Open CASCADE Technology  7.0.0
Static Public Member Functions

BndLib Class Reference

The BndLib package provides functions to add a geometric primitive to a bounding box. Note: these functions work with gp objects, optionally limited by parameter values. If the curves and surfaces provided by the gp package are not explicitly parameterized, they still have an implicit parameterization, similar to that which they infer for the equivalent Geom or Geom2d objects. Add : Package to compute the bounding boxes for elementary objects from gp in 2d and 3d . More...

#include <BndLib.hxx>

Static Public Member Functions

static void Add (const gp_Lin &L, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box &B)
 Bounding box for a surface trimmed or not Adds the segment of the line L limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. Tol is the tolerance value to enlarge the minimun and maximum dimension P1 and P2 may represent infinite values. Exceptions Standard_Failure if P1 and P2 are either two negative infinite real numbers, or two positive infinite real numbers. More...
 
static void Add (const gp_Lin2d &L, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box2d &B)
 
static void Add (const gp_Circ &C, const Standard_Real Tol, Bnd_Box &B)
 
static void Add (const gp_Circ &C, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box &B)
 P2-P1 can be in [0,2*pi]. More...
 
static void Add (const gp_Circ2d &C, const Standard_Real Tol, Bnd_Box2d &B)
 
static void Add (const gp_Circ2d &C, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box2d &B)
 Adds the circle C, or the arc of the circle C limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. P2-P1 can be in [0,2*pi]. More...
 
static void Add (const gp_Elips &C, const Standard_Real Tol, Bnd_Box &B)
 
static void Add (const gp_Elips &C, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box &B)
 P2-P1 can be in [0,2*pi]. More...
 
static void Add (const gp_Elips2d &C, const Standard_Real Tol, Bnd_Box2d &B)
 
static void Add (const gp_Elips2d &C, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box2d &B)
 Adds the ellipse E, or the arc of the ellipse E limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. P2-P1 can be in [0,2*pi]. More...
 
static void Add (const gp_Parab &P, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box &B)
 
static void Add (const gp_Parab2d &P, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box2d &B)
 Adds the arc of the parabola P limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. P1 and P2 may represent infinite values. Exceptions Standard_Failure if P1 and P2 are either two negative infinite real numbers, or two positive infinite real numbers. More...
 
static void Add (const gp_Hypr &H, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box &B)
 
static void Add (const gp_Hypr2d &H, const Standard_Real P1, const Standard_Real P2, const Standard_Real Tol, Bnd_Box2d &B)
 Adds the arc of the branch of hyperbola H limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. P1 and P2 may represent infinite values. Exceptions Standard_Failure if P1 and P2 are either two negative infinite real numbers, or two positive infinite real numbers. More...
 
static void Add (const gp_Cylinder &S, const Standard_Real UMin, const Standard_Real UMax, const Standard_Real VMin, const Standard_Real VMax, const Standard_Real Tol, Bnd_Box &B)
 UMax -UMin can be in [0,2*pi]. More...
 
static void Add (const gp_Cylinder &S, const Standard_Real VMin, const Standard_Real VMax, const Standard_Real Tol, Bnd_Box &B)
 Adds to the bounding box B, the patch of the cylinder S limited. More...
 
static void Add (const gp_Cone &S, const Standard_Real UMin, const Standard_Real UMax, const Standard_Real VMin, const Standard_Real VMax, const Standard_Real Tol, Bnd_Box &B)
 UMax-UMin can be in [0,2*pi]. More...
 
static void Add (const gp_Cone &S, const Standard_Real VMin, const Standard_Real VMax, const Standard_Real Tol, Bnd_Box &B)
 Adds to the bounding box B, the patch of the cone S limited. More...
 
static void Add (const gp_Sphere &S, const Standard_Real Tol, Bnd_Box &B)
 
static void Add (const gp_Sphere &S, const Standard_Real UMin, const Standard_Real UMax, const Standard_Real VMin, const Standard_Real VMax, const Standard_Real Tol, Bnd_Box &B)
 Adds to the bounding box B the sphere S, or. More...
 
static void Add (const gp_Torus &P, const Standard_Real Tol, Bnd_Box &B)
 
static void Add (const gp_Torus &P, const Standard_Real UMin, const Standard_Real UMax, const Standard_Real VMin, const Standard_Real VMax, const Standard_Real Tol, Bnd_Box &B)
 Adds to the bounding box B. More...
 

Detailed Description

The BndLib package provides functions to add a geometric primitive to a bounding box. Note: these functions work with gp objects, optionally limited by parameter values. If the curves and surfaces provided by the gp package are not explicitly parameterized, they still have an implicit parameterization, similar to that which they infer for the equivalent Geom or Geom2d objects. Add : Package to compute the bounding boxes for elementary objects from gp in 2d and 3d .

