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vtkGeneralTransform Class Reference

allows operations on any transforms. More...

#include <vtkGeneralTransform.h>

Inheritance diagram for vtkGeneralTransform:

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Collaboration diagram for vtkGeneralTransform:

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List of all members.

Public Methods

virtual const char * GetClassName ()
virtual int IsA (const char *type)
void PrintSelf (ostream &os, vtkIndent indent)
void Identity ()
void Inverse ()
void Concatenate (vtkAbstractTransform *transform)
int CircuitCheck (vtkAbstractTransform *transform)
vtkAbstractTransformMakeTransform ()
unsigned long GetMTime ()
void Translate (double x, double y, double z)
void Translate (const double x[3])
void Translate (const float x[3])
void RotateWXYZ (double angle, double x, double y, double z)
void RotateWXYZ (double angle, const double axis[3])
void RotateWXYZ (double angle, const float axis[3])
void RotateX (double angle)
void RotateY (double angle)
void RotateZ (double angle)
void Scale (double x, double y, double z)
void Scale (const double s[3])
void Scale (const float s[3])
void Concatenate (vtkMatrix4x4 *matrix)
void Concatenate (const double elements[16])
void PreMultiply ()
void PostMultiply ()
int GetNumberOfConcatenatedTransforms ()
vtkAbstractTransformGetConcatenatedTransform (int i)
void SetInput (vtkAbstractTransform *input)
vtkAbstractTransformGetInput ()
int GetInverseFlag ()
void Push ()
void Pop ()
void InternalTransformPoint (const float in[3], float out[3])
void InternalTransformPoint (const double in[3], double out[3])
void InternalTransformDerivative (const float in[3], float out[3], float derivative[3][3])
void InternalTransformDerivative (const double in[3], double out[3], double derivative[3][3])

Static Public Methods

vtkGeneralTransform * New ()
int IsTypeOf (const char *type)
vtkGeneralTransform * SafeDownCast (vtkObject *o)

Protected Methods

 vtkGeneralTransform ()
 ~vtkGeneralTransform ()
void InternalDeepCopy (vtkAbstractTransform *t)
void InternalUpdate ()

Protected Attributes

vtkAbstractTransformInput
vtkTransformConcatenationConcatenation
vtkTransformConcatenationStackStack

Detailed Description

allows operations on any transforms.

Date:
2001/11/30 19:14:13
Revision:
1.37
Thanks:
Thanks to David G. Gobbi who developed this class.
vtkGeneralTransform is like vtkTransform and vtkPerspectiveTransform, but it will work with any vtkAbstractTransform as input. It is not as efficient as the other two, however, because arbitrary transformations cannot be concatenated by matrix multiplication. Transform concatenation is simulated by passing each input point through each transform in turn.
See also:
vtkTransform vtkPerspectiveTransform
Tests:
vtkGeneralTransform (Tests)

Definition at line 65 of file vtkGeneralTransform.h.


Constructor & Destructor Documentation

vtkGeneralTransform::vtkGeneralTransform   [protected]
 

vtkGeneralTransform::~vtkGeneralTransform   [protected]
 


Member Function Documentation

vtkGeneralTransform* vtkGeneralTransform::New   [static]
 

Create an object with Debug turned off, modified time initialized to zero, and reference counting on.

Reimplemented from vtkObject.

virtual const char* vtkGeneralTransform::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 vtkAbstractTransform.

int vtkGeneralTransform::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 vtkAbstractTransform.

virtual int vtkGeneralTransform::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 vtkAbstractTransform.

vtkGeneralTransform* vtkGeneralTransform::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 vtkAbstractTransform.

void vtkGeneralTransform::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 vtkAbstractTransform.

void vtkGeneralTransform::Identity   [inline]
 

Set this transformation to the identity transformation. If the transform has an Input, then the transformation will be reset so that it is the same as the Input.

Reimplemented from vtkAbstractTransform.

Definition at line 76 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Inverse   [inline, virtual]
 

Invert the transformation. This will also set a flag so that the transformation will use the inverse of its Input, if an Input has been set.

Reimplemented from vtkAbstractTransform.

Definition at line 81 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Translate double    x,
double    y,
double    z
[inline]
 

Create a translation matrix and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics.

