Medical Imaging Interaction Toolkit  2016.11.0
Medical Imaging Interaction Toolkit
mitk::ThinPlateSplineCurvedGeometry Class Reference

Thin-plate-spline-based landmark-based curved geometry. More...

#include <mitkThinPlateSplineCurvedGeometry.h>

Inheritance diagram for mitk::ThinPlateSplineCurvedGeometry:
Collaboration diagram for mitk::ThinPlateSplineCurvedGeometry:

Public Types

typedef ThinPlateSplineCurvedGeometry Self
 
typedef LandmarkProjectorBasedCurvedGeometry Superclass
 
typedef itk::SmartPointer< SelfPointer
 
typedef itk::SmartPointer< const SelfConstPointer
 
- Public Types inherited from mitk::LandmarkProjectorBasedCurvedGeometry
typedef LandmarkProjectorBasedCurvedGeometry Self
 
typedef AbstractTransformGeometry Superclass
 
typedef itk::SmartPointer< SelfPointer
 
typedef itk::SmartPointer< const SelfConstPointer
 
- Public Types inherited from mitk::AbstractTransformGeometry
typedef AbstractTransformGeometry Self
 
typedef PlaneGeometry Superclass
 
typedef itk::SmartPointer< SelfPointer
 
typedef itk::SmartPointer< const SelfConstPointer
 
- Public Types inherited from mitk::PlaneGeometry
enum  PlaneOrientation { Axial, Sagittal, Frontal, None }
 
typedef PlaneGeometry Self
 
typedef BaseGeometry Superclass
 
typedef itk::SmartPointer< SelfPointer
 
typedef itk::SmartPointer< const SelfConstPointer
 
- Public Types inherited from mitk::BaseGeometry
typedef BaseGeometry Self
 
typedef itk::Object Superclass
 
typedef itk::SmartPointer< SelfPointer
 
typedef itk::SmartPointer< const SelfConstPointer
 
typedef GeometryTransformHolder::TransformType TransformType
 
typedef itk::BoundingBox< unsigned long, 3, ScalarTypeBoundingBoxType
 
typedef BoundingBoxType::BoundsArrayType BoundsArrayType
 
typedef BoundingBoxType::Pointer BoundingBoxPointer
 

Public Member Functions

virtual std::vector< std::string > GetClassHierarchy () const override
 
virtual const char * GetClassName () const
 
Pointer Clone () const
 
virtual void ComputeGeometry () override
 
virtual itk::LightObject::Pointer InternalClone () const override
 clones the geometry More...
 
vtkThinPlateSplineTransform * GetThinPlateSplineTransform () const
 
virtual void SetSigma (double sigma)
 
virtual double GetSigma () const
 
virtual bool IsValid () const override
 Is this BaseGeometry in a state that is valid? More...
 
- Public Member Functions inherited from mitk::LandmarkProjectorBasedCurvedGeometry
void SetLandmarkProjector (mitk::LandmarkProjector *aLandmarkProjector)
 
virtual const mitk::LandmarkProjectorGetLandmarkProjector ()
 
virtual void SetFrameGeometry (const mitk::BaseGeometry *frameGeometry) override
 Set the frame geometry which is used as the standard part of an BaseGeometry (IndexToWorldTransform and bounding box) More...
 
virtual vtkAbstractTransform * GetInterpolatingAbstractTransform () const
 
virtual void SetTargetLandmarks (const mitk::PointSet::DataType::PointsContainer *_arg)
 Set the landmarks through which the geometry shall pass. More...
 
virtual const mitk::PointSet::DataType::PointsContainer * GetTargetLandmarks ()
 Get the landmarks through which the geometry shall pass. More...
 
