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// This file is generated by WOK (CPPExt).
// Please do not edit this file; modify original file instead.
// The copyright and license terms as defined for the original file apply to
// this header file considered to be the "object code" form of the original source.
#ifndef _BRepSweep_Translation_HeaderFile
#define _BRepSweep_Translation_HeaderFile
#ifndef _Standard_HeaderFile
#include <Standard.hxx>
#endif
#ifndef _Standard_Macro_HeaderFile
#include <Standard_Macro.hxx>
#endif
#ifndef _gp_Vec_HeaderFile
#include <gp_Vec.hxx>
#endif
#ifndef _Standard_Boolean_HeaderFile
#include <Standard_Boolean.hxx>
#endif
#ifndef _BRepSweep_Trsf_HeaderFile
#include <BRepSweep_Trsf.hxx>
#endif
#ifndef _TopAbs_Orientation_HeaderFile
#include <TopAbs_Orientation.hxx>
#endif
class Standard_ConstructionError;
class TopoDS_Shape;
class Sweep_NumShape;
class TopLoc_Location;
class gp_Vec;
//! Provides an algorithm to build object by <br>
//! translation sweep. <br>
class BRepSweep_Translation : public BRepSweep_Trsf {
public:
void* operator new(size_t,void* anAddress)
{
return anAddress;
}
void* operator new(size_t size)
{
return Standard::Allocate(size);
}
void operator delete(void *anAddress)
{
if (anAddress) Standard::Free((Standard_Address&)anAddress);
}
//! Creates a topology by translating <S> with the <br>
//! vector <V>. If C is true S Sucomponents are <br>
//! copied. If Canonize is true then generated surfaces <br>
//! are attempted to be canonized in simple types <br>
Standard_EXPORT BRepSweep_Translation(const TopoDS_Shape& S,const Sweep_NumShape& N,const TopLoc_Location& L,const gp_Vec& V,const Standard_Boolean C,const Standard_Boolean Canonize = Standard_True);
Standard_EXPORT virtual void Delete() ;
Standard_EXPORT virtual ~BRepSweep_Translation(){Delete() ; }
//! Builds the vertex addressed by [aGenV,aDirV], with its <br>
//! geometric part, but without subcomponents. <br>
Standard_EXPORT TopoDS_Shape MakeEmptyVertex(const TopoDS_Shape& aGenV,const Sweep_NumShape& aDirV) ;
//! Builds the edge addressed by [aGenV,aDirE], with its <br>
//! geometric part, but without subcomponents. <br>
Standard_EXPORT TopoDS_Shape MakeEmptyDirectingEdge(const TopoDS_Shape& aGenV,const Sweep_NumShape& aDirE) ;
//! Builds the edge addressed by [aGenE,aDirV], with its <br>
//! geometric part, but without subcomponents. <br>
Standard_EXPORT TopoDS_Shape MakeEmptyGeneratingEdge(const TopoDS_Shape& aGenE,const Sweep_NumShape& aDirV) ;
//! Sets the parameters of the new vertex on the new <br>
//! face. The new face and new vertex where generated <br>
//! from aGenF, aGenV and aDirV . <br>
Standard_EXPORT void SetParameters(const TopoDS_Shape& aNewFace,TopoDS_Shape& aNewVertex,const TopoDS_Shape& aGenF,const TopoDS_Shape& aGenV,const Sweep_NumShape& aDirV) ;
//! Sets the parameter of the new vertex on the new <br>
//! edge. The new edge and new vertex where generated <br>
//! from aGenV aDirE, and aDirV. <br>
Standard_EXPORT void SetDirectingParameter(const TopoDS_Shape& aNewEdge,TopoDS_Shape& aNewVertex,const TopoDS_Shape& aGenV,const Sweep_NumShape& aDirE,const Sweep_NumShape& aDirV) ;
//! Sets the parameter of the new vertex on the new <br>
//! edge. The new edge and new vertex where generated <br>
//! from aGenE, aGenV and aDirV . <br>
Standard_EXPORT void SetGeneratingParameter(const TopoDS_Shape& aNewEdge,TopoDS_Shape& aNewVertex,const TopoDS_Shape& aGenE,const TopoDS_Shape& aGenV,const Sweep_NumShape& aDirV) ;
//! Builds the face addressed by [aGenS,aDirS], with <br>
