VTK
9.0.1
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Calculate functions of quality of the elements of a mesh. More...
#include <vtkMeshQuality.h>
Public Types | |
typedef vtkDataSetAlgorithm | Superclass |
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typedef vtkAlgorithm | Superclass |
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enum | DesiredOutputPrecision { SINGLE_PRECISION, DOUBLE_PRECISION, DEFAULT_PRECISION } |
Values used for setting the desired output precision for various algorithms. More... | |
typedef vtkObject | Superclass |
Public Member Functions | |
void | PrintSelf (ostream &os, vtkIndent indent) override |
Methods invoked by print to print information about the object including superclasses. More... | |
virtual vtkTypeBool | IsA (const char *type) |
Return 1 if this class is the same type of (or a subclass of) the named class. More... | |
vtkMeshQuality * | NewInstance () const |
virtual void | SetRatio (vtkTypeBool r) |
These methods are deprecated. More... | |
vtkTypeBool | GetRatio () |
virtual void | RatioOn () |
virtual void | RatioOff () |
virtual void | SetSaveCellQuality (vtkTypeBool) |
This variable controls whether or not cell quality is stored as cell data in the resulting mesh or discarded (leaving only the aggregate quality average of the entire mesh, recorded in the FieldData). More... | |
virtual vtkTypeBool | GetSaveCellQuality () |
This variable controls whether or not cell quality is stored as cell data in the resulting mesh or discarded (leaving only the aggregate quality average of the entire mesh, recorded in the FieldData). More... | |
virtual void | SaveCellQualityOn () |
This variable controls whether or not cell quality is stored as cell data in the resulting mesh or discarded (leaving only the aggregate quality average of the entire mesh, recorded in the FieldData). More... | |
virtual void | SaveCellQualityOff () |
This variable controls whether or not cell quality is stored as cell data in the resulting mesh or discarded (leaving only the aggregate quality average of the entire mesh, recorded in the FieldData). More... | |
virtual void | SetTriangleQualityMeasure (int) |
Set/Get the particular estimator used to function the quality of triangles. More... | |
virtual int | GetTriangleQualityMeasure () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToArea () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToEdgeRatio () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToAspectRatio () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToRadiusRatio () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToAspectFrobenius () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToMinAngle () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToMaxAngle () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToCondition () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToScaledJacobian () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToRelativeSizeSquared () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToShape () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToShapeAndSize () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
void | SetTriangleQualityMeasureToDistortion () |
Set/Get the particular estimator used to function the quality of triangles. More... | |
virtual void | SetQuadQualityMeasure (int) |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
virtual int | GetQuadQualityMeasure () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToEdgeRatio () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToAspectRatio () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToRadiusRatio () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToMedAspectFrobenius () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToMaxAspectFrobenius () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToMaxEdgeRatios () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToSkew () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToTaper () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToWarpage () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToArea () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToStretch () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToMinAngle () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToMaxAngle () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToOddy () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToCondition () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToJacobian () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToScaledJacobian () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToShear () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToShape () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToRelativeSizeSquared () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToShapeAndSize () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToShearAndSize () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
void | SetQuadQualityMeasureToDistortion () |
Set/Get the particular estimator used to measure the quality of quadrilaterals. More... | |
virtual void | SetTetQualityMeasure (int) |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
virtual int | GetTetQualityMeasure () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToEdgeRatio () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToAspectRatio () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToRadiusRatio () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToAspectFrobenius () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToMinAngle () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToCollapseRatio () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToAspectBeta () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToAspectGamma () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToVolume () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToCondition () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToJacobian () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToScaledJacobian () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToShape () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToRelativeSizeSquared () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToShapeAndSize () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
void | SetTetQualityMeasureToDistortion () |
Set/Get the particular estimator used to measure the quality of tetrahedra. More... | |
virtual void | SetHexQualityMeasure (int) |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
virtual int | GetHexQualityMeasure () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToEdgeRatio () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToMedAspectFrobenius () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToMaxAspectFrobenius () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToMaxEdgeRatios () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToSkew () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToTaper () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToVolume () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToStretch () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToDiagonal () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToDimension () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToOddy () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToCondition () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToJacobian () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToScaledJacobian () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToShear () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToShape () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToRelativeSizeSquared () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToShapeAndSize () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToShearAndSize () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
void | SetHexQualityMeasureToDistortion () |
Set/Get the particular estimator used to measure the quality of hexahedra. More... | |
virtual void | SetVolume (vtkTypeBool cv) |
These methods are deprecated. More... | |
vtkTypeBool | GetVolume () |
These methods are deprecated. More... | |
virtual void | VolumeOn () |
These methods are deprecated. More... | |
virtual void | VolumeOff () |
These methods are deprecated. More... | |
virtual void | SetCompatibilityMode (vtkTypeBool cm) |
CompatibilityMode governs whether, when both a quality function and cell volume are to be stored as cell data, the two values are stored in a single array. More... | |
virtual vtkTypeBool | GetCompatibilityMode () |
CompatibilityMode governs whether, when both a quality function and cell volume are to be stored as cell data, the two values are stored in a single array. More... | |
