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Kitware.VTK.vtkMeshQuality Class Reference

vtkMeshQuality - Calculate functions of quality of the elements of a mesh More...

Inheritance diagram for Kitware.VTK.vtkMeshQuality:
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Collaboration diagram for Kitware.VTK.vtkMeshQuality:
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List of all members.

Public Member Functions

 vtkMeshQuality (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
 vtkMeshQuality ()
 Undocumented Block.
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. 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.
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. 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.
virtual int 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. 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.
virtual int GetHexQualityMeasure ()
 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.
virtual int GetQuadQualityMeasure ()
 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.
int GetRatio ()
 These methods are deprecated. Use Get/SetSaveCellQuality() instead.
virtual int 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).
virtual int GetTetQualityMeasure ()
 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.
virtual int GetTriangleQualityMeasure ()
 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.
int GetVolume ()
 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.)
override int IsA (string type)
 Undocumented Block.
new vtkMeshQuality NewInstance ()
 Undocumented Block.
virtual void RatioOff ()
 These methods are deprecated. Use Get/SetSaveCellQuality() instead.
virtual void RatioOn ()
 These methods are deprecated. Use Get/SetSaveCellQuality() instead.
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).
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).
virtual void SetCompatibilityMode (int 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. 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.
virtual void SetHexQualityMeasure (int _arg)
 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.
void SetHexQualityMeasureToCondition ()
 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.
void SetHexQualityMeasureToDiagonal ()
 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.
void SetHexQualityMeasureToDimension ()
 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.
void SetHexQualityMeasureToDistortion ()
 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.
void SetHexQualityMeasureToEdgeRatio ()
 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.
void SetHexQualityMeasureToJacobian ()
 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.
void SetHexQualityMeasureToMaxAspectFrobenius ()
 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.
void SetHexQualityMeasureToMaxEdgeRatios ()
 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.
void SetHexQualityMeasureToMedAspectFrobenius ()
 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.
void SetHexQualityMeasureToOddy ()
 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.
void SetHexQualityMeasureToRelativeSizeSquared ()
 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.
void SetHexQualityMeasureToScaledJacobian ()
 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.
void SetHexQualityMeasureToShape ()
 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.
void SetHexQualityMeasureToShapeAndSize ()
 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.
void SetHexQualityMeasureToShear ()
 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.
void SetHexQualityMeasureToShearAndSize ()
 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.
void SetHexQualityMeasureToSkew ()
 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.
void SetHexQualityMeasureToStretch ()
 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.
void SetHexQualityMeasureToTaper ()
 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.
void SetHexQualityMeasureToVolume ()
 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.
virtual void SetQuadQualityMeasure (int _arg)
 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.
void SetQuadQualityMeasureToArea ()
 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.
void SetQuadQualityMeasureToAspectRatio ()
 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.
void SetQuadQualityMeasureToCondition ()
 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.
void SetQuadQualityMeasureToDistortion ()
 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.
void SetQuadQualityMeasureToEdgeRatio ()
 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.
void SetQuadQualityMeasureToJacobian ()
 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.
void SetQuadQualityMeasureToMaxAngle ()
 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.
void SetQuadQualityMeasureToMaxAspectFrobenius ()
 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.
void SetQuadQualityMeasureToMaxEdgeRatios ()
 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.
void SetQuadQualityMeasureToMedAspectFrobenius ()
 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.
void SetQuadQualityMeasureToMinAngle ()
 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.
void SetQuadQualityMeasureToOddy ()
 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.
void SetQuadQualityMeasureToRadiusRatio ()
 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.
void SetQuadQualityMeasureToRelativeSizeSquared ()
 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.
void SetQuadQualityMeasureToScaledJacobian ()
 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.
void SetQuadQualityMeasureToShape ()
 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.
void SetQuadQualityMeasureToShapeAndSize ()
 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.
void SetQuadQualityMeasureToShear ()
 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.
void SetQuadQualityMeasureToShearAndSize ()
 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.
void SetQuadQualityMeasureToSkew ()
 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.
void SetQuadQualityMeasureToStretch ()
 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.
void SetQuadQualityMeasureToTaper ()
 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.
void SetQuadQualityMeasureToWarpage ()
 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.
virtual void SetRatio (int r)
 These methods are deprecated. Use Get/SetSaveCellQuality() instead.
virtual void SetSaveCellQuality (int _arg)
 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).
virtual void SetTetQualityMeasure (int _arg)
 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.
void SetTetQualityMeasureToAspectBeta ()
 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.
void SetTetQualityMeasureToAspectFrobenius ()
 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.
void SetTetQualityMeasureToAspectGamma ()
 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.
void SetTetQualityMeasureToAspectRatio ()
 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.
void SetTetQualityMeasureToCollapseRatio ()
 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.
void SetTetQualityMeasureToCondition ()
 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.
void SetTetQualityMeasureToDistortion ()
 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.
void SetTetQualityMeasureToEdgeRatio ()
 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.
void SetTetQualityMeasureToJacobian ()
 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.
void SetTetQualityMeasureToMinAngle ()
 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.
void SetTetQualityMeasureToRadiusRatio ()
 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.
void SetTetQualityMeasureToRelativeSizeSquared ()
 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.
void SetTetQualityMeasureToScaledJacobian ()
 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.
void SetTetQualityMeasureToShape ()
 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.
void SetTetQualityMeasureToShapeAndSize ()
 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.
void SetTetQualityMeasureToVolume ()
 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.
virtual void SetTriangleQualityMeasure (int _arg)
 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.
void SetTriangleQualityMeasureToArea ()
 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.
void SetTriangleQualityMeasureToAspectFrobenius ()
 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.
void SetTriangleQualityMeasureToAspectRatio ()
 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.
void SetTriangleQualityMeasureToCondition ()
 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.
void SetTriangleQualityMeasureToDistortion ()
 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.
void SetTriangleQualityMeasureToEdgeRatio ()
 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.
void SetTriangleQualityMeasureToMaxAngle ()
 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.
void SetTriangleQualityMeasureToMinAngle ()
 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.
void SetTriangleQualityMeasureToRadiusRatio ()
 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.
void SetTriangleQualityMeasureToRelativeSizeSquared ()
 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.
void SetTriangleQualityMeasureToScaledJacobian ()
 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.
void SetTriangleQualityMeasureToShape ()
 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.
void SetTriangleQualityMeasureToShapeAndSize ()
 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.
virtual void SetVolume (int cv)
 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.)
virtual void VolumeOff ()
 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.)
virtual void VolumeOn ()
 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.)