//! its geometric part, but without subcomponents. The <br>
//! couple aGenS, aDirS can be a "generating face and <br>
//! a directing vertex" or "a generating edge and a <br>
//! directing edge". <br>
Standard_EXPORT TopoDS_Shape MakeEmptyFace(const TopoDS_Shape& aGenS,const Sweep_NumShape& aDirS) ;
//! Sets the PCurve for a new edge on a new face. The <br>
//! new edge and the new face were generated using <br>
//! aGenF, aGenE and aDirV. <br>
Standard_EXPORT void SetPCurve(const TopoDS_Shape& aNewFace,TopoDS_Shape& aNewEdge,const TopoDS_Shape& aGenF,const TopoDS_Shape& aGenE,const Sweep_NumShape& aDirV,const TopAbs_Orientation orien) ;
//! Sets the PCurve for a new edge on a new face. The <br>
//! new edge and the new face were generated using <br>
//! aGenE, aDirE and aDirV. <br>
Standard_EXPORT void SetGeneratingPCurve(const TopoDS_Shape& aNewFace,TopoDS_Shape& aNewEdge,const TopoDS_Shape& aGenE,const Sweep_NumShape& aDirE,const Sweep_NumShape& aDirV,const TopAbs_Orientation orien) ;
//! Sets the PCurve for a new edge on a new face. The <br>
//! new edge and the new face were generated using <br>
//! aGenE, aDirE and aGenV. <br>
Standard_EXPORT void SetDirectingPCurve(const TopoDS_Shape& aNewFace,TopoDS_Shape& aNewEdge,const TopoDS_Shape& aGenE,const TopoDS_Shape& aGenV,const Sweep_NumShape& aDirE,const TopAbs_Orientation orien) ;
//! Returns the Orientation of the shell in the solid <br>
//! generated by the face aGenS with the edge aDirS. <br>
//! It is REVERSED if the surface is swept in the <br>
//! direction of the normal. <br>
Standard_EXPORT TopAbs_Orientation DirectSolid(const TopoDS_Shape& aGenS,const Sweep_NumShape& aDirS) ;
//! Returns true if aNewSubShape (addressed by <br>
//! aSubGenS and aDirS) must be added in aNewShape <br>
//! (addressed by aGenS and aDirS). <br>
Standard_EXPORT Standard_Boolean GGDShapeIsToAdd(const TopoDS_Shape& aNewShape,const TopoDS_Shape& aNewSubShape,const TopoDS_Shape& aGenS,const TopoDS_Shape& aSubGenS,const Sweep_NumShape& aDirS) const;
//! Returns true if aNewSubShape (addressed by <br>
//! aGenS and aSubDirS) must be added in aNewShape <br>
//! (addressed by aGenS and aDirS). <br>
Standard_EXPORT Standard_Boolean GDDShapeIsToAdd(const TopoDS_Shape& aNewShape,const TopoDS_Shape& aNewSubShape,const TopoDS_Shape& aGenS,const Sweep_NumShape& aDirS,const Sweep_NumShape& aSubDirS) const;
//! In some particular cases the topology of a <br>
//! generated face must be composed of independant <br>
//! closed wires, in this case this function returns <br>
//! true. <br>
//! Here it always returns false. <br>
Standard_EXPORT Standard_Boolean SeparatedWires(const TopoDS_Shape& aNewShape,const TopoDS_Shape& aNewSubShape,const TopoDS_Shape& aGenS,const TopoDS_Shape& aSubGenS,const Sweep_NumShape& aDirS) const;
//! Returns true if aDirS and aGenS addresses a <br>
//! resulting Shape. In some specific cases the shape <br>
//! can be geometrically inexsistant, then this <br>
//! function returns false. <br>
Standard_EXPORT Standard_Boolean HasShape(const TopoDS_Shape& aGenS,const Sweep_NumShape& aDirS) const;
//! Returns always false because here the <br>
//! transformation is a translation. <br>
Standard_EXPORT Standard_Boolean IsInvariant(const TopoDS_Shape& aGenS) const;
//! Returns the Vector of the Prism, if it is an infinite <br>
//! prism the Vec is unitar. <br>
Standard_EXPORT gp_Vec Vec() const;
protected:
private:
gp_Vec myVec;
Standard_Boolean myCanonize;
};
// other Inline functions and methods (like "C++: function call" methods)
#endif
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