VTK
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Reslices a volume along a new set of axes. More...
#include <vtkImageReslice.h>
Public Types | |
typedef vtkThreadedImageAlgorithm | Superclass |
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typedef vtkImageAlgorithm | Superclass |
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typedef vtkAlgorithm | Superclass |
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typedef vtkObject | Superclass |
enum | DesiredOutputPrecision { SINGLE_PRECISION, DOUBLE_PRECISION, DEFAULT_PRECISION } |
Public Member Functions | |
virtual int | IsA (const char *type) |
vtkImageReslice * | NewInstance () const |
virtual void | PrintSelf (ostream &os, vtkIndent indent) |
unsigned long int | GetMTime () |
virtual void | ReportReferences (vtkGarbageCollector *) |
virtual void | SetResliceAxes (vtkMatrix4x4 *) |
virtual vtkMatrix4x4 * | GetResliceAxes () |
void | SetResliceAxesDirectionCosines (double x0, double x1, double x2, double y0, double y1, double y2, double z0, double z1, double z2) |
void | SetResliceAxesDirectionCosines (const double x[3], const double y[3], const double z[3]) |
void | SetResliceAxesDirectionCosines (const double xyz[9]) |
void | GetResliceAxesDirectionCosines (double x[3], double y[3], double z[3]) |
void | GetResliceAxesDirectionCosines (double xyz[9]) |
double * | GetResliceAxesDirectionCosines () |
void | SetResliceAxesOrigin (double x, double y, double z) |
void | SetResliceAxesOrigin (const double xyz[3]) |
void | GetResliceAxesOrigin (double xyz[3]) |
double * | GetResliceAxesOrigin () |
virtual void | SetResliceTransform (vtkAbstractTransform *) |
virtual vtkAbstractTransform * | GetResliceTransform () |
virtual void | SetInformationInput (vtkImageData *) |
virtual vtkImageData * | GetInformationInput () |
virtual void | SetTransformInputSampling (int) |
virtual void | TransformInputSamplingOn () |
virtual void | TransformInputSamplingOff () |
virtual int | GetTransformInputSampling () |
virtual void | SetAutoCropOutput (int) |
virtual void | AutoCropOutputOn () |
virtual void | AutoCropOutputOff () |
virtual int | GetAutoCropOutput () |
virtual void | SetWrap (int) |
virtual int | GetWrap () |
virtual void | WrapOn () |
virtual void | WrapOff () |
virtual void | SetMirror (int) |
virtual int | GetMirror () |
virtual void | MirrorOn () |
virtual void | MirrorOff () |
virtual void | SetBorder (int) |
virtual int | GetBorder () |
virtual void | BorderOn () |
virtual void | BorderOff () |
virtual void | SetInterpolationMode (int) |
virtual int | GetInterpolationMode () |
void | SetInterpolationModeToNearestNeighbor () |
void | SetInterpolationModeToLinear () |
void | SetInterpolationModeToCubic () |
virtual const char * | GetInterpolationModeAsString () |
virtual void | SetInterpolator (vtkAbstractImageInterpolator *sampler) |
virtual vtkAbstractImageInterpolator * | GetInterpolator () |
virtual void | SetSlabMode (int) |
virtual int | GetSlabMode () |
void | SetSlabModeToMin () |
void | SetSlabModeToMax () |
void | SetSlabModeToMean () |
void | SetSlabModeToSum () |
virtual const char * | GetSlabModeAsString () |
virtual void | SetSlabNumberOfSlices (int) |
virtual int | GetSlabNumberOfSlices () |
virtual void | SetSlabTrapezoidIntegration (int) |
virtual void | SlabTrapezoidIntegrationOn () |
virtual void | SlabTrapezoidIntegrationOff () |
virtual int | GetSlabTrapezoidIntegration () |
virtual void | SetOptimization (int) |
virtual int | GetOptimization () |
virtual void | OptimizationOn () |
virtual void | OptimizationOff () |
virtual void | SetBackgroundColor (double, double, double, double) |
virtual void | SetBackgroundColor (double[4]) |
virtual double * | GetBackgroundColor () |
virtual void | GetBackgroundColor (double &, double &, double &, double &) |
virtual void | GetBackgroundColor (double[4]) |
void | SetBackgroundLevel (double v) |
double | GetBackgroundLevel () |
virtual void | SetOutputSpacing (double x, double y, double z) |
virtual void | SetOutputSpacing (const double a[3]) |
virtual double * | GetOutputSpacing () |
virtual void | GetOutputSpacing (double &, double &, double &) |
virtual void | GetOutputSpacing (double[3]) |
void | SetOutputSpacingToDefault () |
virtual void | SetOutputOrigin (double x, double y, double z) |
virtual void | SetOutputOrigin (const double a[3]) |
virtual double * | GetOutputOrigin () |
virtual void | GetOutputOrigin (double &, double &, double &) |
virtual void | GetOutputOrigin (double[3]) |
void | SetOutputOriginToDefault () |
virtual void | SetOutputExtent (int a, int b, int c, int d, int e, int f) |
virtual void | SetOutputExtent (const int a[6]) |
virtual int * | GetOutputExtent () |
virtual void | GetOutputExtent (int &, int &, int &, int &, int &, int &) |
virtual void | GetOutputExtent (int[6]) |
void | SetOutputExtentToDefault () |
virtual void | SetOutputDimensionality (int) |
virtual int | GetOutputDimensionality () |