Static Public Member Functions

static new vtkMeshQuality New ()
 Undocumented Block.
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. 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 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. 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 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. 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 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. 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 double HexEdgeRatio (vtkCell cell)
 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 $H$ is: $\frac{|H|_\infty}{|H|_0}$, where $|H|_\infty$ and $|H|_0$ respectively denote the greatest and the smallest edge lengths of $H$.
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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 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. 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 new int IsTypeOf (string type)
 Undocumented Block.
static double QuadArea (vtkCell cell)
 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 double QuadAspectRatio (vtkCell cell)
 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 $q$ is: $\frac{|q|_1|q|_\infty}{4{\cal A}}$, where $|q|_1$, $|q|_\infty$ and ${\cal A}$ respectively denote the perimeter, the greatest edge length and the area of $q$.
static double QuadCondition (vtkCell cell)
 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 double QuadDistortion (vtkCell cell)
 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 double QuadEdgeRatio (vtkCell cell)
 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 $q$ is: $\frac{|q|_\infty}{|q|_0}$, where $|q|_\infty$ and $|q|_0$ respectively denote the greatest and the smallest edge lengths of $q$.
static double QuadJacobian (vtkCell cell)
 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 double QuadMaxAngle (vtkCell cell)
 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 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. 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 $t$, when the reference element is right isosceles at vertex $V$, is: $\frac{f^2+g^2}{4{\cal A}}$, where $f^2+g^2$ and $\cal A$ respectively denote the sum of the squared lengths of the edges attached to $V$ and the area of $t$.
static double QuadMaxEdgeRatios (vtkCell cell)
 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 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. 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 $t$, when the reference element is right isosceles at vertex $V$, is: $\frac{f^2+g^2}{4{\cal A}}$, where $f^2+g^2$ and $\cal A$ respectively denote the sum of the squared lengths of the edges attached to $V$ and the area of $t$.
static double QuadMinAngle (vtkCell cell)
 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 double QuadOddy (vtkCell cell)
 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 double QuadRadiusRatio (vtkCell cell)
 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 $q$ is: $\frac{|q|_2h_{\max}}{\min_i{\cal A}_i}$, where $|q|_2$, $h_{\max}$ and $\min{\cal A}_i$ 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 $q$.
static double QuadRelativeSizeSquared (vtkCell cell)
 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 double QuadScaledJacobian (vtkCell cell)
 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 double QuadShape (vtkCell cell)
 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 double QuadShapeAndSize (vtkCell cell)
 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 double QuadShear (vtkCell cell)
 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 double QuadShearAndSize (vtkCell cell)
 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 double QuadSkew (vtkCell cell)
 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 double QuadStretch (vtkCell cell)
 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 double QuadTaper (vtkCell cell)
 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 double QuadWarpage (vtkCell cell)
 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 new vtkMeshQuality SafeDownCast (vtkObjectBase o)
 Undocumented Block.
static double TetAspectBeta (vtkCell cell)
 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 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. 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 $K$, when the reference element is regular, is: $\frac{\frac{3}{2}(l_{11}+l_{22}+l_{33}) - (l_{12}+l_{13}+l_{23})} {3(\sqrt{2}\det{T})^\frac{2}{3}}$, where $T$ and $l_{ij}$ respectively denote the edge matrix of $K$ and the entries of $L=T^t\,T$.
static double TetAspectGamma (vtkCell cell)
 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 double TetAspectRatio (vtkCell cell)
 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 $K$ is: $\frac{|K|_\infty}{2\sqrt{6}r}$, where $|K|_\infty$ and $r$ respectively denote the greatest edge length and the inradius of $K$.
static double TetCollapseRatio (vtkCell cell)
 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 double TetCondition (vtkCell cell)
 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 double TetDistortion (vtkCell cell)
 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 double TetEdgeRatio (vtkCell cell)
 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 $K$ is: $\frac{|K|_\infty}{|K|_0}$, where $|K|_\infty$ and $|K|_0$ respectively denote the greatest and the smallest edge lengths of $K$.
static double TetJacobian (vtkCell cell)
 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 double TetMinAngle (vtkCell cell)
 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 double TetRadiusRatio (vtkCell cell)
 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 $K$ is: $\frac{R}{3r}$, where $R$ and $r$ respectively denote the circumradius and the inradius of $K$.
static double TetRelativeSizeSquared (vtkCell cell)
 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 double TetScaledJacobian (vtkCell cell)
 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 double TetShape (vtkCell cell)
 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 double TetShapeandSize (vtkCell cell)
 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 double TetVolume (vtkCell cell)
 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 double TriangleArea (vtkCell cell)
 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.
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. 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 $t$, when the reference element is equilateral, is: $\frac{|t|^2_2}{2\sqrt{3}{\cal A}}$, where $|t|^2_2$ and $\cal A$ respectively denote the sum of the squared edge lengths and the area of $t$.
static double TriangleAspectRatio (vtkCell cell)
 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 $t$ is: $\frac{|t|_\infty}{2\sqrt{3}r}$, where $|t|_\infty$ and $r$ respectively denote the greatest edge length and the inradius of $t$.
static double TriangleCondition (vtkCell cell)
 Description 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.
static double TriangleDistortion (vtkCell cell)
 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 double TriangleEdgeRatio (vtkCell cell)
 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 $t$ is: $\frac{|t|_\infty}{|t|_0}$, where $|t|_\infty$ and $|t|_0$ respectively denote the greatest and the smallest edge lengths of $t$.
static double TriangleMaxAngle (vtkCell cell)
 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.
static double TriangleMinAngle (vtkCell cell)
 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 double TriangleRadiusRatio (vtkCell cell)
 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 $t$ is: $\frac{R}{2r}$, where $R$ and $r$ respectively denote the circumradius and the inradius of $t$.
static double TriangleRelativeSizeSquared (vtkCell cell)
 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 double TriangleScaledJacobian (vtkCell cell)
 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.
static double TriangleShape (vtkCell cell)
 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 double TriangleShapeAndSize (vtkCell cell)
 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.