- Public Member Functions inherited from mitk::AbstractTransformGeometry
Pointer Clone () const
 
virtual vtkAbstractTransform * GetVtkAbstractTransform () const
 Get the vtkAbstractTransform (stored in m_VtkAbstractTransform) More...
 
virtual unsigned long GetMTime () const override
 
virtual const PlaneGeometryGetPlane ()
 Get the rectangular area that is used for transformation by m_VtkAbstractTransform and therewith defines the 2D manifold described by AbstractTransformGeometry. More...
 
virtual bool Project (const mitk::Point3D &pt3d_mm, mitk::Point3D &projectedPt3d_mm) const override
 projects the given point onto the curved plane More...
 
virtual bool Project (const mitk::Point3D &atPt3d_mm, const mitk::Vector3D &vec3d_mm, mitk::Vector3D &projectedVec3d_mm) const override
 projects a given vector starting from given point onto the curved plane More...
 
virtual bool Project (const mitk::Vector3D &vec3d_mm, mitk::Vector3D &projectedVec3d_mm) const override
 projects a given vector starting from standard point onto the curved plane More...
 
virtual bool Map (const mitk::Point3D &pt3d_mm, mitk::Point2D &pt2d_mm) const override
 Project a 3D point given in mm (pt3d_mm) onto the 2D geometry. The result is a 2D point in mm (pt2d_mm). More...
 
virtual void Map (const mitk::Point2D &pt2d_mm, mitk::Point3D &pt3d_mm) const override
 Converts a 2D point given in mm (pt2d_mm) relative to the upper-left corner of the geometry into the corresponding world-coordinate (a 3D point in mm, pt3d_mm). More...
 
virtual bool Map (const mitk::Point3D &atPt3d_mm, const mitk::Vector3D &vec3d_mm, mitk::Vector2D &vec2d_mm) const override
 Project a 3D vector given in mm (vec3d_mm) onto the 2D geometry. The result is a 2D vector in mm (vec2d_mm). More...
 
virtual void Map (const mitk::Point2D &atPt2d_mm, const mitk::Vector2D &vec2d_mm, mitk::Vector3D &vec3d_mm) const override
 Converts a 2D vector given in mm (vec2d_mm) relative to the upper-left corner of the geometry into the corresponding world-coordinate (a 3D vector in mm, vec3d_mm). More...
 
virtual void IndexToWorld (const mitk::Point2D &pt_units, mitk::Point2D &pt_mm) const override
 
virtual void WorldToIndex (const mitk::Point2D &pt_mm, mitk::Point2D &pt_units) const override
 
virtual void IndexToWorld (const mitk::Point2D &atPt2d_units, const mitk::Vector2D &vec_units, mitk::Vector2D &vec_mm) const override
 Convert (continuous or discrete) index coordinates of a vector vec_units to world coordinates (in mm) More...
 
virtual void IndexToWorld (const mitk::Vector2D &vec_units, mitk::Vector2D &vec_mm) const override
 Convert (continuous or discrete) index coordinates of a vector vec_units to world coordinates (in mm) For further information about coordinates types, please see the Geometry documentation. More...
 
virtual void WorldToIndex (const mitk::Point2D &atPt2d_mm, const mitk::Vector2D &vec_mm, mitk::Vector2D &vec_units) const override
 Convert world coordinates (in mm) of a vector vec_mm to (continuous!) index coordinates. More...
 
virtual void WorldToIndex (const mitk::Vector2D &vec_mm, mitk::Vector2D &vec_units) const override
 Convert world coordinates (in mm) of a vector vec_mm to (continuous!) index coordinates. For further information about coordinates types, please see the Geometry documentation. More...
 
virtual bool IsAbove (const Point3D &pt3d_mm, bool considerBoundingBox=false) const override
 Calculates, whether a point is below or above the plane. There are two different calculation methods, with or without consideration of the bounding box. More...
 
virtual mitk::ScalarType GetParametricExtentInMM (int direction) const
 
virtual const itk::Transform< mitk::ScalarType, 3, 3 > * GetParametricTransform () const
 
virtual void SetOversampling (mitk::ScalarType oversampling)
 Change the parametric bounds to oversampling times the bounds of m_Plane. More...
 
virtual void CalculateFrameGeometry ()
 Calculates the standard part of a BaseGeometry (IndexToWorldTransform and bounding box) around the curved geometry. Has to be implemented in subclasses. More...
 
virtual const BoundingBoxGetParametricBoundingBox ()
 Get the parametric bounding-box. More...
 
const BoundingBox::BoundsArrayTypeGetParametricBounds () const
 Get the parametric bounds. More...
 
mitk::ScalarType GetParametricExtent (int direction) const
 Get the parametric extent. More...
 
