LocalAnalysis_SurfaceContinuity Class Reference

This class gives tools to check local continuity C0 C1 C2 G1 G2 between two points situated on two surfaces. More...

#include <LocalAnalysis_SurfaceContinuity.hxx>

Public Member Functions
	LocalAnalysis_SurfaceContinuity (const Handle< Geom_Surface > &Surf1, const Standard_Real u1, const Standard_Real v1, const Handle< Geom_Surface > &Surf2, const Standard_Real u2, const Standard_Real v2, const GeomAbs_Shape Order, const Standard_Real EpsNul=0.001, const Standard_Real EpsC0=0.001, const Standard_Real EpsC1=0.001, const Standard_Real EpsC2=0.001, const Standard_Real EpsG1=0.001, const Standard_Real Percent=0.01, const Standard_Real Maxlen=10000)
	-u1,v1 are the parameters of the point on Surf1 -u2,v2 are the parameters of the point on Surf2 -Order is the required continuity: GeomAbs_C0 GeomAbs_C1 GeomAbs_C2 GeomAbs_G1 GeomAbs_G2 More...
	LocalAnalysis_SurfaceContinuity (const Handle< Geom2d_Curve > &curv1, const Handle< Geom2d_Curve > &curv2, const Standard_Real U, const Handle< Geom_Surface > &Surf1, const Handle< Geom_Surface > &Surf2, const GeomAbs_Shape Order, const Standard_Real EpsNul=0.001, const Standard_Real EpsC0=0.001, const Standard_Real EpsC1=0.001, const Standard_Real EpsC2=0.001, const Standard_Real EpsG1=0.001, const Standard_Real Percent=0.01, const Standard_Real Maxlen=10000)
	LocalAnalysis_SurfaceContinuity (const Standard_Real EpsNul=0.001, const Standard_Real EpsC0=0.001, const Standard_Real EpsC1=0.001, const Standard_Real EpsC2=0.001, const Standard_Real EpsG1=0.001, const Standard_Real Percent=0.01, const Standard_Real Maxlen=10000)
	This constructor is used when we want to compute many analysis. After we use the method ComputeAnalysis. More...
void	ComputeAnalysis (GeomLProp_SLProps &Surf1, GeomLProp_SLProps &Surf2, const GeomAbs_Shape Order)
Standard_Boolean	IsDone () const
GeomAbs_Shape	ContinuityStatus () const
LocalAnalysis_StatusErrorType	StatusError () const
Standard_Real	C0Value () const
Standard_Real	C1UAngle () const
Standard_Real	C1URatio () const
Standard_Real	C1VAngle () const
Standard_Real	C1VRatio () const
Standard_Real	C2UAngle () const
Standard_Real	C2URatio () const
Standard_Real	C2VAngle () const
Standard_Real	C2VRatio () const
Standard_Real	G1Angle () const
Standard_Real	G2CurvatureGap () const
Standard_Boolean	IsC0 () const
Standard_Boolean	IsC1 () const
Standard_Boolean	IsC2 () const
Standard_Boolean	IsG1 () const
Standard_Boolean	IsG2 () const

Detailed Description

This class gives tools to check local continuity C0 C1 C2 G1 G2 between two points situated on two surfaces.

Constructor & Destructor Documentation

LocalAnalysis_SurfaceContinuity() [1/3]

LocalAnalysis_SurfaceContinuity::LocalAnalysis_SurfaceContinuity	(	const Handle< Geom_Surface > &	Surf1,
		const Standard_Real	u1,
		const Standard_Real	v1,
		const Handle< Geom_Surface > &	Surf2,
		const Standard_Real	u2,
		const Standard_Real	v2,
		const GeomAbs_Shape	Order,
		const Standard_Real	EpsNul = 0.001,
		const Standard_Real	EpsC0 = 0.001,
		const Standard_Real	EpsC1 = 0.001,
		const Standard_Real	EpsC2 = 0.001,
		const Standard_Real	EpsG1 = 0.001,
		const Standard_Real	Percent = 0.01,
		const Standard_Real	Maxlen = 10000
	)

-u1,v1 are the parameters of the point on Surf1 -u2,v2 are the parameters of the point on Surf2 -Order is the required continuity: GeomAbs_C0 GeomAbs_C1 GeomAbs_C2 GeomAbs_G1 GeomAbs_G2

-EpsNul is used to detect a a vector with nul magnitude

-EpsC0 is used for C0 continuity to confuse two points (in mm)

-EpsC1 is an angular tolerance in radians used for C1 continuity to compare the angle between the first derivatives

-EpsC2 is an angular tolerance in radians used for C2 continuity to compare the angle between the second derivatives

-EpsG1 is an angular tolerance in radians used for G1 continuity to compare the angle between the normals

