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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 _Blend_AppFunction_HeaderFile
#define _Blend_AppFunction_HeaderFile
#ifndef _Standard_HeaderFile
#include <Standard.hxx>
#endif
#ifndef _Standard_Macro_HeaderFile
#include <Standard_Macro.hxx>
#endif
#ifndef _math_FunctionSetWithDerivatives_HeaderFile
#include <math_FunctionSetWithDerivatives.hxx>
#endif
#ifndef _Standard_Integer_HeaderFile
#include <Standard_Integer.hxx>
#endif
#ifndef _Standard_Boolean_HeaderFile
#include <Standard_Boolean.hxx>
#endif
#ifndef _Standard_Real_HeaderFile
#include <Standard_Real.hxx>
#endif
#ifndef _GeomAbs_Shape_HeaderFile
#include <GeomAbs_Shape.hxx>
#endif
class Standard_DomainError;
class math_Vector;
class math_Matrix;
class gp_Pnt;
class TColStd_Array1OfReal;
class TColStd_Array1OfInteger;
class Blend_Point;
class TColgp_Array1OfPnt;
class TColgp_Array1OfVec;
class TColgp_Array1OfPnt2d;
class TColgp_Array1OfVec2d;
//! Deferred class for a function used to compute a blending <br>
//! surface between two surfaces, using a guide line. <br>
//! The vector <X> used in Value, Values and Derivatives methods <br>
//! has to be the vector of the parametric coordinates U1,V1, <br>
//! U2,V2, of the extremities of a section on the first and <br>
//! second surface. <br>
class Blend_AppFunction : public math_FunctionSetWithDerivatives {
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);
}
//! returns the number of variables of the function. <br>
Standard_EXPORT virtual Standard_Integer NbVariables() const = 0;
//! returns the number of equations of the function. <br>
Standard_EXPORT virtual Standard_Integer NbEquations() const = 0;
//! computes the values <F> of the Functions for the <br>
//! variable <X>. <br>
//! Returns True if the computation was done successfully, <br>
//! False otherwise. <br>
Standard_EXPORT virtual Standard_Boolean Value(const math_Vector& X,math_Vector& F) = 0;
//! returns the values <D> of the derivatives for the <br>
//! variable <X>. <br>
//! Returns True if the computation was done successfully, <br>
//! False otherwise. <br>
Standard_EXPORT virtual Standard_Boolean Derivatives(const math_Vector& X,math_Matrix& D) = 0;
//! returns the values <F> of the functions and the derivatives <br>
//! <D> for the variable <X>. <br>
//! Returns True if the computation was done successfully, <br>
//! False otherwise. <br>
Standard_EXPORT virtual Standard_Boolean Values(const math_Vector& X,math_Vector& F,math_Matrix& D) = 0;
//! Sets the value of the parameter along the guide line. <br>
//! This determines the plane in which the solution has <br>
//! to be found. <br>
Standard_EXPORT virtual void Set(const Standard_Real Param) = 0;
//! Sets the bounds of the parametric interval on <br>
//! the guide line. <br>
//! This determines the derivatives in these values if the <br>
//! function is not Cn. <br>
Standard_EXPORT virtual void Set(const Standard_Real First,const Standard_Real Last) = 0;
//! Returns in the vector Tolerance the parametric tolerance <br>
//! for each of the 4 variables; <br>
//! Tol is the tolerance used in 3d space. <br>
Standard_EXPORT virtual void GetTolerance(math_Vector& Tolerance,const Standard_Real Tol) const = 0;
//! Returns in the vector InfBound the lowest values allowed <br>
//! for each of the 4 variables. <br>
//! Returns in the vector SupBound the greatest values allowed <br>
//! for each of the 4 variables. <br>
Standard_EXPORT virtual void GetBounds(math_Vector& InfBound,math_Vector& SupBound) const = 0;
//! Returns Standard_True if Sol is a zero of the function. <br>
//! Tol is the tolerance used in 3d space. <br>
//! The computation is made at the current value of <br>