- Public Member Functions inherited from mitk::PlaneGeometry
Pointer Clone () const
 
virtual void InitializeStandardPlane (const BaseGeometry *geometry3D, PlaneOrientation planeorientation=Axial, ScalarType zPosition=0, bool frontside=true, bool rotated=false, bool top=true)
 Initialize a plane with orientation planeorientation (default: axial) with respect to BaseGeometry (default: identity). Spacing also taken from BaseGeometry. More...
 
virtual void InitializeStandardPlane (const BaseGeometry *geometry3D, bool top, PlaneOrientation planeorientation=Axial, bool frontside=true, bool rotated=false)
 Initialize a plane with orientation planeorientation (default: axial) with respect to BaseGeometry (default: identity). Spacing also taken from BaseGeometry. More...
 
virtual void InitializeStandardPlane (ScalarType width, ScalarType height, const AffineTransform3D *transform=nullptr, PlaneOrientation planeorientation=Axial, ScalarType zPosition=0, bool frontside=true, bool rotated=false, bool top=true)
 Initialize a plane with orientation planeorientation (default: axial) with respect to transform (default: identity) given width and height in units. More...
 
virtual void InitializeStandardPlane (ScalarType width, ScalarType height, const Vector3D &spacing, PlaneOrientation planeorientation=Axial, ScalarType zPosition=0, bool frontside=true, bool rotated=false, bool top=true)
 Initialize plane with orientation planeorientation (default: axial) given width, height and spacing. More...
 
virtual void InitializeStandardPlane (ScalarType width, ScalarType height, const Vector3D &rightVector, const Vector3D &downVector, const Vector3D *spacing=nullptr)
 Initialize plane by width and height in pixels, right-/down-vector (itk) to describe orientation in world-space (vectors will be normalized) and spacing (default: 1.0 mm in all directions). More...
 
virtual void InitializeStandardPlane (ScalarType width, ScalarType height, const VnlVector &rightVector, const VnlVector &downVector, const Vector3D *spacing=nullptr)
 Initialize plane by width and height in pixels, right-/down-vector (vnl) to describe orientation in world-space (vectors will be normalized) and spacing (default: 1.0 mm in all directions). More...
 
virtual void InitializeStandardPlane (const Vector3D &rightVector, const Vector3D &downVector, const Vector3D *spacing=nullptr)
 Initialize plane by right-/down-vector (itk) and spacing (default: 1.0 mm in all directions). More...
 
virtual void InitializeStandardPlane (const VnlVector &rightVector, const VnlVector &downVector, const Vector3D *spacing=nullptr)
 Initialize plane by right-/down-vector (vnl) and spacing (default: 1.0 mm in all directions). More...
 
virtual void InitializePlane (const Point3D &origin, const Vector3D &normal)
 Initialize plane by origin and normal (size is 1.0 mm in all directions, direction of right-/down-vector valid but undefined). More...
 
void SetMatrixByVectors (const VnlVector &rightVector, const VnlVector &downVector, ScalarType thickness=1.0)
 Initialize plane by right-/down-vector. More...
 
Vector3D GetNormal () const
 Normal of the plane. More...
 
VnlVector GetNormalVnl () const
 Normal of the plane as VnlVector. More...
 
virtual ScalarType SignedDistance (const Point3D &pt3d_mm) const
 
ScalarType DistanceFromPlane (const Point3D &pt3d_mm) const
 Distance of the point from the plane (bounding-box not considered) More...
 
ScalarType SignedDistanceFromPlane (const Point3D &pt3d_mm) const
 Signed distance of the point from the plane (bounding-box not considered) More...
 
ScalarType DistanceFromPlane (const PlaneGeometry *plane) const
 Distance of the plane from another plane (bounding-box not considered) More...
 
