",
(opencascade::handle<Geom_BSplineSurface> (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_Surface> & , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) const) static_cast<opencascade::handle<Geom_BSplineSurface> (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_Surface> & , const Standard_Real , const Standard_Real , const Standard_Real , const Standard_Real ) const>(&ShapeAlgo_AlgoContainer::ConvertSurfaceToBSpline),
R"#(Converts a surface to B-Spline. Uses ShapeConstruct.)#" , py::arg("surf"), py::arg("UF"), py::arg("UL"), py::arg("VF"), py::arg("VL")
)
.def("HomoWires",
(Standard_Boolean (ShapeAlgo_AlgoContainer::*)( const TopoDS_Wire & , const TopoDS_Wire & , TopoDS_Wire & , TopoDS_Wire & , const Standard_Boolean ) const) static_cast<Standard_Boolean (ShapeAlgo_AlgoContainer::*)( const TopoDS_Wire & , const TopoDS_Wire & , TopoDS_Wire & , TopoDS_Wire & , const Standard_Boolean ) const>(&ShapeAlgo_AlgoContainer::HomoWires),
R"#(Return 2 wires with the same number of edges. The both Edges number i of these wires have got the same ratio between theirs parameter lengths and their wire parameter lengths.)#" , py::arg("wireIn1"), py::arg("wireIn2"), py::arg("wireOut1"), py::arg("wireOut2"), py::arg("byParam")
)
.def("OuterWire",
(TopoDS_Wire (ShapeAlgo_AlgoContainer::*)( const TopoDS_Face & ) const) static_cast<TopoDS_Wire (ShapeAlgo_AlgoContainer::*)( const TopoDS_Face & ) const>(&ShapeAlgo_AlgoContainer::OuterWire),
R"#(Returns the outer wire on the face <Face>.)#" , py::arg("face")
)
.def("ConvertToPeriodic",
(opencascade::handle<Geom_Surface> (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_Surface> & ) const) static_cast<opencascade::handle<Geom_Surface> (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_Surface> & ) const>(&ShapeAlgo_AlgoContainer::ConvertToPeriodic),
R"#(Converts surface to periodic form. Calls ShapeCustom_Surface.)#" , py::arg("surf")
)
.def("ConvertCurveToBSpline",
(opencascade::handle<Geom_BSplineCurve> (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_Curve> & , const Standard_Real , const Standard_Real , const Standard_Real , const GeomAbs_Shape , const Standard_Integer , const Standard_Integer ) const) static_cast<opencascade::handle<Geom_BSplineCurve> (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<Geom_Curve> & , const Standard_Real , const Standard_Real , const Standard_Real , const GeomAbs_Shape , const Standard_Integer , const Standard_Integer ) const>(&ShapeAlgo_AlgoContainer::ConvertCurveToBSpline),
R"#(Convert Geom_Curve to Geom_BSplineCurve)#" , py::arg("C3D"), py::arg("First"), py::arg("Last"), py::arg("Tol3d"), py::arg("Continuity"), py::arg("MaxSegments"), py::arg("MaxDegree")
)
.def("SetToolContainer",
(void (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<ShapeAlgo_ToolContainer> & ) ) static_cast<void (ShapeAlgo_AlgoContainer::*)( const opencascade::handle<ShapeAlgo_ToolContainer> & ) >(&ShapeAlgo_AlgoContainer::SetToolContainer),
R"#(Sets ToolContainer)#" , py::arg("TC")
)
.def("ToolContainer",
(opencascade::handle<ShapeAlgo_ToolContainer> (ShapeAlgo_AlgoContainer::*)() const) static_cast<opencascade::handle<ShapeAlgo_ToolContainer> (ShapeAlgo_AlgoContainer::*)() const>(&ShapeAlgo_AlgoContainer::ToolContainer),
R"#(Returns ToolContainer)#"
)
// methods using call by reference i.s.o. return
.def("GetFaceUVBounds",
[]( ShapeAlgo_AlgoContainer &self , const TopoDS_Face & F ){
Standard_Real Umin;
Standard_Real Umax;
Standard_Real Vmin;
Standard_Real Vmax;
self.GetFaceUVBounds(F,Umin,Umax,Vmin,Vmax);
return std::make_tuple(Umin,Umax,Vmin,Vmax); },
R"#(Computes exact UV bounds of all wires on the face)#" , py::arg("F")
)
// static methods
.def_static("get_type_name_s",
(const char * (*)() ) static_cast<const char * (*)() >(&ShapeAlgo_AlgoContainer::get_type_name),
R"#(None)#"
)
.def_static("get_type_descriptor_s",
(const opencascade::handle<Standard_Type> & (*)() ) static_cast<const opencascade::handle<Standard_Type> & (*)() >(&ShapeAlgo_AlgoContainer::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> & (ShapeAlgo_AlgoContainer::*)() const) static_cast<const opencascade::handle<Standard_Type> & (ShapeAlgo_AlgoContainer::*)() const>(&ShapeAlgo_AlgoContainer::DynamicType),
R"#(None)#"
)
;
// Class ShapeAlgo_ToolContainer from ./opencascade/ShapeAlgo_ToolContainer.hxx
klass = m.attr("ShapeAlgo_ToolContainer");
// nested enums
static_cast<py::class_<ShapeAlgo_ToolContainer ,opencascade::handle<ShapeAlgo_ToolContainer> , Standard_Transient >>(klass)
// constructors
.def(py::init< >() )
// custom constructors
// methods
.def("FixShape",
(opencascade::handle<ShapeFix_Shape> (ShapeAlgo_ToolContainer::*)() const) static_cast<opencascade::handle<ShapeFix_Shape> (ShapeAlgo_ToolContainer::*)() const>(&ShapeAlgo_ToolContainer::FixShape),
R"#(Returns ShapeFix_Shape)#"
)
.def("EdgeProjAux",
(opencascade::handle<ShapeFix_EdgeProjAux> (ShapeAlgo_ToolContainer::*)() const) static_cast<opencascade::handle<ShapeFix_EdgeProjAux> (ShapeAlgo_ToolContainer::*)() const>(&ShapeAlgo_ToolContainer::EdgeProjAux),
R"#(Returns ShapeFix_EdgeProjAux)#"
)
// methods using call by reference i.s.o. return
// static methods
.def_static("get_type_name_s",
(const char * (*)() ) static_cast<const char * (*)() >(&ShapeAlgo_ToolContainer::get_type_name),
R"#(None)#"
)
.def_static("get_type_descriptor_s",
(const opencascade::handle<Standard_Type> & (*)() ) static_cast<const opencascade::handle<Standard_Type> & (*)() >(&ShapeAlgo_ToolContainer::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> & (ShapeAlgo_ToolContainer::*)() const) static_cast<const opencascade::handle<Standard_Type> & (ShapeAlgo_ToolContainer::*)() const>(&ShapeAlgo_ToolContainer::DynamicType),
R"#(None)#"
)
;
// functions
// ./opencascade/ShapeAlgo.hxx
// ./opencascade/ShapeAlgo_AlgoContainer.hxx
// ./opencascade/ShapeAlgo_ToolContainer.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
|
