Open CASCADE Technology 7.8.2.dev
IntPatch_CurvIntSurf Class Reference

#include <IntPatch_CurvIntSurf.hxx>

Public Member Functions

 IntPatch_CurvIntSurf (const Standard_Real U, const Standard_Real V, const Standard_Real W, const IntPatch_CSFunction &F, const Standard_Real TolTangency, const Standard_Real MarginCoef=0.0)
 compute the solution point with the close point MarginCoef is the coefficient for extension of UV bounds. Ex., UFirst -= MarginCoef*(ULast-UFirst)
 
 IntPatch_CurvIntSurf (const IntPatch_CSFunction &F, const Standard_Real TolTangency)
 initialize the parameters to compute the solution
 
void Perform (const Standard_Real U, const Standard_Real V, const Standard_Real W, math_FunctionSetRoot &Rsnld, const Standard_Real u0, const Standard_Real v0, const Standard_Real u1, const Standard_Real v1, const Standard_Real w0, const Standard_Real w1)
 compute the solution it's possible to write to optimize: IntImp_IntCS inter(S1,C1,Toltangency) math_FunctionSetRoot rsnld(Inter.function()) while ...{ u=... v=... w=... inter.Perform(u,v,w,rsnld) } or IntImp_IntCS inter(Toltangency) inter.SetSurface(S); math_FunctionSetRoot rsnld(Inter.function()) while ...{ C=... inter.SetCurve(C); u=... v=... w=... inter.Perform(u,v,w,rsnld) }
 
Standard_Boolean IsDone () const
 Returns TRUE if the creation completed without failure.
 
Standard_Boolean IsEmpty () const
 
const gp_PntPoint () const
 returns the intersection point The exception NotDone is raised if IsDone is false. The exception DomainError is raised if IsEmpty is true.
 
Standard_Real ParameterOnCurve () const
 
void ParameterOnSurface (Standard_Real &U, Standard_Real &V) const
 
IntPatch_CSFunctionFunction ()
 return the math function which is used to compute the intersection
 

Constructor & Destructor Documentation

◆ IntPatch_CurvIntSurf() [1/2]

IntPatch_CurvIntSurf::IntPatch_CurvIntSurf ( const Standard_Real U,
const Standard_Real V,
const Standard_Real W,
const IntPatch_CSFunction & F,
const Standard_Real TolTangency,
const Standard_Real MarginCoef = 0.0 )

compute the solution point with the close point MarginCoef is the coefficient for extension of UV bounds. Ex., UFirst -= MarginCoef*(ULast-UFirst)

◆ IntPatch_CurvIntSurf() [2/2]

IntPatch_CurvIntSurf::IntPatch_CurvIntSurf ( const IntPatch_CSFunction & F,
const Standard_Real TolTangency )

initialize the parameters to compute the solution

Member Function Documentation

◆ Function()

IntPatch_CSFunction & IntPatch_CurvIntSurf::Function ( )

return the math function which is used to compute the intersection

◆ IsDone()

Standard_Boolean IntPatch_CurvIntSurf::IsDone ( ) const

Returns TRUE if the creation completed without failure.

◆ IsEmpty()

Standard_Boolean IntPatch_CurvIntSurf::IsEmpty ( ) const

◆ ParameterOnCurve()

Standard_Real IntPatch_CurvIntSurf::ParameterOnCurve ( ) const

◆ ParameterOnSurface()

void IntPatch_CurvIntSurf::ParameterOnSurface ( Standard_Real & U,
Standard_Real & V ) const

◆ Perform()

void IntPatch_CurvIntSurf::Perform ( const Standard_Real U,
const Standard_Real V,
const Standard_Real W,
math_FunctionSetRoot & Rsnld,
const Standard_Real u0,
const Standard_Real v0,
const Standard_Real u1,
const Standard_Real v1,
const Standard_Real w0,
const Standard_Real w1 )

compute the solution it's possible to write to optimize: IntImp_IntCS inter(S1,C1,Toltangency) math_FunctionSetRoot rsnld(Inter.function()) while ...{ u=... v=... w=... inter.Perform(u,v,w,rsnld) } or IntImp_IntCS inter(Toltangency) inter.SetSurface(S); math_FunctionSetRoot rsnld(Inter.function()) while ...{ C=... inter.SetCurve(C); u=... v=... w=... inter.Perform(u,v,w,rsnld) }

◆ Point()

const gp_Pnt & IntPatch_CurvIntSurf::Point ( ) const

returns the intersection point The exception NotDone is raised if IsDone is false. The exception DomainError is raised if IsEmpty is true.


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