void | SetInterpolate (int t) |
void | InterpolateOn () |
void | InterpolateOff () |
int | GetInterpolate () |
void | SetStencilData (vtkImageStencilData *stencil) |
vtkImageStencilData * | GetStencil () |
virtual void | SetGenerateStencilOutput (int) |
virtual int | GetGenerateStencilOutput () |
virtual void | GenerateStencilOutputOn () |
virtual void | GenerateStencilOutputOff () |
vtkAlgorithmOutput * | GetStencilOutputPort () |
vtkImageStencilData * | GetStencilOutput () |
void | SetStencilOutput (vtkImageStencilData *stencil) |
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vtkThreadedImageAlgorithm * | NewInstance () const |
void | PrintSelf (ostream &os, vtkIndent indent) |
virtual void | ThreadedExecute (vtkImageData *inData, vtkImageData *outData, int extent[6], int threadId) |
virtual void | SetNumberOfThreads (int) |
virtual int | GetNumberOfThreads () |
virtual int | SplitExtent (int splitExt[6], int startExt[6], int num, int total) |
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vtkImageAlgorithm * | NewInstance () const |
void | PrintSelf (ostream &os, vtkIndent indent) |
vtkImageData * | GetOutput () |
vtkImageData * | GetOutput (int) |
virtual void | SetOutput (vtkDataObject *d) |
virtual int | ProcessRequest (vtkInformation *, vtkInformationVector **, vtkInformationVector *) |
void | SetInputData (vtkDataObject *) |
void | SetInputData (int, vtkDataObject *) |
vtkDataObject * | GetInput (int port) |
vtkDataObject * | GetInput () |
vtkImageData * | GetImageDataInput (int port) |
virtual void | AddInputData (vtkDataObject *) |
virtual void | AddInputData (int, vtkDataObject *) |
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vtkAlgorithm * | NewInstance () const |
void | PrintSelf (ostream &os, vtkIndent indent) |
int | HasExecutive () |
vtkExecutive * | GetExecutive () |
virtual void | SetExecutive (vtkExecutive *executive) |
virtual int | ModifyRequest (vtkInformation *request, int when) |
vtkInformation * | GetInputPortInformation (int port) |
vtkInformation * | GetOutputPortInformation (int port) |
int | GetNumberOfInputPorts () |
int | GetNumberOfOutputPorts () |
void | UpdateProgress (double amount) |
vtkInformation * | GetInputArrayInformation (int idx) |
void | RemoveAllInputs () |
vtkDataObject * | GetOutputDataObject (int port) |
virtual void | RemoveInputConnection (int port, vtkAlgorithmOutput *input) |
virtual void | RemoveInputConnection (int port, int idx) |
virtual void | RemoveAllInputConnections (int port) |
int | GetNumberOfInputConnections (int port) |
int | GetTotalNumberOfInputConnections () |
vtkAlgorithmOutput * | GetInputConnection (int port, int index) |
vtkAlgorithm * | GetInputAlgorithm (int port, int index, int &algPort) |
vtkAlgorithm * | GetInputAlgorithm (int port, int index) |
vtkExecutive * | GetInputExecutive (int port, int index) |
vtkInformation * | GetInputInformation (int port, int index) |
vtkInformation * | GetOutputInformation (int port) |
virtual void | UpdateInformation () |
virtual void | PropagateUpdateExtent () |
virtual void | UpdateWholeExtent () |
void | ConvertTotalInputToPortConnection (int ind, int &port, int &conn) |
virtual double | ComputePriority () |
int | SetUpdateExtentToWholeExtent (int port) |
int | SetUpdateExtentToWholeExtent () |
void | SetUpdateExtent (int port, int extent[6]) |
int | ProcessRequest (vtkInformation *request, vtkCollection *inInfo, vtkInformationVector *outInfo) |
virtual int | ComputePipelineMTime (vtkInformation *request, vtkInformationVector **inInfoVec, vtkInformationVector *outInfoVec, int requestFromOutputPort, unsigned long *mtime) |
virtual vtkInformation * | GetInformation () |
virtual void | SetInformation (vtkInformation *) |
virtual void | Register (vtkObjectBase *o) |
virtual void | UnRegister (vtkObjectBase *o) |
virtual void | SetAbortExecute (int) |
virtual int | GetAbortExecute () |
virtual void | AbortExecuteOn () |
virtual void | AbortExecuteOff () |
virtual void | SetProgress (double) |
virtual double | GetProgress () |
void | SetProgressText (const char *ptext) |
virtual char * | GetProgressText () |
virtual unsigned long | GetErrorCode () |
virtual void | SetInputArrayToProcess (int idx, int port, int connection, int fieldAssociation, const char *name) |
virtual void | SetInputArrayToProcess (int idx, int port, int connection, int fieldAssociation, int fieldAttributeType) |
virtual void | SetInputArrayToProcess (int idx, vtkInformation *info) |
virtual void | SetInputArrayToProcess (int idx, int port, int connection, const char *fieldAssociation, const char *attributeTypeorName) |
vtkDataObject * | GetInputDataObject (int port, int connection) |
virtual void | SetInputConnection (int port, vtkAlgorithmOutput *input) |
virtual void | SetInputConnection (vtkAlgorithmOutput *input) |
virtual void | AddInputConnection (int port, vtkAlgorithmOutput *input) |
virtual void | AddInputConnection (vtkAlgorithmOutput *input) |
virtual void | SetInputDataObject (int port, vtkDataObject *data) |