virtual void | CompatibilityModeOn () |
CompatibilityMode governs whether, when both a quality function and cell volume are to be stored as cell data, the two values are stored in a single array. More... | |
virtual void | CompatibilityModeOff () |
CompatibilityMode governs whether, when both a quality function and cell volume are to be stored as cell data, the two values are stored in a single array. More... | |
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vtkDataSetAlgorithm * | NewInstance () const |
vtkDataObject * | GetInput () |
Get the input data object. More... | |
vtkPolyData * | GetPolyDataOutput () |
Get the output as vtkPolyData. More... | |
vtkStructuredPoints * | GetStructuredPointsOutput () |
Get the output as vtkStructuredPoints. More... | |
vtkImageData * | GetImageDataOutput () |
Get the output as vtkStructuredPoints. More... | |
vtkStructuredGrid * | GetStructuredGridOutput () |
Get the output as vtkStructuredGrid. More... | |
vtkUnstructuredGrid * | GetUnstructuredGridOutput () |
Get the output as vtkUnstructuredGrid. More... | |
vtkRectilinearGrid * | GetRectilinearGridOutput () |
Get the output as vtkRectilinearGrid. More... | |
vtkTypeBool | ProcessRequest (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector) override |
see vtkAlgorithm for details More... | |
vtkDataSet * | GetOutput () |
Get the output data object for a port on this algorithm. More... | |
vtkDataSet * | GetOutput (int) |
Get the output data object for a port on this algorithm. More... | |
void | SetInputData (vtkDataObject *) |
Assign a data object as input. More... | |
void | SetInputData (int, vtkDataObject *) |
Assign a data object as input. More... | |
void | SetInputData (vtkDataSet *) |
Assign a data object as input. More... | |
void | SetInputData (int, vtkDataSet *) |
Assign a data object as input. More... | |
void | AddInputData (vtkDataObject *) |
Assign a data object as input. More... | |
void | AddInputData (vtkDataSet *) |
Assign a data object as input. More... | |
void | AddInputData (int, vtkDataSet *) |
Assign a data object as input. More... | |
void | AddInputData (int, vtkDataObject *) |
Assign a data object as input. More... | |
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vtkAlgorithm * | NewInstance () const |
int | HasExecutive () |
Check whether this algorithm has an assigned executive. More... | |
vtkExecutive * | GetExecutive () |
Get this algorithm's executive. More... | |
virtual void | SetExecutive (vtkExecutive *executive) |
Set this algorithm's executive. More... | |
vtkTypeBool | ProcessRequest (vtkInformation *request, vtkCollection *inInfo, vtkInformationVector *outInfo) |
Version of ProcessRequest() that is wrapped. More... | |
virtual int | ComputePipelineMTime (vtkInformation *request, vtkInformationVector **inInfoVec, vtkInformationVector *outInfoVec, int requestFromOutputPort, vtkMTimeType *mtime) |
A special version of ProcessRequest meant specifically for the pipeline modified time request. More... | |
virtual int | ModifyRequest (vtkInformation *request, int when) |
This method gives the algorithm a chance to modify the contents of a request before or after (specified in the when argument) it is forwarded. More... | |
vtkInformation * | GetInputPortInformation (int port) |
Get the information object associated with an input port. More... | |
vtkInformation * | GetOutputPortInformation (int port) |
Get the information object associated with an output port. More... | |
int | GetNumberOfInputPorts () |
Get the number of input ports used by the algorithm. More... | |
int | GetNumberOfOutputPorts () |
Get the number of output ports provided by the algorithm. More... | |
void | SetProgress (double) |
SetProgress is deprecated. More... | |
void | UpdateProgress (double amount) |
Update the progress of the process object. More... | |
virtual void | SetInputArrayToProcess (int idx, int port, int connection, const char *fieldAssociation, const char *attributeTypeorName) |
String based versions of SetInputArrayToProcess(). More... | |
vtkInformation * | GetInputArrayInformation (int idx) |
Get the info object for the specified input array to this algorithm. More... | |
void | RemoveAllInputs () |
Remove all the input data. More... | |
vtkDataObject * | GetOutputDataObject (int port) |
Get the data object that will contain the algorithm output for the given port. More... | |
vtkDataObject * | GetInputDataObject (int port, int connection) |
Get the data object that will contain the algorithm input for the given port and given connection. More... | |
virtual void | RemoveInputConnection (int port, vtkAlgorithmOutput *input) |
Remove a connection from the given input port index. More... | |
virtual void | RemoveInputConnection (int port, int idx) |
Remove a connection given by index idx. More... | |
virtual void | RemoveAllInputConnections (int port) |
Removes all input connections. More... | |
virtual void | SetInputDataObject (int port, vtkDataObject *data) |
Sets the data-object as an input on the given port index. More... | |
virtual void | SetInputDataObject (vtkDataObject *data) |
virtual void | AddInputDataObject (int port, vtkDataObject *data) |
Add the data-object as an input to this given port. More... | |
virtual void | AddInputDataObject (vtkDataObject *data) |
vtkAlgorithmOutput * | GetOutputPort (int index) |
Get a proxy object corresponding to the given output port of this algorithm. More... | |
vtkAlgorithmOutput * | GetOutputPort () |
int | GetNumberOfInputConnections (int port) |
Get the number of inputs currently connected to a port. More... | |
int | GetTotalNumberOfInputConnections () |
Get the total number of inputs for this algorithm. More... | |
vtkAlgorithmOutput * | GetInputConnection (int port, int index) |
Get the algorithm output port connected to an input port. More... | |
vtkAlgorithm * | GetInputAlgorithm (int port, int index, int &algPort) |
Returns the algorithm and the output port index of that algorithm connected to a port-index pair. More... | |
vtkAlgorithm * | GetInputAlgorithm (int port, int index) |
Returns the algorithm connected to a port-index pair. More... | |
vtkAlgorithm * | GetInputAlgorithm () |
Equivalent to GetInputAlgorithm(0, 0). More... | |
vtkExecutive * | GetInputExecutive (int port, int index) |
Returns the executive associated with a particular input connection. More... | |
vtkExecutive * | GetInputExecutive () |
Equivalent to GetInputExecutive(0, 0) More... | |
vtkInformation * | GetInputInformation (int port, int index) |
Return the information object that is associated with a particular input connection. More... | |
vtkInformation * | GetInputInformation () |
Equivalent to GetInputInformation(0, 0) More... | |
vtkInformation * | GetOutputInformation (int port) |
Return the information object that is associated with a particular output port. More... | |
virtual vtkTypeBool | Update (int port, vtkInformationVector *requests) |
This method enables the passing of data requests to the algorithm to be used during execution (in addition to bringing a particular port up-to-date). More... | |
virtual vtkTypeBool | Update (vtkInformation *requests) |
Convenience method to update an algorithm after passing requests to its first output port. More... | |
virtual int | UpdatePiece (int piece, int numPieces, int ghostLevels, const int extents[6]=nullptr) |
Convenience method to update an algorithm after passing requests to its first output port. More... | |
virtual int | UpdateExtent (const int extents[6]) |
Convenience method to update an algorithm after passing requests to its first output port. More... | |
virtual int | UpdateTimeStep (double time, int piece=-1, int numPieces=1, int ghostLevels=0, const int extents[6]=nullptr) |
Convenience method to update an algorithm after passing requests to its first output port. More... | |
virtual void | UpdateInformation () |
Bring the algorithm's information up-to-date. More... | |
virtual void | UpdateDataObject () |
Create output object(s). More... | |
virtual void | PropagateUpdateExtent () |
Propagate meta-data upstream. More... | |
virtual void | UpdateWholeExtent () |
Bring this algorithm's outputs up-to-date. More... | |
void | ConvertTotalInputToPortConnection (int ind, int &port, int &conn) |
Convenience routine to convert from a linear ordering of input connections to a port/connection pair. More... | |
virtual vtkInformation * | GetInformation () |
Set/Get the information object associated with this algorithm. More... | |
virtual void | SetInformation (vtkInformation *) |
Set/Get the information object associated with this algorithm. More... | |
void | Register (vtkObjectBase *o) override |
Participate in garbage collection. More... | |
void | UnRegister (vtkObjectBase *o) override |
Participate in garbage collection. More... | |
virtual void | SetAbortExecute (vtkTypeBool) |