Public Attributes

new const string MRFullTypeName = "Kitware.VTK.vtkMeshQuality"
 Automatically generated type registration mechanics.

Static Public Attributes

static new readonly string MRClassNameKey = "14vtkMeshQuality"
 Automatically generated type registration mechanics.

Protected Member Functions

override void Dispose (bool disposing)
 Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly.

Private Member Functions

static internal IntPtr vtkMeshQuality_New (ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkMeshQuality_CompatibilityModeOff_01 (HandleRef pThis)
static internal void vtkMeshQuality_CompatibilityModeOn_02 (HandleRef pThis)
static internal int vtkMeshQuality_GetCompatibilityMode_03 (HandleRef pThis)
static internal int vtkMeshQuality_GetHexQualityMeasure_04 (HandleRef pThis)
static internal int vtkMeshQuality_GetQuadQualityMeasure_05 (HandleRef pThis)
static internal int vtkMeshQuality_GetRatio_06 (HandleRef pThis)
static internal int vtkMeshQuality_GetSaveCellQuality_07 (HandleRef pThis)
static internal int vtkMeshQuality_GetTetQualityMeasure_08 (HandleRef pThis)
static internal int vtkMeshQuality_GetTriangleQualityMeasure_09 (HandleRef pThis)
static internal int vtkMeshQuality_GetVolume_10 (HandleRef pThis)
static internal double vtkMeshQuality_HexCondition_11 (HandleRef cell)
static internal double vtkMeshQuality_HexDiagonal_12 (HandleRef cell)
static internal double vtkMeshQuality_HexDimension_13 (HandleRef cell)
static internal double vtkMeshQuality_HexDistortion_14 (HandleRef cell)
static internal double vtkMeshQuality_HexEdgeRatio_15 (HandleRef cell)
static internal double vtkMeshQuality_HexJacobian_16 (HandleRef cell)
static internal double vtkMeshQuality_HexMaxAspectFrobenius_17 (HandleRef cell)
static internal double vtkMeshQuality_HexMaxEdgeRatio_18 (HandleRef cell)
static internal double vtkMeshQuality_HexMedAspectFrobenius_19 (HandleRef cell)
static internal double vtkMeshQuality_HexOddy_20 (HandleRef cell)
static internal double vtkMeshQuality_HexRelativeSizeSquared_21 (HandleRef cell)
static internal double vtkMeshQuality_HexScaledJacobian_22 (HandleRef cell)
static internal double vtkMeshQuality_HexShape_23 (HandleRef cell)
static internal double vtkMeshQuality_HexShapeAndSize_24 (HandleRef cell)
static internal double vtkMeshQuality_HexShear_25 (HandleRef cell)
static internal double vtkMeshQuality_HexShearAndSize_26 (HandleRef cell)
static internal double vtkMeshQuality_HexSkew_27 (HandleRef cell)
static internal double vtkMeshQuality_HexStretch_28 (HandleRef cell)
static internal double vtkMeshQuality_HexTaper_29 (HandleRef cell)
static internal double vtkMeshQuality_HexVolume_30 (HandleRef cell)
static internal int vtkMeshQuality_IsA_31 (HandleRef pThis, string type)
static internal int vtkMeshQuality_IsTypeOf_32 (string type)
static internal IntPtr vtkMeshQuality_NewInstance_34 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal double vtkMeshQuality_QuadArea_35 (HandleRef cell)
static internal double vtkMeshQuality_QuadAspectRatio_36 (HandleRef cell)
static internal double vtkMeshQuality_QuadCondition_37 (HandleRef cell)
static internal double vtkMeshQuality_QuadDistortion_38 (HandleRef cell)
static internal double vtkMeshQuality_QuadEdgeRatio_39 (HandleRef cell)
static internal double vtkMeshQuality_QuadJacobian_40 (HandleRef cell)
static internal double vtkMeshQuality_QuadMaxAngle_41 (HandleRef cell)
static internal double vtkMeshQuality_QuadMaxAspectFrobenius_42 (HandleRef cell)
static internal double vtkMeshQuality_QuadMaxEdgeRatios_43 (HandleRef cell)
static internal double vtkMeshQuality_QuadMedAspectFrobenius_44 (HandleRef cell)
static internal double vtkMeshQuality_QuadMinAngle_45 (HandleRef cell)
static internal double vtkMeshQuality_QuadOddy_46 (HandleRef cell)
static internal double vtkMeshQuality_QuadRadiusRatio_47 (HandleRef cell)
static internal double vtkMeshQuality_QuadRelativeSizeSquared_48 (HandleRef cell)
static internal double vtkMeshQuality_QuadScaledJacobian_49 (HandleRef cell)
static internal double vtkMeshQuality_QuadShape_50 (HandleRef cell)
static internal double vtkMeshQuality_QuadShapeAndSize_51 (HandleRef cell)
static internal double vtkMeshQuality_QuadShear_52 (HandleRef cell)
static internal double vtkMeshQuality_QuadShearAndSize_53 (HandleRef cell)
static internal double vtkMeshQuality_QuadSkew_54 (HandleRef cell)
