Open CASCADE Technology
7.6.0
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Circular Blend Function to approximate by SweepApproximation from Approx. More...
#include <GeomFill_CircularBlendFunc.hxx>
Public Member Functions | |
GeomFill_CircularBlendFunc (const Handle< Adaptor3d_Curve > &Path, const Handle< Adaptor3d_Curve > &Curve1, const Handle< Adaptor3d_Curve > &Curve2, const Standard_Real Radius, const Standard_Boolean Polynomial=Standard_False) | |
Create a Blend with a constant radius with 2 guide-line. <FShape> sets the type of fillet surface. The – default value is Convert_TgtThetaOver2 (classical – nurbs – representation of circles). ChFi3d_QuasiAngular – corresponds to a nurbs representation of circles – which parameterisation matches the circle one. – ChFi3d_Polynomial corresponds to a polynomial – representation of circles. More... | |
virtual Standard_Boolean | D0 (const Standard_Real Param, const Standard_Real First, const Standard_Real Last, TColgp_Array1OfPnt &Poles, TColgp_Array1OfPnt2d &Poles2d, TColStd_Array1OfReal &Weigths) override |
compute the section for v = param More... | |
virtual Standard_Boolean | D1 (const Standard_Real Param, const Standard_Real First, const Standard_Real Last, TColgp_Array1OfPnt &Poles, TColgp_Array1OfVec &DPoles, TColgp_Array1OfPnt2d &Poles2d, TColgp_Array1OfVec2d &DPoles2d, TColStd_Array1OfReal &Weigths, TColStd_Array1OfReal &DWeigths) override |
compute the first derivative in v direction of the section for v = param More... | |
virtual Standard_Boolean | D2 (const Standard_Real Param, const Standard_Real First, const Standard_Real Last, 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) override |
compute the second derivative in v direction of the section for v = param More... | |
virtual Standard_Integer | Nb2dCurves () const override |
get the number of 2d curves to approximate. More... | |
virtual void | SectionShape (Standard_Integer &NbPoles, Standard_Integer &NbKnots, Standard_Integer &Degree) const override |
get the format of an section More... | |
virtual void | Knots (TColStd_Array1OfReal &TKnots) const override |
get the Knots of the section More... | |
virtual void | Mults (TColStd_Array1OfInteger &TMults) const override |
get the Multplicities of the section More... | |
virtual Standard_Boolean | IsRational () const override |
Returns if the section is rationnal or not. More... | |
virtual Standard_Integer | NbIntervals (const GeomAbs_Shape S) const override |
Returns the number of intervals for continuity | |
virtual void | Intervals (TColStd_Array1OfReal &T, const GeomAbs_Shape S) const override |
Stores in <T> the parameters bounding the intervals of continuity | |
virtual void | SetInterval (const Standard_Real First, const Standard_Real Last) override |
Sets the bounds of the parametric interval on the fonction This determines the derivatives in these values if the function is not Cn. More... | |
virtual void | GetTolerance (const Standard_Real BoundTol, const Standard_Real SurfTol, const Standard_Real AngleTol, TColStd_Array1OfReal &Tol3d) const override |
Returns the tolerance to reach in approximation to respecte BoundTol error at the Boundary AngleTol tangent error at the Boundary (in radian) SurfTol error inside the surface. More... | |
virtual void | SetTolerance (const Standard_Real Tol3d, const Standard_Real Tol2d) override |
Is usfull, if (me) have to be run numerical algorithme to perform D0, D1 or D2. More... | |
virtual gp_Pnt | BarycentreOfSurf () const override |
Get the barycentre of Surface. An very poor estimation is sufficient. This information is useful to perform well conditioned rational approximation. More... | |
virtual Standard_Real | MaximalSection () const override |
Returns the length of the maximum section. This information is useful to perform well conditioned rational approximation. More... | |
virtual void | GetMinimalWeight (TColStd_Array1OfReal &Weigths) const override |
Compute the minimal value of weight for each poles of all sections. This information is useful to perform well conditioned rational approximation. More... | |
Public Member Functions inherited from Approx_SweepFunction | |
virtual void | Resolution (const Standard_Integer Index, const Standard_Real Tol, Standard_Real &TolU, Standard_Real &TolV) const |
Returns the resolutions in the sub-space 2d <Index> This information is usfull to find an good tolerance in 2d approximation. More... | |
Public Member Functions inherited from Standard_Transient | |
Standard_Transient () | |
Empty constructor. More... | |
Standard_Transient (const Standard_Transient &) | |
Copy constructor – does nothing. More... | |
Standard_Transient & | operator= (const Standard_Transient &) |
Assignment operator, needed to avoid copying reference counter. More... | |
virtual | ~Standard_Transient () |
Destructor must be virtual. More... | |
virtual void | Delete () const |
Memory deallocator for transient classes. More... | |
virtual const opencascade::handle< Standard_Type > & | DynamicType () const |
Returns a type descriptor about this object. More... | |
Standard_Boolean | IsInstance (const opencascade::handle< Standard_Type > &theType) const |
Returns a true value if this is an instance of Type. More... | |
Standard_Boolean | IsInstance (const Standard_CString theTypeName) const |