Set/Get the AbortExecute flag for the process object. More... | |
virtual vtkTypeBool | GetAbortExecute () |
Set/Get the AbortExecute flag for the process object. More... | |
virtual void | AbortExecuteOn () |
Set/Get the AbortExecute flag for the process object. More... | |
virtual void | AbortExecuteOff () |
Set/Get the AbortExecute flag for the process object. More... | |
virtual double | GetProgress () |
Get the execution progress of a process object. More... | |
void | SetProgressShiftScale (double shift, double scale) |
Specify the shift and scale values to use to apply to the progress amount when UpdateProgress is called. More... | |
virtual double | GetProgressShift () |
Specify the shift and scale values to use to apply to the progress amount when UpdateProgress is called. More... | |
virtual double | GetProgressScale () |
Specify the shift and scale values to use to apply to the progress amount when UpdateProgress is called. More... | |
void | SetProgressText (const char *ptext) |
Set the current text message associated with the progress state. More... | |
virtual char * | GetProgressText () |
Set the current text message associated with the progress state. More... | |
virtual unsigned long | GetErrorCode () |
The error code contains a possible error that occurred while reading or writing the file. More... | |
virtual void | SetInputArrayToProcess (int idx, int port, int connection, int fieldAssociation, const char *name) |
Set the input data arrays that this algorithm will process. More... | |
virtual void | SetInputArrayToProcess (int idx, int port, int connection, int fieldAssociation, int fieldAttributeType) |
Set the input data arrays that this algorithm will process. More... | |
virtual void | SetInputArrayToProcess (int idx, vtkInformation *info) |
Set the input data arrays that this algorithm will process. More... | |
virtual void | SetInputConnection (int port, vtkAlgorithmOutput *input) |
Set the connection for the given input port index. More... | |
virtual void | SetInputConnection (vtkAlgorithmOutput *input) |
Set the connection for the given input port index. More... | |
virtual void | AddInputConnection (int port, vtkAlgorithmOutput *input) |
Add a connection to the given input port index. More... | |
virtual void | AddInputConnection (vtkAlgorithmOutput *input) |
Add a connection to the given input port index. More... | |
virtual void | Update (int port) |
Bring this algorithm's outputs up-to-date. More... | |
virtual void | Update () |
Bring this algorithm's outputs up-to-date. More... | |
virtual void | SetReleaseDataFlag (int) |
Turn release data flag on or off for all output ports. More... | |
virtual int | GetReleaseDataFlag () |
Turn release data flag on or off for all output ports. More... | |
void | ReleaseDataFlagOn () |
Turn release data flag on or off for all output ports. More... | |
void | ReleaseDataFlagOff () |
Turn release data flag on or off for all output ports. More... | |
int | UpdateExtentIsEmpty (vtkInformation *pinfo, vtkDataObject *output) |
This detects when the UpdateExtent will generate no data This condition is satisfied when the UpdateExtent has zero volume (0,-1,...) or the UpdateNumberOfPieces is 0. More... | |
int | UpdateExtentIsEmpty (vtkInformation *pinfo, int extentType) |
This detects when the UpdateExtent will generate no data This condition is satisfied when the UpdateExtent has zero volume (0,-1,...) or the UpdateNumberOfPieces is 0. More... | |
int * | GetUpdateExtent () |
These functions return the update extent for output ports that use 3D extents. More... | |
int * | GetUpdateExtent (int port) |
These functions return the update extent for output ports that use 3D extents. More... | |
void | GetUpdateExtent (int &x0, int &x1, int &y0, int &y1, int &z0, int &z1) |
These functions return the update extent for output ports that use 3D extents. More... | |
void | GetUpdateExtent (int port, int &x0, int &x1, int &y0, int &y1, int &z0, int &z1) |
These functions return the update extent for output ports that use 3D extents. More... | |
void | GetUpdateExtent (int extent[6]) |
These functions return the update extent for output ports that use 3D extents. More... | |
void | GetUpdateExtent (int port, int extent[6]) |
These functions return the update extent for output ports that use 3D extents. More... | |
int | GetUpdatePiece () |
These functions return the update extent for output ports that use piece extents. More... | |
int | GetUpdatePiece (int port) |
These functions return the update extent for output ports that use piece extents. More... | |
int | GetUpdateNumberOfPieces () |
These functions return the update extent for output ports that use piece extents. More... | |
int | GetUpdateNumberOfPieces (int port) |
These functions return the update extent for output ports that use piece extents. More... | |
int | GetUpdateGhostLevel () |
These functions return the update extent for output ports that use piece extents. More... | |
int | GetUpdateGhostLevel (int port) |
These functions return the update extent for output ports that use piece extents. More... | |
void | SetProgressObserver (vtkProgressObserver *) |
If an ProgressObserver is set, the algorithm will report progress through it rather than directly. More... | |
virtual vtkProgressObserver * | GetProgressObserver () |
If an ProgressObserver is set, the algorithm will report progress through it rather than directly. More... | |
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vtkBaseTypeMacro (vtkObject, vtkObjectBase) | |
virtual void | DebugOn () |
Turn debugging output on. More... | |
virtual void | DebugOff () |
Turn debugging output off. More... | |
bool | GetDebug () |
Get the value of the debug flag. More... | |
void | SetDebug (bool debugFlag) |
Set the value of the debug flag. More... | |
virtual void | Modified () |
Update the modification time for this object. More... | |
virtual vtkMTimeType | GetMTime () |
Return this object's modified time. More... | |
void | RemoveObserver (unsigned long tag) |
void | RemoveObservers (unsigned long event) |
void | RemoveObservers (const char *event) |
void | RemoveAllObservers () |
vtkTypeBool | HasObserver (unsigned long event) |
vtkTypeBool | HasObserver (const char *event) |
int | InvokeEvent (unsigned long event) |
int | InvokeEvent (const char *event) |
unsigned long | AddObserver (unsigned long event, vtkCommand *, float priority=0.0f) |
Allow people to add/remove/invoke observers (callbacks) to any VTK object. More... | |
unsigned long | AddObserver (const char *event, vtkCommand *, float priority=0.0f) |
Allow people to add/remove/invoke observers (callbacks) to any VTK object. More... | |
vtkCommand * | GetCommand (unsigned long tag) |
Allow people to add/remove/invoke observers (callbacks) to any VTK object. More... | |
void | RemoveObserver (vtkCommand *) |
Allow people to add/remove/invoke observers (callbacks) to any VTK object. More... | |
void | RemoveObservers (unsigned long event, vtkCommand *) |
Allow people to add/remove/invoke observers (callbacks) to any VTK object. More... | |
void | RemoveObservers (const char *event, vtkCommand *) |
Allow people to add/remove/invoke observers (callbacks) to any VTK object. More... | |
vtkTypeBool | HasObserver (unsigned long event, vtkCommand *) |
Allow people to add/remove/invoke observers (callbacks) to any VTK object. More... | |
vtkTypeBool | HasObserver (const char *event, vtkCommand *) |
Allow people to add/remove/invoke observers (callbacks) to any VTK object. More... | |
template<class U , class T > | |
unsigned long | AddObserver (unsigned long event, U observer, void(T::*callback)(), float priority=0.0f) |
Overloads to AddObserver that allow developers to add class member functions as callbacks for events. More... | |
template<class U , class T > | |
unsigned long | AddObserver (unsigned long event, U observer, void(T::*callback)(vtkObject *, unsigned long, void *), float priority=0.0f) |
Overloads to AddObserver that allow developers to add class member functions as callbacks for events. More... | |
template<class U , class T > | |
unsigned long | AddObserver (unsigned long event, U observer, bool(T::*callback)(vtkObject *, unsigned long, void *), float priority=0.0f) |
Allow user to set the AbortFlagOn() with the return value of the callback method. More... | |
int | InvokeEvent (unsigned long event, void *callData) |
This method invokes an event and return whether the event was aborted or not. More... | |
int | InvokeEvent (const char *event, void *callData) |
This method invokes an event and return whether the event was aborted or not. More... | |
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const char * | GetClassName () const |
Return the class name as a string. More... | |
virtual vtkIdType | GetNumberOfGenerationsFromBase (const char *name) |