AddCurve2d : A class to compute the bounding box for a curve in 2d dimensions ;the curve is defined by a tool

AddCurve : A class to compute the bounding box for a curve in 3d dimensions ;the curve is defined by a tool

AddSurface : A class to compute the bounding box for a surface. The surface is defined by a tool for the geometry and another tool for the topology (only the edges in 2d dimensions)

Member Function Documentation

static void BndLib::Add ( const gp_Lin L,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box B 
)
static

Bounding box for a surface trimmed or not Adds the segment of the line L limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. Tol is the tolerance value to enlarge the minimun and maximum dimension P1 and P2 may represent infinite values. Exceptions Standard_Failure if P1 and P2 are either two negative infinite real numbers, or two positive infinite real numbers.

static void BndLib::Add ( const gp_Lin2d L,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box2d B 
)
static
static void BndLib::Add ( const gp_Circ C,
const Standard_Real  Tol,
Bnd_Box B 
)
static
static void BndLib::Add ( const gp_Circ C,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box B 
)
static

P2-P1 can be in [0,2*pi].

static void BndLib::Add ( const gp_Circ2d C,
const Standard_Real  Tol,
Bnd_Box2d B 
)
static
static void BndLib::Add ( const gp_Circ2d C,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box2d B 
)
static

Adds the circle C, or the arc of the circle C limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. P2-P1 can be in [0,2*pi].

static void BndLib::Add ( const gp_Elips C,
const Standard_Real  Tol,
Bnd_Box B 
)
static
static void BndLib::Add ( const gp_Elips C,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box B 
)
static

P2-P1 can be in [0,2*pi].

static void BndLib::Add ( const gp_Elips2d C,
const Standard_Real  Tol,
Bnd_Box2d B 
)
static
static void BndLib::Add ( const gp_Elips2d C,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box2d B 
)
static

Adds the ellipse E, or the arc of the ellipse E limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. P2-P1 can be in [0,2*pi].

static void BndLib::Add ( const gp_Parab P,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box B 
)
static
static void BndLib::Add ( const gp_Parab2d P,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box2d B 
)
static

Adds the arc of the parabola P limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. P1 and P2 may represent infinite values. Exceptions Standard_Failure if P1 and P2 are either two negative infinite real numbers, or two positive infinite real numbers.

static void BndLib::Add ( const gp_Hypr H,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box B 
)
static
static void BndLib::Add ( const gp_Hypr2d H,
const Standard_Real  P1,
const Standard_Real  P2,
const Standard_Real  Tol,
Bnd_Box2d B 
)
static

Adds the arc of the branch of hyperbola H limited by the two parameter values P1 and P2, to the bounding box B, and then enlarges B by the tolerance value Tol. P1 and P2 may represent infinite values. Exceptions Standard_Failure if P1 and P2 are either two negative infinite real numbers, or two positive infinite real numbers.

static void BndLib::Add ( const gp_Cylinder S,
const Standard_Real  UMin,
const Standard_Real  UMax,
const Standard_Real  VMin,
const Standard_Real  VMax,
const Standard_Real  Tol,
Bnd_Box B 
)
static

UMax -UMin can be in [0,2*pi].

static void BndLib::Add ( const gp_Cylinder S,
const Standard_Real  VMin,
const Standard_Real  VMax,
const Standard_Real  Tol,
Bnd_Box B 
)
static

Adds to the bounding box B, the patch of the cylinder S limited.

  • in the v parametric direction, by the two parameter values VMin and VMax
  • and optionally in the u parametric direction, by the two parameter values UMin and UMax. B is then enlarged by the tolerance value Tol. VMin and VMax may represent infinite values. Exceptions Standard_Failure if VMin and VMax are either two negative infinite real numbers, or two positive infinite real numbers.
static void BndLib::Add ( const gp_Cone S,
const Standard_Real  UMin,
const Standard_Real  UMax,
const Standard_Real  VMin,
const Standard_Real  VMax,
const Standard_Real  Tol,
Bnd_Box B 
)
static

UMax-UMin can be in [0,2*pi].

static void BndLib::Add ( const gp_Cone S,
const Standard_Real  VMin,
const Standard_Real  VMax,
const Standard_Real  Tol,
Bnd_Box B 
)
static

Adds to the bounding box B, the patch of the cone S limited.

  • in the v parametric direction, by the two parameter values VMin and VMax
  • and optionally in the u parametric direction, by the two parameter values UMin and UMax, B is then enlarged by the tolerance value Tol. VMin and VMax may represent infinite values. Exceptions Standard_Failure if VMin and VMax are either two negative infinite real numbers, or two positive infinite real numbers.
static void BndLib::Add ( const gp_Sphere S,
const Standard_Real  Tol,
Bnd_Box B 
)
static
static void BndLib::Add ( const gp_Sphere S,
const Standard_Real  UMin,
const Standard_Real  UMax,
const Standard_Real  VMin,
const Standard_Real  VMax,
const Standard_Real  Tol,
Bnd_Box B 
)
static

Adds to the bounding box B the sphere S, or.

  • the patch of the sphere S, limited in the u parametric direction, by the two parameter values UMin and UMax, and in the v parametric direction, by the two parameter values VMin and VMax. B is then enlarged by the tolerance value Tol. UMax-UMin can be in [0,2*pi] VMin,VMax can be [-pi/2,pi/2]
static void BndLib::Add ( const gp_Torus P,
const Standard_Real  Tol,
Bnd_Box B 
)
static
static void BndLib::Add ( const gp_Torus P,
const Standard_Real  UMin,
const Standard_Real  UMax,
const Standard_Real  VMin,
const Standard_Real  VMax,
const Standard_Real  Tol,
Bnd_Box B 
)
static

Adds to the bounding box B.

  • the torus S, or
  • the patch of the torus S, limited in the u parametric direction, by the two parameter values UMin and UMax, and in the v parametric direction, by the two parameter values VMin and VMax. B is then enlarged by the tolerance value Tol. UMax-UMin can be in [0,2*pi], VMin,VMax can be [-pi/2,pi/2]

The documentation for this class was generated from the following file: