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vtkSpline Class Reference

spline abstract class. More...

#include <vtkSpline.h>

Inheritance diagram for vtkSpline:

[legend]Collaboration diagram for vtkSpline:

[legend]List of all members.

Public Methods
virtual const char *	GetClassName ()
virtual int	IsA (const char *type)
void	PrintSelf (ostream &os, vtkIndent indent)
virtual void	Compute ()=0
void	AddPoint (float t, float x)
void	RemovePoint (float t)
void	RemoveAllPoints ()
unsigned long	GetMTime ()
virtual void	SetClampValue (int)
virtual int	GetClampValue ()
virtual void	ClampValueOn ()
virtual void	ClampValueOff ()
virtual void	SetClosed (int)
virtual int	GetClosed ()
virtual void	ClosedOn ()
virtual void	ClosedOff ()
virtual void	SetLeftConstraint (int)
virtual int	GetLeftConstraint ()
virtual void	SetRightConstraint (int)
virtual int	GetRightConstraint ()
virtual void	SetLeftValue (float)
virtual float	GetLeftValue ()
virtual void	SetRightValue (float)
virtual float	GetRightValue ()
Static Public Methods
int	IsTypeOf (const char *type)
vtkSpline *	SafeDownCast (vtkObject *o)
Protected Methods
	vtkSpline ()
	~vtkSpline ()
Protected Attributes
unsigned long	ComputeTime
int	ClampValue
float *	Intervals
float *	Coefficients
int	LeftConstraint
float	LeftValue
int	RightConstraint
float	RightValue
vtkPiecewiseFunction *	PiecewiseFunction
int	Closed

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Detailed Description

spline abstract class.

Date:

2001/10/11 13:36:37

Revision:

1.20

vtkSpline is used to create interpolated data points for specified data. vtkSpline is an abstract class: its subclasses vtkCardinalSpline and vtkKochenekSpline do the interpolation, The current implementation of splines is limited to data dimensions not exceeding four.

Typically a spline is used by adding a sequence of points followed by use of an evaluation function (e.g., vtkCardinalSpline::Evaluate()). Since these splines are 1D, a point in this context is a independent/ dependent variable pair. Note that the parameter space of the spline ranges from (0,N-1), where N is the number of points in the spline.

Splines can also be set up to be closed or open. Closed splines continue from the last point to the first point with continuous function and derivative values. (You don't need to duplicate the first point to close the spline, just set ClosedOn.) If the spline is closed, the parameter space of the spline becomes (0,N).

See also:

vtkCardinalSpline vtkKochenekSpline

Definition at line 74 of file vtkSpline.h.

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Constructor & Destructor Documentation

vtkSpline::vtkSpline (    )  [protected]

vtkSpline::~vtkSpline (    )  [protected]

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Member Function Documentation

virtual const char* vtkSpline::GetClassName (    )  [virtual]

Return the class name as a string. This method is defined in all subclasses of vtkObject with the vtkTypeMacro found in vtkSetGet.h. Reimplemented from vtkObject. Reimplemented in vtkCardinalSpline, and vtkKochanekSpline.

int vtkSpline::IsTypeOf (  const char *    type )  [static]

Return 1 if this class type is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. Reimplemented from vtkObject. Reimplemented in vtkCardinalSpline, and vtkKochanekSpline.

virtual int vtkSpline::IsA (  const char *    type )  [virtual]

Return 1 if this class is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. Reimplemented from vtkObject. Reimplemented in vtkCardinalSpline, and vtkKochanekSpline.

vtkSpline* vtkSpline::SafeDownCast (  vtkObject *    o )  [static]

Will cast the supplied object to vtkObject* is this is a safe operation (i.e., a safe downcast); otherwise NULL is returned. This method is defined in all subclasses of vtkObject with the vtkTypeMacro found in vtkSetGet.h. Reimplemented from vtkObject. Reimplemented in vtkCardinalSpline, and vtkKochanekSpline.

void vtkSpline::PrintSelf (  ostream &    os, vtkIndent    indent )  [virtual]

Methods invoked by print to print information about the object including superclasses. Typically not called by the user (use Print() instead) but used in the hierarchical print process to combine the output of several classes. Reimplemented from vtkObject. Reimplemented in vtkCardinalSpline, and vtkKochanekSpline.

virtual void vtkSpline::SetClampValue (  int    )  [virtual]

Set/Get ClampValue. If On, results of the interpolation will be clamped to the min/max of the input data.

virtual int vtkSpline::GetClampValue (    )  [virtual]

Set/Get ClampValue. If On, results of the interpolation will be clamped to the min/max of the input data.

virtual void vtkSpline::ClampValueOn (    )  [virtual]

Set/Get ClampValue. If On, results of the interpolation will be clamped to the min/max of the input data.

virtual void vtkSpline::ClampValueOff (    )  [virtual]

Set/Get ClampValue. If On, results of the interpolation will be clamped to the min/max of the input data.

virtual void vtkSpline::Compute (    )  [pure virtual]

Compute the coefficients for the spline. Reimplemented in vtkCardinalSpline, and vtkKochanekSpline.

void vtkSpline::AddPoint (  float    t, float    x )

Add a pair of points to be fit with the spline.

void vtkSpline::RemovePoint (  float    t )

Remove a point from the data to be fit with the spline.

void vtkSpline::RemoveAllPoints (    )

Remove all points from the data.

virtual void vtkSpline::SetClosed (  int    )  [virtual]

Control whether the spline is open or closed. A closed spline forms a continuous loop: the first and last points are the same, and derivatives are continuous.

virtual int vtkSpline::GetClosed (    )  [virtual]

Control whether the spline is open or closed. A closed spline forms a continuous loop: the first and last points are the same, and derivatives are continuous.

virtual void vtkSpline::ClosedOn (    )  [virtual]

Control whether the spline is open or closed. A closed spline forms a continuous loop: the first and last points are the same, and derivatives are continuous.

virtual void vtkSpline::ClosedOff (    )  [virtual]

Control whether the spline is open or closed. A closed spline forms a continuous loop: the first and last points are the same, and derivatives are continuous.

virtual void vtkSpline::SetLeftConstraint (  int    )  [virtual]

Set the type of constraint of the left(right) end points. Three constraints are available: 1: the first derivative at left(right)most point is set to Left(Right)Value. 2: the second derivative at left(right)most point is set to Left(Right)Value. 3: the second derivative at left(right)most points is Left(Right)Value times second derivative at first interior point.

virtual int vtkSpline::GetLeftConstraint (    )  [virtual]

Set the type of constraint of the left(right) end points. Three constraints are available: 1: the first derivative at left(right)most point is set to Left(Right)Value. 2: the second derivative at left(right)most point is set to Left(Right)Value. 3: the second derivative at left(right)most points is Left(Right)Value times second derivative at first interior point.

virtual void vtkSpline::SetRightConstraint (  int    )  [virtual]

Set the type of constraint of the left(right) end points. Three constraints are available: 1: the first derivative at left(right)most point is set to Left(Right)Value. 2: the second derivative at left(right)most point is set to Left(Right)Value. 3: the second derivative at left(right)most points is Left(Right)Value times second derivative at first interior point.

virtual int vtkSpline::GetRightConstraint (    )  [virtual]

Set the type of constraint of the left(right) end points. Three constraints are available: 1: the first derivative at left(right)most point is set to Left(Right)Value. 2: the second derivative at left(right)most point is set to Left(Right)Value. 3: the second derivative at left(right)most points is Left(Right)Value times second derivative at first interior point.

virtual void vtkSpline::SetLeftValue (  float    )  [virtual]

Set the type of constraint of the left(right) end points. Three constraints are available: 1: the first derivative at left(right)most point is set to Left(Right)Value. 2: the second derivative at left(right)most point is set to Left(Right)Value. 3: the second derivative at left(right)most points is Left(Right)Value times second derivative at first interior point.

virtual float vtkSpline::GetLeftValue (    )  [virtual]

Set the type of constraint of the left(right) end points. Three constraints are available: 1: the first derivative at left(right)most point is set to Left(Right)Value. 2: the second derivative at left(right)most point is set to Left(Right)Value. 3: the second derivative at left(right)most points is Left(Right)Value times second derivative at first interior point.

virtual void vtkSpline::SetRightValue (  float    )  [virtual]

Set the type of constraint of the left(right) end points. Three constraints are available: 1: the first derivative at left(right)most point is set to Left(Right)Value. 2: the second derivative at left(right)most point is set to Left(Right)Value. 3: the second derivative at left(right)most points is Left(Right)Value times second derivative at first interior point.

virtual float vtkSpline::GetRightValue (    )  [virtual]

Set the type of constraint of the left(right) end points. Three constraints are available: 1: the first derivative at left(right)most point is set to Left(Right)Value. 2: the second derivative at left(right)most point is set to Left(Right)Value. 3: the second derivative at left(right)most points is Left(Right)Value times second derivative at first interior point.

unsigned long vtkSpline::GetMTime (    )  [virtual]

Return the MTime also considering the Piecewise function. Reimplemented from vtkObject.

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Member Data Documentation

unsigned long vtkSpline::ComputeTime [protected]

Definition at line 133 of file vtkSpline.h.

int vtkSpline::ClampValue [protected]

Definition at line 134 of file vtkSpline.h.

float* vtkSpline::Intervals [protected]

Definition at line 135 of file vtkSpline.h.

float* vtkSpline::Coefficients [protected]

Definition at line 136 of file vtkSpline.h.

int vtkSpline::LeftConstraint [protected]

Definition at line 137 of file vtkSpline.h.

float vtkSpline::LeftValue [protected]

Definition at line 138 of file vtkSpline.h.

int vtkSpline::RightConstraint [protected]

Definition at line 139 of file vtkSpline.h.

float vtkSpline::RightValue [protected]

Definition at line 140 of file vtkSpline.h.

vtkPiecewiseFunction* vtkSpline::PiecewiseFunction [protected]

Definition at line 141 of file vtkSpline.h.

int vtkSpline::Closed [protected]

Definition at line 142 of file vtkSpline.h.

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

• Filtering/vtkSpline.h

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