Given a the name of a base class of this class type, return the distance of inheritance between this class type and the named class (how many generations of inheritance are there between this class and the named class). More... | |
virtual void | Delete () |
Delete a VTK object. More... | |
virtual void | FastDelete () |
Delete a reference to this object. More... | |
void | InitializeObjectBase () |
void | Print (ostream &os) |
Print an object to an ostream. More... | |
int | GetReferenceCount () |
Return the current reference count of this object. More... | |
void | SetReferenceCount (int) |
Sets the reference count. More... | |
void | PrintRevisions (ostream &) |
Legacy. More... | |
virtual void | PrintHeader (ostream &os, vtkIndent indent) |
Methods invoked by print to print information about the object including superclasses. More... | |
virtual void | PrintTrailer (ostream &os, vtkIndent indent) |
Methods invoked by print to print information about the object including superclasses. More... | |
Static Public Member Functions | |
static vtkTypeBool | IsTypeOf (const char *type) |
static vtkMeshQuality * | SafeDownCast (vtkObjectBase *o) |
static vtkMeshQuality * | New () |
static double | TriangleArea (vtkCell *cell) |
This is a static function used to calculate the area of a triangle. More... | |
static double | TriangleEdgeRatio (vtkCell *cell) |
This is a static function used to calculate the edge ratio of a triangle. More... | |
static double | TriangleAspectRatio (vtkCell *cell) |
This is a static function used to calculate the aspect ratio of a triangle. More... | |
static double | TriangleRadiusRatio (vtkCell *cell) |
This is a static function used to calculate the radius ratio of a triangle. More... | |
static double | TriangleAspectFrobenius (vtkCell *cell) |
This is a static function used to calculate the Frobenius condition number of the transformation matrix from an equilateral triangle to a triangle. More... | |
static double | TriangleMinAngle (vtkCell *cell) |
This is a static function used to calculate the minimal (nonoriented) angle of a triangle, expressed in degrees. More... | |
static double | TriangleMaxAngle (vtkCell *cell) |
This is a static function used to calculate the maximal (nonoriented) angle of a triangle, expressed in degrees. More... | |
static double | TriangleCondition (vtkCell *cell) |
This is a static function used to calculate the condition number of a triangle. More... | |
static double | TriangleScaledJacobian (vtkCell *cell) |
This is a static function used to calculate the scaled Jacobian of a triangle. More... | |
static double | TriangleRelativeSizeSquared (vtkCell *cell) |
This is a static function used to calculate the square of the relative size of a triangle. More... | |
static double | TriangleShape (vtkCell *cell) |
This is a static function used to calculate the shape of a triangle. More... | |
static double | TriangleShapeAndSize (vtkCell *cell) |
This is a static function used to calculate the product of shape and relative size of a triangle. More... | |
static double | TriangleDistortion (vtkCell *cell) |
This is a static function used to calculate the distortion of a triangle. More... | |
static double | QuadEdgeRatio (vtkCell *cell) |
This is a static function used to calculate the edge ratio of a quadrilateral. More... | |
static double | QuadAspectRatio (vtkCell *cell) |
This is a static function used to calculate the aspect ratio of a planar quadrilateral. More... | |
static double | QuadRadiusRatio (vtkCell *cell) |
This is a static function used to calculate the radius ratio of a planar quadrilateral. More... | |
static double | QuadMedAspectFrobenius (vtkCell *cell) |
This is a static function used to calculate the average Frobenius aspect of the 4 corner triangles of a planar quadrilateral, when the reference triangle elements are right isosceles at the quadrangle vertices. More... | |
static double | QuadMaxAspectFrobenius (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 4 corner triangles of a planar quadrilateral, when the reference triangle elements are right isosceles at the quadrangle vertices. More... | |
static double | QuadMinAngle (vtkCell *cell) |
This is a static function used to calculate the minimal (nonoriented) angle of a quadrilateral, expressed in degrees. More... | |
static double | QuadMaxEdgeRatios (vtkCell *cell) |
static double | QuadSkew (vtkCell *cell) |
static double | QuadTaper (vtkCell *cell) |
static double | QuadWarpage (vtkCell *cell) |
static double | QuadArea (vtkCell *cell) |
static double | QuadStretch (vtkCell *cell) |
static double | QuadMaxAngle (vtkCell *cell) |
static double | QuadOddy (vtkCell *cell) |
static double | QuadCondition (vtkCell *cell) |
static double | QuadJacobian (vtkCell *cell) |
static double | QuadScaledJacobian (vtkCell *cell) |
static double | QuadShear (vtkCell *cell) |
static double | QuadShape (vtkCell *cell) |
static double | QuadRelativeSizeSquared (vtkCell *cell) |
static double | QuadShapeAndSize (vtkCell *cell) |
static double | QuadShearAndSize (vtkCell *cell) |
static double | QuadDistortion (vtkCell *cell) |
static double | TetEdgeRatio (vtkCell *cell) |
This is a static function used to calculate the edge ratio of a tetrahedron. More... | |
static double | TetAspectRatio (vtkCell *cell) |
This is a static function used to calculate the aspect ratio of a tetrahedron. More... | |
static double | TetRadiusRatio (vtkCell *cell) |
This is a static function used to calculate the radius ratio of a tetrahedron. More... | |
static double | TetAspectFrobenius (vtkCell *cell) |
This is a static function used to calculate the Frobenius condition number of the transformation matrix from a regular tetrahedron to a tetrahedron. More... | |
static double | TetMinAngle (vtkCell *cell) |
This is a static function used to calculate the minimal (nonoriented) dihedral angle of a tetrahedron, expressed in degrees. More... | |
static double | HexEdgeRatio (vtkCell *cell) |
This is a static function used to calculate the edge ratio of a hexahedron. More... | |
static double | HexMedAspectFrobenius (vtkCell *cell) |
This is a static function used to calculate the average Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | TetCollapseRatio (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetAspectBeta (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetAspectGamma (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetVolume (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetCondition (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetJacobian (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetScaledJacobian (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetShape (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetRelativeSizeSquared (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetShapeandSize (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | TetDistortion (vtkCell *cell) |
This is a static function used to calculate the collapse ratio of a tetrahedron. More... | |
static double | HexMaxAspectFrobenius (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexMaxEdgeRatio (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexSkew (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexTaper (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexVolume (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexStretch (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexDiagonal (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexDimension (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexOddy (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexCondition (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexJacobian (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexScaledJacobian (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexShear (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexShape (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexRelativeSizeSquared (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexShapeAndSize (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexShearAndSize (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
static double | HexDistortion (vtkCell *cell) |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices. More... | |
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static vtkDataSetAlgorithm * | New () |
static vtkTypeBool | IsTypeOf (const char *type) |
static vtkDataSetAlgorithm * | SafeDownCast (vtkObjectBase *o) |
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static vtkAlgorithm * | New () |
static vtkTypeBool | IsTypeOf (const char *type) |
static vtkAlgorithm * | SafeDownCast (vtkObjectBase *o) |
static vtkInformationIntegerKey * | INPUT_IS_OPTIONAL () |