ScalarType SignedDistanceFromPlane (const PlaneGeometry *plane) const
 Signed distance of the plane from another plane (bounding-box not considered) More...
 
bool IntersectionLine (const PlaneGeometry *plane, Line3D &crossline) const
 Calculate the intersecting line of two planes. More...
 
unsigned int IntersectWithPlane2D (const PlaneGeometry *plane, Point2D &lineFrom, Point2D &lineTo) const
 Calculate two points where another plane intersects the border of this plane. More...
 
double Angle (const PlaneGeometry *plane) const
 Calculate the angle between two planes. More...
 
double Angle (const Line3D &line) const
 Calculate the angle between the plane and a line. More...
 
bool IntersectionPoint (const Line3D &line, Point3D &intersectionPoint) const
 Calculate intersection point between the plane and a line. More...
 
bool IntersectionPointParam (const Line3D &line, double &t) const
 Calculate line parameter of intersection point between the plane and a line. More...
 
bool IsParallel (const PlaneGeometry *plane) const
 Returns whether the plane is parallel to another plane. More...
 
bool IsOnPlane (const Point3D &point) const
 Returns whether the point is on the plane (bounding-box not considered) More...
 
bool IsOnPlane (const Line3D &line) const
 Returns whether the line is on the plane (bounding-box not considered) More...
 
bool IsOnPlane (const PlaneGeometry *plane) const
 Returns whether the plane is on the plane (bounding-box not considered) More...
 
Point3D ProjectPointOntoPlane (const Point3D &pt) const
 Returns the lot from the point to the plane. More...
 
virtual void ExecuteOperation (Operation *operation) override
 
virtual void SetSizeInUnits (mitk::ScalarType width, mitk::ScalarType height)
 Set the width and height of this 2D-geometry in units by calling SetBounds. This does not change the extent in mm! More...
 
ScalarType Distance (const Point3D &pt3d_mm) const
 Distance of the point from the geometry (bounding-box not considered) More...
 
void SetReferenceGeometry (const mitk::BaseGeometry *geometry)
 Set the geometrical frame of reference in which this PlaneGeometry is placed. More...
 
const BaseGeometryGetReferenceGeometry () const
 Get the geometrical frame of reference for this PlaneGeometry. More...
 
bool HasReferenceGeometry () const
 
- Public Member Functions inherited from mitk::BaseGeometry
Pointer Clone () const
 
const Point3D GetOrigin () const
 Get the origin, e.g. the upper-left corner of the plane. More...
 
void SetOrigin (const Point3D &origin)
 Set the origin, i.e. the upper-left corner of the plane. More...
 
const mitk::Vector3D GetSpacing () const
 Get the spacing (size of a pixel). More...
 
void SetSpacing (const mitk::Vector3D &aSpacing, bool enforceSetSpacing=false)
 Set the spacing (m_Spacing). More...
 
VnlVector GetOriginVnl () const
 Get the origin as VnlVector. More...
 
virtual unsigned int GetFrameOfReferenceID () const
 Get the DICOM FrameOfReferenceID referring to the used world coordinate system. More...
 
virtual void SetFrameOfReferenceID (unsigned int _arg)
 Set the DICOM FrameOfReferenceID referring to the used world coordinate system. More...
 
virtual unsigned long GetIndexToWorldTransformLastModified () const
 
void Modified () const override
 Overload of function Modified() to prohibit several calls of Modified() using the ModifiedLock class. More...
 
void Initialize ()
 Initialize the BaseGeometry. More...
 
void InitializeGeometry (Self *newGeometry) const
 
mitk::AffineTransform3DGetIndexToWorldTransform ()
 Get the transformation used to convert from index to world coordinates. More...
 
const mitk::AffineTransform3DGetIndexToWorldTransform () const
 Get the transformation used to convert from index to world coordinates. More...
 
void SetIndexToWorldTransform (mitk::AffineTransform3D *transform)
 
void SetIndexToWorldTransformByVtkMatrix (vtkMatrix4x4 *vtkmatrix)
 Convenience method for setting the ITK transform (m_IndexToWorldTransform) via an vtkMatrix4x4.The spacing of the new transform is copied to m_spacing. More...
 
void SetIndexToWorldTransformWithoutChangingSpacing (mitk::AffineTransform3D *transform)
 
void SetIndexToWorldTransformByVtkMatrixWithoutChangingSpacing (vtkMatrix4x4 *vtkmatrix)
 Convenience method for setting the ITK transform (m_IndexToWorldTransform) via an vtkMatrix4x4. This function keeps the original spacing. More...
 
vtkMatrix4x4 * GetVtkMatrix ()
 
vtkLinearTransform * GetVtkTransform () const
 Get the m_IndexToWorldTransform as a vtkLinearTransform. More...
 
void SetIdentity ()
 Set the transform to identity, the spacing to 1 and origin to 0. More...
 
void Compose (const TransformType *other, bool pre=0)
 Compose new IndexToWorldTransform with a given transform. More...
 
void Compose (const vtkMatrix4x4 *vtkmatrix, bool pre=0)
 Compose new IndexToWorldTransform with a given vtkMatrix4x4. More...
 
void Translate (const Vector3D &vector)
 Translate the origin by a vector. More...
 
void WorldToIndex (const mitk::Point3D &pt_mm, mitk::Point3D &pt_units) const
 Convert world coordinates (in mm) of a point to (continuous!) index coordinates. More...
 
void WorldToIndex (const mitk::Vector3D &vec_mm, mitk::Vector3D &vec_units) const
 Convert world coordinates (in mm) of a vector vec_mm to (continuous!) index coordinates. For further information about coordinates types, please see the Geometry documentation. More...
 
template<unsigned int VIndexDimension>
void WorldToIndex (const mitk::Point3D &pt_mm, itk::Index< VIndexDimension > &index) const
 Convert world coordinates (in mm) of a point to (discrete!) index coordinates. This method rounds to integer indices! For further information about coordinates types, please see the Geometry documentation. More...
 
void IndexToWorld (const mitk::Vector3D &vec_units, mitk::Vector3D &vec_mm) const
 Convert (continuous or discrete) index coordinates of a vector vec_units to world coordinates (in mm) For further information about coordinates types, please see the Geometry documentation. More...
 
void IndexToWorld (const mitk::Point3D &pt_units, mitk::Point3D &pt_mm) const
 Convert (continuous or discrete) index coordinates of a point to world coordinates (in mm) For further information about coordinates types, please see the Geometry documentation. More...
 
template<unsigned int VIndexDimension>
void IndexToWorld (const itk::Index< VIndexDimension > &index, mitk::Point3D &pt_mm) const
 Convert (discrete) index coordinates of a point to world coordinates (in mm) For further information about coordinates types, please see the Geometry documentation. More...
 
void IndexToWorld (const mitk::Point3D &atPt3d_units, const mitk::Vector3D &vec_units, mitk::Vector3D &vec_mm) const
 Convert (continuous or discrete) index coordinates of a vector vec_units to world coordinates (in mm) More...
 
void WorldToIndex (const mitk::Point3D &atPt3d_mm, const mitk::Vector3D &vec_mm, mitk::Vector3D &vec_units) const
 Convert world coordinates (in mm) of a vector vec_mm to (continuous!) index coordinates. More...
 
template<class TCoordRep >
void ItkPhysicalPointToWorld (const itk::Point< TCoordRep, 3 > &itkPhysicalPoint, mitk::Point3D &pt_mm) const
 Deprecated for use with ITK version 3.10 or newer. Convert ITK physical coordinates of a point (in mm, but without a rotation) into MITK world coordinates (in mm) More...
 
template<class TCoordRep >
void WorldToItkPhysicalPoint (const mitk::Point3D &pt_mm, itk::Point< TCoordRep, 3 > &itkPhysicalPoint) const
 Deprecated for use with ITK version 3.10 or newer. Convert world coordinates (in mm) of a point to ITK physical coordinates (in mm, but without a possible rotation) More...
 
virtual const BoundingBoxTypeGetBoundingBox ()
 
const BoundsArrayType GetBounds () const
 
void SetBounds (const BoundsArrayType &bounds)
 Set the bounding box (in index/unit coordinates) More...
 
void SetFloatBounds (const float bounds[6])
 Set the bounding box (in index/unit coordinates) via a float array. More...
 
void SetFloatBounds (const double bounds[6])
 Set the bounding box (in index/unit coordinates) via a double array. More...
 
VnlVector GetMatrixColumn (unsigned int direction) const
 Get a VnlVector along bounding-box in the specified direction, length is spacing. More...
 
mitk::BoundingBox::Pointer CalculateBoundingBoxRelativeToTransform (const mitk::AffineTransform3D *transform) const
 Calculates a bounding-box around the geometry relative to a coordinate system defined by a transform. More...
 
ScalarType GetExtent (unsigned int direction) const
 Set the time bounds (in ms) More...
 
ScalarType GetExtentInMM (int direction) const
 Get the extent of the bounding-box in the specified direction in mm. More...
 
Vector3D GetAxisVector (unsigned int direction) const
 Get vector along bounding-box in the specified direction in mm. More...
 
virtual bool Is2DConvertable ()
 Checks, if the given geometry can be converted to 2D without information loss e.g. when a 2D image is saved, the matrix is usually cropped to 2x2, and when you load it back to MITK it will be filled with standard values. This function checks, if information would be lost during this procedure. More...
 
Point3D GetCenter () const
 Get the center of the bounding-box in mm. More...
 
double GetDiagonalLength2 () const
 Get the squared length of the diagonal of the bounding-box in mm. More...
 
double GetDiagonalLength () const
 Get the length of the diagonal of the bounding-box in mm. More...
 
Point3D GetCornerPoint (int id) const
 Get the position of the corner number id (in world coordinates) More...
 
Point3D GetCornerPoint (bool xFront=true, bool yFront=true, bool zFront=true) const
 Get the position of a corner (in world coordinates) More...
 
void SetExtentInMM (int direction, ScalarType extentInMM)
 Set the extent of the bounding-box in the specified direction in mm. More...
 
bool IsInside (const mitk::Point3D &p) const
 Test whether the point p (world coordinates in mm) is inside the bounding box. More...
 
bool IsIndexInside (const mitk::Point3D &index) const
 Test whether the point p ((continous!)index coordinates in units) is inside the bounding box. More...
 
template<unsigned int VIndexDimension>
bool IsIndexInside (const itk::Index< VIndexDimension > &index) const
 Convenience method for working with ITK indices. More...
 
virtual void ChangeImageGeometryConsideringOriginOffset (const bool isAnImageGeometry)
 When switching from an Image Geometry to a normal Geometry (and the other way around), you have to. More...
 
virtual bool GetImageGeometry () const
 Is this an ImageGeometry? More...
 
virtual void SetImageGeometry (bool _arg)
 Define that this BaseGeometry is refering to an Image. More...
 
virtual void ImageGeometryOn ()
 
virtual void ImageGeometryOff ()
 
const GeometryTransformHolderGetGeometryTransformHolder () const
 
- Public Member Functions inherited from mitk::OperationActor
 itkTypeMacroNoParent (OperationActor) virtual ~OperationActor()
 

Static Public Member Functions

static const char * GetStaticNameOfClass ()
 
static Pointer New ()
 
- Static Public Member Functions inherited from mitk::LandmarkProjectorBasedCurvedGeometry
static const char * GetStaticNameOfClass ()
 
- Static Public Member Functions inherited from mitk::AbstractTransformGeometry
static const char * GetStaticNameOfClass ()
 
static Pointer New ()
 
- Static Public Member Functions inherited from mitk::PlaneGeometry
static const char * GetStaticNameOfClass ()
 
static Pointer New ()
 
static void EnsurePerpendicularNormal (AffineTransform3D *transform)
 Change transform so that the third column of the transform-martix is perpendicular to the first two columns. More...
 
- Static Public Member Functions inherited from mitk::BaseGeometry
static const char * GetStaticNameOfClass ()
 

Protected Member Functions

 ThinPlateSplineCurvedGeometry ()
 
 ThinPlateSplineCurvedGeometry (const ThinPlateSplineCurvedGeometry &other)
 
virtual ~ThinPlateSplineCurvedGeometry ()
 
virtual void PreSetSpacing (const mitk::Vector3D &aSpacing) override
 PreSetSpacing. More...
 
- Protected Member Functions inherited from mitk::LandmarkProjectorBasedCurvedGeometry
 LandmarkProjectorBasedCurvedGeometry ()
 
 LandmarkProjectorBasedCurvedGeometry (const LandmarkProjectorBasedCurvedGeometry &other)
 
virtual ~LandmarkProjectorBasedCurvedGeometry ()
 
- Protected Member Functions inherited from mitk::AbstractTransformGeometry
 AbstractTransformGeometry ()
 
 AbstractTransformGeometry (const AbstractTransformGeometry &other)
 
virtual ~AbstractTransformGeometry ()
 
virtual void SetVtkAbstractTransform (vtkAbstractTransform *aVtkAbstractTransform)
 Set the vtkAbstractTransform (stored in m_VtkAbstractTransform) More...
 
virtual void SetPlane (const mitk::PlaneGeometry *aPlane)
 Set the rectangular area that is used for transformation by m_VtkAbstractTransform and therewith defines the 2D manifold described by ExternAbstractTransformGeometry. More...
 
virtual void SetParametricBounds (const BoundingBox::BoundsArrayType &bounds)
 Set the parametric bounds. More...
 
- Protected Member Functions inherited from mitk::PlaneGeometry
 PlaneGeometry ()
 
 PlaneGeometry (const PlaneGeometry &other)
 
virtual ~PlaneGeometry ()
 
virtual void PrintSelf (std::ostream &os, itk::Indent indent) const override
 
virtual void CheckBounds (const BoundsArrayType &bounds) override
 CheckBounds. More...
 
virtual void CheckIndexToWorldTransform (mitk::AffineTransform3D *transform) override
 CheckIndexToWorldTransform. More...
 
- Protected Member Functions inherited from mitk::BaseGeometry
 BaseGeometry ()
 
 BaseGeometry (const BaseGeometry &other)
 
virtual ~BaseGeometry ()
 
virtual unsigned int GetNDimensions () const
 
bool IsBoundingBoxNull () const
 
bool IsIndexToWorldTransformNull () const
 
void SetVtkMatrixDeepCopy (vtkTransform *vtktransform)
 
void _SetSpacing (const mitk::Vector3D &aSpacing, bool enforceSetSpacing=false)
 

Protected Attributes

vtkThinPlateSplineTransform * m_ThinPlateSplineTransform
 
vtkPoints * m_VtkTargetLandmarks
 
vtkPoints * m_VtkProjectedLandmarks
 
- Protected Attributes inherited from mitk::LandmarkProjectorBasedCurvedGeometry
mitk::LandmarkProjector::Pointer m_LandmarkProjector
 
vtkAbstractTransform * m_InterpolatingAbstractTransform
 
mitk::PointSet::DataType::PointsContainer::ConstPointer m_TargetLandmarks
 
- Protected Attributes inherited from mitk::AbstractTransformGeometry
mitk::PlaneGeometry::Pointer m_Plane
 The rectangular area that is used for transformation by m_VtkAbstractTransform and therewith defines the 2D manifold described by AbstractTransformGeometry. More...
 
itk::VtkAbstractTransform< ScalarType >::Pointer m_ItkVtkAbstractTransform
 
mitk::BaseGeometry::Pointer m_FrameGeometry
 
mitk::BoundingBox::Pointer m_ParametricBoundingBox
 
- Protected Attributes inherited from mitk::PlaneGeometry
const mitk::BaseGeometrym_ReferenceGeometry
 

Additional Inherited Members

- Static Protected Member Functions inherited from mitk::BaseGeometry
static const std::string GetTransformAsString (TransformType *transformType)
 

Detailed Description

Thin-plate-spline-based landmark-based curved geometry.

Definition at line 31 of file mitkThinPlateSplineCurvedGeometry.h.

Member Typedef Documentation

Constructor & Destructor Documentation

mitk::ThinPlateSplineCurvedGeometry::ThinPlateSplineCurvedGeometry ( )
protected
mitk::ThinPlateSplineCurvedGeometry::ThinPlateSplineCurvedGeometry ( const ThinPlateSplineCurvedGeometry other)
protected

Definition at line 30 of file mitkThinPlateSplineCurvedGeometry.cpp.