Definition at line 86 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Translate const double    x[3] [inline]
 

Create a translation matrix and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics.

Definition at line 88 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Translate const float    x[3] [inline]
 

Create a translation matrix and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics.

Definition at line 89 of file vtkGeneralTransform.h.

void vtkGeneralTransform::RotateWXYZ double    angle,
double    x,
double    y,
double    z
[inline]
 

Create a rotation matrix and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics. The angle is in degrees, and (x,y,z) specifies the axis that the rotation will be performed around.

Definition at line 97 of file vtkGeneralTransform.h.

void vtkGeneralTransform::RotateWXYZ double    angle,
const double    axis[3]
[inline]
 

Create a rotation matrix and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics. The angle is in degrees, and (x,y,z) specifies the axis that the rotation will be performed around.

Definition at line 99 of file vtkGeneralTransform.h.

void vtkGeneralTransform::RotateWXYZ double    angle,
const float    axis[3]
[inline]
 

Create a rotation matrix and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics. The angle is in degrees, and (x,y,z) specifies the axis that the rotation will be performed around.

Definition at line 101 of file vtkGeneralTransform.h.

void vtkGeneralTransform::RotateX double    angle [inline]
 

Create a rotation matrix about the X, Y, or Z axis and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics. The angle is expressed in degrees.

Definition at line 109 of file vtkGeneralTransform.h.

void vtkGeneralTransform::RotateY double    angle [inline]
 

Create a rotation matrix about the X, Y, or Z axis and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics. The angle is expressed in degrees.

Definition at line 110 of file vtkGeneralTransform.h.

void vtkGeneralTransform::RotateZ double    angle [inline]
 

Create a rotation matrix about the X, Y, or Z axis and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics. The angle is expressed in degrees.

Definition at line 111 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Scale double    x,
double    y,
double    z
[inline]
 

Create a scale matrix (i.e. set the diagonal elements to x, y, z) and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics.

Definition at line 118 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Scale const double    s[3] [inline]
 

Create a scale matrix (i.e. set the diagonal elements to x, y, z) and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics.

Definition at line 120 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Scale const float    s[3] [inline]
 

Create a scale matrix (i.e. set the diagonal elements to x, y, z) and concatenate it with the current transformation according to PreMultiply or PostMultiply semantics.

Definition at line 121 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Concatenate vtkMatrix4x4   matrix [inline]
 

Concatenates the matrix with the current transformation according to PreMultiply or PostMultiply semantics.

Definition at line 127 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Concatenate const double    elements[16] [inline]
 

Concatenates the matrix with the current transformation according to PreMultiply or PostMultiply semantics.

Definition at line 129 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Concatenate vtkAbstractTransform   transform
 

Concatenate the specified transform with the current transformation according to PreMultiply or PostMultiply semantics. The concatenation is pipelined, meaning that if any of the transformations are changed, even after Concatenate() is called, those changes will be reflected when you call TransformPoint().

void vtkGeneralTransform::PreMultiply   [inline]
 

Sets the internal state of the transform to PreMultiply. All subsequent operations will occur before those already represented in the current transformation. In homogeneous matrix notation, M = M*A where M is the current transformation matrix and A is the applied matrix. The default is PreMultiply.

Definition at line 146 of file vtkGeneralTransform.h.

void vtkGeneralTransform::PostMultiply   [inline]
 

Sets the internal state of the transform to PostMultiply. All subsequent operations will occur after those already represented in the current transformation. In homogeneous matrix notation, M = A*M where M is the current transformation matrix and A is the applied matrix. The default is PreMultiply.

Definition at line 157 of file vtkGeneralTransform.h.

int vtkGeneralTransform::GetNumberOfConcatenatedTransforms   [inline]
 

Get the total number of transformations that are linked into this one via Concatenate() operations or via SetInput().

Definition at line 165 of file vtkGeneralTransform.h.

vtkAbstractTransform* vtkGeneralTransform::GetConcatenatedTransform int    i [inline]
 

Get one of the concatenated transformations as a vtkAbstractTransform. These transformations are applied, in series, every time the transformation of a coordinate occurs. This method is provided to make it possible to decompose a transformation into its constituents, for example to save a transformation to a file.