Keys used to specify input port requirements. More... | |
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 * | CAN_PRODUCE_SUB_EXTENT () |
This key tells the executive that a particular output port is capable of producing an arbitrary subextent of the whole extent. More... | |
static vtkInformationIntegerKey * | CAN_HANDLE_PIECE_REQUEST () |
Key that tells the pipeline that a particular algorithm can or cannot handle piece request. More... | |
static void | SetDefaultExecutivePrototype (vtkExecutive *proto) |
If the DefaultExecutivePrototype is set, a copy of it is created in CreateDefaultExecutive() using NewInstance(). More... | |
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static vtkObject * | New () |
Create an object with Debug turned off, modified time initialized to zero, and reference counting on. More... | |
static void | BreakOnError () |
This method is called when vtkErrorMacro executes. More... | |
static void | SetGlobalWarningDisplay (int val) |
This is a global flag that controls whether any debug, warning or error messages are displayed. More... | |
static void | GlobalWarningDisplayOn () |
This is a global flag that controls whether any debug, warning or error messages are displayed. More... | |
static void | GlobalWarningDisplayOff () |
This is a global flag that controls whether any debug, warning or error messages are displayed. More... | |
static int | GetGlobalWarningDisplay () |
This is a global flag that controls whether any debug, warning or error messages are displayed. More... | |
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static vtkTypeBool | IsTypeOf (const char *name) |
Return 1 if this class type is the same type of (or a subclass of) the named class. More... | |
static vtkIdType | GetNumberOfGenerationsFromBaseType (const char *name) |
Given a the name of a base class of this class type, return the distance of inheritance between this class type and the named class (how many generations of inheritance are there between this class and the named class). More... | |
static vtkObjectBase * | New () |
Create an object with Debug turned off, modified time initialized to zero, and reference counting on. More... | |
Protected Member Functions | |
virtual vtkObjectBase * | NewInstanceInternal () const |
vtkMeshQuality () | |
~vtkMeshQuality () override | |
int | RequestData (vtkInformation *, vtkInformationVector **, vtkInformationVector *) override |
This is called within ProcessRequest when a request asks the algorithm to do its work. More... | |
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vtkDataSetAlgorithm () | |
~vtkDataSetAlgorithm () override | |
virtual int | RequestInformation (vtkInformation *, vtkInformationVector **, vtkInformationVector *) |
This is called within ProcessRequest when a request asks for Information. More... | |
virtual int | RequestDataObject (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector) |
This is called within ProcessRequest to when a request asks the algorithm to create empty output data objects. More... | |
int | FillOutputPortInformation (int port, vtkInformation *info) override |
Fill the output port information objects for this algorithm. More... | |
int | FillInputPortInformation (int port, vtkInformation *info) override |
Fill the input port information objects for this algorithm. More... | |
vtkDataObject * | GetInput (int port) |
virtual int | RequestUpdateExtent (vtkInformation *, vtkInformationVector **, vtkInformationVector *) |
This is called within ProcessRequest when each filter in the pipeline decides what portion of its input is needed to create the portion of its output that the downstream filter asks for. More... | |
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vtkAlgorithm () | |
~vtkAlgorithm () override | |
virtual void | SetNumberOfInputPorts (int n) |
Set the number of input ports used by the algorithm. More... | |
virtual void | SetNumberOfOutputPorts (int n) |
Set the number of output ports provided by the algorithm. More... | |
int | InputPortIndexInRange (int index, const char *action) |
int | OutputPortIndexInRange (int index, const char *action) |
int | GetInputArrayAssociation (int idx, vtkInformationVector **inputVector) |
Get the assocition of the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass. More... | |
vtkInformation * | GetInputArrayFieldInformation (int idx, vtkInformationVector **inputVector) |
This method takes in an index (as specified in SetInputArrayToProcess) and a pipeline information vector. More... | |
virtual vtkExecutive * | CreateDefaultExecutive () |
Create a default executive. More... | |
void | ReportReferences (vtkGarbageCollector *) override |
virtual void | SetNthInputConnection (int port, int index, vtkAlgorithmOutput *input) |
Replace the Nth connection on the given input port. More... | |
virtual void | SetNumberOfInputConnections (int port, int n) |
Set the number of input connections on the given input port. More... | |
void | SetInputDataInternal (int port, vtkDataObject *input) |
These methods are used by subclasses to implement methods to set data objects directly as input. More... | |
void | AddInputDataInternal (int port, vtkDataObject *input) |
int | GetInputArrayAssociation (int idx, int connection, vtkInformationVector **inputVector) |
Filters that have multiple connections on one port can use this signature. More... | |
int | GetInputArrayAssociation (int idx, vtkDataObject *input) |
Filters that have multiple connections on one port can use this signature. More... | |
vtkDataArray * | GetInputArrayToProcess (int idx, vtkInformationVector **inputVector) |
Get the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass. More... | |
vtkDataArray * | GetInputArrayToProcess (int idx, vtkInformationVector **inputVector, int &association) |
Get the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass. More... | |
vtkDataArray * | GetInputArrayToProcess (int idx, int connection, vtkInformationVector **inputVector) |
Filters that have multiple connections on one port can use this signature. More... | |
vtkDataArray * | GetInputArrayToProcess (int idx, int connection, vtkInformationVector **inputVector, int &association) |
Filters that have multiple connections on one port can use this signature. More... | |
vtkDataArray * | GetInputArrayToProcess (int idx, vtkDataObject *input) |
Filters that have multiple connections on one port can use this signature. More... | |
vtkDataArray * | GetInputArrayToProcess (int idx, vtkDataObject *input, int &association) |
Filters that have multiple connections on one port can use this signature. More... | |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, vtkInformationVector **inputVector) |
Get the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass. More... | |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, vtkInformationVector **inputVector, int &association) |
Get the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass. More... | |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, int connection, vtkInformationVector **inputVector) |
Filters that have multiple connections on one port can use this signature. More... | |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, int connection, vtkInformationVector **inputVector, int &association) |
Filters that have multiple connections on one port can use this signature. More... | |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, vtkDataObject *input) |
Filters that have multiple connections on one port can use this signature. More... | |
vtkAbstractArray * | GetInputAbstractArrayToProcess (int idx, vtkDataObject *input, int &association) |
Filters that have multiple connections on one port can use this signature. More... | |
virtual void | SetErrorCode (unsigned long) |
The error code contains a possible error that occurred while reading or writing the file. More... | |
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vtkObject () | |
~vtkObject () override | |
void | RegisterInternal (vtkObjectBase *, vtkTypeBool check) override |
void | UnRegisterInternal (vtkObjectBase *, vtkTypeBool check) override |
void | InternalGrabFocus (vtkCommand *mouseEvents, vtkCommand *keypressEvents=nullptr) |
These methods allow a command to exclusively grab all events. More... | |
void | InternalReleaseFocus () |
These methods allow a command to exclusively grab all events. More... | |
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vtkObjectBase () | |
virtual | ~vtkObjectBase () |
virtual void | CollectRevisions (ostream &) |
vtkObjectBase (const vtkObjectBase &) | |
void | operator= (const vtkObjectBase &) |
Static Protected Member Functions | |
static int | GetCurrentTriangleNormal (double point[3], double normal[3]) |
A function called by some VERDICT triangle quality functions to test for inverted triangles. More... | |