virtual void | SetInputDataObject (vtkDataObject *data) |
virtual void | AddInputDataObject (int port, vtkDataObject *data) |
virtual void | AddInputDataObject (vtkDataObject *data) |
vtkAlgorithmOutput * | GetOutputPort (int index) |
vtkAlgorithmOutput * | GetOutputPort () |
vtkAlgorithm * | GetInputAlgorithm () |
vtkExecutive * | GetInputExecutive () |
vtkInformation * | GetInputInformation () |
virtual void | Update (int port) |
virtual void | Update () |
virtual void | SetReleaseDataFlag (int) |
virtual int | GetReleaseDataFlag () |
void | ReleaseDataFlagOn () |
void | ReleaseDataFlagOff () |
int | UpdateExtentIsEmpty (vtkInformation *pinfo, vtkDataObject *output) |
int | UpdateExtentIsEmpty (vtkInformation *pinfo, int extentType) |
void | SetUpdateExtent (int port, int piece, int numPieces, int ghostLevel) |
void | SetUpdateExtent (int piece, int numPieces, int ghostLevel) |
void | SetUpdateExtent (int extent[6]) |
int * | GetUpdateExtent () |
int * | GetUpdateExtent (int port) |
void | GetUpdateExtent (int &x0, int &x1, int &y0, int &y1, int &z0, int &z1) |
void | GetUpdateExtent (int port, int &x0, int &x1, int &y0, int &y1, int &z0, int &z1) |
void | GetUpdateExtent (int extent[6]) |
void | GetUpdateExtent (int port, int extent[6]) |
int | GetUpdatePiece () |
int | GetUpdatePiece (int port) |
int | GetUpdateNumberOfPieces () |
int | GetUpdateNumberOfPieces (int port) |
int | GetUpdateGhostLevel () |
int | GetUpdateGhostLevel (int port) |
Static Public Member Functions | |
static vtkImageReslice * | New () |
static int | IsTypeOf (const char *type) |
static vtkImageReslice * | SafeDownCast (vtkObjectBase *o) |
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static int | IsTypeOf (const char *type) |
static vtkThreadedImageAlgorithm * | SafeDownCast (vtkObjectBase *o) |
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static int | IsTypeOf (const char *type) |
static vtkImageAlgorithm * | SafeDownCast (vtkObjectBase *o) |
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static vtkAlgorithm * | New () |
static int | IsTypeOf (const char *type) |
static vtkAlgorithm * | SafeDownCast (vtkObjectBase *o) |
static void | SetDefaultExecutivePrototype (vtkExecutive *proto) |
static vtkInformationIntegerKey * | INPUT_IS_OPTIONAL () |
static vtkInformationIntegerKey * | INPUT_IS_REPEATABLE () |
static vtkInformationInformationVectorKey * | INPUT_REQUIRED_FIELDS () |
static vtkInformationStringVectorKey * | INPUT_REQUIRED_DATA_TYPE () |
static vtkInformationInformationVectorKey * | INPUT_ARRAYS_TO_PROCESS () |
static vtkInformationIntegerKey * | INPUT_PORT () |
static vtkInformationIntegerKey * | INPUT_CONNECTION () |
static vtkInformationIntegerKey * | PRESERVES_DATASET () |
static vtkInformationIntegerKey * | PRESERVES_GEOMETRY () |
static vtkInformationIntegerKey * | PRESERVES_BOUNDS () |
static vtkInformationIntegerKey * | PRESERVES_TOPOLOGY () |
static vtkInformationIntegerKey * | PRESERVES_ATTRIBUTES () |
static vtkInformationIntegerKey * | PRESERVES_RANGES () |
static vtkInformationIntegerKey * | MANAGES_METAINFORMATION () |
Protected Member Functions | |
virtual vtkObjectBase * | NewInstanceInternal () const |
vtkImageReslice () | |
~vtkImageReslice () | |
virtual int | ConvertScalarInfo (int &scalarType, int &numComponents) |
void | ConvertScalarsBase (void *inPtr, void *outPtr, int inputType, int inputNumComponents, int count, int idX, int idY, int idZ, int threadId) |
void | GetAutoCroppedOutputBounds (vtkInformation *inInfo, double bounds[6]) |
virtual void | AllocateOutputData (vtkImageData *output, vtkInformation *outInfo, int *uExtent) |
virtual vtkImageData * | AllocateOutputData (vtkDataObject *, vtkInformation *) |
virtual int | RequestInformation (vtkInformation *, vtkInformationVector **, vtkInformationVector *) |
virtual int | RequestUpdateExtent (vtkInformation *, vtkInformationVector **, vtkInformationVector *) |
virtual int | RequestData (vtkInformation *, vtkInformationVector **, vtkInformationVector *) |
virtual void | ThreadedRequestData (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector, vtkImageData ***inData, vtkImageData **outData, int ext[6], int id) |
virtual int | FillInputPortInformation (int port, vtkInformation *info) |
virtual int | FillOutputPortInformation (int port, vtkInformation *info) |
vtkMatrix4x4 * | GetIndexMatrix (vtkInformation *inInfo, vtkInformation *outInfo) |
vtkAbstractTransform * | GetOptimizedTransform () |
virtual void | ConvertScalars (void *inPtr, void *outPtr, int inputType, int inputNumComponents, int count, int idX, int idY, int idZ, int threadId) |
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vtkThreadedImageAlgorithm () | |
~vtkThreadedImageAlgorithm () | |
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vtkImageAlgorithm () | |
~vtkImageAlgorithm () | |
virtual void | CopyInputArrayAttributesToOutput (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector) |