static internal double vtkMeshQuality_QuadStretch_55 (HandleRef cell)
static internal double vtkMeshQuality_QuadTaper_56 (HandleRef cell)
static internal double vtkMeshQuality_QuadWarpage_57 (HandleRef cell)
static internal void vtkMeshQuality_RatioOff_58 (HandleRef pThis)
static internal void vtkMeshQuality_RatioOn_59 (HandleRef pThis)
static internal IntPtr vtkMeshQuality_SafeDownCast_60 (HandleRef o, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkMeshQuality_SaveCellQualityOff_61 (HandleRef pThis)
static internal void vtkMeshQuality_SaveCellQualityOn_62 (HandleRef pThis)
static internal void vtkMeshQuality_SetCompatibilityMode_63 (HandleRef pThis, int cm)
static internal void vtkMeshQuality_SetHexQualityMeasure_64 (HandleRef pThis, int _arg)
static internal void vtkMeshQuality_SetHexQualityMeasureToCondition_65 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToDiagonal_66 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToDimension_67 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToDistortion_68 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToEdgeRatio_69 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToJacobian_70 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToMaxAspectFrobenius_71 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToMaxEdgeRatios_72 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToMedAspectFrobenius_73 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToOddy_74 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToRelativeSizeSquared_75 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToScaledJacobian_76 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToShape_77 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToShapeAndSize_78 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToShear_79 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToShearAndSize_80 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToSkew_81 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToStretch_82 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToTaper_83 (HandleRef pThis)
static internal void vtkMeshQuality_SetHexQualityMeasureToVolume_84 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasure_85 (HandleRef pThis, int _arg)
static internal void vtkMeshQuality_SetQuadQualityMeasureToArea_86 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToAspectRatio_87 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToCondition_88 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToDistortion_89 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToEdgeRatio_90 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToJacobian_91 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToMaxAngle_92 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToMaxAspectFrobenius_93 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToMaxEdgeRatios_94 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToMedAspectFrobenius_95 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToMinAngle_96 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToOddy_97 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToRadiusRatio_98 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToRelativeSizeSquared_99 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToScaledJacobian_100 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToShape_101 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToShapeAndSize_102 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToShear_103 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToShearAndSize_104 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToSkew_105 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToStretch_106 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToTaper_107 (HandleRef pThis)
static internal void vtkMeshQuality_SetQuadQualityMeasureToWarpage_108 (HandleRef pThis)
static internal void vtkMeshQuality_SetRatio_109 (HandleRef pThis, int r)
static internal void vtkMeshQuality_SetSaveCellQuality_110 (HandleRef pThis, int _arg)
static internal void vtkMeshQuality_SetTetQualityMeasure_111 (HandleRef pThis, int _arg)
static internal void vtkMeshQuality_SetTetQualityMeasureToAspectBeta_112 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToAspectFrobenius_113 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToAspectGamma_114 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToAspectRatio_115 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToCollapseRatio_116 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToCondition_117 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToDistortion_118 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToEdgeRatio_119 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToJacobian_120 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToMinAngle_121 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToRadiusRatio_122 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToRelativeSizeSquared_123 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToScaledJacobian_124 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToShape_125 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToShapeAndSize_126 (HandleRef pThis)
static internal void vtkMeshQuality_SetTetQualityMeasureToVolume_127 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasure_128 (HandleRef pThis, int _arg)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToArea_129 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToAspectFrobenius_130 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToAspectRatio_131 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToCondition_132 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToDistortion_133 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToEdgeRatio_134 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToMaxAngle_135 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToMinAngle_136 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToRadiusRatio_137 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToRelativeSizeSquared_138 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToScaledJacobian_139 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToShape_140 (HandleRef pThis)
static internal void vtkMeshQuality_SetTriangleQualityMeasureToShapeAndSize_141 (HandleRef pThis)
static internal void vtkMeshQuality_SetVolume_142 (HandleRef pThis, int cv)
static internal double vtkMeshQuality_TetAspectBeta_143 (HandleRef cell)
static internal double vtkMeshQuality_TetAspectFrobenius_144 (HandleRef cell)
static internal double vtkMeshQuality_TetAspectGamma_145 (HandleRef cell)
static internal double vtkMeshQuality_TetAspectRatio_146 (HandleRef cell)
static internal double vtkMeshQuality_TetCollapseRatio_147 (HandleRef cell)
static internal double vtkMeshQuality_TetCondition_148 (HandleRef cell)
static internal double vtkMeshQuality_TetDistortion_149 (HandleRef cell)
static internal double vtkMeshQuality_TetEdgeRatio_150 (HandleRef cell)
static internal double vtkMeshQuality_TetJacobian_151 (HandleRef cell)
static internal double vtkMeshQuality_TetMinAngle_152 (HandleRef cell)
static internal double vtkMeshQuality_TetRadiusRatio_153 (HandleRef cell)
static internal double vtkMeshQuality_TetRelativeSizeSquared_154 (HandleRef cell)
static internal double vtkMeshQuality_TetScaledJacobian_155 (HandleRef cell)
static internal double vtkMeshQuality_TetShape_156 (HandleRef cell)
static internal double vtkMeshQuality_TetShapeandSize_157 (HandleRef cell)
static internal double vtkMeshQuality_TetVolume_158 (HandleRef cell)
static internal double vtkMeshQuality_TriangleArea_159 (HandleRef cell)
static internal double vtkMeshQuality_TriangleAspectFrobenius_160 (HandleRef cell)
static internal double vtkMeshQuality_TriangleAspectRatio_161 (HandleRef cell)
static internal double vtkMeshQuality_TriangleCondition_162 (HandleRef cell)
static internal double vtkMeshQuality_TriangleDistortion_163 (HandleRef cell)
static internal double vtkMeshQuality_TriangleEdgeRatio_164 (HandleRef cell)
static internal double vtkMeshQuality_TriangleMaxAngle_165 (HandleRef cell)
static internal double vtkMeshQuality_TriangleMinAngle_166 (HandleRef cell)
static internal double vtkMeshQuality_TriangleRadiusRatio_167 (HandleRef cell)
static internal double vtkMeshQuality_TriangleRelativeSizeSquared_168 (HandleRef cell)
static internal double vtkMeshQuality_TriangleScaledJacobian_169 (HandleRef cell)
static internal double vtkMeshQuality_TriangleShape_170 (HandleRef cell)
static internal double vtkMeshQuality_TriangleShapeAndSize_171 (HandleRef cell)
static internal void vtkMeshQuality_VolumeOff_172 (HandleRef pThis)
static internal void vtkMeshQuality_VolumeOn_173 (HandleRef pThis)

Static Private Member Functions

static vtkMeshQuality ()
 Automatically generated type registration mechanics.

Detailed Description

vtkMeshQuality - Calculate functions of quality of the elements of a mesh

Description 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.

Caveats While more general than before, this class does not address many cell types, including wedges and pyramids in 3D and triangle strips and fans in 2D (among others). Most quadrilateral quality functions are intended for planar quadrilaterals only. The minimal angle is not, strictly speaking, a quality function, but it is provided because of its useage by many authors.


Constructor & Destructor Documentation

static Kitware.VTK.vtkMeshQuality.vtkMeshQuality ( ) [static, private]

Automatically generated type registration mechanics.

Kitware.VTK.vtkMeshQuality.vtkMeshQuality ( IntPtr  rawCppThis,
bool  callDisposalMethod,
bool  strong 
)

Automatically generated constructor - called from generated code. DO NOT call directly.

Undocumented Block.


Member Function Documentation

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.

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.

override void Kitware.VTK.vtkMeshQuality.Dispose ( bool  disposing) [protected]

Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly.

Reimplemented from Kitware.VTK.vtkDataSetAlgorithm.

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.

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.

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.

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.

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).

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.

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.

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.

static double Kitware.VTK.vtkMeshQuality.HexCondition ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexDiagonal ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexDimension ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexDistortion ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexEdgeRatio ( vtkCell  cell) [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 $H$ is: $\frac{|H|_\infty}{|H|_0}$, where $|H|_\infty$ and $|H|_0$ respectively denote the greatest and the smallest edge lengths of $H$.

static double Kitware.VTK.vtkMeshQuality.HexJacobian ( vtkCell  cell) [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.

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 double Kitware.VTK.vtkMeshQuality.HexMaxEdgeRatio ( vtkCell  cell) [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.

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 double Kitware.VTK.vtkMeshQuality.HexOddy ( vtkCell  cell) [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.

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 double Kitware.VTK.vtkMeshQuality.HexScaledJacobian ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexShape ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexShapeAndSize ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexShear ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexShearAndSize ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexSkew ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexStretch ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexTaper ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.HexVolume ( vtkCell  cell) [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.

override int Kitware.VTK.vtkMeshQuality.IsA ( string  type) [virtual]

Undocumented Block.

Reimplemented from Kitware.VTK.vtkDataSetAlgorithm.

static new int Kitware.VTK.vtkMeshQuality.IsTypeOf ( string  type) [static]

Undocumented Block.

Reimplemented from Kitware.VTK.vtkDataSetAlgorithm.

Undocumented Block.

Reimplemented from Kitware.VTK.vtkDataSetAlgorithm.

Undocumented Block.

Reimplemented from Kitware.VTK.vtkDataSetAlgorithm.

static double Kitware.VTK.vtkMeshQuality.QuadArea ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadAspectRatio ( vtkCell  cell) [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 $q$ is: $\frac{|q|_1|q|_\infty}{4{\cal A}}$, where $|q|_1$, $|q|_\infty$ and ${\cal A}$ respectively denote the perimeter, the greatest edge length and the area of $q$.

static double Kitware.VTK.vtkMeshQuality.QuadCondition ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadDistortion ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadEdgeRatio ( vtkCell  cell) [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 $q$ is: $\frac{|q|_\infty}{|q|_0}$, where $|q|_\infty$ and $|q|_0$ respectively denote the greatest and the smallest edge lengths of $q$.

static double Kitware.VTK.vtkMeshQuality.QuadJacobian ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadMaxAngle ( vtkCell  cell) [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.

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 $t$, when the reference element is right isosceles at vertex $V$, is: $\frac{f^2+g^2}{4{\cal A}}$, where $f^2+g^2$ and $\cal A$ respectively denote the sum of the squared lengths of the edges attached to $V$ and the area of $t$.

static double Kitware.VTK.vtkMeshQuality.QuadMaxEdgeRatios ( vtkCell  cell) [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.

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 $t$, when the reference element is right isosceles at vertex $V$, is: $\frac{f^2+g^2}{4{\cal A}}$, where $f^2+g^2$ and $\cal A$ respectively denote the sum of the squared lengths of the edges attached to $V$ and the area of $t$.

static double Kitware.VTK.vtkMeshQuality.QuadMinAngle ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadOddy ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadRadiusRatio ( vtkCell  cell) [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 $q$ is: $\frac{|q|_2h_{\max}}{\min_i{\cal A}_i}$, where $|q|_2$, $h_{\max}$ and $\min{\cal A}_i$ 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 $q$.

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 double Kitware.VTK.vtkMeshQuality.QuadScaledJacobian ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadShape ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadShapeAndSize ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadShear ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadShearAndSize ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadSkew ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadStretch ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadTaper ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.QuadWarpage ( vtkCell  cell) [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.

virtual void Kitware.VTK.vtkMeshQuality.RatioOff ( ) [virtual]

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.

virtual void Kitware.VTK.vtkMeshQuality.RatioOn ( ) [virtual]

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.

Undocumented Block.

Reimplemented from Kitware.VTK.vtkDataSetAlgorithm.

Here is the call graph for this function:

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).

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).

virtual void Kitware.VTK.vtkMeshQuality.SetCompatibilityMode ( int  cm) [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 void Kitware.VTK.vtkMeshQuality.SetHexQualityMeasure ( int  _arg) [virtual]

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

virtual void Kitware.VTK.vtkMeshQuality.SetQuadQualityMeasure ( int  _arg) [virtual]

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

virtual void Kitware.VTK.vtkMeshQuality.SetRatio ( int  r) [virtual]

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.

virtual void Kitware.VTK.vtkMeshQuality.SetSaveCellQuality ( int  _arg) [virtual]

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).

virtual void Kitware.VTK.vtkMeshQuality.SetTetQualityMeasure ( int  _arg) [virtual]

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

virtual void Kitware.VTK.vtkMeshQuality.SetTriangleQualityMeasure ( int  _arg) [virtual]

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

virtual void Kitware.VTK.vtkMeshQuality.SetVolume ( int  cv) [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.

static double Kitware.VTK.vtkMeshQuality.TetAspectBeta ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetAspectFrobenius ( vtkCell  cell) [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 $K$, when the reference element is regular, is: $\frac{\frac{3}{2}(l_{11}+l_{22}+l_{33}) - (l_{12}+l_{13}+l_{23})} {3(\sqrt{2}\det{T})^\frac{2}{3}}$, where $T$ and $l_{ij}$ respectively denote the edge matrix of $K$ and the entries of $L=T^t\,T$.

static double Kitware.VTK.vtkMeshQuality.TetAspectGamma ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetAspectRatio ( vtkCell  cell) [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 $K$ is: $\frac{|K|_\infty}{2\sqrt{6}r}$, where $|K|_\infty$ and $r$ respectively denote the greatest edge length and the inradius of $K$.

static double Kitware.VTK.vtkMeshQuality.TetCollapseRatio ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetCondition ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetDistortion ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetEdgeRatio ( vtkCell  cell) [static]

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 $K$ is: $\frac{|K|_\infty}{|K|_0}$, where $|K|_\infty$ and $|K|_0$ respectively denote the greatest and the smallest edge lengths of $K$.

static double Kitware.VTK.vtkMeshQuality.TetJacobian ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetMinAngle ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetRadiusRatio ( vtkCell  cell) [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 $K$ is: $\frac{R}{3r}$, where $R$ and $r$ respectively denote the circumradius and the inradius of $K$.

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 double Kitware.VTK.vtkMeshQuality.TetScaledJacobian ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetShape ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetShapeandSize ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TetVolume ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TriangleArea ( vtkCell  cell) [static]

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.

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 $t$, when the reference element is equilateral, is: $\frac{|t|^2_2}{2\sqrt{3}{\cal A}}$, where $|t|^2_2$ and $\cal A$ respectively denote the sum of the squared edge lengths and the area of $t$.

static double Kitware.VTK.vtkMeshQuality.TriangleAspectRatio ( vtkCell  cell) [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 $t$ is: $\frac{|t|_\infty}{2\sqrt{3}r}$, where $|t|_\infty$ and $r$ respectively denote the greatest edge length and the inradius of $t$.

static double Kitware.VTK.vtkMeshQuality.TriangleCondition ( vtkCell  cell) [static]

Description 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.

static double Kitware.VTK.vtkMeshQuality.TriangleDistortion ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TriangleEdgeRatio ( vtkCell  cell) [static]

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 $t$ is: $\frac{|t|_\infty}{|t|_0}$, where $|t|_\infty$ and $|t|_0$ respectively denote the greatest and the smallest edge lengths of $t$.

static double Kitware.VTK.vtkMeshQuality.TriangleMaxAngle ( vtkCell  cell) [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.

static double Kitware.VTK.vtkMeshQuality.TriangleMinAngle ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TriangleRadiusRatio ( vtkCell  cell) [static]

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 $t$ is: $\frac{R}{2r}$, where $R$ and $r$ respectively denote the circumradius and the inradius of $t$.

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.

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.

static double Kitware.VTK.vtkMeshQuality.TriangleShape ( vtkCell  cell) [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 double Kitware.VTK.vtkMeshQuality.TriangleShapeAndSize ( vtkCell  cell) [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.

virtual void Kitware.VTK.vtkMeshQuality.VolumeOff ( ) [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 void Kitware.VTK.vtkMeshQuality.VolumeOn ( ) [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.