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static vtkInformationIntegerKey * | PORT_REQUIREMENTS_FILLED () |
Protected Attributes | |
vtkTypeBool | SaveCellQuality |
int | TriangleQualityMeasure |
int | QuadQualityMeasure |
int | TetQualityMeasure |
int | HexQualityMeasure |
vtkTypeBool | CompatibilityMode |
vtkTypeBool | Volume |
vtkDataArray * | CellNormals |
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vtkInformation * | Information |
double | Progress |
char * | ProgressText |
vtkProgressObserver * | ProgressObserver |
unsigned long | ErrorCode |
The error code contains a possible error that occurred while reading or writing the file. More... | |
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bool | Debug |
vtkTimeStamp | MTime |
vtkSubjectHelper * | SubjectHelper |
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std::atomic< int32_t > | ReferenceCount |
vtkWeakPointerBase ** | WeakPointers |
Static Protected Attributes | |
static double | CurrentTriNormal [3] |
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static vtkExecutive * | DefaultExecutivePrototype |
Additional Inherited Members | |
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vtkTypeBool | AbortExecute |
Calculate functions of quality of the elements of a mesh.
vtkMeshQuality computes one or more functions of (geometric) quality for each 2-D and 3-D cell (triangle, quadrilateral, tetrahedron, or hexahedron) of a mesh. These functions of quality are then averaged over the entire mesh. The minimum, average, maximum, and unbiased variance of quality for each type of cell is stored in the output mesh's FieldData. The FieldData arrays are named "Mesh Triangle Quality," "Mesh Quadrilateral Quality," "Mesh Tetrahedron Quality," and "Mesh Hexahedron Quality." Each array has a single tuple with 5 components. The first 4 components are the quality statistics mentioned above; the final value is the number of cells of the given type. This final component makes aggregation of statistics for distributed mesh data possible.
By default, the per-cell quality is added to the mesh's cell data, in an array named "Quality." Cell types not supported by this filter will have an entry of 0. Use SaveCellQualityOff() to store only the final statistics.
This version of the filter written by Philippe Pebay and David Thompson overtakes an older version written by Leila Baghdadi, Hanif Ladak, and David Steinman at the Imaging Research Labs, Robarts Research Institute. That version only supported tetrahedral radius ratio. See the CompatibilityModeOn() member for information on how to make this filter behave like the previous implementation. For more information on the triangle quality functions of this class, cf. Pebay & Baker 2003, Analysis of triangle quality measures, Math Comp 72:244. For more information on the quadrangle quality functions of this class, cf. Pebay 2004, Planar Quadrangle Quality Measures, Eng Comp 20:2.
Definition at line 102 of file vtkMeshQuality.h.
Definition at line 106 of file vtkMeshQuality.h.
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overrideprotected |
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overridevirtual |
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 vtkDataSetAlgorithm.
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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 vtkDataSetAlgorithm.
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Reimplemented from vtkDataSetAlgorithm.
vtkMeshQuality* vtkMeshQuality::NewInstance | ( | ) | const |
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This variable controls whether or not cell quality is stored as cell data in the resulting mesh or discarded (leaving only the aggregate quality average of the entire mesh, recorded in the FieldData).
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This variable controls whether or not cell quality is stored as cell data in the resulting mesh or discarded (leaving only the aggregate quality average of the entire mesh, recorded in the FieldData).
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This variable controls whether or not cell quality is stored as cell data in the resulting mesh or discarded (leaving only the aggregate quality average of the entire mesh, recorded in the FieldData).
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This variable controls whether or not cell quality is stored as cell data in the resulting mesh or discarded (leaving only the aggregate quality average of the entire mesh, recorded in the FieldData).
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 132 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 133 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 137 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 141 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 145 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 149 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 153 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 157 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 161 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 165 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 169 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 170 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to function the quality of triangles.
The default is VTK_QUALITY_RADIUS_RATIO and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, and VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_CONDITION, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 174 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 198 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 199 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 203 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 207 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 211 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 215 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 219 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 220 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 221 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 222 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 223 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 224 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 225 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 226 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 227 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 228 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 229 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 233 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 234 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 235 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 239 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 243 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of quadrilaterals.
The default is VTK_QUALITY_EDGE_RATIO and valid values also include VTK_QUALITY_RADIUS_RATIO, VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_MAX_EDGE_RATIO VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_WARPAGE, VTK_QUALITY_AREA, VTK_QUALITY_STRETCH, VTK_QUALITY_MIN_ANGLE, VTK_QUALITY_MAX_ANGLE, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Scope: Except for VTK_QUALITY_EDGE_RATIO, these estimators are intended for planar quadrilaterals only; use at your own risk if you really want to assess non-planar quadrilateral quality with those.
Definition at line 247 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 263 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 264 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 265 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 266 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 270 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 271 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 275 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 276 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 277 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 278 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 279 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 280 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 284 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 285 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 289 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of tetrahedra.
The default is VTK_QUALITY_RADIUS_RATIO (identical to Verdict's aspect ratio beta) and valid values also include VTK_QUALITY_ASPECT_RATIO, VTK_QUALITY_ASPECT_FROBENIUS, VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_COLLAPSE_RATIO, VTK_QUALITY_ASPECT_BETA, VTK_QUALITY_ASPECT_GAMMA, VTK_QUALITY_VOLUME, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 293 of file vtkMeshQuality.h.