-Percent : percentage of curvature variation (unitless) used for G2 continuity

• Maxlen is the maximum length of Surf1 or Surf2 in meters used to detect null curvature (in mm)

the constructor computes the quantities which are necessary to check the continuity in the following cases:

case C0

• the distance between P1 and P2 with P1=Surf (u1,v1) and P2=Surfv2(u2,v2)

case C1

• the angle between the first derivatives in u :

dSurf1(u1,v1) dSurf2(u2,v2) --------— and ------— du du

the angle value is between 0 and PI/2

• the angle between the first derivatives in v :

dSurf1(u1,v1) dSurf2(u2,v2) -----— and ------— dv dv

• the ratio between the magnitudes of the first derivatives in u
• the ratio between the magnitudes of the first derivatives in v

the angle value is between 0 and pi/2

case C2

• the angle between the second derivatives in u 2 2 d Surf1(u1,v1) d Surf2(u2,v2)

  ---

  2 2 d u d u
• the ratio between the magnitudes of the second derivatives in u
• the ratio between the magnitudes of the second derivatives in v

the angle value is between 0 and PI/2

case G1

-the angle between the normals at each point the angle value is between 0 and PI/2

case G2

• the maximum normal curvature gap between the two points

LocalAnalysis_SurfaceContinuity() [2/3]

LocalAnalysis_SurfaceContinuity::LocalAnalysis_SurfaceContinuity	(	const Handle< Geom2d_Curve > &	curv1,
		const Handle< Geom2d_Curve > &	curv2,
		const Standard_Real	U,
		const Handle< Geom_Surface > &	Surf1,
		const Handle< Geom_Surface > &	Surf2,
		const GeomAbs_Shape	Order,
		const Standard_Real	EpsNul = 0.001,
		const Standard_Real	EpsC0 = 0.001,
		const Standard_Real	EpsC1 = 0.001,
		const Standard_Real	EpsC2 = 0.001,
		const Standard_Real	EpsG1 = 0.001,
		const Standard_Real	Percent = 0.01,
		const Standard_Real	Maxlen = 10000
	)

LocalAnalysis_SurfaceContinuity() [3/3]

LocalAnalysis_SurfaceContinuity::LocalAnalysis_SurfaceContinuity	(	const Standard_Real	EpsNul = 0.001,
		const Standard_Real	EpsC0 = 0.001,
		const Standard_Real	EpsC1 = 0.001,
		const Standard_Real	EpsC2 = 0.001,
		const Standard_Real	EpsG1 = 0.001,
		const Standard_Real	Percent = 0.01,
		const Standard_Real	Maxlen = 10000
	)

This constructor is used when we want to compute many analysis. After we use the method ComputeAnalysis.

Member Function Documentation

C0Value()

Standard_Real LocalAnalysis_SurfaceContinuity::C0Value

(

)

const

C1UAngle()

Standard_Real LocalAnalysis_SurfaceContinuity::C1UAngle

(

)

const

C1URatio()

Standard_Real LocalAnalysis_SurfaceContinuity::C1URatio

(

)

const

C1VAngle()

Standard_Real LocalAnalysis_SurfaceContinuity::C1VAngle

(

)

const

C1VRatio()

Standard_Real LocalAnalysis_SurfaceContinuity::C1VRatio

(

)

const

C2UAngle()

Standard_Real LocalAnalysis_SurfaceContinuity::C2UAngle

(

)

const

C2URatio()

Standard_Real LocalAnalysis_SurfaceContinuity::C2URatio

(

)

const

C2VAngle()

Standard_Real LocalAnalysis_SurfaceContinuity::C2VAngle

(

)

const

C2VRatio()

Standard_Real LocalAnalysis_SurfaceContinuity::C2VRatio

(

)

const

ComputeAnalysis()

void LocalAnalysis_SurfaceContinuity::ComputeAnalysis	(	GeomLProp_SLProps &	Surf1,
		GeomLProp_SLProps &	Surf2,
		const GeomAbs_Shape	Order
	)

ContinuityStatus()

GeomAbs_Shape LocalAnalysis_SurfaceContinuity::ContinuityStatus

(

)

const

G1Angle()

Standard_Real LocalAnalysis_SurfaceContinuity::G1Angle

(

)

const

G2CurvatureGap()

Standard_Real LocalAnalysis_SurfaceContinuity::G2CurvatureGap

(

)

const

IsC0()

Standard_Boolean LocalAnalysis_SurfaceContinuity::IsC0

(

)

const

IsC1()

Standard_Boolean LocalAnalysis_SurfaceContinuity::IsC1

(

)

const

IsC2()

Standard_Boolean LocalAnalysis_SurfaceContinuity::IsC2

(

)

const

IsDone()

Standard_Boolean LocalAnalysis_SurfaceContinuity::IsDone

(

)

const

IsG1()

Standard_Boolean LocalAnalysis_SurfaceContinuity::IsG1

(

)

const

IsG2()

Standard_Boolean LocalAnalysis_SurfaceContinuity::IsG2

(

)

const

StatusError()

LocalAnalysis_StatusErrorType LocalAnalysis_SurfaceContinuity::StatusError

(

)

const

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

• LocalAnalysis_SurfaceContinuity.hxx