References GetSigma(), and SetSigma().

mitk::ThinPlateSplineCurvedGeometry::~ThinPlateSplineCurvedGeometry ( )
protectedvirtual

Definition at line 36 of file mitkThinPlateSplineCurvedGeometry.cpp.

Member Function Documentation

Pointer mitk::ThinPlateSplineCurvedGeometry::Clone ( ) const
void mitk::ThinPlateSplineCurvedGeometry::ComputeGeometry ( )
overridevirtual
virtual std::vector<std::string> mitk::ThinPlateSplineCurvedGeometry::GetClassHierarchy ( ) const
inlineoverridevirtual
virtual const char* mitk::ThinPlateSplineCurvedGeometry::GetClassName ( ) const
virtual
double mitk::ThinPlateSplineCurvedGeometry::GetSigma ( ) const
virtual

Definition at line 58 of file mitkThinPlateSplineCurvedGeometry.cpp.

Referenced by ThinPlateSplineCurvedGeometry().

static const char* mitk::ThinPlateSplineCurvedGeometry::GetStaticNameOfClass ( )
inlinestatic

Definition at line 34 of file mitkThinPlateSplineCurvedGeometry.h.

vtkThinPlateSplineTransform* mitk::ThinPlateSplineCurvedGeometry::GetThinPlateSplineTransform ( ) const
inline

Definition at line 42 of file mitkThinPlateSplineCurvedGeometry.h.

itk::LightObject::Pointer mitk::ThinPlateSplineCurvedGeometry::InternalClone ( ) const
overridevirtual

clones the geometry

Overwrite in all sub-classes. Normally looks like:

//## Self::Pointer newGeometry = new Self(*this);
//## newGeometry->UnRegister();
//## return newGeometry.GetPointer();
//##

Reimplemented from mitk::LandmarkProjectorBasedCurvedGeometry.

Definition at line 96 of file mitkThinPlateSplineCurvedGeometry.cpp.

bool mitk::ThinPlateSplineCurvedGeometry::IsValid ( ) const
overridevirtual

Is this BaseGeometry in a state that is valid?

This function returns always true in the BaseGeometry class. Other implementations are possible in subclasses.

Reimplemented from mitk::BaseGeometry.

Definition at line 48 of file mitkThinPlateSplineCurvedGeometry.cpp.

static Pointer mitk::ThinPlateSplineCurvedGeometry::New ( )
static
virtual void mitk::ThinPlateSplineCurvedGeometry::PreSetSpacing ( const mitk::Vector3D aSpacing)
inlineoverrideprotectedvirtual

PreSetSpacing.

These virtual function allows a different beahiour in subclasses. Do implement them in every subclass of BaseGeometry. If not needed, use {Superclass::PreSetSpacing();};

Reimplemented from mitk::LandmarkProjectorBasedCurvedGeometry.

Definition at line 65 of file mitkThinPlateSplineCurvedGeometry.h.

void mitk::ThinPlateSplineCurvedGeometry::SetSigma ( double  sigma)
virtual

Definition at line 53 of file mitkThinPlateSplineCurvedGeometry.cpp.

Referenced by ThinPlateSplineCurvedGeometry().

Member Data Documentation

vtkThinPlateSplineTransform* mitk::ThinPlateSplineCurvedGeometry::m_ThinPlateSplineTransform
protected

Definition at line 54 of file mitkThinPlateSplineCurvedGeometry.h.

Referenced by ThinPlateSplineCurvedGeometry().

vtkPoints* mitk::ThinPlateSplineCurvedGeometry::m_VtkProjectedLandmarks
protected

Definition at line 57 of file mitkThinPlateSplineCurvedGeometry.h.

Referenced by ThinPlateSplineCurvedGeometry().

vtkPoints* mitk::ThinPlateSplineCurvedGeometry::m_VtkTargetLandmarks
protected

Definition at line 56 of file mitkThinPlateSplineCurvedGeometry.h.

Referenced by ThinPlateSplineCurvedGeometry().


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