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Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
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Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 310 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 311 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 315 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 319 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 323 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 324 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 325 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 326 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 327 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 328 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 329 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 330 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 331 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 332 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 336 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 337 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 338 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 342 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 346 of file vtkMeshQuality.h.
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inline |
Set/Get the particular estimator used to measure the quality of hexahedra.
The default is VTK_QUALITY_MAX_ASPECT_FROBENIUS and valid values also include VTK_QUALITY_EDGE_RATIO, VTK_QUALITY_MAX_ASPECT_FROBENIUS, VTK_QUALITY_MAX_EDGE_RATIO, VTK_QUALITY_SKEW, VTK_QUALITY_TAPER, VTK_QUALITY_VOLUME, VTK_QUALITY_STRETCH, VTK_QUALITY_DIAGONAL, VTK_QUALITY_DIMENSION, VTK_QUALITY_ODDY, VTK_QUALITY_CONDITION, VTK_QUALITY_JACOBIAN, VTK_QUALITY_SCALED_JACOBIAN, VTK_QUALITY_SHEAR, VTK_QUALITY_SHAPE, VTK_QUALITY_RELATIVE_SIZE_SQUARED, VTK_QUALITY_SHAPE_AND_SIZE, VTK_QUALITY_SHEAR_AND_SIZE, and VTK_QUALITY_DISTORTION.
Definition at line 350 of file vtkMeshQuality.h.
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This is a static function used to calculate the area of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
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This is a static function used to calculate the edge ratio of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The edge ratio of a triangle is:
, where
and
respectively denote the greatest and the smallest edge lengths of
.
|
static |
This is a static function used to calculate the aspect ratio of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The aspect ratio of a triangle is:
, where
and
respectively denote the greatest edge length and the inradius of
.
|
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This is a static function used to calculate the radius ratio of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The radius ratio of a triangle is:
, where
and
respectively denote the circumradius and the inradius of
.
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This is a static function used to calculate the Frobenius condition number of the transformation matrix from an equilateral triangle to a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The Frobenius aspect of a triangle , when the reference element is equilateral, is:
, where
and
respectively denote the sum of the squared edge lengths and the area of
.
|
static |
This is a static function used to calculate the minimal (nonoriented) angle of a triangle, expressed in degrees.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal (nonoriented) angle of a triangle, expressed in degrees.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
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This is a static function used to calculate the condition number of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
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This is a static function used to calculate the scaled Jacobian of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
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This is a static function used to calculate the square of the relative size of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the shape of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the product of shape and relative size of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the distortion of a triangle.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the edge ratio of a quadrilateral.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The edge ratio of a quadrilateral is:
, where
and
respectively denote the greatest and the smallest edge lengths of
.
|
static |
This is a static function used to calculate the aspect ratio of a planar quadrilateral.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. Use at your own risk with nonplanar quadrilaterals. The aspect ratio of a planar quadrilateral is:
, where
,
and
respectively denote the perimeter, the greatest edge length and the area of
.
|
static |
This is a static function used to calculate the radius ratio of a planar quadrilateral.
The name is only used by analogy with the triangle radius ratio, because in general a quadrilateral does not have a circumcircle nor an incircle. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. Use at your own risk with nonplanar quadrilaterals. The radius ratio of a planar quadrilateral is:
, where
,
and
respectively denote the sum of the squared edge lengths, the greatest amongst diagonal and edge lengths and the smallest area of the 4 triangles extractable from
.
|
static |
This is a static function used to calculate the average Frobenius aspect of the 4 corner triangles of a planar quadrilateral, when the reference triangle elements are right isosceles at the quadrangle vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. Use at your own risk with nonplanar quadrilaterals. The Frobenius aspect of a triangle , when the reference element is right isosceles at vertex
, is:
, where
and
respectively denote the sum of the squared lengths of the edges attached to
and the area of
.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 4 corner triangles of a planar quadrilateral, when the reference triangle elements are right isosceles at the quadrangle vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. Use at your own risk with nonplanar quadrilaterals. The Frobenius aspect of a triangle , when the reference element is right isosceles at vertex
, is:
, where
and
respectively denote the sum of the squared lengths of the edges attached to
and the area of
.
|
static |
This is a static function used to calculate the minimal (nonoriented) angle of a quadrilateral, expressed in degrees.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
static |
|
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This is a static function used to calculate the edge ratio of a tetrahedron.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The edge ratio of a tetrahedron is:
, where
and
respectively denote the greatest and the smallest edge lengths of
.
|
static |
This is a static function used to calculate the aspect ratio of a tetrahedron.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The aspect ratio of a tetrahedron is:
, where
and
respectively denote the greatest edge length and the inradius of
.
|
static |
This is a static function used to calculate the radius ratio of a tetrahedron.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The radius ratio of a tetrahedron is:
, where
and
respectively denote the circumradius and the inradius of
.
|
static |
This is a static function used to calculate the Frobenius condition number of the transformation matrix from a regular tetrahedron to a tetrahedron.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The Frobenius aspect of a tetrahedron , when the reference element is regular, is:
, where
and
respectively denote the edge matrix of
and the entries of
.
|
static |
This is a static function used to calculate the minimal (nonoriented) dihedral angle of a tetrahedron, expressed in degrees.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the collapse ratio of a tetrahedron.
The collapse ratio is a dimensionless number defined as the smallest ratio of the height of a vertex above its opposing triangle to the longest edge of that opposing triangle across all vertices of the tetrahedron. It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the edge ratio of a hexahedron.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function. The edge ratio of a hexahedron is:
, where
and
respectively denote the greatest and the smallest edge lengths of
.
|
static |
This is a static function used to calculate the average Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
static |
This is a static function used to calculate the maximal Frobenius aspect of the 8 corner tetrahedra of a hexahedron, when the reference tetrahedral elements are right isosceles at the hexahedron vertices.
It assumes that you pass the correct type of cell – no type checking is performed because this method is called from the inner loop of the Execute() member function.
|
inlinevirtual |
These methods are deprecated.
Use Get/SetSaveCellQuality() instead.
Formerly, SetRatio could be used to disable computation of the tetrahedral radius ratio so that volume alone could be computed. Now, cell quality is always computed, but you may decide not to store the result for each cell. This allows average cell quality of a mesh to be calculated without requiring per-cell storage.
Definition at line 719 of file vtkMeshQuality.h.
|
inline |
Definition at line 720 of file vtkMeshQuality.h.
|
virtual |
|
virtual |
|
inlinevirtual |
These methods are deprecated.
The functionality of computing cell volume is being removed until it can be computed for any 3D cell. (The previous implementation only worked for tetrahedra.)
For now, turning on the volume computation will put this filter into "compatibility mode," where tetrahedral cell volume is stored in first component of each output tuple and the radius ratio is stored in the second component. You may also use CompatibilityModeOn()/Off() to enter this mode. In this mode, cells other than tetrahedra will have report a volume of 0.0 (if volume computation is enabled).
By default, volume computation is disabled and compatibility mode is off, since it does not make a lot of sense for meshes with non-tetrahedral cells.
Definition at line 741 of file vtkMeshQuality.h.
|
inline |
These methods are deprecated.
The functionality of computing cell volume is being removed until it can be computed for any 3D cell. (The previous implementation only worked for tetrahedra.)
For now, turning on the volume computation will put this filter into "compatibility mode," where tetrahedral cell volume is stored in first component of each output tuple and the radius ratio is stored in the second component. You may also use CompatibilityModeOn()/Off() to enter this mode. In this mode, cells other than tetrahedra will have report a volume of 0.0 (if volume computation is enabled).
By default, volume computation is disabled and compatibility mode is off, since it does not make a lot of sense for meshes with non-tetrahedral cells.
Definition at line 754 of file vtkMeshQuality.h.
|
virtual |
These methods are deprecated.
The functionality of computing cell volume is being removed until it can be computed for any 3D cell. (The previous implementation only worked for tetrahedra.)
For now, turning on the volume computation will put this filter into "compatibility mode," where tetrahedral cell volume is stored in first component of each output tuple and the radius ratio is stored in the second component. You may also use CompatibilityModeOn()/Off() to enter this mode. In this mode, cells other than tetrahedra will have report a volume of 0.0 (if volume computation is enabled).
By default, volume computation is disabled and compatibility mode is off, since it does not make a lot of sense for meshes with non-tetrahedral cells.
|
virtual |
These methods are deprecated.
The functionality of computing cell volume is being removed until it can be computed for any 3D cell. (The previous implementation only worked for tetrahedra.)
For now, turning on the volume computation will put this filter into "compatibility mode," where tetrahedral cell volume is stored in first component of each output tuple and the radius ratio is stored in the second component. You may also use CompatibilityModeOn()/Off() to enter this mode. In this mode, cells other than tetrahedra will have report a volume of 0.0 (if volume computation is enabled).
By default, volume computation is disabled and compatibility mode is off, since it does not make a lot of sense for meshes with non-tetrahedral cells.
|
inlinevirtual |
CompatibilityMode governs whether, when both a quality function and cell volume are to be stored as cell data, the two values are stored in a single array.
When compatibility mode is off (the default), two separate arrays are used – one labeled "Quality" and the other labeled "Volume". When compatibility mode is on, both values are stored in a single array, with volume as the first component and quality as the second component.
Enabling CompatibilityMode changes the default tetrahedral quality function to VTK_QUALITY_RADIUS_RATIO and turns volume computation on. (This matches the default behavior of the initial implementation of vtkMeshQuality.) You may change quality function and volume computation without leaving compatibility mode.
Disabling compatibility mode does not affect the current volume computation or tetrahedral quality function settings.
The final caveat to CompatibilityMode is that regardless of its setting, the resulting array will be of type vtkDoubleArray rather than the original vtkFloatArray. This is a safety function to keep the authors from diving off of the Combinatorial Coding Cliff into Certain Insanity.
Definition at line 786 of file vtkMeshQuality.h.
|
virtual |
CompatibilityMode governs whether, when both a quality function and cell volume are to be stored as cell data, the two values are stored in a single array.
When compatibility mode is off (the default), two separate arrays are used – one labeled "Quality" and the other labeled "Volume". When compatibility mode is on, both values are stored in a single array, with volume as the first component and quality as the second component.
Enabling CompatibilityMode changes the default tetrahedral quality function to VTK_QUALITY_RADIUS_RATIO and turns volume computation on. (This matches the default behavior of the initial implementation of vtkMeshQuality.) You may change quality function and volume computation without leaving compatibility mode.
Disabling compatibility mode does not affect the current volume computation or tetrahedral quality function settings.
The final caveat to CompatibilityMode is that regardless of its setting, the resulting array will be of type vtkDoubleArray rather than the original vtkFloatArray. This is a safety function to keep the authors from diving off of the Combinatorial Coding Cliff into Certain Insanity.
|
virtual |
CompatibilityMode governs whether, when both a quality function and cell volume are to be stored as cell data, the two values are stored in a single array.
When compatibility mode is off (the default), two separate arrays are used – one labeled "Quality" and the other labeled "Volume". When compatibility mode is on, both values are stored in a single array, with volume as the first component and quality as the second component.
Enabling CompatibilityMode changes the default tetrahedral quality function to VTK_QUALITY_RADIUS_RATIO and turns volume computation on. (This matches the default behavior of the initial implementation of vtkMeshQuality.) You may change quality function and volume computation without leaving compatibility mode.
Disabling compatibility mode does not affect the current volume computation or tetrahedral quality function settings.
The final caveat to CompatibilityMode is that regardless of its setting, the resulting array will be of type vtkDoubleArray rather than the original vtkFloatArray. This is a safety function to keep the authors from diving off of the Combinatorial Coding Cliff into Certain Insanity.
|
virtual |
CompatibilityMode governs whether, when both a quality function and cell volume are to be stored as cell data, the two values are stored in a single array.
When compatibility mode is off (the default), two separate arrays are used – one labeled "Quality" and the other labeled "Volume". When compatibility mode is on, both values are stored in a single array, with volume as the first component and quality as the second component.
Enabling CompatibilityMode changes the default tetrahedral quality function to VTK_QUALITY_RADIUS_RATIO and turns volume computation on. (This matches the default behavior of the initial implementation of vtkMeshQuality.) You may change quality function and volume computation without leaving compatibility mode.
Disabling compatibility mode does not affect the current volume computation or tetrahedral quality function settings.
The final caveat to CompatibilityMode is that regardless of its setting, the resulting array will be of type vtkDoubleArray rather than the original vtkFloatArray. This is a safety function to keep the authors from diving off of the Combinatorial Coding Cliff into Certain Insanity.
|
overrideprotectedvirtual |
This is called within ProcessRequest when a request asks the algorithm to do its work.
This is the method you should override to do whatever the algorithm is designed to do. This happens during the fourth pass in the pipeline execution process.
Reimplemented from vtkDataSetAlgorithm.
|
staticprotected |
A function called by some VERDICT triangle quality functions to test for inverted triangles.
|
protected |
Definition at line 815 of file vtkMeshQuality.h.
|
protected |
Definition at line 816 of file vtkMeshQuality.h.
|
protected |
Definition at line 817 of file vtkMeshQuality.h.
|
protected |
Definition at line 818 of file vtkMeshQuality.h.
|
protected |
Definition at line 819 of file vtkMeshQuality.h.
|
protected |
Definition at line 821 of file vtkMeshQuality.h.
|
protected |
Definition at line 822 of file vtkMeshQuality.h.
|
protected |
Definition at line 824 of file vtkMeshQuality.h.
|
staticprotected |
Definition at line 825 of file vtkMeshQuality.h.