Section: Visualization Toolkit Graphics Classes
To create an instance of class vtkHyperOctreeFractalSource, simply invoke its constructor as follows
obj = vtkHyperOctreeFractalSource
obj
is an instance of the vtkHyperOctreeFractalSource class.
string = obj.GetClassName ()
int = obj.IsA (string name)
vtkHyperOctreeFractalSource = obj.NewInstance ()
vtkHyperOctreeFractalSource = obj.SafeDownCast (vtkObject o)
int = obj.GetMaximumLevel ()
- Return the maximum number of levels of the hyperoctree.
\post positive_result: result>=1
obj.SetMaximumLevel (int levels)
- Set the maximum number of levels of the hyperoctree. If
GetMinLevels()>=levels, GetMinLevels() is changed to levels-1.
\pre positive_levels: levels>=1
\post is_set: this->GetLevels()==levels
\post min_is_valid: this->GetMinLevels()<this->GetLevels()
obj.SetMinimumLevel (int level)
- Return the minimal number of levels of systematic subdivision.
\post positive_result: result>=0
int = obj.GetMinimumLevel ()
- Return the minimal number of levels of systematic subdivision.
\post positive_result: result>=0
obj.SetProjectionAxes (int x, int y, int z)
- Set the projection from the 4D space (4 parameters / 2 imaginary numbers)
to the axes of the 3D Volume.
0=C_Real, 1=C_Imaginary, 2=X_Real, 4=X_Imaginary
obj.SetProjectionAxes (int a[3])
- Set the projection from the 4D space (4 parameters / 2 imaginary numbers)
to the axes of the 3D Volume.
0=C_Real, 1=C_Imaginary, 2=X_Real, 4=X_Imaginary
int = obj. GetProjectionAxes ()
- Set the projection from the 4D space (4 parameters / 2 imaginary numbers)
to the axes of the 3D Volume.
0=C_Real, 1=C_Imaginary, 2=X_Real, 4=X_Imaginary
obj.SetOriginCX (double , double , double , double )
- Imaginary and real value for C (constant in equation)
and X (initial value).
obj.SetOriginCX (double a[4])
- Imaginary and real value for C (constant in equation)
and X (initial value).
double = obj. GetOriginCX ()
- Imaginary and real value for C (constant in equation)
and X (initial value).
obj.SetSizeCX (double , double , double , double )
- Just a different way of setting the sample.
This sets the size of the 4D volume.
SampleCX is computed from size and extent.
Size is ignored when a dimension i 0 (collapsed).
obj.SetSizeCX (double a[4])
- Just a different way of setting the sample.
This sets the size of the 4D volume.
SampleCX is computed from size and extent.
Size is ignored when a dimension i 0 (collapsed).
double = obj. GetSizeCX ()
- Just a different way of setting the sample.
This sets the size of the 4D volume.
SampleCX is computed from size and extent.
Size is ignored when a dimension i 0 (collapsed).
obj.SetMaximumNumberOfIterations (short )
- The maximum number of cycles run to see if the value goes over 2
GetMaximumNumberOfIterationsMinValue = obj.()
- The maximum number of cycles run to see if the value goes over 2
GetMaximumNumberOfIterationsMaxValue = obj.()
- The maximum number of cycles run to see if the value goes over 2
char = obj.GetMaximumNumberOfIterations ()
- The maximum number of cycles run to see if the value goes over 2
obj.SetDimension (int )
- Create a 2D or 3D fractal.
int = obj.GetDimensionMinValue ()
- Create a 2D or 3D fractal.
int = obj.GetDimensionMaxValue ()
- Create a 2D or 3D fractal.
int = obj.GetDimension ()
- Create a 2D or 3D fractal.
obj.SetSpanThreshold (double )
- Controls when a leaf gets subdivided. If the corner values span
a larger range than this value, the leaf is subdivided. This
defaults to 2.
double = obj.GetSpanThreshold ()
- Controls when a leaf gets subdivided. If the corner values span
a larger range than this value, the leaf is subdivided. This
defaults to 2.