Returns a true value if this is an instance of TypeName. More... | |
Standard_Boolean | IsKind (const opencascade::handle< Standard_Type > &theType) const |
Returns true if this is an instance of Type or an instance of any class that inherits from Type. Note that multiple inheritance is not supported by OCCT RTTI mechanism. More... | |
Standard_Boolean | IsKind (const Standard_CString theTypeName) const |
Returns true if this is an instance of TypeName or an instance of any class that inherits from TypeName. Note that multiple inheritance is not supported by OCCT RTTI mechanism. More... | |
Standard_Transient * | This () const |
Returns non-const pointer to this object (like const_cast). For protection against creating handle to objects allocated in stack or call from constructor, it will raise exception Standard_ProgramError if reference counter is zero. More... | |
Standard_Integer | GetRefCount () const |
Get the reference counter of this object. More... | |
void | IncrementRefCounter () const |
Increments the reference counter of this object. More... | |
Standard_Integer | DecrementRefCounter () const |
Decrements the reference counter of this object; returns the decremented value. More... | |
Additional Inherited Members | |
Public Types inherited from Standard_Transient | |
typedef void | base_type |
Returns a type descriptor about this object. More... | |
Static Public Member Functions inherited from Standard_Transient | |
static const char * | get_type_name () |
Returns a type descriptor about this object. More... | |
static const opencascade::handle< Standard_Type > & | get_type_descriptor () |
Returns type descriptor of Standard_Transient class. More... | |
Circular Blend Function to approximate by SweepApproximation from Approx.
GeomFill_CircularBlendFunc::GeomFill_CircularBlendFunc | ( | const Handle< Adaptor3d_Curve > & | Path, |
const Handle< Adaptor3d_Curve > & | Curve1, | ||
const Handle< Adaptor3d_Curve > & | Curve2, | ||
const Standard_Real | Radius, | ||
const Standard_Boolean | Polynomial = Standard_False |
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Create a Blend with a constant radius with 2 guide-line. <FShape> sets the type of fillet surface. The – default value is Convert_TgtThetaOver2 (classical – nurbs – representation of circles). ChFi3d_QuasiAngular – corresponds to a nurbs representation of circles – which parameterisation matches the circle one. – ChFi3d_Polynomial corresponds to a polynomial – representation of circles.
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Get the barycentre of Surface. An very poor estimation is sufficient. This information is useful to perform well conditioned rational approximation.
Reimplemented from Approx_SweepFunction.
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compute the section for v = param
Implements Approx_SweepFunction.
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compute the first derivative in v direction of the section for v = param
Reimplemented from Approx_SweepFunction.
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compute the second derivative in v direction of the section for v = param
Reimplemented from Approx_SweepFunction.
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Compute the minimal value of weight for each poles of all sections. This information is useful to perform well conditioned rational approximation.
Reimplemented from Approx_SweepFunction.
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Returns the tolerance to reach in approximation to respecte BoundTol error at the Boundary AngleTol tangent error at the Boundary (in radian) SurfTol error inside the surface.
Implements Approx_SweepFunction.
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Stores in <T> the parameters bounding the intervals of continuity .
The array must provide enough room to accommodate for the parameters. i.e. T.Length() > NbIntervals()
Implements Approx_SweepFunction.
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Returns if the section is rationnal or not.
Implements Approx_SweepFunction.
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get the Knots of the section
Implements Approx_SweepFunction.
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Returns the length of the maximum section. This information is useful to perform well conditioned rational approximation.
Reimplemented from Approx_SweepFunction.
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get the Multplicities of the section
Implements Approx_SweepFunction.
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get the number of 2d curves to approximate.
Implements Approx_SweepFunction.
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Returns the number of intervals for continuity . May be one if Continuity(me) >=
Implements Approx_SweepFunction.
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get the format of an section
Implements Approx_SweepFunction.
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Sets the bounds of the parametric interval on the fonction This determines the derivatives in these values if the function is not Cn.
Implements Approx_SweepFunction.
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overridevirtual |
Is usfull, if (me) have to be run numerical algorithme to perform D0, D1 or D2.
Implements Approx_SweepFunction.