Definition at line 176 of file vtkGeneralTransform.h.

void vtkGeneralTransform::SetInput vtkAbstractTransform   input
 

Set the input for this transformation. This will be used as the base transformation if it is set. This method allows you to build a transform pipeline: if the input is modified, then this transformation will automatically update accordingly. Note that the InverseFlag, controlled via Inverse(), determines whether this transformation will use the Input or the inverse of the Input.

vtkAbstractTransform* vtkGeneralTransform::GetInput   [inline]
 

Set the input for this transformation. This will be used as the base transformation if it is set. This method allows you to build a transform pipeline: if the input is modified, then this transformation will automatically update accordingly. Note that the InverseFlag, controlled via Inverse(), determines whether this transformation will use the Input or the inverse of the Input.

Definition at line 197 of file vtkGeneralTransform.h.

int vtkGeneralTransform::GetInverseFlag   [inline]
 

Get the inverse flag of the transformation. This controls whether it is the Input or the inverse of the Input that is used as the base transformation. The InverseFlag is flipped every time Inverse() is called. The InverseFlag is off when a transform is first created.

Definition at line 205 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Push   [inline]
 

Pushes the current transformation onto the transformation stack.

Definition at line 211 of file vtkGeneralTransform.h.

void vtkGeneralTransform::Pop   [inline]
 

Deletes the transformation on the top of the stack and sets the top to the next transformation on the stack.

Definition at line 220 of file vtkGeneralTransform.h.

void vtkGeneralTransform::InternalTransformPoint const float    in[3],
float    out[3]
[virtual]
 

This will calculate the transformation without calling Update. Meant for use only within other VTK classes.

Reimplemented from vtkAbstractTransform.

void vtkGeneralTransform::InternalTransformPoint const double    in[3],
double    out[3]
[virtual]
 

This will calculate the transformation without calling Update. Meant for use only within other VTK classes.

Reimplemented from vtkAbstractTransform.

void vtkGeneralTransform::InternalTransformDerivative const float    in[3],
float    out[3],
float    derivative[3][3]
[virtual]
 

This will calculate the transformation as well as its derivative without calling Update. Meant for use only within other VTK classes.

Reimplemented from vtkAbstractTransform.

void vtkGeneralTransform::InternalTransformDerivative const double    in[3],
double    out[3],
double    derivative[3][3]
[virtual]
 

This will calculate the transformation as well as its derivative without calling Update. Meant for use only within other VTK classes.

Reimplemented from vtkAbstractTransform.

int vtkGeneralTransform::CircuitCheck vtkAbstractTransform   transform [virtual]
 

Check for self-reference. Will return true if concatenating with the specified transform, setting it to be our inverse, or setting it to be our input will create a circular reference. CircuitCheck is automatically called by SetInput(), SetInverse(), and Concatenate(vtkXTransform *). Avoid using this function, it is experimental.

Reimplemented from vtkAbstractTransform.

vtkAbstractTransform* vtkGeneralTransform::MakeTransform   [virtual]
 

Make another transform of the same type.

Reimplemented from vtkAbstractTransform.

unsigned long vtkGeneralTransform::GetMTime   [virtual]
 

Override GetMTime to account for input and concatenation.

Reimplemented from vtkAbstractTransform.

void vtkGeneralTransform::InternalDeepCopy vtkAbstractTransform   t [protected, virtual]
 

Perform any subclass-specific DeepCopy.

Reimplemented from vtkAbstractTransform.

void vtkGeneralTransform::InternalUpdate   [protected, virtual]
 

Perform any subclass-specific Update.

Reimplemented from vtkAbstractTransform.


Member Data Documentation

vtkAbstractTransform* vtkGeneralTransform::Input [protected]
 

Definition at line 262 of file vtkGeneralTransform.h.

vtkTransformConcatenation* vtkGeneralTransform::Concatenation [protected]
 

Definition at line 263 of file vtkGeneralTransform.h.

vtkTransformConcatenationStack* vtkGeneralTransform::Stack [protected]
 

Definition at line 264 of file vtkGeneralTransform.h.


The documentation for this class was generated from the following file:
Generated on Thu Mar 28 14:29:36 2002 for VTK by doxygen1.2.11.1 written by Dimitri van Heesch, © 1997-2001