Open CASCADE Technology Reference Manual 8.0.0
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Public Member Functions
GeomGridEval_Torus Class Reference

Efficient batch evaluator for torus grid points. More...

#include <GeomGridEval_Torus.hxx>

Public Member Functions

 GeomGridEval_Torus (const occ::handle< Geom_ToroidalSurface > &theTorus)
 Constructor with geometry.
 
 GeomGridEval_Torus (const GeomGridEval_Torus &)=delete
 Non-copyable and non-movable.
 
GeomGridEval_Torusoperator= (const GeomGridEval_Torus &)=delete
 
 GeomGridEval_Torus (GeomGridEval_Torus &&)=delete
 
GeomGridEval_Torusoperator= (GeomGridEval_Torus &&)=delete
 
const occ::handle< Geom_ToroidalSurface > & Geometry () const
 Returns the geometry handle.
 
NCollection_Array2< gp_PntEvaluateGrid (const NCollection_Array1< double > &theUParams, const NCollection_Array1< double > &theVParams) const
 Evaluate grid points at Cartesian product of U and V parameters.
 
NCollection_Array2< GeomGridEval::SurfD1EvaluateGridD1 (const NCollection_Array1< double > &theUParams, const NCollection_Array1< double > &theVParams) const
 Evaluate grid points with first partial derivatives.
 
NCollection_Array2< GeomGridEval::SurfD2EvaluateGridD2 (const NCollection_Array1< double > &theUParams, const NCollection_Array1< double > &theVParams) const
 Evaluate grid points with first and second partial derivatives.
 
NCollection_Array2< GeomGridEval::SurfD3EvaluateGridD3 (const NCollection_Array1< double > &theUParams, const NCollection_Array1< double > &theVParams) const
 Evaluate grid points with derivatives up to third order.
 
NCollection_Array2< gp_VecEvaluateGridDN (const NCollection_Array1< double > &theUParams, const NCollection_Array1< double > &theVParams, int theNU, int theNV) const
 Evaluate partial derivative d^(NU+NV)S/(dU^NU dV^NV) at all grid points. For orders 1-3, reuses EvaluateGridD1/D2/D3. For orders > 3, uses geometry DN method.
 

Detailed Description

Efficient batch evaluator for torus grid points.

Uses analytical formula: P(u,v) = Location + (MajorRadius + MinorRadius * cos(v)) * (cos(u) * XDir + sin(u) * YDir) + MinorRadius * sin(v) * ZDir

Where U is major angle (0 to 2*PI) and V is minor angle (0 to 2*PI).

Usage:

GeomGridEval_Torus anEvaluator(myGeomTorus);
NCollection_Array2<gp_Pnt> aGrid = anEvaluator.EvaluateGrid(myUParams, myVParams);
GeomGridEval_Torus
Efficient batch evaluator for torus grid points.
Definition GeomGridEval_Torus.hxx:39
NCollection_ForwardRangeIterator
STL input iterator that wraps an OCCT More()/Next() iterator.
Definition NCollection_ForwardRange.hxx:142

Constructor & Destructor Documentation

◆ GeomGridEval_Torus() [1/3]

GeomGridEval_Torus::GeomGridEval_Torus ( const occ::handle< Geom_ToroidalSurface > & theTorus)
inline

Constructor with geometry.

Parameters
theTorusthe toroidal surface geometry to evaluate

◆ GeomGridEval_Torus() [2/3]

GeomGridEval_Torus::GeomGridEval_Torus ( const GeomGridEval_Torus & )
delete

Non-copyable and non-movable.

◆ GeomGridEval_Torus() [3/3]

GeomGridEval_Torus::GeomGridEval_Torus ( GeomGridEval_Torus && )
delete

Member Function Documentation

◆ EvaluateGrid()

NCollection_Array2< gp_Pnt > GeomGridEval_Torus::EvaluateGrid ( const NCollection_Array1< double > & theUParams,
const NCollection_Array1< double > & theVParams ) const

Evaluate grid points at Cartesian product of U and V parameters.

Parameters
theUParamsarray of U parameter values (major angle)
theVParamsarray of V parameter values (minor angle)
Returns
2D array of evaluated points (1-based indexing)

◆ EvaluateGridD1()

NCollection_Array2< GeomGridEval::SurfD1 > GeomGridEval_Torus::EvaluateGridD1 ( const NCollection_Array1< double > & theUParams,
const NCollection_Array1< double > & theVParams ) const

Evaluate grid points with first partial derivatives.

Parameters
theUParamsarray of U parameter values (major angle)
theVParamsarray of V parameter values (minor angle)
Returns
2D array of SurfD1 (1-based indexing)

◆ EvaluateGridD2()

NCollection_Array2< GeomGridEval::SurfD2 > GeomGridEval_Torus::EvaluateGridD2 ( const NCollection_Array1< double > & theUParams,
const NCollection_Array1< double > & theVParams ) const

Evaluate grid points with first and second partial derivatives.

Parameters
theUParamsarray of U parameter values (major angle)
theVParamsarray of V parameter values (minor angle)
Returns
2D array of SurfD2 (1-based indexing)

◆ EvaluateGridD3()

NCollection_Array2< GeomGridEval::SurfD3 > GeomGridEval_Torus::EvaluateGridD3 ( const NCollection_Array1< double > & theUParams,
const NCollection_Array1< double > & theVParams ) const

Evaluate grid points with derivatives up to third order.

Parameters
theUParamsarray of U parameter values (major angle)
theVParamsarray of V parameter values (minor angle)
Returns
2D array of SurfD3 (1-based indexing)

◆ EvaluateGridDN()

NCollection_Array2< gp_Vec > GeomGridEval_Torus::EvaluateGridDN ( const NCollection_Array1< double > & theUParams,
const NCollection_Array1< double > & theVParams,
int theNU,
int theNV ) const

Evaluate partial derivative d^(NU+NV)S/(dU^NU dV^NV) at all grid points. For orders 1-3, reuses EvaluateGridD1/D2/D3. For orders > 3, uses geometry DN method.

Parameters
theUParamsarray of U parameter values (major angle)
theVParamsarray of V parameter values (minor angle)
theNUderivative order in U direction
theNVderivative order in V direction
Returns
2D array of derivative vectors (1-based indexing)

◆ Geometry()

const occ::handle< Geom_ToroidalSurface > & GeomGridEval_Torus::Geometry ( ) const
inline

Returns the geometry handle.

◆ operator=() [1/2]

GeomGridEval_Torus & GeomGridEval_Torus::operator= ( const GeomGridEval_Torus & )
delete

◆ operator=() [2/2]

GeomGridEval_Torus & GeomGridEval_Torus::operator= ( GeomGridEval_Torus && )
delete
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