static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_CompatibilityModeOff_01 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_CompatibilityModeOn_02 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_GetCompatibilityMode_03 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_GetHexQualityMeasure_04 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_GetQuadQualityMeasure_05 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_GetRatio_06 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_GetSaveCellQuality_07 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_GetTetQualityMeasure_08 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_GetTriangleQualityMeasure_09 ( HandleRef  pThis) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_GetVolume_10 ( HandleRef  pThis) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexCondition_11 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexDiagonal_12 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexDimension_13 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexDistortion_14 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexEdgeRatio_15 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexJacobian_16 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexMaxAspectFrobenius_17 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexMaxEdgeRatio_18 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexMedAspectFrobenius_19 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexOddy_20 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexRelativeSizeSquared_21 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexScaledJacobian_22 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexShape_23 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexShapeAndSize_24 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexShear_25 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexShearAndSize_26 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexSkew_27 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexStretch_28 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexTaper_29 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_HexVolume_30 ( HandleRef  cell) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_IsA_31 ( HandleRef  pThis,
string  type 
) [private]
static internal int Kitware.VTK.vtkMeshQuality.vtkMeshQuality_IsTypeOf_32 ( string  type) [private]
static internal IntPtr Kitware.VTK.vtkMeshQuality.vtkMeshQuality_New ( ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkMeshQuality.vtkMeshQuality_NewInstance_34 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadArea_35 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadAspectRatio_36 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadCondition_37 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadDistortion_38 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadEdgeRatio_39 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadJacobian_40 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadMaxAngle_41 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadMaxAspectFrobenius_42 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadMaxEdgeRatios_43 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadMedAspectFrobenius_44 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadMinAngle_45 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadOddy_46 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadRadiusRatio_47 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadRelativeSizeSquared_48 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadScaledJacobian_49 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadShape_50 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadShapeAndSize_51 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadShear_52 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadShearAndSize_53 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadSkew_54 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadStretch_55 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadTaper_56 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_QuadWarpage_57 ( HandleRef  cell) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_RatioOff_58 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_RatioOn_59 ( HandleRef  pThis) [private]
static internal IntPtr Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SafeDownCast_60 ( HandleRef  o,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SaveCellQualityOff_61 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SaveCellQualityOn_62 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetCompatibilityMode_63 ( HandleRef  pThis,
int  cm 
) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasure_64 ( HandleRef  pThis,
int  _arg 
) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToCondition_65 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToDiagonal_66 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToDimension_67 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToDistortion_68 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToEdgeRatio_69 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToJacobian_70 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToMaxEdgeRatios_72 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToOddy_74 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToScaledJacobian_76 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToShape_77 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToShapeAndSize_78 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToShear_79 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToShearAndSize_80 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToSkew_81 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToStretch_82 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToTaper_83 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetHexQualityMeasureToVolume_84 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasure_85 ( HandleRef  pThis,
int  _arg 
) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToArea_86 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToAspectRatio_87 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToCondition_88 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToDistortion_89 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToEdgeRatio_90 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToJacobian_91 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToMaxAngle_92 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToMaxEdgeRatios_94 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToMinAngle_96 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToOddy_97 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToRadiusRatio_98 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToShape_101 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToShapeAndSize_102 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToShear_103 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToShearAndSize_104 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToSkew_105 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToStretch_106 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToTaper_107 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetQuadQualityMeasureToWarpage_108 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetRatio_109 ( HandleRef  pThis,
int  r 
) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetSaveCellQuality_110 ( HandleRef  pThis,
int  _arg 
) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasure_111 ( HandleRef  pThis,
int  _arg 
) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToAspectBeta_112 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToAspectGamma_114 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToAspectRatio_115 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToCollapseRatio_116 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToCondition_117 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToDistortion_118 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToEdgeRatio_119 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToJacobian_120 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToMinAngle_121 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToRadiusRatio_122 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToShape_125 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToShapeAndSize_126 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTetQualityMeasureToVolume_127 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTriangleQualityMeasure_128 ( HandleRef  pThis,
int  _arg 
) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTriangleQualityMeasureToArea_129 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTriangleQualityMeasureToMaxAngle_135 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTriangleQualityMeasureToMinAngle_136 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetTriangleQualityMeasureToShape_140 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_SetVolume_142 ( HandleRef  pThis,
int  cv 
) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetAspectBeta_143 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetAspectFrobenius_144 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetAspectGamma_145 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetAspectRatio_146 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetCollapseRatio_147 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetCondition_148 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetDistortion_149 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetEdgeRatio_150 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetJacobian_151 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetMinAngle_152 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetRadiusRatio_153 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetRelativeSizeSquared_154 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetScaledJacobian_155 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetShape_156 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetShapeandSize_157 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TetVolume_158 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleArea_159 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleAspectFrobenius_160 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleAspectRatio_161 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleCondition_162 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleDistortion_163 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleEdgeRatio_164 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleMaxAngle_165 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleMinAngle_166 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleRadiusRatio_167 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleRelativeSizeSquared_168 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleScaledJacobian_169 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleShape_170 ( HandleRef  cell) [private]
static internal double Kitware.VTK.vtkMeshQuality.vtkMeshQuality_TriangleShapeAndSize_171 ( HandleRef  cell) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_VolumeOff_172 ( HandleRef  pThis) [private]
static internal void Kitware.VTK.vtkMeshQuality.vtkMeshQuality_VolumeOn_173 ( HandleRef  pThis) [private]

Member Data Documentation

new readonly string Kitware.VTK.vtkMeshQuality.MRClassNameKey = "14vtkMeshQuality" [static]

Automatically generated type registration mechanics.

Reimplemented from Kitware.VTK.vtkDataSetAlgorithm.

new const string Kitware.VTK.vtkMeshQuality.MRFullTypeName = "Kitware.VTK.vtkMeshQuality"

Automatically generated type registration mechanics.

Reimplemented from Kitware.VTK.vtkDataSetAlgorithm.


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