virtual void | ExecuteDataWithInformation (vtkDataObject *output, vtkInformation *outInfo) |
virtual void | ExecuteData (vtkDataObject *output) |
virtual void | Execute () |
virtual void | CopyAttributeData (vtkImageData *in, vtkImageData *out, vtkInformationVector **inputVector) |
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vtkAlgorithm () | |
~vtkAlgorithm () | |
virtual void | SetNumberOfInputPorts (int n) |
virtual void | SetNumberOfOutputPorts (int n) |
int | InputPortIndexInRange (int index, const char *action) |
int | OutputPortIndexInRange (int index, const char *action) |
int | GetInputArrayAssociation (int idx, vtkInformationVector **inputVector) |
virtual vtkExecutive * | CreateDefaultExecutive () |
virtual void | SetNumberOfInputConnections (int port, int n) |
int | GetInputArrayAssociation (int idx, int connection, vtkInformationVector **inputVector) |
int | GetInputArrayAssociation (int idx, vtkDataObject *input) |
vtkDataArray * | GetInputArrayToProcess (int idx, vtkInformationVector **inputVector) |
vtkDataArray * | GetInputArrayToProcess (int idx, vtkInformationVector **inputVector, int &association) |
vtkDataArray * | GetInputArrayToProcess (int idx, int connection, vtkInformationVector **inputVector) |
vtkDataArray * | GetInputArrayToProcess (int idx, int connection, vtkInformationVector **inputVector, int &association) |
vtkDataArray * | GetInputArrayToProcess (int idx, vtkDataObject *input) |
vtkDataArray * | GetInputArrayToProcess (int idx, vtkDataObject *input, int &association) |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, vtkInformationVector **inputVector) |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, vtkInformationVector **inputVector, int &association) |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, int connection, vtkInformationVector **inputVector) |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, int connection, vtkInformationVector **inputVector, int &association) |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, vtkDataObject *input) |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, vtkDataObject *input, int &association) |
vtkInformation * | GetInputArrayFieldInformation (int idx, vtkInformationVector **inputVector) |
virtual void | SetNthInputConnection (int port, int index, vtkAlgorithmOutput *input) |
void | SetInputDataInternal (int port, vtkDataObject *input) |
void | AddInputDataInternal (int port, vtkDataObject *input) |
virtual void | SetErrorCode (unsigned long) |
Additional Inherited Members | |
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int | AbortExecute |
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static vtkInformationIntegerKey * | PORT_REQUIREMENTS_FILLED () |
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static vtkExecutive * | DefaultExecutivePrototype |
Reslices a volume along a new set of axes.
vtkImageReslice is the swiss-army-knife of image geometry filters: It can permute, rotate, flip, scale, resample, deform, and pad image data in any combination with reasonably high efficiency. Simple operations such as permutation, resampling and padding are done with similar efficiently to the specialized vtkImagePermute, vtkImageResample, and vtkImagePad filters. There are a number of tasks that vtkImageReslice is well suited for:
1) Application of simple rotations, scales, and translations to an image. It is often a good idea to use vtkImageChangeInformation to center the image first, so that scales and rotations occur around the center rather than around the lower-left corner of the image.
2) Resampling of one data set to match the voxel sampling of a second data set via the SetInformationInput() method, e.g. for the purpose of comparing two images or combining two images. A transformation, either linear or nonlinear, can be applied at the same time via the SetResliceTransform method if the two images are not in the same coordinate space.
3) Extraction of slices from an image volume. The most convenient way to do this is to use SetResliceAxesDirectionCosines() to specify the orientation of the slice. The direction cosines give the x, y, and z axes for the output volume. The method SetOutputDimensionality(2) is used to specify that want to output a slice rather than a volume. The SetResliceAxesOrigin() command is used to provide an (x,y,z) point that the slice will pass through. You can use both the ResliceAxes and the ResliceTransform at the same time, in order to extract slices from a volume that you have applied a transformation to.
Definition at line 76 of file vtkImageReslice.h.
Definition at line 80 of file vtkImageReslice.h.
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Reimplemented from vtkThreadedImageAlgorithm.
Reimplemented in vtkImageSlabReslice, vtkImageResliceToColors, vtkImageResample, vtkImagePermute, and vtkImageFlip.
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Reimplemented from vtkThreadedImageAlgorithm.
Reimplemented in vtkImageSlabReslice, vtkImageResliceToColors, vtkImageResample, vtkImagePermute, and vtkImageFlip.
vtkImageReslice* vtkImageReslice::NewInstance | ( | ) | const |
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Reimplemented in vtkImageSlabReslice, vtkImageResliceToColors, vtkImageResample, vtkImagePermute, and vtkImageFlip.
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This method is used to set up the axes for the output voxels. The output Spacing, Origin, and Extent specify the locations of the voxels within the coordinate system defined by the axes. The ResliceAxes are used most often to permute the data, e.g. to extract ZY or XZ slices of a volume as 2D XY images.
The first column of the matrix specifies the x-axis vector (the fourth element must be set to zero), the second column specifies the y-axis, and the third column the z-axis. The fourth column is the origin of the axes (the fourth element must be set to one).
An alternative to SetResliceAxes() is to use SetResliceAxesDirectionCosines() to set the directions of the axes and SetResliceAxesOrigin() to set the origin of the axes.
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This method is used to set up the axes for the output voxels. The output Spacing, Origin, and Extent specify the locations of the voxels within the coordinate system defined by the axes. The ResliceAxes are used most often to permute the data, e.g. to extract ZY or XZ slices of a volume as 2D XY images.
The first column of the matrix specifies the x-axis vector (the fourth element must be set to zero), the second column specifies the y-axis, and the third column the z-axis. The fourth column is the origin of the axes (the fourth element must be set to one).
An alternative to SetResliceAxes() is to use SetResliceAxesDirectionCosines() to set the directions of the axes and SetResliceAxesOrigin() to set the origin of the axes.
void vtkImageReslice::SetResliceAxesDirectionCosines | ( | double | x0, |
double | x1, | ||
double | x2, | ||
double | y0, | ||
double | y1, | ||
double | y2, | ||
double | z0, | ||
double | z1, | ||
double | z2 | ||
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Specify the direction cosines for the ResliceAxes (i.e. the first three elements of each of the first three columns of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create a new matrix if none exists.
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Specify the direction cosines for the ResliceAxes (i.e. the first three elements of each of the first three columns of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create a new matrix if none exists.
Definition at line 109 of file vtkImageReslice.h.
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Specify the direction cosines for the ResliceAxes (i.e. the first three elements of each of the first three columns of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create a new matrix if none exists.
Definition at line 115 of file vtkImageReslice.h.
void vtkImageReslice::GetResliceAxesDirectionCosines | ( | double | x[3], |
double | y[3], | ||
double | z[3] | ||
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Specify the direction cosines for the ResliceAxes (i.e. the first three elements of each of the first three columns of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create a new matrix if none exists.
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Specify the direction cosines for the ResliceAxes (i.e. the first three elements of each of the first three columns of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create a new matrix if none exists.
Definition at line 120 of file vtkImageReslice.h.
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Specify the direction cosines for the ResliceAxes (i.e. the first three elements of each of the first three columns of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create a new matrix if none exists.
Definition at line 122 of file vtkImageReslice.h.
void vtkImageReslice::SetResliceAxesOrigin | ( | double | x, |
double | y, | ||
double | z | ||
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Specify the origin for the ResliceAxes (i.e. the first three elements of the final column of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create new matrix if none exists.
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Specify the origin for the ResliceAxes (i.e. the first three elements of the final column of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create new matrix if none exists.
Definition at line 132 of file vtkImageReslice.h.
void vtkImageReslice::GetResliceAxesOrigin | ( | double | xyz[3] | ) |
Specify the origin for the ResliceAxes (i.e. the first three elements of the final column of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create new matrix if none exists.
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Specify the origin for the ResliceAxes (i.e. the first three elements of the final column of the ResliceAxes matrix). This will modify the current ResliceAxes matrix, or create new matrix if none exists.
Definition at line 135 of file vtkImageReslice.h.
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Set a transform to be applied to the resampling grid that has been defined via the ResliceAxes and the output Origin, Spacing and Extent. Note that applying a transform to the resampling grid (which lies in the output coordinate system) is equivalent to applying the inverse of that transform to the input volume. Nonlinear transforms such as vtkGridTransform and vtkThinPlateSplineTransform can be used here.
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Set a transform to be applied to the resampling grid that has been defined via the ResliceAxes and the output Origin, Spacing and Extent. Note that applying a transform to the resampling grid (which lies in the output coordinate system) is equivalent to applying the inverse of that transform to the input volume. Nonlinear transforms such as vtkGridTransform and vtkThinPlateSplineTransform can be used here.
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Set a vtkImageData from which the default Spacing, Origin, and WholeExtent of the output will be copied. The spacing, origin, and extent will be permuted according to the ResliceAxes. Any values set via SetOutputSpacing, SetOutputOrigin, and SetOutputExtent will override these values. By default, the Spacing, Origin, and WholeExtent of the Input are used.
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Set a vtkImageData from which the default Spacing, Origin, and WholeExtent of the output will be copied. The spacing, origin, and extent will be permuted according to the ResliceAxes. Any values set via SetOutputSpacing, SetOutputOrigin, and SetOutputExtent will override these values. By default, the Spacing, Origin, and WholeExtent of the Input are used.
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Specify whether to transform the spacing, origin and extent of the Input (or the InformationInput) according to the direction cosines and origin of the ResliceAxes before applying them as the default output spacing, origin and extent (default: On).
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Specify whether to transform the spacing, origin and extent of the Input (or the InformationInput) according to the direction cosines and origin of the ResliceAxes before applying them as the default output spacing, origin and extent (default: On).
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Specify whether to transform the spacing, origin and extent of the Input (or the InformationInput) according to the direction cosines and origin of the ResliceAxes before applying them as the default output spacing, origin and extent (default: On).
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Specify whether to transform the spacing, origin and extent of the Input (or the InformationInput) according to the direction cosines and origin of the ResliceAxes before applying them as the default output spacing, origin and extent (default: On).
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Turn this on if you want to guarantee that the extent of the output will be large enough to ensure that none of the data will be cropped (default: Off).
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Turn this on if you want to guarantee that the extent of the output will be large enough to ensure that none of the data will be cropped (default: Off).
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virtual |
Turn this on if you want to guarantee that the extent of the output will be large enough to ensure that none of the data will be cropped (default: Off).
|
virtual |
Turn this on if you want to guarantee that the extent of the output will be large enough to ensure that none of the data will be cropped (default: Off).
|
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Turn on wrap-pad feature (default: Off).
|
virtual |
Turn on wrap-pad feature (default: Off).
|
virtual |
Turn on wrap-pad feature (default: Off).
|
virtual |
Turn on wrap-pad feature (default: Off).
|
virtual |
Turn on mirror-pad feature (default: Off). This will override the wrap-pad.
|
virtual |
Turn on mirror-pad feature (default: Off). This will override the wrap-pad.
|
virtual |
Turn on mirror-pad feature (default: Off). This will override the wrap-pad.
|
virtual |
Turn on mirror-pad feature (default: Off). This will override the wrap-pad.
|
virtual |
Extend the apparent input border by a half voxel (default: On). This changes how interpolation is handled at the borders of the input image: if the center of an output voxel is beyond the edge of the input image, but is within a half voxel width of the edge (using the input voxel width), then the value of the output voxel is calculated as if the input's edge voxels were duplicated past the edges of the input. This has no effect if Mirror or Wrap are on.
|
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Extend the apparent input border by a half voxel (default: On). This changes how interpolation is handled at the borders of the input image: if the center of an output voxel is beyond the edge of the input image, but is within a half voxel width of the edge (using the input voxel width), then the value of the output voxel is calculated as if the input's edge voxels were duplicated past the edges of the input. This has no effect if Mirror or Wrap are on.
|
virtual |
Extend the apparent input border by a half voxel (default: On). This changes how interpolation is handled at the borders of the input image: if the center of an output voxel is beyond the edge of the input image, but is within a half voxel width of the edge (using the input voxel width), then the value of the output voxel is calculated as if the input's edge voxels were duplicated past the edges of the input. This has no effect if Mirror or Wrap are on.
|
virtual |
Extend the apparent input border by a half voxel (default: On). This changes how interpolation is handled at the borders of the input image: if the center of an output voxel is beyond the edge of the input image, but is within a half voxel width of the edge (using the input voxel width), then the value of the output voxel is calculated as if the input's edge voxels were duplicated past the edges of the input. This has no effect if Mirror or Wrap are on.
|
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Set interpolation mode (default: nearest neighbor).
|
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Set interpolation mode (default: nearest neighbor).
|
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Set interpolation mode (default: nearest neighbor).
Definition at line 215 of file vtkImageReslice.h.
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Set interpolation mode (default: nearest neighbor).
Definition at line 217 of file vtkImageReslice.h.
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Set interpolation mode (default: nearest neighbor).
Definition at line 219 of file vtkImageReslice.h.
|
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Set interpolation mode (default: nearest neighbor).
|
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Set the interpolator to use. The default interpolator supports the Nearest, Linear, and Cubic interpolation modes.
|
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Set the interpolator to use. The default interpolator supports the Nearest, Linear, and Cubic interpolation modes.
|
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Set the slab mode, the default is average.
|
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Set the slab mode, the default is average.
|
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Set the slab mode, the default is average.
Definition at line 235 of file vtkImageReslice.h.
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Set the slab mode, the default is average.
Definition at line 237 of file vtkImageReslice.h.
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Set the slab mode, the default is average.
Definition at line 239 of file vtkImageReslice.h.
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Set the slab mode, the default is average.
Definition at line 241 of file vtkImageReslice.h.
|
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Set the slab mode, the default is average.
|
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Set the number of slices that will be combined to create the slab.
|
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Set the number of slices that will be combined to create the slab.
|
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Use trapezoid integration for slab computation. All this does is weigh the first and last slices by half when doing sum and mean. It is off by default.
|
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Use trapezoid integration for slab computation. All this does is weigh the first and last slices by half when doing sum and mean. It is off by default.
|
virtual |
Use trapezoid integration for slab computation. All this does is weigh the first and last slices by half when doing sum and mean. It is off by default.
|
virtual |
Use trapezoid integration for slab computation. All this does is weigh the first and last slices by half when doing sum and mean. It is off by default.
|
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Turn on and off optimizations (default on, they should only be turned off for testing purposes).
|
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Turn on and off optimizations (default on, they should only be turned off for testing purposes).
|
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Turn on and off optimizations (default on, they should only be turned off for testing purposes).
|
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Turn on and off optimizations (default on, they should only be turned off for testing purposes).
|
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Set the background color (for multi-component images).
|
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Set the background color (for multi-component images).
|
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Set the background color (for multi-component images).
|
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Set the background color (for multi-component images).
|
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Set the background color (for multi-component images).
|
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Set background grey level (for single-component images).
Definition at line 277 of file vtkImageReslice.h.
|
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Set background grey level (for single-component images).
Definition at line 278 of file vtkImageReslice.h.
|
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Set the voxel spacing for the output data. The default output spacing is the input spacing permuted through the ResliceAxes.
|
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Set the voxel spacing for the output data. The default output spacing is the input spacing permuted through the ResliceAxes.
Definition at line 285 of file vtkImageReslice.h.
|
virtual |
Set the voxel spacing for the output data. The default output spacing is the input spacing permuted through the ResliceAxes.
|
virtual |
Set the voxel spacing for the output data. The default output spacing is the input spacing permuted through the ResliceAxes.
|
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Set the voxel spacing for the output data. The default output spacing is the input spacing permuted through the ResliceAxes.
void vtkImageReslice::SetOutputSpacingToDefault | ( | ) |
Set the voxel spacing for the output data. The default output spacing is the input spacing permuted through the ResliceAxes.
|
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Set the origin for the output data. The default output origin is the input origin permuted through the ResliceAxes.
|
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Set the origin for the output data. The default output origin is the input origin permuted through the ResliceAxes.
Definition at line 295 of file vtkImageReslice.h.
|
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Set the origin for the output data. The default output origin is the input origin permuted through the ResliceAxes.
|
virtual |
Set the origin for the output data. The default output origin is the input origin permuted through the ResliceAxes.
|
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Set the origin for the output data. The default output origin is the input origin permuted through the ResliceAxes.
void vtkImageReslice::SetOutputOriginToDefault | ( | ) |
Set the origin for the output data. The default output origin is the input origin permuted through the ResliceAxes.
|
virtual |
Set the extent for the output data. The default output extent is the input extent permuted through the ResliceAxes.
|
inlinevirtual |
Set the extent for the output data. The default output extent is the input extent permuted through the ResliceAxes.
Definition at line 305 of file vtkImageReslice.h.
|
virtual |
Set the extent for the output data. The default output extent is the input extent permuted through the ResliceAxes.
|
virtual |
Set the extent for the output data. The default output extent is the input extent permuted through the ResliceAxes.
|
virtual |
Set the extent for the output data. The default output extent is the input extent permuted through the ResliceAxes.
void vtkImageReslice::SetOutputExtentToDefault | ( | ) |
Set the extent for the output data. The default output extent is the input extent permuted through the ResliceAxes.
|
virtual |
Force the dimensionality of the output to either 1, 2, 3 or 0 (default: 3). If the dimensionality is 2D, then the Z extent of the output is forced to (0,0) and the Z origin of the output is forced to 0.0 (i.e. the output extent is confined to the xy plane). If the dimensionality is 1D, the output extent is confined to the x axis. For 0D, the output extent consists of a single voxel at (0,0,0).
|
virtual |
Force the dimensionality of the output to either 1, 2, 3 or 0 (default: 3). If the dimensionality is 2D, then the Z extent of the output is forced to (0,0) and the Z origin of the output is forced to 0.0 (i.e. the output extent is confined to the xy plane). If the dimensionality is 1D, the output extent is confined to the x axis. For 0D, the output extent consists of a single voxel at (0,0,0).
unsigned long int vtkImageReslice::GetMTime | ( | ) |
When determining the modified time of the filter, this check the modified time of the transform and matrix.
|
virtual |
Report object referenced by instances of this class.
Reimplemented from vtkAlgorithm.
|
inline |
Convenient methods for switching between nearest-neighbor and linear interpolation. InterpolateOn() is equivalent to SetInterpolationModeToLinear() and InterpolateOff() is equivalent to SetInterpolationModeToNearestNeighbor() You should not use these methods if you use the SetInterpolationMode methods.
Definition at line 335 of file vtkImageReslice.h.
|
inline |
Convenient methods for switching between nearest-neighbor and linear interpolation. InterpolateOn() is equivalent to SetInterpolationModeToLinear() and InterpolateOff() is equivalent to SetInterpolationModeToNearestNeighbor() You should not use these methods if you use the SetInterpolationMode methods.
Definition at line 340 of file vtkImageReslice.h.
|
inline |
Convenient methods for switching between nearest-neighbor and linear interpolation. InterpolateOn() is equivalent to SetInterpolationModeToLinear() and InterpolateOff() is equivalent to SetInterpolationModeToNearestNeighbor() You should not use these methods if you use the SetInterpolationMode methods.
Definition at line 342 of file vtkImageReslice.h.
|
inline |
Convenient methods for switching between nearest-neighbor and linear interpolation. InterpolateOn() is equivalent to SetInterpolationModeToLinear() and InterpolateOff() is equivalent to SetInterpolationModeToNearestNeighbor() You should not use these methods if you use the SetInterpolationMode methods.
Definition at line 344 of file vtkImageReslice.h.
void vtkImageReslice::SetStencilData | ( | vtkImageStencilData * | stencil | ) |
Use a stencil to limit the calculations to a specific region of the output. Portions of the output that are 'outside' the stencil will be cleared to the background color.
vtkImageStencilData* vtkImageReslice::GetStencil | ( | ) |
Use a stencil to limit the calculations to a specific region of the output. Portions of the output that are 'outside' the stencil will be cleared to the background color.
|
virtual |
Generate an output stencil that defines which pixels were interpolated and which pixels were out-of-bounds of the input.
|
virtual |
Generate an output stencil that defines which pixels were interpolated and which pixels were out-of-bounds of the input.
|
virtual |
Generate an output stencil that defines which pixels were interpolated and which pixels were out-of-bounds of the input.
|
virtual |
Generate an output stencil that defines which pixels were interpolated and which pixels were out-of-bounds of the input.
|
inline |
Get the output stencil.
Definition at line 366 of file vtkImageReslice.h.
vtkImageStencilData* vtkImageReslice::GetStencilOutput | ( | ) |
Get the output stencil.
void vtkImageReslice::SetStencilOutput | ( | vtkImageStencilData * | stencil | ) |
Get the output stencil.
|
protectedvirtual |
This should be overridden by derived classes that operate on the interpolated data before it is placed in the output.
Reimplemented in vtkImageResliceToColors.
|
protectedvirtual |
This should be overridden by derived classes that operate on the interpolated data before it is placed in the output. The input data will usually be double or float (since the interpolation routines use floating-point) but it could be of any type. This method will be called from multiple threads, so it must be thread-safe in derived classes.
Reimplemented in vtkImageResliceToColors.
|
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Definition at line 429 of file vtkImageReslice.h.
|
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|
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Allocate the output data. This will be called before RequestData, it is not necessary for subclasses to call this method themselves.
Reimplemented from vtkImageAlgorithm.
|
protectedvirtual |
Allocate the output data. This will be called before RequestData, it is not necessary for subclasses to call this method themselves.
Reimplemented from vtkImageAlgorithm.
|
protectedvirtual |
Subclasses can reimplement this method to collect information from their inputs and set information for their outputs.
Reimplemented from vtkImageAlgorithm.
Reimplemented in vtkImageSlabReslice, vtkImageFlip, and vtkImageResample.
|
protectedvirtual |
Subclasses can reimplement this method to translate the update extent requests from each output port into update extent requests for the input connections.
Reimplemented from vtkImageAlgorithm.
|
protectedvirtual |
This is called by the superclass. This is the method you should override.
Reimplemented from vtkThreadedImageAlgorithm.
|
protectedvirtual |
If the subclass does not define an Execute method, then the task will be broken up, multiple threads will be spawned, and each thread will call this method. It is public so that the thread functions can call this method.
Reimplemented from vtkThreadedImageAlgorithm.
|
protectedvirtual |
These method should be reimplemented by subclasses that have more than a single input or single output. See vtkAlgorithm for more information.
Reimplemented from vtkImageAlgorithm.
|
protectedvirtual |
These method should be reimplemented by subclasses that have more than a single input or single output. See vtkAlgorithm for more information.
Reimplemented from vtkImageAlgorithm.
|
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|
inlineprotected |
Definition at line 454 of file vtkImageReslice.h.
|
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Definition at line 376 of file vtkImageReslice.h.
|
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Definition at line 377 of file vtkImageReslice.h.
|
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Definition at line 378 of file vtkImageReslice.h.
|
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Definition at line 379 of file vtkImageReslice.h.
|
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Definition at line 380 of file vtkImageReslice.h.
|
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Definition at line 381 of file vtkImageReslice.h.
|
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Definition at line 382 of file vtkImageReslice.h.
|
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Definition at line 383 of file vtkImageReslice.h.
|
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Definition at line 384 of file vtkImageReslice.h.
|
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Definition at line 385 of file vtkImageReslice.h.
|
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Definition at line 386 of file vtkImageReslice.h.
|
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Definition at line 387 of file vtkImageReslice.h.
|
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Definition at line 388 of file vtkImageReslice.h.
|
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Definition at line 389 of file vtkImageReslice.h.
|
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Definition at line 390 of file vtkImageReslice.h.
|
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Definition at line 391 of file vtkImageReslice.h.
|
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Definition at line 392 of file vtkImageReslice.h.
|
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Definition at line 393 of file vtkImageReslice.h.
|
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Definition at line 394 of file vtkImageReslice.h.
|
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Definition at line 395 of file vtkImageReslice.h.
|
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Definition at line 396 of file vtkImageReslice.h.
|
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Definition at line 397 of file vtkImageReslice.h.
|
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Definition at line 398 of file vtkImageReslice.h.
|
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Definition at line 399 of file vtkImageReslice.h.
|
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Definition at line 400 of file vtkImageReslice.h.
|
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Definition at line 401 of file vtkImageReslice.h.
|
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Definition at line 402 of file vtkImageReslice.h.
|
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Definition at line 403 of file vtkImageReslice.h.
|
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Definition at line 405 of file vtkImageReslice.h.
|
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Definition at line 406 of file vtkImageReslice.h.
|
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This should be set to 1 by derived classes that override the ConvertScalars method.
Definition at line 410 of file vtkImageReslice.h.