//! the parameter on the guide line. <br>
Standard_EXPORT virtual Standard_Boolean IsSolution(const math_Vector& Sol,const Standard_Real Tol) = 0;
//! Returns the minimal Distance beetween two <br>
//! extremitys of calculed sections. <br>
Standard_EXPORT virtual Standard_Real GetMinimalDistance() const = 0;
//! Returns the point on the first support. <br>
Standard_EXPORT virtual const gp_Pnt& Pnt1() const = 0;
//! Returns the point on the first support. <br>
Standard_EXPORT virtual const gp_Pnt& Pnt2() const = 0;
//! Returns if the section is rationnal <br>
Standard_EXPORT virtual Standard_Boolean IsRational() const = 0;
//! Returns the length of the maximum section <br>
Standard_EXPORT virtual Standard_Real GetSectionSize() const = 0;
//! Compute the minimal value of weight for each poles <br>
//! of all sections. <br>
Standard_EXPORT virtual void GetMinimalWeight(TColStd_Array1OfReal& Weigths) const = 0;
//! Returns the number of intervals for continuity <br>
//! <S>. May be one if Continuity(me) >= <S> <br>
Standard_EXPORT virtual Standard_Integer NbIntervals(const GeomAbs_Shape S) const = 0;
//! Stores in <T> the parameters bounding the intervals <br>
//! of continuity <S>. <br>
//! <br>
//! The array must provide enough room to accomodate <br>
//! for the parameters. i.e. T.Length() > NbIntervals() <br>
//! raises <br>
//! OutOfRange from Standard <br>
Standard_EXPORT virtual void Intervals(TColStd_Array1OfReal& T,const GeomAbs_Shape S) const = 0;
Standard_EXPORT virtual void GetShape(Standard_Integer& NbPoles,Standard_Integer& NbKnots,Standard_Integer& Degree,Standard_Integer& NbPoles2d) = 0;
//! Returns the tolerance to reach in approximation <br>
//! to respecte <br>
//! BoundTol error at the Boundary <br>
//! AngleTol tangent error at the Boundary <br>
//! SurfTol error inside the surface. <br>
Standard_EXPORT virtual void GetTolerance(const Standard_Real BoundTol,const Standard_Real SurfTol,const Standard_Real AngleTol,math_Vector& Tol3d,math_Vector& Tol1D) const = 0;
Standard_EXPORT virtual void Knots(TColStd_Array1OfReal& TKnots) = 0;
Standard_EXPORT virtual void Mults(TColStd_Array1OfInteger& TMults) = 0;
//! Used for the first and last section <br>
//! The method returns Standard_True if the derivatives <br>
//! are computed, otherwise it returns Standard_False. <br>
Standard_EXPORT virtual Standard_Boolean Section(const Blend_Point& P,TColgp_Array1OfPnt& Poles,TColgp_Array1OfVec& DPoles,TColgp_Array1OfPnt2d& Poles2d,TColgp_Array1OfVec2d& DPoles2d,TColStd_Array1OfReal& Weigths,TColStd_Array1OfReal& DWeigths) = 0;
Standard_EXPORT virtual void Section(const Blend_Point& P,TColgp_Array1OfPnt& Poles,TColgp_Array1OfPnt2d& Poles2d,TColStd_Array1OfReal& Weigths) = 0;
//! Used for the first and last section <br>
//! The method returns Standard_True if the derivatives <br>
//! are computed, otherwise it returns Standard_False. <br>
Standard_EXPORT virtual Standard_Boolean Section(const Blend_Point& P,TColgp_Array1OfPnt& Poles,TColgp_Array1OfVec& DPoles,TColgp_Array1OfVec& D2Poles,TColgp_Array1OfPnt2d& Poles2d,TColgp_Array1OfVec2d& DPoles2d,TColgp_Array1OfVec2d& D2Poles2d,TColStd_Array1OfReal& Weigths,TColStd_Array1OfReal& DWeigths,TColStd_Array1OfReal& D2Weigths) = 0;
Standard_EXPORT virtual void Resolution(const Standard_Integer IC2d,const Standard_Real Tol,Standard_Real& TolU,Standard_Real& TolV) const = 0;
//! Returns the parameter of the point P. Used to <br>
//! impose the parameters in the approximation. <br>
Standard_EXPORT Standard_Real Parameter(const Blend_Point& P) const;
protected:
private:
};
// other Inline functions and methods (like "C++: function call" methods)
#endif
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